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mirror of https://github.com/google/comprehensive-rust.git synced 2024-12-15 06:20:32 +02:00
comprehensive-rust/po/ja.po
Kanta Yamaoka (山岡幹太) b1f6851bec
ja: Translate Chapter 25 (Traits) (#1436)
Konnichiwa, JP translation folks #652. Here's a MR for **Traits**
chapter. I'm open to suggestions and feedback :) Could you take a look
at it? Thank you!
2024-01-04 16:38:34 +09:00

17034 lines
540 KiB
Plaintext

msgid ""
msgstr ""
"Project-Id-Version: Comprehensive Rust 🦀\n"
"POT-Creation-Date: 2023-10-15T23:41:50Z\n"
"PO-Revision-Date: 2023-06-06 13:18+0900\n"
"Last-Translator: Kenta Aratani <kentaaratani@coinez.jp>\n"
"Language-Team: Japanese <translation-team-ja@lists.sourceforge.net>\n"
"Language: ja\n"
"MIME-Version: 1.0\n"
"Content-Type: text/plain; charset=UTF-8\n"
"Content-Transfer-Encoding: 8bit\n"
"Plural-Forms: nplurals=1; plural=0;\n"
"X-Generator: Poedit 3.3.2\n"
#: src/SUMMARY.md:4 src/index.md:1
msgid "Welcome to Comprehensive Rust 🦀"
msgstr ""
#: src/SUMMARY.md:5 src/running-the-course.md:1
msgid "Running the Course"
msgstr "講座の運営について"
#: src/SUMMARY.md:6 src/running-the-course/course-structure.md:1
msgid "Course Structure"
msgstr ""
#: src/SUMMARY.md:7 src/running-the-course/keyboard-shortcuts.md:1
msgid "Keyboard Shortcuts"
msgstr ""
#: src/SUMMARY.md:8 src/running-the-course/translations.md:1
msgid "Translations"
msgstr "翻訳"
#: src/SUMMARY.md:9 src/cargo.md:1
msgid "Using Cargo"
msgstr ""
#: src/SUMMARY.md:10
msgid "Rust Ecosystem"
msgstr ""
#: src/SUMMARY.md:11
msgid "Code Samples"
msgstr ""
#: src/SUMMARY.md:12
msgid "Running Cargo Locally"
msgstr "ローカル環境での実行"
#: src/SUMMARY.md:15
msgid "Day 1: Morning"
msgstr "Day 1: AM"
#: src/SUMMARY.md:19 src/SUMMARY.md:80 src/SUMMARY.md:135 src/SUMMARY.md:193
#: src/SUMMARY.md:219 src/SUMMARY.md:269
msgid "Welcome"
msgstr "Welcome"
#: src/SUMMARY.md:20 src/welcome-day-1/what-is-rust.md:1
msgid "What is Rust?"
msgstr "Rustとは?"
#: src/SUMMARY.md:21 src/hello-world.md:1
msgid "Hello World!"
msgstr ""
#: src/SUMMARY.md:22 src/hello-world/small-example.md:1
msgid "Small Example"
msgstr "プログラムの例"
#: src/SUMMARY.md:23 src/why-rust.md:1
msgid "Why Rust?"
msgstr ""
#: src/SUMMARY.md:24 src/why-rust/an-example-in-c.md:1 src/credits.md:32
#, fuzzy
msgid "An Example in C"
msgstr "例"
#: src/SUMMARY.md:25 src/why-rust/compile-time.md:1
msgid "Compile Time Guarantees"
msgstr "コンパイル時の保証"
#: src/SUMMARY.md:26 src/why-rust/runtime.md:1
msgid "Runtime Guarantees"
msgstr "実行時の保証"
#: src/SUMMARY.md:27 src/why-rust/modern.md:1
msgid "Modern Features"
msgstr "現代的な機能"
#: src/SUMMARY.md:28 src/basic-syntax.md:1
msgid "Basic Syntax"
msgstr ""
#: src/SUMMARY.md:29 src/basic-syntax/scalar-types.md:1
msgid "Scalar Types"
msgstr ""
#: src/SUMMARY.md:30 src/basic-syntax/compound-types.md:1
msgid "Compound Types"
msgstr ""
#: src/SUMMARY.md:31 src/basic-syntax/references.md:1
msgid "References"
msgstr ""
#: src/SUMMARY.md:32 src/basic-syntax/references-dangling.md:1
msgid "Dangling References"
msgstr ""
#: src/SUMMARY.md:33 src/basic-syntax/slices.md:1
msgid "Slices"
msgstr "スライス型"
#: src/SUMMARY.md:34
msgid "String vs str"
msgstr "文字列(String) vs 文字列スライス(str)"
#: src/SUMMARY.md:35 src/basic-syntax/functions.md:1
msgid "Functions"
msgstr "関数"
#: src/SUMMARY.md:36 src/basic-syntax/rustdoc.md:1
msgid "Rustdoc"
msgstr "Rustdoc"
#: src/SUMMARY.md:37 src/SUMMARY.md:103 src/basic-syntax/methods.md:1
#: src/methods.md:1
msgid "Methods"
msgstr "メソッド"
#: src/SUMMARY.md:38
msgid "Overloading"
msgstr "オーバーロード"
#: src/SUMMARY.md:39 src/SUMMARY.md:72 src/SUMMARY.md:106 src/SUMMARY.md:126
#: src/SUMMARY.md:155 src/SUMMARY.md:185 src/SUMMARY.md:212 src/SUMMARY.md:233
#: src/SUMMARY.md:261 src/SUMMARY.md:283 src/SUMMARY.md:304
#: src/exercises/android/morning.md:1 src/exercises/bare-metal/morning.md:1
#: src/exercises/bare-metal/afternoon.md:1
#: src/exercises/concurrency/morning.md:1
#: src/exercises/concurrency/afternoon.md:1
msgid "Exercises"
msgstr "練習問題"
#: src/SUMMARY.md:40 src/exercises/day-1/implicit-conversions.md:1
msgid "Implicit Conversions"
msgstr "暗黙的な型変換"
#: src/SUMMARY.md:41
msgid "Arrays and for Loops"
msgstr "配列とforループ"
#: src/SUMMARY.md:43
msgid "Day 1: Afternoon"
msgstr "Day 1: PM"
#: src/SUMMARY.md:45 src/SUMMARY.md:296 src/control-flow.md:1
msgid "Control Flow"
msgstr "制御フロー"
#: src/SUMMARY.md:46 src/control-flow/blocks.md:1
msgid "Blocks"
msgstr "コードブロック"
#: src/SUMMARY.md:47
msgid "if expressions"
msgstr "if式"
#: src/SUMMARY.md:48
msgid "for expressions"
msgstr "for式"
#: src/SUMMARY.md:49
msgid "while expressions"
msgstr "while式"
#: src/SUMMARY.md:50
msgid "break & continue"
msgstr "break & continue"
#: src/SUMMARY.md:51
msgid "loop expressions"
msgstr "loop式"
#: src/SUMMARY.md:53 src/basic-syntax/variables.md:1
msgid "Variables"
msgstr "変数"
#: src/SUMMARY.md:54 src/basic-syntax/type-inference.md:1
msgid "Type Inference"
msgstr "型推論"
#: src/SUMMARY.md:55
msgid "static & const"
msgstr "static & const"
#: src/SUMMARY.md:56 src/basic-syntax/scopes-shadowing.md:1
msgid "Scopes and Shadowing"
msgstr "スコープとシャドーイング"
#: src/SUMMARY.md:57 src/enums.md:1
msgid "Enums"
msgstr "列挙型(enums)"
#: src/SUMMARY.md:58 src/enums/variant-payloads.md:1
msgid "Variant Payloads"
msgstr "列挙子のペイロード"
#: src/SUMMARY.md:59 src/enums/sizes.md:1
msgid "Enum Sizes"
msgstr "列挙型のサイズ"
#: src/SUMMARY.md:61 src/control-flow/novel.md:1
#, fuzzy
msgid "Novel Control Flow"
msgstr "制御フロー"
#: src/SUMMARY.md:62
msgid "if let expressions"
msgstr "if let式"
#: src/SUMMARY.md:63
msgid "while let expressions"
msgstr "while let式"
#: src/SUMMARY.md:64
msgid "match expressions"
msgstr "match式"
#: src/SUMMARY.md:66 src/SUMMARY.md:74 src/pattern-matching.md:1
msgid "Pattern Matching"
msgstr "パターンマッチング"
#: src/SUMMARY.md:67 src/pattern-matching/destructuring-enums.md:1
msgid "Destructuring Enums"
msgstr "列挙型編"
#: src/SUMMARY.md:68 src/pattern-matching/destructuring-structs.md:1
msgid "Destructuring Structs"
msgstr "構造体編"
#: src/SUMMARY.md:69 src/pattern-matching/destructuring-arrays.md:1
msgid "Destructuring Arrays"
msgstr "配列編"
#: src/SUMMARY.md:70 src/pattern-matching/match-guards.md:1
msgid "Match Guards"
msgstr "マッチガード"
#: src/SUMMARY.md:73 src/exercises/day-1/luhn.md:1
#: src/exercises/day-1/solutions-afternoon.md:3
msgid "Luhn Algorithm"
msgstr "Luhnアルゴリズム"
#: src/SUMMARY.md:76
msgid "Day 2: Morning"
msgstr "Day 2: AM"
#: src/SUMMARY.md:82 src/memory-management.md:1
msgid "Memory Management"
msgstr "メモリ管理"
#: src/SUMMARY.md:83
msgid "Stack vs Heap"
msgstr "スタック vs ヒープ"
#: src/SUMMARY.md:84
msgid "Stack Memory"
msgstr "スタックメモリ"
#: src/SUMMARY.md:85 src/memory-management/manual.md:1
msgid "Manual Memory Management"
msgstr "手動でのメモリ管理"
#: src/SUMMARY.md:86 src/memory-management/scope-based.md:1
msgid "Scope-Based Memory Management"
msgstr "スコープに基づくメモリ管理"
#: src/SUMMARY.md:87
msgid "Garbage Collection"
msgstr "ガベージコレクション"
#: src/SUMMARY.md:88
msgid "Rust Memory Management"
msgstr "Rustのメモリ管理"
#: src/SUMMARY.md:89 src/ownership.md:1
msgid "Ownership"
msgstr "所有権"
#: src/SUMMARY.md:90 src/ownership/move-semantics.md:1
msgid "Move Semantics"
msgstr "ムーブセマンティクス"
#: src/SUMMARY.md:91 src/ownership/moved-strings-rust.md:1
msgid "Moved Strings in Rust"
msgstr "文字列のムーブ"
#: src/SUMMARY.md:92
msgid "Double Frees in Modern C++"
msgstr "現代C++の二重解放"
#: src/SUMMARY.md:93 src/ownership/moves-function-calls.md:1
msgid "Moves in Function Calls"
msgstr "関数とムーブ"
#: src/SUMMARY.md:94 src/ownership/copy-clone.md:1
msgid "Copying and Cloning"
msgstr "コピーとクローン"
#: src/SUMMARY.md:95 src/ownership/borrowing.md:1
msgid "Borrowing"
msgstr "借用"
#: src/SUMMARY.md:96 src/ownership/shared-unique-borrows.md:1
msgid "Shared and Unique Borrows"
msgstr "共有参照と固有参照"
#: src/SUMMARY.md:97 src/ownership/lifetimes.md:1
msgid "Lifetimes"
msgstr "ライフタイム"
#: src/SUMMARY.md:98 src/ownership/lifetimes-function-calls.md:1
msgid "Lifetimes in Function Calls"
msgstr "関数とライフタイム"
#: src/SUMMARY.md:99 src/ownership/lifetimes-data-structures.md:1
msgid "Lifetimes in Data Structures"
msgstr "データ構造とライフタイム"
#: src/SUMMARY.md:100 src/structs.md:1
msgid "Structs"
msgstr "構造体(structs)"
#: src/SUMMARY.md:101 src/structs/tuple-structs.md:1
msgid "Tuple Structs"
msgstr "タプル構造体"
#: src/SUMMARY.md:102 src/structs/field-shorthand.md:1
msgid "Field Shorthand Syntax"
msgstr "フィールドの省略"
#: src/SUMMARY.md:104 src/methods/receiver.md:1
msgid "Method Receiver"
msgstr "メソッドレシーバ"
#: src/SUMMARY.md:105 src/SUMMARY.md:167 src/SUMMARY.md:282
#: src/methods/example.md:1 src/concurrency/shared_state/example.md:1
msgid "Example"
msgstr "例"
#: src/SUMMARY.md:107 src/exercises/day-2/book-library.md:1
#, fuzzy
msgid "Storing Books"
msgstr "文字列(String)"
#: src/SUMMARY.md:108 src/exercises/day-2/health-statistics.md:1
#: src/exercises/day-2/solutions-morning.md:151
msgid "Health Statistics"
msgstr "健康統計"
#: src/SUMMARY.md:110
msgid "Day 2: Afternoon"
msgstr "Day 2: PM"
#: src/SUMMARY.md:112 src/std.md:1
msgid "Standard Library"
msgstr "標準ライブラリ"
#: src/SUMMARY.md:113
msgid "Option and Result"
msgstr "OptionとResult"
#: src/SUMMARY.md:114 src/std/string.md:1
msgid "String"
msgstr "文字列(String)"
#: src/SUMMARY.md:115
msgid "Vec"
msgstr "ベクタ(Vec)"
#: src/SUMMARY.md:116
msgid "HashMap"
msgstr "ハッシュマップ(HashMap)"
#: src/SUMMARY.md:117
msgid "Box"
msgstr "ボックス(Box)"
#: src/SUMMARY.md:118
msgid "Recursive Data Types"
msgstr "再帰的データ型"
#: src/SUMMARY.md:119 src/std/box-niche.md:1
msgid "Niche Optimization"
msgstr "Niche最適化"
#: src/SUMMARY.md:120
msgid "Rc"
msgstr "Rc"
#: src/SUMMARY.md:121
msgid "Cell/RefCell"
msgstr ""
#: src/SUMMARY.md:122 src/modules.md:1
msgid "Modules"
msgstr "モジュール"
#: src/SUMMARY.md:123 src/modules/visibility.md:1
msgid "Visibility"
msgstr "可視性"
#: src/SUMMARY.md:124 src/modules/paths.md:1
msgid "Paths"
msgstr "パス"
#: src/SUMMARY.md:125 src/modules/filesystem.md:1
msgid "Filesystem Hierarchy"
msgstr "ファイルシステム階層"
#: src/SUMMARY.md:127 src/exercises/day-2/iterators-and-ownership.md:1
msgid "Iterators and Ownership"
msgstr "イテレータと所有権"
#: src/SUMMARY.md:128 src/exercises/day-2/strings-iterators.md:1
#: src/exercises/day-2/solutions-afternoon.md:3
msgid "Strings and Iterators"
msgstr "文字列とイテレータ"
#: src/SUMMARY.md:131
msgid "Day 3: Morning"
msgstr "Day 3: AM"
#: src/SUMMARY.md:136 src/generics.md:1
msgid "Generics"
msgstr "ジェネリクス(generics)"
#: src/SUMMARY.md:137 src/generics/data-types.md:1
msgid "Generic Data Types"
msgstr "ジェネリックデータ型"
#: src/SUMMARY.md:138 src/generics/methods.md:1
msgid "Generic Methods"
msgstr "ジェネリックメソッド"
#: src/SUMMARY.md:139 src/generics/monomorphization.md:1
msgid "Monomorphization"
msgstr "単相化"
#: src/SUMMARY.md:140 src/traits.md:1
msgid "Traits"
msgstr "トレイト(trait)"
#: src/SUMMARY.md:141 src/traits/trait-objects.md:1
msgid "Trait Objects"
msgstr "トレイトオブジェクト"
#: src/SUMMARY.md:142 src/traits/deriving-traits.md:1
msgid "Deriving Traits"
msgstr "トレイトの導出"
#: src/SUMMARY.md:143 src/traits/default-methods.md:1
msgid "Default Methods"
msgstr "デフォルトメソッド"
#: src/SUMMARY.md:144 src/traits/trait-bounds.md:1
msgid "Trait Bounds"
msgstr "トレイト制約"
#: src/SUMMARY.md:145
msgid "impl Trait"
msgstr "impl Trait"
#: src/SUMMARY.md:146 src/traits/important-traits.md:1
msgid "Important Traits"
msgstr "重要なトレイト"
#: src/SUMMARY.md:147
msgid "Iterator"
msgstr "Iterator"
#: src/SUMMARY.md:148 src/traits/from-iterator.md:1
msgid "FromIterator"
msgstr "FromIterator"
#: src/SUMMARY.md:149
msgid "From and Into"
msgstr "FromとInto"
#: src/SUMMARY.md:150
msgid "Read and Write"
msgstr "ReadとWrite"
#: src/SUMMARY.md:151
msgid "Drop"
msgstr "Drop"
#: src/SUMMARY.md:152
msgid "Default"
msgstr "Default"
#: src/SUMMARY.md:153
msgid "Operators: Add, Mul, ..."
msgstr "演算子: Add, Mul, …"
#: src/SUMMARY.md:154
msgid "Closures: Fn, FnMut, FnOnce"
msgstr "クロージャ:Fn, FnMut, FnOnce"
#: src/SUMMARY.md:156
msgid "A Simple GUI Library"
msgstr "GUIライブラリ"
#: src/SUMMARY.md:157 src/exercises/day-3/solutions-morning.md:142
msgid "Points and Polygons"
msgstr "ポイントとポリゴン"
#: src/SUMMARY.md:159
msgid "Day 3: Afternoon"
msgstr "Day 3: PM"
#: src/SUMMARY.md:161 src/error-handling.md:1
msgid "Error Handling"
msgstr "エラー処理"
#: src/SUMMARY.md:162 src/error-handling/panics.md:1
msgid "Panics"
msgstr "パニック(panic)"
#: src/SUMMARY.md:163
msgid "Catching Stack Unwinding"
msgstr "スタックの巻き戻し"
#: src/SUMMARY.md:164
msgid "Structured Error Handling"
msgstr "構造化されたエラー処理"
#: src/SUMMARY.md:165
msgid "Propagating Errors with ?"
msgstr "?でエラーを伝播する"
#: src/SUMMARY.md:166 src/error-handling/converting-error-types.md:1
#: src/error-handling/converting-error-types-example.md:1
msgid "Converting Error Types"
msgstr "エラーの型変換"
#: src/SUMMARY.md:168 src/error-handling/deriving-error-enums.md:1
msgid "Deriving Error Enums"
msgstr "列挙型エラーの導出"
#: src/SUMMARY.md:169 src/error-handling/dynamic-errors.md:1
msgid "Dynamic Error Types"
msgstr "動的なエラー型"
#: src/SUMMARY.md:170 src/error-handling/error-contexts.md:1
msgid "Adding Context to Errors"
msgstr "コンテキストをエラーに追加"
#: src/SUMMARY.md:171 src/testing.md:1
msgid "Testing"
msgstr "テスト"
#: src/SUMMARY.md:172 src/testing/unit-tests.md:1
msgid "Unit Tests"
msgstr "ユニットテスト"
#: src/SUMMARY.md:173 src/testing/test-modules.md:1
msgid "Test Modules"
msgstr "テストモジュール"
#: src/SUMMARY.md:174 src/testing/doc-tests.md:1
msgid "Documentation Tests"
msgstr "ドキュメンテーションテスト"
#: src/SUMMARY.md:175 src/testing/integration-tests.md:1
msgid "Integration Tests"
msgstr "インテグレーションテスト"
#: src/SUMMARY.md:176 src/bare-metal/useful-crates.md:1
msgid "Useful crates"
msgstr "便利クレート"
#: src/SUMMARY.md:177 src/unsafe.md:1
msgid "Unsafe Rust"
msgstr "Unsafe Rust"
#: src/SUMMARY.md:178 src/unsafe/raw-pointers.md:1
msgid "Dereferencing Raw Pointers"
msgstr "生ポインタの参照外し"
#: src/SUMMARY.md:179 src/unsafe/mutable-static-variables.md:1
msgid "Mutable Static Variables"
msgstr "可変なstatic変数"
#: src/SUMMARY.md:180 src/unsafe/unions.md:1
msgid "Unions"
msgstr "共用体"
#: src/SUMMARY.md:181 src/unsafe/calling-unsafe-functions.md:1
msgid "Calling Unsafe Functions"
msgstr "Unsafe関数の呼び出し"
#: src/SUMMARY.md:182 src/unsafe/writing-unsafe-functions.md:1
msgid "Writing Unsafe Functions"
msgstr "Unsafe関数の書き方"
#: src/SUMMARY.md:183
msgid "Extern Functions"
msgstr "Extern関数"
#: src/SUMMARY.md:184 src/unsafe/unsafe-traits.md:1
msgid "Implementing Unsafe Traits"
msgstr "Unsafeなトレイトの実装"
#: src/SUMMARY.md:186 src/exercises/day-3/safe-ffi-wrapper.md:1
#: src/exercises/day-3/solutions-afternoon.md:3
msgid "Safe FFI Wrapper"
msgstr "安全なFFIラッパ"
#: src/SUMMARY.md:189 src/SUMMARY.md:259 src/bare-metal/android.md:1
msgid "Android"
msgstr "Android"
#: src/SUMMARY.md:194 src/android/setup.md:1
msgid "Setup"
msgstr "セットアップ"
#: src/SUMMARY.md:195 src/android/build-rules.md:1
msgid "Build Rules"
msgstr "ビルドのルール"
#: src/SUMMARY.md:196
msgid "Binary"
msgstr "バイナリ"
#: src/SUMMARY.md:197
msgid "Library"
msgstr "ライブラリ"
#: src/SUMMARY.md:198 src/android/aidl.md:1
msgid "AIDL"
msgstr "AIDL(Androidインターフェイス定義言語)"
#: src/SUMMARY.md:199
msgid "Interface"
msgstr "インターフェイス"
#: src/SUMMARY.md:200
msgid "Implementation"
msgstr "実装"
#: src/SUMMARY.md:201
msgid "Server"
msgstr "サーバ"
#: src/SUMMARY.md:202 src/android/aidl/deploy.md:1
msgid "Deploy"
msgstr "デプロイ"
#: src/SUMMARY.md:203
msgid "Client"
msgstr "クライアント"
#: src/SUMMARY.md:204 src/android/aidl/changing.md:1
msgid "Changing API"
msgstr "APIの変更"
#: src/SUMMARY.md:205 src/SUMMARY.md:249 src/android/logging.md:1
#: src/bare-metal/aps/logging.md:1
msgid "Logging"
msgstr "ログ出力"
#: src/SUMMARY.md:206 src/android/interoperability.md:1
msgid "Interoperability"
msgstr "相互運用性"
#: src/SUMMARY.md:207
msgid "With C"
msgstr "C"
#: src/SUMMARY.md:208
msgid "Calling C with Bindgen"
msgstr "BindgenによるCの呼び出し"
#: src/SUMMARY.md:209
msgid "Calling Rust from C"
msgstr "CからRust呼び出し"
#: src/SUMMARY.md:210 src/android/interoperability/cpp.md:1
msgid "With C++"
msgstr "C++"
#: src/SUMMARY.md:211
msgid "With Java"
msgstr "Java"
#: src/SUMMARY.md:215
msgid "Bare Metal: Morning"
msgstr "ベアメタル: AM"
#: src/SUMMARY.md:220
msgid "no_std"
msgstr "no_std"
#: src/SUMMARY.md:221
msgid "A Minimal Example"
msgstr "例"
#: src/SUMMARY.md:222
msgid "alloc"
msgstr "alloc"
#: src/SUMMARY.md:223 src/bare-metal/microcontrollers.md:1
msgid "Microcontrollers"
msgstr "マイクロコントローラ"
#: src/SUMMARY.md:224 src/bare-metal/microcontrollers/mmio.md:1
msgid "Raw MMIO"
msgstr "生MMIO(メモリマップドI/O)"
#: src/SUMMARY.md:225
msgid "PACs"
msgstr "PACs"
#: src/SUMMARY.md:226
msgid "HAL Crates"
msgstr "HALクレート"
#: src/SUMMARY.md:227
msgid "Board Support Crates"
msgstr "ボードサポートクレート"
#: src/SUMMARY.md:228
msgid "The Type State Pattern"
msgstr "タイプステートパターン"
#: src/SUMMARY.md:229
msgid "embedded-hal"
msgstr "embedded-hal"
#: src/SUMMARY.md:230
msgid "probe-rs, cargo-embed"
msgstr "probe-rs, cargo-embed"
#: src/SUMMARY.md:231 src/bare-metal/microcontrollers/debugging.md:1
msgid "Debugging"
msgstr "デバッグ"
#: src/SUMMARY.md:232 src/SUMMARY.md:252
msgid "Other Projects"
msgstr "他のプロジェクト"
#: src/SUMMARY.md:234 src/exercises/bare-metal/compass.md:1
#: src/exercises/bare-metal/solutions-morning.md:3
msgid "Compass"
msgstr "コンパス"
#: src/SUMMARY.md:236
msgid "Bare Metal: Afternoon"
msgstr "ベアメタル: PM"
#: src/SUMMARY.md:238
msgid "Application Processors"
msgstr "アプリケーションプロセッサ"
#: src/SUMMARY.md:239 src/bare-metal/aps/entry-point.md:1
msgid "Getting Ready to Rust"
msgstr ""
#: src/SUMMARY.md:240
msgid "Inline Assembly"
msgstr "インラインアセンブリ"
#: src/SUMMARY.md:241
msgid "MMIO"
msgstr "MMIO"
#: src/SUMMARY.md:242
msgid "Let's Write a UART Driver"
msgstr "UARTドライバを書いてみよう"
#: src/SUMMARY.md:243
msgid "More Traits"
msgstr "他のトレイト"
#: src/SUMMARY.md:244
msgid "A Better UART Driver"
msgstr "UARTドライバの改善"
#: src/SUMMARY.md:245 src/bare-metal/aps/better-uart/bitflags.md:1
msgid "Bitflags"
msgstr "ビットフラッグ"
#: src/SUMMARY.md:246
msgid "Multiple Registers"
msgstr "複数のレジスタ"
#: src/SUMMARY.md:247 src/bare-metal/aps/better-uart/driver.md:1
msgid "Driver"
msgstr "ドライバ"
#: src/SUMMARY.md:248 src/SUMMARY.md:250
msgid "Using It"
msgstr "使用例"
#: src/SUMMARY.md:251 src/bare-metal/aps/exceptions.md:1
msgid "Exceptions"
msgstr "例外"
#: src/SUMMARY.md:253
msgid "Useful Crates"
msgstr "便利クレート"
#: src/SUMMARY.md:254
msgid "zerocopy"
msgstr "zerocopy"
#: src/SUMMARY.md:255
msgid "aarch64-paging"
msgstr "aarch64-paging"
#: src/SUMMARY.md:256
msgid "buddy_system_allocator"
msgstr "buddy_system_allocator"
#: src/SUMMARY.md:257
msgid "tinyvec"
msgstr "tinyvec"
#: src/SUMMARY.md:258
msgid "spin"
msgstr "spin"
#: src/SUMMARY.md:260 src/bare-metal/android/vmbase.md:1
msgid "vmbase"
msgstr "vmbase"
#: src/SUMMARY.md:262
msgid "RTC Driver"
msgstr "RTC(リアルタイムクロック)ドライバ"
#: src/SUMMARY.md:265
msgid "Concurrency: Morning"
msgstr "並行性: AM"
#: src/SUMMARY.md:270 src/concurrency/threads.md:1
msgid "Threads"
msgstr "スレッド"
#: src/SUMMARY.md:271 src/concurrency/scoped-threads.md:1
msgid "Scoped Threads"
msgstr "スコープ付きスレッド"
#: src/SUMMARY.md:272 src/concurrency/channels.md:1
msgid "Channels"
msgstr "チャネル"
#: src/SUMMARY.md:273 src/concurrency/channels/unbounded.md:1
msgid "Unbounded Channels"
msgstr "Unboundedチャネル"
#: src/SUMMARY.md:274 src/concurrency/channels/bounded.md:1
msgid "Bounded Channels"
msgstr "Boundedチャネル"
#: src/SUMMARY.md:275
msgid "Send and Sync"
msgstr "SendとSync"
#: src/SUMMARY.md:275
msgid "Send"
msgstr "Send"
#: src/SUMMARY.md:275
msgid "Sync"
msgstr "Sync"
#: src/SUMMARY.md:278 src/concurrency/send-sync/examples.md:1
msgid "Examples"
msgstr "例"
#: src/SUMMARY.md:279 src/concurrency/shared_state.md:1
msgid "Shared State"
msgstr "状態共有"
#: src/SUMMARY.md:280
msgid "Arc"
msgstr "Arc"
#: src/SUMMARY.md:281
msgid "Mutex"
msgstr "Mutex"
#: src/SUMMARY.md:284 src/SUMMARY.md:305
#: src/exercises/concurrency/dining-philosophers.md:1
#: src/exercises/concurrency/solutions-morning.md:3
msgid "Dining Philosophers"
msgstr "食事する哲学者"
#: src/SUMMARY.md:285 src/exercises/concurrency/link-checker.md:1
msgid "Multi-threaded Link Checker"
msgstr "マルチスレッド・リンクチェッカー"
#: src/SUMMARY.md:287
msgid "Concurrency: Afternoon"
msgstr "並行性: PM"
#: src/SUMMARY.md:289
msgid "Async Basics"
msgstr "Asyncの基礎"
#: src/SUMMARY.md:290
msgid "async/await"
msgstr "async/await"
#: src/SUMMARY.md:291 src/async/futures.md:1
msgid "Futures"
msgstr "Future"
#: src/SUMMARY.md:292 src/async/runtimes.md:1
msgid "Runtimes"
msgstr "ランタイム"
#: src/SUMMARY.md:293 src/async/runtimes/tokio.md:1
msgid "Tokio"
msgstr "Tokio"
#: src/SUMMARY.md:294 src/exercises/concurrency/link-checker.md:126
#: src/async/tasks.md:1 src/exercises/concurrency/chat-app.md:143
msgid "Tasks"
msgstr "タスク"
#: src/SUMMARY.md:295 src/async/channels.md:1
msgid "Async Channels"
msgstr "Asyncチャネル"
#: src/SUMMARY.md:297 src/async/control-flow/join.md:1
msgid "Join"
msgstr ""
#: src/SUMMARY.md:298 src/async/control-flow/select.md:1
msgid "Select"
msgstr ""
#: src/SUMMARY.md:299
msgid "Pitfalls"
msgstr "落とし穴"
#: src/SUMMARY.md:300
msgid "Blocking the Executor"
msgstr "エグゼキュータのブロッキング"
#: src/SUMMARY.md:301 src/async/pitfalls/pin.md:1
msgid "Pin"
msgstr "Pin"
#: src/SUMMARY.md:302 src/async/pitfalls/async-traits.md:1
msgid "Async Traits"
msgstr "Asyncトレイト"
#: src/SUMMARY.md:303 src/async/pitfalls/cancellation.md:1
#, fuzzy
msgid "Cancellation"
msgstr "インストール"
#: src/SUMMARY.md:306 src/exercises/concurrency/chat-app.md:1
#: src/exercises/concurrency/solutions-afternoon.md:95
msgid "Broadcast Chat Application"
msgstr "ブロードキャスト・チャットアプリ"
#: src/SUMMARY.md:309
msgid "Final Words"
msgstr "最後に"
#: src/SUMMARY.md:313 src/thanks.md:1
msgid "Thanks!"
msgstr "ありがとうございました!"
#: src/SUMMARY.md:314 src/glossary.md:1
msgid "Glossary"
msgstr ""
#: src/SUMMARY.md:315
msgid "Other Resources"
msgstr "参考資料"
#: src/SUMMARY.md:316 src/credits.md:1
msgid "Credits"
msgstr "クレジット"
#: src/SUMMARY.md:319 src/exercises/solutions.md:1
msgid "Solutions"
msgstr "解答"
#: src/SUMMARY.md:324
msgid "Day 1 Morning"
msgstr "Day 1 AM"
#: src/SUMMARY.md:325
msgid "Day 1 Afternoon"
msgstr "Day 1 PM"
#: src/SUMMARY.md:326
msgid "Day 2 Morning"
msgstr "Day 2 AM"
#: src/SUMMARY.md:327
msgid "Day 2 Afternoon"
msgstr "Day 2 PM"
#: src/SUMMARY.md:328
msgid "Day 3 Morning"
msgstr "Day 3 AM"
#: src/SUMMARY.md:329
msgid "Day 3 Afternoon"
msgstr "Day 3 PM"
#: src/SUMMARY.md:330
msgid "Bare Metal Rust Morning"
msgstr "ベアメタルRust AM"
#: src/SUMMARY.md:331 src/exercises/bare-metal/solutions-afternoon.md:1
msgid "Bare Metal Rust Afternoon"
msgstr "ベアメタルRust PM"
#: src/SUMMARY.md:332
msgid "Concurrency Morning"
msgstr "並行性 AM"
#: src/SUMMARY.md:333
msgid "Concurrency Afternoon"
msgstr "並行性 PM"
#: src/index.md:3
#, fuzzy
msgid ""
"[![Build workflow](https://img.shields.io/github/actions/workflow/status/"
"google/comprehensive-rust/build.yml?style=flat-square)](https://github.com/"
"google/comprehensive-rust/actions/workflows/build.yml?query=branch%3Amain) [!"
"[GitHub contributors](https://img.shields.io/github/contributors/google/"
"comprehensive-rust?style=flat-square)](https://github.com/google/"
"comprehensive-rust/graphs/contributors) [![GitHub stars](https://img.shields."
"io/github/stars/google/comprehensive-rust?style=flat-square)](https://github."
"com/google/comprehensive-rust/stargazers)"
msgstr ""
"[![Build workflow](https://img.shields.io/github/actions/workflow/status/"
"google/comprehensive-rust/build.yml?style=flat-square)](https://github.com/"
"google/comprehensive-rust/actions/workflows/build.yml?query=branch%3Amain) [!"
"[GitHub contributors](https://img.shields.io/github/contributors/google/"
"comprehensive-rust?style=flat-square)](https://github.com/google/"
"comprehensive-rust/graphs/contributors)"
#: src/index.md:7
#, fuzzy
msgid ""
"This is a free Rust course developed by the Android team at Google. The "
"course covers the full spectrum of Rust, from basic syntax to advanced "
"topics like generics and error handling."
msgstr ""
"この資料は、GoogleのAndroidチームによって開発された3日間のRust講座です。本講"
"座では、基本構文からジェネリクスやエラー処理など、幅広い内容をカバーします。"
"また、最終日にはAndroid専用の内容も含まれています。"
#: src/index.md:11
msgid ""
"The latest version of the course can be found at <https://google.github.io/"
"comprehensive-rust/>. If you are reading somewhere else, please check there "
"for updates."
msgstr ""
#: src/index.md:15
msgid ""
"The goal of the course is to teach you Rust. We assume you don't know "
"anything about Rust and hope to:"
msgstr ""
"本講座の目的は、Rustを教える事です。Rustに関する前提知識は不要としており、次"
"の目標を設定しています:"
#: src/index.md:18
msgid "Give you a comprehensive understanding of the Rust syntax and language."
msgstr "Rustの基本構文と言語についての理解を深める。"
#: src/index.md:19
msgid "Enable you to modify existing programs and write new programs in Rust."
msgstr "既存のプログラムを修正したり、新規プログラムをRustで書けるようにする。"
#: src/index.md:20
msgid "Show you common Rust idioms."
msgstr "一般的なRustのイディオムを紹介する。"
#: src/index.md:22
msgid "We call the first three course days Rust Fundamentals."
msgstr ""
#: src/index.md:24
#, fuzzy
msgid ""
"Building on this, you're invited to dive into one or more specialized topics:"
msgstr ""
"最初の3日間は、Rustの基礎を学びます。その後、より専門的なトピックに進む事がで"
"きます:"
#: src/index.md:26
#, fuzzy
msgid ""
"[Android](android.md): a half-day course on using Rust for Android platform "
"development (AOSP). This includes interoperability with C, C++, and Java."
msgstr ""
"[Android](android.md): Androidオープンソースプラットフォーム(AOSP)でRustを"
"使用するための半日講座。C、C++、およびJavaとの相互運用性も含まれます。"
#: src/index.md:28
#, fuzzy
msgid ""
"[Bare-metal](bare-metal.md): a whole-day class on using Rust for bare-metal "
"(embedded) development. Both microcontrollers and application processors are "
"covered."
msgstr ""
"[Bare-metal](bare-metal.md): ベアメタル(組み込み)開発でRustを使用するため"
"の1日講座。マイクロコントローラとアプリケーションプロセッサの両方が対象となり"
"ます。"
#: src/index.md:31
#, fuzzy
msgid ""
"[Concurrency](concurrency.md): a whole-day class on concurrency in Rust. We "
"cover both classical concurrency (preemptively scheduling using threads and "
"mutexes) and async/await concurrency (cooperative multitasking using "
"futures)."
msgstr ""
"[Concurrency](concurrency.md): Rustの並行性についての1日講座。並行性(スレッ"
"ドとミューテックスを用いたプリエンプティブなスケジューリング)と、async/await"
"を使用した並行性(futuresを用いた協調的マルチタスク)がカバーされます。"
#: src/index.md:37
msgid "Non-Goals"
msgstr "本講座の対象外"
#: src/index.md:39
msgid ""
"Rust is a large language and we won't be able to cover all of it in a few "
"days. Some non-goals of this course are:"
msgstr ""
"Rustは非常に汎用性の高い言語であり、数日で全てを網羅する事はできません。本講"
"座の目標として設定されていないものには、以下のようなものがあります:"
#: src/index.md:42
#, fuzzy
msgid ""
"Learning how to develop macros: please see [Chapter 19.5 in the Rust Book]"
"(https://doc.rust-lang.org/book/ch19-06-macros.html) and [Rust by Example]"
"(https://doc.rust-lang.org/rust-by-example/macros.html) instead."
msgstr ""
"マクロ(macro)の開発。マクロの詳細については、[Rust Book 日本語版 Ch. 19.5]"
"(https://doc.rust-jp.rs/book-ja/ch19-06-macros.html)と[Rust by Example 日本語"
"版 Ch.17](http://doc.rust-jp.rs/rust-by-example-ja/macros.html)を参照してくだ"
"さい。"
#: src/index.md:46
msgid "Assumptions"
msgstr "前提知識"
#: src/index.md:48
#, fuzzy
msgid ""
"The course assumes that you already know how to program. Rust is a "
"statically-typed language and we will sometimes make comparisons with C and "
"C++ to better explain or contrast the Rust approach."
msgstr ""
"本講座では、既にプログラミングの知識がある事を前提としています。Rustは静的型"
"付け言語であり、Rustのアプローチをより分かりやすく説明するために、時折CやC+"
"+との比較を行います。"
#: src/index.md:52
#, fuzzy
msgid ""
"If you know how to program in a dynamically-typed language such as Python or "
"JavaScript, then you will be able to follow along just fine too."
msgstr ""
"もし受講者の知識がPythonやJavaScriptなどの動的型付け言語に限定されている場合"
"でも、本講座の受講は可能です。"
#: src/index.md:57
msgid ""
"This is an example of a _speaker note_. We will use these to add additional "
"information to the slides. This could be key points which the instructor "
"should cover as well as answers to typical questions which come up in class."
msgstr ""
"これはスピーカーノートの一例です。これを使用してスライドを捕捉します。講師が"
"カバーすべき要点や、授業でよく出る質問への回答などが含まれます。"
#: src/running-the-course.md:3 src/running-the-course/course-structure.md:3
msgid "This page is for the course instructor."
msgstr "このページは講師用です。"
#: src/running-the-course.md:5
msgid ""
"Here is a bit of background information about how we've been running the "
"course internally at Google."
msgstr "以下は、Google内での講座の運営方法に関する情報です。"
#: src/running-the-course.md:8
msgid ""
"We typically run classes from 10:00 am to 4:00 pm, with a 1 hour lunch break "
"in the middle. This leaves 2.5 hours for the morning class and 2.5 hours for "
"the afternoon class. Note that this is just a recommendation: you can also "
"spend 3 hour on the morning session to give people more time for exercises. "
"The downside of longer session is that people can become very tired after 6 "
"full hours of class in the afternoon."
msgstr ""
#: src/running-the-course.md:16
msgid "Before you run the course, you will want to:"
msgstr "講座開始までに、以下にあげる準備を済ませておくと良いでしょう:"
#: src/running-the-course.md:18
msgid ""
"Make yourself familiar with the course material. We've included speaker "
"notes to help highlight the key points (please help us by contributing more "
"speaker notes!). When presenting, you should make sure to open the speaker "
"notes in a popup (click the link with a little arrow next to \"Speaker "
"Notes\"). This way you have a clean screen to present to the class."
msgstr ""
"資料に慣れておいてください。要点を強調するためにスピーカーノートが用意されて"
"います(内容の追加にご協力ください!)。プレゼン時には、スクリーンを見やすい"
"状態で保つために、スピーカーノートはポップアップウィンドウで開いてください"
"(スピーカーノートの横にある小さな矢印をクリック)。"
#: src/running-the-course.md:24
msgid ""
"Decide on the dates. Since the course takes at least three full days, we "
"recommend that you schedule the days over two weeks. Course participants "
"have said that they find it helpful to have a gap in the course since it "
"helps them process all the information we give them."
msgstr ""
"あらかじめ日程を決めておいてください。講座は最低でも3日かかるため、2週間にわ"
"たって日程を組む事を推奨しています。過去の受講者によると、講座の間に数日"
"ギャップを設ける事で内容が吸収しやすくなります。"
#: src/running-the-course.md:29
msgid ""
"Find a room large enough for your in-person participants. We recommend a "
"class size of 15-25 people. That's small enough that people are comfortable "
"asking questions --- it's also small enough that one instructor will have "
"time to answer the questions. Make sure the room has _desks_ for yourself "
"and for the students: you will all need to be able to sit and work with your "
"laptops. In particular, you will be doing a lot of live-coding as an "
"instructor, so a lectern won't be very helpful for you."
msgstr ""
"十分な広さの部屋を確保しておいてください。15~25名程度のクラスを推奨していま"
"す。受講者にとって質問がしやすい人数であり、1人の講師が質問に答える時間も確保"
"できる規模だからです。また、皆さんはPCで作業をする必要があるため、講師を含め"
"た人数分の机を用意しておいてください。ライブコーディング形式での実施を想定し"
"ているため、講壇は不要です。"
#: src/running-the-course.md:37
msgid ""
"On the day of your course, show up to the room a little early to set things "
"up. We recommend presenting directly using `mdbook serve` running on your "
"laptop (see the [installation instructions](https://github.com/google/"
"comprehensive-rust#building)). This ensures optimal performance with no lag "
"as you change pages. Using your laptop will also allow you to fix typos as "
"you or the course participants spot them."
msgstr ""
"当日は少し早めに到着して準備をしてください。自分のPCで実行する`mdbook serve`"
"から直接プレゼンを行う事を推奨します([インストール手順](https://github.com/"
"google/comprehensive-rust#building)はこちら)。これにより、ページ切り替え時に"
"遅延なしで最適なパフォーマンスが得られます。また、PCを使用する事で、受講者や"
"自分自身が見つけたタイプミスなども修正可能になります。"
#: src/running-the-course.md:43
msgid ""
"Let people solve the exercises by themselves or in small groups. We "
"typically spend 30-45 minutes on exercises in the morning and in the "
"afternoon (including time to review the solutions). Make sure to ask people "
"if they're stuck or if there is anything you can help with. When you see "
"that several people have the same problem, call it out to the class and "
"offer a solution, e.g., by showing people where to find the relevant "
"information in the standard library."
msgstr ""
"練習問題は個人か小さいグループで解いてください。回答をレビューする時間も含"
"め、各練習問題に30~45分を費やします。受講者が行き詰まっているかどうか、何か質"
"問があるかなど確認してください。複数の受講者が同じ問題で詰まっている場合、ク"
"ラス全体に対してそれを共有し、解決策を提供してください。例えば、探している情"
"報が標準ライブラリのどこにあるかを示す、など。"
#: src/running-the-course.md:51
msgid ""
"That is all, good luck running the course! We hope it will be as much fun "
"for you as it has been for us!"
msgstr ""
"以上です。運営頑張ってください!皆さんにとっても楽しい時間になりますように!"
#: src/running-the-course.md:54
msgid ""
"Please [provide feedback](https://github.com/google/comprehensive-rust/"
"discussions/86) afterwards so that we can keep improving the course. We "
"would love to hear what worked well for you and what can be made better. "
"Your students are also very welcome to [send us feedback](https://github.com/"
"google/comprehensive-rust/discussions/100)!"
msgstr ""
"本講座の改善に向けて[フィードバック](https://github.com/google/comprehensive-"
"rust/discussions/86)をお願いします。うまくいった点や改善点について幅広くご意"
"見お聞かせください。[受講者からのフィードバック](https://github.com/google/"
"comprehensive-rust/discussions/100)も歓迎しております!"
#: src/running-the-course/course-structure.md:5
msgid "Rust Fundamentals"
msgstr ""
#: src/running-the-course/course-structure.md:7
msgid ""
"The first three days make up [Rust Fundaments](../welcome-day-1.md). The "
"days are fast paced and we cover a lot of ground:"
msgstr ""
#: src/running-the-course/course-structure.md:10
msgid "Day 1: Basic Rust, syntax, control flow, creating and consuming values."
msgstr ""
#: src/running-the-course/course-structure.md:11
#, fuzzy
msgid ""
"Day 2: Memory management, ownership, compound data types, and the standard "
"library."
msgstr "Day 2: 複合データ型、パターンマッチング、標準ライブラリ"
#: src/running-the-course/course-structure.md:12
#, fuzzy
msgid "Day 3: Generics, traits, error handling, testing, and unsafe Rust."
msgstr "Day 3: トレイトとジェネリクス、エラー処理、テスト、unsafe Rust"
#: src/running-the-course/course-structure.md:14
msgid "Deep Dives"
msgstr "専門的なトピック"
#: src/running-the-course/course-structure.md:16
msgid ""
"In addition to the 3-day class on Rust Fundamentals, we cover some more "
"specialized topics:"
msgstr ""
"Rustの基礎に関する3日間の講座に加え、いくつかのより専門的なトピックも用意され"
"ています:"
#: src/running-the-course/course-structure.md:19
#, fuzzy
msgid "Rust in Android"
msgstr "Android"
#: src/running-the-course/course-structure.md:21
#, fuzzy
msgid ""
"The [Rust in Android](../android.md) deep dive is a half-day course on using "
"Rust for Android platform development. This includes interoperability with "
"C, C++, and Java."
msgstr ""
"[Android編](../android.md)は、Androidオープンソースプラットフォーム(AOSP)で"
"Rustを使用するための半日程度の講座です。C、C++、およびJavaとの相互運用性も含"
"まれます。"
#: src/running-the-course/course-structure.md:25
msgid ""
"You will need an [AOSP checkout](https://source.android.com/docs/setup/"
"download/downloading). Make a checkout of the [course repository](https://"
"github.com/google/comprehensive-rust) on the same machine and move the `src/"
"android/` directory into the root of your AOSP checkout. This will ensure "
"that the Android build system sees the `Android.bp` files in `src/android/`."
msgstr ""
"[AOSPのチェックアウト](https://source.android.com/docs/setup/download/"
"downloading)が必要です。同じ端末から[講座のリポジトリ](https://github.com/"
"google/comprehensive-rust)をチェックアウトし、`src/android/`ディレクトリを"
"AOSPチェックアウトのルートに移動してください。これにより、Androidビルドシステ"
"ムが`src/android/`内の`Android.bp`を確認できるようになります。"
#: src/running-the-course/course-structure.md:30
msgid ""
"Ensure that `adb sync` works with your emulator or real device and pre-build "
"all Android examples using `src/android/build_all.sh`. Read the script to "
"see the commands it runs and make sure they work when you run them by hand."
msgstr ""
"エミュレータまたは実際のデバイスで`adb sync`が機能する事を確認し、`src/"
"android/build_all.sh`を使用して全てのAndroidの例を事前にビルドしてください。"
"スクリプトを読んで実行コマンドを確認し、手動で実行した際に正常に動作する事を"
"確認してください。"
#: src/running-the-course/course-structure.md:37
#, fuzzy
msgid "Bare-Metal Rust"
msgstr "ベアメタル"
#: src/running-the-course/course-structure.md:39
#, fuzzy
msgid ""
"The [Bare-Metal Rust](../bare-metal.md) deep dive is a full day class on "
"using Rust for bare-metal (embedded) development. Both microcontrollers and "
"application processors are covered."
msgstr ""
"[ベアメタル編](../bare-metal.md)は、ベアメタル(組み込み)開発でRustを使用す"
"るための1日講座です。マイクロコントローラとアプリケーションプロセッサの両方が"
"対象となります。"
#: src/running-the-course/course-structure.md:43
msgid ""
"For the microcontroller part, you will need to buy the [BBC micro:bit]"
"(https://microbit.org/) v2 development board ahead of time. Everybody will "
"need to install a number of packages as described on the [welcome page](../"
"bare-metal.md)."
msgstr ""
"マイクロコントローラの章では、事前に[BBCmicro:bit](https://microbit.org/)v2開"
"発ボードを購入する必要があります。また、[welcomeページ](../bare-metal.md)で説"
"明されているように、複数のパッケージをインストールする必要があります。"
#: src/running-the-course/course-structure.md:48
#, fuzzy
msgid "Concurrency in Rust"
msgstr "Rustでの並行性へようこそ"
#: src/running-the-course/course-structure.md:50
#, fuzzy
msgid ""
"The [Concurrency in Rust](../concurrency.md) deep dive is a full day class "
"on classical as well as `async`/`await` concurrency."
msgstr ""
"[並行性編](../concurrency.md) は、並行性とasync/awaitを使用した並行性について"
"の1日講座です。"
#: src/running-the-course/course-structure.md:53
msgid ""
"You will need a fresh crate set up and the dependencies downloaded and ready "
"to go. You can then copy/paste the examples into `src/main.rs` to experiment "
"with them:"
msgstr ""
"新規クレートの作成と、依存関係(dependencies)のダウンロードが必要です。その"
"後、例を`src/main.rs`にコピペして実行する事ができます:"
#: src/running-the-course/course-structure.md:64
msgid "Format"
msgstr "フォーマット"
#: src/running-the-course/course-structure.md:66
msgid ""
"The course is meant to be very interactive and we recommend letting the "
"questions drive the exploration of Rust!"
msgstr ""
"本講座はインタラクティブな形式で行います。積極的に質問して、Rustへの理解を深"
"めてください!"
#: src/running-the-course/keyboard-shortcuts.md:3
msgid "There are several useful keyboard shortcuts in mdBook:"
msgstr "mdBookには、便利なショートカットキーがいくつか存在します:"
#: src/running-the-course/keyboard-shortcuts.md:5
msgid "Arrow-Left"
msgstr "Arrow-Left"
#: src/running-the-course/keyboard-shortcuts.md:5
msgid ": Navigate to the previous page."
msgstr ": 前のページに移動"
#: src/running-the-course/keyboard-shortcuts.md:6
msgid "Arrow-Right"
msgstr "Arrow-Right"
#: src/running-the-course/keyboard-shortcuts.md:6
msgid ": Navigate to the next page."
msgstr ": 次のページに移動。"
#: src/running-the-course/keyboard-shortcuts.md:7 src/cargo/code-samples.md:19
msgid "Ctrl + Enter"
msgstr "Ctrl + Enter"
#: src/running-the-course/keyboard-shortcuts.md:7
msgid ": Execute the code sample that has focus."
msgstr ": フォーカスを持つコードサンプルを実行"
#: src/running-the-course/keyboard-shortcuts.md:8
msgid "s"
msgstr "s"
#: src/running-the-course/keyboard-shortcuts.md:8
msgid ": Activate the search bar."
msgstr ": 検索バーを起動"
#: src/running-the-course/translations.md:3
msgid ""
"The course has been translated into other languages by a set of wonderful "
"volunteers:"
msgstr "本資料は、ボランティアによって翻訳されています:"
#: src/running-the-course/translations.md:6
msgid ""
"[Brazilian Portuguese](https://google.github.io/comprehensive-rust/pt-BR/) "
"by [@rastringer](https://github.com/rastringer), [@hugojacob](https://github."
"com/hugojacob), [@joaovicmendes](https://github.com/joaovicmendes), and "
"[@henrif75](https://github.com/henrif75)."
msgstr ""
#: src/running-the-course/translations.md:7
msgid ""
"[Korean](https://google.github.io/comprehensive-rust/ko/) by [@keispace]"
"(https://github.com/keispace), [@jiyongp](https://github.com/jiyongp), and "
"[@jooyunghan](https://github.com/jooyunghan)."
msgstr ""
#: src/running-the-course/translations.md:8
msgid ""
"[Spanish](https://google.github.io/comprehensive-rust/es/) by [@deavid]"
"(https://github.com/deavid)."
msgstr ""
#: src/running-the-course/translations.md:10
msgid ""
"Use the language picker in the top-right corner to switch between languages."
msgstr "画面右上の言語切り替えボタンから、切り替えを行なってください。"
#: src/running-the-course/translations.md:12
#, fuzzy
msgid "Incomplete Translations"
msgstr "翻訳"
#: src/running-the-course/translations.md:14
msgid ""
"There is a large number of in-progress translations. We link to the most "
"recently updated translations:"
msgstr ""
#: src/running-the-course/translations.md:17
msgid ""
"[Bengali](https://google.github.io/comprehensive-rust/bn/) by [@raselmandol]"
"(https://github.com/raselmandol)."
msgstr ""
#: src/running-the-course/translations.md:18
msgid ""
"[Chinese (Traditional)](https://google.github.io/comprehensive-rust/zh-TW/) "
"by [@hueich](https://github.com/hueich), [@victorhsieh](https://github.com/"
"victorhsieh), [@mingyc](https://github.com/mingyc), and [@johnathan79717]"
"(https://github.com/johnathan79717)."
msgstr ""
#: src/running-the-course/translations.md:19
msgid ""
"[Chinese (Simplified)](https://google.github.io/comprehensive-rust/zh-CN/) "
"by [@suetfei](https://github.com/suetfei), [@wnghl](https://github.com/"
"wnghl), [@anlunx](https://github.com/anlunx), [@kongy](https://github.com/"
"kongy), [@noahdragon](https://github.com/noahdragon), [@superwhd](https://"
"github.com/superwhd), and [@SketchK](https://github.com/SketchK)."
msgstr ""
#: src/running-the-course/translations.md:20
msgid ""
"[French](https://google.github.io/comprehensive-rust/fr/) by [@KookaS]"
"(https://github.com/KookaS) and [@vcaen](https://github.com/vcaen)."
msgstr ""
#: src/running-the-course/translations.md:21
msgid ""
"[German](https://google.github.io/comprehensive-rust/de/) by [@Throvn]"
"(https://github.com/Throvn) and [@ronaldfw](https://github.com/ronaldfw)."
msgstr ""
#: src/running-the-course/translations.md:22
msgid ""
"[Japanese](https://google.github.io/comprehensive-rust/ja/) by [@CoinEZ-JPN]"
"(https://github.com/CoinEZ) and [@momotaro1105](https://github.com/"
"momotaro1105)."
msgstr ""
#: src/running-the-course/translations.md:24
msgid ""
"If you want to help with this effort, please see [our instructions](https://"
"github.com/google/comprehensive-rust/blob/main/TRANSLATIONS.md) for how to "
"get going. Translations are coordinated on the [issue tracker](https://"
"github.com/google/comprehensive-rust/issues/282)."
msgstr ""
"この取り組みにご協力いただける場合は、[our instructions](https://github.com/"
"google/comprehensive-rust/blob/main/TRANSLATIONS.md)をご覧ください。翻訳は"
"[issue tracker](https://github.com/google/comprehensive-rust/issues/282)で管"
"理されています。"
#: src/cargo.md:3
msgid ""
"When you start reading about Rust, you will soon meet [Cargo](https://doc."
"rust-lang.org/cargo/), the standard tool used in the Rust ecosystem to build "
"and run Rust applications. Here we want to give a brief overview of what "
"Cargo is and how it fits into the wider ecosystem and how it fits into this "
"training."
msgstr ""
"Rustを学び始めると、まもなくRustエコシステムで広く使われているビルドシステム"
"兼パッケージマネージャである[Cargo](https://doc.rust-lang.org/cargo/)という標"
"準ツールに出会います。ここでは、Cargoの概要や使用方法、そして本講座における重"
"要性について簡単に説明します。"
#: src/cargo.md:8
msgid "Installation"
msgstr "インストール"
#: src/cargo.md:10
msgid "**Please follow the instructions on <https://rustup.rs/>.**"
msgstr ""
#: src/cargo.md:12
#, fuzzy
msgid ""
"This will give you the Cargo build tool (`cargo`) and the Rust compiler "
"(`rustc`). You will also get `rustup`, a command line utility that you can "
"use to install to different compiler versions."
msgstr ""
"Rustupも、cargoやrustcと一緒にコマンドラインユーティリティとしてインストール"
"されます。Rustupを使用することで、ツールチェーンのインストールや切り替え、ク"
"ロスコンパイルの設定などが行えます。"
#: src/cargo.md:14
msgid ""
"After installing Rust, you should configure your editor or IDE to work with "
"Rust. Most editors do this by talking to [rust-analyzer](https://rust-"
"analyzer.github.io/), which provides auto-completion and jump-to-definition "
"functionality for [VS Code](https://code.visualstudio.com/), [Emacs](https://"
"rust-analyzer.github.io/manual.html#emacs), [Vim/Neovim](https://rust-"
"analyzer.github.io/manual.html#vimneovim), and many others. There is also a "
"different IDE available called [RustRover](https://www.jetbrains.com/rust/)."
msgstr ""
#: src/cargo.md:18
#, fuzzy
msgid ""
"On Debian/Ubuntu, you can also install Cargo, the Rust source and the [Rust "
"formatter](https://github.com/rust-lang/rustfmt) via `apt`. However, this "
"gets you an outdated rust version and may lead to unexpected behavior. The "
"command would be:"
msgstr ""
"Debian/Ubuntuを使用している場合、以下のコマンドを使ってcargo、rustのソース"
"コード、[Rust formatter](https://github.com/rust-lang/rustfmt)をインストール"
"します"
#: src/cargo/rust-ecosystem.md:1
msgid "The Rust Ecosystem"
msgstr ""
#: src/cargo/rust-ecosystem.md:3
msgid ""
"The Rust ecosystem consists of a number of tools, of which the main ones are:"
msgstr "Rustエコシステムの主要ツールは以下の通りです:"
#: src/cargo/rust-ecosystem.md:5
msgid ""
"`rustc`: the Rust compiler which turns `.rs` files into binaries and other "
"intermediate formats."
msgstr ""
"`rustc`: Rustのコンパイラです。`.rs`ファイルをバイナリや他の中間形式に変換し"
"ます。"
#: src/cargo/rust-ecosystem.md:8
#, fuzzy
msgid ""
"`cargo`: the Rust dependency manager and build tool. Cargo knows how to "
"download dependencies, usually hosted on <https://crates.io>, and it will "
"pass them to `rustc` when building your project. Cargo also comes with a "
"built-in test runner which is used to execute unit tests."
msgstr ""
"`cargo`: Rustのビルドシステム兼パッケージマネージャです。<https://crates.io>"
"でホストされている依存関係をダウンロードし、プロジェクトビルド時に`rustc`に渡"
"します。Cargo に組み込まれたテストランナを使って、ユニットテストを実行するこ"
"ともできます。"
#: src/cargo/rust-ecosystem.md:13
msgid ""
"`rustup`: the Rust toolchain installer and updater. This tool is used to "
"install and update `rustc` and `cargo` when new versions of Rust is "
"released. In addition, `rustup` can also download documentation for the "
"standard library. You can have multiple versions of Rust installed at once "
"and `rustup` will let you switch between them as needed."
msgstr ""
"`rustup`: Rustのツールチェーンを管理するためのツールです。`rustc`や`cargo`の"
"インストールやアップデートに使用されます。標準ライブラリのドキュメントをダウ"
"ンロードする事も可能です。また、複数のRustのバージョンがインストールされてい"
"る場合、`rustup`で切り替えが行えます。"
#: src/cargo/rust-ecosystem.md:21 src/hello-world.md:25
#: src/hello-world/small-example.md:27 src/why-rust/runtime.md:10
#: src/why-rust/modern.md:21 src/basic-syntax/compound-types.md:32
#: src/basic-syntax/references.md:24
#: src/pattern-matching/destructuring-enums.md:35
#: src/ownership/double-free-modern-cpp.md:55
#: src/error-handling/try-operator.md:48
#: src/error-handling/converting-error-types-example.md:50
#: src/concurrency/threads.md:30 src/async/async-await.md:25
msgid "Key points:"
msgstr "要点:"
#: src/cargo/rust-ecosystem.md:23
msgid ""
"Rust has a rapid release schedule with a new release coming out every six "
"weeks. New releases maintain backwards compatibility with old releases --- "
"plus they enable new functionality."
msgstr ""
"Rust言語とコンパイラは、6週間のリリースサイクルを採用しています。新しいリリー"
"スは、古いリリースとの後方互換性を維持しながら、新機能を提供します。"
#: src/cargo/rust-ecosystem.md:27
msgid ""
"There are three release channels: \"stable\", \"beta\", and \"nightly\"."
msgstr "リリースチャネルは3つあります:「stable」「beta」「nightly」。"
#: src/cargo/rust-ecosystem.md:29
msgid ""
"New features are being tested on \"nightly\", \"beta\" is what becomes "
"\"stable\" every six weeks."
msgstr ""
"新機能は「nightly」でテストされ、「beta」が6週間毎に「stable」となります。"
#: src/cargo/rust-ecosystem.md:32
msgid ""
"Dependencies can also be resolved from alternative [registries](https://doc."
"rust-lang.org/cargo/reference/registries.html), git, folders, and more."
msgstr ""
#: src/cargo/rust-ecosystem.md:34
msgid ""
"Rust also has [editions](https://doc.rust-lang.org/edition-guide/): the "
"current edition is Rust 2021. Previous editions were Rust 2015 and Rust 2018."
msgstr ""
"Rustには[editions](https://doc.rust-lang.org/edition-guide/)(エディション)"
"があります:現在のエディションはRust2021です。以前はRust2015とRust2018でし"
"た。"
#: src/cargo/rust-ecosystem.md:37
msgid ""
"The editions are allowed to make backwards incompatible changes to the "
"language."
msgstr "エディションでは、後方非互換な変更を加える事ができます。"
#: src/cargo/rust-ecosystem.md:40
msgid ""
"To prevent breaking code, editions are opt-in: you select the edition for "
"your crate via the `Cargo.toml` file."
msgstr ""
"コードの破損を防ぐために、エディションはオプトイン方式です:`Cargo.toml`で、"
"クレートに対して適用したいエディションを選択します。"
#: src/cargo/rust-ecosystem.md:43
msgid ""
"To avoid splitting the ecosystem, Rust compilers can mix code written for "
"different editions."
msgstr ""
"エコシステムの分断を避けるために、コンパイラは異なるエディションのコードを混"
"在させる事ができます。"
#: src/cargo/rust-ecosystem.md:46
msgid ""
"Mention that it is quite rare to ever use the compiler directly not through "
"`cargo` (most users never do)."
msgstr ""
"コンパイラを直接使用する事は非常に稀であり、基本的には`cargo`を介します。"
#: src/cargo/rust-ecosystem.md:48
msgid ""
"It might be worth alluding that Cargo itself is an extremely powerful and "
"comprehensive tool. It is capable of many advanced features including but "
"not limited to: "
msgstr "`Cargo`は非常に包括的なツールであり、多くの機能を備えています:"
#: src/cargo/rust-ecosystem.md:49
msgid "Project/package structure"
msgstr "プロジェクト・パッケージの構造管理"
#: src/cargo/rust-ecosystem.md:50
msgid "[workspaces](https://doc.rust-lang.org/cargo/reference/workspaces.html)"
msgstr ""
"[workspaces](https://doc.rust-lang.org/cargo/reference/workspaces.html)(ワー"
"クスペース)"
#: src/cargo/rust-ecosystem.md:51
msgid "Dev Dependencies and Runtime Dependency management/caching"
msgstr "開発用とランタイム用の依存関係管理・キャッシュ"
#: src/cargo/rust-ecosystem.md:52
msgid ""
"[build scripting](https://doc.rust-lang.org/cargo/reference/build-scripts."
"html)"
msgstr ""
"[build scripting](https://doc.rust-lang.org/cargo/reference/build-scripts."
"html)(ビルドスクリプト)"
#: src/cargo/rust-ecosystem.md:53
msgid ""
"[global installation](https://doc.rust-lang.org/cargo/commands/cargo-install."
"html)"
msgstr ""
"[global installation](https://doc.rust-lang.org/cargo/commands/cargo-install."
"html)"
#: src/cargo/rust-ecosystem.md:54
msgid ""
"It is also extensible with sub command plugins as well (such as [cargo "
"clippy](https://github.com/rust-lang/rust-clippy))."
msgstr ""
"[cargo clippy](https://github.com/rust-lang/rust-clippy)などのサブコマンドプ"
"ラグインによる拡張"
#: src/cargo/rust-ecosystem.md:55
msgid ""
"Read more from the [official Cargo Book](https://doc.rust-lang.org/cargo/)"
msgstr ""
"詳細は[official Cargo Book](https://doc.rust-lang.org/cargo/)を参照してくださ"
"い。"
#: src/cargo/code-samples.md:1
msgid "Code Samples in This Training"
msgstr "講座のサンプルコード"
#: src/cargo/code-samples.md:3
msgid ""
"For this training, we will mostly explore the Rust language through examples "
"which can be executed through your browser. This makes the setup much easier "
"and ensures a consistent experience for everyone."
msgstr ""
"本講座は、主にブラウザ内で実行可能な例を使います。こうする事で、セットアップ"
"が容易になり、一貫した開発環境の提供が可能となります。"
#: src/cargo/code-samples.md:7
msgid ""
"Installing Cargo is still encouraged: it will make it easier for you to do "
"the exercises. On the last day, we will do a larger exercise which shows you "
"how to work with dependencies and for that you need Cargo."
msgstr ""
"ただし、できればCargoをインストールしてください: 練習問題で使えると便利で"
"す。また最終日に依存関係を扱う課題を扱いますが、そこではCargoが必要になりま"
"す。"
#: src/cargo/code-samples.md:11
msgid "The code blocks in this course are fully interactive:"
msgstr "講座のコードブロックはインタラクティブです:"
#: src/cargo/code-samples.md:15 src/cargo/running-locally.md:45
msgid "\"Edit me!\""
msgstr "\"Edit me!\""
#: src/cargo/code-samples.md:19
msgid "You can use "
msgstr "ボックス内にフォーカスがある状態で"
#: src/cargo/code-samples.md:19
msgid "to execute the code when focus is in the text box."
msgstr "を押すと、コードが実行されます。"
#: src/cargo/code-samples.md:24
msgid ""
"Most code samples are editable like shown above. A few code samples are not "
"editable for various reasons:"
msgstr ""
"ほとんどのサンプルコードは上記のように編集可能ですが、一部だけ以下のような理"
"由から編集不可となっています:"
#: src/cargo/code-samples.md:27
msgid ""
"The embedded playgrounds cannot execute unit tests. Copy-paste the code and "
"open it in the real Playground to demonstrate unit tests."
msgstr ""
"講座のページ内に埋め込まれたプレイグラウンドでユニットテストは実行できませ"
"ん。コードを実際のプレイグラウンドで開き、デモンストレーションを行う必要があ"
"ります。"
#: src/cargo/code-samples.md:30
msgid ""
"The embedded playgrounds lose their state the moment you navigate away from "
"the page! This is the reason that the students should solve the exercises "
"using a local Rust installation or via the Playground."
msgstr ""
"講座のページ内に埋め込まれたプレイグラウンドでは、ページ移動すると状態が失わ"
"れます!故に、受講生はローカル環境や実際のプレイグラウンドを使用して問題を解"
"く必要があります。"
#: src/cargo/running-locally.md:1
msgid "Running Code Locally with Cargo"
msgstr "Cargoを使ってローカルで実行"
#: src/cargo/running-locally.md:3
msgid ""
"If you want to experiment with the code on your own system, then you will "
"need to first install Rust. Do this by following the [instructions in the "
"Rust Book](https://doc.rust-lang.org/book/ch01-01-installation.html). This "
"should give you a working `rustc` and `cargo`. At the time of writing, the "
"latest stable Rust release has these version numbers:"
msgstr ""
"コードをローカルで試したい場合、[Rust Bookの手順](https://doc.rust-lang.org/"
"book/ch01-01-installation.html)に従ってRustをインストールしてください。正常に"
"インストールされたら、`rustc`と`cargo`が使えるようになります。最新のstableリ"
"リースのバージョンは以下の通りです:"
#: src/cargo/running-locally.md:15
msgid ""
"You can use any later version too since Rust maintains backwards "
"compatibility."
msgstr ""
#: src/cargo/running-locally.md:17
#, fuzzy
msgid ""
"With this in place, follow these steps to build a Rust binary from one of "
"the examples in this training:"
msgstr ""
"次に、本講座の例を参考にしながら、以下の手順に従ってRustのバイナリをビルドし"
"てください:"
#: src/cargo/running-locally.md:20
msgid "Click the \"Copy to clipboard\" button on the example you want to copy."
msgstr "「Copy to clipboard」でコードをコピー。"
#: src/cargo/running-locally.md:22
msgid ""
"Use `cargo new exercise` to create a new `exercise/` directory for your code:"
msgstr "`cargo new exercise`で`exercise/`ディレクトリを作成:"
#: src/cargo/running-locally.md:29
msgid ""
"Navigate into `exercise/` and use `cargo run` to build and run your binary:"
msgstr ""
"`exercise/`ディレクトリに移動し、`cargo run`でバイナリをビルドして実行:"
#: src/cargo/running-locally.md:40
msgid ""
"Replace the boiler-plate code in `src/main.rs` with your own code. For "
"example, using the example on the previous page, make `src/main.rs` look like"
msgstr ""
"`src/main.rs`のボイラープレートコードを、コピーしたコードで置き換えてくださ"
"い。例えば、前のページの例を使った場合、`src/main.rs`は以下のようになります。"
#: src/cargo/running-locally.md:49
msgid "Use `cargo run` to build and run your updated binary:"
msgstr "`cargo run`で更新されたバイナリをビルドして実行:"
#: src/cargo/running-locally.md:59
msgid ""
"Use `cargo check` to quickly check your project for errors, use `cargo "
"build` to compile it without running it. You will find the output in `target/"
"debug/` for a normal debug build. Use `cargo build --release` to produce an "
"optimized release build in `target/release/`."
msgstr ""
"`cargo check`でプロジェクトのエラーチェックを行い、`cargo build`でコンパイル"
"だけ(実行はせず)を行います。通常のデバッグビルドでは、生成されたファイルは"
"`target/debug/`に格納されます。最適化されたリリースビルドには`cargo build —"
"release`を使い、ファイルは`target/release/`に格納されます。"
#: src/cargo/running-locally.md:64
msgid ""
"You can add dependencies for your project by editing `Cargo.toml`. When you "
"run `cargo` commands, it will automatically download and compile missing "
"dependencies for you."
msgstr ""
"プロジェクトに依存関係を追加するには、`Cargo.toml`を編集します。その後、"
"`cargo`コマンドを実行すると、自動的に不足している依存関係がダウンロードされて"
"コンパイルされます。"
#: src/cargo/running-locally.md:72
msgid ""
"Try to encourage the class participants to install Cargo and use a local "
"editor. It will make their life easier since they will have a normal "
"development environment."
msgstr ""
"受講者にCargoのインストールとローカルエディタの使用を勧めてください。通常の開"
"発環境を持つ事で、作業がスムーズになります。"
#: src/welcome-day-1.md:1
msgid "Welcome to Day 1"
msgstr "Day 1へようこそ"
#: src/welcome-day-1.md:3
#, fuzzy
msgid ""
"This is the first day of Rust Fundamentals. We will cover a lot of ground "
"today:"
msgstr ""
"「Comprehensive Rust」の初日です。本日は多岐にわたる内容をカバーします:"
#: src/welcome-day-1.md:6
msgid ""
"Basic Rust syntax: variables, scalar and compound types, enums, structs, "
"references, functions, and methods."
msgstr ""
"Rustの基本的な構文: 変数、スカラー型と複合型、列挙型、構造体、参照、関数、メ"
"ソッド。"
#: src/welcome-day-1.md:9
msgid ""
"Control flow constructs: `if`, `if let`, `while`, `while let`, `break`, and "
"`continue`."
msgstr ""
#: src/welcome-day-1.md:12
msgid "Pattern matching: destructuring enums, structs, and arrays."
msgstr ""
#: src/welcome-day-1.md:16
msgid "Please remind the students that:"
msgstr "受講生に伝えてください:"
#: src/welcome-day-1.md:18
#, fuzzy
msgid ""
"They should ask questions when they get them, don't save them to the end."
msgstr "分からない事があれば、最後まで待たずに質問をしてください。"
#: src/welcome-day-1.md:19
#, fuzzy
msgid ""
"The class is meant to be interactive and discussions are very much "
"encouraged!"
msgstr ""
"本講座はインタラクティブな形式で行うため、積極的にディスカッションをしてくだ"
"さい!"
#: src/welcome-day-1.md:20
#, fuzzy
msgid ""
"As an instructor, you should try to keep the discussions relevant, i.e., "
"keep the discussions related to how Rust does things vs some other "
"language. It can be hard to find the right balance, but err on the side of "
"allowing discussions since they engage people much more than one-way "
"communication."
msgstr ""
"講師の方へ: ディスカッションはなるべく関連性を有する範囲に留めましょう。例え"
"ば、他言語との比較を行う場合には、あくまでもRustとどう違うのかまでを議論の範"
"囲に設定してください。また、バランスの取り方が難しいかもしれませんが、一方的"
"に話すよりもなるべくディスカッションを許容するように心がけてください。"
#: src/welcome-day-1.md:24
#, fuzzy
msgid ""
"The questions will likely mean that we talk about things ahead of the slides."
msgstr "質問があった場合、おそらく将来的に話す内容に触れる事になります。"
#: src/welcome-day-1.md:25
#, fuzzy
msgid ""
"This is perfectly okay! Repetition is an important part of learning. "
"Remember that the slides are just a support and you are free to skip them as "
"you like."
msgstr ""
"これは全く問題ありません!復習は学びの重要な要素です。スライドはあくまでもサ"
"ポートとして用意されているものであり、ご自身の判断でスキップも可能です。"
#: src/welcome-day-1.md:29
msgid ""
"The idea for the first day is to show _just enough_ of Rust to be able to "
"speak about the famous borrow checker. The way Rust handles memory is a "
"major feature and we should show students this right away."
msgstr ""
"本日の目的は、Rust特有の借用チェッカーについて話ができるように、Rustについて"
"最低限の情報提供を行う事です。Rustがメモリをどのように扱うかは重要な機能であ"
"り、なるべく早く受講生に説明すべき内容です。"
#: src/welcome-day-1.md:33
msgid ""
"If you're teaching this in a classroom, this is a good place to go over the "
"schedule. We suggest splitting the day into two parts (following the slides):"
msgstr ""
"この時点でスケジュール確認を行なってください。以下のように1日を2パートに分け"
"て実施する事を推奨しています:"
#: src/welcome-day-1.md:36
msgid "Morning: 9:00 to 12:00,"
msgstr "AM: 9:00 ~ 12:00"
#: src/welcome-day-1.md:37
msgid "Afternoon: 13:00 to 16:00."
msgstr "PM: 13:00 ~ 16:00"
#: src/welcome-day-1.md:39
msgid ""
"You can of course adjust this as necessary. Please make sure to include "
"breaks, we recommend a break every hour!"
msgstr ""
"必要に応じて調整してください。また、1時間ごとに休憩を取る事をおすすめします!"
#: src/welcome-day-1/what-is-rust.md:3
msgid ""
"Rust is a new programming language which had its [1.0 release in 2015]"
"(https://blog.rust-lang.org/2015/05/15/Rust-1.0.html):"
msgstr ""
"Rustは[2015年に1.0版がリリース](https://blog.rust-lang.org/2015/05/15/"
"Rust-1.0.html)された新しいプログラミング言語です:"
#: src/welcome-day-1/what-is-rust.md:5
msgid "Rust is a statically compiled language in a similar role as C++"
msgstr "RustはC++と同様に、静的にコンパイルされる言語です"
#: src/welcome-day-1/what-is-rust.md:6
msgid "`rustc` uses LLVM as its backend."
msgstr "`rustc`はバックエンドにLLVMを使用しています。"
#: src/welcome-day-1/what-is-rust.md:7
msgid ""
"Rust supports many [platforms and architectures](https://doc.rust-lang.org/"
"nightly/rustc/platform-support.html):"
msgstr ""
"Rustは多くの[プラットフォームとアーキテクチャ](https://doc.rust-lang.org/"
"nightly/rustc/platform-support.html)をサポートしています:"
#: src/welcome-day-1/what-is-rust.md:9
msgid "x86, ARM, WebAssembly, ..."
msgstr "x86, ARM, WebAssembly, …"
#: src/welcome-day-1/what-is-rust.md:10
msgid "Linux, Mac, Windows, ..."
msgstr "Linux, Mac, Windows, …"
#: src/welcome-day-1/what-is-rust.md:11
msgid "Rust is used for a wide range of devices:"
msgstr "Rustは様々なデバイスで使用されています:"
#: src/welcome-day-1/what-is-rust.md:12
msgid "firmware and boot loaders,"
msgstr "ファームウェアやブートローダ"
#: src/welcome-day-1/what-is-rust.md:13
msgid "smart displays,"
msgstr "スマートディスプレイ"
#: src/welcome-day-1/what-is-rust.md:14
msgid "mobile phones,"
msgstr "携帯電話"
#: src/welcome-day-1/what-is-rust.md:15
msgid "desktops,"
msgstr "デスクトップ"
#: src/welcome-day-1/what-is-rust.md:16
msgid "servers."
msgstr "サーバ"
#: src/welcome-day-1/what-is-rust.md:21
msgid "Rust fits in the same area as C++:"
msgstr "RustとC++が似ているところ:"
#: src/welcome-day-1/what-is-rust.md:23
msgid "High flexibility."
msgstr "高い柔軟性"
#: src/welcome-day-1/what-is-rust.md:24
msgid "High level of control."
msgstr "高度な制御性"
#: src/welcome-day-1/what-is-rust.md:25
#, fuzzy
msgid ""
"Can be scaled down to very constrained devices such as microcontrollers."
msgstr "携帯電話のようなデバイスにまでスケールダウンが可能"
#: src/welcome-day-1/what-is-rust.md:26
msgid "Has no runtime or garbage collection."
msgstr "ランタイムやガベージコレクションがない"
#: src/welcome-day-1/what-is-rust.md:27
msgid "Focuses on reliability and safety without sacrificing performance."
msgstr "パフォーマンスを犠牲にせず、信頼性と安全性に焦点を当てている"
#: src/hello-world.md:3
msgid ""
"Let us jump into the simplest possible Rust program, a classic Hello World "
"program:"
msgstr ""
"さっそく一番シンプルなプログラムである定番のHello Worldからみてみましょう:"
#: src/hello-world.md:8
msgid "\"Hello 🌍!\""
msgstr ""
#: src/hello-world.md:12
msgid "What you see:"
msgstr "プログラムの中身:"
#: src/hello-world.md:14
msgid "Functions are introduced with `fn`."
msgstr "関数は`fn`で導入されます。"
#: src/hello-world.md:15
msgid "Blocks are delimited by curly braces like in C and C++."
msgstr "CやC++と同様に、ブロックは波括弧で囲みます。"
#: src/hello-world.md:16
msgid "The `main` function is the entry point of the program."
msgstr "`main`関数はプログラムのエントリーポイントになります。"
#: src/hello-world.md:17
msgid "Rust has hygienic macros, `println!` is an example of this."
msgstr "Rustには衛生的なマクロがあり、`println!`はその一例です。"
#: src/hello-world.md:18
msgid "Rust strings are UTF-8 encoded and can contain any Unicode character."
msgstr ""
"Rustの文字列はUTF-8でエンコードされ、どんなUnicode文字でも含む事ができます。"
#: src/hello-world.md:22
#, fuzzy
msgid ""
"This slide tries to make the students comfortable with Rust code. They will "
"see a ton of it over the next three days so we start small with something "
"familiar."
msgstr ""
"このスライドの目的は、Rustのコードに慣れてもらう事です。この4日間で大量のRust"
"コードを見る事になるので、馴染みのあるものから始めてみましょう。"
#: src/hello-world.md:27
#, fuzzy
msgid ""
"Rust is very much like other languages in the C/C++/Java tradition. It is "
"imperative and it doesn't try to reinvent things unless absolutely necessary."
msgstr ""
"Rustは、C/C++/Java系統の言語によく似ています。Rustは、命令型(関数型ではな"
"く)であり、必須でない限り機能の再発明はしません。"
#: src/hello-world.md:31
#, fuzzy
msgid "Rust is modern with full support for things like Unicode."
msgstr "RustはUnicodeなどにも完全に対応している現代的な言語です。"
#: src/hello-world.md:33
#, fuzzy
msgid ""
"Rust uses macros for situations where you want to have a variable number of "
"arguments (no function [overloading](basic-syntax/functions-interlude.md))."
msgstr ""
"Rustで可変長引数を用いたい場合は、マクロを使用します(関数[オーバーロード]"
"(basic-syntax/functions-interlude.md)はありません)。"
#: src/hello-world.md:36
#, fuzzy
msgid ""
"Macros being 'hygienic' means they don't accidentally capture identifiers "
"from the scope they are used in. Rust macros are actually only [partially "
"hygienic](https://veykril.github.io/tlborm/decl-macros/minutiae/hygiene."
"html)."
msgstr ""
"マクロが「衛生的 (hygienic)」であるとは、そのマクロが呼び出されるスコープにあ"
"る識別子と、そのマクロ内部の識別子が衝突しないことが保証されていることを言い"
"ます。Rustのマクロは、実際には[部分的にしか衛生的](https://veykril.github.io/"
"tlborm/decl-macros/minutiae/hygiene.html)ではありません。"
#: src/hello-world.md:40
msgid ""
"Rust is multi-paradigm. For example, it has powerful [object-oriented "
"programming features](https://doc.rust-lang.org/book/ch17-00-oop.html), and, "
"while it is not a functional language, it includes a range of [functional "
"concepts](https://doc.rust-lang.org/book/ch13-00-functional-features.html)."
msgstr ""
#: src/hello-world/small-example.md:3
msgid "Here is a small example program in Rust:"
msgstr "ここでは、Rustによる小さなサンプルプログラムを紹介します:"
#: src/hello-world/small-example.md:6
msgid "// Program entry point\n"
msgstr "// プログラムのエントリーポイント\n"
#: src/hello-world/small-example.md:7
msgid "// Mutable variable binding\n"
msgstr "// 可変変数のバインディング\n"
#: src/hello-world/small-example.md:8 src/traits/impl-trait.md:15
msgid "\"{x}\""
msgstr "\"{x}\""
#: src/hello-world/small-example.md:8
msgid "// Macro for printing, like printf\n"
msgstr "// printfのような、出力用マクロ\n"
#: src/hello-world/small-example.md:9
msgid "// No parenthesis around expression\n"
msgstr "// 式を囲む括弧は不要\n"
#: src/hello-world/small-example.md:10
msgid "// Math like in other languages\n"
msgstr "// 他の言語と同様の演算\n"
#: src/hello-world/small-example.md:15
msgid "\" -> {x}\""
msgstr "\" -> {x}\""
#: src/hello-world/small-example.md:23
msgid ""
"The code implements the Collatz conjecture: it is believed that the loop "
"will always end, but this is not yet proved. Edit the code and play with "
"different inputs."
msgstr ""
"この例はCollatz予想を実装したものです: このループは必ず終了すると言われてい"
"ますが、まだ証明はされていません。コードを編集して、異なる入力値で試してみて"
"ください。"
#: src/hello-world/small-example.md:29
msgid ""
"Explain that all variables are statically typed. Try removing `i32` to "
"trigger type inference. Try with `i8` instead and trigger a runtime integer "
"overflow."
msgstr ""
"すべての変数が静的型付けされている事を説明してください。`i32`を削除して型推論"
"を試してください。代わりに`i8`を使用して、実行時に整数オーバーフローを引き起"
"こしてみてください。"
#: src/hello-world/small-example.md:32
msgid "Change `let mut x` to `let x`, discuss the compiler error."
msgstr ""
"`let mut x`を`let x`に変更し、コンパイルエラーについて説明してください。"
#: src/hello-world/small-example.md:34
msgid ""
"Show how `print!` gives a compilation error if the arguments don't match the "
"format string."
msgstr ""
"`print!`の引数がフォーマット文字列と一致しない場合、コンパイルエラーが発生す"
"る事を実演してください。"
#: src/hello-world/small-example.md:37
msgid ""
"Show how you need to use `{}` as a placeholder if you want to print an "
"expression which is more complex than just a single variable."
msgstr ""
"単一の変数よりも複雑な式を表示したい場合は、`{}`をプレースホルダとして使用す"
"る必要がある事を実演してください。"
#: src/hello-world/small-example.md:40
msgid ""
"Show the students the standard library, show them how to search for `std::"
"fmt` which has the rules of the formatting mini-language. It's important "
"that the students become familiar with searching in the standard library."
msgstr ""
"受講生に標準ライブラリを紹介し、`std::fmt`の検索方法を説明してください。"
"`std::fmt`には、フォーマット機能のルールや構文が説明されています。受講者が標"
"準ライブラリの検索に慣れておく事は重要です。"
#: src/hello-world/small-example.md:44
msgid ""
"In a shell `rustup doc std::fmt` will open a browser on the local std::fmt "
"documentation"
msgstr ""
#: src/why-rust.md:3
msgid "Some unique selling points of Rust:"
msgstr "Rustのユニークなセールスポイントをいくつか紹介します:"
#: src/why-rust.md:5
msgid "Compile time memory safety."
msgstr "コンパイル時のメモリ安全性。"
#: src/why-rust.md:6
msgid "Lack of undefined runtime behavior."
msgstr "未定義の実行時動作がない。"
#: src/why-rust.md:7
msgid "Modern language features."
msgstr "現代的な言語機能。"
#: src/why-rust.md:11
msgid ""
"Make sure to ask the class which languages they have experience with. "
"Depending on the answer you can highlight different features of Rust:"
msgstr ""
"受講者にどの言語の経験があるかを尋ねてください。回答に応じて、Rustのさまざま"
"な特徴を強調することができます:"
#: src/why-rust.md:14
msgid ""
"Experience with C or C++: Rust eliminates a whole class of _runtime errors_ "
"via the borrow checker. You get performance like in C and C++, but you don't "
"have the memory unsafety issues. In addition, you get a modern language with "
"constructs like pattern matching and built-in dependency management."
msgstr ""
"CまたはC++の経験がある場合: Rustは借用チェッカーを介して実行時エラーの一部を"
"排除してくれます。それに加え、CやC++と同等のパフォーマンスを得ることができ、"
"メモリ安全性の問題はありません。さらに、パターンマッチングや組み込みの依存関"
"係管理などの構造要素を含む現代的な言語です。"
#: src/why-rust.md:19
msgid ""
"Experience with Java, Go, Python, JavaScript...: You get the same memory "
"safety as in those languages, plus a similar high-level language feeling. In "
"addition you get fast and predictable performance like C and C++ (no garbage "
"collector) as well as access to low-level hardware (should you need it)"
msgstr ""
"Java、Go、Python、JavaScriptなどの経験がある場合: これらの言語と同様のメモリ"
"安全性と、高水準言語に近い感覚を得ることができます。また、CやC++のように高速"
"かつ予測可能なパフォーマンス(ガベージコレクタがない)を得ることができ、(必"
"要なら)低水準なハードウェアへのアクセスも可能です"
#: src/why-rust/an-example-in-c.md:4
msgid "Let's consider the following \"minimum wrong example\" program in C:"
msgstr ""
#: src/why-rust/an-example-in-c.md:7
#: src/android/interoperability/with-c/bindgen.md:22
msgid "<stdio.h>"
msgstr ""
#: src/why-rust/an-example-in-c.md:8
msgid "<stdlib.h>"
msgstr ""
#: src/why-rust/an-example-in-c.md:9
msgid "<sys/stat.h>"
msgstr ""
#: src/why-rust/an-example-in-c.md:19
msgid "\"Too few arguments!\\n\""
msgstr ""
#: src/why-rust/an-example-in-c.md:29
msgid "\"malloc failed!\\n\""
msgstr ""
#: src/why-rust/an-example-in-c.md:32
msgid "\"rb\""
msgstr ""
#: src/why-rust/an-example-in-c.md:35
msgid "\"%s\""
msgstr ""
#: src/why-rust/an-example-in-c.md:37
msgid "\"fread failed!\\n\""
msgstr ""
#: src/why-rust/an-example-in-c.md:40
msgid "\"Too many arguments!\\n\""
msgstr ""
#: src/why-rust/an-example-in-c.md:48
msgid "How many bugs do you spot?"
msgstr ""
#: src/why-rust/an-example-in-c.md:52
msgid ""
"Despite just 29 lines of code, this C example contains serious bugs in at "
"least 11:"
msgstr ""
#: src/why-rust/an-example-in-c.md:54
msgid "Assignment `=` instead of equality comparison `==` (line 28)"
msgstr ""
#: src/why-rust/an-example-in-c.md:55
msgid "Excess argument to `printf` (line 23)"
msgstr ""
#: src/why-rust/an-example-in-c.md:56
msgid "File descriptor leak (after line 26)"
msgstr ""
#: src/why-rust/an-example-in-c.md:57
msgid "Forgotten braces in multi-line `if` (line 22)"
msgstr ""
#: src/why-rust/an-example-in-c.md:58
msgid "Forgotten `break` in a `switch` statement (line 32)"
msgstr ""
#: src/why-rust/an-example-in-c.md:59
msgid ""
"Forgotten NUL-termination of the `buf` string, leading to a buffer overflow "
"(line 29)"
msgstr ""
#: src/why-rust/an-example-in-c.md:60
msgid "Memory leak by not freeing the `malloc`\\-allocated buffer (line 21)"
msgstr ""
#: src/why-rust/an-example-in-c.md:61
msgid "Out-of-bounds access (line 17)"
msgstr ""
#: src/why-rust/an-example-in-c.md:62
msgid "Unchecked cases in the `switch` statement (line 11)"
msgstr ""
#: src/why-rust/an-example-in-c.md:63
msgid "Unchecked return values of `stat` and `fopen` (lines 18 and 26)"
msgstr ""
#: src/why-rust/an-example-in-c.md:65
msgid ""
"_Shouldn't these bugs be obvious even for a C compiler?_ \n"
"No, surprisingly this code compiles warning-free at the default warning "
"level, even in the latest GCC version (13.2 as of writing)."
msgstr ""
#: src/why-rust/an-example-in-c.md:68
msgid ""
"_Isn't this a highly unrealistic example?_ \n"
"Absolutely not, these kind of bugs have lead to serious security "
"vulnerabilities in the past. Some examples:"
msgstr ""
#: src/why-rust/an-example-in-c.md:71
msgid ""
"Assignment `=` instead of equality comparison `==`: [The Linux Backdoor "
"Attempt of 2003](https://freedom-to-tinker.com/2013/10/09/the-linux-backdoor-"
"attempt-of-2003)"
msgstr ""
#: src/why-rust/an-example-in-c.md:72
msgid ""
"Forgotten braces in multi-line `if`: [The Apple goto fail vulnerability]"
"(https://dwheeler.com/essays/apple-goto-fail.html)"
msgstr ""
#: src/why-rust/an-example-in-c.md:73
msgid ""
"Forgotten `break` in a `switch` statement: [The break that broke sudo]"
"(https://nakedsecurity.sophos.com/2012/05/21/anatomy-of-a-security-hole-the-"
"break-that-broke-sudo)"
msgstr ""
#: src/why-rust/an-example-in-c.md:75
msgid ""
"_How is Rust any better here?_ \n"
"Safe Rust makes all of these bugs impossible:"
msgstr ""
#: src/why-rust/an-example-in-c.md:78
msgid "Assignments inside an `if` clause are not supported."
msgstr ""
#: src/why-rust/an-example-in-c.md:79
msgid "Format strings are checked at compile-time."
msgstr ""
#: src/why-rust/an-example-in-c.md:80
msgid "Resources are freed at the end of scope via the `Drop` trait."
msgstr ""
#: src/why-rust/an-example-in-c.md:81
msgid "All `if` clauses require braces."
msgstr ""
#: src/why-rust/an-example-in-c.md:82
msgid ""
"`match` (as the Rust equivalent to `switch`) does not fall-through, hence "
"you can't accidentally forget a `break`."
msgstr ""
#: src/why-rust/an-example-in-c.md:83
msgid "Buffer slices carry their size and don't rely on a NUL terminator."
msgstr ""
#: src/why-rust/an-example-in-c.md:84
msgid ""
"Heap-allocated memory is freed via the `Drop` trait when the corresponding "
"`Box` leaves the scope."
msgstr ""
#: src/why-rust/an-example-in-c.md:85
msgid ""
"Out-of-bounds accesses cause a panic or can be checked via the `get` method "
"of a slice."
msgstr ""
#: src/why-rust/an-example-in-c.md:86
msgid "`match` mandates that all cases are handled."
msgstr ""
#: src/why-rust/an-example-in-c.md:87
msgid ""
"Fallible Rust functions return `Result` values that need to be unwrapped and "
"thereby checked for success. Additionally, the compiler emits a warning if "
"you miss to check the return value of a function marked with `#[must_use]`."
msgstr ""
#: src/why-rust/compile-time.md:3
msgid "Static memory management at compile time:"
msgstr "コンパイル時の静的メモリの管理:"
#: src/why-rust/compile-time.md:5
msgid "No uninitialized variables."
msgstr "未初期化の変数がない。"
#: src/why-rust/compile-time.md:6
msgid "No memory leaks (_mostly_, see notes)."
msgstr "メモリリークの心配が(ほとんど)ない (ノートを参照)。"
#: src/why-rust/compile-time.md:7
msgid "No double-frees."
msgstr "二重解放が起きない。"
#: src/why-rust/compile-time.md:8
msgid "No use-after-free."
msgstr "解放済みメモリ使用(use-after-free)がない。"
#: src/why-rust/compile-time.md:9
msgid "No `NULL` pointers."
msgstr "`NULL`(ヌル)ポインタがない。"
#: src/why-rust/compile-time.md:10
msgid "No forgotten locked mutexes."
msgstr "ミューテックス(mutex)のロックの解除忘れがない。"
#: src/why-rust/compile-time.md:11
msgid "No data races between threads."
msgstr "スレッド間でデータ競合しない。"
#: src/why-rust/compile-time.md:12
msgid "No iterator invalidation."
msgstr "イテレータが無効化されない。"
#: src/why-rust/compile-time.md:16
msgid ""
"It is possible to produce memory leaks in (safe) Rust. Some examples are:"
msgstr ""
"SafeなRustの範囲内でメモリリークを引き起こすことは可能です。例として以下のよ"
"うな手段があります:"
#: src/why-rust/compile-time.md:19
#, fuzzy
msgid ""
"You can use [`Box::leak`](https://doc.rust-lang.org/std/boxed/struct.Box."
"html#method.leak) to leak a pointer. A use of this could be to get runtime-"
"initialized and runtime-sized static variables"
msgstr ""
"[`Box::leak`](https://doc.rust-lang.org/std/boxed/struct.Box.html#method."
"leak)を使ってポインタをリークさせることができます。この関数は実行時に初期化さ"
"れ、実行時にサイズが決まるstatic変数の取得などに使われます。"
#: src/why-rust/compile-time.md:21
#, fuzzy
msgid ""
"You can use [`std::mem::forget`](https://doc.rust-lang.org/std/mem/fn.forget."
"html) to make the compiler \"forget\" about a value (meaning the destructor "
"is never run)."
msgstr ""
"[`std::mem::forget`](https://doc.rust-lang.org/std/mem/fn.forget.html)を使っ"
"て、コンパイラに値を忘れさせることができます (つまり、デストラクタが実行され"
"ない)。"
#: src/why-rust/compile-time.md:23
#, fuzzy
msgid ""
"You can also accidentally create a [reference cycle](https://doc.rust-lang."
"org/book/ch15-06-reference-cycles.html) with `Rc` or `Arc`."
msgstr ""
"`Rc`や`Arc`を使って\\[循環参照(reference cycle)\\]を誤って作成することがあ"
"ります。"
#: src/why-rust/compile-time.md:25
#, fuzzy
msgid ""
"In fact, some will consider infinitely populating a collection a memory leak "
"and Rust does not protect from those."
msgstr ""
"コレクションを無限に拡張し続けることをメモリリークと見なす場合があり、Rustに"
"はこれを防ぐ機能はありません。"
#: src/why-rust/compile-time.md:28
msgid ""
"For the purpose of this course, \"No memory leaks\" should be understood as "
"\"Pretty much no _accidental_ memory leaks\"."
msgstr ""
"本講座での「メモリリークが起きない」は「\\_意図しない_メモリリークはほとんど"
"起きない」と解釈すべきです。"
#: src/why-rust/runtime.md:3
msgid "No undefined behavior at runtime:"
msgstr "実行時に未定義の動作はありません:"
#: src/why-rust/runtime.md:5
msgid "Array access is bounds checked."
msgstr "配列へのアクセスには境界チェックが行われる。"
#: src/why-rust/runtime.md:6
#, fuzzy
msgid "Integer overflow is defined (panic or wrap-around)."
msgstr "整数オーバーフローの挙動が定義されている。"
#: src/why-rust/runtime.md:12
#, fuzzy
msgid ""
"Integer overflow is defined via the [`overflow-checks`](https://doc.rust-"
"lang.org/rustc/codegen-options/index.html#overflow-checks) compile-time "
"flag. If enabled, the program will panic (a controlled crash of the "
"program), otherwise you get wrap-around semantics. By default, you get "
"panics in debug mode (`cargo build`) and wrap-around in release mode (`cargo "
"build --release`)."
msgstr ""
"整数オーバーフローは、コンパイル時のフラグで定義されます。選択肢として、パ"
"ニック(プログラムの制御されたクラッシュ)またはラップアラウンドのセマンティ"
"クスがあります。デフォルトとして、デバッグモード(`cargo build`)ではパニック"
"が発生し、リリースモード(`cargo build —release`)ではラップアラウンドが行わ"
"れます。"
#: src/why-rust/runtime.md:18
msgid ""
"Bounds checking cannot be disabled with a compiler flag. It can also not be "
"disabled directly with the `unsafe` keyword. However, `unsafe` allows you to "
"call functions such as `slice::get_unchecked` which does not do bounds "
"checking."
msgstr ""
"境界チェックは、コンパイル時のフラグで無効にすることはできません。また、"
"`unsafe`のキーワードを使って直接無効にすることもできません。しかし、`unsafe`"
"を使って境界チェックを行わない`slice::get_unchecked`のような関数を呼び出すこ"
"とができます。"
#: src/why-rust/modern.md:3
#, fuzzy
msgid "Rust is built with all the experience gained in the last decades."
msgstr "Rustは過去40年間の経験を基に構築されています。"
#: src/why-rust/modern.md:5
msgid "Language Features"
msgstr "言語の特徴"
#: src/why-rust/modern.md:7
msgid "Enums and pattern matching."
msgstr "列挙型とパターンマッチング"
#: src/why-rust/modern.md:8
msgid "Generics."
msgstr "ジェネリクス"
#: src/why-rust/modern.md:9
msgid "No overhead FFI."
msgstr "オーバーヘッドのないFFI"
#: src/why-rust/modern.md:10
msgid "Zero-cost abstractions."
msgstr "ゼロコスト抽象化"
#: src/why-rust/modern.md:12
msgid "Tooling"
msgstr ""
#: src/why-rust/modern.md:14
msgid "Great compiler errors."
msgstr "優秀なコンパイルエラー。"
#: src/why-rust/modern.md:15
msgid "Built-in dependency manager."
msgstr "組み込みの依存関係マネージャ。"
#: src/why-rust/modern.md:16
msgid "Built-in support for testing."
msgstr "組み込みのテストサポート。"
#: src/why-rust/modern.md:17
msgid "Excellent Language Server Protocol support."
msgstr "Language Server Protocol(LSP)のサポート。"
#: src/why-rust/modern.md:23
msgid ""
"Zero-cost abstractions, similar to C++, means that you don't have to 'pay' "
"for higher-level programming constructs with memory or CPU. For example, "
"writing a loop using `for` should result in roughly the same low level "
"instructions as using the `.iter().fold()` construct."
msgstr ""
"C++と同様に、ゼロコスト抽象化とは、より高水準なプログラミング構造の利用にメモ"
"リやCPUのコストを支払う必要がないことを意味します。例えば、`for`を使ったルー"
"プの場合、`iter().fold()`構文を使った場合とおおよそ同じ低水準の処理になりま"
"す。"
#: src/why-rust/modern.md:28
msgid ""
"It may be worth mentioning that Rust enums are 'Algebraic Data Types', also "
"known as 'sum types', which allow the type system to express things like "
"`Option<T>` and `Result<T, E>`."
msgstr ""
"Rustの列挙型は「代数的データ型」であり、「直和型」と呼ばれます。`Option<T>`や"
"`Result<T, E>`のような要素を表現することができます。"
#: src/why-rust/modern.md:32
msgid ""
"Remind people to read the errors --- many developers have gotten used to "
"ignore lengthy compiler output. The Rust compiler is significantly more "
"talkative than other compilers. It will often provide you with _actionable_ "
"feedback, ready to copy-paste into your code."
msgstr ""
"エラーをちゃんと確認するよう注意してください。多くの開発者は、長いコンパイラ"
"出力を無視することに慣れてしまっています。Rustのコンパイラは他のコンパイラよ"
"りもわかりやすく実用的なフィードバックを提供してくれます。そして多くの場合、"
"コードにそのままコピペできるようなフィードバックが提供されます。"
#: src/why-rust/modern.md:37
msgid ""
"The Rust standard library is small compared to languages like Java, Python, "
"and Go. Rust does not come with several things you might consider standard "
"and essential:"
msgstr ""
"Rustの標準ライブラリは、Java、Python、Goなどのそれと比べると小規模です。Rust"
"には標準的かつ必須と思われるいくつかの機能が含まれていません:"
#: src/why-rust/modern.md:41
msgid "a random number generator, but see [rand](https://docs.rs/rand/)."
msgstr "乱数生成器。[rand](https://docs.rs/rand/)を確認してください。"
#: src/why-rust/modern.md:42
msgid "support for SSL or TLS, but see [rusttls](https://docs.rs/rustls/)."
msgstr ""
"SSLやTLSのサポート。[rusttls](https://docs.rs/rustls/)を確認してください。"
#: src/why-rust/modern.md:43
msgid "support for JSON, but see [serde_json](https://docs.rs/serde_json/)."
msgstr ""
"JSONのサポート。[serde_json](https://docs.rs/serde_json/)を確認してくださ"
"い。 "
#: src/why-rust/modern.md:45
msgid ""
"The reasoning behind this is that functionality in the standard library "
"cannot go away, so it has to be very stable. For the examples above, the "
"Rust community is still working on finding the best solution --- and perhaps "
"there isn't a single \"best solution\" for some of these things."
msgstr ""
"この理由は、標準ライブラリの機能は消えることがなく、非常に安定したものでなけ"
"ればならないからです。上記の例については、Rustコミュニティが未だに最適な解決"
"策を探し続けています。そもそも、これらに対する「最適解」は一つであるとは限ら"
"ないのです。"
#: src/why-rust/modern.md:50
msgid ""
"Rust comes with a built-in package manager in the form of Cargo and this "
"makes it trivial to download and compile third-party crates. A consequence "
"of this is that the standard library can be smaller."
msgstr ""
"Rustには、Cargoという外部クレートのダウンロードからコンパイルまでを簡単に行っ"
"てくれるパッケージマネージャが組み込まれています。これにより、標準ライブラリ"
"を小規模に保つことができています。"
#: src/why-rust/modern.md:54
msgid ""
"Discovering good third-party crates can be a problem. Sites like <https://"
"lib.rs/> help with this by letting you compare health metrics for crates to "
"find a good and trusted one."
msgstr ""
"良い外部クレートを見つけるのは難しいときがあります。<https://lib.rs/>のような"
"サイトを使うことで、クレートの評価基準を参考にしながら比較を行うことができま"
"す。"
#: src/why-rust/modern.md:58
msgid ""
"[rust-analyzer](https://rust-analyzer.github.io/) is a well supported LSP "
"implementation used in major IDEs and text editors."
msgstr ""
"[rust-analyzer](https://rust-analyzer.github.io/)は、主要IDEやテキストエディ"
"タで使用できる、サポートが充実しているLSPの実装です。"
#: src/basic-syntax.md:3
msgid "Much of the Rust syntax will be familiar to you from C, C++ or Java:"
msgstr ""
#: src/basic-syntax.md:5
msgid "Blocks and scopes are delimited by curly braces."
msgstr ""
#: src/basic-syntax.md:6
msgid ""
"Line comments are started with `//`, block comments are delimited by `/* ... "
"*/`."
msgstr ""
#: src/basic-syntax.md:8
msgid "Keywords like `if` and `while` work the same."
msgstr ""
#: src/basic-syntax.md:9
msgid "Variable assignment is done with `=`, comparison is done with `==`."
msgstr ""
#: src/basic-syntax/scalar-types.md:3 src/basic-syntax/compound-types.md:3
#: src/exercises/day-3/safe-ffi-wrapper.md:16
msgid "Types"
msgstr ""
#: src/basic-syntax/scalar-types.md:3 src/basic-syntax/compound-types.md:3
msgid "Literals"
msgstr ""
#: src/basic-syntax/scalar-types.md:5
msgid "Signed integers"
msgstr ""
#: src/basic-syntax/scalar-types.md:5
msgid "`i8`, `i16`, `i32`, `i64`, `i128`, `isize`"
msgstr ""
#: src/basic-syntax/scalar-types.md:5
msgid "`-10`, `0`, `1_000`, `123_i64`"
msgstr ""
#: src/basic-syntax/scalar-types.md:6
msgid "Unsigned integers"
msgstr ""
#: src/basic-syntax/scalar-types.md:6
msgid "`u8`, `u16`, `u32`, `u64`, `u128`, `usize`"
msgstr ""
#: src/basic-syntax/scalar-types.md:6
msgid "`0`, `123`, `10_u16`"
msgstr ""
#: src/basic-syntax/scalar-types.md:7
msgid "Floating point numbers"
msgstr ""
#: src/basic-syntax/scalar-types.md:7
msgid "`f32`, `f64`"
msgstr ""
#: src/basic-syntax/scalar-types.md:7
msgid "`3.14`, `-10.0e20`, `2_f32`"
msgstr ""
#: src/basic-syntax/scalar-types.md:8
msgid "Strings"
msgstr ""
#: src/basic-syntax/scalar-types.md:8
msgid "`&str`"
msgstr ""
#: src/basic-syntax/scalar-types.md:8
msgid "`\"foo\"`, `\"two\\nlines\"`"
msgstr ""
#: src/basic-syntax/scalar-types.md:9
msgid "Unicode scalar values"
msgstr ""
#: src/basic-syntax/scalar-types.md:9
msgid "`char`"
msgstr ""
#: src/basic-syntax/scalar-types.md:9
msgid "`'a'`, `'α'`, `'∞'`"
msgstr ""
#: src/basic-syntax/scalar-types.md:10
msgid "Booleans"
msgstr ""
#: src/basic-syntax/scalar-types.md:10
msgid "`bool`"
msgstr ""
#: src/basic-syntax/scalar-types.md:10
msgid "`true`, `false`"
msgstr ""
#: src/basic-syntax/scalar-types.md:12
msgid "The types have widths as follows:"
msgstr ""
#: src/basic-syntax/scalar-types.md:14
msgid "`iN`, `uN`, and `fN` are _N_ bits wide,"
msgstr ""
#: src/basic-syntax/scalar-types.md:15
msgid "`isize` and `usize` are the width of a pointer,"
msgstr ""
#: src/basic-syntax/scalar-types.md:16
msgid "`char` is 32 bits wide,"
msgstr ""
#: src/basic-syntax/scalar-types.md:17
msgid "`bool` is 8 bits wide."
msgstr ""
#: src/basic-syntax/scalar-types.md:21
msgid "There are a few syntaxes which are not shown above:"
msgstr ""
#: src/basic-syntax/scalar-types.md:23
msgid ""
"Raw strings allow you to create a `&str` value with escapes disabled: "
"`r\"\\n\" == \"\\\\n\"`. You can embed double-quotes by using an equal "
"amount of `#` on either side of the quotes:"
msgstr ""
#: src/basic-syntax/scalar-types.md:35
msgid "Byte strings allow you to create a `&[u8]` value directly:"
msgstr ""
#: src/basic-syntax/scalar-types.md:45
msgid ""
"All underscores in numbers can be left out, they are for legibility only. So "
"`1_000` can be written as `1000` (or `10_00`), and `123_i64` can be written "
"as `123i64`."
msgstr ""
#: src/basic-syntax/compound-types.md:5
msgid "Arrays"
msgstr ""
#: src/basic-syntax/compound-types.md:5
msgid "`[T; N]`"
msgstr ""
#: src/basic-syntax/compound-types.md:5
msgid "`[20, 30, 40]`, `[0; 3]`"
msgstr ""
#: src/basic-syntax/compound-types.md:6
msgid "Tuples"
msgstr ""
#: src/basic-syntax/compound-types.md:6
msgid "`()`, `(T,)`, `(T1, T2)`, ..."
msgstr ""
#: src/basic-syntax/compound-types.md:6
msgid "`()`, `('x',)`, `('x', 1.2)`, ..."
msgstr ""
#: src/basic-syntax/compound-types.md:8
msgid "Array assignment and access:"
msgstr ""
#: src/basic-syntax/compound-types.md:19
msgid "Tuple assignment and access:"
msgstr ""
#: src/basic-syntax/compound-types.md:34
msgid "Arrays:"
msgstr ""
#: src/basic-syntax/compound-types.md:36
msgid ""
"A value of the array type `[T; N]` holds `N` (a compile-time constant) "
"elements of the same type `T`. Note that the length of the array is _part of "
"its type_, which means that `[u8; 3]` and `[u8; 4]` are considered two "
"different types."
msgstr ""
#: src/basic-syntax/compound-types.md:40
msgid "We can use literals to assign values to arrays."
msgstr ""
#: src/basic-syntax/compound-types.md:42
msgid ""
"In the main function, the print statement asks for the debug implementation "
"with the `?` format parameter: `{}` gives the default output, `{:?}` gives "
"the debug output. We could also have used `{a}` and `{a:?}` without "
"specifying the value after the format string."
msgstr ""
#: src/basic-syntax/compound-types.md:47
msgid ""
"Adding `#`, eg `{a:#?}`, invokes a \"pretty printing\" format, which can be "
"easier to read."
msgstr ""
#: src/basic-syntax/compound-types.md:49
msgid "Tuples:"
msgstr ""
#: src/basic-syntax/compound-types.md:51
msgid "Like arrays, tuples have a fixed length."
msgstr ""
#: src/basic-syntax/compound-types.md:53
msgid "Tuples group together values of different types into a compound type."
msgstr ""
#: src/basic-syntax/compound-types.md:55
msgid ""
"Fields of a tuple can be accessed by the period and the index of the value, "
"e.g. `t.0`, `t.1`."
msgstr ""
#: src/basic-syntax/compound-types.md:57
msgid ""
"The empty tuple `()` is also known as the \"unit type\". It is both a type, "
"and the only valid value of that type - that is to say both the type and its "
"value are expressed as `()`. It is used to indicate, for example, that a "
"function or expression has no return value, as we'll see in a future slide. "
msgstr ""
#: src/basic-syntax/compound-types.md:61
msgid ""
"You can think of it as `void` that can be familiar to you from other "
"programming languages."
msgstr ""
#: src/basic-syntax/references.md:3
msgid "Like C++, Rust has references:"
msgstr ""
#: src/basic-syntax/references.md:15
msgid "Some notes:"
msgstr ""
#: src/basic-syntax/references.md:17
msgid ""
"We must dereference `ref_x` when assigning to it, similar to C and C++ "
"pointers."
msgstr ""
#: src/basic-syntax/references.md:18
msgid ""
"Rust will auto-dereference in some cases, in particular when invoking "
"methods (try `ref_x.count_ones()`)."
msgstr ""
#: src/basic-syntax/references.md:20
msgid ""
"References that are declared as `mut` can be bound to different values over "
"their lifetime."
msgstr ""
#: src/basic-syntax/references.md:26
msgid ""
"Be sure to note the difference between `let mut ref_x: &i32` and `let ref_x: "
"&mut i32`. The first one represents a mutable reference which can be bound "
"to different values, while the second represents a reference to a mutable "
"value."
msgstr ""
#: src/basic-syntax/references-dangling.md:3
msgid "Rust will statically forbid dangling references:"
msgstr ""
#: src/basic-syntax/references-dangling.md:17
msgid "A reference is said to \"borrow\" the value it refers to."
msgstr ""
#: src/basic-syntax/references-dangling.md:18
msgid ""
"Rust is tracking the lifetimes of all references to ensure they live long "
"enough."
msgstr ""
#: src/basic-syntax/references-dangling.md:20
msgid "We will talk more about borrowing when we get to ownership."
msgstr ""
#: src/basic-syntax/slices.md:3
msgid "A slice gives you a view into a larger collection:"
msgstr ""
#: src/basic-syntax/slices.md:17
msgid "Slices borrow data from the sliced type."
msgstr ""
#: src/basic-syntax/slices.md:18
msgid "Question: What happens if you modify `a[3]` right before printing `s`?"
msgstr ""
#: src/basic-syntax/slices.md:22
msgid ""
"We create a slice by borrowing `a` and specifying the starting and ending "
"indexes in brackets."
msgstr ""
#: src/basic-syntax/slices.md:24
msgid ""
"If the slice starts at index 0, Rust’s range syntax allows us to drop the "
"starting index, meaning that `&a[0..a.len()]` and `&a[..a.len()]` are "
"identical."
msgstr ""
#: src/basic-syntax/slices.md:26
msgid ""
"The same is true for the last index, so `&a[2..a.len()]` and `&a[2..]` are "
"identical."
msgstr ""
#: src/basic-syntax/slices.md:28
msgid ""
"To easily create a slice of the full array, we can therefore use `&a[..]`."
msgstr ""
#: src/basic-syntax/slices.md:30
msgid ""
"`s` is a reference to a slice of `i32`s. Notice that the type of `s` "
"(`&[i32]`) no longer mentions the array length. This allows us to perform "
"computation on slices of different sizes."
msgstr ""
#: src/basic-syntax/slices.md:32
msgid ""
"Slices always borrow from another object. In this example, `a` has to remain "
"'alive' (in scope) for at least as long as our slice. "
msgstr ""
#: src/basic-syntax/slices.md:34
msgid ""
"The question about modifying `a[3]` can spark an interesting discussion, but "
"the answer is that for memory safety reasons you cannot do it through `a` at "
"this point in the execution, but you can read the data from both `a` and `s` "
"safely. It works before you created the slice, and again after the "
"`println`, when the slice is no longer used. More details will be explained "
"in the borrow checker section."
msgstr ""
#: src/basic-syntax/string-slices.md:1
msgid "`String` vs `str`"
msgstr ""
#: src/basic-syntax/string-slices.md:3
msgid "We can now understand the two string types in Rust:"
msgstr ""
#: src/basic-syntax/string-slices.md:7 src/traits/read-write.md:36
#: src/testing/test-modules.md:12
msgid "\"World\""
msgstr ""
#: src/basic-syntax/string-slices.md:8
msgid "\"s1: {s1}\""
msgstr ""
#: src/basic-syntax/string-slices.md:10 src/memory-management/scope-based.md:16
#: src/memory-management/garbage-collection.md:15
msgid "\"Hello \""
msgstr ""
#: src/basic-syntax/string-slices.md:11 src/basic-syntax/string-slices.md:13
#: src/ownership/move-semantics.md:9
msgid "\"s2: {s2}\""
msgstr ""
#: src/basic-syntax/string-slices.md:16
msgid "\"s3: {s3}\""
msgstr ""
#: src/basic-syntax/string-slices.md:20
msgid "Rust terminology:"
msgstr ""
#: src/basic-syntax/string-slices.md:22
msgid "`&str` an immutable reference to a string slice."
msgstr ""
#: src/basic-syntax/string-slices.md:23
msgid "`String` a mutable string buffer."
msgstr ""
#: src/basic-syntax/string-slices.md:27
msgid ""
"`&str` introduces a string slice, which is an immutable reference to UTF-8 "
"encoded string data stored in a block of memory. String literals "
"(`”Hello”`), are stored in the program’s binary."
msgstr ""
#: src/basic-syntax/string-slices.md:30
msgid ""
"Rust’s `String` type is a wrapper around a vector of bytes. As with a "
"`Vec<T>`, it is owned."
msgstr ""
#: src/basic-syntax/string-slices.md:32
msgid ""
"As with many other types `String::from()` creates a string from a string "
"literal; `String::new()` creates a new empty string, to which string data "
"can be added using the `push()` and `push_str()` methods."
msgstr ""
#: src/basic-syntax/string-slices.md:35
msgid ""
"The `format!()` macro is a convenient way to generate an owned string from "
"dynamic values. It accepts the same format specification as `println!()`."
msgstr ""
#: src/basic-syntax/string-slices.md:38
msgid ""
"You can borrow `&str` slices from `String` via `&` and optionally range "
"selection."
msgstr ""
#: src/basic-syntax/string-slices.md:40
msgid ""
"For C++ programmers: think of `&str` as `const char*` from C++, but the one "
"that always points to a valid string in memory. Rust `String` is a rough "
"equivalent of `std::string` from C++ (main difference: it can only contain "
"UTF-8 encoded bytes and will never use a small-string optimization)."
msgstr ""
#: src/basic-syntax/functions.md:3
msgid ""
"A Rust version of the famous [FizzBuzz](https://en.wikipedia.org/wiki/"
"Fizz_buzz) interview question:"
msgstr ""
#: src/basic-syntax/functions.md:36
msgid ""
"We refer in `main` to a function written below. Neither forward declarations "
"nor headers are necessary. "
msgstr ""
#: src/basic-syntax/functions.md:37
msgid ""
"Declaration parameters are followed by a type (the reverse of some "
"programming languages), then a return type."
msgstr ""
#: src/basic-syntax/functions.md:38
msgid ""
"The last expression in a function body (or any block) becomes the return "
"value. Simply omit the `;` at the end of the expression."
msgstr ""
#: src/basic-syntax/functions.md:39
msgid ""
"Some functions have no return value, and return the 'unit type', `()`. The "
"compiler will infer this if the `-> ()` return type is omitted."
msgstr ""
#: src/basic-syntax/functions.md:40
msgid ""
"The range expression in the `for` loop in `print_fizzbuzz_to()` contains "
"`=n`, which causes it to include the upper bound."
msgstr ""
#: src/basic-syntax/rustdoc.md:3
msgid ""
"All language items in Rust can be documented using special `///` syntax."
msgstr ""
#: src/basic-syntax/rustdoc.md:6
msgid ""
"/// Determine whether the first argument is divisible by the second "
"argument.\n"
"///\n"
"/// If the second argument is zero, the result is false.\n"
"///\n"
"/// # Example\n"
"/// ```\n"
"/// assert!(is_divisible_by(42, 2));\n"
"/// ```\n"
msgstr ""
#: src/basic-syntax/rustdoc.md:16
msgid "// Corner case, early return\n"
msgstr ""
#: src/basic-syntax/rustdoc.md:18
msgid "// The last expression in a block is the return value\n"
msgstr ""
#: src/basic-syntax/rustdoc.md:22
msgid ""
"The contents are treated as Markdown. All published Rust library crates are "
"automatically documented at [`docs.rs`](https://docs.rs) using the [rustdoc]"
"(https://doc.rust-lang.org/rustdoc/what-is-rustdoc.html) tool. It is "
"idiomatic to document all public items in an API using this pattern. Code "
"snippets can document usage and will be used as unit tests."
msgstr ""
#: src/basic-syntax/rustdoc.md:30
msgid ""
"Show students the generated docs for the `rand` crate at [`docs.rs/rand`]"
"(https://docs.rs/rand)."
msgstr ""
#: src/basic-syntax/rustdoc.md:33
msgid ""
"This course does not include rustdoc on slides, just to save space, but in "
"real code they should be present."
msgstr ""
#: src/basic-syntax/rustdoc.md:36
msgid ""
"Inner doc comments are discussed later (in the page on modules) and need not "
"be addressed here."
msgstr ""
#: src/basic-syntax/rustdoc.md:39
msgid ""
"Rustdoc comments can contain code snippets that we can run and test using "
"`cargo test`. We will discuss these tests in the [Testing section](../"
"testing/doc-tests.html)."
msgstr ""
#: src/basic-syntax/methods.md:3
msgid ""
"Methods are functions associated with a type. The `self` argument of a "
"method is an instance of the type it is associated with:"
msgstr ""
#: src/basic-syntax/methods.md:24
msgid "\"old area: {}\""
msgstr ""
#: src/basic-syntax/methods.md:26
msgid "\"new area: {}\""
msgstr ""
#: src/basic-syntax/methods.md:30
msgid ""
"We will look much more at methods in today's exercise and in tomorrow's "
"class."
msgstr ""
#: src/basic-syntax/methods.md:34
msgid "Add a static method called `Rectangle::new` and call this from `main`:"
msgstr ""
#: src/basic-syntax/methods.md:42
msgid ""
"While _technically_, Rust does not have custom constructors, static methods "
"are commonly used to initialize structs (but don't have to). The actual "
"constructor, `Rectangle { width, height }`, could be called directly. See "
"the [Rustnomicon](https://doc.rust-lang.org/nomicon/constructors.html)."
msgstr ""
#: src/basic-syntax/methods.md:45
msgid ""
"Add a `Rectangle::square(width: u32)` constructor to illustrate that such "
"static methods can take arbitrary parameters."
msgstr ""
#: src/basic-syntax/functions-interlude.md:1
msgid "Function Overloading"
msgstr ""
#: src/basic-syntax/functions-interlude.md:3
msgid "Overloading is not supported:"
msgstr ""
#: src/basic-syntax/functions-interlude.md:5
msgid "Each function has a single implementation:"
msgstr ""
#: src/basic-syntax/functions-interlude.md:6
msgid "Always takes a fixed number of parameters."
msgstr ""
#: src/basic-syntax/functions-interlude.md:7
msgid "Always takes a single set of parameter types."
msgstr ""
#: src/basic-syntax/functions-interlude.md:8
msgid "Default values are not supported:"
msgstr ""
#: src/basic-syntax/functions-interlude.md:9
msgid "All call sites have the same number of arguments."
msgstr ""
#: src/basic-syntax/functions-interlude.md:10
msgid "Macros are sometimes used as an alternative."
msgstr ""
#: src/basic-syntax/functions-interlude.md:12
msgid "However, function parameters can be generic:"
msgstr ""
#: src/basic-syntax/functions-interlude.md:20
msgid "\"coin toss: {}\""
msgstr ""
#: src/basic-syntax/functions-interlude.md:20
msgid "\"heads\""
msgstr ""
#: src/basic-syntax/functions-interlude.md:20
msgid "\"tails\""
msgstr ""
#: src/basic-syntax/functions-interlude.md:21
msgid "\"cash prize: {}\""
msgstr ""
#: src/basic-syntax/functions-interlude.md:27
msgid ""
"When using generics, the standard library's `Into<T>` can provide a kind of "
"limited polymorphism on argument types. We will see more details in a later "
"section."
msgstr ""
#: src/exercises/day-1/morning.md:1
msgid "Day 1: Morning Exercises"
msgstr ""
#: src/exercises/day-1/morning.md:3
msgid "In these exercises, we will explore two parts of Rust:"
msgstr ""
#: src/exercises/day-1/morning.md:5
msgid "Implicit conversions between types."
msgstr ""
#: src/exercises/day-1/morning.md:7
msgid "Arrays and `for` loops."
msgstr ""
#: src/exercises/day-1/morning.md:11
msgid "A few things to consider while solving the exercises:"
msgstr ""
#: src/exercises/day-1/morning.md:13
msgid ""
"Use a local Rust installation, if possible. This way you can get auto-"
"completion in your editor. See the page about [Using Cargo](../../cargo.md) "
"for details on installing Rust."
msgstr ""
#: src/exercises/day-1/morning.md:17
msgid "Alternatively, use the Rust Playground."
msgstr ""
#: src/exercises/day-1/morning.md:19
msgid ""
"The code snippets are not editable on purpose: the inline code snippets lose "
"their state if you navigate away from the page."
msgstr ""
#: src/exercises/day-1/morning.md:22 src/exercises/day-2/morning.md:11
#: src/exercises/day-3/morning.md:9 src/exercises/bare-metal/morning.md:7
#: src/exercises/concurrency/morning.md:12
msgid ""
"After looking at the exercises, you can look at the [solutions](solutions-"
"morning.md) provided."
msgstr ""
"練習問題に取り組んだあとは、 [解答](solutions-morning.md)をみても構いません。"
#: src/exercises/day-1/implicit-conversions.md:3
msgid ""
"Rust will not automatically apply _implicit conversions_ between types "
"([unlike C++](https://en.cppreference.com/w/cpp/language/"
"implicit_conversion)). You can see this in a program like this:"
msgstr ""
#: src/exercises/day-1/implicit-conversions.md:20
msgid ""
"The Rust integer types all implement the [`From<T>`](https://doc.rust-lang."
"org/std/convert/trait.From.html) and [`Into<T>`](https://doc.rust-lang.org/"
"std/convert/trait.Into.html) traits to let us convert between them. The "
"`From<T>` trait has a single `from()` method and similarly, the `Into<T>` "
"trait has a single `into()` method. Implementing these traits is how a type "
"expresses that it can be converted into another type."
msgstr ""
#: src/exercises/day-1/implicit-conversions.md:26
msgid ""
"The standard library has an implementation of `From<i8> for i16`, which "
"means that we can convert a variable `x` of type `i8` to an `i16` by "
"calling `i16::from(x)`. Or, simpler, with `x.into()`, because `From<i8> for "
"i16` implementation automatically create an implementation of `Into<i16> for "
"i8`."
msgstr ""
#: src/exercises/day-1/implicit-conversions.md:31
msgid ""
"The same applies for your own `From` implementations for your own types, so "
"it is sufficient to only implement `From` to get a respective `Into` "
"implementation automatically."
msgstr ""
#: src/exercises/day-1/implicit-conversions.md:34
msgid "Execute the above program and look at the compiler error."
msgstr ""
#: src/exercises/day-1/implicit-conversions.md:36
msgid "Update the code above to use `into()` to do the conversion."
msgstr ""
#: src/exercises/day-1/implicit-conversions.md:38
msgid ""
"Change the types of `x` and `y` to other things (such as `f32`, `bool`, "
"`i128`) to see which types you can convert to which other types. Try "
"converting small types to big types and the other way around. Check the "
"[standard library documentation](https://doc.rust-lang.org/std/convert/trait."
"From.html) to see if `From<T>` is implemented for the pairs you check."
msgstr ""
#: src/exercises/day-1/for-loops.md:1
#: src/exercises/day-1/solutions-morning.md:3
msgid "Arrays and `for` Loops"
msgstr ""
#: src/exercises/day-1/for-loops.md:3
msgid "We saw that an array can be declared like this:"
msgstr ""
#: src/exercises/day-1/for-loops.md:9
msgid ""
"You can print such an array by asking for its debug representation with `{:?}"
"`:"
msgstr ""
#: src/exercises/day-1/for-loops.md:19
msgid ""
"Rust lets you iterate over things like arrays and ranges using the `for` "
"keyword:"
msgstr ""
#: src/exercises/day-1/for-loops.md:25
msgid "\"Iterating over array:\""
msgstr ""
#: src/exercises/day-1/for-loops.md:27
msgid "\" {n}\""
msgstr ""
#: src/exercises/day-1/for-loops.md:31
msgid "\"Iterating over range:\""
msgstr ""
#: src/exercises/day-1/for-loops.md:33
msgid "\" {}\""
msgstr ""
#: src/exercises/day-1/for-loops.md:39
msgid ""
"Use the above to write a function `pretty_print` which pretty-print a matrix "
"and a function `transpose` which will transpose a matrix (turn rows into "
"columns):"
msgstr ""
#: src/exercises/day-1/for-loops.md:49
msgid "Hard-code both functions to operate on 3 × 3 matrices."
msgstr ""
#: src/exercises/day-1/for-loops.md:51
msgid ""
"Copy the code below to <https://play.rust-lang.org/> and implement the "
"functions:"
msgstr ""
#: src/exercises/day-1/for-loops.md:55 src/exercises/day-1/luhn.md:26
#: src/exercises/day-2/health-statistics.md:14
#: src/exercises/day-2/strings-iterators.md:13
#: src/exercises/day-3/simple-gui.md:20
#: src/exercises/day-3/points-polygons.md:8
#: src/exercises/day-3/safe-ffi-wrapper.md:49
msgid "// TODO: remove this when you're done with your implementation.\n"
msgstr ""
#: src/exercises/day-1/for-loops.md:68
#: src/exercises/day-1/solutions-morning.md:44
msgid "// <-- the comment makes rustfmt add a newline\n"
msgstr ""
#: src/exercises/day-1/for-loops.md:73
#: src/exercises/day-1/solutions-morning.md:49
msgid "\"matrix:\""
msgstr ""
#: src/exercises/day-1/for-loops.md:77
#: src/exercises/day-1/solutions-morning.md:53
msgid "\"transposed:\""
msgstr ""
#: src/exercises/day-1/for-loops.md:82
msgid "Bonus Question"
msgstr ""
#: src/exercises/day-1/for-loops.md:84
msgid ""
"Could you use `&[i32]` slices instead of hard-coded 3 × 3 matrices for your "
"argument and return types? Something like `&[&[i32]]` for a two-dimensional "
"slice-of-slices. Why or why not?"
msgstr ""
#: src/exercises/day-1/for-loops.md:89
msgid ""
"See the [`ndarray` crate](https://docs.rs/ndarray/) for a production quality "
"implementation."
msgstr ""
#: src/exercises/day-1/for-loops.md:94
msgid ""
"The solution and the answer to the bonus section are available in the "
"[Solution](solutions-morning.md#arrays-and-for-loops) section."
msgstr ""
#: src/exercises/day-1/for-loops.md:97
msgid ""
"The use of the reference `&array` within `for n in &array` is a subtle "
"preview of issues of ownership that will come later in the afternoon."
msgstr ""
#: src/exercises/day-1/for-loops.md:100
msgid "Without the `&`..."
msgstr ""
#: src/exercises/day-1/for-loops.md:101
msgid ""
"The loop would have been one that consumes the array. This is a change "
"[introduced in the 2021 Edition](https://doc.rust-lang.org/edition-guide/"
"rust-2021/IntoIterator-for-arrays.html)."
msgstr ""
#: src/exercises/day-1/for-loops.md:104
msgid ""
"An implicit array copy would have occurred. Since `i32` is a copy type, "
"then `[i32; 3]` is also a copy type."
msgstr ""
#: src/control-flow.md:3
msgid ""
"As we have seen, `if` is an expression in Rust. It is used to conditionally "
"evaluate one of two blocks, but the blocks can have a value which then "
"becomes the value of the `if` expression. Other control flow expressions "
"work similarly in Rust."
msgstr ""
"今まで見てきたように、Rust において `if` は式です。`if` 式のブロックは値を"
"持っており、条件判定の結果に応じて評価されたブロックの値が `if` 式の値となり"
"ます。Rust では他の制御フローの式も同様の動作をします。"
#: src/control-flow/blocks.md:3
msgid ""
"A block in Rust contains a sequence of expressions. Each block has a value "
"and a type, which are those of the last expression of the block:"
msgstr ""
"Rust におけるブロックの中にはいくつかの式が存在します。それぞれのブロックは値"
"と型を持っており、ブロックの値や型はそのブロック内にある最後の式の値や型と一"
"致します。"
#: src/control-flow/blocks.md:27
msgid ""
"If the last expression ends with `;`, then the resulting value and type is "
"`()`."
msgstr ""
"最後の式が `;` で終了した場合、ブロック全体の値と型は `()` になります。"
#: src/control-flow/blocks.md:29
msgid ""
"The same rule is used for functions: the value of the function body is the "
"return value:"
msgstr ""
"同じルールが関数についても適用されます。関数の body ブロックの値が、その関数"
"の返り値となります。"
#: src/control-flow/blocks.md:45 src/enums.md:34 src/enums/sizes.md:28
#: src/pattern-matching.md:25 src/pattern-matching/match-guards.md:22
#: src/structs.md:31 src/methods.md:30 src/methods/example.md:46
msgid "Key Points:"
msgstr "キーポイント: "
#: src/control-flow/blocks.md:46
msgid ""
"The point of this slide is to show that blocks have a type and value in "
"Rust. "
msgstr ""
"このスライドのポイントは、Rust におけるブロックは型と値を持つということです。"
#: src/control-flow/blocks.md:47
msgid ""
"You can show how the value of the block changes by changing the last line in "
"the block. For instance, adding/removing a semicolon or using a `return`."
msgstr ""
"ブロック内にある最後の行を変更することによって、ブロック全体の値が変わること"
"が分かります。例えば、行末のセミコロンを追加/削除したり、`return` を使用した"
"りすることで、ブロックの値は変化します。"
#: src/control-flow/if-expressions.md:1
msgid "`if` expressions"
msgstr "`if` 式"
#: src/control-flow/if-expressions.md:3
msgid ""
"You use [`if` expressions](https://doc.rust-lang.org/reference/expressions/"
"if-expr.html#if-expressions) exactly like `if` statements in other languages:"
msgstr ""
"Rust の [`if` 式](https://doc.rust-lang.org/reference/expressions/if-expr."
"html#if-expressions) は、他の言語における `if` 文と全く同じように使えます。"
#: src/control-flow/if-expressions.md:18
msgid ""
"In addition, you can use `if` as an expression. The last expression of each "
"block becomes the value of the `if` expression:"
msgstr ""
"さらに、`if` を式としても用いることができます。それぞれのブロックにある最後の"
"式が、`if` 式の値となります。"
#: src/control-flow/if-expressions.md:35
msgid ""
"Because `if` is an expression and must have a particular type, both of its "
"branch blocks must have the same type. Consider showing what happens if you "
"add `;` after `x / 2` in the second example."
msgstr ""
"`if` は式であるため、1 つの決まった型を持たなくてはなりません。したがって、"
"`if` 式の分岐ブロックは同一の型を持つ必要があります。2 つ目の例において、"
"`x / 2` のあとに `;` を付け加えると何が起こるでしょうか。"
#: src/control-flow/for-expressions.md:1
msgid "`for` loops"
msgstr "`for` ループ"
#: src/control-flow/for-expressions.md:3
msgid ""
"The [`for` loop](https://doc.rust-lang.org/std/keyword.for.html) is closely "
"related to the [`while let` loop](while-let-expressions.md). It will "
"automatically call `into_iter()` on the expression and then iterate over it:"
msgstr ""
"[`for` loop](https://doc.rust-lang.org/std/keyword.for.html) は、[`while "
"let` loop](while-let-expressions.md) とよく似ています。`for` ループは `in` "
"キーワードの右側にある式に対して自動的に `into_iter()` を呼び出し、その結果生"
"成されたイテレータを用いて走査を行います。"
#: src/control-flow/for-expressions.md:22
msgid "You can use `break` and `continue` here as usual."
msgstr ""
"`for` ループの中では、いつも通り `break` や `continue` を使うことができます。"
#: src/control-flow/for-expressions.md:26
msgid "Index iteration is not a special syntax in Rust for just that case."
msgstr ""
"Rust では、インデックスによる反復処理のために特別な構文は提供されていません。"
#: src/control-flow/for-expressions.md:27
msgid "`(0..10)` is a range that implements an `Iterator` trait. "
msgstr "`(0..10)` は Range 型であり、`Iterator` トレイトを実装しています。"
#: src/control-flow/for-expressions.md:28
msgid ""
"`step_by` is a method that returns another `Iterator` that skips every other "
"element. "
msgstr ""
"`step_by` は、元のイテレータとは別の、各要素をスキップする `Iterator` を返す"
"メソッドです。"
#: src/control-flow/for-expressions.md:29
msgid ""
"Modify the elements in the vector and explain the compiler errors. Change "
"vector `v` to be mutable and the for loop to `for x in v.iter_mut()`."
msgstr ""
"ベクタ内の要素を変更してみて、その結果生じるコンパイルエラーについて説明して"
"ください。また、ベクタ `v` をミュータブルに、for ループを `for x in v."
"iter_mut()` に変更してみましょう。"
#: src/control-flow/while-expressions.md:1
msgid "`while` loops"
msgstr "`while` ループ"
#: src/control-flow/while-expressions.md:3
msgid ""
"The [`while` keyword](https://doc.rust-lang.org/reference/expressions/loop-"
"expr.html#predicate-loops) works very similar to other languages:"
msgstr ""
"[`while` キーワード](https://doc.rust-lang.org/reference/expressions/loop-"
"expr.html#predicate-loops) は、他の言語における `while` と非常によく似た働き"
"をします。"
#: src/control-flow/break-continue.md:1
msgid "`break` and `continue`"
msgstr "`break` と `continue`"
#: src/control-flow/break-continue.md:3
msgid ""
"If you want to exit a loop early, use [`break`](https://doc.rust-lang.org/"
"reference/expressions/loop-expr.html#break-expressions),"
msgstr ""
"ループから早く抜け出したい場合は [`break`](https://doc.rust-lang.org/"
"reference/expressions/loop-expr.html#break-expressions) を使用してください。"
#: src/control-flow/break-continue.md:4
msgid ""
"If you want to immediately start the next iteration use [`continue`](https://"
"doc.rust-lang.org/reference/expressions/loop-expr.html#continue-expressions)."
msgstr ""
"次のイテレーションをすぐさま開始したい場合は [`continue`](https://doc.rust-"
"lang.org/reference/expressions/loop-expr.html#continue-expressions) を使用し"
"てください。"
#: src/control-flow/break-continue.md:7
msgid ""
"Both `continue` and `break` can optionally take a label argument which is "
"used to break out of nested loops:"
msgstr ""
"`continue` と `break` はオプションでラベル引数を取ることができます。ラベルは"
"ネストしたループから抜け出すために使われます。"
#: src/control-flow/break-continue.md:29
msgid ""
"In this case we break the outer loop after 3 iterations of the inner loop."
msgstr ""
"上の例では、内側のループを 3 回イテレーションしたのちに外側のループを抜けるこ"
"とになります。"
#: src/control-flow/loop-expressions.md:1
msgid "`loop` expressions"
msgstr "`loop` 式"
#: src/control-flow/loop-expressions.md:3
msgid ""
"Finally, there is a [`loop` keyword](https://doc.rust-lang.org/reference/"
"expressions/loop-expr.html#infinite-loops) which creates an endless loop."
msgstr ""
"最後に、無限ループを作る [`loop` キーワード](https://doc.rust-lang.org/"
"reference/expressions/loop-expr.html#infinite-loops) について説明します。"
#: src/control-flow/loop-expressions.md:6
msgid "Here you must either `break` or `return` to stop the loop:"
msgstr ""
"下の例で、ループから抜けるためには `break` あるいは `return` を使う必要があり"
"ます。"
#: src/control-flow/loop-expressions.md:28
msgid "Break the `loop` with a value (e.g. `break 8`) and print it out."
msgstr ""
"例えば `break 8` のようにループを値と共に抜け、それを print してみましょう。"
#: src/control-flow/loop-expressions.md:29
msgid ""
"Note that `loop` is the only looping construct which returns a non-trivial "
"value. This is because it's guaranteed to be entered at least once (unlike "
"`while` and `for` loops)."
msgstr ""
"注意が必要なのは、`loop` が唯一、非自明な値を返すことができるループ構造である"
"という点です。これは、`loop` が少なくとも一度は必ず実行されることが保証されて"
"いるからです(これに対して、while や for ループは必ずしも実行されるわけではあ"
"りません)。"
#: src/basic-syntax/variables.md:3
msgid ""
"Rust provides type safety via static typing. Variable bindings are immutable "
"by default:"
msgstr ""
#: src/basic-syntax/variables.md:18
msgid ""
"Due to type inference the `i32` is optional. We will gradually show the "
"types less and less as the course progresses."
msgstr ""
#: src/basic-syntax/type-inference.md:3
msgid "Rust will look at how the variable is _used_ to determine the type:"
msgstr ""
#: src/basic-syntax/type-inference.md:27
msgid ""
"This slide demonstrates how the Rust compiler infers types based on "
"constraints given by variable declarations and usages."
msgstr ""
#: src/basic-syntax/type-inference.md:29
msgid ""
"It is very important to emphasize that variables declared like this are not "
"of some sort of dynamic \"any type\" that can hold any data. The machine "
"code generated by such declaration is identical to the explicit declaration "
"of a type. The compiler does the job for us and helps us write more concise "
"code."
msgstr ""
#: src/basic-syntax/type-inference.md:33
msgid ""
"The following code tells the compiler to copy into a certain generic "
"container without the code ever explicitly specifying the contained type, "
"using `_` as a placeholder:"
msgstr ""
#: src/basic-syntax/type-inference.md:48
msgid ""
"[`collect`](https://doc.rust-lang.org/stable/std/iter/trait.Iterator."
"html#method.collect) relies on [`FromIterator`](https://doc.rust-lang.org/"
"std/iter/trait.FromIterator.html), which [`HashSet`](https://doc.rust-lang."
"org/std/collections/struct.HashSet.html#impl-FromIterator%3CT%3E-for-"
"HashSet%3CT,+S%3E) implements."
msgstr ""
#: src/basic-syntax/static-and-const.md:1
msgid "Static and Constant Variables"
msgstr ""
#: src/basic-syntax/static-and-const.md:3
msgid ""
"Static and constant variables are two different ways to create globally-"
"scoped values that cannot be moved or reallocated during the execution of "
"the program. "
msgstr ""
#: src/basic-syntax/static-and-const.md:6
msgid "`const`"
msgstr ""
#: src/basic-syntax/static-and-const.md:8
msgid ""
"Constant variables are evaluated at compile time and their values are "
"inlined wherever they are used:"
msgstr ""
#: src/basic-syntax/static-and-const.md:30
msgid ""
"According to the [Rust RFC Book](https://rust-lang.github.io/rfcs/0246-const-"
"vs-static.html) these are inlined upon use."
msgstr ""
#: src/basic-syntax/static-and-const.md:32
msgid ""
"Only functions marked `const` can be called at compile time to generate "
"`const` values. `const` functions can however be called at runtime."
msgstr ""
#: src/basic-syntax/static-and-const.md:34
msgid "`static`"
msgstr ""
#: src/basic-syntax/static-and-const.md:36
msgid ""
"Static variables will live during the whole execution of the program, and "
"therefore will not move:"
msgstr ""
#: src/basic-syntax/static-and-const.md:39
msgid "\"Welcome to RustOS 3.14\""
msgstr ""
#: src/basic-syntax/static-and-const.md:42
msgid "\"{BANNER}\""
msgstr ""
#: src/basic-syntax/static-and-const.md:46
msgid ""
"As noted in the [Rust RFC Book](https://rust-lang.github.io/rfcs/0246-const-"
"vs-static.html), these are not inlined upon use and have an actual "
"associated memory location. This is useful for unsafe and embedded code, "
"and the variable lives through the entirety of the program execution. When a "
"globally-scoped value does not have a reason to need object identity, "
"`const` is generally preferred."
msgstr ""
#: src/basic-syntax/static-and-const.md:50
msgid ""
"Because `static` variables are accessible from any thread, they must be "
"`Sync`. Interior mutability is possible through a [`Mutex`](https://doc.rust-"
"lang.org/std/sync/struct.Mutex.html), atomic or similar. It is also possible "
"to have mutable statics, but they require manual synchronisation so any "
"access to them requires `unsafe` code. We will look at [mutable statics](../"
"unsafe/mutable-static-variables.md) in the chapter on Unsafe Rust."
msgstr ""
#: src/basic-syntax/static-and-const.md:58
msgid "Mention that `const` behaves semantically similar to C++'s `constexpr`."
msgstr ""
#: src/basic-syntax/static-and-const.md:59
msgid ""
"`static`, on the other hand, is much more similar to a `const` or mutable "
"global variable in C++."
msgstr ""
#: src/basic-syntax/static-and-const.md:60
msgid ""
"`static` provides object identity: an address in memory and state as "
"required by types with interior mutability such as `Mutex<T>`."
msgstr ""
#: src/basic-syntax/static-and-const.md:61
msgid ""
"It isn't super common that one would need a runtime evaluated constant, but "
"it is helpful and safer than using a static."
msgstr ""
#: src/basic-syntax/static-and-const.md:62
msgid "`thread_local` data can be created with the macro `std::thread_local`."
msgstr ""
#: src/basic-syntax/static-and-const.md:64
msgid "Properties table:"
msgstr ""
#: src/basic-syntax/static-and-const.md:66
msgid "Property"
msgstr ""
#: src/basic-syntax/static-and-const.md:66
msgid "Static"
msgstr ""
#: src/basic-syntax/static-and-const.md:66
msgid "Constant"
msgstr ""
#: src/basic-syntax/static-and-const.md:68
msgid "Has an address in memory"
msgstr ""
#: src/basic-syntax/static-and-const.md:68
#: src/basic-syntax/static-and-const.md:69
#: src/basic-syntax/static-and-const.md:71
#: src/basic-syntax/static-and-const.md:72
msgid "Yes"
msgstr ""
#: src/basic-syntax/static-and-const.md:68
msgid "No (inlined)"
msgstr ""
#: src/basic-syntax/static-and-const.md:69
#, fuzzy
msgid "Lives for the entire duration of the program"
msgstr "`main`関数はプログラムのエントリーポイントになります。"
#: src/basic-syntax/static-and-const.md:69
#: src/basic-syntax/static-and-const.md:70
#: src/basic-syntax/static-and-const.md:72
msgid "No"
msgstr ""
#: src/basic-syntax/static-and-const.md:70
msgid "Can be mutable"
msgstr ""
#: src/basic-syntax/static-and-const.md:70
msgid "Yes (unsafe)"
msgstr ""
#: src/basic-syntax/static-and-const.md:71
msgid "Evaluated at compile time"
msgstr ""
#: src/basic-syntax/static-and-const.md:71
msgid "Yes (initialised at compile time)"
msgstr ""
#: src/basic-syntax/static-and-const.md:72
msgid "Inlined wherever it is used"
msgstr ""
#: src/basic-syntax/scopes-shadowing.md:3
msgid ""
"You can shadow variables, both those from outer scopes and variables from "
"the same scope:"
msgstr ""
#: src/basic-syntax/scopes-shadowing.md:9
msgid "\"before: {a}\""
msgstr ""
#: src/basic-syntax/scopes-shadowing.md:12 src/traits/from-into.md:7
#: src/traits/from-into.md:19
msgid "\"hello\""
msgstr ""
#: src/basic-syntax/scopes-shadowing.md:13
msgid "\"inner scope: {a}\""
msgstr ""
#: src/basic-syntax/scopes-shadowing.md:16
msgid "\"shadowed in inner scope: {a}\""
msgstr ""
#: src/basic-syntax/scopes-shadowing.md:19
msgid "\"after: {a}\""
msgstr ""
#: src/basic-syntax/scopes-shadowing.md:25
msgid ""
"Definition: Shadowing is different from mutation, because after shadowing "
"both variable's memory locations exist at the same time. Both are available "
"under the same name, depending where you use it in the code. "
msgstr ""
#: src/basic-syntax/scopes-shadowing.md:26
msgid "A shadowing variable can have a different type. "
msgstr ""
#: src/basic-syntax/scopes-shadowing.md:27
msgid ""
"Shadowing looks obscure at first, but is convenient for holding on to values "
"after `.unwrap()`."
msgstr ""
#: src/basic-syntax/scopes-shadowing.md:28
msgid ""
"The following code demonstrates why the compiler can't simply reuse memory "
"locations when shadowing an immutable variable in a scope, even if the type "
"does not change."
msgstr ""
#: src/enums.md:3
msgid ""
"The `enum` keyword allows the creation of a type which has a few different "
"variants:"
msgstr ""
#: src/enums.md:8
msgid "// Implementation based on https://xkcd.com/221/\n"
msgstr ""
#: src/enums.md:9
msgid "// Chosen by fair dice roll. Guaranteed to be random.\n"
msgstr ""
#: src/enums.md:28
msgid "\"You got: {:?}\""
msgstr ""
#: src/enums.md:36
msgid "Enumerations allow you to collect a set of values under one type"
msgstr ""
#: src/enums.md:37
msgid ""
"This page offers an enum type `CoinFlip` with two variants `Heads` and "
"`Tails`. You might note the namespace when using variants."
msgstr ""
#: src/enums.md:38
msgid "This might be a good time to compare Structs and Enums:"
msgstr ""
#: src/enums.md:39
msgid ""
"In both, you can have a simple version without fields (unit struct) or one "
"with different types of fields (variant payloads). "
msgstr ""
#: src/enums.md:40
msgid "In both, associated functions are defined within an `impl` block."
msgstr ""
#: src/enums.md:41
msgid ""
"You could even implement the different variants of an enum with separate "
"structs but then they wouldn’t be the same type as they would if they were "
"all defined in an enum. "
msgstr ""
#: src/enums/variant-payloads.md:3
msgid ""
"You can define richer enums where the variants carry data. You can then use "
"the `match` statement to extract the data from each variant:"
msgstr ""
#: src/enums/variant-payloads.md:8
msgid "// Variant without payload\n"
msgstr ""
#: src/enums/variant-payloads.md:9
msgid "// Tuple struct variant\n"
msgstr ""
#: src/enums/variant-payloads.md:10
msgid "// Full struct variant\n"
msgstr ""
#: src/enums/variant-payloads.md:16
msgid "\"page loaded\""
msgstr ""
#: src/enums/variant-payloads.md:17
msgid "\"pressed '{c}'\""
msgstr ""
#: src/enums/variant-payloads.md:18
msgid "\"clicked at x={x}, y={y}\""
msgstr ""
#: src/enums/variant-payloads.md:24 src/pattern-matching.md:10
msgid "'x'"
msgstr ""
#: src/enums/variant-payloads.md:35
msgid ""
"The values in the enum variants can only be accessed after being pattern "
"matched. The pattern binds references to the fields in the \"match arm\" "
"after the `=>`."
msgstr ""
#: src/enums/variant-payloads.md:36
msgid ""
"The expression is matched against the patterns from top to bottom. There is "
"no fall-through like in C or C++."
msgstr ""
#: src/enums/variant-payloads.md:37
msgid ""
"The match expression has a value. The value is the last expression in the "
"match arm which was executed."
msgstr ""
#: src/enums/variant-payloads.md:38
msgid ""
"Starting from the top we look for what pattern matches the value then run "
"the code following the arrow. Once we find a match, we stop. "
msgstr ""
#: src/enums/variant-payloads.md:39
msgid ""
"Demonstrate what happens when the search is inexhaustive. Note the advantage "
"the Rust compiler provides by confirming when all cases are handled. "
msgstr ""
#: src/enums/variant-payloads.md:40
msgid "`match` inspects a hidden discriminant field in the `enum`."
msgstr ""
#: src/enums/variant-payloads.md:41
msgid ""
"It is possible to retrieve the discriminant by calling `std::mem::"
"discriminant()`"
msgstr ""
#: src/enums/variant-payloads.md:42
msgid ""
"This is useful, for example, if implementing `PartialEq` for structs where "
"comparing field values doesn't affect equality."
msgstr ""
#: src/enums/variant-payloads.md:43
msgid ""
"`WebEvent::Click { ... }` is not exactly the same as `WebEvent::"
"Click(Click)` with a top level `struct Click { ... }`. The inlined version "
"cannot implement traits, for example."
msgstr ""
#: src/enums/sizes.md:3
msgid ""
"Rust enums are packed tightly, taking constraints due to alignment into "
"account:"
msgstr ""
#: src/enums/sizes.md:10
msgid "\"{}: size {} bytes, align: {} bytes\""
msgstr ""
#: src/enums/sizes.md:24
msgid ""
"See the [Rust Reference](https://doc.rust-lang.org/reference/type-layout."
"html)."
msgstr ""
#: src/enums/sizes.md:30
msgid ""
"Internally Rust is using a field (discriminant) to keep track of the enum "
"variant."
msgstr ""
#: src/enums/sizes.md:32
msgid ""
"You can control the discriminant if needed (e.g., for compatibility with C):"
msgstr ""
#: src/enums/sizes.md:50
msgid ""
"Without `repr`, the discriminant type takes 2 bytes, because 10001 fits 2 "
"bytes."
msgstr ""
#: src/enums/sizes.md:54
msgid "Try out other types such as"
msgstr ""
#: src/enums/sizes.md:56
msgid "`dbg_size!(bool)`: size 1 bytes, align: 1 bytes,"
msgstr ""
#: src/enums/sizes.md:57
msgid ""
"`dbg_size!(Option<bool>)`: size 1 bytes, align: 1 bytes (niche optimization, "
"see below),"
msgstr ""
#: src/enums/sizes.md:58
msgid "`dbg_size!(&i32)`: size 8 bytes, align: 8 bytes (on a 64-bit machine),"
msgstr ""
#: src/enums/sizes.md:59
msgid ""
"`dbg_size!(Option<&i32>)`: size 8 bytes, align: 8 bytes (null pointer "
"optimization, see below)."
msgstr ""
#: src/enums/sizes.md:61
msgid ""
"Niche optimization: Rust will merge unused bit patterns for the enum "
"discriminant."
msgstr ""
#: src/enums/sizes.md:64
msgid ""
"Null pointer optimization: For [some types](https://doc.rust-lang.org/std/"
"option/#representation), Rust guarantees that `size_of::<T>()` equals "
"`size_of::<Option<T>>()`."
msgstr ""
#: src/enums/sizes.md:68
msgid ""
"Example code if you want to show how the bitwise representation _may_ look "
"like in practice. It's important to note that the compiler provides no "
"guarantees regarding this representation, therefore this is totally unsafe."
msgstr ""
#: src/enums/sizes.md:105
msgid ""
"More complex example if you want to discuss what happens when we chain more "
"than 256 `Option`s together."
msgstr ""
#: src/control-flow/novel.md:3
msgid ""
"Rust has a few control flow constructs which differ from other languages. "
"They are used for pattern matching:"
msgstr ""
#: src/control-flow/novel.md:6 src/control-flow/if-let-expressions.md:1
msgid "`if let` expressions"
msgstr ""
#: src/control-flow/novel.md:7
#, fuzzy
msgid "`while let` expressions"
msgstr "while let式"
#: src/control-flow/novel.md:8 src/control-flow/match-expressions.md:1
msgid "`match` expressions"
msgstr ""
#: src/control-flow/if-let-expressions.md:3
msgid ""
"The [`if let` expression](https://doc.rust-lang.org/reference/expressions/if-"
"expr.html#if-let-expressions) lets you execute different code depending on "
"whether a value matches a pattern:"
msgstr ""
#: src/control-flow/if-let-expressions.md:11
msgid "\"Program name: {value}\""
msgstr ""
#: src/control-flow/if-let-expressions.md:13
msgid "\"Missing name?\""
msgstr ""
#: src/control-flow/if-let-expressions.md:18
#: src/control-flow/while-let-expressions.md:22
#: src/control-flow/match-expressions.md:23
msgid ""
"See [pattern matching](../pattern-matching.md) for more details on patterns "
"in Rust."
msgstr ""
#: src/control-flow/if-let-expressions.md:23
msgid ""
"Unlike `match`, `if let` does not have to cover all branches. This can make "
"it more concise than `match`."
msgstr ""
#: src/control-flow/if-let-expressions.md:24
msgid "A common usage is handling `Some` values when working with `Option`."
msgstr ""
#: src/control-flow/if-let-expressions.md:25
msgid ""
"Unlike `match`, `if let` does not support guard clauses for pattern matching."
msgstr ""
#: src/control-flow/if-let-expressions.md:26
msgid ""
"Since 1.65, a similar [let-else](https://doc.rust-lang.org/rust-by-example/"
"flow_control/let_else.html) construct allows to do a destructuring "
"assignment, or if it fails, execute a block which is required to abort "
"normal control flow (with `panic`/`return`/`break`/`continue`):"
msgstr ""
#: src/control-flow/while-let-expressions.md:1
msgid "`while let` loops"
msgstr ""
#: src/control-flow/while-let-expressions.md:3
msgid ""
"Like with `if let`, there is a [`while let`](https://doc.rust-lang.org/"
"reference/expressions/loop-expr.html#predicate-pattern-loops) variant which "
"repeatedly tests a value against a pattern:"
msgstr ""
#: src/control-flow/while-let-expressions.md:18
msgid ""
"Here the iterator returned by `v.into_iter()` will return a `Option<i32>` on "
"every call to `next()`. It returns `Some(x)` until it is done, after which "
"it will return `None`. The `while let` lets us keep iterating through all "
"items."
msgstr ""
#: src/control-flow/while-let-expressions.md:27
msgid ""
"Point out that the `while let` loop will keep going as long as the value "
"matches the pattern."
msgstr ""
#: src/control-flow/while-let-expressions.md:28
msgid ""
"You could rewrite the `while let` loop as an infinite loop with an if "
"statement that breaks when there is no value to unwrap for `iter.next()`. "
"The `while let` provides syntactic sugar for the above scenario."
msgstr ""
#: src/control-flow/match-expressions.md:3
msgid ""
"The [`match` keyword](https://doc.rust-lang.org/reference/expressions/match-"
"expr.html) is used to match a value against one or more patterns. In that "
"sense, it works like a series of `if let` expressions:"
msgstr ""
#: src/control-flow/match-expressions.md:10
msgid "\"cat\""
msgstr ""
#: src/control-flow/match-expressions.md:10
msgid "\"Will do cat things\""
msgstr ""
#: src/control-flow/match-expressions.md:11
msgid "\"ls\""
msgstr ""
#: src/control-flow/match-expressions.md:11
msgid "\"Will ls some files\""
msgstr ""
#: src/control-flow/match-expressions.md:12
msgid "\"mv\""
msgstr ""
#: src/control-flow/match-expressions.md:12
msgid "\"Let's move some files\""
msgstr ""
#: src/control-flow/match-expressions.md:13
msgid "\"rm\""
msgstr ""
#: src/control-flow/match-expressions.md:13
msgid "\"Uh, dangerous!\""
msgstr ""
#: src/control-flow/match-expressions.md:14
msgid "\"Hmm, no program name?\""
msgstr ""
#: src/control-flow/match-expressions.md:15
msgid "\"Unknown program name!\""
msgstr ""
#: src/control-flow/match-expressions.md:20
msgid ""
"Like `if let`, each match arm must have the same type. The type is the last "
"expression of the block, if any. In the example above, the type is `()`."
msgstr ""
#: src/control-flow/match-expressions.md:28
msgid "Save the match expression to a variable and print it out."
msgstr ""
#: src/control-flow/match-expressions.md:29
msgid "Remove `.as_deref()` and explain the error."
msgstr ""
#: src/control-flow/match-expressions.md:30
msgid ""
"`std::env::args().next()` returns an `Option<String>`, but we cannot match "
"against `String`."
msgstr ""
#: src/control-flow/match-expressions.md:31
msgid ""
"`as_deref()` transforms an `Option<T>` to `Option<&T::Target>`. In our case, "
"this turns `Option<String>` into `Option<&str>`."
msgstr ""
#: src/control-flow/match-expressions.md:32
msgid ""
"We can now use pattern matching to match against the `&str` inside `Option`."
msgstr ""
#: src/pattern-matching.md:3
msgid ""
"The `match` keyword let you match a value against one or more _patterns_. "
"The comparisons are done from top to bottom and the first match wins."
msgstr ""
#: src/pattern-matching.md:6
msgid "The patterns can be simple values, similarly to `switch` in C and C++:"
msgstr ""
#: src/pattern-matching.md:13
msgid "'q'"
msgstr ""
#: src/pattern-matching.md:13
msgid "\"Quitting\""
msgstr ""
#: src/pattern-matching.md:14
msgid "'a'"
msgstr ""
#: src/pattern-matching.md:14
msgid "'s'"
msgstr ""
#: src/pattern-matching.md:14
msgid "'w'"
msgstr ""
#: src/pattern-matching.md:14
msgid "'d'"
msgstr ""
#: src/pattern-matching.md:14
msgid "\"Moving around\""
msgstr ""
#: src/pattern-matching.md:15
msgid "'0'"
msgstr ""
#: src/pattern-matching.md:15
msgid "'9'"
msgstr ""
#: src/pattern-matching.md:15
msgid "\"Number input\""
msgstr ""
#: src/pattern-matching.md:16
msgid "\"Something else\""
msgstr ""
#: src/pattern-matching.md:21
msgid "The `_` pattern is a wildcard pattern which matches any value."
msgstr ""
#: src/pattern-matching.md:26
msgid ""
"You might point out how some specific characters are being used when in a "
"pattern"
msgstr ""
#: src/pattern-matching.md:27
msgid "`|` as an `or`"
msgstr ""
#: src/pattern-matching.md:28
msgid "`..` can expand as much as it needs to be"
msgstr ""
#: src/pattern-matching.md:29
msgid "`1..=5` represents an inclusive range"
msgstr ""
#: src/pattern-matching.md:30
msgid "`_` is a wild card"
msgstr ""
#: src/pattern-matching.md:31
msgid ""
"It can be useful to show how binding works, by for instance replacing a "
"wildcard character with a variable, or removing the quotes around `q`."
msgstr ""
#: src/pattern-matching.md:32
msgid "You can demonstrate matching on a reference."
msgstr ""
#: src/pattern-matching.md:33
msgid ""
"This might be a good time to bring up the concept of irrefutable patterns, "
"as the term can show up in error messages."
msgstr ""
#: src/pattern-matching/destructuring-enums.md:3
msgid ""
"Patterns can also be used to bind variables to parts of your values. This is "
"how you inspect the structure of your types. Let us start with a simple "
"`enum` type:"
msgstr ""
#: src/pattern-matching/destructuring-enums.md:16
msgid "\"cannot divide {n} into two equal parts\""
msgstr ""
#: src/pattern-matching/destructuring-enums.md:23
msgid "\"{n} divided in two is {half}\""
msgstr ""
#: src/pattern-matching/destructuring-enums.md:24
msgid "\"sorry, an error happened: {msg}\""
msgstr ""
#: src/pattern-matching/destructuring-enums.md:29
msgid ""
"Here we have used the arms to _destructure_ the `Result` value. In the first "
"arm, `half` is bound to the value inside the `Ok` variant. In the second "
"arm, `msg` is bound to the error message."
msgstr ""
#: src/pattern-matching/destructuring-enums.md:36
msgid ""
"The `if`/`else` expression is returning an enum that is later unpacked with "
"a `match`."
msgstr ""
#: src/pattern-matching/destructuring-enums.md:37
msgid ""
"You can try adding a third variant to the enum definition and displaying the "
"errors when running the code. Point out the places where your code is now "
"inexhaustive and how the compiler tries to give you hints."
msgstr ""
#: src/pattern-matching/destructuring-structs.md:3
msgid "You can also destructure `structs`:"
msgstr ""
#: src/pattern-matching/destructuring-structs.md:15
msgid "\"x.0 = 1, b = {b}, y = {y}\""
msgstr ""
#: src/pattern-matching/destructuring-structs.md:16
msgid "\"y = 2, x = {i:?}\""
msgstr ""
#: src/pattern-matching/destructuring-structs.md:17
msgid "\"y = {y}, other fields were ignored\""
msgstr ""
#: src/pattern-matching/destructuring-structs.md:23
msgid "Change the literal values in `foo` to match with the other patterns."
msgstr ""
#: src/pattern-matching/destructuring-structs.md:24
msgid "Add a new field to `Foo` and make changes to the pattern as needed."
msgstr ""
#: src/pattern-matching/destructuring-structs.md:25
msgid ""
"The distinction between a capture and a constant expression can be hard to "
"spot. Try changing the `2` in the second arm to a variable, and see that it "
"subtly doesn't work. Change it to a `const` and see it working again."
msgstr ""
#: src/pattern-matching/destructuring-arrays.md:3
msgid ""
"You can destructure arrays, tuples, and slices by matching on their elements:"
msgstr ""
#: src/pattern-matching/destructuring-arrays.md:9
msgid "\"Tell me about {triple:?}\""
msgstr ""
#: src/pattern-matching/destructuring-arrays.md:11
#: src/pattern-matching/destructuring-arrays.md:34
msgid "\"First is 0, y = {y}, and z = {z}\""
msgstr ""
#: src/pattern-matching/destructuring-arrays.md:12
#: src/pattern-matching/destructuring-arrays.md:35
msgid "\"First is 1 and the rest were ignored\""
msgstr ""
#: src/pattern-matching/destructuring-arrays.md:13
#: src/pattern-matching/destructuring-arrays.md:36
msgid "\"All elements were ignored\""
msgstr ""
#: src/pattern-matching/destructuring-arrays.md:21
msgid ""
"Destructuring of slices of unknown length also works with patterns of fixed "
"length."
msgstr ""
#: src/pattern-matching/destructuring-arrays.md:32
msgid "\"Tell me about {slice:?}\""
msgstr ""
#: src/pattern-matching/destructuring-arrays.md:41
msgid "Create a new pattern using `_` to represent an element. "
msgstr ""
#: src/pattern-matching/destructuring-arrays.md:42
msgid "Add more values to the array."
msgstr ""
#: src/pattern-matching/destructuring-arrays.md:43
msgid ""
"Point out that how `..` will expand to account for different number of "
"elements."
msgstr ""
#: src/pattern-matching/destructuring-arrays.md:44
msgid "Show matching against the tail with patterns `[.., b]` and `[a@..,b]`"
msgstr ""
#: src/pattern-matching/match-guards.md:3
msgid ""
"When matching, you can add a _guard_ to a pattern. This is an arbitrary "
"Boolean expression which will be executed if the pattern matches:"
msgstr ""
#: src/pattern-matching/match-guards.md:10
msgid "\"Tell me about {pair:?}\""
msgstr ""
#: src/pattern-matching/match-guards.md:12
msgid "\"These are twins\""
msgstr ""
#: src/pattern-matching/match-guards.md:13
msgid "\"Antimatter, kaboom!\""
msgstr ""
#: src/pattern-matching/match-guards.md:14
msgid "\"The first one is odd\""
msgstr ""
#: src/pattern-matching/match-guards.md:15
msgid "\"No correlation...\""
msgstr ""
#: src/pattern-matching/match-guards.md:23
msgid ""
"Match guards as a separate syntax feature are important and necessary when "
"we wish to concisely express more complex ideas than patterns alone would "
"allow."
msgstr ""
#: src/pattern-matching/match-guards.md:24
msgid ""
"They are not the same as separate `if` expression inside of the match arm. "
"An `if` expression inside of the branch block (after `=>`) happens after the "
"match arm is selected. Failing the `if` condition inside of that block won't "
"result in other arms of the original `match` expression being considered."
msgstr ""
#: src/pattern-matching/match-guards.md:26
msgid "You can use the variables defined in the pattern in your if expression."
msgstr ""
#: src/pattern-matching/match-guards.md:27
msgid ""
"The condition defined in the guard applies to every expression in a pattern "
"with an `|`."
msgstr ""
#: src/exercises/day-1/afternoon.md:1
msgid "Day 1: Afternoon Exercises"
msgstr ""
#: src/exercises/day-1/afternoon.md:3
msgid "We will look at two things:"
msgstr ""
#: src/exercises/day-1/afternoon.md:5
#, fuzzy
msgid "The Luhn algorithm,"
msgstr "Luhnアルゴリズム"
#: src/exercises/day-1/afternoon.md:7
#, fuzzy
msgid "An exercise on pattern matching."
msgstr "列挙型とパターンマッチング"
#: src/exercises/day-1/afternoon.md:11 src/exercises/day-2/afternoon.md:7
#: src/exercises/bare-metal/afternoon.md:7
#: src/exercises/concurrency/afternoon.md:13
msgid ""
"After looking at the exercises, you can look at the [solutions](solutions-"
"afternoon.md) provided."
msgstr ""
#: src/exercises/day-1/luhn.md:3
msgid ""
"The [Luhn algorithm](https://en.wikipedia.org/wiki/Luhn_algorithm) is used "
"to validate credit card numbers. The algorithm takes a string as input and "
"does the following to validate the credit card number:"
msgstr ""
#: src/exercises/day-1/luhn.md:7
msgid "Ignore all spaces. Reject number with less than two digits."
msgstr ""
#: src/exercises/day-1/luhn.md:9
msgid ""
"Moving from **right to left**, double every second digit: for the number "
"`1234`, we double `3` and `1`. For the number `98765`, we double `6` and `8`."
msgstr ""
#: src/exercises/day-1/luhn.md:12
msgid ""
"After doubling a digit, sum the digits if the result is greater than 9. So "
"doubling `7` becomes `14` which becomes `1 + 4 = 5`."
msgstr ""
#: src/exercises/day-1/luhn.md:15
msgid "Sum all the undoubled and doubled digits."
msgstr ""
#: src/exercises/day-1/luhn.md:17
msgid "The credit card number is valid if the sum ends with `0`."
msgstr ""
#: src/exercises/day-1/luhn.md:19
msgid ""
"Copy the code below to <https://play.rust-lang.org/> and implement the "
"function."
msgstr ""
#: src/exercises/day-1/luhn.md:21
msgid ""
"Try to solve the problem the \"simple\" way first, using `for` loops and "
"integers. Then, revisit the solution and try to implement it with iterators."
msgstr ""
#: src/exercises/day-1/luhn.md:35
#: src/exercises/day-2/iterators-and-ownership.md:75
#: src/exercises/day-2/iterators-and-ownership.md:91
#: src/traits/trait-bounds.md:22 src/traits/impl-trait.md:14
#: src/exercises/day-3/simple-gui.md:148 src/exercises/day-3/simple-gui.md:149
#: src/exercises/day-3/simple-gui.md:150 src/testing/test-modules.md:21
#: src/exercises/day-1/solutions-afternoon.md:43
msgid "\"foo\""
msgstr ""
#: src/exercises/day-1/luhn.md:36 src/exercises/day-1/solutions-afternoon.md:44
msgid "\"foo 0 0\""
msgstr ""
#: src/exercises/day-1/luhn.md:41 src/testing/unit-tests.md:15
#: src/exercises/day-1/solutions-afternoon.md:49
#: src/exercises/day-3/solutions-morning.md:90
#: src/exercises/day-3/solutions-morning.md:92
#: src/exercises/day-3/solutions-morning.md:96
#: src/exercises/day-3/solutions-morning.md:110
#: src/exercises/day-3/solutions-morning.md:114
msgid "\"\""
msgstr ""
#: src/exercises/day-1/luhn.md:42 src/exercises/day-1/solutions-afternoon.md:50
msgid "\" \""
msgstr ""
#: src/exercises/day-1/luhn.md:43 src/exercises/day-1/solutions-afternoon.md:51
msgid "\" \""
msgstr ""
#: src/exercises/day-1/luhn.md:44 src/exercises/day-1/solutions-afternoon.md:52
msgid "\" \""
msgstr ""
#: src/exercises/day-1/luhn.md:49 src/exercises/day-1/solutions-afternoon.md:57
msgid "\"0\""
msgstr ""
#: src/exercises/day-1/luhn.md:54 src/exercises/day-1/solutions-afternoon.md:62
msgid "\" 0 0 \""
msgstr ""
#: src/exercises/day-1/luhn.md:59 src/exercises/day-1/solutions-afternoon.md:67
msgid "\"4263 9826 4026 9299\""
msgstr ""
#: src/exercises/day-1/luhn.md:60 src/exercises/day-1/solutions-afternoon.md:68
msgid "\"4539 3195 0343 6467\""
msgstr ""
#: src/exercises/day-1/luhn.md:61 src/exercises/day-1/solutions-afternoon.md:69
msgid "\"7992 7398 713\""
msgstr ""
#: src/exercises/day-1/luhn.md:66 src/exercises/day-1/solutions-afternoon.md:74
msgid "\"4223 9826 4026 9299\""
msgstr ""
#: src/exercises/day-1/luhn.md:67 src/exercises/day-1/solutions-afternoon.md:75
msgid "\"4539 3195 0343 6476\""
msgstr ""
#: src/exercises/day-1/luhn.md:68 src/exercises/day-1/solutions-afternoon.md:76
msgid "\"8273 1232 7352 0569\""
msgstr ""
#: src/exercises/day-1/pattern-matching.md:1
msgid "Exercise: Expression Evaluation"
msgstr ""
#: src/exercises/day-1/pattern-matching.md:3
msgid "Let's write a simple recursive evaluator for arithmetic expressions. "
msgstr ""
#: src/exercises/day-1/pattern-matching.md:6
#: src/exercises/day-1/solutions-afternoon.md:83
msgid "/// An operation to perform on two subexpressions.\n"
msgstr ""
#: src/exercises/day-1/pattern-matching.md:14
#: src/exercises/day-1/solutions-afternoon.md:91
msgid "/// An expression, in tree form.\n"
msgstr ""
#: src/exercises/day-1/pattern-matching.md:18
#: src/exercises/day-1/solutions-afternoon.md:95
msgid "/// An operation on two subexpressions.\n"
msgstr ""
#: src/exercises/day-1/pattern-matching.md:25
#: src/exercises/day-1/solutions-afternoon.md:102
msgid "/// A literal value\n"
msgstr ""
#: src/exercises/day-1/pattern-matching.md:28
#: src/exercises/day-1/solutions-afternoon.md:105
msgid "/// The result of evaluating an expression.\n"
msgstr ""
#: src/exercises/day-1/pattern-matching.md:32
#: src/exercises/day-1/solutions-afternoon.md:109
msgid "/// Evaluation was successful, with the given result.\n"
msgstr ""
#: src/exercises/day-1/pattern-matching.md:34
#: src/exercises/day-1/solutions-afternoon.md:111
msgid "/// Evaluation failed, with the given error message.\n"
msgstr ""
#: src/exercises/day-1/pattern-matching.md:36
#: src/exercises/day-1/solutions-afternoon.md:113
msgid "// Allow `Ok` and `Err` as shorthands for `Res::Ok` and `Res::Err`.\n"
msgstr ""
#: src/exercises/day-1/pattern-matching.md:95
#: src/exercises/day-1/solutions-afternoon.md:134
#: src/exercises/day-1/solutions-afternoon.md:196
msgid "\"division by zero\""
msgstr ""
#: src/exercises/day-1/pattern-matching.md:100
msgid ""
"The `Box` type here is a smart pointer, and will be covered in detail later "
"in the course. An expression can be \"boxed\" with `Box::new` as seen in the "
"tests. To evaluate a boxed expression, use the deref operator to \"unbox\" "
"it: `eval(*boxed_expr)`."
msgstr ""
#: src/exercises/day-1/pattern-matching.md:105
msgid ""
"Some expressions cannot be evaluated and will return an error. The `Res` "
"type represents either a successful value or an error with a message. This "
"is very similar to the standard-library `Result` which we will see later."
msgstr ""
#: src/exercises/day-1/pattern-matching.md:109
msgid ""
"Copy and paste the code into the Rust playground, and begin implementing "
"`eval`. The final product should pass the tests. It may be helpful to use "
"`todo!()` and get the tests to pass one-by-one."
msgstr ""
#: src/exercises/day-1/pattern-matching.md:113
msgid ""
"If you finish early, try writing a test that results in an integer overflow. "
"How could you handle this with `Res::Err` instead of a panic?"
msgstr ""
#: src/welcome-day-2.md:1
msgid "Welcome to Day 2"
msgstr ""
#: src/welcome-day-2.md:3
msgid "Now that we have seen a fair amount of Rust, we will continue with:"
msgstr ""
#: src/welcome-day-2.md:5
msgid ""
"Memory management: stack vs heap, manual memory management, scope-based "
"memory management, and garbage collection."
msgstr ""
"メモリ管理: スタック vs ヒープ、手動でのメモリ管理、スコープに基づくメモリ管"
"理、ガベージコレクション。"
#: src/welcome-day-2.md:8
msgid ""
"Ownership: move semantics, copying and cloning, borrowing, and lifetimes."
msgstr "所有権: ムーブセマンティクス、コピーとクローン、借用、ライフタイム。"
#: src/welcome-day-2.md:10
#, fuzzy
msgid "Structs and methods."
msgstr "文字列とイテレータ"
#: src/welcome-day-2.md:12
msgid ""
"The Standard Library: `String`, `Option` and `Result`, `Vec`, `HashMap`, "
"`Rc` and `Arc`."
msgstr ""
#: src/welcome-day-2.md:15
msgid "Modules: visibility, paths, and filesystem hierarchy."
msgstr ""
#: src/memory-management.md:3
msgid "Traditionally, languages have fallen into two broad categories:"
msgstr ""
#: src/memory-management.md:5
msgid "Full control via manual memory management: C, C++, Pascal, ..."
msgstr ""
#: src/memory-management.md:6
msgid ""
"Full safety via automatic memory management at runtime: Java, Python, Go, "
"Haskell, ..."
msgstr ""
#: src/memory-management.md:8
msgid "Rust offers a new mix:"
msgstr ""
#: src/memory-management.md:10
msgid ""
"Full control _and_ safety via compile time enforcement of correct memory "
"management."
msgstr ""
#: src/memory-management.md:13
msgid "It does this with an explicit ownership concept."
msgstr ""
#: src/memory-management.md:15
msgid "First, let's refresh how memory management works."
msgstr ""
#: src/memory-management/stack-vs-heap.md:1
msgid "The Stack vs The Heap"
msgstr ""
#: src/memory-management/stack-vs-heap.md:3
msgid "Stack: Continuous area of memory for local variables."
msgstr ""
#: src/memory-management/stack-vs-heap.md:4
msgid "Values have fixed sizes known at compile time."
msgstr ""
#: src/memory-management/stack-vs-heap.md:5
msgid "Extremely fast: just move a stack pointer."
msgstr ""
#: src/memory-management/stack-vs-heap.md:6
msgid "Easy to manage: follows function calls."
msgstr ""
#: src/memory-management/stack-vs-heap.md:7
msgid "Great memory locality."
msgstr ""
#: src/memory-management/stack-vs-heap.md:9
msgid "Heap: Storage of values outside of function calls."
msgstr ""
#: src/memory-management/stack-vs-heap.md:10
msgid "Values have dynamic sizes determined at runtime."
msgstr ""
#: src/memory-management/stack-vs-heap.md:11
msgid "Slightly slower than the stack: some book-keeping needed."
msgstr ""
#: src/memory-management/stack-vs-heap.md:12
msgid "No guarantee of memory locality."
msgstr ""
#: src/memory-management/stack.md:1
#, fuzzy
msgid "Stack and Heap Example"
msgstr "スタック vs ヒープ"
#: src/memory-management/stack.md:3
msgid ""
"Creating a `String` puts fixed-sized metadata on the stack and dynamically "
"sized data, the actual string, on the heap:"
msgstr ""
#: src/memory-management/stack.md:8 src/memory-management/stack.md:36
#: src/std/string.md:8 src/traits/read-write.md:35 src/testing/unit-tests.md:20
#: src/testing/unit-tests.md:25 src/testing/test-modules.md:12
#: src/concurrency/scoped-threads.md:9 src/concurrency/scoped-threads.md:26
msgid "\"Hello\""
msgstr ""
#: src/memory-management/stack.md:28
msgid ""
"Mention that a `String` is backed by a `Vec`, so it has a capacity and "
"length and can grow if mutable via reallocation on the heap."
msgstr ""
#: src/memory-management/stack.md:30
msgid ""
"If students ask about it, you can mention that the underlying memory is heap "
"allocated using the [System Allocator](https://doc.rust-lang.org/std/alloc/"
"struct.System.html) and custom allocators can be implemented using the "
"[Allocator API](https://doc.rust-lang.org/std/alloc/index.html)"
msgstr ""
#: src/memory-management/stack.md:32
msgid ""
"We can inspect the memory layout with `unsafe` code. However, you should "
"point out that this is rightfully unsafe!"
msgstr ""
#: src/memory-management/stack.md:37 src/testing/unit-tests.md:7
#: src/exercises/day-1/solutions-afternoon.md:11
msgid "' '"
msgstr ""
#: src/memory-management/stack.md:38
msgid "\"world\""
msgstr ""
#: src/memory-management/stack.md:39
msgid ""
"// DON'T DO THIS AT HOME! For educational purposes only.\n"
" // String provides no guarantees about its layout, so this could lead "
"to\n"
" // undefined behavior.\n"
msgstr ""
#: src/memory-management/stack.md:44
msgid "\"ptr = {ptr:#x}, len = {len}, capacity = {capacity}\""
msgstr ""
#: src/memory-management/manual.md:3
msgid "You allocate and deallocate heap memory yourself."
msgstr ""
#: src/memory-management/manual.md:5
msgid ""
"If not done with care, this can lead to crashes, bugs, security "
"vulnerabilities, and memory leaks."
msgstr ""
#: src/memory-management/manual.md:7
msgid "C Example"
msgstr ""
#: src/memory-management/manual.md:9
msgid "You must call `free` on every pointer you allocate with `malloc`:"
msgstr ""
#: src/memory-management/manual.md:14
msgid ""
"//\n"
" // ... lots of code\n"
" //\n"
msgstr ""
#: src/memory-management/manual.md:21
msgid ""
"Memory is leaked if the function returns early between `malloc` and `free`: "
"the pointer is lost and we cannot deallocate the memory. Worse, freeing the "
"pointer twice, or accessing a freed pointer can lead to exploitable security "
"vulnerabilities."
msgstr ""
#: src/memory-management/scope-based.md:3
msgid ""
"Constructors and destructors let you hook into the lifetime of an object."
msgstr ""
#: src/memory-management/scope-based.md:5
msgid ""
"By wrapping a pointer in an object, you can free memory when the object is "
"destroyed. The compiler guarantees that this happens, even if an exception "
"is raised."
msgstr ""
#: src/memory-management/scope-based.md:9
msgid ""
"This is often called _resource acquisition is initialization_ (RAII) and "
"gives you smart pointers."
msgstr ""
#: src/memory-management/scope-based.md:12
msgid "C++ Example"
msgstr ""
#: src/memory-management/scope-based.md:20
msgid ""
"The `std::unique_ptr` object is allocated on the stack, and points to memory "
"allocated on the heap."
msgstr ""
#: src/memory-management/scope-based.md:22
msgid "At the end of `say_hello`, the `std::unique_ptr` destructor will run."
msgstr ""
#: src/memory-management/scope-based.md:23
msgid "The destructor frees the `Person` object it points to."
msgstr ""
#: src/memory-management/scope-based.md:25
msgid ""
"Special move constructors are used when passing ownership to a function:"
msgstr ""
#: src/memory-management/garbage-collection.md:1
msgid "Automatic Memory Management"
msgstr ""
#: src/memory-management/garbage-collection.md:3
msgid ""
"An alternative to manual and scope-based memory management is automatic "
"memory management:"
msgstr ""
#: src/memory-management/garbage-collection.md:6
msgid "The programmer never allocates or deallocates memory explicitly."
msgstr ""
#: src/memory-management/garbage-collection.md:7
msgid ""
"A garbage collector finds unused memory and deallocates it for the "
"programmer."
msgstr ""
#: src/memory-management/garbage-collection.md:9
msgid "Java Example"
msgstr ""
#: src/memory-management/garbage-collection.md:11
msgid "The `person` object is not deallocated after `sayHello` returns:"
msgstr ""
#: src/memory-management/rust.md:1
msgid "Memory Management in Rust"
msgstr ""
#: src/memory-management/rust.md:3
msgid "Memory management in Rust is a mix:"
msgstr ""
#: src/memory-management/rust.md:5
msgid "Safe and correct like Java, but without a garbage collector."
msgstr ""
#: src/memory-management/rust.md:6
msgid "Scope-based like C++, but the compiler enforces full adherence."
msgstr ""
#: src/memory-management/rust.md:7
msgid ""
"A Rust user can choose the right abstraction for the situation, some even "
"have no cost at runtime like C."
msgstr ""
#: src/memory-management/rust.md:9
msgid "Rust achieves this by modeling _ownership_ explicitly."
msgstr ""
#: src/memory-management/rust.md:13
msgid ""
"If asked how at this point, you can mention that in Rust this is usually "
"handled by RAII wrapper types such as [Box](https://doc.rust-lang.org/std/"
"boxed/struct.Box.html), [Vec](https://doc.rust-lang.org/std/vec/struct.Vec."
"html), [Rc](https://doc.rust-lang.org/std/rc/struct.Rc.html), or [Arc]"
"(https://doc.rust-lang.org/std/sync/struct.Arc.html). These encapsulate "
"ownership and memory allocation via various means, and prevent the potential "
"errors in C."
msgstr ""
#: src/memory-management/rust.md:15
msgid ""
"You may be asked about destructors here, the [Drop](https://doc.rust-lang."
"org/std/ops/trait.Drop.html) trait is the Rust equivalent."
msgstr ""
#: src/ownership.md:3
msgid ""
"All variable bindings have a _scope_ where they are valid and it is an error "
"to use a variable outside its scope:"
msgstr ""
#: src/ownership.md:19
msgid ""
"At the end of the scope, the variable is _dropped_ and the data is freed."
msgstr ""
#: src/ownership.md:20
msgid "A destructor can run here to free up resources."
msgstr ""
#: src/ownership.md:21
msgid "We say that the variable _owns_ the value."
msgstr ""
#: src/ownership/move-semantics.md:3
msgid "An assignment will transfer _ownership_ between variables:"
msgstr ""
#: src/ownership/move-semantics.md:7
msgid "\"Hello!\""
msgstr ""
#: src/ownership/move-semantics.md:10
msgid "// println!(\"s1: {s1}\");\n"
msgstr ""
#: src/ownership/move-semantics.md:14
msgid "The assignment of `s1` to `s2` transfers ownership."
msgstr ""
#: src/ownership/move-semantics.md:15
msgid "When `s1` goes out of scope, nothing happens: it does not own anything."
msgstr ""
#: src/ownership/move-semantics.md:16
msgid "When `s2` goes out of scope, the string data is freed."
msgstr ""
#: src/ownership/move-semantics.md:17
msgid "There is always _exactly_ one variable binding which owns a value."
msgstr ""
#: src/ownership/move-semantics.md:21
msgid ""
"Mention that this is the opposite of the defaults in C++, which copies by "
"value unless you use `std::move` (and the move constructor is defined!)."
msgstr ""
#: src/ownership/move-semantics.md:23
msgid ""
"It is only the ownership that moves. Whether any machine code is generated "
"to manipulate the data itself is a matter of optimization, and such copies "
"are aggressively optimized away."
msgstr ""
#: src/ownership/move-semantics.md:25
msgid ""
"Simple values (such as integers) can be marked `Copy` (see later slides)."
msgstr ""
#: src/ownership/move-semantics.md:27
msgid "In Rust, clones are explicit (by using `clone`)."
msgstr ""
#: src/ownership/moved-strings-rust.md:11
msgid "The heap data from `s1` is reused for `s2`."
msgstr ""
#: src/ownership/moved-strings-rust.md:12
msgid "When `s1` goes out of scope, nothing happens (it has been moved from)."
msgstr ""
#: src/ownership/moved-strings-rust.md:14
msgid "Before move to `s2`:"
msgstr ""
#: src/ownership/moved-strings-rust.md:31
msgid "After move to `s2`:"
msgstr ""
#: src/ownership/moved-strings-rust.md:33
msgid ""
"```bob\n"
" Stack Heap\n"
".- - - - - - - - - - - - - -. .- - - - - - - - - - - - - -.\n"
": : : :\n"
": s1 \"(inaccessible)\" : : :\n"
": +-----------+-------+ : : +----+----+----+----+ :\n"
": | ptr | o---+---+--+--+-->| R | u | s | t | :\n"
": | len | 4 | : | : +----+----+----+----+ :\n"
": | capacity | 4 | : | : :\n"
": +-----------+-------+ : | : :\n"
": : | `- - - - - - - - - - - - - -'\n"
": s2 : |\n"
": +-----------+-------+ : |\n"
": | ptr | o---+---+--'\n"
": | len | 4 | :\n"
": | capacity | 4 | :\n"
": +-----------+-------+ :\n"
": :\n"
"`- - - - - - - - - - - - - -'\n"
"```"
msgstr ""
#: src/ownership/double-free-modern-cpp.md:1
#, fuzzy
msgid "Defensive Copies in Modern C++"
msgstr "現代C++の二重解放"
#: src/ownership/double-free-modern-cpp.md:3
msgid "Modern C++ solves this differently:"
msgstr ""
#: src/ownership/double-free-modern-cpp.md:6
msgid "\"Cpp\""
msgstr ""
#: src/ownership/double-free-modern-cpp.md:7
msgid "// Duplicate the data in s1.\n"
msgstr ""
#: src/ownership/double-free-modern-cpp.md:10
msgid ""
"The heap data from `s1` is duplicated and `s2` gets its own independent copy."
msgstr ""
#: src/ownership/double-free-modern-cpp.md:11
msgid "When `s1` and `s2` go out of scope, they each free their own memory."
msgstr ""
#: src/ownership/double-free-modern-cpp.md:13
msgid "Before copy-assignment:"
msgstr ""
#: src/ownership/double-free-modern-cpp.md:30
msgid "After copy-assignment:"
msgstr ""
#: src/ownership/double-free-modern-cpp.md:57
msgid ""
"C++ has made a slightly different choice than Rust. Because `=` copies data, "
"the string data has to be cloned. Otherwise we would get a double-free when "
"either string goes out of scope."
msgstr ""
#: src/ownership/double-free-modern-cpp.md:61
msgid ""
"C++ also has [`std::move`](https://en.cppreference.com/w/cpp/utility/move), "
"which is used to indicate when a value may be moved from. If the example had "
"been `s2 = std::move(s1)`, no heap allocation would take place. After the "
"move, `s1` would be in a valid but unspecified state. Unlike Rust, the "
"programmer is allowed to keep using `s1`."
msgstr ""
#: src/ownership/double-free-modern-cpp.md:66
msgid ""
"Unlike Rust, `=` in C++ can run arbitrary code as determined by the type "
"which is being copied or moved."
msgstr ""
#: src/ownership/moves-function-calls.md:3
msgid ""
"When you pass a value to a function, the value is assigned to the function "
"parameter. This transfers ownership:"
msgstr ""
#: src/ownership/moves-function-calls.md:8 src/traits/impl-trait.md:10
msgid "\"Hello {name}\""
msgstr ""
#: src/ownership/moves-function-calls.md:12
#: src/android/interoperability/java.md:56
msgid "\"Alice\""
msgstr ""
#: src/ownership/moves-function-calls.md:14
msgid "// say_hello(name);\n"
msgstr ""
#: src/ownership/moves-function-calls.md:20
msgid ""
"With the first call to `say_hello`, `main` gives up ownership of `name`. "
"Afterwards, `name` cannot be used anymore within `main`."
msgstr ""
#: src/ownership/moves-function-calls.md:21
msgid ""
"The heap memory allocated for `name` will be freed at the end of the "
"`say_hello` function."
msgstr ""
#: src/ownership/moves-function-calls.md:22
msgid ""
"`main` can retain ownership if it passes `name` as a reference (`&name`) and "
"if `say_hello` accepts a reference as a parameter."
msgstr ""
#: src/ownership/moves-function-calls.md:23
msgid ""
"Alternatively, `main` can pass a clone of `name` in the first call (`name."
"clone()`)."
msgstr ""
#: src/ownership/moves-function-calls.md:24
msgid ""
"Rust makes it harder than C++ to inadvertently create copies by making move "
"semantics the default, and by forcing programmers to make clones explicit."
msgstr ""
#: src/ownership/copy-clone.md:3
msgid ""
"While move semantics are the default, certain types are copied by default:"
msgstr ""
#: src/ownership/copy-clone.md:15
msgid "These types implement the `Copy` trait."
msgstr ""
#: src/ownership/copy-clone.md:17
msgid "You can opt-in your own types to use copy semantics:"
msgstr ""
#: src/ownership/copy-clone.md:32
msgid "After the assignment, both `p1` and `p2` own their own data."
msgstr ""
#: src/ownership/copy-clone.md:33
msgid "We can also use `p1.clone()` to explicitly copy the data."
msgstr ""
#: src/ownership/copy-clone.md:37
msgid "Copying and cloning are not the same thing:"
msgstr ""
#: src/ownership/copy-clone.md:39
msgid ""
"Copying refers to bitwise copies of memory regions and does not work on "
"arbitrary objects."
msgstr ""
#: src/ownership/copy-clone.md:40
msgid ""
"Copying does not allow for custom logic (unlike copy constructors in C++)."
msgstr ""
#: src/ownership/copy-clone.md:41
msgid ""
"Cloning is a more general operation and also allows for custom behavior by "
"implementing the `Clone` trait."
msgstr ""
#: src/ownership/copy-clone.md:42
msgid "Copying does not work on types that implement the `Drop` trait."
msgstr ""
#: src/ownership/copy-clone.md:44 src/ownership/lifetimes-function-calls.md:30
msgid "In the above example, try the following:"
msgstr ""
#: src/ownership/copy-clone.md:46
msgid ""
"Add a `String` field to `struct Point`. It will not compile because `String` "
"is not a `Copy` type."
msgstr ""
#: src/ownership/copy-clone.md:47
msgid ""
"Remove `Copy` from the `derive` attribute. The compiler error is now in the "
"`println!` for `p1`."
msgstr ""
#: src/ownership/copy-clone.md:48
msgid "Show that it works if you clone `p1` instead."
msgstr ""
#: src/ownership/copy-clone.md:50
msgid ""
"If students ask about `derive`, it is sufficient to say that this is a way "
"to generate code in Rust at compile time. In this case the default "
"implementations of `Copy` and `Clone` traits are generated."
msgstr ""
#: src/ownership/borrowing.md:3
msgid ""
"Instead of transferring ownership when calling a function, you can let a "
"function _borrow_ the value:"
msgstr ""
#: src/ownership/borrowing.md:23
msgid "The `add` function _borrows_ two points and returns a new point."
msgstr ""
#: src/ownership/borrowing.md:24
msgid "The caller retains ownership of the inputs."
msgstr ""
#: src/ownership/borrowing.md:28
msgid "Notes on stack returns:"
msgstr ""
#: src/ownership/borrowing.md:29
msgid ""
"Demonstrate that the return from `add` is cheap because the compiler can "
"eliminate the copy operation. Change the above code to print stack addresses "
"and run it on the [Playground](https://play.rust-lang.org/) or look at the "
"assembly in [Godbolt](https://rust.godbolt.org/). In the \"DEBUG\" "
"optimization level, the addresses should change, while they stay the same "
"when changing to the \"RELEASE\" setting:"
msgstr ""
#: src/ownership/borrowing.md:50
msgid "The Rust compiler can do return value optimization (RVO)."
msgstr ""
#: src/ownership/borrowing.md:51
msgid ""
"In C++, copy elision has to be defined in the language specification because "
"constructors can have side effects. In Rust, this is not an issue at all. If "
"RVO did not happen, Rust will always perform a simple and efficient `memcpy` "
"copy."
msgstr ""
#: src/ownership/shared-unique-borrows.md:3
msgid "Rust puts constraints on the ways you can borrow values:"
msgstr ""
#: src/ownership/shared-unique-borrows.md:5
msgid "You can have one or more `&T` values at any given time, _or_"
msgstr ""
#: src/ownership/shared-unique-borrows.md:6
msgid "You can have exactly one `&mut T` value."
msgstr ""
#: src/ownership/shared-unique-borrows.md:26
msgid ""
"The above code does not compile because `a` is borrowed as mutable (through "
"`c`) and as immutable (through `b`) at the same time."
msgstr ""
#: src/ownership/shared-unique-borrows.md:27
msgid ""
"Move the `println!` statement for `b` before the scope that introduces `c` "
"to make the code compile."
msgstr ""
#: src/ownership/shared-unique-borrows.md:28
msgid ""
"After that change, the compiler realizes that `b` is only ever used before "
"the new mutable borrow of `a` through `c`. This is a feature of the borrow "
"checker called \"non-lexical lifetimes\"."
msgstr ""
#: src/ownership/lifetimes.md:3
msgid "A borrowed value has a _lifetime_:"
msgstr ""
#: src/ownership/lifetimes.md:5
msgid "The lifetime can be implicit: `add(p1: &Point, p2: &Point) -> Point`."
msgstr ""
#: src/ownership/lifetimes.md:6
msgid "Lifetimes can also be explicit: `&'a Point`, `&'document str`."
msgstr ""
#: src/ownership/lifetimes.md:7 src/ownership/lifetimes-function-calls.md:24
msgid ""
"Read `&'a Point` as \"a borrowed `Point` which is valid for at least the "
"lifetime `a`\"."
msgstr ""
#: src/ownership/lifetimes.md:9
msgid ""
"Lifetimes are always inferred by the compiler: you cannot assign a lifetime "
"yourself."
msgstr ""
#: src/ownership/lifetimes.md:11
msgid ""
"Lifetime annotations create constraints; the compiler verifies that there is "
"a valid solution."
msgstr ""
#: src/ownership/lifetimes.md:13
msgid ""
"Lifetimes for function arguments and return values must be fully specified, "
"but Rust allows lifetimes to be elided in most cases with [a few simple "
"rules](https://doc.rust-lang.org/nomicon/lifetime-elision.html)."
msgstr ""
#: src/ownership/lifetimes-function-calls.md:3
msgid ""
"In addition to borrowing its arguments, a function can return a borrowed "
"value:"
msgstr ""
#: src/ownership/lifetimes-function-calls.md:22
msgid "`'a` is a generic parameter, it is inferred by the compiler."
msgstr ""
#: src/ownership/lifetimes-function-calls.md:23
msgid "Lifetimes start with `'` and `'a` is a typical default name."
msgstr ""
#: src/ownership/lifetimes-function-calls.md:26
msgid ""
"The _at least_ part is important when parameters are in different scopes."
msgstr ""
#: src/ownership/lifetimes-function-calls.md:32
msgid ""
"Move the declaration of `p2` and `p3` into a new scope (`{ ... }`), "
"resulting in the following code:"
msgstr ""
#: src/ownership/lifetimes-function-calls.md:52
msgid "Note how this does not compile since `p3` outlives `p2`."
msgstr ""
#: src/ownership/lifetimes-function-calls.md:54
msgid ""
"Reset the workspace and change the function signature to `fn left_most<'a, "
"'b>(p1: &'a Point, p2: &'a Point) -> &'b Point`. This will not compile "
"because the relationship between the lifetimes `'a` and `'b` is unclear."
msgstr ""
#: src/ownership/lifetimes-function-calls.md:55
msgid "Another way to explain it:"
msgstr ""
#: src/ownership/lifetimes-function-calls.md:56
msgid ""
"Two references to two values are borrowed by a function and the function "
"returns another reference."
msgstr ""
#: src/ownership/lifetimes-function-calls.md:58
msgid ""
"It must have come from one of those two inputs (or from a global variable)."
msgstr ""
#: src/ownership/lifetimes-function-calls.md:59
msgid ""
"Which one is it? The compiler needs to know, so at the call site the "
"returned reference is not used for longer than a variable from where the "
"reference came from."
msgstr ""
#: src/ownership/lifetimes-data-structures.md:3
msgid ""
"If a data type stores borrowed data, it must be annotated with a lifetime:"
msgstr ""
#: src/ownership/lifetimes-data-structures.md:10
msgid "\"Bye {text}!\""
msgstr ""
#: src/ownership/lifetimes-data-structures.md:14
msgid "\"The quick brown fox jumps over the lazy dog.\""
msgstr ""
#: src/ownership/lifetimes-data-structures.md:17
msgid "// erase(text);\n"
msgstr ""
#: src/ownership/lifetimes-data-structures.md:18
msgid "\"{fox:?}\""
msgstr ""
#: src/ownership/lifetimes-data-structures.md:19
msgid "\"{dog:?}\""
msgstr ""
#: src/ownership/lifetimes-data-structures.md:25
msgid ""
"In the above example, the annotation on `Highlight` enforces that the data "
"underlying the contained `&str` lives at least as long as any instance of "
"`Highlight` that uses that data."
msgstr ""
#: src/ownership/lifetimes-data-structures.md:26
msgid ""
"If `text` is consumed before the end of the lifetime of `fox` (or `dog`), "
"the borrow checker throws an error."
msgstr ""
#: src/ownership/lifetimes-data-structures.md:27
msgid ""
"Types with borrowed data force users to hold on to the original data. This "
"can be useful for creating lightweight views, but it generally makes them "
"somewhat harder to use."
msgstr ""
#: src/ownership/lifetimes-data-structures.md:28
msgid "When possible, make data structures own their data directly."
msgstr ""
#: src/ownership/lifetimes-data-structures.md:29
msgid ""
"Some structs with multiple references inside can have more than one lifetime "
"annotation. This can be necessary if there is a need to describe lifetime "
"relationships between the references themselves, in addition to the lifetime "
"of the struct itself. Those are very advanced use cases."
msgstr ""
#: src/structs.md:3
msgid "Like C and C++, Rust has support for custom structs:"
msgstr ""
#: src/structs.md:13 src/structs/field-shorthand.md:20 src/methods.md:21
#: src/android/interoperability/with-c/bindgen.md:87
msgid "\"Peter\""
msgstr ""
#: src/structs.md:16 src/structs.md:19 src/structs.md:25
msgid "\"{} is {} years old\""
msgstr ""
#: src/structs.md:22
msgid "\"Jackie\""
msgstr ""
#: src/structs.md:33
msgid "Structs work like in C or C++."
msgstr ""
#: src/structs.md:34
msgid "Like in C++, and unlike in C, no typedef is needed to define a type."
msgstr ""
#: src/structs.md:35
msgid "Unlike in C++, there is no inheritance between structs."
msgstr ""
#: src/structs.md:36
msgid ""
"Methods are defined in an `impl` block, which we will see in following "
"slides."
msgstr ""
#: src/structs.md:37
msgid ""
"This may be a good time to let people know there are different types of "
"structs. "
msgstr ""
#: src/structs.md:38
msgid ""
"Zero-sized structs `e.g., struct Foo;` might be used when implementing a "
"trait on some type but don’t have any data that you want to store in the "
"value itself. "
msgstr ""
#: src/structs.md:39
msgid ""
"The next slide will introduce Tuple structs, used when the field names are "
"not important."
msgstr ""
#: src/structs.md:40
msgid ""
"The syntax `..peter` allows us to copy the majority of the fields from the "
"old struct without having to explicitly type it all out. It must always be "
"the last element."
msgstr ""
#: src/structs/tuple-structs.md:3
msgid "If the field names are unimportant, you can use a tuple struct:"
msgstr ""
#: src/structs/tuple-structs.md:10
msgid "\"({}, {})\""
msgstr ""
#: src/structs/tuple-structs.md:14
msgid "This is often used for single-field wrappers (called newtypes):"
msgstr ""
#: src/structs/tuple-structs.md:21
msgid "\"Ask a rocket scientist at NASA\""
msgstr ""
#: src/structs/tuple-structs.md:25
#: src/bare-metal/microcontrollers/type-state.md:14
#: src/async/pitfalls/cancellation.md:99
msgid "// ...\n"
msgstr ""
#: src/structs/tuple-structs.md:37
msgid ""
"Newtypes are a great way to encode additional information about the value in "
"a primitive type, for example:"
msgstr ""
#: src/structs/tuple-structs.md:38
msgid "The number is measured in some units: `Newtons` in the example above."
msgstr ""
#: src/structs/tuple-structs.md:39
msgid ""
"The value passed some validation when it was created, so you no longer have "
"to validate it again at every use: 'PhoneNumber(String)`or`OddNumber(u32)\\`."
msgstr ""
#: src/structs/tuple-structs.md:40
msgid ""
"Demonstrate how to add a `f64` value to a `Newtons` type by accessing the "
"single field in the newtype."
msgstr ""
#: src/structs/tuple-structs.md:41
msgid ""
"Rust generally doesn’t like inexplicit things, like automatic unwrapping or "
"for instance using booleans as integers."
msgstr ""
#: src/structs/tuple-structs.md:42
msgid "Operator overloading is discussed on Day 3 (generics)."
msgstr ""
#: src/structs/tuple-structs.md:43
msgid ""
"The example is a subtle reference to the [Mars Climate Orbiter](https://en."
"wikipedia.org/wiki/Mars_Climate_Orbiter) failure."
msgstr ""
#: src/structs/field-shorthand.md:3
msgid ""
"If you already have variables with the right names, then you can create the "
"struct using a shorthand:"
msgstr ""
#: src/structs/field-shorthand.md:21
msgid "\"{peter:?}\""
msgstr ""
#: src/structs/field-shorthand.md:27
msgid ""
"The `new` function could be written using `Self` as a type, as it is "
"interchangeable with the struct type name"
msgstr ""
#: src/structs/field-shorthand.md:41
msgid ""
"Implement the `Default` trait for the struct. Define some fields and use the "
"default values for the other fields."
msgstr ""
#: src/structs/field-shorthand.md:52
msgid "\"Bot\""
msgstr ""
#: src/structs/field-shorthand.md:62
msgid "\"Sam\""
msgstr ""
#: src/structs/field-shorthand.md:68
msgid "Methods are defined in the `impl` block."
msgstr ""
#: src/structs/field-shorthand.md:69
msgid ""
"Use struct update syntax to define a new structure using `peter`. Note that "
"the variable `peter` will no longer be accessible afterwards."
msgstr ""
#: src/structs/field-shorthand.md:70
msgid ""
"Use `{:#?}` when printing structs to request the `Debug` representation."
msgstr ""
#: src/methods.md:3
msgid ""
"Rust allows you to associate functions with your new types. You do this with "
"an `impl` block:"
msgstr ""
#: src/methods.md:15
msgid "\"Hello, my name is {}\""
msgstr ""
#: src/methods.md:31
msgid "It can be helpful to introduce methods by comparing them to functions."
msgstr ""
#: src/methods.md:32
msgid ""
"Methods are called on an instance of a type (such as a struct or enum), the "
"first parameter represents the instance as `self`."
msgstr ""
#: src/methods.md:33
msgid ""
"Developers may choose to use methods to take advantage of method receiver "
"syntax and to help keep them more organized. By using methods we can keep "
"all the implementation code in one predictable place."
msgstr ""
#: src/methods.md:34
msgid "Point out the use of the keyword `self`, a method receiver."
msgstr ""
#: src/methods.md:35
msgid ""
"Show that it is an abbreviated term for `self: Self` and perhaps show how "
"the struct name could also be used."
msgstr ""
#: src/methods.md:36
msgid ""
"Explain that `Self` is a type alias for the type the `impl` block is in and "
"can be used elsewhere in the block."
msgstr ""
#: src/methods.md:37
msgid ""
"Note how `self` is used like other structs and dot notation can be used to "
"refer to individual fields."
msgstr ""
#: src/methods.md:38
msgid ""
"This might be a good time to demonstrate how the `&self` differs from `self` "
"by modifying the code and trying to run say_hello twice."
msgstr ""
#: src/methods.md:39
msgid "We describe the distinction between method receivers next."
msgstr ""
#: src/methods/receiver.md:3
msgid ""
"The `&self` above indicates that the method borrows the object immutably. "
"There are other possible receivers for a method:"
msgstr ""
#: src/methods/receiver.md:6
msgid ""
"`&self`: borrows the object from the caller using a shared and immutable "
"reference. The object can be used again afterwards."
msgstr ""
#: src/methods/receiver.md:8
msgid ""
"`&mut self`: borrows the object from the caller using a unique and mutable "
"reference. The object can be used again afterwards."
msgstr ""
#: src/methods/receiver.md:10
msgid ""
"`self`: takes ownership of the object and moves it away from the caller. The "
"method becomes the owner of the object. The object will be dropped "
"(deallocated) when the method returns, unless its ownership is explicitly "
"transmitted. Complete ownership does not automatically mean mutability."
msgstr ""
#: src/methods/receiver.md:14
msgid "`mut self`: same as above, but the method can mutate the object. "
msgstr ""
#: src/methods/receiver.md:15
msgid ""
"No receiver: this becomes a static method on the struct. Typically used to "
"create constructors which are called `new` by convention."
msgstr ""
#: src/methods/receiver.md:18
msgid ""
"Beyond variants on `self`, there are also [special wrapper types](https://"
"doc.rust-lang.org/reference/special-types-and-traits.html) allowed to be "
"receiver types, such as `Box<Self>`."
msgstr ""
#: src/methods/receiver.md:24
msgid ""
"Consider emphasizing \"shared and immutable\" and \"unique and mutable\". "
"These constraints always come together in Rust due to borrow checker rules, "
"and `self` is no exception. It isn't possible to reference a struct from "
"multiple locations and call a mutating (`&mut self`) method on it."
msgstr ""
#: src/methods/example.md:11
msgid "// No receiver, a static method\n"
msgstr ""
#: src/methods/example.md:15
msgid "// Exclusive borrowed read-write access to self\n"
msgstr ""
#: src/methods/example.md:19
msgid "// Shared and read-only borrowed access to self\n"
msgstr ""
#: src/methods/example.md:20
msgid "\"Recorded {} laps for {}:\""
msgstr ""
#: src/methods/example.md:22
msgid "\"Lap {idx}: {lap} sec\""
msgstr ""
#: src/methods/example.md:26
msgid "// Exclusive ownership of self\n"
msgstr ""
#: src/methods/example.md:28
msgid "\"Race {} is finished, total lap time: {}\""
msgstr ""
#: src/methods/example.md:33
msgid "\"Monaco Grand Prix\""
msgstr ""
#: src/methods/example.md:40
msgid "// race.add_lap(42);\n"
msgstr ""
#: src/methods/example.md:47
msgid "All four methods here use a different method receiver."
msgstr ""
#: src/methods/example.md:48
msgid ""
"You can point out how that changes what the function can do with the "
"variable values and if/how it can be used again in `main`."
msgstr ""
#: src/methods/example.md:49
msgid ""
"You can showcase the error that appears when trying to call `finish` twice."
msgstr ""
#: src/methods/example.md:50
msgid ""
"Note that although the method receivers are different, the non-static "
"functions are called the same way in the main body. Rust enables automatic "
"referencing and dereferencing when calling methods. Rust automatically adds "
"in the `&`, `*`, `muts` so that that object matches the method signature."
msgstr ""
#: src/methods/example.md:51
msgid ""
"You might point out that `print_laps` is using a vector that is iterated "
"over. We describe vectors in more detail in the afternoon. "
msgstr ""
#: src/exercises/day-2/morning.md:1
msgid "Day 2: Morning Exercises"
msgstr ""
#: src/exercises/day-2/morning.md:3
msgid "We will look at implementing methods in two contexts:"
msgstr ""
#: src/exercises/day-2/morning.md:5
msgid "Storing books and querying the collection"
msgstr ""
#: src/exercises/day-2/morning.md:7
msgid "Keeping track of health statistics for patients"
msgstr ""
#: src/exercises/day-2/book-library.md:3
msgid ""
"We will learn much more about structs and the `Vec<T>` type tomorrow. For "
"now, you just need to know part of its API:"
msgstr ""
#: src/exercises/day-2/book-library.md:11
msgid "\"middle value: {}\""
msgstr ""
#: src/exercises/day-2/book-library.md:13
msgid "\"item: {item}\""
msgstr ""
#: src/exercises/day-2/book-library.md:18
msgid ""
"Use this to model a library's book collection. Copy the code below to "
"<https://play.rust-lang.org/> and update the types to make it compile:"
msgstr ""
#: src/exercises/day-2/book-library.md:32
#: src/exercises/day-2/solutions-morning.md:18
msgid "// This is a constructor, used below.\n"
msgstr ""
#: src/exercises/day-2/book-library.md:40
#: src/exercises/day-2/solutions-morning.md:26
msgid ""
"// Implement the methods below. Notice how the `self` parameter\n"
"// changes type to indicate the method's required level of ownership\n"
"// over the object:\n"
"//\n"
"// - `&self` for shared read-only access,\n"
"// - `&mut self` for unique and mutable access,\n"
"// - `self` for unique access by value.\n"
msgstr ""
#: src/exercises/day-2/book-library.md:50
msgid "\"Initialize and return a `Library` value\""
msgstr ""
#: src/exercises/day-2/book-library.md:54
msgid "\"Return the length of `self.books`\""
msgstr ""
#: src/exercises/day-2/book-library.md:58
msgid "\"Return `true` if `self.books` is empty\""
msgstr ""
#: src/exercises/day-2/book-library.md:62
msgid "\"Add a new book to `self.books`\""
msgstr ""
#: src/exercises/day-2/book-library.md:66
msgid "\"Iterate over `self.books` and print each book's title and year\""
msgstr ""
#: src/exercises/day-2/book-library.md:70
msgid "\"Return a reference to the oldest book (if any)\""
msgstr ""
#: src/exercises/day-2/book-library.md:78
#: src/exercises/day-2/solutions-morning.md:78
msgid "\"The library is empty: library.is_empty() -> {}\""
msgstr ""
#: src/exercises/day-2/book-library.md:82
#: src/exercises/day-2/solutions-morning.md:82
#: src/exercises/day-2/solutions-morning.md:107
#: src/exercises/day-2/solutions-morning.md:118
#: src/exercises/day-2/solutions-morning.md:125
#: src/exercises/day-2/solutions-morning.md:137
#: src/exercises/day-2/solutions-morning.md:140
msgid "\"Lord of the Rings\""
msgstr ""
#: src/exercises/day-2/book-library.md:83
#: src/exercises/day-2/solutions-morning.md:83
#: src/exercises/day-2/solutions-morning.md:108
#: src/exercises/day-2/solutions-morning.md:126
#: src/exercises/day-2/solutions-morning.md:143
#: src/exercises/day-2/solutions-morning.md:146
msgid "\"Alice's Adventures in Wonderland\""
msgstr ""
#: src/exercises/day-2/book-library.md:86
#: src/exercises/day-2/solutions-morning.md:86
msgid "\"The library is no longer empty: library.is_empty() -> {}\""
msgstr ""
#: src/exercises/day-2/book-library.md:93
#: src/exercises/day-2/solutions-morning.md:93
msgid "\"The oldest book is {}\""
msgstr ""
#: src/exercises/day-2/book-library.md:94
#: src/exercises/day-2/solutions-morning.md:94
msgid "\"The library is empty!\""
msgstr ""
#: src/exercises/day-2/book-library.md:97
#: src/exercises/day-2/solutions-morning.md:97
msgid "\"The library has {} books\""
msgstr ""
#: src/exercises/day-2/health-statistics.md:3
msgid ""
"You're working on implementing a health-monitoring system. As part of that, "
"you need to keep track of users' health statistics."
msgstr ""
#: src/exercises/day-2/health-statistics.md:6
msgid ""
"You'll start with some stubbed functions in an `impl` block as well as a "
"`User` struct definition. Your goal is to implement the stubbed out methods "
"on the `User` `struct` defined in the `impl` block."
msgstr ""
#: src/exercises/day-2/health-statistics.md:10
msgid ""
"Copy the code below to <https://play.rust-lang.org/> and fill in the missing "
"methods:"
msgstr ""
#: src/exercises/day-2/health-statistics.md:39
msgid "\"Create a new User instance\""
msgstr ""
#: src/exercises/day-2/health-statistics.md:43
msgid "\"Return the user's name\""
msgstr ""
#: src/exercises/day-2/health-statistics.md:47
msgid "\"Return the user's age\""
msgstr ""
#: src/exercises/day-2/health-statistics.md:51
msgid "\"Return the user's height\""
msgstr ""
#: src/exercises/day-2/health-statistics.md:55
msgid "\"Return the number of time the user has visited the doctor\""
msgstr ""
#: src/exercises/day-2/health-statistics.md:59
msgid "\"Set the user's age\""
msgstr ""
#: src/exercises/day-2/health-statistics.md:63
msgid "\"Set the user's height\""
msgstr ""
#: src/exercises/day-2/health-statistics.md:67
msgid ""
"\"Update a user's statistics based on measurements from a visit to the "
"doctor\""
msgstr ""
#: src/exercises/day-2/health-statistics.md:72
#: src/exercises/day-2/health-statistics.md:78
#: src/exercises/day-2/health-statistics.md:84
#: src/exercises/day-2/health-statistics.md:92
#: src/exercises/day-2/health-statistics.md:98
#: src/android/build-rules/library.md:44 src/android/aidl/client.md:23
#: src/exercises/day-2/solutions-morning.md:233
#: src/exercises/day-2/solutions-morning.md:239
#: src/exercises/day-2/solutions-morning.md:245
#: src/exercises/day-2/solutions-morning.md:253
#: src/exercises/day-2/solutions-morning.md:259
msgid "\"Bob\""
msgstr ""
#: src/exercises/day-2/health-statistics.md:73
#: src/exercises/day-2/solutions-morning.md:234
msgid "\"I'm {} and my age is {}\""
msgstr ""
#: src/std.md:3
msgid ""
"Rust comes with a standard library which helps establish a set of common "
"types used by Rust library and programs. This way, two libraries can work "
"together smoothly because they both use the same `String` type."
msgstr ""
#: src/std.md:7
msgid "The common vocabulary types include:"
msgstr ""
#: src/std.md:9
msgid ""
"[`Option` and `Result`](std/option-result.md) types: used for optional "
"values and [error handling](error-handling.md)."
msgstr ""
#: src/std.md:12
msgid "[`String`](std/string.md): the default string type used for owned data."
msgstr ""
#: src/std.md:14
msgid "[`Vec`](std/vec.md): a standard extensible vector."
msgstr ""
#: src/std.md:16
msgid ""
"[`HashMap`](std/hashmap.md): a hash map type with a configurable hashing "
"algorithm."
msgstr ""
#: src/std.md:19
msgid "[`Box`](std/box.md): an owned pointer for heap-allocated data."
msgstr ""
#: src/std.md:21
msgid ""
"[`Rc`](std/rc.md): a shared reference-counted pointer for heap-allocated "
"data."
msgstr ""
#: src/std.md:25
msgid ""
"In fact, Rust contains several layers of the Standard Library: `core`, "
"`alloc` and `std`. "
msgstr ""
#: src/std.md:26
msgid ""
"`core` includes the most basic types and functions that don't depend on "
"`libc`, allocator or even the presence of an operating system. "
msgstr ""
#: src/std.md:28
msgid ""
"`alloc` includes types which require a global heap allocator, such as `Vec`, "
"`Box` and `Arc`."
msgstr ""
#: src/std.md:29
msgid ""
"Embedded Rust applications often only use `core`, and sometimes `alloc`."
msgstr ""
#: src/std/option-result.md:1
msgid "`Option` and `Result`"
msgstr ""
#: src/std/option-result.md:3
msgid "The types represent optional data:"
msgstr ""
#: src/std/option-result.md:9
msgid "\"first: {first:?}\""
msgstr ""
#: src/std/option-result.md:12
msgid "\"arr: {arr:?}\""
msgstr ""
#: src/std/option-result.md:18
msgid "`Option` and `Result` are widely used not just in the standard library."
msgstr ""
#: src/std/option-result.md:19
msgid "`Option<&T>` has zero space overhead compared to `&T`."
msgstr ""
#: src/std/option-result.md:20
msgid ""
"`Result` is the standard type to implement error handling as we will see on "
"Day 3."
msgstr ""
#: src/std/option-result.md:21
msgid ""
"`try_into` attempts to convert the vector into a fixed-sized array. This can "
"fail:"
msgstr ""
#: src/std/option-result.md:22
msgid ""
"If the vector has the right size, `Result::Ok` is returned with the array."
msgstr ""
#: src/std/option-result.md:23
msgid "Otherwise, `Result::Err` is returned with the original vector."
msgstr ""
#: src/std/string.md:3
msgid ""
"[`String`](https://doc.rust-lang.org/std/string/struct.String.html) is the "
"standard heap-allocated growable UTF-8 string buffer:"
msgstr ""
#: src/std/string.md:9
msgid "\"s1: len = {}, capacity = {}\""
msgstr ""
#: src/std/string.md:13
msgid "'!'"
msgstr ""
#: src/std/string.md:14
msgid "\"s2: len = {}, capacity = {}\""
msgstr ""
#: src/std/string.md:16
msgid "\"🇨🇭\""
msgstr ""
#: src/std/string.md:17
msgid "\"s3: len = {}, number of chars = {}\""
msgstr ""
#: src/std/string.md:22
msgid ""
"`String` implements [`Deref<Target = str>`](https://doc.rust-lang.org/std/"
"string/struct.String.html#deref-methods-str), which means that you can call "
"all `str` methods on a `String`."
msgstr ""
#: src/std/string.md:30
msgid ""
"`String::new` returns a new empty string, use `String::with_capacity` when "
"you know how much data you want to push to the string."
msgstr ""
#: src/std/string.md:31
msgid ""
"`String::len` returns the size of the `String` in bytes (which can be "
"different from its length in characters)."
msgstr ""
#: src/std/string.md:32
msgid ""
"`String::chars` returns an iterator over the actual characters. Note that a "
"`char` can be different from what a human will consider a \"character\" due "
"to [grapheme clusters](https://docs.rs/unicode-segmentation/latest/"
"unicode_segmentation/struct.Graphemes.html)."
msgstr ""
#: src/std/string.md:33
msgid ""
"When people refer to strings they could either be talking about `&str` or "
"`String`."
msgstr ""
#: src/std/string.md:34
msgid ""
"When a type implements `Deref<Target = T>`, the compiler will let you "
"transparently call methods from `T`."
msgstr ""
#: src/std/string.md:35
msgid ""
"`String` implements `Deref<Target = str>` which transparently gives it "
"access to `str`'s methods."
msgstr ""
#: src/std/string.md:36
msgid "Write and compare `let s3 = s1.deref();` and `let s3 = &*s1;`."
msgstr ""
#: src/std/string.md:37
msgid ""
"`String` is implemented as a wrapper around a vector of bytes, many of the "
"operations you see supported on vectors are also supported on `String`, but "
"with some extra guarantees."
msgstr ""
#: src/std/string.md:38
msgid "Compare the different ways to index a `String`:"
msgstr ""
#: src/std/string.md:39
msgid ""
"To a character by using `s3.chars().nth(i).unwrap()` where `i` is in-bound, "
"out-of-bounds."
msgstr ""
#: src/std/string.md:40
msgid ""
"To a substring by using `s3[0..4]`, where that slice is on character "
"boundaries or not."
msgstr ""
#: src/std/vec.md:1
msgid "`Vec`"
msgstr ""
#: src/std/vec.md:3
msgid ""
"[`Vec`](https://doc.rust-lang.org/std/vec/struct.Vec.html) is the standard "
"resizable heap-allocated buffer:"
msgstr ""
#: src/std/vec.md:9
msgid "\"v1: len = {}, capacity = {}\""
msgstr ""
#: src/std/vec.md:14
msgid "\"v2: len = {}, capacity = {}\""
msgstr ""
#: src/std/vec.md:16
msgid "// Canonical macro to initialize a vector with elements.\n"
msgstr ""
#: src/std/vec.md:19
msgid "// Retain only the even elements.\n"
msgstr ""
#: src/std/vec.md:21 src/std/vec.md:25
msgid "\"{v3:?}\""
msgstr ""
#: src/std/vec.md:23
msgid "// Remove consecutive duplicates.\n"
msgstr ""
#: src/std/vec.md:29
msgid ""
"`Vec` implements [`Deref<Target = [T]>`](https://doc.rust-lang.org/std/vec/"
"struct.Vec.html#deref-methods-%5BT%5D), which means that you can call slice "
"methods on a `Vec`."
msgstr ""
#: src/std/vec.md:37
msgid ""
"`Vec` is a type of collection, along with `String` and `HashMap`. The data "
"it contains is stored on the heap. This means the amount of data doesn't "
"need to be known at compile time. It can grow or shrink at runtime."
msgstr ""
#: src/std/vec.md:40
msgid ""
"Notice how `Vec<T>` is a generic type too, but you don't have to specify `T` "
"explicitly. As always with Rust type inference, the `T` was established "
"during the first `push` call."
msgstr ""
#: src/std/vec.md:42
msgid ""
"`vec![...]` is a canonical macro to use instead of `Vec::new()` and it "
"supports adding initial elements to the vector."
msgstr ""
#: src/std/vec.md:44
msgid ""
"To index the vector you use `[` `]`, but they will panic if out of bounds. "
"Alternatively, using `get` will return an `Option`. The `pop` function will "
"remove the last element."
msgstr ""
#: src/std/vec.md:46
msgid ""
"Show iterating over a vector and mutating the value: `for e in &mut v { *e "
"+= 50; }`"
msgstr ""
#: src/std/hashmap.md:1 src/bare-metal/no_std.md:46
msgid "`HashMap`"
msgstr ""
#: src/std/hashmap.md:3
msgid "Standard hash map with protection against HashDoS attacks:"
msgstr ""
#: src/std/hashmap.md:10
msgid "\"Adventures of Huckleberry Finn\""
msgstr ""
#: src/std/hashmap.md:11
msgid "\"Grimms' Fairy Tales\""
msgstr ""
#: src/std/hashmap.md:12 src/std/hashmap.md:19 src/std/hashmap.md:27
msgid "\"Pride and Prejudice\""
msgstr ""
#: src/std/hashmap.md:14
msgid "\"Les Misérables\""
msgstr ""
#: src/std/hashmap.md:15
msgid "\"We know about {} books, but not Les Misérables.\""
msgstr ""
#: src/std/hashmap.md:19 src/std/hashmap.md:27
msgid "\"Alice's Adventure in Wonderland\""
msgstr ""
#: src/std/hashmap.md:21
msgid "\"{book}: {count} pages\""
msgstr ""
#: src/std/hashmap.md:22
msgid "\"{book} is unknown.\""
msgstr ""
#: src/std/hashmap.md:26
msgid "// Use the .entry() method to insert a value if nothing is found.\n"
msgstr ""
#: src/std/hashmap.md:32
msgid "\"{page_counts:#?}\""
msgstr ""
#: src/std/hashmap.md:38
msgid ""
"`HashMap` is not defined in the prelude and needs to be brought into scope."
msgstr ""
#: src/std/hashmap.md:39
msgid ""
"Try the following lines of code. The first line will see if a book is in the "
"hashmap and if not return an alternative value. The second line will insert "
"the alternative value in the hashmap if the book is not found."
msgstr ""
#: src/std/hashmap.md:43
msgid "\"Harry Potter and the Sorcerer's Stone \""
msgstr ""
#: src/std/hashmap.md:46 src/std/hashmap.md:55
msgid "\"The Hunger Games\""
msgstr ""
#: src/std/hashmap.md:49
msgid "Unlike `vec!`, there is unfortunately no standard `hashmap!` macro."
msgstr ""
#: src/std/hashmap.md:50
msgid ""
"Although, since Rust 1.56, HashMap implements [`From<[(K, V); N]>`](https://"
"doc.rust-lang.org/std/collections/hash_map/struct.HashMap.html#impl-"
"From%3C%5B(K,+V);+N%5D%3E-for-HashMap%3CK,+V,+RandomState%3E), which allows "
"us to easily initialize a hash map from a literal array:"
msgstr ""
#: src/std/hashmap.md:54
msgid "\"Harry Potter and the Sorcerer's Stone\""
msgstr ""
#: src/std/hashmap.md:59
msgid ""
"Alternatively HashMap can be built from any `Iterator` which yields key-"
"value tuples."
msgstr ""
#: src/std/hashmap.md:60
msgid ""
"We are showing `HashMap<String, i32>`, and avoid using `&str` as key to make "
"examples easier. Using references in collections can, of course, be done, "
"but it can lead into complications with the borrow checker."
msgstr ""
#: src/std/hashmap.md:62
msgid ""
"Try removing `to_string()` from the example above and see if it still "
"compiles. Where do you think we might run into issues?"
msgstr ""
#: src/std/hashmap.md:64
msgid ""
"This type has several \"method-specific\" return types, such as `std::"
"collections::hash_map::Keys`. These types often appear in searches of the "
"Rust docs. Show students the docs for this type, and the helpful link back "
"to the `keys` method."
msgstr ""
#: src/std/box.md:1
msgid "`Box`"
msgstr ""
#: src/std/box.md:3
msgid ""
"[`Box`](https://doc.rust-lang.org/std/boxed/struct.Box.html) is an owned "
"pointer to data on the heap:"
msgstr ""
#: src/std/box.md:8
msgid "\"five: {}\""
msgstr ""
#: src/std/box.md:26
msgid ""
"`Box<T>` implements `Deref<Target = T>`, which means that you can [call "
"methods from `T` directly on a `Box<T>`](https://doc.rust-lang.org/std/ops/"
"trait.Deref.html#more-on-deref-coercion)."
msgstr ""
#: src/std/box.md:34
msgid ""
"`Box` is like `std::unique_ptr` in C++, except that it's guaranteed to be "
"not null. "
msgstr ""
#: src/std/box.md:35
msgid ""
"In the above example, you can even leave out the `*` in the `println!` "
"statement thanks to `Deref`. "
msgstr ""
#: src/std/box.md:36
msgid "A `Box` can be useful when you:"
msgstr ""
#: src/std/box.md:37
msgid ""
"have a type whose size that can't be known at compile time, but the Rust "
"compiler wants to know an exact size."
msgstr ""
#: src/std/box.md:38
msgid ""
"want to transfer ownership of a large amount of data. To avoid copying large "
"amounts of data on the stack, instead store the data on the heap in a `Box` "
"so only the pointer is moved."
msgstr ""
#: src/std/box-recursive.md:1
msgid "Box with Recursive Data Structures"
msgstr ""
#: src/std/box-recursive.md:3
msgid ""
"Recursive data types or data types with dynamic sizes need to use a `Box`:"
msgstr ""
#: src/std/box-recursive.md:14 src/std/box-niche.md:12
msgid "\"{list:?}\""
msgstr ""
#: src/std/box-recursive.md:18
msgid ""
"```bob\n"
" Stack Heap\n"
".- - - - - - - - - - - - -. .- - - - - - - - - - - - - - - - - - - - - - "
"- -.\n"
": : : :\n"
": "
"list : : :\n"
": +------+----+----+ : : +------+----+----+ +------+----+----"
"+ :\n"
": | Cons | 1 | o--+----+-----+--->| Cons | 2 | o--+--->| Nil | // | // "
"| :\n"
": +------+----+----+ : : +------+----+----+ +------+----+----"
"+ :\n"
": : : :\n"
": : : :\n"
"'- - - - - - - - - - - - -' '- - - - - - - - - - - - - - - - - - - - - - "
"- -'\n"
"```"
msgstr ""
#: src/std/box-recursive.md:33
msgid ""
"If `Box` was not used and we attempted to embed a `List` directly into the "
"`List`, the compiler would not compute a fixed size of the struct in memory "
"(`List` would be of infinite size)."
msgstr ""
#: src/std/box-recursive.md:36
msgid ""
"`Box` solves this problem as it has the same size as a regular pointer and "
"just points at the next element of the `List` in the heap."
msgstr ""
#: src/std/box-recursive.md:39
msgid ""
"Remove the `Box` in the List definition and show the compiler error. "
"\"Recursive with indirection\" is a hint you might want to use a Box or "
"reference of some kind, instead of storing a value directly."
msgstr ""
#: src/std/box-niche.md:16
msgid ""
"A `Box` cannot be empty, so the pointer is always valid and non-`null`. This "
"allows the compiler to optimize the memory layout:"
msgstr ""
#: src/std/box-niche.md:19
msgid ""
"```bob\n"
" Stack Heap\n"
".- - - - - - - - - - - - -. .- - - - - - - - - - - - - - - - - - - - - - "
"-.\n"
": : : :\n"
": "
"list : : :\n"
": +----+----+ : : +----+----+ +----+------"
"+ :\n"
": | 1 | o--+-----------+-----+--->| 2 | o--+--->| // | null "
"| :\n"
": +----+----+ : : +----+----+ +----+------"
"+ :\n"
": : : :\n"
": : : :\n"
"`- - - - - - - - - - - - -' '- - - - - - - - - - - - - - - - - - - - - - "
"-'\n"
"```"
msgstr ""
#: src/std/rc.md:1
msgid "`Rc`"
msgstr ""
#: src/std/rc.md:3
msgid ""
"[`Rc`](https://doc.rust-lang.org/std/rc/struct.Rc.html) is a reference-"
"counted shared pointer. Use this when you need to refer to the same data "
"from multiple places:"
msgstr ""
#: src/std/rc.md:13
msgid "\"a: {a}\""
msgstr ""
#: src/std/rc.md:14
msgid "\"b: {b}\""
msgstr ""
#: src/std/rc.md:18
msgid ""
"See [`Arc`](../concurrency/shared_state/arc.md) and [`Mutex`](https://doc."
"rust-lang.org/std/sync/struct.Mutex.html) if you are in a multi-threaded "
"context."
msgstr ""
#: src/std/rc.md:19
msgid ""
"You can _downgrade_ a shared pointer into a [`Weak`](https://doc.rust-lang."
"org/std/rc/struct.Weak.html) pointer to create cycles that will get dropped."
msgstr ""
#: src/std/rc.md:29
msgid ""
"`Rc`'s count ensures that its contained value is valid for as long as there "
"are references."
msgstr ""
#: src/std/rc.md:30
msgid "`Rc` in Rust is like `std::shared_ptr` in C++."
msgstr ""
#: src/std/rc.md:31
msgid ""
"`Rc::clone` is cheap: it creates a pointer to the same allocation and "
"increases the reference count. Does not make a deep clone and can generally "
"be ignored when looking for performance issues in code."
msgstr ""
#: src/std/rc.md:32
msgid ""
"`make_mut` actually clones the inner value if necessary (\"clone-on-write\") "
"and returns a mutable reference."
msgstr ""
#: src/std/rc.md:33
msgid "Use `Rc::strong_count` to check the reference count."
msgstr ""
#: src/std/rc.md:34
msgid ""
"`Rc::downgrade` gives you a _weakly reference-counted_ object to create "
"cycles that will be dropped properly (likely in combination with `RefCell`, "
"on the next slide)."
msgstr ""
#: src/std/cell.md:1
msgid "`Cell` and `RefCell`"
msgstr ""
#: src/std/cell.md:3
msgid ""
"[`Cell`](https://doc.rust-lang.org/std/cell/struct.Cell.html) and [`RefCell`]"
"(https://doc.rust-lang.org/std/cell/struct.RefCell.html) implement what Rust "
"calls _interior mutability:_ mutation of values in an immutable context."
msgstr ""
#: src/std/cell.md:8
msgid ""
"`Cell` is typically used for simple types, as it requires copying or moving "
"values. More complex interior types typically use `RefCell`, which tracks "
"shared and exclusive references at runtime and panics if they are misused."
msgstr ""
#: src/std/cell.md:40
msgid "\"graph: {root:#?}\""
msgstr ""
#: src/std/cell.md:41
msgid "\"graph sum: {}\""
msgstr ""
#: src/std/cell.md:47
msgid ""
"If we were using `Cell` instead of `RefCell` in this example, we would have "
"to move the `Node` out of the `Rc` to push children, then move it back in. "
"This is safe because there's always one, un-referenced value in the cell, "
"but it's not ergonomic."
msgstr ""
#: src/std/cell.md:48
msgid ""
"To do anything with a Node, you must call a `RefCell` method, usually "
"`borrow` or `borrow_mut`."
msgstr ""
#: src/std/cell.md:49
msgid ""
"Demonstrate that reference loops can be created by adding `root` to `subtree."
"children` (don't try to print it!)."
msgstr ""
#: src/std/cell.md:50
msgid ""
"To demonstrate a runtime panic, add a `fn inc(&mut self)` that increments "
"`self.value` and calls the same method on its children. This will panic in "
"the presence of the reference loop, with `thread 'main' panicked at 'already "
"borrowed: BorrowMutError'`."
msgstr ""
#: src/modules.md:3
msgid "We have seen how `impl` blocks let us namespace functions to a type."
msgstr ""
#: src/modules.md:5
msgid "Similarly, `mod` lets us namespace types and functions:"
msgstr ""
#: src/modules.md:10
msgid "\"In the foo module\""
msgstr ""
#: src/modules.md:16
msgid "\"In the bar module\""
msgstr ""
#: src/modules.md:28
msgid ""
"Packages provide functionality and include a `Cargo.toml` file that "
"describes how to build a bundle of 1+ crates."
msgstr ""
#: src/modules.md:29
msgid ""
"Crates are a tree of modules, where a binary crate creates an executable and "
"a library crate compiles to a library."
msgstr ""
#: src/modules.md:30
msgid "Modules define organization, scope, and are the focus of this section."
msgstr ""
#: src/modules/visibility.md:3
msgid "Modules are a privacy boundary:"
msgstr ""
#: src/modules/visibility.md:5
msgid "Module items are private by default (hides implementation details)."
msgstr ""
#: src/modules/visibility.md:6
msgid "Parent and sibling items are always visible."
msgstr ""
#: src/modules/visibility.md:7
msgid ""
"In other words, if an item is visible in module `foo`, it's visible in all "
"the descendants of `foo`."
msgstr ""
#: src/modules/visibility.md:13
msgid "\"outer::private\""
msgstr ""
#: src/modules/visibility.md:17
msgid "\"outer::public\""
msgstr ""
#: src/modules/visibility.md:22
msgid "\"outer::inner::private\""
msgstr ""
#: src/modules/visibility.md:26
msgid "\"outer::inner::public\""
msgstr ""
#: src/modules/visibility.md:39
msgid "Use the `pub` keyword to make modules public."
msgstr ""
#: src/modules/visibility.md:41
msgid ""
"Additionally, there are advanced `pub(...)` specifiers to restrict the scope "
"of public visibility."
msgstr ""
#: src/modules/visibility.md:43
msgid ""
"See the [Rust Reference](https://doc.rust-lang.org/reference/visibility-and-"
"privacy.html#pubin-path-pubcrate-pubsuper-and-pubself)."
msgstr ""
#: src/modules/visibility.md:44
msgid "Configuring `pub(crate)` visibility is a common pattern."
msgstr ""
#: src/modules/visibility.md:45
msgid "Less commonly, you can give visibility to a specific path."
msgstr ""
#: src/modules/visibility.md:46
msgid ""
"In any case, visibility must be granted to an ancestor module (and all of "
"its descendants)."
msgstr ""
#: src/modules/paths.md:3
msgid "Paths are resolved as follows:"
msgstr ""
#: src/modules/paths.md:5
msgid "As a relative path:"
msgstr ""
#: src/modules/paths.md:6
msgid "`foo` or `self::foo` refers to `foo` in the current module,"
msgstr ""
#: src/modules/paths.md:7
msgid "`super::foo` refers to `foo` in the parent module."
msgstr ""
#: src/modules/paths.md:9
msgid "As an absolute path:"
msgstr ""
#: src/modules/paths.md:10
msgid "`crate::foo` refers to `foo` in the root of the current crate,"
msgstr ""
#: src/modules/paths.md:11
msgid "`bar::foo` refers to `foo` in the `bar` crate."
msgstr ""
#: src/modules/paths.md:13
msgid ""
"A module can bring symbols from another module into scope with `use`. You "
"will typically see something like this at the top of each module:"
msgstr ""
#: src/modules/filesystem.md:3
msgid ""
"Omitting the module content will tell Rust to look for it in another file:"
msgstr ""
#: src/modules/filesystem.md:9
msgid ""
"This tells rust that the `garden` module content is found at `src/garden."
"rs`. Similarly, a `garden::vegetables` module can be found at `src/garden/"
"vegetables.rs`."
msgstr ""
#: src/modules/filesystem.md:12
msgid "The `crate` root is in:"
msgstr ""
#: src/modules/filesystem.md:14
msgid "`src/lib.rs` (for a library crate)"
msgstr ""
#: src/modules/filesystem.md:15
msgid "`src/main.rs` (for a binary crate)"
msgstr ""
#: src/modules/filesystem.md:17
msgid ""
"Modules defined in files can be documented, too, using \"inner doc "
"comments\". These document the item that contains them -- in this case, a "
"module."
msgstr ""
#: src/modules/filesystem.md:21
msgid ""
"//! This module implements the garden, including a highly performant "
"germination\n"
"//! implementation.\n"
msgstr ""
#: src/modules/filesystem.md:23
msgid "// Re-export types from this module.\n"
msgstr ""
#: src/modules/filesystem.md:27
msgid "/// Sow the given seed packets.\n"
msgstr ""
#: src/modules/filesystem.md:30
msgid "/// Harvest the produce in the garden that is ready.\n"
msgstr ""
#: src/modules/filesystem.md:37
msgid ""
"Before Rust 2018, modules needed to be located at `module/mod.rs` instead of "
"`module.rs`, and this is still a working alternative for editions after 2018."
msgstr ""
#: src/modules/filesystem.md:39
msgid ""
"The main reason to introduce `filename.rs` as alternative to `filename/mod."
"rs` was because many files named `mod.rs` can be hard to distinguish in IDEs."
msgstr ""
#: src/modules/filesystem.md:42
msgid "Deeper nesting can use folders, even if the main module is a file:"
msgstr ""
#: src/modules/filesystem.md:52
msgid ""
"The place rust will look for modules can be changed with a compiler "
"directive:"
msgstr ""
#: src/modules/filesystem.md:55
msgid "\"some/path.rs\""
msgstr ""
#: src/modules/filesystem.md:59
msgid ""
"This is useful, for example, if you would like to place tests for a module "
"in a file named `some_module_test.rs`, similar to the convention in Go."
msgstr ""
#: src/exercises/day-2/afternoon.md:1
msgid "Day 2: Afternoon Exercises"
msgstr ""
#: src/exercises/day-2/afternoon.md:3
msgid "The exercises for this afternoon will focus on strings and iterators."
msgstr ""
#: src/exercises/day-2/iterators-and-ownership.md:3
msgid ""
"The ownership model of Rust affects many APIs. An example of this is the "
"[`Iterator`](https://doc.rust-lang.org/std/iter/trait.Iterator.html) and "
"[`IntoIterator`](https://doc.rust-lang.org/std/iter/trait.IntoIterator.html) "
"traits."
msgstr ""
#: src/exercises/day-2/iterators-and-ownership.md:8 src/bare-metal/no_std.md:28
msgid "`Iterator`"
msgstr ""
#: src/exercises/day-2/iterators-and-ownership.md:10
msgid ""
"Traits are like interfaces: they describe behavior (methods) for a type. The "
"`Iterator` trait simply says that you can call `next` until you get `None` "
"back:"
msgstr ""
#: src/exercises/day-2/iterators-and-ownership.md:20
msgid "You use this trait like this:"
msgstr ""
#: src/exercises/day-2/iterators-and-ownership.md:27
msgid "\"v[0]: {:?}\""
msgstr ""
#: src/exercises/day-2/iterators-and-ownership.md:28
msgid "\"v[1]: {:?}\""
msgstr ""
#: src/exercises/day-2/iterators-and-ownership.md:29
msgid "\"v[2]: {:?}\""
msgstr ""
#: src/exercises/day-2/iterators-and-ownership.md:30
msgid "\"No more items: {:?}\""
msgstr ""
#: src/exercises/day-2/iterators-and-ownership.md:34
msgid "What is the type returned by the iterator? Test your answer here:"
msgstr ""
#: src/exercises/day-2/iterators-and-ownership.md:42
#: src/exercises/day-2/iterators-and-ownership.md:79
msgid "\"v0: {v0:?}\""
msgstr ""
#: src/exercises/day-2/iterators-and-ownership.md:46
msgid "Why is this type used?"
msgstr ""
#: src/exercises/day-2/iterators-and-ownership.md:48
msgid "`IntoIterator`"
msgstr ""
#: src/exercises/day-2/iterators-and-ownership.md:50
msgid ""
"The `Iterator` trait tells you how to _iterate_ once you have created an "
"iterator. The related trait `IntoIterator` tells you how to create the "
"iterator:"
msgstr ""
#: src/exercises/day-2/iterators-and-ownership.md:62
msgid ""
"The syntax here means that every implementation of `IntoIterator` must "
"declare two types:"
msgstr ""
#: src/exercises/day-2/iterators-and-ownership.md:65
msgid "`Item`: the type we iterate over, such as `i8`,"
msgstr ""
#: src/exercises/day-2/iterators-and-ownership.md:66
msgid "`IntoIter`: the `Iterator` type returned by the `into_iter` method."
msgstr ""
#: src/exercises/day-2/iterators-and-ownership.md:68
msgid ""
"Note that `IntoIter` and `Item` are linked: the iterator must have the same "
"`Item` type, which means that it returns `Option<Item>`"
msgstr ""
#: src/exercises/day-2/iterators-and-ownership.md:71
msgid "Like before, what is the type returned by the iterator?"
msgstr ""
#: src/exercises/day-2/iterators-and-ownership.md:75
#: src/exercises/day-2/iterators-and-ownership.md:91
#: src/testing/test-modules.md:21
msgid "\"bar\""
msgstr ""
#: src/exercises/day-2/iterators-and-ownership.md:83
msgid "`for` Loops"
msgstr ""
#: src/exercises/day-2/iterators-and-ownership.md:85
msgid ""
"Now that we know both `Iterator` and `IntoIterator`, we can build `for` "
"loops. They call `into_iter()` on an expression and iterates over the "
"resulting iterator:"
msgstr ""
#: src/exercises/day-2/iterators-and-ownership.md:94
#: src/exercises/day-2/iterators-and-ownership.md:98
msgid "\"word: {word}\""
msgstr ""
#: src/exercises/day-2/iterators-and-ownership.md:103
msgid "What is the type of `word` in each loop?"
msgstr ""
#: src/exercises/day-2/iterators-and-ownership.md:105
msgid ""
"Experiment with the code above and then consult the documentation for [`impl "
"IntoIterator for &Vec<T>`](https://doc.rust-lang.org/std/vec/struct.Vec."
"html#impl-IntoIterator-for-%26'a+Vec%3CT,+A%3E) and [`impl IntoIterator for "
"Vec<T>`](https://doc.rust-lang.org/std/vec/struct.Vec.html#impl-IntoIterator-"
"for-Vec%3CT,+A%3E) to check your answers."
msgstr ""
#: src/exercises/day-2/strings-iterators.md:3
msgid ""
"In this exercise, you are implementing a routing component of a web server. "
"The server is configured with a number of _path prefixes_ which are matched "
"against _request paths_. The path prefixes can contain a wildcard character "
"which matches a full segment. See the unit tests below."
msgstr ""
#: src/exercises/day-2/strings-iterators.md:8
msgid ""
"Copy the following code to <https://play.rust-lang.org/> and make the tests "
"pass. Try avoiding allocating a `Vec` for your intermediate results:"
msgstr ""
#: src/exercises/day-2/strings-iterators.md:22
#: src/exercises/day-2/strings-iterators.md:23
#: src/exercises/day-2/strings-iterators.md:24
#: src/exercises/day-2/strings-iterators.md:26
#: src/exercises/day-2/strings-iterators.md:27
#: src/exercises/day-2/strings-iterators.md:28
#: src/exercises/day-2/strings-iterators.md:46
#: src/exercises/day-2/solutions-afternoon.md:32
#: src/exercises/day-2/solutions-afternoon.md:33
#: src/exercises/day-2/solutions-afternoon.md:34
#: src/exercises/day-2/solutions-afternoon.md:36
#: src/exercises/day-2/solutions-afternoon.md:37
#: src/exercises/day-2/solutions-afternoon.md:38
#: src/exercises/day-2/solutions-afternoon.md:56
msgid "\"/v1/publishers\""
msgstr ""
#: src/exercises/day-2/strings-iterators.md:23
#: src/exercises/day-2/solutions-afternoon.md:33
msgid "\"/v1/publishers/abc-123\""
msgstr ""
#: src/exercises/day-2/strings-iterators.md:24
#: src/exercises/day-2/solutions-afternoon.md:34
msgid "\"/v1/publishers/abc/books\""
msgstr ""
#: src/exercises/day-2/strings-iterators.md:26
#: src/exercises/day-2/solutions-afternoon.md:36
msgid "\"/v1\""
msgstr ""
#: src/exercises/day-2/strings-iterators.md:27
#: src/exercises/day-2/solutions-afternoon.md:37
msgid "\"/v1/publishersBooks\""
msgstr ""
#: src/exercises/day-2/strings-iterators.md:28
#: src/exercises/day-2/solutions-afternoon.md:38
msgid "\"/v1/parent/publishers\""
msgstr ""
#: src/exercises/day-2/strings-iterators.md:34
#: src/exercises/day-2/strings-iterators.md:38
#: src/exercises/day-2/strings-iterators.md:42
#: src/exercises/day-2/strings-iterators.md:46
#: src/exercises/day-2/strings-iterators.md:48
#: src/exercises/day-2/solutions-afternoon.md:44
#: src/exercises/day-2/solutions-afternoon.md:48
#: src/exercises/day-2/solutions-afternoon.md:52
#: src/exercises/day-2/solutions-afternoon.md:56
#: src/exercises/day-2/solutions-afternoon.md:58
msgid "\"/v1/publishers/*/books\""
msgstr ""
#: src/exercises/day-2/strings-iterators.md:35
#: src/exercises/day-2/solutions-afternoon.md:45
msgid "\"/v1/publishers/foo/books\""
msgstr ""
#: src/exercises/day-2/strings-iterators.md:39
#: src/exercises/day-2/solutions-afternoon.md:49
msgid "\"/v1/publishers/bar/books\""
msgstr ""
#: src/exercises/day-2/strings-iterators.md:43
#: src/exercises/day-2/solutions-afternoon.md:53
msgid "\"/v1/publishers/foo/books/book1\""
msgstr ""
#: src/exercises/day-2/strings-iterators.md:49
#: src/exercises/day-2/solutions-afternoon.md:59
msgid "\"/v1/publishers/foo/booksByAuthor\""
msgstr ""
#: src/welcome-day-3.md:1
msgid "Welcome to Day 3"
msgstr ""
#: src/welcome-day-3.md:3
msgid "Today, we will cover some more advanced topics of Rust:"
msgstr ""
#: src/welcome-day-3.md:5
msgid ""
"Traits: deriving traits, default methods, and important standard library "
"traits."
msgstr ""
#: src/welcome-day-3.md:8
msgid ""
"Generics: generic data types, generic methods, monomorphization, and trait "
"objects."
msgstr ""
#: src/welcome-day-3.md:11
msgid "Error handling: panics, `Result`, and the try operator `?`."
msgstr ""
#: src/welcome-day-3.md:13
msgid "Testing: unit tests, documentation tests, and integration tests."
msgstr ""
#: src/welcome-day-3.md:15
msgid ""
"Unsafe Rust: raw pointers, static variables, unsafe functions, and extern "
"functions."
msgstr ""
#: src/generics.md:3
msgid ""
"Rust support generics, which lets you abstract algorithms or data structures "
"(such as sorting or a binary tree) over the types used or stored."
msgstr ""
"Rustはジェネリクス(generics)をサポートします。これにより、使用または保存す"
"る型に関してアルゴリズムやデータ構造(ソートアルゴリズムや、二分木など)を抽"
"象化することができます。"
#: src/generics/data-types.md:3
msgid "You can use generics to abstract over the concrete field type:"
msgstr ""
"ジェネリクスを使って、具体的なフィールドの型を抽象化することができます:"
#: src/generics/data-types.md:15
msgid "\"{integer:?} and {float:?}\""
msgstr ""
#: src/generics/data-types.md:21
msgid "Try declaring a new variable `let p = Point { x: 5, y: 10.0 };`."
msgstr ""
"次のような新しい変数を宣言してみてください `let p = Point { x: 5, y: 10.0 };"
"`."
#: src/generics/data-types.md:23
msgid "Fix the code to allow points that have elements of different types."
msgstr "異なる型の要素を持つ点を許容するように、コードを修正してください。"
#: src/generics/methods.md:3
msgid "You can declare a generic type on your `impl` block:"
msgstr "`impl`に対して、ジェネリックな型を宣言することもできます:"
#: src/generics/methods.md:11
msgid "// + 10\n"
msgstr ""
#: src/generics/methods.md:14
msgid "// fn set_x(&mut self, x: T)\n"
msgstr ""
#: src/generics/methods.md:19
msgid "\"p.x = {}\""
msgstr ""
#: src/generics/methods.md:25
msgid ""
"_Q:_ Why `T` is specified twice in `impl<T> Point<T> {}`? Isn't that "
"redundant?"
msgstr ""
"_Q:_ なぜ`T`は2回も `impl<T> Point<T> {}` において指定されたのでしょうか?冗"
"長ではありませんか?"
#: src/generics/methods.md:26
msgid ""
"This is because it is a generic implementation section for generic type. "
"They are independently generic."
msgstr ""
"なぜなら、これはジェネリクスに対してのジェネリックな実装の箇所だからです。そ"
"れらは独立してジェネリックです。"
#: src/generics/methods.md:27
msgid "It means these methods are defined for any `T`."
msgstr ""
"つまり、そのようなメソッドは任意の`T`に対して定義されるということです。"
#: src/generics/methods.md:28
msgid "It is possible to write `impl Point<u32> { .. }`. "
msgstr "`impl Point<u32> { .. }`のように書くことも可能です。 "
#: src/generics/methods.md:29
msgid ""
"`Point` is still generic and you can use `Point<f64>`, but methods in this "
"block will only be available for `Point<u32>`."
msgstr ""
"`Point`はそれでもなおジェネリックであり、 `Point<f64>`を使うことができます。"
"しかし、このブロックでのメソッドは`Point<u32>`に対してのみ利用可能となりま"
"す。"
#: src/generics/monomorphization.md:3
msgid "Generic code is turned into non-generic code based on the call sites:"
msgstr ""
"ジェネリクスのコードは呼び出し箇所に基づいて、ジェネリックでないコードに変換"
"されます:"
#: src/generics/monomorphization.md:12
msgid "behaves as if you wrote"
msgstr "上のコードは、次のように書いた時と同じように動作します"
#: src/generics/monomorphization.md:31
msgid ""
"This is a zero-cost abstraction: you get exactly the same result as if you "
"had hand-coded the data structures without the abstraction."
msgstr ""
"これはゼロコスト抽象化です:抽象化なしに手作業でデータ構造を書いたときと、全"
"く同じ結果を得ることができます。"
#: src/traits.md:3
msgid ""
"Rust lets you abstract over types with traits. They're similar to interfaces:"
msgstr ""
"Rustでは、型に関しての抽象化をトレイトを用いて行うことができます。トレイトは"
"インターフェースに似ています:"
#: src/traits.md:7 src/traits/trait-objects.md:7
msgid "// No name needed, cats won't respond anyway.\n"
msgstr ""
#: src/traits.md:14 src/traits/trait-objects.md:14
msgid "\"Woof, my name is {}!\""
msgstr ""
#: src/traits.md:18 src/traits/trait-objects.md:18
msgid "\"Miau!\""
msgstr ""
#: src/traits.md:22
msgid "\"Oh you're a cutie! What's your name? {}\""
msgstr ""
#: src/traits.md:27 src/traits/trait-objects.md:24
msgid "\"Fido\""
msgstr ""
"```rust,editable\n"
"struct Dog { name: String, age: i8 }\n"
"struct Cat { lives: i8 } // 猫に名前は必要ありません。どのみち猫は名前に反応"
"しないからです。\n"
"\n"
"trait Pet {\n"
" fn talk(&self) -> String;\n"
"}\n"
"\n"
"impl Pet for Dog {\n"
" fn talk(&self) -> String { format!(\"Woof, my name is {}!\", self."
"name) }\n"
"}\n"
"\n"
"impl Pet for Cat {\n"
" fn talk(&self) -> String { String::from(\"Miau!\") }\n"
"}\n"
"\n"
"fn greet<P: Pet>(pet: &P) {\n"
" println!(\"Oh you're a cutie! What's your name? {}\", pet.talk());\n"
"}\n"
"\n"
"fn main() {\n"
" let captain_floof = Cat { lives: 9 };\n"
" let fido = Dog { name: String::from(\"Fido\"), age: 5 };\n"
"\n"
" greet(&captain_floof);\n"
" greet(&fido);\n"
"}\n"
"```"
#: src/traits/trait-objects.md:3
msgid ""
"Trait objects allow for values of different types, for instance in a "
"collection:"
msgstr ""
"トレイトオブジェクトは異なる型の値をひとつのコレクションにまとめることを可能"
"にします:"
#: src/traits/trait-objects.md:27
msgid "\"Hello, who are you? {}\""
msgstr ""
"```rust,editable\n"
"struct Dog { name: String, age: i8 }\n"
"struct Cat { lives: i8 } // 猫に名前は必要ありません。どのみち猫は名前に反応"
"しないからです。\n"
"\n"
"trait Pet {\n"
" fn talk(&self) -> String;\n"
"}\n"
"\n"
"impl Pet for Dog {\n"
" fn talk(&self) -> String { format!(\"Woof, my name is {}!\", self."
"name) }\n"
"}\n"
"\n"
"impl Pet for Cat {\n"
" fn talk(&self) -> String { String::from(\"Miau!\") }\n"
"}\n"
"\n"
"fn main() {\n"
" let pets: Vec<Box<dyn Pet>> = vec![\n"
" Box::new(Cat { lives: 9 }),\n"
" Box::new(Dog { name: String::from(\"Fido\"), age: 5 }),\n"
" ];\n"
" for pet in pets {\n"
" println!(\"Hello, who are you? {}\", pet.talk());\n"
" }\n"
"}\n"
"```"
#: src/traits/trait-objects.md:32
msgid "Memory layout after allocating `pets`:"
msgstr "`pets`を割り当てた後のメモリレイアウト:"
#: src/traits/trait-objects.md:34
msgid ""
"```bob\n"
" Stack Heap\n"
".- - - - - - - - - - - - - -. .- - - - - - - - - - - - - - - - - - - - - "
"- -.\n"
": : : :\n"
": pets : : +----+----+----+----"
"+ :\n"
": +-----------+-------+ : : +-----+-----+ .->| F | i | d | o "
"| :\n"
": | ptr | o---+---+-----+-->| o o | o o | | +----+----+----+----"
"+ :\n"
": | len | 2 | : : +-|-|-+-|-|-+ "
"`---------. :\n"
": | capacity | 2 | : : | | | | data "
"| :\n"
": +-----------+-------+ : : | | | | +-------+--|-------"
"+ :\n"
": : : | | | '-->| name | o, 4, 4 "
"| :\n"
": : : | | | | age | 5 "
"| :\n"
"`- - - - - - - - - - - - - -' : | | | +-------+----------"
"+ :\n"
" : | | "
"| :\n"
" : | | | "
"vtable :\n"
" : | | | +----------------------"
"+ :\n"
" : | | '---->| \"<Dog as Pet>::talk\" "
"| :\n"
" : | | +----------------------"
"+ :\n"
" : | "
"| :\n"
" : | | "
"data :\n"
" : | | +-------+-------"
"+ :\n"
" : | '-->| lives | 9 "
"| :\n"
" : | +-------+-------"
"+ :\n"
" : "
"| :\n"
" : | "
"vtable :\n"
" : | +----------------------"
"+ :\n"
" : '---->| \"<Cat as Pet>::talk\" "
"| :\n"
" : +----------------------"
"+ :\n"
" : :\n"
" '- - - - - - - - - - - - - - - - - - - - - "
"- -'\n"
"```"
msgstr ""
#: src/traits/trait-objects.md:68
msgid ""
"Types that implement a given trait may be of different sizes. This makes it "
"impossible to have things like `Vec<dyn Pet>` in the example above."
msgstr ""
"同じトレイトを実装する型であってもそのサイズは異なることがあります。そのた"
"め、上の例でVec<dyn Pet>と書くことはできません。"
#: src/traits/trait-objects.md:70
msgid ""
"`dyn Pet` is a way to tell the compiler about a dynamically sized type that "
"implements `Pet`."
msgstr ""
"`dyn Pet` はコンパイラに、この型が`Pet`トレイトを実装する動的なサイズの型であ"
"ることを伝えます。"
#: src/traits/trait-objects.md:72
msgid ""
"In the example, `pets` is allocated on the stack and the vector data is on "
"the heap. The two vector elements are _fat pointers_:"
msgstr ""
"上の例では `pets` はスタックに確保され、ベクターのデータはヒープ上にありま"
"す。二つのベクターの要素は _ファットポインタ_ です:"
#: src/traits/trait-objects.md:74
msgid ""
"A fat pointer is a double-width pointer. It has two components: a pointer to "
"the actual object and a pointer to the [virtual method table](https://en."
"wikipedia.org/wiki/Virtual_method_table) (vtable) for the `Pet` "
"implementation of that particular object."
msgstr ""
"ファットポインタはdouble-widthポインタです。これは二つの要素からなります:実"
"際のオブジェクトへのポインタと、そのオブジェクトの`Pet`の実装のための[仮想関"
"数テーブル](https://ja.wikipedia.org/wiki/"
"%E4%BB%AE%E6%83%B3%E9%96%A2%E6%95%B0%E3%83%86%E3%83%BC%E3%83%96%E3%83%AB) "
"(vtable)です。"
#: src/traits/trait-objects.md:77
msgid ""
"The data for the `Dog` named Fido is the `name` and `age` fields. The `Cat` "
"has a `lives` field."
msgstr ""
"\"Fido\"と名付けられた`Dog`のデータは`name` と `age` のフィールドに対応しま"
"す。(訳注: \"Fido\"とはよくある犬の愛称で、日本語でいう「ポチ」のような名前"
"です。)例の`Cat`には`lives` フィールドがあります。(訳注: ここで`Cat`が"
"`lives`というフィールドを持ち、9で初期化しているのは\"A cat has nine lives\" "
"—猫は9つの命を持つ—ということわざに由来します。)"
#: src/traits/trait-objects.md:79
msgid "Compare these outputs in the above example:"
msgstr "上の例において、下のコードによる出力結果を比べてみましょう:"
#: src/traits/trait-objects.md:81 src/traits/trait-objects.md:82
#: src/traits/closures.md:54
msgid "\"{} {}\""
msgstr ""
#: src/traits/trait-objects.md:83 src/traits/trait-objects.md:84
#: src/testing/test-modules.md:12 src/android/build-rules/library.md:44
#: src/async/pitfalls/cancellation.md:59
#: src/exercises/day-3/solutions-morning.md:128
msgid "\"{}\""
msgstr ""
#: src/traits/deriving-traits.md:3
msgid ""
"Rust derive macros work by automatically generating code that implements the "
"specified traits for a data structure."
msgstr ""
"Rustのderiveマクロは、データ構造体に対して、指定されたトレイトを実装するコー"
"ドを自動的に生成します。"
#: src/traits/deriving-traits.md:5
msgid "You can let the compiler derive a number of traits as follows:"
msgstr "コンパイラには、以下のような多くのトレイトを導出させることができます:"
#: src/traits/deriving-traits.md:18
msgid "\"Is {:?}\\nequal to {:?}?\\nThe answer is {}!\""
msgstr ""
#: src/traits/deriving-traits.md:19
#: src/exercises/day-1/solutions-afternoon.md:37
msgid "\"yes\""
msgstr ""
#: src/traits/deriving-traits.md:19
#: src/exercises/day-1/solutions-afternoon.md:37
msgid "\"no\""
msgstr ""
#: src/traits/default-methods.md:3
msgid "Traits can implement behavior in terms of other trait methods:"
msgstr ""
"トレイトでは、別のトレイトメソッドを用いて挙動を定義することが可能です:"
#: src/traits/default-methods.md:25
msgid "\"{a:?} equals {b:?}: {}\""
msgstr ""
#: src/traits/default-methods.md:26
msgid "\"{a:?} not_equals {b:?}: {}\""
msgstr ""
#: src/traits/default-methods.md:32
msgid ""
"Traits may specify pre-implemented (default) methods and methods that users "
"are required to implement themselves. Methods with default implementations "
"can rely on required methods."
msgstr ""
"トレイトは予め実装された(デフォルトの)メソッドと、ユーザが自身で実装する必"
"要のあるメソッドを指定することができます。デフォルトの実装のあるメソッドは、"
"その定義を実装必須のメソットに依存することができます。"
#: src/traits/default-methods.md:35
msgid "Move method `not_equals` to a new trait `NotEquals`."
msgstr ""
"メソッド `not_equals` を新しいトレイト `NotEquals` に移してみましょう。"
#: src/traits/default-methods.md:37
msgid "Make `Equals` a super trait for `NotEquals`."
msgstr "`Equals` を `NotEquals` のスーパートレイトにしてみましょう。"
#: src/traits/default-methods.md:46
msgid "Provide a blanket implementation of `NotEquals` for `Equals`."
msgstr "`Equals`に対する`NotEquals`のブランケット実装を示してみましょう。"
#: src/traits/default-methods.md:58
msgid ""
"With the blanket implementation, you no longer need `Equals` as a super "
"trait for `NotEqual`."
msgstr ""
"ブランケット実装を用いれば、`Equals` を`NotEqual`のスーパートレイトとする必要"
"はなくなります。"
#: src/traits/trait-bounds.md:3
msgid ""
"When working with generics, you often want to require the types to implement "
"some trait, so that you can call this trait's methods."
msgstr ""
"ジェネリクスを用いるとき、あるトレイトのメソッドを呼び出せるように、型がその"
"トレイトを実装していることを要求したいことがよくあります。(脚注:本教材では"
"\"Trait bounds\"を「トレイト制約」と翻訳しましたが、Rustの日本語翻訳コミュニ"
"ティでは「トレイト境界」と呼ぶ流派もあり、どちらの翻訳を採用するかについては"
"[議論がなされています](https://github.com/rust-lang-ja/book-ja/"
"issues/172)。)"
#: src/traits/trait-bounds.md:6
msgid "You can do this with `T: Trait` or `impl Trait`:"
msgstr "そうしたことは`T: Trait` や `impl Trait`を用いて行えます:"
#: src/traits/trait-bounds.md:12
msgid ""
"// Syntactic sugar for:\n"
"// fn add_42_millions<T: Into<i32>>(x: T) -> i32 {\n"
msgstr ""
#: src/traits/trait-bounds.md:18
msgid "// struct NotClonable;\n"
msgstr ""
#: src/traits/trait-bounds.md:24
msgid "\"{pair:?}\""
msgstr ""
#: src/traits/trait-bounds.md:27
msgid "\"{many}\""
msgstr ""
#: src/traits/trait-bounds.md:29
msgid "\"{many_more}\""
msgstr ""
"```rust,editable\n"
"fn duplicate<T: Clone>(a: T) -> (T, T) {\n"
" (a.clone(), a.clone())\n"
"}\n"
"\n"
"// 以下の糖衣構文です:\n"
"// fn add_42_millions<T: Into<i32>>(x: T) -> i32 {\n"
"fn add_42_millions(x: impl Into<i32>) -> i32 {\n"
" x.into() + 42_000_000\n"
"}\n"
"\n"
"// struct NotClonable;\n"
"\n"
"fn main() {\n"
" let foo = String::from(\"foo\");\n"
" let pair = duplicate(foo);\n"
" println!(\"{pair:?}\");\n"
"\n"
" let many = add_42_millions(42_i8);\n"
" println!(\"{many}\");\n"
" let many_more = add_42_millions(10_000_000);\n"
" println!(\"{many_more}\");\n"
"}\n"
"```"
#: src/traits/trait-bounds.md:35
msgid "Show a `where` clause, students will encounter it when reading code."
msgstr ""
"`where` 節の使い方を示しましょう。受講生はコードを読んでいるときに、この"
"`where`節に遭遇します。"
#: src/traits/trait-bounds.md:46
msgid "It declutters the function signature if you have many parameters."
msgstr ""
"たくさんのパラメタがある場合に、`where`節は関数のシグネチャを整理整頓してくれ"
"ます。"
#: src/traits/trait-bounds.md:47
msgid "It has additional features making it more powerful."
msgstr "`where`節には更に強力な機能があります。"
#: src/traits/trait-bounds.md:48
msgid ""
"If someone asks, the extra feature is that the type on the left of \":\" can "
"be arbitrary, like `Option<T>`."
msgstr ""
"誰かに聞かれた場合で良いですが、その機能というのは、\":\" の左側には "
"`Option<T>` のように任意の型を表現できるというものです。"
#: src/traits/impl-trait.md:1
msgid "`impl Trait`"
msgstr ""
#: src/traits/impl-trait.md:3
msgid ""
"Similar to trait bounds, an `impl Trait` syntax can be used in function "
"arguments and return values:"
msgstr ""
"トレイト境界と似たように、構文 `impl Trait`は関数の引数と返り値においてのみ利"
"用可能です:"
#: src/traits/impl-trait.md:19
msgid "`impl Trait` allows you to work with types which you cannot name."
msgstr "`impl Trait`を用いれば、型名を明示せずに型を限定することができます。"
#: src/traits/impl-trait.md:23
msgid ""
"The meaning of `impl Trait` is a bit different in the different positions."
msgstr "`impl Trait`の意味は、位置によって少し異なります。"
#: src/traits/impl-trait.md:25
msgid ""
"For a parameter, `impl Trait` is like an anonymous generic parameter with a "
"trait bound."
msgstr ""
"パラメタに対しては、`impl Trait`は、トレイト境界を持つ匿名のジェネリックパラ"
"メタのようなものです。"
#: src/traits/impl-trait.md:27
msgid ""
"For a return type, it means that the return type is some concrete type that "
"implements the trait, without naming the type. This can be useful when you "
"don't want to expose the concrete type in a public API."
msgstr ""
"返り値の型に用いる場合は、特定のトレイトを実装する何らかの具象型を返すが、具"
"体的な型名は明示しないということを意味します。このことは公開されるAPIに具象型"
"を晒したくない場合に便利です。"
#: src/traits/impl-trait.md:31
msgid ""
"Inference is hard in return position. A function returning `impl Foo` picks "
"the concrete type it returns, without writing it out in the source. A "
"function returning a generic type like `collect<B>() -> B` can return any "
"type satisfying `B`, and the caller may need to choose one, such as with "
"`let x: Vec<_> = foo.collect()` or with the turbofish, `foo.collect::"
"<Vec<_>>()`."
msgstr ""
"返り値の位置における型推論は困難です。`impl Foo`を返す関数は、それが返す具象"
"型はソースコードに書かれることないまま、具象型を選びます。`collect<B>() -> B`"
"のようなジェネリック型を返す関数は、`B`を満たすどのような型でも返すことがあり"
"ます。 また、関数の呼び出し元はそのような型を一つを選ぶ必要があるかもしれませ"
"ん。 それは、 `let x: Vec<_> = foo.collect()`としたり、turbofishを用いて`foo."
"collect::<Vec<_>>()`とすることで行えます。"
#: src/traits/impl-trait.md:37
msgid ""
"This example is great, because it uses `impl Display` twice. It helps to "
"explain that nothing here enforces that it is _the same_ `impl Display` "
"type. If we used a single `T: Display`, it would enforce the constraint "
"that input `T` and return `T` type are the same type. It would not work for "
"this particular function, as the type we expect as input is likely not what "
"`format!` returns. If we wanted to do the same via `: Display` syntax, we'd "
"need two independent generic parameters."
msgstr ""
"この例は素晴らしい例です。なぜなら、 `impl Display`を2回用いているからで"
"す。 ここでは `impl Display` の型が同一になることを強制するものはない、という"
"説明をするのに役立ちます。もし単一の`T: Display`を用いた場合、入力の`T`と返り"
"値の`T`が同一の型であることが強制されてしまいます。例で示した関数ではうまくい"
"かないでしょう。なぜなら、我々が期待する入力の型は、`format!`が返すものではお"
"そらくないからです。もしも同じことを`: Display`の構文で行いたい場合、2つの独"
"立したジェネリックなパラメタが必要となるでしょう。"
#: src/traits/important-traits.md:3
msgid ""
"We will now look at some of the most common traits of the Rust standard "
"library:"
msgstr ""
#: src/traits/important-traits.md:5
msgid ""
"[`Iterator`](https://doc.rust-lang.org/std/iter/trait.Iterator.html) and "
"[`IntoIterator`](https://doc.rust-lang.org/std/iter/trait.IntoIterator.html) "
"used in `for` loops,"
msgstr ""
#: src/traits/important-traits.md:6
msgid ""
"[`From`](https://doc.rust-lang.org/std/convert/trait.From.html) and [`Into`]"
"(https://doc.rust-lang.org/std/convert/trait.Into.html) used to convert "
"values,"
msgstr ""
#: src/traits/important-traits.md:7
msgid ""
"[`Read`](https://doc.rust-lang.org/std/io/trait.Read.html) and [`Write`]"
"(https://doc.rust-lang.org/std/io/trait.Write.html) used for IO,"
msgstr ""
#: src/traits/important-traits.md:8
msgid ""
"[`Add`](https://doc.rust-lang.org/std/ops/trait.Add.html), [`Mul`](https://"
"doc.rust-lang.org/std/ops/trait.Mul.html), ... used for operator "
"overloading, and"
msgstr ""
#: src/traits/important-traits.md:9
msgid ""
"[`Drop`](https://doc.rust-lang.org/std/ops/trait.Drop.html) used for "
"defining destructors."
msgstr ""
#: src/traits/important-traits.md:10
msgid ""
"[`Default`](https://doc.rust-lang.org/std/default/trait.Default.html) used "
"to construct a default instance of a type."
msgstr ""
#: src/traits/iterator.md:1
msgid "Iterators"
msgstr ""
#: src/traits/iterator.md:3
msgid ""
"You can implement the [`Iterator`](https://doc.rust-lang.org/std/iter/trait."
"Iterator.html) trait on your own types:"
msgstr ""
#: src/traits/iterator.md:25
msgid "\"fib({i}): {n}\""
msgstr ""
#: src/traits/iterator.md:32
msgid ""
"The `Iterator` trait implements many common functional programming "
"operations over collections (e.g. `map`, `filter`, `reduce`, etc). This is "
"the trait where you can find all the documentation about them. In Rust these "
"functions should produce the code as efficient as equivalent imperative "
"implementations."
msgstr ""
#: src/traits/iterator.md:37
msgid ""
"`IntoIterator` is the trait that makes for loops work. It is implemented by "
"collection types such as `Vec<T>` and references to them such as `&Vec<T>` "
"and `&[T]`. Ranges also implement it. This is why you can iterate over a "
"vector with `for i in some_vec { .. }` but `some_vec.next()` doesn't exist."
msgstr ""
#: src/traits/from-iterator.md:3
msgid ""
"[`FromIterator`](https://doc.rust-lang.org/std/iter/trait.FromIterator.html) "
"lets you build a collection from an [`Iterator`](https://doc.rust-lang.org/"
"std/iter/trait.Iterator.html)."
msgstr ""
#: src/traits/from-iterator.md:12
msgid "\"prime_squares: {prime_squares:?}\""
msgstr ""
#: src/traits/from-iterator.md:18
msgid ""
"`Iterator` implements `fn collect<B>(self) -> B where B: FromIterator<Self::"
"Item>, Self: Sized`"
msgstr ""
#: src/traits/from-iterator.md:24
msgid ""
"There are also implementations which let you do cool things like convert an "
"`Iterator<Item = Result<V, E>>` into a `Result<Vec<V>, E>`."
msgstr ""
#: src/traits/from-into.md:1
msgid "`From` and `Into`"
msgstr ""
#: src/traits/from-into.md:3
msgid ""
"Types implement [`From`](https://doc.rust-lang.org/std/convert/trait.From."
"html) and [`Into`](https://doc.rust-lang.org/std/convert/trait.Into.html) to "
"facilitate type conversions:"
msgstr ""
#: src/traits/from-into.md:11 src/traits/from-into.md:23
msgid "\"{s}, {addr}, {one}, {bigger}\""
msgstr ""
#: src/traits/from-into.md:15
msgid ""
"[`Into`](https://doc.rust-lang.org/std/convert/trait.Into.html) is "
"automatically implemented when [`From`](https://doc.rust-lang.org/std/"
"convert/trait.From.html) is implemented:"
msgstr ""
#: src/traits/from-into.md:29
msgid ""
"That's why it is common to only implement `From`, as your type will get "
"`Into` implementation too."
msgstr ""
#: src/traits/from-into.md:30
msgid ""
"When declaring a function argument input type like \"anything that can be "
"converted into a `String`\", the rule is opposite, you should use `Into`. "
"Your function will accept types that implement `From` and those that _only_ "
"implement `Into`."
msgstr ""
#: src/traits/read-write.md:1
msgid "`Read` and `Write`"
msgstr ""
#: src/traits/read-write.md:3
msgid ""
"Using [`Read`](https://doc.rust-lang.org/std/io/trait.Read.html) and "
"[`BufRead`](https://doc.rust-lang.org/std/io/trait.BufRead.html), you can "
"abstract over `u8` sources:"
msgstr ""
#: src/traits/read-write.md:14
msgid "b\"foo\\nbar\\nbaz\\n\""
msgstr ""
#: src/traits/read-write.md:15
msgid "\"lines in slice: {}\""
msgstr ""
#: src/traits/read-write.md:18
msgid "\"lines in file: {}\""
msgstr ""
#: src/traits/read-write.md:23
msgid ""
"Similarly, [`Write`](https://doc.rust-lang.org/std/io/trait.Write.html) lets "
"you abstract over `u8` sinks:"
msgstr ""
#: src/traits/read-write.md:30
msgid "\"\\n\""
msgstr ""
#: src/traits/read-write.md:37
msgid "\"Logged: {:?}\""
msgstr ""
#: src/traits/drop.md:1
msgid "The `Drop` Trait"
msgstr ""
#: src/traits/drop.md:3
msgid ""
"Values which implement [`Drop`](https://doc.rust-lang.org/std/ops/trait.Drop."
"html) can specify code to run when they go out of scope:"
msgstr ""
#: src/traits/drop.md:12
msgid "\"Dropping {}\""
msgstr ""
#: src/traits/drop.md:17 src/exercises/concurrency/link-checker.md:92
#: src/exercises/day-1/solutions-morning.md:86
#: src/exercises/concurrency/solutions-morning.md:123
msgid "\"a\""
msgstr ""
#: src/traits/drop.md:19 src/exercises/day-1/solutions-morning.md:86
msgid "\"b\""
msgstr ""
#: src/traits/drop.md:21 src/exercises/day-1/solutions-morning.md:86
msgid "\"c\""
msgstr ""
#: src/traits/drop.md:22 src/exercises/day-1/solutions-morning.md:86
msgid "\"d\""
msgstr ""
#: src/traits/drop.md:23
msgid "\"Exiting block B\""
msgstr ""
#: src/traits/drop.md:25
msgid "\"Exiting block A\""
msgstr ""
#: src/traits/drop.md:28
msgid "\"Exiting main\""
msgstr ""
#: src/traits/drop.md:34
msgid "Note that `std::mem::drop` is not the same as `std::ops::Drop::drop`."
msgstr ""
#: src/traits/drop.md:35
msgid "Values are automatically dropped when they go out of scope."
msgstr ""
#: src/traits/drop.md:36
msgid ""
"When a value is dropped, if it implements `std::ops::Drop` then its `Drop::"
"drop` implementation will be called."
msgstr ""
#: src/traits/drop.md:38
msgid ""
"All its fields will then be dropped too, whether or not it implements `Drop`."
msgstr ""
#: src/traits/drop.md:39
msgid ""
"`std::mem::drop` is just an empty function that takes any value. The "
"significance is that it takes ownership of the value, so at the end of its "
"scope it gets dropped. This makes it a convenient way to explicitly drop "
"values earlier than they would otherwise go out of scope."
msgstr ""
#: src/traits/drop.md:42
msgid ""
"This can be useful for objects that do some work on `drop`: releasing locks, "
"closing files, etc."
msgstr ""
#: src/traits/drop.md:45 src/traits/operators.md:26
msgid "Discussion points:"
msgstr ""
#: src/traits/drop.md:47
msgid "Why doesn't `Drop::drop` take `self`?"
msgstr ""
#: src/traits/drop.md:48
msgid ""
"Short-answer: If it did, `std::mem::drop` would be called at the end of the "
"block, resulting in another call to `Drop::drop`, and a stack overflow!"
msgstr ""
#: src/traits/drop.md:51
msgid "Try replacing `drop(a)` with `a.drop()`."
msgstr ""
#: src/traits/default.md:1
msgid "The `Default` Trait"
msgstr ""
#: src/traits/default.md:3
msgid ""
"[`Default`](https://doc.rust-lang.org/std/default/trait.Default.html) trait "
"produces a default value for a type."
msgstr ""
#: src/traits/default.md:18
msgid "\"John Smith\""
msgstr ""
#: src/traits/default.md:24
msgid "\"{default_struct:#?}\""
msgstr ""
#: src/traits/default.md:27
msgid "\"Y is set!\""
msgstr ""
#: src/traits/default.md:30
msgid "\"{almost_default_struct:#?}\""
msgstr ""
#: src/traits/default.md:33
msgid "\"{:#?}\""
msgstr ""
#: src/traits/default.md:40
msgid ""
"It can be implemented directly or it can be derived via `#[derive(Default)]`."
msgstr ""
#: src/traits/default.md:41
msgid ""
"A derived implementation will produce a value where all fields are set to "
"their default values."
msgstr ""
#: src/traits/default.md:42
msgid "This means all types in the struct must implement `Default` too."
msgstr ""
#: src/traits/default.md:43
msgid ""
"Standard Rust types often implement `Default` with reasonable values (e.g. "
"`0`, `\"\"`, etc)."
msgstr ""
#: src/traits/default.md:44
msgid "The partial struct copy works nicely with default."
msgstr ""
#: src/traits/default.md:45
msgid ""
"Rust standard library is aware that types can implement `Default` and "
"provides convenience methods that use it."
msgstr ""
#: src/traits/default.md:46
msgid ""
"the `..` syntax is called [struct update syntax](https://doc.rust-lang.org/"
"book/ch05-01-defining-structs.html#creating-instances-from-other-instances-"
"with-struct-update-syntax)"
msgstr ""
#: src/traits/operators.md:1
msgid "`Add`, `Mul`, ..."
msgstr ""
#: src/traits/operators.md:3
msgid ""
"Operator overloading is implemented via traits in [`std::ops`](https://doc."
"rust-lang.org/std/ops/index.html):"
msgstr ""
#: src/traits/operators.md:20
msgid "\"{:?} + {:?} = {:?}\""
msgstr ""
#: src/traits/operators.md:28
msgid ""
"You could implement `Add` for `&Point`. In which situations is that useful? "
msgstr ""
#: src/traits/operators.md:29
msgid ""
"Answer: `Add:add` consumes `self`. If type `T` for which you are overloading "
"the operator is not `Copy`, you should consider overloading the operator for "
"`&T` as well. This avoids unnecessary cloning on the call site."
msgstr ""
#: src/traits/operators.md:33
msgid ""
"Why is `Output` an associated type? Could it be made a type parameter of the "
"method?"
msgstr ""
#: src/traits/operators.md:34
msgid ""
"Short answer: Function type parameters are controlled by the caller, but "
"associated types (like `Output`) are controlled by the implementor of a "
"trait."
msgstr ""
#: src/traits/operators.md:37
msgid ""
"You could implement `Add` for two different types, e.g. `impl Add<(i32, "
"i32)> for Point` would add a tuple to a `Point`."
msgstr ""
#: src/traits/closures.md:1
msgid "Closures"
msgstr ""
#: src/traits/closures.md:3
msgid ""
"Closures or lambda expressions have types which cannot be named. However, "
"they implement special [`Fn`](https://doc.rust-lang.org/std/ops/trait.Fn."
"html), [`FnMut`](https://doc.rust-lang.org/std/ops/trait.FnMut.html), and "
"[`FnOnce`](https://doc.rust-lang.org/std/ops/trait.FnOnce.html) traits:"
msgstr ""
#: src/traits/closures.md:10
msgid "\"Calling function on {input}\""
msgstr ""
#: src/traits/closures.md:16 src/traits/closures.md:17
msgid "\"add_3: {}\""
msgstr ""
#: src/traits/closures.md:24 src/traits/closures.md:25
msgid "\"accumulate: {}\""
msgstr ""
#: src/traits/closures.md:28
msgid "\"multiply_sum: {}\""
msgstr ""
#: src/traits/closures.md:34
msgid ""
"An `Fn` (e.g. `add_3`) neither consumes nor mutates captured values, or "
"perhaps captures nothing at all. It can be called multiple times "
"concurrently."
msgstr ""
#: src/traits/closures.md:37
msgid ""
"An `FnMut` (e.g. `accumulate`) might mutate captured values. You can call it "
"multiple times, but not concurrently."
msgstr ""
#: src/traits/closures.md:40
msgid ""
"If you have an `FnOnce` (e.g. `multiply_sum`), you may only call it once. It "
"might consume captured values."
msgstr ""
#: src/traits/closures.md:43
msgid ""
"`FnMut` is a subtype of `FnOnce`. `Fn` is a subtype of `FnMut` and `FnOnce`. "
"I.e. you can use an `FnMut` wherever an `FnOnce` is called for, and you can "
"use an `Fn` wherever an `FnMut` or `FnOnce` is called for."
msgstr ""
#: src/traits/closures.md:47
msgid ""
"The compiler also infers `Copy` (e.g. for `add_3`) and `Clone` (e.g. "
"`multiply_sum`), depending on what the closure captures."
msgstr ""
#: src/traits/closures.md:50
msgid ""
"By default, closures will capture by reference if they can. The `move` "
"keyword makes them capture by value."
msgstr ""
#: src/traits/closures.md:58
msgid "\"Hi\""
msgstr ""
#: src/traits/closures.md:59
msgid "\"there\""
msgstr ""
#: src/exercises/day-3/morning.md:1
msgid "Day 3: Morning Exercises"
msgstr ""
#: src/exercises/day-3/morning.md:3
msgid "We will design a classical GUI library using traits and trait objects."
msgstr ""
#: src/exercises/day-3/morning.md:5
msgid ""
"We will also look at enum dispatch with an exercise involving points and "
"polygons."
msgstr ""
#: src/exercises/day-3/simple-gui.md:1
#: src/exercises/day-3/solutions-morning.md:3
#, fuzzy
msgid "Drawing A Simple GUI"
msgstr "GUIライブラリ"
#: src/exercises/day-3/simple-gui.md:3
msgid ""
"Let us design a classical GUI library using our new knowledge of traits and "
"trait objects. We'll only implement the drawing of it (as text) for "
"simplicity."
msgstr ""
#: src/exercises/day-3/simple-gui.md:6
msgid "We will have a number of widgets in our library:"
msgstr ""
#: src/exercises/day-3/simple-gui.md:8
msgid "`Window`: has a `title` and contains other widgets."
msgstr ""
#: src/exercises/day-3/simple-gui.md:9
msgid ""
"`Button`: has a `label`. In reality, it would also take a callback function "
"to allow the program to do something when the button is clicked but we won't "
"include that since we're only drawing the GUI."
msgstr ""
#: src/exercises/day-3/simple-gui.md:12
msgid "`Label`: has a `label`."
msgstr ""
#: src/exercises/day-3/simple-gui.md:14
msgid "The widgets will implement a `Widget` trait, see below."
msgstr ""
#: src/exercises/day-3/simple-gui.md:16
msgid ""
"Copy the code below to <https://play.rust-lang.org/>, fill in the missing "
"`draw_into` methods so that you implement the `Widget` trait:"
msgstr ""
#: src/exercises/day-3/simple-gui.md:24
#: src/exercises/day-3/solutions-morning.md:9
msgid "/// Natural width of `self`.\n"
msgstr ""
#: src/exercises/day-3/simple-gui.md:27
#: src/exercises/day-3/solutions-morning.md:12
msgid "/// Draw the widget into a buffer.\n"
msgstr ""
#: src/exercises/day-3/simple-gui.md:30
#: src/exercises/day-3/solutions-morning.md:15
msgid "/// Draw the widget on standard output.\n"
msgstr ""
#: src/exercises/day-3/simple-gui.md:34
#: src/exercises/day-3/solutions-morning.md:19
msgid "\"{buffer}\""
msgstr ""
#: src/exercises/day-3/simple-gui.md:119
#: src/exercises/day-3/solutions-morning.md:133
msgid "\"Rust GUI Demo 1.23\""
msgstr ""
#: src/exercises/day-3/simple-gui.md:120
#: src/exercises/day-3/solutions-morning.md:134
msgid "\"This is a small text GUI demo.\""
msgstr ""
#: src/exercises/day-3/simple-gui.md:122
#: src/exercises/day-3/solutions-morning.md:136
msgid "\"Click me!\""
msgstr ""
#: src/exercises/day-3/simple-gui.md:128
msgid "The output of the above program can be something simple like this:"
msgstr ""
#: src/exercises/day-3/simple-gui.md:140
msgid ""
"If you want to draw aligned text, you can use the [fill/alignment](https://"
"doc.rust-lang.org/std/fmt/index.html#fillalignment) formatting operators. In "
"particular, notice how you can pad with different characters (here a `'/'`) "
"and how you can control alignment:"
msgstr ""
#: src/exercises/day-3/simple-gui.md:148
msgid "\"left aligned: |{:/<width$}|\""
msgstr ""
#: src/exercises/day-3/simple-gui.md:149
msgid "\"centered: |{:/^width$}|\""
msgstr ""
#: src/exercises/day-3/simple-gui.md:150
msgid "\"right aligned: |{:/>width$}|\""
msgstr ""
#: src/exercises/day-3/simple-gui.md:154
msgid ""
"Using such alignment tricks, you can for example produce output like this:"
msgstr ""
#: src/exercises/day-3/points-polygons.md:1
msgid "Polygon Struct"
msgstr ""
#: src/exercises/day-3/points-polygons.md:3
msgid ""
"We will create a `Polygon` struct which contain some points. Copy the code "
"below to <https://play.rust-lang.org/> and fill in the missing methods to "
"make the tests pass:"
msgstr ""
#: src/exercises/day-3/points-polygons.md:12
#: src/exercises/day-3/points-polygons.md:20
#: src/exercises/day-3/points-polygons.md:28
msgid "// add fields\n"
msgstr ""
#: src/exercises/day-3/points-polygons.md:16
#: src/exercises/day-3/points-polygons.md:24
#: src/exercises/day-3/points-polygons.md:32
msgid "// add methods\n"
msgstr ""
#: src/exercises/day-3/points-polygons.md:117
msgid ""
"Since the method signatures are missing from the problem statements, the key "
"part of the exercise is to specify those correctly. You don't have to modify "
"the tests."
msgstr ""
#: src/exercises/day-3/points-polygons.md:120
msgid "Other interesting parts of the exercise:"
msgstr ""
#: src/exercises/day-3/points-polygons.md:122
msgid ""
"Derive a `Copy` trait for some structs, as in tests the methods sometimes "
"don't borrow their arguments."
msgstr ""
#: src/exercises/day-3/points-polygons.md:123
msgid ""
"Discover that `Add` trait must be implemented for two objects to be addable "
"via \"+\". Note that we do not discuss generics until Day 3."
msgstr ""
#: src/error-handling.md:3
msgid "Error handling in Rust is done using explicit control flow:"
msgstr ""
#: src/error-handling.md:5
msgid "Functions that can have errors list this in their return type,"
msgstr ""
#: src/error-handling.md:6
msgid "There are no exceptions."
msgstr ""
#: src/error-handling/panics.md:3
msgid "Rust will trigger a panic if a fatal error happens at runtime:"
msgstr ""
#: src/error-handling/panics.md:8
msgid "\"v[100]: {}\""
msgstr ""
#: src/error-handling/panics.md:12
msgid "Panics are for unrecoverable and unexpected errors."
msgstr ""
#: src/error-handling/panics.md:13
msgid "Panics are symptoms of bugs in the program."
msgstr ""
#: src/error-handling/panics.md:14
msgid ""
"Use non-panicking APIs (such as `Vec::get`) if crashing is not acceptable."
msgstr ""
#: src/error-handling/panic-unwind.md:1
msgid "Catching the Stack Unwinding"
msgstr ""
#: src/error-handling/panic-unwind.md:3
msgid ""
"By default, a panic will cause the stack to unwind. The unwinding can be "
"caught:"
msgstr ""
#: src/error-handling/panic-unwind.md:10
msgid "\"No problem here!\""
msgstr ""
#: src/error-handling/panic-unwind.md:12 src/error-handling/panic-unwind.md:17
msgid "\"{result:?}\""
msgstr ""
#: src/error-handling/panic-unwind.md:15
msgid "\"oh no!\""
msgstr ""
#: src/error-handling/panic-unwind.md:21
msgid ""
"This can be useful in servers which should keep running even if a single "
"request crashes."
msgstr ""
#: src/error-handling/panic-unwind.md:23
msgid "This does not work if `panic = 'abort'` is set in your `Cargo.toml`."
msgstr ""
#: src/error-handling/result.md:1
msgid "Structured Error Handling with `Result`"
msgstr ""
#: src/error-handling/result.md:3
msgid ""
"We have already seen the `Result` enum. This is used pervasively when errors "
"are expected as part of normal operation:"
msgstr ""
#: src/error-handling/result.md:11
msgid "\"diary.txt\""
msgstr ""
#: src/error-handling/result.md:16
msgid "\"Dear diary: {contents}\""
msgstr ""
#: src/error-handling/result.md:19
msgid "\"The diary could not be opened: {err}\""
msgstr ""
#: src/error-handling/result.md:27
msgid ""
"As with `Option`, the successful value sits inside of `Result`, forcing the "
"developer to explicitly extract it. This encourages error checking. In the "
"case where an error should never happen, `unwrap()` or `expect()` can be "
"called, and this is a signal of the developer intent too."
msgstr ""
#: src/error-handling/result.md:30
msgid ""
"`Result` documentation is a recommended read. Not during the course, but it "
"is worth mentioning. It contains a lot of convenience methods and functions "
"that help functional-style programming. "
msgstr ""
#: src/error-handling/try-operator.md:1
msgid "Propagating Errors with `?`"
msgstr ""
#: src/error-handling/try-operator.md:3
msgid ""
"The try-operator `?` is used to return errors to the caller. It lets you "
"turn the common"
msgstr ""
#: src/error-handling/try-operator.md:13
msgid "into the much simpler"
msgstr ""
#: src/error-handling/try-operator.md:19
msgid "We can use this to simplify our error handling code:"
msgstr ""
#: src/error-handling/try-operator.md:40
msgid "//fs::write(\"config.dat\", \"alice\").unwrap();\n"
msgstr ""
#: src/error-handling/try-operator.md:41
#: src/error-handling/converting-error-types-example.md:43
#: src/error-handling/deriving-error-enums.md:30
#: src/error-handling/dynamic-errors.md:27
#: src/error-handling/error-contexts.md:26
msgid "\"config.dat\""
msgstr ""
#: src/error-handling/try-operator.md:42
#: src/error-handling/converting-error-types-example.md:44
msgid "\"username or error: {username:?}\""
msgstr ""
#: src/error-handling/try-operator.md:50
#: src/error-handling/converting-error-types-example.md:52
msgid "The `username` variable can be either `Ok(string)` or `Err(error)`."
msgstr ""
#: src/error-handling/try-operator.md:51
#: src/error-handling/converting-error-types-example.md:53
msgid ""
"Use the `fs::write` call to test out the different scenarios: no file, empty "
"file, file with username."
msgstr ""
#: src/error-handling/try-operator.md:52
msgid ""
"The return type of the function has to be compatible with the nested "
"functions it calls. For instance, a function returning a `Result<T, Err>` "
"can only apply the `?` operator on a function returning a `Result<AnyT, "
"Err>`. It cannot apply the `?` operator on a function returning an "
"`Option<AnyT>` or `Result<T, OtherErr>` unless `OtherErr` implements "
"`From<Err>`. Reciprocally, a function returning an `Option<T>` can only "
"apply the `?` operator on a function returning an `Option<AnyT>`."
msgstr ""
#: src/error-handling/try-operator.md:57
msgid ""
"You can convert incompatible types into one another with the different "
"`Option` and `Result` methods such as `Option::ok_or`, `Result::ok`, "
"`Result::err`."
msgstr ""
#: src/error-handling/converting-error-types.md:3
msgid ""
"The effective expansion of `?` is a little more complicated than previously "
"indicated:"
msgstr ""
#: src/error-handling/converting-error-types.md:9
msgid "works the same as"
msgstr ""
#: src/error-handling/converting-error-types.md:18
msgid ""
"The `From::from` call here means we attempt to convert the error type to the "
"type returned by the function:"
msgstr ""
#: src/error-handling/converting-error-types-example.md:20
msgid "\"IO error: {e}\""
msgstr ""
#: src/error-handling/converting-error-types-example.md:21
msgid "\"Found no username in {filename}\""
msgstr ""
#: src/error-handling/converting-error-types-example.md:42
#: src/error-handling/deriving-error-enums.md:29
#: src/error-handling/dynamic-errors.md:26
#: src/error-handling/error-contexts.md:25
msgid "//fs::write(\"config.dat\", \"\").unwrap();\n"
msgstr ""
#: src/error-handling/converting-error-types-example.md:55
msgid ""
"It is good practice for all error types that don't need to be `no_std` to "
"implement `std::error::Error`, which requires `Debug` and `Display`. The "
"`Error` crate for `core` is only available in [nightly](https://github.com/"
"rust-lang/rust/issues/103765), so not fully `no_std` compatible yet."
msgstr ""
#: src/error-handling/converting-error-types-example.md:57
msgid ""
"It's generally helpful for them to implement `Clone` and `Eq` too where "
"possible, to make life easier for tests and consumers of your library. In "
"this case we can't easily do so, because `io::Error` doesn't implement them."
msgstr ""
#: src/error-handling/deriving-error-enums.md:3
msgid ""
"The [thiserror](https://docs.rs/thiserror/) crate is a popular way to create "
"an error enum like we did on the previous page:"
msgstr ""
#: src/error-handling/deriving-error-enums.md:13
msgid "\"Could not read: {0}\""
msgstr ""
#: src/error-handling/deriving-error-enums.md:15
#: src/error-handling/dynamic-errors.md:13
msgid "\"Found no username in {0}\""
msgstr ""
#: src/error-handling/deriving-error-enums.md:31
#: src/error-handling/dynamic-errors.md:28
#: src/error-handling/error-contexts.md:27
msgid "\"Username: {username}\""
msgstr ""
#: src/error-handling/deriving-error-enums.md:32
#: src/error-handling/dynamic-errors.md:29
msgid "\"Error: {err}\""
msgstr ""
#: src/error-handling/deriving-error-enums.md:39
msgid ""
"`thiserror`'s derive macro automatically implements `std::error::Error`, and "
"optionally `Display` (if the `#[error(...)]` attributes are provided) and "
"`From` (if the `#[from]` attribute is added). It also works for structs."
msgstr ""
#: src/error-handling/deriving-error-enums.md:43
msgid "It doesn't affect your public API, which makes it good for libraries."
msgstr ""
#: src/error-handling/dynamic-errors.md:3
msgid ""
"Sometimes we want to allow any type of error to be returned without writing "
"our own enum covering all the different possibilities. `std::error::Error` "
"makes this easy."
msgstr ""
#: src/error-handling/dynamic-errors.md:36
msgid ""
"This saves on code, but gives up the ability to cleanly handle different "
"error cases differently in the program. As such it's generally not a good "
"idea to use `Box<dyn Error>` in the public API of a library, but it can be a "
"good option in a program where you just want to display the error message "
"somewhere."
msgstr ""
#: src/error-handling/error-contexts.md:3
msgid ""
"The widely used [anyhow](https://docs.rs/anyhow/) crate can help you add "
"contextual information to your errors and allows you to have fewer custom "
"error types:"
msgstr ""
#: src/error-handling/error-contexts.md:15
msgid "\"Failed to open {path}\""
msgstr ""
#: src/error-handling/error-contexts.md:17
msgid "\"Failed to read\""
msgstr ""
#: src/error-handling/error-contexts.md:19
msgid "\"Found no username in {path}\""
msgstr ""
#: src/error-handling/error-contexts.md:28
msgid "\"Error: {err:?}\""
msgstr ""
#: src/error-handling/error-contexts.md:35
msgid "`anyhow::Result<V>` is a type alias for `Result<V, anyhow::Error>`."
msgstr ""
#: src/error-handling/error-contexts.md:36
msgid ""
"`anyhow::Error` is essentially a wrapper around `Box<dyn Error>`. As such "
"it's again generally not a good choice for the public API of a library, but "
"is widely used in applications."
msgstr ""
#: src/error-handling/error-contexts.md:38
msgid ""
"Actual error type inside of it can be extracted for examination if necessary."
msgstr ""
#: src/error-handling/error-contexts.md:39
msgid ""
"Functionality provided by `anyhow::Result<T>` may be familiar to Go "
"developers, as it provides similar usage patterns and ergonomics to `(T, "
"error)` from Go."
msgstr ""
#: src/testing.md:3
msgid "Rust and Cargo come with a simple unit test framework:"
msgstr ""
#: src/testing.md:5
msgid "Unit tests are supported throughout your code."
msgstr ""
#: src/testing.md:7
msgid "Integration tests are supported via the `tests/` directory."
msgstr ""
#: src/testing/unit-tests.md:3
msgid "Mark unit tests with `#[test]`:"
msgstr ""
#: src/testing/unit-tests.md:25
msgid "\"Hello World\""
msgstr ""
#: src/testing/unit-tests.md:29
msgid "Use `cargo test` to find and run the unit tests."
msgstr ""
#: src/testing/test-modules.md:3
msgid ""
"Unit tests are often put in a nested module (run tests on the [Playground]"
"(https://play.rust-lang.org/)):"
msgstr ""
#: src/testing/test-modules.md:8
msgid "\"{a} {b}\""
msgstr ""
#: src/testing/test-modules.md:21
msgid "\"foo bar\""
msgstr ""
#: src/testing/test-modules.md:26
msgid "This lets you unit test private helpers."
msgstr ""
#: src/testing/test-modules.md:27
msgid "The `#[cfg(test)]` attribute is only active when you run `cargo test`."
msgstr ""
#: src/testing/doc-tests.md:3
msgid "Rust has built-in support for documentation tests:"
msgstr ""
#: src/testing/doc-tests.md:6
msgid ""
"/// Shortens a string to the given length.\n"
"///\n"
"/// ```\n"
"/// # use playground::shorten_string;\n"
"/// assert_eq!(shorten_string(\"Hello World\", 5), \"Hello\");\n"
"/// assert_eq!(shorten_string(\"Hello World\", 20), \"Hello World\");\n"
"/// ```\n"
msgstr ""
#: src/testing/doc-tests.md:18
msgid "Code blocks in `///` comments are automatically seen as Rust code."
msgstr ""
#: src/testing/doc-tests.md:19
msgid "The code will be compiled and executed as part of `cargo test`."
msgstr ""
#: src/testing/doc-tests.md:20
msgid ""
"Adding `# ` in the code will hide it from the docs, but will still compile/"
"run it."
msgstr ""
#: src/testing/doc-tests.md:21
msgid ""
"Test the above code on the [Rust Playground](https://play.rust-lang.org/?"
"version=stable&mode=debug&edition=2021&gist=3ce2ad13ea1302f6572cb15cd96becf0)."
msgstr ""
#: src/testing/integration-tests.md:3
msgid "If you want to test your library as a client, use an integration test."
msgstr ""
#: src/testing/integration-tests.md:5
msgid "Create a `.rs` file under `tests/`:"
msgstr ""
#: src/testing/integration-tests.md:16
msgid "These tests only have access to the public API of your crate."
msgstr ""
#: src/testing/useful-crates.md:1
msgid "Useful crates for writing tests"
msgstr ""
#: src/testing/useful-crates.md:3
msgid "Rust comes with only basic support for writing tests."
msgstr ""
#: src/testing/useful-crates.md:5
msgid "Here are some additional crates which we recommend for writing tests:"
msgstr ""
#: src/testing/useful-crates.md:7
msgid ""
"[googletest](https://docs.rs/googletest): Comprehensive test assertion "
"library in the tradition of GoogleTest for C++."
msgstr ""
#: src/testing/useful-crates.md:8
msgid "[proptest](https://docs.rs/proptest): Property-based testing for Rust."
msgstr ""
#: src/testing/useful-crates.md:9
msgid ""
"[rstest](https://docs.rs/rstest): Support for fixtures and parameterised "
"tests."
msgstr ""
#: src/unsafe.md:3
msgid "The Rust language has two parts:"
msgstr ""
#: src/unsafe.md:5
msgid "**Safe Rust:** memory safe, no undefined behavior possible."
msgstr ""
#: src/unsafe.md:6
msgid ""
"**Unsafe Rust:** can trigger undefined behavior if preconditions are "
"violated."
msgstr ""
#: src/unsafe.md:8
msgid ""
"We will be seeing mostly safe Rust in this course, but it's important to "
"know what Unsafe Rust is."
msgstr ""
#: src/unsafe.md:11
msgid ""
"Unsafe code is usually small and isolated, and its correctness should be "
"carefully documented. It is usually wrapped in a safe abstraction layer."
msgstr ""
#: src/unsafe.md:14
msgid "Unsafe Rust gives you access to five new capabilities:"
msgstr ""
#: src/unsafe.md:16
msgid "Dereference raw pointers."
msgstr ""
#: src/unsafe.md:17
msgid "Access or modify mutable static variables."
msgstr ""
#: src/unsafe.md:18
msgid "Access `union` fields."
msgstr ""
#: src/unsafe.md:19
msgid "Call `unsafe` functions, including `extern` functions."
msgstr ""
#: src/unsafe.md:20
msgid "Implement `unsafe` traits."
msgstr ""
#: src/unsafe.md:22
msgid ""
"We will briefly cover unsafe capabilities next. For full details, please see "
"[Chapter 19.1 in the Rust Book](https://doc.rust-lang.org/book/ch19-01-"
"unsafe-rust.html) and the [Rustonomicon](https://doc.rust-lang.org/nomicon/)."
msgstr ""
#: src/unsafe.md:28
msgid ""
"Unsafe Rust does not mean the code is incorrect. It means that developers "
"have turned off the compiler safety features and have to write correct code "
"by themselves. It means the compiler no longer enforces Rust's memory-safety "
"rules."
msgstr ""
#: src/unsafe/raw-pointers.md:3
msgid "Creating pointers is safe, but dereferencing them requires `unsafe`:"
msgstr ""
#: src/unsafe/raw-pointers.md:12
msgid ""
"// Safe because r1 and r2 were obtained from references and so are\n"
" // guaranteed to be non-null and properly aligned, the objects "
"underlying\n"
" // the references from which they were obtained are live throughout the\n"
" // whole unsafe block, and they are not accessed either through the\n"
" // references or concurrently through any other pointers.\n"
msgstr ""
#: src/unsafe/raw-pointers.md:18
msgid "\"r1 is: {}\""
msgstr ""
#: src/unsafe/raw-pointers.md:20
msgid "\"r2 is: {}\""
msgstr ""
#: src/unsafe/raw-pointers.md:27
msgid ""
"It is good practice (and required by the Android Rust style guide) to write "
"a comment for each `unsafe` block explaining how the code inside it "
"satisfies the safety requirements of the unsafe operations it is doing."
msgstr ""
#: src/unsafe/raw-pointers.md:31
msgid ""
"In the case of pointer dereferences, this means that the pointers must be "
"[_valid_](https://doc.rust-lang.org/std/ptr/index.html#safety), i.e.:"
msgstr ""
#: src/unsafe/raw-pointers.md:34
msgid "The pointer must be non-null."
msgstr ""
#: src/unsafe/raw-pointers.md:35
msgid ""
"The pointer must be _dereferenceable_ (within the bounds of a single "
"allocated object)."
msgstr ""
#: src/unsafe/raw-pointers.md:36
msgid "The object must not have been deallocated."
msgstr ""
#: src/unsafe/raw-pointers.md:37
msgid "There must not be concurrent accesses to the same location."
msgstr ""
#: src/unsafe/raw-pointers.md:38
msgid ""
"If the pointer was obtained by casting a reference, the underlying object "
"must be live and no reference may be used to access the memory."
msgstr ""
#: src/unsafe/raw-pointers.md:41
msgid "In most cases the pointer must also be properly aligned."
msgstr ""
#: src/unsafe/mutable-static-variables.md:3
msgid "It is safe to read an immutable static variable:"
msgstr ""
#: src/unsafe/mutable-static-variables.md:6
msgid "\"Hello, world!\""
msgstr ""
#: src/unsafe/mutable-static-variables.md:9
msgid "\"HELLO_WORLD: {HELLO_WORLD}\""
msgstr ""
#: src/unsafe/mutable-static-variables.md:13
msgid ""
"However, since data races can occur, it is unsafe to read and write mutable "
"static variables:"
msgstr ""
#: src/unsafe/mutable-static-variables.md:20
#: src/unsafe/mutable-static-variables.md:26
msgid "// Potential data race!\n"
msgstr ""
#: src/unsafe/mutable-static-variables.md:26
msgid "\"COUNTER: {COUNTER}\""
msgstr ""
#: src/unsafe/mutable-static-variables.md:32
msgid ""
"The program here is safe because it is single-threaded. However, the Rust "
"compiler is conservative and will assume the worst. Try removing the "
"`unsafe` and see how the compiler explains that it is undefined behavior to "
"mutate a static from multiple threads."
msgstr ""
#: src/unsafe/mutable-static-variables.md:36
msgid ""
"Using a mutable static is generally a bad idea, but there are some cases "
"where it might make sense in low-level `no_std` code, such as implementing a "
"heap allocator or working with some C APIs."
msgstr ""
#: src/unsafe/unions.md:3
msgid "Unions are like enums, but you need to track the active field yourself:"
msgstr ""
#: src/unsafe/unions.md:14
msgid "\"int: {}\""
msgstr ""
#: src/unsafe/unions.md:15
msgid "\"bool: {}\""
msgstr ""
#: src/unsafe/unions.md:15
msgid "// Undefined behavior!\n"
msgstr ""
#: src/unsafe/unions.md:21
msgid ""
"Unions are very rarely needed in Rust as you can usually use an enum. They "
"are occasionally needed for interacting with C library APIs."
msgstr ""
#: src/unsafe/unions.md:24
msgid ""
"If you just want to reinterpret bytes as a different type, you probably want "
"[`std::mem::transmute`](https://doc.rust-lang.org/stable/std/mem/fn."
"transmute.html) or a safe wrapper such as the [`zerocopy`](https://crates.io/"
"crates/zerocopy) crate."
msgstr ""
#: src/unsafe/calling-unsafe-functions.md:3
msgid ""
"A function or method can be marked `unsafe` if it has extra preconditions "
"you must uphold to avoid undefined behaviour:"
msgstr ""
#: src/unsafe/calling-unsafe-functions.md:8
msgid "\"🗻∈🌏\""
msgstr ""
#: src/unsafe/calling-unsafe-functions.md:10
msgid ""
"// Safe because the indices are in the correct order, within the bounds of\n"
" // the string slice, and lie on UTF-8 sequence boundaries.\n"
msgstr ""
#: src/unsafe/calling-unsafe-functions.md:13
#: src/unsafe/calling-unsafe-functions.md:14
#: src/unsafe/calling-unsafe-functions.md:15
msgid "\"emoji: {}\""
msgstr ""
#: src/unsafe/calling-unsafe-functions.md:18
msgid "\"char count: {}\""
msgstr ""
#: src/unsafe/calling-unsafe-functions.md:20
msgid ""
"// Not upholding the UTF-8 encoding requirement breaks memory safety!\n"
" // println!(\"emoji: {}\", unsafe { emojis.get_unchecked(0..3) });\n"
" // println!(\"char count: {}\", count_chars(unsafe { emojis."
"get_unchecked(0..3) }));\n"
msgstr ""
#: src/unsafe/writing-unsafe-functions.md:3
msgid ""
"You can mark your own functions as `unsafe` if they require particular "
"conditions to avoid undefined behaviour."
msgstr ""
#: src/unsafe/writing-unsafe-functions.md:7
msgid ""
"/// Swaps the values pointed to by the given pointers.\n"
"///\n"
"/// # Safety\n"
"///\n"
"/// The pointers must be valid and properly aligned.\n"
msgstr ""
#: src/unsafe/writing-unsafe-functions.md:22
msgid "// Safe because ...\n"
msgstr ""
#: src/unsafe/writing-unsafe-functions.md:27
msgid "\"a = {}, b = {}\""
msgstr ""
#: src/unsafe/writing-unsafe-functions.md:33
msgid ""
"We wouldn't actually use pointers for this because it can be done safely "
"with references."
msgstr ""
#: src/unsafe/writing-unsafe-functions.md:35
msgid ""
"Note that unsafe code is allowed within an unsafe function without an "
"`unsafe` block. We can prohibit this with `#[deny(unsafe_op_in_unsafe_fn)]`. "
"Try adding it and see what happens."
msgstr ""
#: src/unsafe/extern-functions.md:1
msgid "Calling External Code"
msgstr ""
#: src/unsafe/extern-functions.md:3
msgid ""
"Functions from other languages might violate the guarantees of Rust. Calling "
"them is thus unsafe:"
msgstr ""
#: src/unsafe/extern-functions.md:7 src/exercises/day-3/safe-ffi-wrapper.md:89
#: src/android/interoperability/with-c.md:9
#: src/android/interoperability/with-c/rust.md:15
#: src/android/interoperability/with-c/rust.md:30
#: src/bare-metal/aps/inline-assembly.md:18
#: src/bare-metal/aps/better-uart/using.md:24
#: src/bare-metal/aps/logging/using.md:23 src/exercises/bare-metal/rtc.md:46
#: src/exercises/bare-metal/rtc.md:100 src/exercises/bare-metal/rtc.md:106
#: src/exercises/bare-metal/rtc.md:113 src/exercises/bare-metal/rtc.md:119
#: src/exercises/bare-metal/rtc.md:125 src/exercises/bare-metal/rtc.md:131
#: src/exercises/bare-metal/rtc.md:137 src/exercises/bare-metal/rtc.md:143
#: src/exercises/day-3/solutions-afternoon.md:45
#: src/exercises/bare-metal/solutions-afternoon.md:43
msgid "\"C\""
msgstr ""
#: src/unsafe/extern-functions.md:13
msgid "// Undefined behavior if abs misbehaves.\n"
msgstr ""
#: src/unsafe/extern-functions.md:14
msgid "\"Absolute value of -3 according to C: {}\""
msgstr ""
#: src/unsafe/extern-functions.md:21
msgid ""
"This is usually only a problem for extern functions which do things with "
"pointers which might violate Rust's memory model, but in general any C "
"function might have undefined behaviour under any arbitrary circumstances."
msgstr ""
#: src/unsafe/extern-functions.md:25
msgid ""
"The `\"C\"` in this example is the ABI; [other ABIs are available too]"
"(https://doc.rust-lang.org/reference/items/external-blocks.html)."
msgstr ""
#: src/unsafe/unsafe-traits.md:3
msgid ""
"Like with functions, you can mark a trait as `unsafe` if the implementation "
"must guarantee particular conditions to avoid undefined behaviour."
msgstr ""
#: src/unsafe/unsafe-traits.md:6
msgid ""
"For example, the `zerocopy` crate has an unsafe trait that looks [something "
"like this](https://docs.rs/zerocopy/latest/zerocopy/trait.AsBytes.html):"
msgstr ""
#: src/unsafe/unsafe-traits.md:12
msgid ""
"/// ...\n"
"/// # Safety\n"
"/// The type must have a defined representation and no padding.\n"
msgstr ""
#: src/unsafe/unsafe-traits.md:23
msgid "// Safe because u32 has a defined representation and no padding.\n"
msgstr ""
#: src/unsafe/unsafe-traits.md:30
msgid ""
"There should be a `# Safety` section on the Rustdoc for the trait explaining "
"the requirements for the trait to be safely implemented."
msgstr ""
#: src/unsafe/unsafe-traits.md:33
msgid ""
"The actual safety section for `AsBytes` is rather longer and more "
"complicated."
msgstr ""
#: src/unsafe/unsafe-traits.md:35
msgid "The built-in `Send` and `Sync` traits are unsafe."
msgstr ""
#: src/exercises/day-3/afternoon.md:1
msgid "Day 3: Afternoon Exercises"
msgstr ""
#: src/exercises/day-3/afternoon.md:3
msgid "Let us build a safe wrapper for reading directory content!"
msgstr ""
#: src/exercises/day-3/afternoon.md:5
msgid ""
"For this exercise, we suggest using a local dev environment instead of the "
"Playground. This will allow you to run your binary on your own machine."
msgstr ""
#: src/exercises/day-3/afternoon.md:8
msgid ""
"To get started, follow the [running locally](../../cargo/running-locally.md) "
"instructions."
msgstr ""
#: src/exercises/day-3/afternoon.md:14
msgid ""
"After looking at the exercise, you can look at the [solution](solutions-"
"afternoon.md) provided."
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:3
msgid ""
"Rust has great support for calling functions through a _foreign function "
"interface_ (FFI). We will use this to build a safe wrapper for the `libc` "
"functions you would use from C to read the names of files in a directory."
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:7
msgid "You will want to consult the manual pages:"
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:9
msgid "[`opendir(3)`](https://man7.org/linux/man-pages/man3/opendir.3.html)"
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:10
msgid "[`readdir(3)`](https://man7.org/linux/man-pages/man3/readdir.3.html)"
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:11
msgid "[`closedir(3)`](https://man7.org/linux/man-pages/man3/closedir.3.html)"
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:13
msgid ""
"You will also want to browse the [`std::ffi`](https://doc.rust-lang.org/std/"
"ffi/) module. There you find a number of string types which you need for the "
"exercise:"
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:16
msgid "Encoding"
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:16
msgid "Use"
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:18
msgid ""
"[`str`](https://doc.rust-lang.org/std/primitive.str.html) and [`String`]"
"(https://doc.rust-lang.org/std/string/struct.String.html)"
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:18
msgid "UTF-8"
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:18
msgid "Text processing in Rust"
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:19
msgid ""
"[`CStr`](https://doc.rust-lang.org/std/ffi/struct.CStr.html) and [`CString`]"
"(https://doc.rust-lang.org/std/ffi/struct.CString.html)"
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:19
msgid "NUL-terminated"
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:19
msgid "Communicating with C functions"
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:20
msgid ""
"[`OsStr`](https://doc.rust-lang.org/std/ffi/struct.OsStr.html) and "
"[`OsString`](https://doc.rust-lang.org/std/ffi/struct.OsString.html)"
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:20
msgid "OS-specific"
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:20
msgid "Communicating with the OS"
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:22
msgid "You will convert between all these types:"
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:24
msgid ""
"`&str` to `CString`: you need to allocate space for a trailing `\\0` "
"character,"
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:25
msgid "`CString` to `*const i8`: you need a pointer to call C functions,"
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:26
msgid ""
"`*const i8` to `&CStr`: you need something which can find the trailing `\\0` "
"character,"
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:27
msgid ""
"`&CStr` to `&[u8]`: a slice of bytes is the universal interface for \"some "
"unknown data\","
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:28
msgid ""
"`&[u8]` to `&OsStr`: `&OsStr` is a step towards `OsString`, use [`OsStrExt`]"
"(https://doc.rust-lang.org/std/os/unix/ffi/trait.OsStrExt.html) to create it,"
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:31
msgid ""
"`&OsStr` to `OsString`: you need to clone the data in `&OsStr` to be able to "
"return it and call `readdir` again."
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:34
msgid ""
"The [Nomicon](https://doc.rust-lang.org/nomicon/ffi.html) also has a very "
"useful chapter about FFI."
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:45
msgid ""
"Copy the code below to <https://play.rust-lang.org/> and fill in the missing "
"functions and methods:"
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:54
#: src/exercises/day-3/safe-ffi-wrapper.md:67
#: src/exercises/day-3/safe-ffi-wrapper.md:78
#: src/exercises/day-3/safe-ffi-wrapper.md:92
#: src/exercises/day-3/safe-ffi-wrapper.md:100
#: src/exercises/day-3/solutions-afternoon.md:10
#: src/exercises/day-3/solutions-afternoon.md:23
#: src/exercises/day-3/solutions-afternoon.md:34
#: src/exercises/day-3/solutions-afternoon.md:48
#: src/exercises/day-3/solutions-afternoon.md:56
msgid "\"macos\""
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:57
#: src/exercises/day-3/solutions-afternoon.md:13
msgid "// Opaque type. See https://doc.rust-lang.org/nomicon/ffi.html.\n"
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:64
#: src/exercises/day-3/solutions-afternoon.md:20
msgid ""
"// Layout according to the Linux man page for readdir(3), where ino_t and\n"
" // off_t are resolved according to the definitions in\n"
" // /usr/include/x86_64-linux-gnu/{sys/types.h, bits/typesizes.h}.\n"
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:77
#: src/exercises/day-3/solutions-afternoon.md:33
msgid "// Layout according to the macOS man page for dir(5).\n"
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:92
#: src/exercises/day-3/safe-ffi-wrapper.md:100
#: src/exercises/day-3/solutions-afternoon.md:48
#: src/exercises/day-3/solutions-afternoon.md:56
msgid "\"x86_64\""
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:95
#: src/exercises/day-3/solutions-afternoon.md:51
msgid ""
"// See https://github.com/rust-lang/libc/issues/414 and the section on\n"
" // _DARWIN_FEATURE_64_BIT_INODE in the macOS man page for stat(2).\n"
" //\n"
" // \"Platforms that existed before these updates were available\" "
"refers\n"
" // to macOS (as opposed to iOS / wearOS / etc.) on Intel and "
"PowerPC.\n"
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:101
#: src/exercises/day-3/solutions-afternoon.md:57
msgid "\"readdir$INODE64\""
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:119
#: src/exercises/day-3/solutions-afternoon.md:75
msgid ""
"// Call opendir and return a Ok value if that worked,\n"
" // otherwise return Err with a message.\n"
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:128
msgid "// Keep calling readdir until we get a NULL pointer back.\n"
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:135
#: src/exercises/day-3/solutions-afternoon.md:108
msgid "// Call closedir as needed.\n"
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:141
#: src/android/interoperability/with-c/rust.md:44
#: src/exercises/day-3/solutions-afternoon.md:119
#: src/exercises/day-3/solutions-afternoon.md:143
#: src/exercises/day-3/solutions-afternoon.md:158
msgid "\".\""
msgstr ""
#: src/exercises/day-3/safe-ffi-wrapper.md:142
#: src/exercises/day-3/solutions-afternoon.md:120
msgid "\"files: {:#?}\""
msgstr ""
#: src/android.md:1
msgid "Welcome to Rust in Android"
msgstr ""
#: src/android.md:3
msgid ""
"Rust is supported for native platform development on Android. This means "
"that you can write new operating system services in Rust, as well as "
"extending existing services."
msgstr ""
#: src/android.md:7
msgid ""
"We will attempt to call Rust from one of your own projects today. So try to "
"find a little corner of your code base where we can move some lines of code "
"to Rust. The fewer dependencies and \"exotic\" types the better. Something "
"that parses some raw bytes would be ideal."
msgstr ""
#: src/android/setup.md:3
msgid ""
"We will be using an Android Virtual Device to test our code. Make sure you "
"have access to one or create a new one with:"
msgstr ""
#: src/android/setup.md:12
msgid ""
"Please see the [Android Developer Codelab](https://source.android.com/docs/"
"setup/start) for details."
msgstr ""
#: src/android/build-rules.md:3
msgid "The Android build system (Soong) supports Rust via a number of modules:"
msgstr ""
#: src/android/build-rules.md:5
msgid "Module Type"
msgstr ""
#: src/android/build-rules.md:5
msgid "Description"
msgstr ""
#: src/android/build-rules.md:7
msgid "`rust_binary`"
msgstr ""
#: src/android/build-rules.md:7
msgid "Produces a Rust binary."
msgstr ""
#: src/android/build-rules.md:8
msgid "`rust_library`"
msgstr ""
#: src/android/build-rules.md:8
msgid "Produces a Rust library, and provides both `rlib` and `dylib` variants."
msgstr ""
#: src/android/build-rules.md:9
msgid "`rust_ffi`"
msgstr ""
#: src/android/build-rules.md:9
msgid ""
"Produces a Rust C library usable by `cc` modules, and provides both static "
"and shared variants."
msgstr ""
#: src/android/build-rules.md:10
msgid "`rust_proc_macro`"
msgstr ""
#: src/android/build-rules.md:10
msgid ""
"Produces a `proc-macro` Rust library. These are analogous to compiler "
"plugins."
msgstr ""
#: src/android/build-rules.md:11
msgid "`rust_test`"
msgstr ""
#: src/android/build-rules.md:11
msgid "Produces a Rust test binary that uses the standard Rust test harness."
msgstr ""
#: src/android/build-rules.md:12
msgid "`rust_fuzz`"
msgstr ""
#: src/android/build-rules.md:12
msgid "Produces a Rust fuzz binary leveraging `libfuzzer`."
msgstr ""
#: src/android/build-rules.md:13
msgid "`rust_protobuf`"
msgstr ""
#: src/android/build-rules.md:13
msgid ""
"Generates source and produces a Rust library that provides an interface for "
"a particular protobuf."
msgstr ""
#: src/android/build-rules.md:14
msgid "`rust_bindgen`"
msgstr ""
#: src/android/build-rules.md:14
msgid ""
"Generates source and produces a Rust library containing Rust bindings to C "
"libraries."
msgstr ""
#: src/android/build-rules.md:16
msgid "We will look at `rust_binary` and `rust_library` next."
msgstr ""
#: src/android/build-rules/binary.md:1
msgid "Rust Binaries"
msgstr ""
#: src/android/build-rules/binary.md:3
msgid ""
"Let us start with a simple application. At the root of an AOSP checkout, "
"create the following files:"
msgstr ""
#: src/android/build-rules/binary.md:6 src/android/build-rules/library.md:13
msgid "_hello_rust/Android.bp_:"
msgstr ""
#: src/android/build-rules/binary.md:10 src/android/build-rules/binary.md:11
msgid "\"hello_rust\""
msgstr ""
#: src/android/build-rules/binary.md:12 src/android/build-rules/library.md:19
#: src/android/logging.md:12
msgid "\"src/main.rs\""
msgstr ""
#: src/android/build-rules/binary.md:16 src/android/build-rules/library.md:34
msgid "_hello_rust/src/main.rs_:"
msgstr ""
#: src/android/build-rules/binary.md:19 src/android/build-rules/library.md:37
msgid "//! Rust demo.\n"
msgstr ""
#: src/android/build-rules/binary.md:20 src/android/build-rules/library.md:41
msgid "/// Prints a greeting to standard output.\n"
msgstr ""
#: src/android/build-rules/binary.md:23
msgid "\"Hello from Rust!\""
msgstr ""
#: src/android/build-rules/binary.md:27
msgid "You can now build, push, and run the binary:"
msgstr ""
#: src/android/build-rules/binary.md:29
msgid ""
"```shell\n"
"m hello_rust\n"
"adb push \"$ANDROID_PRODUCT_OUT/system/bin/hello_rust /data/local/tmp\"\n"
"adb shell /data/local/tmp/hello_rust\n"
"```"
msgstr ""
#: src/android/build-rules/library.md:1
msgid "Rust Libraries"
msgstr ""
#: src/android/build-rules/library.md:3
msgid "You use `rust_library` to create a new Rust library for Android."
msgstr ""
#: src/android/build-rules/library.md:5
msgid "Here we declare a dependency on two libraries:"
msgstr ""
#: src/android/build-rules/library.md:7
msgid "`libgreeting`, which we define below,"
msgstr ""
#: src/android/build-rules/library.md:8
msgid ""
"`libtextwrap`, which is a crate already vendored in [`external/rust/crates/`]"
"(https://cs.android.com/android/platform/superproject/+/master:external/rust/"
"crates/)."
msgstr ""
#: src/android/build-rules/library.md:17 src/android/build-rules/library.md:18
msgid "\"hello_rust_with_dep\""
msgstr ""
#: src/android/build-rules/library.md:21 src/android/build-rules/library.md:28
msgid "\"libgreetings\""
msgstr ""
#: src/android/build-rules/library.md:22
msgid "\"libtextwrap\""
msgstr ""
#: src/android/build-rules/library.md:29
msgid "\"greetings\""
msgstr ""
#: src/android/build-rules/library.md:30 src/android/aidl/implementation.md:31
#: src/android/interoperability/java.md:38
msgid "\"src/lib.rs\""
msgstr ""
#: src/android/build-rules/library.md:48
msgid "_hello_rust/src/lib.rs_:"
msgstr ""
#: src/android/build-rules/library.md:51
msgid "//! Greeting library.\n"
msgstr ""
#: src/android/build-rules/library.md:52
msgid "/// Greet `name`.\n"
msgstr ""
#: src/android/build-rules/library.md:55
msgid "\"Hello {name}, it is very nice to meet you!\""
msgstr ""
#: src/android/build-rules/library.md:59
msgid "You build, push, and run the binary like before:"
msgstr ""
#: src/android/build-rules/library.md:61
msgid ""
"```shell\n"
"m hello_rust_with_dep\n"
"adb push \"$ANDROID_PRODUCT_OUT/system/bin/hello_rust_with_dep /data/local/"
"tmp\"\n"
"adb shell /data/local/tmp/hello_rust_with_dep\n"
"```"
msgstr ""
#: src/android/aidl.md:3
msgid ""
"The [Android Interface Definition Language (AIDL)](https://developer.android."
"com/guide/components/aidl) is supported in Rust:"
msgstr ""
#: src/android/aidl.md:6
msgid "Rust code can call existing AIDL servers,"
msgstr ""
#: src/android/aidl.md:7
msgid "You can create new AIDL servers in Rust."
msgstr ""
#: src/android/aidl/interface.md:1
msgid "AIDL Interfaces"
msgstr ""
#: src/android/aidl/interface.md:3
msgid "You declare the API of your service using an AIDL interface:"
msgstr ""
#: src/android/aidl/interface.md:5
msgid ""
"_birthday_service/aidl/com/example/birthdayservice/IBirthdayService.aidl_:"
msgstr ""
#: src/android/aidl/interface.md:17
msgid "_birthday_service/aidl/Android.bp_:"
msgstr ""
#: src/android/aidl/interface.md:21
msgid "\"com.example.birthdayservice\""
msgstr ""
#: src/android/aidl/interface.md:22
msgid "\"com/example/birthdayservice/*.aidl\""
msgstr ""
#: src/android/aidl/interface.md:25
msgid "// Rust is not enabled by default\n"
msgstr ""
#: src/android/aidl/interface.md:32
msgid ""
"Add `vendor_available: true` if your AIDL file is used by a binary in the "
"vendor partition."
msgstr ""
#: src/android/aidl/implementation.md:1
msgid "Service Implementation"
msgstr ""
#: src/android/aidl/implementation.md:3
msgid "We can now implement the AIDL service:"
msgstr ""
#: src/android/aidl/implementation.md:5
msgid "_birthday_service/src/lib.rs_:"
msgstr ""
#: src/android/aidl/implementation.md:8
msgid "//! Implementation of the `IBirthdayService` AIDL interface.\n"
msgstr ""
#: src/android/aidl/implementation.md:11
msgid "/// The `IBirthdayService` implementation.\n"
msgstr ""
#: src/android/aidl/implementation.md:20
msgid "\"Happy Birthday {name}, congratulations with the {years} years!\""
msgstr ""
#: src/android/aidl/implementation.md:26 src/android/aidl/server.md:28
#: src/android/aidl/client.md:37
msgid "_birthday_service/Android.bp_:"
msgstr ""
#: src/android/aidl/implementation.md:30 src/android/aidl/server.md:38
msgid "\"libbirthdayservice\""
msgstr ""
#: src/android/aidl/implementation.md:32 src/android/aidl/server.md:13
#: src/android/aidl/client.md:12
msgid "\"birthdayservice\""
msgstr ""
#: src/android/aidl/implementation.md:34 src/android/aidl/server.md:36
#: src/android/aidl/client.md:45
msgid "\"com.example.birthdayservice-rust\""
msgstr ""
#: src/android/aidl/implementation.md:35 src/android/aidl/server.md:37
#: src/android/aidl/client.md:46
msgid "\"libbinder_rs\""
msgstr ""
#: src/android/aidl/server.md:1
msgid "AIDL Server"
msgstr ""
#: src/android/aidl/server.md:3
msgid "Finally, we can create a server which exposes the service:"
msgstr ""
#: src/android/aidl/server.md:5
msgid "_birthday_service/src/server.rs_:"
msgstr ""
#: src/android/aidl/server.md:8 src/android/aidl/client.md:8
msgid "//! Birthday service.\n"
msgstr ""
#: src/android/aidl/server.md:14
msgid "/// Entry point for birthday service.\n"
msgstr ""
#: src/android/aidl/server.md:23
msgid "\"Failed to register service\""
msgstr ""
#: src/android/aidl/server.md:32 src/android/aidl/server.md:33
msgid "\"birthday_server\""
msgstr ""
#: src/android/aidl/server.md:34
msgid "\"src/server.rs\""
msgstr ""
#: src/android/aidl/deploy.md:3
msgid "We can now build, push, and start the service:"
msgstr ""
#: src/android/aidl/deploy.md:5
msgid ""
"```shell\n"
"m birthday_server\n"
"adb push \"$ANDROID_PRODUCT_OUT/system/bin/birthday_server /data/local/"
"tmp\"\n"
"adb shell /data/local/tmp/birthday_server\n"
"```"
msgstr ""
#: src/android/aidl/deploy.md:11
msgid "In another terminal, check that the service runs:"
msgstr ""
#: src/android/aidl/deploy.md:21
msgid "You can also call the service with `service call`:"
msgstr ""
#: src/android/aidl/client.md:1
msgid "AIDL Client"
msgstr ""
#: src/android/aidl/client.md:3
msgid "Finally, we can create a Rust client for our new service."
msgstr ""
#: src/android/aidl/client.md:5
msgid "_birthday_service/src/client.rs_:"
msgstr ""
#: src/android/aidl/client.md:13
msgid "/// Connect to the BirthdayService.\n"
msgstr ""
#: src/android/aidl/client.md:18
msgid "/// Call the birthday service.\n"
msgstr ""
#: src/android/aidl/client.md:30
msgid "\"Failed to connect to BirthdayService\""
msgstr ""
#: src/android/aidl/client.md:32
msgid "\"{msg}\""
msgstr ""
#: src/android/aidl/client.md:41 src/android/aidl/client.md:42
msgid "\"birthday_client\""
msgstr ""
#: src/android/aidl/client.md:43
msgid "\"src/client.rs\""
msgstr ""
#: src/android/aidl/client.md:52
msgid "Notice that the client does not depend on `libbirthdayservice`."
msgstr ""
#: src/android/aidl/client.md:54
msgid "Build, push, and run the client on your device:"
msgstr ""
#: src/android/aidl/client.md:56
msgid ""
"```shell\n"
"m birthday_client\n"
"adb push \"$ANDROID_PRODUCT_OUT/system/bin/birthday_client /data/local/"
"tmp\"\n"
"adb shell /data/local/tmp/birthday_client Charlie 60\n"
"```"
msgstr ""
#: src/android/aidl/changing.md:3
msgid ""
"Let us extend the API with more functionality: we want to let clients "
"specify a list of lines for the birthday card:"
msgstr ""
#: src/android/logging.md:3
msgid ""
"You should use the `log` crate to automatically log to `logcat` (on-device) "
"or `stdout` (on-host):"
msgstr ""
#: src/android/logging.md:6
msgid "_hello_rust_logs/Android.bp_:"
msgstr ""
#: src/android/logging.md:10 src/android/logging.md:11
msgid "\"hello_rust_logs\""
msgstr ""
#: src/android/logging.md:14
msgid "\"liblog_rust\""
msgstr ""
#: src/android/logging.md:15
msgid "\"liblogger\""
msgstr ""
#: src/android/logging.md:22
msgid "_hello_rust_logs/src/main.rs_:"
msgstr ""
#: src/android/logging.md:25
msgid "//! Rust logging demo.\n"
msgstr ""
#: src/android/logging.md:28
msgid "/// Logs a greeting.\n"
msgstr ""
#: src/android/logging.md:33
msgid "\"rust\""
msgstr ""
#: src/android/logging.md:36
msgid "\"Starting program.\""
msgstr ""
#: src/android/logging.md:37
msgid "\"Things are going fine.\""
msgstr ""
#: src/android/logging.md:38
msgid "\"Something went wrong!\""
msgstr ""
#: src/android/logging.md:42 src/android/interoperability/with-c/bindgen.md:98
#: src/android/interoperability/with-c/rust.md:73
msgid "Build, push, and run the binary on your device:"
msgstr ""
#: src/android/logging.md:44
msgid ""
"```shell\n"
"m hello_rust_logs\n"
"adb push \"$ANDROID_PRODUCT_OUT/system/bin/hello_rust_logs /data/local/"
"tmp\"\n"
"adb shell /data/local/tmp/hello_rust_logs\n"
"```"
msgstr ""
#: src/android/logging.md:50
msgid "The logs show up in `adb logcat`:"
msgstr ""
#: src/android/interoperability.md:3
msgid ""
"Rust has excellent support for interoperability with other languages. This "
"means that you can:"
msgstr ""
#: src/android/interoperability.md:6
msgid "Call Rust functions from other languages."
msgstr ""
#: src/android/interoperability.md:7
msgid "Call functions written in other languages from Rust."
msgstr ""
#: src/android/interoperability.md:9
msgid ""
"When you call functions in a foreign language we say that you're using a "
"_foreign function interface_, also known as FFI."
msgstr ""
#: src/android/interoperability/with-c.md:1
msgid "Interoperability with C"
msgstr ""
#: src/android/interoperability/with-c.md:3
msgid ""
"Rust has full support for linking object files with a C calling convention. "
"Similarly, you can export Rust functions and call them from C."
msgstr ""
#: src/android/interoperability/with-c.md:6
msgid "You can do it by hand if you want:"
msgstr ""
#: src/android/interoperability/with-c.md:16
msgid "\"{x}, {abs_x}\""
msgstr ""
#: src/android/interoperability/with-c.md:20
msgid ""
"We already saw this in the [Safe FFI Wrapper exercise](../../exercises/day-3/"
"safe-ffi-wrapper.md)."
msgstr ""
#: src/android/interoperability/with-c.md:23
msgid ""
"This assumes full knowledge of the target platform. Not recommended for "
"production."
msgstr ""
#: src/android/interoperability/with-c.md:26
msgid "We will look at better options next."
msgstr ""
#: src/android/interoperability/with-c/bindgen.md:1
msgid "Using Bindgen"
msgstr ""
#: src/android/interoperability/with-c/bindgen.md:3
msgid ""
"The [bindgen](https://rust-lang.github.io/rust-bindgen/introduction.html) "
"tool can auto-generate bindings from a C header file."
msgstr ""
#: src/android/interoperability/with-c/bindgen.md:6
msgid "First create a small C library:"
msgstr ""
#: src/android/interoperability/with-c/bindgen.md:8
msgid "_interoperability/bindgen/libbirthday.h_:"
msgstr ""
#: src/android/interoperability/with-c/bindgen.md:19
msgid "_interoperability/bindgen/libbirthday.c_:"
msgstr ""
#: src/android/interoperability/with-c/bindgen.md:23
#: src/android/interoperability/with-c/bindgen.md:50
msgid "\"libbirthday.h\""
msgstr ""
#: src/android/interoperability/with-c/bindgen.md:26
#: src/android/interoperability/with-c/bindgen.md:29
msgid "\"+--------------\\n\""
msgstr ""
#: src/android/interoperability/with-c/bindgen.md:27
msgid "\"| Happy Birthday %s!\\n\""
msgstr ""
#: src/android/interoperability/with-c/bindgen.md:28
msgid "\"| Congratulations with the %i years!\\n\""
msgstr ""
#: src/android/interoperability/with-c/bindgen.md:33
msgid "Add this to your `Android.bp` file:"
msgstr ""
#: src/android/interoperability/with-c/bindgen.md:35
#: src/android/interoperability/with-c/bindgen.md:55
#: src/android/interoperability/with-c/bindgen.md:69
#: src/android/interoperability/with-c/bindgen.md:108
msgid "_interoperability/bindgen/Android.bp_:"
msgstr ""
#: src/android/interoperability/with-c/bindgen.md:39
#: src/android/interoperability/with-c/bindgen.md:63
msgid "\"libbirthday\""
msgstr ""
#: src/android/interoperability/with-c/bindgen.md:40
msgid "\"libbirthday.c\""
msgstr ""
#: src/android/interoperability/with-c/bindgen.md:44
msgid ""
"Create a wrapper header file for the library (not strictly needed in this "
"example):"
msgstr ""
#: src/android/interoperability/with-c/bindgen.md:47
msgid "_interoperability/bindgen/libbirthday_wrapper.h_:"
msgstr ""
#: src/android/interoperability/with-c/bindgen.md:53
msgid "You can now auto-generate the bindings:"
msgstr ""
#: src/android/interoperability/with-c/bindgen.md:59
#: src/android/interoperability/with-c/bindgen.md:75
msgid "\"libbirthday_bindgen\""
msgstr ""
#: src/android/interoperability/with-c/bindgen.md:60
msgid "\"birthday_bindgen\""
msgstr ""
#: src/android/interoperability/with-c/bindgen.md:61
msgid "\"libbirthday_wrapper.h\""
msgstr ""
#: src/android/interoperability/with-c/bindgen.md:62
msgid "\"bindings\""
msgstr ""
#: src/android/interoperability/with-c/bindgen.md:67
msgid "Finally, we can use the bindings in our Rust program:"
msgstr ""
#: src/android/interoperability/with-c/bindgen.md:73
msgid "\"print_birthday_card\""
msgstr ""
#: src/android/interoperability/with-c/bindgen.md:74
msgid "\"main.rs\""
msgstr ""
#: src/android/interoperability/with-c/bindgen.md:79
msgid "_interoperability/bindgen/main.rs_:"
msgstr ""
#: src/android/interoperability/with-c/bindgen.md:82
msgid "//! Bindgen demo.\n"
msgstr ""
#: src/android/interoperability/with-c/bindgen.md:100
msgid ""
"```shell\n"
"m print_birthday_card\n"
"adb push \"$ANDROID_PRODUCT_OUT/system/bin/print_birthday_card /data/local/"
"tmp\"\n"
"adb shell /data/local/tmp/print_birthday_card\n"
"```"
msgstr ""
#: src/android/interoperability/with-c/bindgen.md:106
msgid "Finally, we can run auto-generated tests to ensure the bindings work:"
msgstr ""
#: src/android/interoperability/with-c/bindgen.md:112
#: src/android/interoperability/with-c/bindgen.md:114
msgid "\"libbirthday_bindgen_test\""
msgstr ""
#: src/android/interoperability/with-c/bindgen.md:113
msgid "\":libbirthday_bindgen\""
msgstr ""
#: src/android/interoperability/with-c/bindgen.md:115
msgid "\"general-tests\""
msgstr ""
#: src/android/interoperability/with-c/bindgen.md:117
#: src/android/interoperability/with-c/bindgen.md:118
msgid "\"none\""
msgstr ""
#: src/android/interoperability/with-c/bindgen.md:117
msgid "// Generated file, skip linting\n"
msgstr ""
#: src/android/interoperability/with-c/rust.md:1
msgid "Calling Rust"
msgstr ""
#: src/android/interoperability/with-c/rust.md:3
msgid "Exporting Rust functions and types to C is easy:"
msgstr ""
#: src/android/interoperability/with-c/rust.md:5
msgid "_interoperability/rust/libanalyze/analyze.rs_"
msgstr ""
#: src/android/interoperability/with-c/rust.md:8
msgid "//! Rust FFI demo.\n"
msgstr ""
#: src/android/interoperability/with-c/rust.md:12
msgid "/// Analyze the numbers.\n"
msgstr ""
#: src/android/interoperability/with-c/rust.md:17
msgid "\"x ({x}) is smallest!\""
msgstr ""
#: src/android/interoperability/with-c/rust.md:19
msgid "\"y ({y}) is probably larger than x ({x})\""
msgstr ""
#: src/android/interoperability/with-c/rust.md:24
msgid "_interoperability/rust/libanalyze/analyze.h_"
msgstr ""
#: src/android/interoperability/with-c/rust.md:37
msgid "_interoperability/rust/libanalyze/Android.bp_"
msgstr ""
#: src/android/interoperability/with-c/rust.md:41
#: src/android/interoperability/with-c/rust.md:68
msgid "\"libanalyze_ffi\""
msgstr ""
#: src/android/interoperability/with-c/rust.md:42
msgid "\"analyze_ffi\""
msgstr ""
#: src/android/interoperability/with-c/rust.md:43
msgid "\"analyze.rs\""
msgstr ""
#: src/android/interoperability/with-c/rust.md:48
msgid "We can now call this from a C binary:"
msgstr ""
#: src/android/interoperability/with-c/rust.md:50
msgid "_interoperability/rust/analyze/main.c_"
msgstr ""
#: src/android/interoperability/with-c/rust.md:53
msgid "\"analyze.h\""
msgstr ""
#: src/android/interoperability/with-c/rust.md:62
msgid "_interoperability/rust/analyze/Android.bp_"
msgstr ""
#: src/android/interoperability/with-c/rust.md:66
msgid "\"analyze_numbers\""
msgstr ""
#: src/android/interoperability/with-c/rust.md:67
msgid "\"main.c\""
msgstr ""
#: src/android/interoperability/with-c/rust.md:75
msgid ""
"```shell\n"
"m analyze_numbers\n"
"adb push \"$ANDROID_PRODUCT_OUT/system/bin/analyze_numbers /data/local/"
"tmp\"\n"
"adb shell /data/local/tmp/analyze_numbers\n"
"```"
msgstr ""
#: src/android/interoperability/with-c/rust.md:83
msgid ""
"`#[no_mangle]` disables Rust's usual name mangling, so the exported symbol "
"will just be the name of the function. You can also use `#[export_name = "
"\"some_name\"]` to specify whatever name you want."
msgstr ""
#: src/android/interoperability/cpp.md:3
msgid ""
"The [CXX crate](https://cxx.rs/) makes it possible to do safe "
"interoperability between Rust and C++."
msgstr ""
#: src/android/interoperability/cpp.md:6
msgid "The overall approach looks like this:"
msgstr ""
#: src/android/interoperability/cpp.md:10
msgid ""
"See the [CXX tutorial](https://cxx.rs/tutorial.html) for an full example of "
"using this."
msgstr ""
#: src/android/interoperability/cpp.md:14
msgid ""
"At this point, the instructor should switch to the [CXX tutorial](https://"
"cxx.rs/tutorial.html)."
msgstr ""
#: src/android/interoperability/cpp.md:16
msgid "Walk the students through the tutorial step by step."
msgstr ""
#: src/android/interoperability/cpp.md:18
msgid ""
"Highlight how CXX presents a clean interface without unsafe code in _both "
"languages_."
msgstr ""
#: src/android/interoperability/cpp.md:20
msgid ""
"Show the correspondence between [Rust and C++ types](https://cxx.rs/bindings."
"html):"
msgstr ""
#: src/android/interoperability/cpp.md:22
msgid ""
"Explain how a Rust `String` cannot map to a C++ `std::string` (the latter "
"does not uphold the UTF-8 invariant). Show that despite being different "
"types, `rust::String` in C++ can be easily constructed from a C++ `std::"
"string`, making it very ergonomic to use."
msgstr ""
#: src/android/interoperability/cpp.md:28
msgid ""
"Explain that a Rust function returning `Result<T, E>` becomes a function "
"which throws a `E` exception in C++ (and vice versa)."
msgstr ""
#: src/android/interoperability/java.md:1
msgid "Interoperability with Java"
msgstr ""
#: src/android/interoperability/java.md:3
msgid ""
"Java can load shared objects via [Java Native Interface (JNI)](https://en."
"wikipedia.org/wiki/Java_Native_Interface). The [`jni` crate](https://docs.rs/"
"jni/) allows you to create a compatible library."
msgstr ""
#: src/android/interoperability/java.md:7
msgid "First, we create a Rust function to export to Java:"
msgstr ""
#: src/android/interoperability/java.md:9
msgid "_interoperability/java/src/lib.rs_:"
msgstr ""
#: src/android/interoperability/java.md:12
msgid "//! Rust <-> Java FFI demo.\n"
msgstr ""
#: src/android/interoperability/java.md:17
msgid "/// HelloWorld::hello method implementation.\n"
msgstr ""
#: src/android/interoperability/java.md:20
msgid "\"system\""
msgstr ""
#: src/android/interoperability/java.md:26
msgid "\"Hello, {input}!\""
msgstr ""
#: src/android/interoperability/java.md:32
#: src/android/interoperability/java.md:62
msgid "_interoperability/java/Android.bp_:"
msgstr ""
#: src/android/interoperability/java.md:36
#: src/android/interoperability/java.md:69
msgid "\"libhello_jni\""
msgstr ""
#: src/android/interoperability/java.md:37
#: src/android/interoperability/java.md:52
msgid "\"hello_jni\""
msgstr ""
#: src/android/interoperability/java.md:39
msgid "\"libjni\""
msgstr ""
#: src/android/interoperability/java.md:43
msgid "Finally, we can call this function from Java:"
msgstr ""
#: src/android/interoperability/java.md:45
msgid "_interoperability/java/HelloWorld.java_:"
msgstr ""
#: src/android/interoperability/java.md:66
msgid "\"helloworld_jni\""
msgstr ""
#: src/android/interoperability/java.md:67
msgid "\"HelloWorld.java\""
msgstr ""
#: src/android/interoperability/java.md:68
msgid "\"HelloWorld\""
msgstr ""
#: src/android/interoperability/java.md:73
msgid "Finally, you can build, sync, and run the binary:"
msgstr ""
#: src/exercises/android/morning.md:3
msgid ""
"This is a group exercise: We will look at one of the projects you work with "
"and try to integrate some Rust into it. Some suggestions:"
msgstr ""
#: src/exercises/android/morning.md:6
msgid "Call your AIDL service with a client written in Rust."
msgstr ""
#: src/exercises/android/morning.md:8
msgid "Move a function from your project to Rust and call it."
msgstr ""
#: src/exercises/android/morning.md:12
msgid ""
"No solution is provided here since this is open-ended: it relies on someone "
"in the class having a piece of code which you can turn in to Rust on the fly."
msgstr ""
#: src/bare-metal.md:1
msgid "Welcome to Bare Metal Rust"
msgstr "ベアメタルRustへようこそ"
#: src/bare-metal.md:3
msgid ""
"This is a standalone one-day course about bare-metal Rust, aimed at people "
"who are familiar with the basics of Rust (perhaps from completing the "
"Comprehensive Rust course), and ideally also have some experience with bare-"
"metal programming in some other language such as C."
msgstr ""
"こちらはベアメタルRustに関する独立した1日コースです。対象としているのは、"
"Rustの基本的な部分に関しては習得済みな人で(例えば、本講座で)、Cなどの他の言"
"語でベアメタル開発の経験があると理想的です。"
#: src/bare-metal.md:7
msgid ""
"Today we will talk about 'bare-metal' Rust: running Rust code without an OS "
"underneath us. This will be divided into several parts:"
msgstr ""
"今日、取り扱うのは、ベアメタルRustです。すなわち、OSなしでRustのコードを実行"
"します。この章は以下のような構成になります:"
#: src/bare-metal.md:10
msgid "What is `no_std` Rust?"
msgstr "`no_std` Rustとは?"
#: src/bare-metal.md:11
msgid "Writing firmware for microcontrollers."
msgstr "マイクロコントローラ向けのファームウェア開発。"
#: src/bare-metal.md:12
msgid "Writing bootloader / kernel code for application processors."
msgstr "アプリケーションプロセッサ向けのブートローダ/カーネル開発。"
#: src/bare-metal.md:13
msgid "Some useful crates for bare-metal Rust development."
msgstr "ベアメタルRust開発に役立つクレートの紹介。"
#: src/bare-metal.md:15
msgid ""
"For the microcontroller part of the course we will use the [BBC micro:bit]"
"(https://microbit.org/) v2 as an example. It's a [development board](https://"
"tech.microbit.org/hardware/) based on the Nordic nRF51822 microcontroller "
"with some LEDs and buttons, an I2C-connected accelerometer and compass, and "
"an on-board SWD debugger."
msgstr ""
"マイクロコントローラ向けの学習では[BBC micro:bit](https://microbit.org/) v2を"
"題材として使います。これは、Nordic nRF51822マイコンベースの[開発ボード]"
"(https://tech.microbit.org/hardware/) で、いくつかのLEDやボタンスイッチ、I2C"
"接続の加速度センサやコンパス、そしてオンボードSWDデバッガを搭載しています。"
#: src/bare-metal.md:20
msgid ""
"To get started, install some tools we'll need later. On gLinux or Debian:"
msgstr ""
"まずはじめに、後ほど必要となるいくつかのツールをインストールします。gLinuxま"
"たはDebianの場合は以下のようになります:"
#: src/bare-metal.md:30
msgid ""
"And give users in the `plugdev` group access to the micro:bit programmer:"
msgstr ""
"さらに、`plugdev`グループにmicro:bitプログラム用デバイスへのアクセスを付与し"
"ます:"
#: src/bare-metal.md:38 src/bare-metal/microcontrollers/debugging.md:27
msgid "On MacOS:"
msgstr "MacOSの場合は以下のようになります:"
#: src/bare-metal/no_std.md:1
msgid "`no_std`"
msgstr ""
#: src/bare-metal/no_std.md:7
msgid "`core`"
msgstr ""
#: src/bare-metal/no_std.md:12 src/bare-metal/alloc.md:1
msgid "`alloc`"
msgstr ""
#: src/bare-metal/no_std.md:17
msgid "`std`"
msgstr ""
#: src/bare-metal/no_std.md:24
msgid "Slices, `&str`, `CStr`"
msgstr ""
#: src/bare-metal/no_std.md:25
msgid "`NonZeroU8`..."
msgstr ""
#: src/bare-metal/no_std.md:26
msgid "`Option`, `Result`"
msgstr ""
#: src/bare-metal/no_std.md:27
msgid "`Display`, `Debug`, `write!`..."
msgstr ""
#: src/bare-metal/no_std.md:29
msgid "`panic!`, `assert_eq!`..."
msgstr ""
#: src/bare-metal/no_std.md:30
msgid "`NonNull` and all the usual pointer-related functions"
msgstr ""
#: src/bare-metal/no_std.md:31
msgid "`Future` and `async`/`await`"
msgstr ""
#: src/bare-metal/no_std.md:32
msgid "`fence`, `AtomicBool`, `AtomicPtr`, `AtomicU32`..."
msgstr ""
#: src/bare-metal/no_std.md:33
msgid "`Duration`"
msgstr ""
#: src/bare-metal/no_std.md:38
msgid "`Box`, `Cow`, `Arc`, `Rc`"
msgstr ""
#: src/bare-metal/no_std.md:39
msgid "`Vec`, `BinaryHeap`, `BtreeMap`, `LinkedList`, `VecDeque`"
msgstr ""
#: src/bare-metal/no_std.md:40
msgid "`String`, `CString`, `format!`"
msgstr ""
#: src/bare-metal/no_std.md:45
msgid "`Error`"
msgstr ""
#: src/bare-metal/no_std.md:47
msgid "`Mutex`, `Condvar`, `Barrier`, `Once`, `RwLock`, `mpsc`"
msgstr ""
#: src/bare-metal/no_std.md:48
msgid "`File` and the rest of `fs`"
msgstr ""
#: src/bare-metal/no_std.md:49
msgid "`println!`, `Read`, `Write`, `Stdin`, `Stdout` and the rest of `io`"
msgstr ""
#: src/bare-metal/no_std.md:50
msgid "`Path`, `OsString`"
msgstr ""
#: src/bare-metal/no_std.md:51
msgid "`net`"
msgstr ""
#: src/bare-metal/no_std.md:52
msgid "`Command`, `Child`, `ExitCode`"
msgstr ""
#: src/bare-metal/no_std.md:53
msgid "`spawn`, `sleep` and the rest of `thread`"
msgstr ""
#: src/bare-metal/no_std.md:54
msgid "`SystemTime`, `Instant`"
msgstr ""
#: src/bare-metal/no_std.md:62
msgid "`HashMap` depends on RNG."
msgstr "`HashMap`はRNGに依存します。"
#: src/bare-metal/no_std.md:63
msgid "`std` re-exports the contents of both `core` and `alloc`."
msgstr "`std`は`core`と`alloc`の両方を再エクスポートします。"
#: src/bare-metal/minimal.md:1
msgid "A minimal `no_std` program"
msgstr "最小限の`no_std`プログラム"
#: src/bare-metal/minimal.md:17
msgid "This will compile to an empty binary."
msgstr "このコードは空のバイナリにコンパイルされます。"
#: src/bare-metal/minimal.md:18
msgid "`std` provides a panic handler; without it we must provide our own."
msgstr ""
"パニックハンドラは`std`が提供するので、それを使わない場合は自分で提供する必要"
"があります。"
#: src/bare-metal/minimal.md:19
msgid "It can also be provided by another crate, such as `panic-halt`."
msgstr ""
"あるいは、`panic-halt`のような別のクレートが提供するパニックハンドラを利用す"
"ることもできます。"
#: src/bare-metal/minimal.md:20
msgid ""
"Depending on the target, you may need to compile with `panic = \"abort\"` to "
"avoid an error about `eh_personality`."
msgstr ""
"ターゲットによっては、`eh_personality`に関するエラーを回避するために`panic = "
"\"abort\"`を指定してコンパイルする必要があります。"
#: src/bare-metal/minimal.md:22
msgid ""
"Note that there is no `main` or any other entry point; it's up to you to "
"define your own entry point. This will typically involve a linker script and "
"some assembly code to set things up ready for Rust code to run."
msgstr ""
"なお、`main`のようなプログラムの規定エントリポイントはないので、自分でエント"
"リポイントを定義する必要があります。通常、Rustコードを実行できるようにするた"
"めには、リンカスクリプトとある程度のアセンブリコードを必要とします。"
#: src/bare-metal/alloc.md:3
msgid ""
"To use `alloc` you must implement a [global (heap) allocator](https://doc."
"rust-lang.org/stable/std/alloc/trait.GlobalAlloc.html)."
msgstr ""
"`alloc`を使うためには、[グローバル(ヒープ)アロケータ](https://doc.rust-"
"lang.org/stable/std/alloc/trait.GlobalAlloc.html)を実装しなければなりません。"
#: src/bare-metal/alloc.md:23
msgid ""
"// Safe because `HEAP` is only used here and `entry` is only called once.\n"
msgstr ""
#: src/bare-metal/alloc.md:25
msgid "// Give the allocator some memory to allocate.\n"
msgstr ""
#: src/bare-metal/alloc.md:31
msgid "// Now we can do things that require heap allocation.\n"
msgstr ""
#: src/bare-metal/alloc.md:33
msgid "\"A string\""
msgstr ""
#: src/bare-metal/alloc.md:39
msgid ""
"`buddy_system_allocator` is a third-party crate implementing a basic buddy "
"system allocator. Other crates are available, or you can write your own or "
"hook into your existing allocator."
msgstr ""
"`buddy_system_allocator`はサードパーティのクレートで、単純なバディシステムア"
"ロケータです。その他にも利用できるクレートはありますし、自前で実装したり、別"
"のアロケータに自分のコードをフックすることも可能です。"
#: src/bare-metal/alloc.md:41
msgid ""
"The const parameter of `LockedHeap` is the max order of the allocator; i.e. "
"in this case it can allocate regions of up to 2\\*\\*32 bytes."
msgstr ""
"パラメータ定数`LockedHeap`はアロケータの最大オーダを示します。この場合、"
"2\\*\\*32バイトの領域を確保することが可能です。"
#: src/bare-metal/alloc.md:43
msgid ""
"If any crate in your dependency tree depends on `alloc` then you must have "
"exactly one global allocator defined in your binary. Usually this is done in "
"the top-level binary crate."
msgstr ""
"もし依存関係にあるクレートが`alloc`に依存する場合、必ずバイナリファイルあたり"
"一つだけのグローバルなアロケータが存在するようにしなければなりません。通常、"
"これはトップレベルのバイナリを生成するクレートにより制御されます。"
#: src/bare-metal/alloc.md:45
msgid ""
"`extern crate panic_halt as _` is necessary to ensure that the `panic_halt` "
"crate is linked in so we get its panic handler."
msgstr ""
"`extern crate panic_halt as _` という部分は、`panic_halt`クレートを確実にリン"
"クし、パニックハンドラを利用可能にするために必要です。"
#: src/bare-metal/alloc.md:47
msgid "This example will build but not run, as it doesn't have an entry point."
msgstr ""
"この例で示したコードはビルドできますが、エントリポイントがないので実行するこ"
"とはできません。"
#: src/bare-metal/microcontrollers.md:3
msgid ""
"The `cortex_m_rt` crate provides (among other things) a reset handler for "
"Cortex M microcontrollers."
msgstr ""
"`cortex_m_rt`クレートはCortex Mマイクロコントローラ向けのリセットハンドラ(と"
"その他もろもろ)を提供します。"
#: src/bare-metal/microcontrollers.md:21
msgid ""
"Next we'll look at how to access peripherals, with increasing levels of "
"abstraction."
msgstr ""
"次は、抽象度の低いレベルから順に周辺I/Oにアクセスする方法について見ていきま"
"す。"
#: src/bare-metal/microcontrollers.md:25
msgid ""
"The `cortex_m_rt::entry` macro requires that the function have type `fn() -"
"> !`, because returning to the reset handler doesn't make sense."
msgstr ""
"リセットハンドラはリターンしないので、`cortex_m_rt::entry`マクロは対象関数が"
"`fn() -> !`という型であることを要求します。"
#: src/bare-metal/microcontrollers.md:27
msgid "Run the example with `cargo embed --bin minimal`"
msgstr "この例は`cargo embed --bin minimal`により実行します"
#: src/bare-metal/microcontrollers/mmio.md:3
msgid ""
"Most microcontrollers access peripherals via memory-mapped IO. Let's try "
"turning on an LED on our micro:bit:"
msgstr ""
"大半のマイクロコントローラはメモリマップドRIO空間を通して周辺I/Oにアクセスし"
"ます。micro:bitのLEDを光らせてみましょう:"
#: src/bare-metal/microcontrollers/mmio.md:16
msgid "/// GPIO port 0 peripheral address\n"
msgstr ""
#: src/bare-metal/microcontrollers/mmio.md:19
msgid "// GPIO peripheral offsets\n"
msgstr ""
#: src/bare-metal/microcontrollers/mmio.md:24
msgid "// PIN_CNF fields\n"
msgstr ""
#: src/bare-metal/microcontrollers/mmio.md:34
#: src/bare-metal/microcontrollers/pacs.md:21
#: src/bare-metal/microcontrollers/hals.md:25
msgid "// Configure GPIO 0 pins 21 and 28 as push-pull outputs.\n"
msgstr ""
#: src/bare-metal/microcontrollers/mmio.md:37
#: src/bare-metal/microcontrollers/mmio.md:51
msgid ""
"// Safe because the pointers are to valid peripheral control registers, and\n"
" // no aliases exist.\n"
msgstr ""
#: src/bare-metal/microcontrollers/mmio.md:48
#: src/bare-metal/microcontrollers/pacs.md:39
#: src/bare-metal/microcontrollers/hals.md:29
msgid "// Set pin 28 low and pin 21 high to turn the LED on.\n"
msgstr ""
#: src/bare-metal/microcontrollers/mmio.md:64
msgid ""
"GPIO 0 pin 21 is connected to the first column of the LED matrix, and pin 28 "
"to the first row."
msgstr ""
"GPIO 0のピン21はマトリクスLEDの一番目の列に、ピン28は最初の行に接続されていま"
"す。"
#: src/bare-metal/microcontrollers/mmio.md:66
#: src/bare-metal/microcontrollers/pacs.md:59
#: src/bare-metal/microcontrollers/hals.md:43
#: src/bare-metal/microcontrollers/board-support.md:34
msgid "Run the example with:"
msgstr "例の実行方法:"
#: src/bare-metal/microcontrollers/pacs.md:1
msgid "Peripheral Access Crates"
msgstr "周辺I/Oへアクセスするためのクレート(PACs)"
#: src/bare-metal/microcontrollers/pacs.md:3
msgid ""
"[`svd2rust`](https://crates.io/crates/svd2rust) generates mostly-safe Rust "
"wrappers for memory-mapped peripherals from [CMSIS-SVD](https://www.keil.com/"
"pack/doc/CMSIS/SVD/html/index.html) files."
msgstr ""
"[`svd2rust`](https://crates.io/crates/svd2rust) は[CMSIS-SVD](https://www."
"keil.com/pack/doc/CMSIS/SVD/html/index.html) ファイルから、メモリマップされた"
"周辺I/Oに対するほぼ安全(mostly-safe)なRustラッパーを生成します。"
#: src/bare-metal/microcontrollers/pacs.md:49
msgid ""
"SVD (System View Description) files are XML files typically provided by "
"silicon vendors which describe the memory map of the device."
msgstr ""
"SVD (System View Description)ファイルはXMLファイルでデバイスのメモリマップを"
"記述したものであり、通常シリコンベンダにより提供されます。"
#: src/bare-metal/microcontrollers/pacs.md:51
msgid ""
"They are organised by peripheral, register, field and value, with names, "
"descriptions, addresses and so on."
msgstr ""
"周辺I/Oごとに、レジスタ、フィールドと値、名前、説明、アドレスなどにより構成さ"
"れています。"
#: src/bare-metal/microcontrollers/pacs.md:53
msgid ""
"SVD files are often buggy and incomplete, so there are various projects "
"which patch the mistakes, add missing details, and publish the generated "
"crates."
msgstr ""
"SVDファイルにはよく誤りがあり、また情報が不足していることも多いので、様々なプ"
"ロジェクトがそれを修正・追加し、クレートとして公開しています。"
#: src/bare-metal/microcontrollers/pacs.md:55
msgid "`cortex-m-rt` provides the vector table, among other things."
msgstr "`cortex-m-rt`はベクタテーブルも提供します。"
#: src/bare-metal/microcontrollers/pacs.md:56
msgid ""
"If you `cargo install cargo-binutils` then you can run `cargo objdump --bin "
"pac -- -d --no-show-raw-insn` to see the resulting binary."
msgstr ""
"もし`cargo install cargo-binutils`を実行していれば、`cargo objdump --bin pac "
"-- -d --no-show-raw-insn`を実行することにより生成されたバイナリの中身を見るこ"
"とができます。"
#: src/bare-metal/microcontrollers/hals.md:1
msgid "HAL crates"
msgstr "HALクレート"
#: src/bare-metal/microcontrollers/hals.md:3
msgid ""
"[HAL crates](https://github.com/rust-embedded/awesome-embedded-rust#hal-"
"implementation-crates) for many microcontrollers provide wrappers around "
"various peripherals. These generally implement traits from [`embedded-hal`]"
"(https://crates.io/crates/embedded-hal)."
msgstr ""
"多くのマイクロコントローラに対する[HALクレート](https://github.com/rust-"
"embedded/awesome-embedded-rust#hal-implementation-crates)が様々な周辺I/Oに対"
"するラッパーを提供しています。これらのクレートの多くは[`embedded-hal`]"
"(https://crates.io/crates/embedded-hal)が定義するトレイトを実装しています。"
#: src/bare-metal/microcontrollers/hals.md:22
msgid "// Create HAL wrapper for GPIO port 0.\n"
msgstr ""
#: src/bare-metal/microcontrollers/hals.md:39
msgid ""
"`set_low` and `set_high` are methods on the `embedded_hal` `OutputPin` trait."
msgstr ""
"`set_low`と`set_high`は`embedded_hal`の`OutputPin`トレイトの定義するメソッド"
"です。"
#: src/bare-metal/microcontrollers/hals.md:40
msgid ""
"HAL crates exist for many Cortex-M and RISC-V devices, including various "
"STM32, GD32, nRF, NXP, MSP430, AVR and PIC microcontrollers."
msgstr ""
"Cortex-MやRISC-Vの多くのデバイスに対してHALクレートが存在し、これらには"
"STM32、GD32、nRF、NXP、MSP430、AVR、PICマイクロコントローラなどが含まれます。"
#: src/bare-metal/microcontrollers/board-support.md:1
msgid "Board support crates"
msgstr "ボードサポートクレート"
#: src/bare-metal/microcontrollers/board-support.md:3
msgid ""
"Board support crates provide a further level of wrapping for a specific "
"board for convenience."
msgstr ""
"ボードサポートクレードは特定のボードに対して更に利便性を向上させるラッパーを"
"提供します。"
#: src/bare-metal/microcontrollers/board-support.md:28
msgid ""
"In this case the board support crate is just providing more useful names, "
"and a bit of initialisation."
msgstr ""
"この例では、ボードサポートクレートは単に分かりやすい名前を提供し、少しの初期"
"化を実施しているだけです。"
#: src/bare-metal/microcontrollers/board-support.md:30
msgid ""
"The crate may also include drivers for some on-board devices outside of the "
"microcontroller itself."
msgstr ""
"マイクロコントローラの外に実装されたオンボードデバイスに対するドライバも提供"
"されていることがあります。"
#: src/bare-metal/microcontrollers/board-support.md:32
msgid "`microbit-v2` includes a simple driver for the LED matrix."
msgstr "`microbit-v2`はマトリクスLEDに対する簡単なドライバを含んでいます。"
#: src/bare-metal/microcontrollers/type-state.md:1
msgid "The type state pattern"
msgstr "タイプステートパターン"
#: src/bare-metal/microcontrollers/type-state.md:11
msgid "// let gpio0_01_again = gpio0.p0_01; // Error, moved.\n"
msgstr ""
#: src/bare-metal/microcontrollers/type-state.md:19
msgid "// pin_input.is_high(); // Error, moved.\n"
msgstr ""
#: src/bare-metal/microcontrollers/type-state.md:32
msgid ""
"Pins don't implement `Copy` or `Clone`, so only one instance of each can "
"exist. Once a pin is moved out of the port struct nobody else can take it."
msgstr ""
"この例では、ピンを表すタイプは`Copy`も`Clone`も実装していません。そのため、た"
"だ一つのインスタンスだけが存在可能です。ピンがポート構造体からムーブされる"
"と、他の誰もそのピンにアクセスすることはできなくなります。"
#: src/bare-metal/microcontrollers/type-state.md:34
msgid ""
"Changing the configuration of a pin consumes the old pin instance, so you "
"can’t keep use the old instance afterwards."
msgstr ""
"ピンの設定を変更することは古いピンのインスタンスを消費することになります。そ"
"のため、それ以降は古いインスタンスを使い続けることはできなくなります。"
#: src/bare-metal/microcontrollers/type-state.md:36
msgid ""
"The type of a value indicates the state that it is in: e.g. in this case, "
"the configuration state of a GPIO pin. This encodes the state machine into "
"the type system, and ensures that you don't try to use a pin in a certain "
"way without properly configuring it first. Illegal state transitions are "
"caught at compile time."
msgstr ""
"変数の型はその状態を表すようになっています。例えば、この例では型がGPIOピンの"
"状態を表しています。このようにステートマシンをタイプシステムに織り込むこと"
"で、正しい設定をせずにピンを使ってしまうことがなくなります。不正な状態遷移に"
"関してはコンパイル時に発見されるようになります。"
#: src/bare-metal/microcontrollers/type-state.md:40
msgid ""
"You can call `is_high` on an input pin and `set_high` on an output pin, but "
"not vice-versa."
msgstr ""
"インプットピンに対して`is_high`を呼び出すことは可能で、アウトプットピンに対し"
"て`set_high`を呼び出すことも可能です。しかし、その逆の組み合わせは不可能で"
"す。"
#: src/bare-metal/microcontrollers/type-state.md:41
msgid "Many HAL crates follow this pattern."
msgstr "多くのHALクレートがこのパターンを用いています。"
#: src/bare-metal/microcontrollers/embedded-hal.md:1
msgid "`embedded-hal`"
msgstr ""
#: src/bare-metal/microcontrollers/embedded-hal.md:3
msgid ""
"The [`embedded-hal`](https://crates.io/crates/embedded-hal) crate provides a "
"number of traits covering common microcontroller peripherals."
msgstr ""
"[`embedded-hal`](https://crates.io/crates/embedded-hal)クレートはマイクロコン"
"トローラの周辺I/Oに関して共通に必要とされる多くのトレイトを提供します。"
#: src/bare-metal/microcontrollers/embedded-hal.md:6
msgid "GPIO"
msgstr ""
#: src/bare-metal/microcontrollers/embedded-hal.md:7
msgid "ADC"
msgstr ""
#: src/bare-metal/microcontrollers/embedded-hal.md:8
msgid "I2C, SPI, UART, CAN"
msgstr ""
#: src/bare-metal/microcontrollers/embedded-hal.md:9
msgid "RNG"
msgstr ""
#: src/bare-metal/microcontrollers/embedded-hal.md:10
msgid "Timers"
msgstr ""
#: src/bare-metal/microcontrollers/embedded-hal.md:11
msgid "Watchdogs"
msgstr ""
#: src/bare-metal/microcontrollers/embedded-hal.md:13
msgid ""
"Other crates then implement [drivers](https://github.com/rust-embedded/"
"awesome-embedded-rust#driver-crates) in terms of these traits, e.g. an "
"accelerometer driver might need an I2C or SPI bus implementation."
msgstr ""
"多くのクレートはこれらのトレイトに対応することで[ドライバ](https://github."
"com/rust-embedded/awesome-embedded-rust#driver-crates)を実装します。例えば、"
"加速度センサのドライバにはI2CやSPIバスの実装が必要かもしれません。"
#: src/bare-metal/microcontrollers/embedded-hal.md:19
msgid ""
"There are implementations for many microcontrollers, as well as other "
"platforms such as Linux on Raspberry Pi."
msgstr ""
"多くのマイクロコントローラに対する実装に加えて、Raspberry Pi上のLinux向けの実"
"装も存在します。"
#: src/bare-metal/microcontrollers/embedded-hal.md:21
msgid ""
"There is work in progress on an `async` version of `embedded-hal`, but it "
"isn't stable yet."
msgstr ""
"`embedded-hal`の`async`バージョンも開発中ですが、まだ安定してはいません。"
#: src/bare-metal/microcontrollers/probe-rs.md:1
msgid "`probe-rs`, `cargo-embed`"
msgstr ""
#: src/bare-metal/microcontrollers/probe-rs.md:3
msgid ""
"[probe-rs](https://probe.rs/) is a handy toolset for embedded debugging, "
"like OpenOCD but better integrated."
msgstr ""
"[probe-rs](https://probe.rs/)は組み込み向けデバッグに有用なツールセットです。"
"これはOpenOCDのようなものですが、より高度に統合されています。"
#: src/bare-metal/microcontrollers/probe-rs.md:6
msgid ""
"SWD (Serial Wire Debug) and JTAG via CMSIS-DAP, ST-Link and J-Link probes"
msgstr ""
"SWD (Serial Wire Debug) やCMSIS-DAP経由のJTAG、 ST-LinkやJ-Linkプローブ"
#: src/bare-metal/microcontrollers/probe-rs.md:7
msgid "GDB stub and Microsoft DAP (Debug Adapter Protocol) server"
msgstr "GDBスタブやMicrosoft DAP (Debug Adapter Protocol)サーバ"
#: src/bare-metal/microcontrollers/probe-rs.md:8
msgid "Cargo integration"
msgstr "Cargoとのインテグレーション"
#: src/bare-metal/microcontrollers/probe-rs.md:10
msgid ""
"`cargo-embed` is a cargo subcommand to build and flash binaries, log RTT "
"(Real Time Transfers) output and connect GDB. It's configured by an `Embed."
"toml` file in your project directory."
msgstr ""
"`cargo-embed`はcargoのサブコマンドであり、バイナリをビルドしたり、フラッシュ"
"したり、RTT(Real Time Transfers)の出力ログを取得したり、GDBに接続するための"
"ものです。設定は対象とするプロジェクトディレクトリにおける`Embed.toml`ファイ"
"ルにより行います。"
#: src/bare-metal/microcontrollers/probe-rs.md:16
msgid ""
"[CMSIS-DAP](https://arm-software.github.io/CMSIS_5/DAP/html/index.html) is "
"an Arm standard protocol over USB for an in-circuit debugger to access the "
"CoreSight Debug Access Port of various Arm Cortex processors. It's what the "
"on-board debugger on the BBC micro:bit uses."
msgstr ""
"[CMSIS-DAP](https://arm-software.github.io/CMSIS_5/DAP/html/index.html) はUSB"
"上のARM標準プロトコルで、インサーキット・デバッガが様々なArm Cortexプロセッサ"
"のコアサイト・デバッグ・アクセスポートにアクセスするためのものです。BBC "
"micro:bit のオンボード・デバッガもこれを利用しています。"
#: src/bare-metal/microcontrollers/probe-rs.md:19
msgid ""
"ST-Link is a range of in-circuit debuggers from ST Microelectronics, J-Link "
"is a range from SEGGER."
msgstr ""
"ST-Link はST Microelectronicsによるインサーキット・デバッガの総称で、 J-Link"
"はSEGGERによるインサーキット・デバッガの総称です。"
#: src/bare-metal/microcontrollers/probe-rs.md:21
msgid ""
"The Debug Access Port is usually either a 5-pin JTAG interface or 2-pin "
"Serial Wire Debug."
msgstr ""
"デバッグ・アクセスポートは通常5ピンのJTAGインタフェースか、2ピンのシリアルワ"
"イヤデバッグです。"
#: src/bare-metal/microcontrollers/probe-rs.md:22
msgid ""
"probe-rs is a library which you can integrate into your own tools if you "
"want to."
msgstr ""
"probe-rsは自分で独自のツールを統合したい場合に利用できるライブラリです。"
#: src/bare-metal/microcontrollers/probe-rs.md:23
msgid ""
"The [Microsoft Debug Adapter Protocol](https://microsoft.github.io/debug-"
"adapter-protocol/) lets VSCode and other IDEs debug code running on any "
"supported microcontroller."
msgstr ""
"[Microsoft Debug Adapter Protocol](https://microsoft.github.io/debug-adapter-"
"protocol/) はVSCodeや他のIDEから、サポートされたマイクロコントローラ上で実行"
"されているコードをデバッグすることを可能にします。"
#: src/bare-metal/microcontrollers/probe-rs.md:25
msgid "cargo-embed is a binary built using the probe-rs library."
msgstr "cargo-embedはprobe-rsライブラリを利用して生成されたバイナリです。"
#: src/bare-metal/microcontrollers/probe-rs.md:26
msgid ""
"RTT (Real Time Transfers) is a mechanism to transfer data between the debug "
"host and the target through a number of ringbuffers."
msgstr ""
"RTT (Real Time Transfers)はデバッグホストとターゲット間のデータを多くのリング"
"バッファを介してやりとりするためのメカニズムです。"
#: src/bare-metal/microcontrollers/debugging.md:3
msgid "_Embed.toml_:"
msgstr ""
#: src/bare-metal/microcontrollers/debugging.md:13
msgid "In one terminal under `src/bare-metal/microcontrollers/examples/`:"
msgstr ""
"ひとつのターミナルで、`src/bare-metal/microcontrollers/examples/`において下記"
"を実行:"
#: src/bare-metal/microcontrollers/debugging.md:19
msgid "In another terminal in the same directory:"
msgstr "別のターミナルで、同じディレクトリで下記を実行:"
#: src/bare-metal/microcontrollers/debugging.md:21
msgid "On gLinux or Debian:"
msgstr "gLinuxまたはDebianの場合:"
#: src/bare-metal/microcontrollers/debugging.md:34
msgid "In GDB, try running:"
msgstr "GDBで下記を実行してみてください:"
#: src/bare-metal/microcontrollers/other-projects.md:1
#: src/bare-metal/aps/other-projects.md:1
msgid "Other projects"
msgstr "他のプロジェクト"
#: src/bare-metal/microcontrollers/other-projects.md:3
msgid "[RTIC](https://rtic.rs/)"
msgstr ""
#: src/bare-metal/microcontrollers/other-projects.md:4
msgid "\"Real-Time Interrupt-driven Concurrency\""
msgstr "\"Real-Time Interrupt-driven Concurrency\"の略"
#: src/bare-metal/microcontrollers/other-projects.md:5
msgid ""
"Shared resource management, message passing, task scheduling, timer queue"
msgstr ""
"共有リソース管理、メッセージパッシング、タスクスケジューリング、タイマキュー"
"を提供"
#: src/bare-metal/microcontrollers/other-projects.md:6
msgid "[Embassy](https://embassy.dev/)"
msgstr ""
#: src/bare-metal/microcontrollers/other-projects.md:7
msgid "`async` executors with priorities, timers, networking, USB"
msgstr "優先度付き`async` エグゼキュータ、タイマ、ネットワーク、USB"
#: src/bare-metal/microcontrollers/other-projects.md:8
msgid "[TockOS](https://www.tockos.org/documentation/getting-started)"
msgstr ""
#: src/bare-metal/microcontrollers/other-projects.md:9
msgid ""
"Security-focused RTOS with preemptive scheduling and Memory Protection Unit "
"support"
msgstr ""
"セキュリティに焦点をあてたRTOSで、プリエンプティブ・スケジューリングとMemory "
"Protection Unitをサポート"
#: src/bare-metal/microcontrollers/other-projects.md:10
msgid "[Hubris](https://hubris.oxide.computer/)"
msgstr ""
#: src/bare-metal/microcontrollers/other-projects.md:11
msgid ""
"Microkernel RTOS from Oxide Computer Company with memory protection, "
"unprivileged drivers, IPC"
msgstr ""
"Oxide Computer CompanyによるマイクロカーネルのRTOSでメモリ保護、非特権ドライ"
"バ、IPCを提供"
#: src/bare-metal/microcontrollers/other-projects.md:12
msgid "[Bindings for FreeRTOS](https://github.com/lobaro/FreeRTOS-rust)"
msgstr ""
"[FreeRTOSに対するRustバインディング](https://github.com/lobaro/FreeRTOS-rust)"
#: src/bare-metal/microcontrollers/other-projects.md:13
msgid ""
"Some platforms have `std` implementations, e.g. [esp-idf](https://esp-rs."
"github.io/book/overview/using-the-standard-library.html)."
msgstr ""
"いくつかのプラットフォームでは `std`の実装あり、例えば [esp-idf](https://esp-"
"rs.github.io/book/overview/using-the-standard-library.html)。"
#: src/bare-metal/microcontrollers/other-projects.md:18
msgid "RTIC can be considered either an RTOS or a concurrency framework."
msgstr ""
"RTICはRTOSとして捉えることもできますし、並行実行のフレームワークとして捉える"
"こともできます。"
#: src/bare-metal/microcontrollers/other-projects.md:19
msgid "It doesn't include any HALs."
msgstr "他のHALを全く含んでいません。"
#: src/bare-metal/microcontrollers/other-projects.md:20
msgid ""
"It uses the Cortex-M NVIC (Nested Virtual Interrupt Controller) for "
"scheduling rather than a proper kernel."
msgstr ""
"スケジューリングはカーネルではなく、Cortex-M NVIC (Nested Virtual Interrupt "
"Controller)を利用して行います。"
#: src/bare-metal/microcontrollers/other-projects.md:22
msgid "Cortex-M only."
msgstr "Cortex-Mのみの対応です。"
#: src/bare-metal/microcontrollers/other-projects.md:23
msgid ""
"Google uses TockOS on the Haven microcontroller for Titan security keys."
msgstr ""
"GoogleはTockOSをTitanセキュリティキーのHavenマイクロコントローラで利用してい"
"ます。"
#: src/bare-metal/microcontrollers/other-projects.md:24
msgid ""
"FreeRTOS is mostly written in C, but there are Rust bindings for writing "
"applications."
msgstr ""
"FreeRTOS はほとんどCで書かれていますが、アプリケーションを開発するためのRust"
"バインディングが存在します。"
#: src/exercises/bare-metal/morning.md:3
msgid ""
"We will read the direction from an I2C compass, and log the readings to a "
"serial port."
msgstr ""
"I2C接続のコンパスから方位を読み取り、その結果をシリアルポートに出力します。"
#: src/exercises/bare-metal/compass.md:3
msgid ""
"We will read the direction from an I2C compass, and log the readings to a "
"serial port. If you have time, try displaying it on the LEDs somehow too, or "
"use the buttons somehow."
msgstr ""
"I2C接続のコンパスから方位を読み取り、その結果をシリアルポートに出力します。も"
"し時間があれば、LEDやボタンをなんとか利用して方位を出力してみてください。"
#: src/exercises/bare-metal/compass.md:6
msgid "Hints:"
msgstr "ヒント:"
#: src/exercises/bare-metal/compass.md:8
msgid ""
"Check the documentation for the [`lsm303agr`](https://docs.rs/lsm303agr/"
"latest/lsm303agr/) and [`microbit-v2`](https://docs.rs/microbit-v2/latest/"
"microbit/) crates, as well as the [micro:bit hardware](https://tech.microbit."
"org/hardware/)."
msgstr ""
"[`lsm303agr`](https://docs.rs/lsm303agr/latest/lsm303agr/) クレートと "
"[`microbit-v2`](https://docs.rs/microbit-v2/latest/microbit/)クレートのドキュ"
"メント、ならびに[micro:bitハードウェア仕様](https://tech.microbit.org/"
"hardware/)を確認してみてください。"
#: src/exercises/bare-metal/compass.md:11
msgid ""
"The LSM303AGR Inertial Measurement Unit is connected to the internal I2C bus."
msgstr "LSM303AGR慣性計測器は内部のI2Cバスに接続されています。"
#: src/exercises/bare-metal/compass.md:12
msgid ""
"TWI is another name for I2C, so the I2C master peripheral is called TWIM."
msgstr "TWIはI2Cの別名なので、I2CマスタはTWIMという名前になっています。"
#: src/exercises/bare-metal/compass.md:13
msgid ""
"The LSM303AGR driver needs something implementing the `embedded_hal::"
"blocking::i2c::WriteRead` trait. The [`microbit::hal::Twim`](https://docs.rs/"
"microbit-v2/latest/microbit/hal/struct.Twim.html) struct implements this."
msgstr ""
"LSM303AGRドライバは`embedded_hal::blocking::i2c::WriteRead`を実装するものを必"
"要とします。 [`microbit::hal::Twim`](https://docs.rs/microbit-v2/latest/"
"microbit/hal/struct.Twim.html)構造体がこれを実装しています。"
#: src/exercises/bare-metal/compass.md:17
msgid ""
"You have a [`microbit::Board`](https://docs.rs/microbit-v2/latest/microbit/"
"struct.Board.html) struct with fields for the various pins and peripherals."
msgstr ""
"様々なピンや周辺I/Oのための [`microbit::Board`](https://docs.rs/microbit-v2/"
"latest/microbit/struct.Board.html)という構造体があります。"
#: src/exercises/bare-metal/compass.md:19
msgid ""
"You can also look at the [nRF52833 datasheet](https://infocenter.nordicsemi."
"com/pdf/nRF52833_PS_v1.5.pdf) if you want, but it shouldn't be necessary for "
"this exercise."
msgstr ""
"[nRF52833データシート](https://infocenter.nordicsemi.com/pdf/"
"nRF52833_PS_v1.5.pdf)を見ることもできますが、この練習問題のためには必要ないは"
"ずです。"
#: src/exercises/bare-metal/compass.md:23
msgid ""
"Download the [exercise template](../../comprehensive-rust-exercises.zip) and "
"look in the `compass` directory for the following files."
msgstr ""
"[練習問題のテンプレート](../../comprehensive-rust-exercises.zip) をダウンロー"
"ドして、`compass`というディレクトリの中にある下記のファイルを見てください。"
#: src/exercises/bare-metal/compass.md:26 src/exercises/bare-metal/rtc.md:19
msgid "_src/main.rs_:"
msgstr ""
#: src/exercises/bare-metal/compass.md:44
#: src/exercises/bare-metal/solutions-morning.md:32
msgid "// Configure serial port.\n"
msgstr ""
#: src/exercises/bare-metal/compass.md:52
msgid ""
"// Set up the I2C controller and Inertial Measurement Unit.\n"
" // TODO\n"
msgstr ""
#: src/exercises/bare-metal/compass.md:55
#: src/exercises/bare-metal/solutions-morning.md:56
msgid "\"Ready.\""
msgstr ""
#: src/exercises/bare-metal/compass.md:58
msgid ""
"// Read compass data and log it to the serial port.\n"
" // TODO\n"
msgstr ""
#: src/exercises/bare-metal/compass.md:64 src/exercises/bare-metal/rtc.md:385
msgid "_Cargo.toml_ (you shouldn't need to change this):"
msgstr "_Cargo.toml_ (変更は不要なはずです):"
#: src/exercises/bare-metal/compass.md:85
msgid "_Embed.toml_ (you shouldn't need to change this):"
msgstr "_Embed.toml_ (変更は不要なはずです):"
#: src/exercises/bare-metal/compass.md:100 src/exercises/bare-metal/rtc.md:985
msgid "_.cargo/config.toml_ (you shouldn't need to change this):"
msgstr "_.cargo/config.toml_ (変更は不要なはずです):"
#: src/exercises/bare-metal/compass.md:112
msgid "See the serial output on Linux with:"
msgstr "Linuxではシリアルポート出力を下記のコマンドで確認します:"
#: src/exercises/bare-metal/compass.md:118
msgid ""
"Or on Mac OS something like (the device name may be slightly different):"
msgstr "Mac OSではこんな感じになります(デバイス名が少し違うかもしれません):"
#: src/exercises/bare-metal/compass.md:124
msgid "Use Ctrl+A Ctrl+Q to quit picocom."
msgstr "Ctrl+A Ctrl+Q でpicocomを終了します。"
#: src/bare-metal/aps.md:1
msgid "Application processors"
msgstr "アプリケーションプロセッサ"
#: src/bare-metal/aps.md:3
msgid ""
"So far we've talked about microcontrollers, such as the Arm Cortex-M series. "
"Now let's try writing something for Cortex-A. For simplicity we'll just work "
"with QEMU's aarch64 ['virt'](https://qemu-project.gitlab.io/qemu/system/arm/"
"virt.html) board."
msgstr ""
"ここまではArm Cortex-Mシリーズのようなマイクロコントローラについて見てきまし"
"た。今度はCortex-Aを対象として何かを書いてみましょう。簡単化のために、ここで"
"は(本物のハードウェアではなく)QEMUのaarch64 ['virt'](https://qemu-project."
"gitlab.io/qemu/system/arm/virt.html)ボードを利用します。"
#: src/bare-metal/aps.md:9
msgid ""
"Broadly speaking, microcontrollers don't have an MMU or multiple levels of "
"privilege (exception levels on Arm CPUs, rings on x86), while application "
"processors do."
msgstr ""
"大まかに言って、マイクロコントローラがMMUや複数の特権レベル(Arm CPUにおける"
"例外レベル、x86におけるリング)を持たないのに対し、アプリケーションプロセッサ"
"はこれらを持っています。"
#: src/bare-metal/aps.md:11
msgid ""
"QEMU supports emulating various different machines or board models for each "
"architecture. The 'virt' board doesn't correspond to any particular real "
"hardware, but is designed purely for virtual machines."
msgstr ""
"QEMU は個々のアーキテクチャに対して様々な異なるマシンやボードモデルをサポート"
"しています。今回使う 'virt' ボードは特定の本物のハードウェアに対応したもので"
"はなく、純粋に仮想マシンとして設計されたものです。"
#: src/bare-metal/aps/entry-point.md:3
msgid ""
"Before we can start running Rust code, we need to do some initialisation."
msgstr "Rustのコードを実行できるようになる前にいくつかの初期化が必要です。"
#: src/bare-metal/aps/entry-point.md:5
msgid ""
"```armasm\n"
".section .init.entry, \"ax\"\n"
".global entry\n"
"entry:\n"
" /*\n"
" * Load and apply the memory management configuration, ready to enable "
"MMU and\n"
" * caches.\n"
" */\n"
" adrp x30, idmap\n"
" msr ttbr0_el1, x30\n"
"\n"
" mov_i x30, .Lmairval\n"
" msr mair_el1, x30\n"
"\n"
" mov_i x30, .Ltcrval\n"
" /* Copy the supported PA range into TCR_EL1.IPS. */\n"
" mrs x29, id_aa64mmfr0_el1\n"
" bfi x30, x29, #32, #4\n"
"\n"
" msr tcr_el1, x30\n"
"\n"
" mov_i x30, .Lsctlrval\n"
"\n"
" /*\n"
" * Ensure everything before this point has completed, then invalidate "
"any\n"
" * potentially stale local TLB entries before they start being used.\n"
" */\n"
" isb\n"
" tlbi vmalle1\n"
" ic iallu\n"
" dsb nsh\n"
" isb\n"
"\n"
" /*\n"
" * Configure sctlr_el1 to enable MMU and cache and don't proceed until "
"this\n"
" * has completed.\n"
" */\n"
" msr sctlr_el1, x30\n"
" isb\n"
"\n"
" /* Disable trapping floating point access in EL1. */\n"
" mrs x30, cpacr_el1\n"
" orr x30, x30, #(0x3 << 20)\n"
" msr cpacr_el1, x30\n"
" isb\n"
"\n"
" /* Zero out the bss section. */\n"
" adr_l x29, bss_begin\n"
" adr_l x30, bss_end\n"
"0: cmp x29, x30\n"
" b.hs 1f\n"
" stp xzr, xzr, [x29], #16\n"
" b 0b\n"
"\n"
"1: /* Prepare the stack. */\n"
" adr_l x30, boot_stack_end\n"
" mov sp, x30\n"
"\n"
" /* Set up exception vector. */\n"
" adr x30, vector_table_el1\n"
" msr vbar_el1, x30\n"
"\n"
" /* Call into Rust code. */\n"
" bl main\n"
"\n"
" /* Loop forever waiting for interrupts. */\n"
"2: wfi\n"
" b 2b\n"
"```"
msgstr ""
#: src/bare-metal/aps/entry-point.md:77
msgid ""
"This is the same as it would be for C: initialising the processor state, "
"zeroing the BSS, and setting up the stack pointer."
msgstr ""
"この初期化内容はCの場合と同じになります。プロセッサ状態を初期化して、BSSをゼ"
"ロ埋めして、スタックポインタを設定します。"
#: src/bare-metal/aps/entry-point.md:79
msgid ""
"The BSS (block starting symbol, for historical reasons) is the part of the "
"object file which containing statically allocated variables which are "
"initialised to zero. They are omitted from the image, to avoid wasting space "
"on zeroes. The compiler assumes that the loader will take care of zeroing "
"them."
msgstr ""
"BSS(歴史的な理由によりblock starting symbolと呼ばれているもの)はオブジェク"
"トファイルにおいてゼロ初期化される静的な変数を含む部分です。この部分はゼロに"
"よる領域の浪費を避けるためにイメージからは除外されています。コンパイラはロー"
"ダがこの領域をゼロ初期化することを想定しているのです。"
#: src/bare-metal/aps/entry-point.md:83
msgid ""
"The BSS may already be zeroed, depending on how memory is initialised and "
"the image is loaded, but we zero it to be sure."
msgstr ""
"メモリの初期化方法やイメージのロード方法によってはBSSはすでにゼロ埋めされてい"
"ることがありますが、ここでは念の為にゼロ埋めしています。"
#: src/bare-metal/aps/entry-point.md:85
msgid ""
"We need to enable the MMU and cache before reading or writing any memory. If "
"we don't:"
msgstr ""
"いかなるメモリのreadやwriteよりも前にMMUとキャッシュを有効化する必要がありま"
"す。それをしないと:"
#: src/bare-metal/aps/entry-point.md:86
msgid ""
"Unaligned accesses will fault. We build the Rust code for the `aarch64-"
"unknown-none` target which sets `+strict-align` to prevent the compiler "
"generating unaligned accesses, so it should be fine in this case, but this "
"is not necessarily the case in general."
msgstr ""
"アラインされていないアクセスがフォールトになります。我々はコンパイラがアライ"
"ンされていないアクセスを生成しないように`+strict-align`オプション を設定する"
"`aarch64-unknown-none` ターゲット向けにRustコードをビルドします。そのためここ"
"では問題にはなりませんが、一般的にはそうとは言えません。"
#: src/bare-metal/aps/entry-point.md:89
msgid ""
"If it were running in a VM, this can lead to cache coherency issues. The "
"problem is that the VM is accessing memory directly with the cache disabled, "
"while the host has cacheable aliases to the same memory. Even if the host "
"doesn't explicitly access the memory, speculative accesses can lead to cache "
"fills, and then changes from one or the other will get lost when the cache "
"is cleaned or the VM enables the cache. (Cache is keyed by physical address, "
"not VA or IPA.)"
msgstr ""
"もしVM上で実行していたとすると、キャッシュコヒーレンシーの問題を起こすことが"
"あります。問題なのはVMがキャッシュを無効化したまま直接メモリにアクセスしてい"
"るのに対し、ホストは同じメモリに対してキャッシュ可能なエイリアスを持ってしま"
"うということです。ホストが仮に明示的にメモリにアクセスしないとしても、投機的"
"なアクセスによりキャッシュフィルが起きることがあります。そうなると、ホストが"
"キャッシュをフラッシュするかVMがキャッシュを有効化したときに、VMかホストのど"
"ちらかによる変更が失われてしまいます。(キャッシュは仮想アドレスやIPAではなく"
"物理アドレスをキーとしてアクセスされます)"
#: src/bare-metal/aps/entry-point.md:94
msgid ""
"For simplicity, we just use a hardcoded pagetable (see `idmap.S`) which "
"identity maps the first 1 GiB of address space for devices, the next 1 GiB "
"for DRAM, and another 1 GiB higher up for more devices. This matches the "
"memory layout that QEMU uses."
msgstr ""
"単純化のために、ハードコードしたページテーブル(`idmap.S`参照)を利用します。"
"このページテーブルは最初の1GiBをデバイス用に、次の1GiBをDRAM用に、次の1GiBを"
"さらなるデバイス用に透過的にマップします。これはQEMUのメモリレイアウトに合致"
"します。"
#: src/bare-metal/aps/entry-point.md:97
msgid ""
"We also set up the exception vector (`vbar_el1`), which we'll see more about "
"later."
msgstr ""
"例外ベクタ(`vbar_el1`)も設定します。これに関しては後ほど詳しく見ます。"
#: src/bare-metal/aps/entry-point.md:98
msgid ""
"All examples this afternoon assume we will be running at exception level 1 "
"(EL1). If you need to run at a different exception level you'll need to "
"modify `entry.S` accordingly."
msgstr ""
"今日の午後に扱うすべての例は例外レベル1(EL1)で実行されることを想定していま"
"す。もし、別の例外レベルで実行する必要がある場合には、`entry.S`をそれに合わせ"
"て変更する必要があります。"
#: src/bare-metal/aps/inline-assembly.md:1
msgid "Inline assembly"
msgstr "インラインアセンブリ"
#: src/bare-metal/aps/inline-assembly.md:3
msgid ""
"Sometimes we need to use assembly to do things that aren't possible with "
"Rust code. For example, to make an HVC (hypervisor call) to tell the "
"firmware to power off the system:"
msgstr ""
"時折Rustコードでは書けないことを行うためにアセンブリ言語を使う必要がありま"
"す。例えば、電源を落とすためにファームウェアに対してHVC(ハイパーバイザコー"
"ル)を発行する場合です:"
#: src/bare-metal/aps/inline-assembly.md:19
msgid ""
"// Safe because this only uses the declared registers and doesn't do\n"
" // anything with memory.\n"
msgstr ""
#: src/bare-metal/aps/inline-assembly.md:22
msgid "\"hvc #0\""
msgstr ""
#: src/bare-metal/aps/inline-assembly.md:23
msgid "\"w0\""
msgstr ""
#: src/bare-metal/aps/inline-assembly.md:24
msgid "\"w1\""
msgstr ""
#: src/bare-metal/aps/inline-assembly.md:25
msgid "\"w2\""
msgstr ""
#: src/bare-metal/aps/inline-assembly.md:26
msgid "\"w3\""
msgstr ""
#: src/bare-metal/aps/inline-assembly.md:27
msgid "\"w4\""
msgstr ""
#: src/bare-metal/aps/inline-assembly.md:28
msgid "\"w5\""
msgstr ""
#: src/bare-metal/aps/inline-assembly.md:29
msgid "\"w6\""
msgstr ""
#: src/bare-metal/aps/inline-assembly.md:30
msgid "\"w7\""
msgstr ""
#: src/bare-metal/aps/inline-assembly.md:39
msgid ""
"(If you actually want to do this, use the [`smccc`](https://crates.io/crates/"
"smccc) crate which has wrappers for all these functions.)"
msgstr ""
"(もし実際に電源を落とすプログラムを書きたい場合は、これらのすべての機能に対"
"するラッパーを提供している[`smccc`](https://crates.io/crates/smccc)を使うと良"
"いでしょう。)"
#: src/bare-metal/aps/inline-assembly.md:43
msgid ""
"PSCI is the Arm Power State Coordination Interface, a standard set of "
"functions to manage system and CPU power states, among other things. It is "
"implemented by EL3 firmware and hypervisors on many systems."
msgstr ""
"PSCI はArmのPower State Coordination Interfaceのことであり、これはシステムや"
"CPU電力状態管理の機能を含む標準的なセットです。これは多くのシステムでEL3"
"ファームウェアとハイパーバイザにより実装されています。"
#: src/bare-metal/aps/inline-assembly.md:46
msgid ""
"The `0 => _` syntax means initialise the register to 0 before running the "
"inline assembly code, and ignore its contents afterwards. We need to use "
"`inout` rather than `in` because the call could potentially clobber the "
"contents of the registers."
msgstr ""
"`0 => _` というシンタックスは、インラインアセンブリを実行する前にレジスタをゼ"
"ロで初期化し、実行後はその値は気にしないということを示しています。`in`ではな"
"く`inout`を使う必要があるのは、この実行でレジスタの値を上書きしてしまう可能性"
"があるからです。"
#: src/bare-metal/aps/inline-assembly.md:49
msgid ""
"This `main` function needs to be `#[no_mangle]` and `extern \"C\"` because "
"it is called from our entry point in `entry.S`."
msgstr ""
"この `main` 関数は`entry.S`にあるエントリポイントから呼ばれるため、"
"`#[no_mangle]`と`extern \"C\"`を必要とします。"
#: src/bare-metal/aps/inline-assembly.md:51
msgid ""
"`_x0`–`_x3` are the values of registers `x0`–`x3`, which are conventionally "
"used by the bootloader to pass things like a pointer to the device tree. "
"According to the standard aarch64 calling convention (which is what `extern "
"\"C\"` specifies to use), registers `x0`–`x7` are used for the first 8 "
"arguments passed to a function, so `entry.S` doesn't need to do anything "
"special except make sure it doesn't change these registers."
msgstr ""
"`_x0`–`_x3`はレジスタ`x0`–`x3`の値であり、慣習的にブートロードがデバイスツ"
"リーなどへのポインタを渡すのに利用されています。(`extern \"C\"`により指定さ"
"れた)aarch64 の関数コール規約ではレジスタ`x0`–`x7`は最初の8個の引数を関数に"
"渡すのに利用されることになっているため、`entry.S` はこれらの値を変更しないよ"
"うにする以外の特別なことをする必要はありません。"
#: src/bare-metal/aps/inline-assembly.md:56
msgid ""
"Run the example in QEMU with `make qemu_psci` under `src/bare-metal/aps/"
"examples`."
msgstr ""
"この例を`src/bare-metal/aps/examples`において`make qemu_psci`とすることでQEMU"
"により実行してみましょう。"
#: src/bare-metal/aps/mmio.md:1
msgid "Volatile memory access for MMIO"
msgstr "MMIOに対するvolatileアクセス"
#: src/bare-metal/aps/mmio.md:3
msgid "Use `pointer::read_volatile` and `pointer::write_volatile`."
msgstr "`pointer::read_volatile`と`pointer::write_volatile`を使います。"
#: src/bare-metal/aps/mmio.md:4
msgid "Never hold a reference."
msgstr "絶対に参照を保持してはいけません。"
#: src/bare-metal/aps/mmio.md:5
msgid ""
"`addr_of!` lets you get fields of structs without creating an intermediate "
"reference."
msgstr ""
"`addr_of!`を用いると、中間的な参照を作らずに構造体のフィールドにアクセスする"
"ことができます。"
#: src/bare-metal/aps/mmio.md:9
msgid ""
"Volatile access: read or write operations may have side-effects, so prevent "
"the compiler or hardware from reordering, duplicating or eliding them."
msgstr ""
"Volatileアクセス:MMIO領域に対するreadやwriteは副作用があることがあるので、コ"
"ンパイラやハードウェアが実行順序を変更したり、複製したり、省略したりできない"
"ようにするためのものです。"
#: src/bare-metal/aps/mmio.md:11
msgid ""
"Usually if you write and then read, e.g. via a mutable reference, the "
"compiler may assume that the value read is the same as the value just "
"written, and not bother actually reading memory."
msgstr ""
"通常は、例えばある可変参照に対してライトしリードすると、コンパイラはライトし"
"たのと同じ値がリードで読み出されると想定し、実際にメモリをリードする必要はな"
"いと判断します。"
#: src/bare-metal/aps/mmio.md:13
msgid ""
"Some existing crates for volatile access to hardware do hold references, but "
"this is unsound. Whenever a reference exist, the compiler may choose to "
"dereference it."
msgstr ""
"ハードウェアへのvolatileアクセスを行うための既存のクレートには参照を保持する"
"ものがありますが、これは健全ではありません。参照が存在する間はいつでもコンパ"
"イラがその参照を外して(MMIO領域にアクセスして)しまう可能性があります。"
#: src/bare-metal/aps/mmio.md:15
msgid ""
"Use the `addr_of!` macro to get struct field pointers from a pointer to the "
"struct."
msgstr ""
"構造体のポインタからそのフィールドへのポインタを得るには`addr_of!` マクロを"
"使ってください。"
#: src/bare-metal/aps/uart.md:1
msgid "Let's write a UART driver"
msgstr "UARTドライバを書いてみましょう"
#: src/bare-metal/aps/uart.md:3
msgid ""
"The QEMU 'virt' machine has a [PL011](https://developer.arm.com/"
"documentation/ddi0183/g) UART, so let's write a driver for that."
msgstr ""
"QEMUの'virt' マシンには[PL011](https://developer.arm.com/documentation/"
"ddi0183/g)というUARTがあるので、それに対するドライバを書いてみましょう。"
#: src/bare-metal/aps/uart.md:9
msgid "/// Minimal driver for a PL011 UART.\n"
msgstr ""
#: src/bare-metal/aps/uart.md:17 src/bare-metal/aps/better-uart/driver.md:13
msgid ""
"/// Constructs a new instance of the UART driver for a PL011 device at the\n"
" /// given base address.\n"
" ///\n"
" /// # Safety\n"
" ///\n"
" /// The given base address must point to the 8 MMIO control registers of "
"a\n"
" /// PL011 device, which must be mapped into the address space of the "
"process\n"
" /// as device memory and not have any other aliases.\n"
msgstr ""
#: src/bare-metal/aps/uart.md:29 src/bare-metal/aps/better-uart/driver.md:27
#: src/exercises/bare-metal/rtc.md:336
msgid "/// Writes a single byte to the UART.\n"
msgstr ""
#: src/bare-metal/aps/uart.md:31 src/bare-metal/aps/better-uart/driver.md:29
#: src/exercises/bare-metal/rtc.md:338
msgid "// Wait until there is room in the TX buffer.\n"
msgstr ""
#: src/bare-metal/aps/uart.md:34 src/bare-metal/aps/uart.md:46
msgid ""
"// Safe because we know that the base address points to the control\n"
" // registers of a PL011 device which is appropriately mapped.\n"
msgstr ""
#: src/bare-metal/aps/uart.md:37 src/bare-metal/aps/better-uart/driver.md:35
#: src/exercises/bare-metal/rtc.md:344
msgid "// Write to the TX buffer.\n"
msgstr ""
#: src/bare-metal/aps/uart.md:41 src/bare-metal/aps/better-uart/driver.md:39
#: src/exercises/bare-metal/rtc.md:348
msgid "// Wait until the UART is no longer busy.\n"
msgstr ""
#: src/bare-metal/aps/uart.md:55
msgid ""
"Note that `Uart::new` is unsafe while the other methods are safe. This is "
"because as long as the caller of `Uart::new` guarantees that its safety "
"requirements are met (i.e. that there is only ever one instance of the "
"driver for a given UART, and nothing else aliasing its address space), then "
"it is always safe to call `write_byte` later because we can assume the "
"necessary preconditions."
msgstr ""
"`Uart::new`がアンセーフでその他のメソッドがセーフであるということに注目してく"
"ださい。これは、`Uart::new`の安全性要求が満たされている(すなわち特定のUARTに"
"対して一つしかドライバのインスタンスが存在せず、そのアドレス空間に対してエイ"
"リアスが全く存在しない)ことをその呼び出し元が保証する限り、それ以降は必要な"
"事前条件が満たされていると想定することができ`write_byte`を常に安全に呼び出す"
"ことができるようになることが理由です。"
#: src/bare-metal/aps/uart.md:60
msgid ""
"We could have done it the other way around (making `new` safe but "
"`write_byte` unsafe), but that would be much less convenient to use as every "
"place that calls `write_byte` would need to reason about the safety"
msgstr ""
"逆に(`new`をセーフにして、`write_byte` をアンセーフに)することもできました"
"が、そうすると`write_byte`の全呼び出し箇所において安全性を考慮しなければなら"
"なくなり、利便性が低下します"
#: src/bare-metal/aps/uart.md:63
msgid ""
"This is a common pattern for writing safe wrappers of unsafe code: moving "
"the burden of proof for soundness from a large number of places to a smaller "
"number of places."
msgstr ""
"これはアンセーフなコードに対してセーフなラッパーを構築する場合の共通パターン"
"です:健全性に関する証明に関する労力を多数の場所から少数の場所に集約します。"
#: src/bare-metal/aps/uart/traits.md:1
msgid "More traits"
msgstr "他のトレイト"
#: src/bare-metal/aps/uart/traits.md:3
msgid ""
"We derived the `Debug` trait. It would be useful to implement a few more "
"traits too."
msgstr ""
"ここでは`Debug`トレイトを導出しました。この他にもいくつかのトレイトを実装する"
"と良いでしょう。"
#: src/bare-metal/aps/uart/traits.md:16 src/exercises/bare-metal/rtc.md:379
#: src/exercises/bare-metal/solutions-afternoon.md:231
msgid ""
"// Safe because it just contains a pointer to device memory, which can be\n"
"// accessed from any context.\n"
msgstr ""
#: src/bare-metal/aps/uart/traits.md:24
msgid ""
"Implementing `Write` lets us use the `write!` and `writeln!` macros with our "
"`Uart` type."
msgstr ""
"`Write`を実装すると、`Uart` タイプに対して `write!`と`writeln!`マクロが利用で"
"きるようになります。"
#: src/bare-metal/aps/uart/traits.md:25
msgid ""
"Run the example in QEMU with `make qemu_minimal` under `src/bare-metal/aps/"
"examples`."
msgstr ""
"この例を`src/bare-metal/aps/examples`において`make qemu_minimal`とすること"
"で、QEMUにより実行してみましょう。"
#: src/bare-metal/aps/better-uart.md:1
msgid "A better UART driver"
msgstr "UARTドライバの改善"
#: src/bare-metal/aps/better-uart.md:3
msgid ""
"The PL011 actually has [a bunch more registers](https://developer.arm.com/"
"documentation/ddi0183/g/programmers-model/summary-of-registers), and adding "
"offsets to construct pointers to access them is error-prone and hard to "
"read. Plus, some of them are bit fields which would be nice to access in a "
"structured way."
msgstr ""
"実際のところPL011には[もっと多くのレジスタ](https://developer.arm.com/"
"documentation/ddi0183/g/programmers-model/summary-of-registers)があり、それら"
"にアクセスするためにオフセットを足してポインタを得ることは間違えになりやす"
"く、可読性を低下させます。さらに、いくつかはビットフィールドなので、構造化さ"
"れた方法でアクセスできたほうが良いでしょう。"
#: src/bare-metal/aps/better-uart.md:7
msgid "Offset"
msgstr "オフセット"
#: src/bare-metal/aps/better-uart.md:7
msgid "Register name"
msgstr "レジスタ名"
#: src/bare-metal/aps/better-uart.md:7
msgid "Width"
msgstr "幅"
#: src/bare-metal/aps/better-uart.md:9
msgid "0x00"
msgstr ""
#: src/bare-metal/aps/better-uart.md:9
msgid "DR"
msgstr ""
#: src/bare-metal/aps/better-uart.md:9
msgid "12"
msgstr ""
#: src/bare-metal/aps/better-uart.md:10
msgid "0x04"
msgstr ""
#: src/bare-metal/aps/better-uart.md:10
msgid "RSR"
msgstr ""
#: src/bare-metal/aps/better-uart.md:10
msgid "4"
msgstr ""
#: src/bare-metal/aps/better-uart.md:11
msgid "0x18"
msgstr ""
#: src/bare-metal/aps/better-uart.md:11
msgid "FR"
msgstr ""
#: src/bare-metal/aps/better-uart.md:11
msgid "9"
msgstr ""
#: src/bare-metal/aps/better-uart.md:12
msgid "0x20"
msgstr ""
#: src/bare-metal/aps/better-uart.md:12
msgid "ILPR"
msgstr ""
#: src/bare-metal/aps/better-uart.md:12 src/bare-metal/aps/better-uart.md:15
msgid "8"
msgstr ""
#: src/bare-metal/aps/better-uart.md:13
msgid "0x24"
msgstr ""
#: src/bare-metal/aps/better-uart.md:13
msgid "IBRD"
msgstr ""
#: src/bare-metal/aps/better-uart.md:13 src/bare-metal/aps/better-uart.md:16
msgid "16"
msgstr ""
#: src/bare-metal/aps/better-uart.md:14
msgid "0x28"
msgstr ""
#: src/bare-metal/aps/better-uart.md:14
msgid "FBRD"
msgstr ""
#: src/bare-metal/aps/better-uart.md:14 src/bare-metal/aps/better-uart.md:17
msgid "6"
msgstr ""
#: src/bare-metal/aps/better-uart.md:15
msgid "0x2c"
msgstr ""
#: src/bare-metal/aps/better-uart.md:15
msgid "LCR_H"
msgstr ""
#: src/bare-metal/aps/better-uart.md:16
msgid "0x30"
msgstr ""
#: src/bare-metal/aps/better-uart.md:16
msgid "CR"
msgstr ""
#: src/bare-metal/aps/better-uart.md:17
msgid "0x34"
msgstr ""
#: src/bare-metal/aps/better-uart.md:17
msgid "IFLS"
msgstr ""
#: src/bare-metal/aps/better-uart.md:18
msgid "0x38"
msgstr ""
#: src/bare-metal/aps/better-uart.md:18
msgid "IMSC"
msgstr ""
#: src/bare-metal/aps/better-uart.md:18 src/bare-metal/aps/better-uart.md:19
#: src/bare-metal/aps/better-uart.md:20 src/bare-metal/aps/better-uart.md:21
msgid "11"
msgstr ""
#: src/bare-metal/aps/better-uart.md:19
msgid "0x3c"
msgstr ""
#: src/bare-metal/aps/better-uart.md:19
msgid "RIS"
msgstr ""
#: src/bare-metal/aps/better-uart.md:20
msgid "0x40"
msgstr ""
#: src/bare-metal/aps/better-uart.md:20
msgid "MIS"
msgstr ""
#: src/bare-metal/aps/better-uart.md:21
msgid "0x44"
msgstr ""
#: src/bare-metal/aps/better-uart.md:21
msgid "ICR"
msgstr ""
#: src/bare-metal/aps/better-uart.md:22
msgid "0x48"
msgstr ""
#: src/bare-metal/aps/better-uart.md:22
msgid "DMACR"
msgstr ""
#: src/bare-metal/aps/better-uart.md:22
msgid "3"
msgstr ""
#: src/bare-metal/aps/better-uart.md:26
msgid "There are also some ID registers which have been omitted for brevity."
msgstr "いくつかのIDレジスタは簡単化のための省略しています。"
#: src/bare-metal/aps/better-uart/bitflags.md:3
msgid ""
"The [`bitflags`](https://crates.io/crates/bitflags) crate is useful for "
"working with bitflags."
msgstr ""
"[`bitflags`](https://crates.io/crates/bitflags) クレートはビットフラグを扱う"
"のに便利です。"
#: src/bare-metal/aps/better-uart/bitflags.md:9
#: src/exercises/bare-metal/rtc.md:238
msgid "/// Flags from the UART flag register.\n"
msgstr ""
#: src/bare-metal/aps/better-uart/bitflags.md:13
#: src/exercises/bare-metal/rtc.md:242
msgid "/// Clear to send.\n"
msgstr ""
#: src/bare-metal/aps/better-uart/bitflags.md:15
#: src/exercises/bare-metal/rtc.md:244
msgid "/// Data set ready.\n"
msgstr ""
#: src/bare-metal/aps/better-uart/bitflags.md:17
#: src/exercises/bare-metal/rtc.md:246
msgid "/// Data carrier detect.\n"
msgstr ""
#: src/bare-metal/aps/better-uart/bitflags.md:19
#: src/exercises/bare-metal/rtc.md:248
msgid "/// UART busy transmitting data.\n"
msgstr ""
#: src/bare-metal/aps/better-uart/bitflags.md:21
#: src/exercises/bare-metal/rtc.md:250
msgid "/// Receive FIFO is empty.\n"
msgstr ""
#: src/bare-metal/aps/better-uart/bitflags.md:23
#: src/exercises/bare-metal/rtc.md:252
msgid "/// Transmit FIFO is full.\n"
msgstr ""
#: src/bare-metal/aps/better-uart/bitflags.md:25
#: src/exercises/bare-metal/rtc.md:254
msgid "/// Receive FIFO is full.\n"
msgstr ""
#: src/bare-metal/aps/better-uart/bitflags.md:27
#: src/exercises/bare-metal/rtc.md:256
msgid "/// Transmit FIFO is empty.\n"
msgstr ""
#: src/bare-metal/aps/better-uart/bitflags.md:29
#: src/exercises/bare-metal/rtc.md:258
msgid "/// Ring indicator.\n"
msgstr ""
#: src/bare-metal/aps/better-uart/bitflags.md:37
msgid ""
"The `bitflags!` macro creates a newtype something like `Flags(u16)`, along "
"with a bunch of method implementations to get and set flags."
msgstr ""
"`bitflags!`マクロは`Flags(u16)`のような新しいタイプを生成し、フラグを読み書き"
"するための多くのメソッド実装を一緒に提供します。"
#: src/bare-metal/aps/better-uart/registers.md:1
msgid "Multiple registers"
msgstr "複数のレジスタ"
#: src/bare-metal/aps/better-uart/registers.md:3
msgid ""
"We can use a struct to represent the memory layout of the UART's registers."
msgstr ""
"構造体を使ってUARTのレジスタのメモリレイアウトを表現することができます。"
#: src/bare-metal/aps/better-uart/registers.md:41
msgid ""
"[`#[repr(C)]`](https://doc.rust-lang.org/reference/type-layout.html#the-c-"
"representation) tells the compiler to lay the struct fields out in order, "
"following the same rules as C. This is necessary for our struct to have a "
"predictable layout, as default Rust representation allows the compiler to "
"(among other things) reorder fields however it sees fit."
msgstr ""
"[`#[repr(C)]`](https://doc.rust-lang.org/reference/type-layout.html#the-c-"
"representation) はコンパイラに対して、Cと同じ規則に従って構造体のフィールドを"
"定義されている順番で配置することを指示します。これは構造体のレイアウトを予測"
"可能にするために必要です。なぜならば、Rust標準の表現はコンパイラがフィールド"
"を好きなように並び替えること(他にも色々とありますが)を許しているからです。"
#: src/bare-metal/aps/better-uart/driver.md:3
msgid "Now let's use the new `Registers` struct in our driver."
msgstr "新しく定義した`Registers` 構造体を我々のドライバで使ってみましょう。"
#: src/bare-metal/aps/better-uart/driver.md:6
msgid "/// Driver for a PL011 UART.\n"
msgstr ""
#: src/bare-metal/aps/better-uart/driver.md:32
#: src/bare-metal/aps/better-uart/driver.md:55
#: src/exercises/bare-metal/rtc.md:341 src/exercises/bare-metal/rtc.md:364
msgid ""
"// Safe because we know that self.registers points to the control\n"
" // registers of a PL011 device which is appropriately mapped.\n"
msgstr ""
#: src/bare-metal/aps/better-uart/driver.md:43
#: src/exercises/bare-metal/rtc.md:352
msgid ""
"/// Reads and returns a pending byte, or `None` if nothing has been "
"received.\n"
msgstr ""
#: src/bare-metal/aps/better-uart/driver.md:49
#: src/exercises/bare-metal/rtc.md:358
msgid "// TODO: Check for error conditions in bits 8-11.\n"
msgstr ""
#: src/bare-metal/aps/better-uart/driver.md:64
msgid ""
"Note the use of `addr_of!` / `addr_of_mut!` to get pointers to individual "
"fields without creating an intermediate reference, which would be unsound."
msgstr ""
"`addr_of!`と`addr_of_mut!` を使用して個々のフィールドに対するポインタを取得す"
"ることで、不健全となってしまう中間的な参照を作らずに済んでいることに注目して"
"ください。"
#: src/bare-metal/aps/better-uart/using.md:1
#: src/bare-metal/aps/logging/using.md:1
msgid "Using it"
msgstr "使用例"
#: src/bare-metal/aps/better-uart/using.md:3
msgid ""
"Let's write a small program using our driver to write to the serial console, "
"and echo incoming bytes."
msgstr ""
"我々のドライバを使って、シリアルコンソールにライトし、そして入力されたバイト"
"をエコーする小さなプログラムを書いてみましょう。"
#: src/bare-metal/aps/better-uart/using.md:19
#: src/bare-metal/aps/logging/using.md:18 src/exercises/bare-metal/rtc.md:41
#: src/exercises/bare-metal/solutions-afternoon.md:33
msgid "/// Base address of the primary PL011 UART.\n"
msgstr ""
#: src/bare-metal/aps/better-uart/using.md:25
#: src/bare-metal/aps/logging/using.md:24 src/exercises/bare-metal/rtc.md:47
#: src/exercises/bare-metal/solutions-afternoon.md:44
msgid ""
"// Safe because `PL011_BASE_ADDRESS` is the base address of a PL011 device,\n"
" // and nothing else accesses that address range.\n"
msgstr ""
#: src/bare-metal/aps/better-uart/using.md:29
#: src/bare-metal/aps/logging/using.md:29
msgid "\"main({x0:#x}, {x1:#x}, {x2:#x}, {x3:#x})\""
msgstr ""
#: src/bare-metal/aps/better-uart/using.md:35
msgid "b'\\r'"
msgstr ""
#: src/bare-metal/aps/better-uart/using.md:36
#: src/async/pitfalls/cancellation.md:27
msgid "b'\\n'"
msgstr ""
#: src/bare-metal/aps/better-uart/using.md:38
msgid "b'q'"
msgstr ""
#: src/bare-metal/aps/better-uart/using.md:44
msgid "\"Bye!\""
msgstr ""
#: src/bare-metal/aps/better-uart/using.md:51
msgid ""
"As in the [inline assembly](../inline-assembly.md) example, this `main` "
"function is called from our entry point code in `entry.S`. See the speaker "
"notes there for details."
msgstr ""
"[インラインアセンブリ](../inline-assembly.md) の例と同じように、この`main`関"
"数は`entry.S`におけるエントリポイントから呼び出されます。詳細はそちらの"
"speaker notesを参照してください。"
#: src/bare-metal/aps/better-uart/using.md:53
msgid ""
"Run the example in QEMU with `make qemu` under `src/bare-metal/aps/examples`."
msgstr ""
"この例を`src/bare-metal/aps/examples`において`make qemu`とすることでQEMUによ"
"り実行してみましょう。"
#: src/bare-metal/aps/logging.md:3
msgid ""
"It would be nice to be able to use the logging macros from the [`log`]"
"(https://crates.io/crates/log) crate. We can do this by implementing the "
"`Log` trait."
msgstr ""
"[`log`](https://crates.io/crates/log) クレートが提供するログ用マクロを使える"
"と良いでしょう。これは`Log`トレイトを実装することで可能になります。"
#: src/bare-metal/aps/logging.md:28 src/exercises/bare-metal/rtc.md:190
msgid "\"[{}] {}\""
msgstr ""
#: src/bare-metal/aps/logging.md:37 src/exercises/bare-metal/rtc.md:199
msgid "/// Initialises UART logger.\n"
msgstr ""
#: src/bare-metal/aps/logging.md:50
msgid ""
"The unwrap in `log` is safe because we initialise `LOGGER` before calling "
"`set_logger`."
msgstr ""
"`LOGGER` を`set_logger`を呼び出す前に初期化しているので、log` におけるunwrap"
"はセーフです。"
#: src/bare-metal/aps/logging/using.md:3
msgid "We need to initialise the logger before we use it."
msgstr "使用前にloggerを初期化する必要があります。"
#: src/bare-metal/aps/logging/using.md:38 src/exercises/bare-metal/rtc.md:69
#: src/exercises/bare-metal/solutions-afternoon.md:121
msgid "\"{info}\""
msgstr ""
#: src/bare-metal/aps/logging/using.md:46
msgid "Note that our panic handler can now log details of panics."
msgstr ""
"我々のパニックハンドラがパニックの詳細についてログ出力できるようになったこと"
"に注目してください。"
#: src/bare-metal/aps/logging/using.md:47
msgid ""
"Run the example in QEMU with `make qemu_logger` under `src/bare-metal/aps/"
"examples`."
msgstr ""
"この例を`src/bare-metal/aps/examples`において`make qemu_logger`とすることで"
"QEMUにより実行してみましょう。"
#: src/bare-metal/aps/exceptions.md:3
msgid ""
"AArch64 defines an exception vector table with 16 entries, for 4 types of "
"exceptions (synchronous, IRQ, FIQ, SError) from 4 states (current EL with "
"SP0, current EL with SPx, lower EL using AArch64, lower EL using AArch32). "
"We implement this in assembly to save volatile registers to the stack before "
"calling into Rust code:"
msgstr ""
"AArch64は16エントリを持つ例外ベクターテーブルを定義しており、これらは4つのス"
"テート(現在のELでSP0利用、現在のELでSPx利用、低位のELでAArch64、低位のELで"
"AArch32)における4つのタイプの例外(同期、IRQ、FIQ、SError)に対応します。こ"
"こではRustコードの呼び出し前に揮発レジスタの値をスタックに退避するためにベク"
"ターテーブルをアセンブリ言語で実装しています:"
#: src/bare-metal/aps/exceptions.md:64
msgid "EL is exception level; all our examples this afternoon run in EL1."
msgstr ""
"ELは例外レベルです。本日の午後に扱ったすべての例はEL1で実行されています。"
#: src/bare-metal/aps/exceptions.md:65
msgid ""
"For simplicity we aren't distinguishing between SP0 and SPx for the current "
"EL exceptions, or between AArch32 and AArch64 for the lower EL exceptions."
msgstr ""
"簡単化のために、ここでは現在のEL例外におけるSP0とSPxの違い、低位のELレベルに"
"おけるAArch32とAArch64の違いを区別していません。"
#: src/bare-metal/aps/exceptions.md:67
msgid ""
"For this example we just log the exception and power down, as we don't "
"expect any of them to actually happen."
msgstr ""
"ここではこれらの例外が発生しないはずなので、ただ例外に関するログを出力し、電"
"源を落としています。"
#: src/bare-metal/aps/exceptions.md:69
msgid ""
"We can think of exception handlers and our main execution context more or "
"less like different threads. [`Send` and `Sync`](../../concurrency/send-sync."
"md) will control what we can share between them, just like with threads. For "
"example, if we want to share some value between exception handlers and the "
"rest of the program, and it's `Send` but not `Sync`, then we'll need to wrap "
"it in something like a `Mutex` and put it in a static."
msgstr ""
"例外ハンドラとメインの実行コンテキストは異なるスレッドのようなものだと考える"
"ことができます。ちょうどスレッド間の共有と同じように、[`Send`と`Sync`](../../"
"concurrency/send-sync.md)により何を共有するかを制御することができます。例え"
"ば、例外ハンドラとプログラムの他のコンテキストでとある値を共有したい場合に、"
"もしそれが `Send`であり`Sync`でなければ、`Mutex` のようなものでラップして、"
"staticに定義しなければなりません。"
#: src/bare-metal/aps/other-projects.md:3
msgid "[oreboot](https://github.com/oreboot/oreboot)"
msgstr ""
#: src/bare-metal/aps/other-projects.md:4
msgid "\"coreboot without the C\""
msgstr "\"Cのない(つまり、C言語を使わない)coreboot\""
#: src/bare-metal/aps/other-projects.md:5
msgid "Supports x86, aarch64 and RISC-V."
msgstr "アーキテクチャはx86、aarch64ならびにRISC-Vをサポート。"
#: src/bare-metal/aps/other-projects.md:6
msgid "Relies on LinuxBoot rather than having many drivers itself."
msgstr "自身で多くのドライバを抱えずにLinuxBootに依存。"
#: src/bare-metal/aps/other-projects.md:7
msgid ""
"[Rust RaspberryPi OS tutorial](https://github.com/rust-embedded/rust-"
"raspberrypi-OS-tutorials)"
msgstr ""
#: src/bare-metal/aps/other-projects.md:8
msgid ""
"Initialisation, UART driver, simple bootloader, JTAG, exception levels, "
"exception handling, page tables"
msgstr ""
"初期化、UARTドライバ、単純なブートローダ、JTAG、例外レベル、例外ハンドラ、"
"ページテーブル"
#: src/bare-metal/aps/other-projects.md:10
msgid ""
"Some dodginess around cache maintenance and initialisation in Rust, not "
"necessarily a good example to copy for production code."
msgstr ""
"キャッシュメンテナンスとRustの初期化に関してちょっと疑わしいところがあるの"
"で、製品コードで真似するには必ずしも良い例ではありません。"
#: src/bare-metal/aps/other-projects.md:12
msgid "[`cargo-call-stack`](https://crates.io/crates/cargo-call-stack)"
msgstr ""
#: src/bare-metal/aps/other-projects.md:13
msgid "Static analysis to determine maximum stack usage."
msgstr "スタックの最大使用量に関する静的解析。"
#: src/bare-metal/aps/other-projects.md:17
msgid ""
"The RaspberryPi OS tutorial runs Rust code before the MMU and caches are "
"enabled. This will read and write memory (e.g. the stack). However:"
msgstr ""
"RaspberryPi OS チュートリアルはMMUやキャッシュを有効化する前にRustコードを実"
"行しています。これにより、例えばスタックメモリをreadしたりwriteしたりすること"
"になります。しかし:"
#: src/bare-metal/aps/other-projects.md:19
msgid ""
"Without the MMU and cache, unaligned accesses will fault. It builds with "
"`aarch64-unknown-none` which sets `+strict-align` to prevent the compiler "
"generating unaligned accesses so it should be alright, but this is not "
"necessarily the case in general."
msgstr ""
"MMUとキャッシュを有効化していないと、アラインされていないアクセスはフォールト"
"を引き起こします。そのチュートリアルでは、コンパイラがアラインされていないア"
"クセスを生成しない`+strict-align`オプションをセットする`aarch64-unknown-none`"
"をターゲットとしてビルドしているので大丈夫なはずですが、一般的には大丈夫とは"
"限りません。"
#: src/bare-metal/aps/other-projects.md:22
msgid ""
"If it were running in a VM, this can lead to cache coherency issues. The "
"problem is that the VM is accessing memory directly with the cache disabled, "
"while the host has cacheable aliases to the same memory. Even if the host "
"doesn't explicitly access the memory, speculative accesses can lead to cache "
"fills, and then changes from one or the other will get lost. Again this is "
"alright in this particular case (running directly on the hardware with no "
"hypervisor), but isn't a good pattern in general."
msgstr ""
"もしVM上で実行していたとすると、キャッシュコヒーレンシーの問題を起こすことが"
"あります。問題なのはVMがキャッシュを無効化したまま直接メモリにアクセスしてい"
"るのに対し、ホストは同じメモリに対してキャッシュ可能なエイリアスを持ってしま"
"うということです。ホストが仮に明示的にメモリにアクセスしないとしても、投機的"
"なアクセスによりキャッシュフィルが起きることがあり、そうなるとVMかホストのど"
"ちらかによる変更が失われてしまいます。この(ハイパーバイザなしで直接ハード"
"ウェアで実行する)場合には問題にはなりませんが、一般的には良くないパターンで"
"す。"
#: src/bare-metal/useful-crates.md:3
msgid ""
"We'll go over a few crates which solve some common problems in bare-metal "
"programming."
msgstr ""
"ベアメタルプログラミングにおいて共通に発生する問題に対する解を与えるクレート"
"についていくつか紹介します。"
#: src/bare-metal/useful-crates/zerocopy.md:1
msgid "`zerocopy`"
msgstr ""
#: src/bare-metal/useful-crates/zerocopy.md:3
msgid ""
"The [`zerocopy`](https://docs.rs/zerocopy/) crate (from Fuchsia) provides "
"traits and macros for safely converting between byte sequences and other "
"types."
msgstr ""
"(Fuchsiaの)[`zerocopy`](https://docs.rs/zerocopy/)クレートはバイトシーケン"
"スとその他の型の変換を安全に行うためのトレイトやマクロを提供します。"
#: src/bare-metal/useful-crates/zerocopy.md:40
msgid ""
"This is not suitable for MMIO (as it doesn't use volatile reads and writes), "
"but can be useful for working with structures shared with hardware e.g. by "
"DMA, or sent over some external interface."
msgstr ""
"これは(volatile read、writeを使用していないため)MMIOには適してませんが、例"
"えばDMAのようなハードウェアと共有するデータ構造あるいは外部インタフェースを通"
"して送信するデータ構造を扱うに場合には有用です。"
#: src/bare-metal/useful-crates/zerocopy.md:45
msgid ""
"`FromBytes` can be implemented for types for which any byte pattern is "
"valid, and so can safely be converted from an untrusted sequence of bytes."
msgstr ""
"`FromBytes`はいかなるバイトパターンも有効な値となる型に対して実装することがで"
"き、信用できないバイトシーケンスからの安全な変換を可能にします。"
#: src/bare-metal/useful-crates/zerocopy.md:47
msgid ""
"Attempting to derive `FromBytes` for these types would fail, because "
"`RequestType` doesn't use all possible u32 values as discriminants, so not "
"all byte patterns are valid."
msgstr ""
"`RequestType`はu32型のすべての値を有効なenum値として定義していないので、すべ"
"てのバイトパターンが有効とはならず、これらに対する`FromBytes`の導出はフェール"
"するでしょう。"
#: src/bare-metal/useful-crates/zerocopy.md:49
msgid ""
"`zerocopy::byteorder` has types for byte-order aware numeric primitives."
msgstr ""
"`zerocopy::byteorder`はバイトオーダを気にする数値プリミティブに関する型を提供"
"します。"
#: src/bare-metal/useful-crates/zerocopy.md:50
msgid ""
"Run the example with `cargo run` under `src/bare-metal/useful-crates/"
"zerocopy-example/`. (It won't run in the Playground because of the crate "
"dependency.)"
msgstr ""
"この例を`src/bare-metal/useful-crates/zerocopy-example/`において`cargo run`と"
"とすることで実行してみましょう。(Playgroundではこの例が依存するクレートを利"
"用できないため実行できません)"
#: src/bare-metal/useful-crates/aarch64-paging.md:1
msgid "`aarch64-paging`"
msgstr ""
#: src/bare-metal/useful-crates/aarch64-paging.md:3
msgid ""
"The [`aarch64-paging`](https://crates.io/crates/aarch64-paging) crate lets "
"you create page tables according to the AArch64 Virtual Memory System "
"Architecture."
msgstr ""
"[`aarch64-paging`](https://crates.io/crates/aarch64-paging)クレートはAArch64"
"仮想メモリシステムアーキテクチャに則ったページテーブルの生成を可能にします。"
#: src/bare-metal/useful-crates/aarch64-paging.md:14
msgid "// Create a new page table with identity mapping.\n"
msgstr ""
#: src/bare-metal/useful-crates/aarch64-paging.md:16
msgid "// Map a 2 MiB region of memory as read-only.\n"
msgstr ""
#: src/bare-metal/useful-crates/aarch64-paging.md:21
msgid "// Set `TTBR0_EL1` to activate the page table.\n"
msgstr ""
#: src/bare-metal/useful-crates/aarch64-paging.md:28
msgid ""
"For now it only supports EL1, but support for other exception levels should "
"be straightforward to add."
msgstr ""
"現時点ではEL1しかサポートされていませんが、他の例外レベルのサポートも簡単に追"
"加できるはずです。"
#: src/bare-metal/useful-crates/aarch64-paging.md:30
msgid ""
"This is used in Android for the [Protected VM Firmware](https://cs.android."
"com/android/platform/superproject/+/master:packages/modules/Virtualization/"
"pvmfw/)."
msgstr ""
"これはAndroidで[Protected VM Firmware](https://cs.android.com/android/"
"platform/superproject/+/master:packages/modules/Virtualization/pvmfw/)のため"
"に利用されています。"
#: src/bare-metal/useful-crates/aarch64-paging.md:31
msgid ""
"There's no easy way to run this example, as it needs to run on real hardware "
"or under QEMU."
msgstr ""
"この例は本物のハードウェアかQEMUを必要とするので、簡単には実行できません。"
#: src/bare-metal/useful-crates/buddy_system_allocator.md:1
msgid "`buddy_system_allocator`"
msgstr ""
#: src/bare-metal/useful-crates/buddy_system_allocator.md:3
msgid ""
"[`buddy_system_allocator`](https://crates.io/crates/buddy_system_allocator) "
"is a third-party crate implementing a basic buddy system allocator. It can "
"be used both for [`LockedHeap`](https://docs.rs/buddy_system_allocator/0.9.0/"
"buddy_system_allocator/struct.LockedHeap.html) implementing [`GlobalAlloc`]"
"(https://doc.rust-lang.org/core/alloc/trait.GlobalAlloc.html) so you can use "
"the standard `alloc` crate (as we saw [before](../alloc.md)), or for "
"allocating other address space. For example, we might want to allocate MMIO "
"space for PCI BARs:"
msgstr ""
"[`buddy_system_allocator`](https://crates.io/crates/buddy_system_allocator) "
"はサードパーティのクレートで、基本的なバディシステムアローケータを実装してい"
"ます。このクレートは[`GlobalAlloc`](https://doc.rust-lang.org/core/alloc/"
"trait.GlobalAlloc.html) を実装する [`LockedHeap`](https://docs.rs/"
"buddy_system_allocator/0.9.0/buddy_system_allocator/struct.LockedHeap.html) "
"により( [以前](../alloc.md)見たように)標準の`alloc` クレートを利用可能にす"
"るために使えますし、別のアドレス空間をアロケートするためにも使えます。例え"
"ば、PCI BARに対するMMIO領域をアロケートしたい場合には以下のようにできます:"
#: src/bare-metal/useful-crates/buddy_system_allocator.md:26
msgid "PCI BARs always have alignment equal to their size."
msgstr "PCI BARは常にサイズと同じアラインになります。"
#: src/bare-metal/useful-crates/buddy_system_allocator.md:27
msgid ""
"Run the example with `cargo run` under `src/bare-metal/useful-crates/"
"allocator-example/`. (It won't run in the Playground because of the crate "
"dependency.)"
msgstr ""
"この例を`src/bare-metal/useful-crates/allocator-example/`において `cargo run`"
"とすることで実行してみましょう。(Playgroundではこの例が依存するクレートを利"
"用できないため実行できません)"
#: src/bare-metal/useful-crates/tinyvec.md:1
msgid "`tinyvec`"
msgstr ""
#: src/bare-metal/useful-crates/tinyvec.md:3
msgid ""
"Sometimes you want something which can be resized like a `Vec`, but without "
"heap allocation. [`tinyvec`](https://crates.io/crates/tinyvec) provides "
"this: a vector backed by an array or slice, which could be statically "
"allocated or on the stack, which keeps track of how many elements are used "
"and panics if you try to use more than are allocated."
msgstr ""
"時には`Vec`のようにリサイズできる領域をヒープを使わずに確保したいと思うことが"
"あります。[`tinyvec`](https://crates.io/crates/tinyvec)は静的に確保、またはス"
"タック上に確保した配列またはスライスを割当領域とするベクタを提供します。この"
"実装では、いくつの要素が使われているかが管理され、確保された以上に使おうとす"
"るとパニックします。"
#: src/bare-metal/useful-crates/tinyvec.md:23
msgid ""
"`tinyvec` requires that the element type implement `Default` for "
"initialisation."
msgstr ""
"`tinyvec` は初期化のために要素となるタイプが`Default`を実装することを必要とし"
"ます。"
#: src/bare-metal/useful-crates/tinyvec.md:24
msgid ""
"The Rust Playground includes `tinyvec`, so this example will run fine inline."
msgstr ""
"Rust Playgroundは`tinyvec`を内包しているので、オンラインでこの例を実行するこ"
"とができます。"
#: src/bare-metal/useful-crates/spin.md:1
msgid "`spin`"
msgstr ""
#: src/bare-metal/useful-crates/spin.md:3
msgid ""
"`std::sync::Mutex` and the other synchronisation primitives from `std::sync` "
"are not available in `core` or `alloc`. How can we manage synchronisation or "
"interior mutability, such as for sharing state between different CPUs?"
msgstr ""
"`std::sync`が提供する`std::sync::Mutex` とその他の同期プリミティブは`core`ま"
"たは`alloc`では利用できません。となると、例えば異なるCPU間での状態共有のため"
"の、同期や内部可変性はどのように実現したら良いのでしょうか?"
#: src/bare-metal/useful-crates/spin.md:7
msgid ""
"The [`spin`](https://crates.io/crates/spin) crate provides spinlock-based "
"equivalents of many of these primitives."
msgstr ""
"[`spin`](https://crates.io/crates/spin) クレートはこれらの多くのプリミティブ"
"と等価なスピンロックベースのものを提供します。"
#: src/bare-metal/useful-crates/spin.md:23
msgid "Be careful to avoid deadlock if you take locks in interrupt handlers."
msgstr ""
"割り込みハンドラでロックを取得する場合にはデッドロックを引き起こさないように"
"気をつけてください。"
#: src/bare-metal/useful-crates/spin.md:24
msgid ""
"`spin` also has a ticket lock mutex implementation; equivalents of `RwLock`, "
"`Barrier` and `Once` from `std::sync`; and `Lazy` for lazy initialisation."
msgstr ""
"`spin` はチケットロックのミューテックス実装も持っています。これは`std::sync`"
"における`RwLock`, `Barrier`、`Once` と等価であり、またレイジー初期化の観点で"
"は`Lazy`と等価なものです。"
#: src/bare-metal/useful-crates/spin.md:26
msgid ""
"The [`once_cell`](https://crates.io/crates/once_cell) crate also has some "
"useful types for late initialisation with a slightly different approach to "
"`spin::once::Once`."
msgstr ""
"[`once_cell`](https://crates.io/crates/once_cell) クレートも`spin::once::"
"Once`とは少し異なるアプローチの遅延初期化のための有用な型をいくつか持っていま"
"す。"
#: src/bare-metal/useful-crates/spin.md:28
msgid ""
"The Rust Playground includes `spin`, so this example will run fine inline."
msgstr ""
"Rust Playgroundは`spin`を内包しているので、この例はオンラインで実行できます。"
#: src/bare-metal/android.md:3
msgid ""
"To build a bare-metal Rust binary in AOSP, you need to use a "
"`rust_ffi_static` Soong rule to build your Rust code, then a `cc_binary` "
"with a linker script to produce the binary itself, and then a `raw_binary` "
"to convert the ELF to a raw binary ready to be run."
msgstr ""
"AOSPにおいてベアメタルRustバイナリをビルドするためには、Rustコードをビルドす"
"るための`rust_ffi_static`というSoongルール、リンカスクリプトとそれを使ってバ"
"イナリを生成するための`cc_binary`というルール、さらにELFを実行可能な形式の生"
"バイナリに変換する`raw_binary`というルールが必要です。"
#: src/bare-metal/android/vmbase.md:3
msgid ""
"For VMs running under crosvm on aarch64, the [vmbase](https://android."
"googlesource.com/platform/packages/modules/Virtualization/+/refs/heads/"
"master/vmbase/) library provides a linker script and useful defaults for the "
"build rules, along with an entry point, UART console logging and more."
msgstr ""
"[vmbase](https://android.googlesource.com/platform/packages/modules/"
"Virtualization/+/refs/heads/master/vmbase/)というライブラリは、aarch64上の"
"crosvm下で実行されるVMに対して、エントリポイント、UARTコンソールロギングなど"
"に加えて、リンカスクリプトと有用なデフォルトビルドルールを提供してくれます。"
#: src/bare-metal/android/vmbase.md:21
msgid ""
"The `main!` macro marks your main function, to be called from the `vmbase` "
"entry point."
msgstr ""
"`main!`というマクロはメイン関数を指定するもので、指定された関数は`vmbase`のエ"
"ントリポイントから呼び出されることになります。"
#: src/bare-metal/android/vmbase.md:22
msgid ""
"The `vmbase` entry point handles console initialisation, and issues a "
"PSCI_SYSTEM_OFF to shutdown the VM if your main function returns."
msgstr ""
"`vmbase`のエントリポイントはコンソールの初期化を行い、メイン関数がリターンし"
"た場合にはPSCI_SYSTEM_OFF を発行しVMをシャットダウンします。"
#: src/exercises/bare-metal/afternoon.md:3
msgid "We will write a driver for the PL031 real-time clock device."
msgstr ""
#: src/exercises/bare-metal/rtc.md:1
#: src/exercises/bare-metal/solutions-afternoon.md:3
msgid "RTC driver"
msgstr ""
#: src/exercises/bare-metal/rtc.md:3
msgid ""
"The QEMU aarch64 virt machine has a [PL031](https://developer.arm.com/"
"documentation/ddi0224/c) real-time clock at 0x9010000. For this exercise, "
"you should write a driver for it."
msgstr ""
#: src/exercises/bare-metal/rtc.md:6
msgid ""
"Use it to print the current time to the serial console. You can use the "
"[`chrono`](https://crates.io/crates/chrono) crate for date/time formatting."
msgstr ""
#: src/exercises/bare-metal/rtc.md:8
msgid ""
"Use the match register and raw interrupt status to busy-wait until a given "
"time, e.g. 3 seconds in the future. (Call [`core::hint::spin_loop`](https://"
"doc.rust-lang.org/core/hint/fn.spin_loop.html) inside the loop.)"
msgstr ""
#: src/exercises/bare-metal/rtc.md:10
msgid ""
"_Extension if you have time:_ Enable and handle the interrupt generated by "
"the RTC match. You can use the driver provided in the [`arm-gic`](https://"
"docs.rs/arm-gic/) crate to configure the Arm Generic Interrupt Controller."
msgstr ""
#: src/exercises/bare-metal/rtc.md:12
msgid "Use the RTC interrupt, which is wired to the GIC as `IntId::spi(2)`."
msgstr ""
#: src/exercises/bare-metal/rtc.md:13
msgid ""
"Once the interrupt is enabled, you can put the core to sleep via `arm_gic::"
"wfi()`, which will cause the core to sleep until it receives an interrupt."
msgstr ""
#: src/exercises/bare-metal/rtc.md:16
msgid ""
"Download the [exercise template](../../comprehensive-rust-exercises.zip) and "
"look in the `rtc` directory for the following files."
msgstr ""
#: src/exercises/bare-metal/rtc.md:37
#: src/exercises/bare-metal/solutions-afternoon.md:29
msgid "/// Base addresses of the GICv3.\n"
msgstr ""
#: src/exercises/bare-metal/rtc.md:52
#: src/exercises/bare-metal/solutions-afternoon.md:49
msgid "\"main({:#x}, {:#x}, {:#x}, {:#x})\""
msgstr ""
#: src/exercises/bare-metal/rtc.md:54
#: src/exercises/bare-metal/solutions-afternoon.md:51
msgid ""
"// Safe because `GICD_BASE_ADDRESS` and `GICR_BASE_ADDRESS` are the base\n"
" // addresses of a GICv3 distributor and redistributor respectively, and\n"
" // nothing else accesses those address ranges.\n"
msgstr ""
#: src/exercises/bare-metal/rtc.md:60
msgid "// TODO: Create instance of RTC driver and print current time.\n"
msgstr ""
#: src/exercises/bare-metal/rtc.md:62
msgid "// TODO: Wait for 3 seconds.\n"
msgstr ""
#: src/exercises/bare-metal/rtc.md:75
msgid ""
"_src/exceptions.rs_ (you should only need to change this for the 3rd part of "
"the exercise):"
msgstr ""
#: src/exercises/bare-metal/rtc.md:80 src/exercises/bare-metal/rtc.md:154
#: src/exercises/bare-metal/rtc.md:215 src/exercises/bare-metal/rtc.md:415
msgid ""
"// Copyright 2023 Google LLC\n"
"//\n"
"// Licensed under the Apache License, Version 2.0 (the \"License\");\n"
"// you may not use this file except in compliance with the License.\n"
"// You may obtain a copy of the License at\n"
"//\n"
"// http://www.apache.org/licenses/LICENSE-2.0\n"
"//\n"
"// Unless required by applicable law or agreed to in writing, software\n"
"// distributed under the License is distributed on an \"AS IS\" BASIS,\n"
"// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n"
"// See the License for the specific language governing permissions and\n"
"// limitations under the License.\n"
msgstr ""
#: src/exercises/bare-metal/rtc.md:101
msgid "\"sync_exception_current\""
msgstr ""
#: src/exercises/bare-metal/rtc.md:107
msgid "\"irq_current\""
msgstr ""
#: src/exercises/bare-metal/rtc.md:108
msgid "\"No pending interrupt\""
msgstr ""
#: src/exercises/bare-metal/rtc.md:109
msgid "\"IRQ {intid:?}\""
msgstr ""
#: src/exercises/bare-metal/rtc.md:114
msgid "\"fiq_current\""
msgstr ""
#: src/exercises/bare-metal/rtc.md:120
msgid "\"serr_current\""
msgstr ""
#: src/exercises/bare-metal/rtc.md:126
msgid "\"sync_lower\""
msgstr ""
#: src/exercises/bare-metal/rtc.md:132
msgid "\"irq_lower\""
msgstr ""
#: src/exercises/bare-metal/rtc.md:138
msgid "\"fiq_lower\""
msgstr ""
#: src/exercises/bare-metal/rtc.md:144
msgid "\"serr_lower\""
msgstr ""
#: src/exercises/bare-metal/rtc.md:149
msgid "_src/logger.rs_ (you shouldn't need to change this):"
msgstr ""
#: src/exercises/bare-metal/rtc.md:167
msgid "// ANCHOR: main\n"
msgstr ""
#: src/exercises/bare-metal/rtc.md:210
msgid "_src/pl011.rs_ (you shouldn't need to change this):"
msgstr ""
#: src/exercises/bare-metal/rtc.md:233
msgid "// ANCHOR: Flags\n"
msgstr ""
#: src/exercises/bare-metal/rtc.md:261
msgid "// ANCHOR_END: Flags\n"
msgstr ""
#: src/exercises/bare-metal/rtc.md:265
msgid ""
"/// Flags from the UART Receive Status Register / Error Clear Register.\n"
msgstr ""
#: src/exercises/bare-metal/rtc.md:269
msgid "/// Framing error.\n"
msgstr ""
#: src/exercises/bare-metal/rtc.md:271
msgid "/// Parity error.\n"
msgstr ""
#: src/exercises/bare-metal/rtc.md:273
msgid "/// Break error.\n"
msgstr ""
#: src/exercises/bare-metal/rtc.md:275
msgid "/// Overrun error.\n"
msgstr ""
#: src/exercises/bare-metal/rtc.md:279
msgid "// ANCHOR: Registers\n"
msgstr ""
#: src/exercises/bare-metal/rtc.md:311
msgid "// ANCHOR_END: Registers\n"
msgstr ""
#: src/exercises/bare-metal/rtc.md:313
msgid ""
"// ANCHOR: Uart\n"
"/// Driver for a PL011 UART.\n"
msgstr ""
#: src/exercises/bare-metal/rtc.md:322
msgid ""
"/// Constructs a new instance of the UART driver for a PL011 device at the\n"
" /// given base address.\n"
" ///\n"
" /// # Safety\n"
" ///\n"
" /// The given base address must point to the MMIO control registers of "
"a\n"
" /// PL011 device, which must be mapped into the address space of the "
"process\n"
" /// as device memory and not have any other aliases.\n"
msgstr ""
#: src/exercises/bare-metal/rtc.md:368
msgid "// ANCHOR_END: Uart\n"
msgstr ""
#: src/exercises/bare-metal/rtc.md:410
msgid "_build.rs_ (you shouldn't need to change this):"
msgstr ""
#: src/exercises/bare-metal/rtc.md:433 src/exercises/bare-metal/rtc.md:435
msgid "\"linux\""
msgstr ""
#: src/exercises/bare-metal/rtc.md:434 src/exercises/bare-metal/rtc.md:436
msgid "\"CROSS_COMPILE\""
msgstr ""
#: src/exercises/bare-metal/rtc.md:434
msgid "\"aarch64-linux-gnu\""
msgstr ""
#: src/exercises/bare-metal/rtc.md:436
msgid "\"aarch64-none-elf\""
msgstr ""
#: src/exercises/bare-metal/rtc.md:439
msgid "\"entry.S\""
msgstr ""
#: src/exercises/bare-metal/rtc.md:440
msgid "\"exceptions.S\""
msgstr ""
#: src/exercises/bare-metal/rtc.md:441
msgid "\"idmap.S\""
msgstr ""
#: src/exercises/bare-metal/rtc.md:442
msgid "\"empty\""
msgstr ""
#: src/exercises/bare-metal/rtc.md:446
msgid "_entry.S_ (you shouldn't need to change this):"
msgstr ""
#: src/exercises/bare-metal/rtc.md:450
msgid ""
"```armasm\n"
"/*\n"
" * Copyright 2023 Google LLC\n"
" *\n"
" * Licensed under the Apache License, Version 2.0 (the \"License\");\n"
" * you may not use this file except in compliance with the License.\n"
" * You may obtain a copy of the License at\n"
" *\n"
" * https://www.apache.org/licenses/LICENSE-2.0\n"
" *\n"
" * Unless required by applicable law or agreed to in writing, software\n"
" * distributed under the License is distributed on an \"AS IS\" BASIS,\n"
" * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n"
" * See the License for the specific language governing permissions and\n"
" * limitations under the License.\n"
" */\n"
"\n"
".macro adr_l, reg:req, sym:req\n"
"\tadrp \\reg, \\sym\n"
"\tadd \\reg, \\reg, :lo12:\\sym\n"
".endm\n"
"\n"
".macro mov_i, reg:req, imm:req\n"
"\tmovz \\reg, :abs_g3:\\imm\n"
"\tmovk \\reg, :abs_g2_nc:\\imm\n"
"\tmovk \\reg, :abs_g1_nc:\\imm\n"
"\tmovk \\reg, :abs_g0_nc:\\imm\n"
".endm\n"
"\n"
".set .L_MAIR_DEV_nGnRE,\t0x04\n"
".set .L_MAIR_MEM_WBWA,\t0xff\n"
".set .Lmairval, .L_MAIR_DEV_nGnRE | (.L_MAIR_MEM_WBWA << 8)\n"
"\n"
"/* 4 KiB granule size for TTBR0_EL1. */\n"
".set .L_TCR_TG0_4KB, 0x0 << 14\n"
"/* 4 KiB granule size for TTBR1_EL1. */\n"
".set .L_TCR_TG1_4KB, 0x2 << 30\n"
"/* Disable translation table walk for TTBR1_EL1, generating a translation "
"fault instead. */\n"
".set .L_TCR_EPD1, 0x1 << 23\n"
"/* Translation table walks for TTBR0_EL1 are inner sharable. */\n"
".set .L_TCR_SH_INNER, 0x3 << 12\n"
"/*\n"
" * Translation table walks for TTBR0_EL1 are outer write-back read-allocate "
"write-allocate\n"
" * cacheable.\n"
" */\n"
".set .L_TCR_RGN_OWB, 0x1 << 10\n"
"/*\n"
" * Translation table walks for TTBR0_EL1 are inner write-back read-allocate "
"write-allocate\n"
" * cacheable.\n"
" */\n"
".set .L_TCR_RGN_IWB, 0x1 << 8\n"
"/* Size offset for TTBR0_EL1 is 2**39 bytes (512 GiB). */\n"
".set .L_TCR_T0SZ_512, 64 - 39\n"
".set .Ltcrval, .L_TCR_TG0_4KB | .L_TCR_TG1_4KB | .L_TCR_EPD1 | ."
"L_TCR_RGN_OWB\n"
".set .Ltcrval, .Ltcrval | .L_TCR_RGN_IWB | .L_TCR_SH_INNER | ."
"L_TCR_T0SZ_512\n"
"\n"
"/* Stage 1 instruction access cacheability is unaffected. */\n"
".set .L_SCTLR_ELx_I, 0x1 << 12\n"
"/* SP alignment fault if SP is not aligned to a 16 byte boundary. */\n"
".set .L_SCTLR_ELx_SA, 0x1 << 3\n"
"/* Stage 1 data access cacheability is unaffected. */\n"
".set .L_SCTLR_ELx_C, 0x1 << 2\n"
"/* EL0 and EL1 stage 1 MMU enabled. */\n"
".set .L_SCTLR_ELx_M, 0x1 << 0\n"
"/* Privileged Access Never is unchanged on taking an exception to EL1. */\n"
".set .L_SCTLR_EL1_SPAN, 0x1 << 23\n"
"/* SETEND instruction disabled at EL0 in aarch32 mode. */\n"
".set .L_SCTLR_EL1_SED, 0x1 << 8\n"
"/* Various IT instructions are disabled at EL0 in aarch32 mode. */\n"
".set .L_SCTLR_EL1_ITD, 0x1 << 7\n"
".set .L_SCTLR_EL1_RES1, (0x1 << 11) | (0x1 << 20) | (0x1 << 22) | (0x1 << "
"28) | (0x1 << 29)\n"
".set .Lsctlrval, .L_SCTLR_ELx_M | .L_SCTLR_ELx_C | .L_SCTLR_ELx_SA | ."
"L_SCTLR_EL1_ITD | .L_SCTLR_EL1_SED\n"
".set .Lsctlrval, .Lsctlrval | .L_SCTLR_ELx_I | .L_SCTLR_EL1_SPAN | ."
"L_SCTLR_EL1_RES1\n"
"\n"
"/**\n"
" * This is a generic entry point for an image. It carries out the operations "
"required to prepare the\n"
" * loaded image to be run. Specifically, it zeroes the bss section using "
"registers x25 and above,\n"
" * prepares the stack, enables floating point, and sets up the exception "
"vector. It preserves x0-x3\n"
" * for the Rust entry point, as these may contain boot parameters.\n"
" */\n"
".section .init.entry, \"ax\"\n"
".global entry\n"
"entry:\n"
"\t/* Load and apply the memory management configuration, ready to enable MMU "
"and caches. */\n"
"\tadrp x30, idmap\n"
"\tmsr ttbr0_el1, x30\n"
"\n"
"\tmov_i x30, .Lmairval\n"
"\tmsr mair_el1, x30\n"
"\n"
"\tmov_i x30, .Ltcrval\n"
"\t/* Copy the supported PA range into TCR_EL1.IPS. */\n"
"\tmrs x29, id_aa64mmfr0_el1\n"
"\tbfi x30, x29, #32, #4\n"
"\n"
"\tmsr tcr_el1, x30\n"
"\n"
"\tmov_i x30, .Lsctlrval\n"
"\n"
"\t/*\n"
"\t * Ensure everything before this point has completed, then invalidate any "
"potentially stale\n"
"\t * local TLB entries before they start being used.\n"
"\t */\n"
"\tisb\n"
"\ttlbi vmalle1\n"
"\tic iallu\n"
"\tdsb nsh\n"
"\tisb\n"
"\n"
"\t/*\n"
"\t * Configure sctlr_el1 to enable MMU and cache and don't proceed until "
"this has completed.\n"
"\t */\n"
"\tmsr sctlr_el1, x30\n"
"\tisb\n"
"\n"
"\t/* Disable trapping floating point access in EL1. */\n"
"\tmrs x30, cpacr_el1\n"
"\torr x30, x30, #(0x3 << 20)\n"
"\tmsr cpacr_el1, x30\n"
"\tisb\n"
"\n"
"\t/* Zero out the bss section. */\n"
"\tadr_l x29, bss_begin\n"
"\tadr_l x30, bss_end\n"
"0:\tcmp x29, x30\n"
"\tb.hs 1f\n"
"\tstp xzr, xzr, [x29], #16\n"
"\tb 0b\n"
"\n"
"1:\t/* Prepare the stack. */\n"
"\tadr_l x30, boot_stack_end\n"
"\tmov sp, x30\n"
"\n"
"\t/* Set up exception vector. */\n"
"\tadr x30, vector_table_el1\n"
"\tmsr vbar_el1, x30\n"
"\n"
"\t/* Call into Rust code. */\n"
"\tbl main\n"
"\n"
"\t/* Loop forever waiting for interrupts. */\n"
"2:\twfi\n"
"\tb 2b\n"
"```"
msgstr ""
#: src/exercises/bare-metal/rtc.md:595
msgid "_exceptions.S_ (you shouldn't need to change this):"
msgstr ""
#: src/exercises/bare-metal/rtc.md:599
msgid ""
"```armasm\n"
"/*\n"
" * Copyright 2023 Google LLC\n"
" *\n"
" * Licensed under the Apache License, Version 2.0 (the \"License\");\n"
" * you may not use this file except in compliance with the License.\n"
" * You may obtain a copy of the License at\n"
" *\n"
" * https://www.apache.org/licenses/LICENSE-2.0\n"
" *\n"
" * Unless required by applicable law or agreed to in writing, software\n"
" * distributed under the License is distributed on an \"AS IS\" BASIS,\n"
" * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n"
" * See the License for the specific language governing permissions and\n"
" * limitations under the License.\n"
" */\n"
"\n"
"/**\n"
" * Saves the volatile registers onto the stack. This currently takes 14\n"
" * instructions, so it can be used in exception handlers with 18 "
"instructions\n"
" * left.\n"
" *\n"
" * On return, x0 and x1 are initialised to elr_el2 and spsr_el2 "
"respectively,\n"
" * which can be used as the first and second arguments of a subsequent "
"call.\n"
" */\n"
".macro save_volatile_to_stack\n"
"\t/* Reserve stack space and save registers x0-x18, x29 & x30. */\n"
"\tstp x0, x1, [sp, #-(8 * 24)]!\n"
"\tstp x2, x3, [sp, #8 * 2]\n"
"\tstp x4, x5, [sp, #8 * 4]\n"
"\tstp x6, x7, [sp, #8 * 6]\n"
"\tstp x8, x9, [sp, #8 * 8]\n"
"\tstp x10, x11, [sp, #8 * 10]\n"
"\tstp x12, x13, [sp, #8 * 12]\n"
"\tstp x14, x15, [sp, #8 * 14]\n"
"\tstp x16, x17, [sp, #8 * 16]\n"
"\tstr x18, [sp, #8 * 18]\n"
"\tstp x29, x30, [sp, #8 * 20]\n"
"\n"
"\t/*\n"
"\t * Save elr_el1 & spsr_el1. This such that we can take nested exception\n"
"\t * and still be able to unwind.\n"
"\t */\n"
"\tmrs x0, elr_el1\n"
"\tmrs x1, spsr_el1\n"
"\tstp x0, x1, [sp, #8 * 22]\n"
".endm\n"
"\n"
"/**\n"
" * Restores the volatile registers from the stack. This currently takes 14\n"
" * instructions, so it can be used in exception handlers while still leaving "
"18\n"
" * instructions left; if paired with save_volatile_to_stack, there are 4\n"
" * instructions to spare.\n"
" */\n"
".macro restore_volatile_from_stack\n"
"\t/* Restore registers x2-x18, x29 & x30. */\n"
"\tldp x2, x3, [sp, #8 * 2]\n"
"\tldp x4, x5, [sp, #8 * 4]\n"
"\tldp x6, x7, [sp, #8 * 6]\n"
"\tldp x8, x9, [sp, #8 * 8]\n"
"\tldp x10, x11, [sp, #8 * 10]\n"
"\tldp x12, x13, [sp, #8 * 12]\n"
"\tldp x14, x15, [sp, #8 * 14]\n"
"\tldp x16, x17, [sp, #8 * 16]\n"
"\tldr x18, [sp, #8 * 18]\n"
"\tldp x29, x30, [sp, #8 * 20]\n"
"\n"
"\t/* Restore registers elr_el1 & spsr_el1, using x0 & x1 as scratch. */\n"
"\tldp x0, x1, [sp, #8 * 22]\n"
"\tmsr elr_el1, x0\n"
"\tmsr spsr_el1, x1\n"
"\n"
"\t/* Restore x0 & x1, and release stack space. */\n"
"\tldp x0, x1, [sp], #8 * 24\n"
".endm\n"
"\n"
"/**\n"
" * This is a generic handler for exceptions taken at the current EL while "
"using\n"
" * SP0. It behaves similarly to the SPx case by first switching to SPx, "
"doing\n"
" * the work, then switching back to SP0 before returning.\n"
" *\n"
" * Switching to SPx and calling the Rust handler takes 16 instructions. To\n"
" * restore and return we need an additional 16 instructions, so we can "
"implement\n"
" * the whole handler within the allotted 32 instructions.\n"
" */\n"
".macro current_exception_sp0 handler:req\n"
"\tmsr spsel, #1\n"
"\tsave_volatile_to_stack\n"
"\tbl \\handler\n"
"\trestore_volatile_from_stack\n"
"\tmsr spsel, #0\n"
"\teret\n"
".endm\n"
"\n"
"/**\n"
" * This is a generic handler for exceptions taken at the current EL while "
"using\n"
" * SPx. It saves volatile registers, calls the Rust handler, restores "
"volatile\n"
" * registers, then returns.\n"
" *\n"
" * This also works for exceptions taken from EL0, if we don't care about\n"
" * non-volatile registers.\n"
" *\n"
" * Saving state and jumping to the Rust handler takes 15 instructions, and\n"
" * restoring and returning also takes 15 instructions, so we can fit the "
"whole\n"
" * handler in 30 instructions, under the limit of 32.\n"
" */\n"
".macro current_exception_spx handler:req\n"
"\tsave_volatile_to_stack\n"
"\tbl \\handler\n"
"\trestore_volatile_from_stack\n"
"\teret\n"
".endm\n"
"\n"
".section .text.vector_table_el1, \"ax\"\n"
".global vector_table_el1\n"
".balign 0x800\n"
"vector_table_el1:\n"
"sync_cur_sp0:\n"
"\tcurrent_exception_sp0 sync_exception_current\n"
"\n"
".balign 0x80\n"
"irq_cur_sp0:\n"
"\tcurrent_exception_sp0 irq_current\n"
"\n"
".balign 0x80\n"
"fiq_cur_sp0:\n"
"\tcurrent_exception_sp0 fiq_current\n"
"\n"
".balign 0x80\n"
"serr_cur_sp0:\n"
"\tcurrent_exception_sp0 serr_current\n"
"\n"
".balign 0x80\n"
"sync_cur_spx:\n"
"\tcurrent_exception_spx sync_exception_current\n"
"\n"
".balign 0x80\n"
"irq_cur_spx:\n"
"\tcurrent_exception_spx irq_current\n"
"\n"
".balign 0x80\n"
"fiq_cur_spx:\n"
"\tcurrent_exception_spx fiq_current\n"
"\n"
".balign 0x80\n"
"serr_cur_spx:\n"
"\tcurrent_exception_spx serr_current\n"
"\n"
".balign 0x80\n"
"sync_lower_64:\n"
"\tcurrent_exception_spx sync_lower\n"
"\n"
".balign 0x80\n"
"irq_lower_64:\n"
"\tcurrent_exception_spx irq_lower\n"
"\n"
".balign 0x80\n"
"fiq_lower_64:\n"
"\tcurrent_exception_spx fiq_lower\n"
"\n"
".balign 0x80\n"
"serr_lower_64:\n"
"\tcurrent_exception_spx serr_lower\n"
"\n"
".balign 0x80\n"
"sync_lower_32:\n"
"\tcurrent_exception_spx sync_lower\n"
"\n"
".balign 0x80\n"
"irq_lower_32:\n"
"\tcurrent_exception_spx irq_lower\n"
"\n"
".balign 0x80\n"
"fiq_lower_32:\n"
"\tcurrent_exception_spx fiq_lower\n"
"\n"
".balign 0x80\n"
"serr_lower_32:\n"
"\tcurrent_exception_spx serr_lower\n"
"```"
msgstr ""
#: src/exercises/bare-metal/rtc.md:780
msgid "_idmap.S_ (you shouldn't need to change this):"
msgstr ""
#: src/exercises/bare-metal/rtc.md:784
msgid ""
"```armasm\n"
"/*\n"
" * Copyright 2023 Google LLC\n"
" *\n"
" * Licensed under the Apache License, Version 2.0 (the \"License\");\n"
" * you may not use this file except in compliance with the License.\n"
" * You may obtain a copy of the License at\n"
" *\n"
" * https://www.apache.org/licenses/LICENSE-2.0\n"
" *\n"
" * Unless required by applicable law or agreed to in writing, software\n"
" * distributed under the License is distributed on an \"AS IS\" BASIS,\n"
" * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n"
" * See the License for the specific language governing permissions and\n"
" * limitations under the License.\n"
" */\n"
"\n"
".set .L_TT_TYPE_BLOCK, 0x1\n"
".set .L_TT_TYPE_PAGE, 0x3\n"
".set .L_TT_TYPE_TABLE, 0x3\n"
"\n"
"/* Access flag. */\n"
".set .L_TT_AF, 0x1 << 10\n"
"/* Not global. */\n"
".set .L_TT_NG, 0x1 << 11\n"
".set .L_TT_XN, 0x3 << 53\n"
"\n"
".set .L_TT_MT_DEV, 0x0 << 2\t\t\t// MAIR #0 (DEV_nGnRE)\n"
".set .L_TT_MT_MEM, (0x1 << 2) | (0x3 << 8)\t// MAIR #1 (MEM_WBWA), inner "
"shareable\n"
"\n"
".set .L_BLOCK_DEV, .L_TT_TYPE_BLOCK | .L_TT_MT_DEV | .L_TT_AF | .L_TT_XN\n"
".set .L_BLOCK_MEM, .L_TT_TYPE_BLOCK | .L_TT_MT_MEM | .L_TT_AF | .L_TT_NG\n"
"\n"
".section \".rodata.idmap\", \"a\", %progbits\n"
".global idmap\n"
".align 12\n"
"idmap:\n"
"\t/* level 1 */\n"
"\t.quad\t\t.L_BLOCK_DEV | 0x0\t\t // 1 GiB of device mappings\n"
"\t.quad\t\t.L_BLOCK_MEM | 0x40000000\t// 1 GiB of DRAM\n"
"\t.fill\t\t254, 8, 0x0\t\t\t// 254 GiB of unmapped VA space\n"
"\t.quad\t\t.L_BLOCK_DEV | 0x4000000000 // 1 GiB of device mappings\n"
"\t.fill\t\t255, 8, 0x0\t\t\t// 255 GiB of remaining VA space\n"
"```"
msgstr ""
#: src/exercises/bare-metal/rtc.md:829
msgid "_image.ld_ (you shouldn't need to change this):"
msgstr ""
#: src/exercises/bare-metal/rtc.md:833
msgid ""
"```ld\n"
"/*\n"
" * Copyright 2023 Google LLC\n"
" *\n"
" * Licensed under the Apache License, Version 2.0 (the \"License\");\n"
" * you may not use this file except in compliance with the License.\n"
" * You may obtain a copy of the License at\n"
" *\n"
" * https://www.apache.org/licenses/LICENSE-2.0\n"
" *\n"
" * Unless required by applicable law or agreed to in writing, software\n"
" * distributed under the License is distributed on an \"AS IS\" BASIS,\n"
" * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\n"
" * See the License for the specific language governing permissions and\n"
" * limitations under the License.\n"
" */\n"
"\n"
"/*\n"
" * Code will start running at this symbol which is placed at the start of "
"the\n"
" * image.\n"
" */\n"
"ENTRY(entry)\n"
"\n"
"MEMORY\n"
"{\n"
"\timage : ORIGIN = 0x40080000, LENGTH = 2M\n"
"}\n"
"\n"
"SECTIONS\n"
"{\n"
"\t/*\n"
"\t * Collect together the code.\n"
"\t */\n"
"\t.init : ALIGN(4096) {\n"
"\t\ttext_begin = .;\n"
"\t\t*(.init.entry)\n"
"\t\t*(.init.*)\n"
"\t} >image\n"
"\t.text : {\n"
"\t\t*(.text.*)\n"
"\t} >image\n"
"\ttext_end = .;\n"
"\n"
"\t/*\n"
"\t * Collect together read-only data.\n"
"\t */\n"
"\t.rodata : ALIGN(4096) {\n"
"\t\trodata_begin = .;\n"
"\t\t*(.rodata.*)\n"
"\t} >image\n"
"\t.got : {\n"
"\t\t*(.got)\n"
"\t} >image\n"
"\trodata_end = .;\n"
"\n"
"\t/*\n"
"\t * Collect together the read-write data including .bss at the end which\n"
"\t * will be zero'd by the entry code.\n"
"\t */\n"
"\t.data : ALIGN(4096) {\n"
"\t\tdata_begin = .;\n"
"\t\t*(.data.*)\n"
"\t\t/*\n"
"\t\t * The entry point code assumes that .data is a multiple of 32\n"
"\t\t * bytes long.\n"
"\t\t */\n"
"\t\t. = ALIGN(32);\n"
"\t\tdata_end = .;\n"
"\t} >image\n"
"\n"
"\t/* Everything beyond this point will not be included in the binary. */\n"
"\tbin_end = .;\n"
"\n"
"\t/* The entry point code assumes that .bss is 16-byte aligned. */\n"
"\t.bss : ALIGN(16) {\n"
"\t\tbss_begin = .;\n"
"\t\t*(.bss.*)\n"
"\t\t*(COMMON)\n"
"\t\t. = ALIGN(16);\n"
"\t\tbss_end = .;\n"
"\t} >image\n"
"\n"
"\t.stack (NOLOAD) : ALIGN(4096) {\n"
"\t\tboot_stack_begin = .;\n"
"\t\t. += 40 * 4096;\n"
"\t\t. = ALIGN(4096);\n"
"\t\tboot_stack_end = .;\n"
"\t} >image\n"
"\n"
"\t. = ALIGN(4K);\n"
"\tPROVIDE(dma_region = .);\n"
"\n"
"\t/*\n"
"\t * Remove unused sections from the image.\n"
"\t */\n"
"\t/DISCARD/ : {\n"
"\t\t/* The image loads itself so doesn't need these sections. */\n"
"\t\t*(.gnu.hash)\n"
"\t\t*(.hash)\n"
"\t\t*(.interp)\n"
"\t\t*(.eh_frame_hdr)\n"
"\t\t*(.eh_frame)\n"
"\t\t*(.note.gnu.build-id)\n"
"\t}\n"
"}\n"
"```"
msgstr ""
#: src/exercises/bare-metal/rtc.md:940
msgid "_Makefile_ (you shouldn't need to change this):"
msgstr ""
#: src/exercises/bare-metal/rtc.md:945
msgid "# Copyright 2023 Google LLC"
msgstr ""
#: src/exercises/bare-metal/rtc.md:959
msgid "$(shell uname -s)"
msgstr ""
#: src/exercises/bare-metal/rtc.md:961
msgid "aarch64-linux-gnu"
msgstr ""
#: src/exercises/bare-metal/rtc.md:978
msgid "stdio -display none -kernel $< -s"
msgstr ""
#: src/exercises/bare-metal/rtc.md:981
msgid "cargo clean"
msgstr ""
#: src/exercises/bare-metal/rtc.md:995
msgid "Run the code in QEMU with `make qemu`."
msgstr ""
#: src/concurrency.md:1
msgid "Welcome to Concurrency in Rust"
msgstr "Rustでの並行性へようこそ"
#: src/concurrency.md:3
msgid ""
"Rust has full support for concurrency using OS threads with mutexes and "
"channels."
msgstr ""
"Rustはミューテックスとチャネルを用いてOSスレッドを扱う並行性を十分にサポート"
"しています。"
#: src/concurrency.md:6
msgid ""
"The Rust type system plays an important role in making many concurrency bugs "
"compile time bugs. This is often referred to as _fearless concurrency_ since "
"you can rely on the compiler to ensure correctness at runtime."
msgstr ""
"Rustの型システムは多くの並行性にまつわるバグをコンパイル時のバグにとどめると"
"いう点で、重要な役割を果たします。これは時に _fearless concurrency_ (「怖く"
"ない並行性」) と呼ばれます。なぜなら、コンパイラに実行時での正しさを保証する"
"ことをまかせてよいためです。"
#: src/concurrency/threads.md:3
msgid "Rust threads work similarly to threads in other languages:"
msgstr "Rustのスレッドは他の言語のスレッドと似た挙動をします:"
#: src/concurrency/threads.md:12
msgid "\"Count in thread: {i}!\""
msgstr ""
#: src/concurrency/threads.md:18
msgid "\"Main thread: {i}\""
msgstr ""
#: src/concurrency/threads.md:24
msgid "Threads are all daemon threads, the main thread does not wait for them."
msgstr ""
"スレッドはすべてデーモンスレッドで、メインスレッドはそれらを待ちません。"
#: src/concurrency/threads.md:25
msgid "Thread panics are independent of each other."
msgstr "スレッドパニックは互いに独立です。"
#: src/concurrency/threads.md:26
msgid "Panics can carry a payload, which can be unpacked with `downcast_ref`."
msgstr ""
"パニックはペイロードを保持していることがあり、それは`downcast_ref`で展開可能"
"です。"
#: src/concurrency/threads.md:32
msgid ""
"Notice that the thread is stopped before it reaches 10 — the main thread is "
"not waiting."
msgstr ""
"スレッドはカウントが10に到達するまでに止められます。メインのスレッドは待機し"
"ません。"
#: src/concurrency/threads.md:35
msgid ""
"Use `let handle = thread::spawn(...)` and later `handle.join()` to wait for "
"the thread to finish."
msgstr ""
"`let handle = thread::spawn(…)`と後に`handle.join()`を使って、スレッドが完了"
"するのを待ってみてください。"
#: src/concurrency/threads.md:38
msgid "Trigger a panic in the thread, notice how this doesn't affect `main`."
msgstr ""
"スレッド内でパニックを引き起こしてみて、それがどのように`main`に影響しないか"
"を観察してみてください。"
#: src/concurrency/threads.md:40
msgid ""
"Use the `Result` return value from `handle.join()` to get access to the "
"panic payload. This is a good time to talk about [`Any`](https://doc.rust-"
"lang.org/std/any/index.html)."
msgstr ""
"`handle.join()`の返り値の`Result`を使って、パニックペイロードへのアクセスを得"
"てみてください。 これは[`Any`](https://doc.rust-lang.org/std/any/index.html)"
"について話すのに良いタイミングです。"
#: src/concurrency/scoped-threads.md:3
msgid "Normal threads cannot borrow from their environment:"
msgstr "通常のスレッドはそれらの環境から借用することはできません:"
#: src/concurrency/scoped-threads.md:11 src/concurrency/scoped-threads.md:30
msgid "\"Length: {}\""
msgstr ""
#: src/concurrency/scoped-threads.md:20
msgid ""
"However, you can use a [scoped thread](https://doc.rust-lang.org/std/thread/"
"fn.scope.html) for this:"
msgstr ""
"しかし、そのために[スコープ付きスレッド](https://doc.rust-lang.org/std/"
"thread/fn.scope.html)を使うことができます:"
#: src/concurrency/scoped-threads.md:40
msgid ""
"The reason for that is that when the `thread::scope` function completes, all "
"the threads are guaranteed to be joined, so they can return borrowed data."
msgstr ""
"この理由は、関数`thread::scope`が完了するとき、全てのスレッドはjoinされること"
"が保証されているので、スレッドが借用したデータを返すことができるためです。"
#: src/concurrency/scoped-threads.md:41
msgid ""
"Normal Rust borrowing rules apply: you can either borrow mutably by one "
"thread, or immutably by any number of threads."
msgstr ""
"通常のRustの借用のルールが適用されます: 一つのスレッドがミュータブルで借用す"
"ること、または任意の数のスレッドからイミュータブルで借用すること。"
#: src/concurrency/channels.md:3
msgid ""
"Rust channels have two parts: a `Sender<T>` and a `Receiver<T>`. The two "
"parts are connected via the channel, but you only see the end-points."
msgstr ""
"Rustのチャネルには二つの部品があります: `Sender<T>` と`Receiver<T>`です。こ"
"の2つの部品はチャネルによって繋がっていますが、見ることができるのはエンドポ"
"イントだけです。"
#: src/concurrency/channels.md:15 src/concurrency/channels.md:16
#: src/concurrency/channels.md:20
msgid "\"Received: {:?}\""
msgstr ""
#: src/concurrency/channels.md:26
msgid ""
"`mpsc` stands for Multi-Producer, Single-Consumer. `Sender` and `SyncSender` "
"implement `Clone` (so you can make multiple producers) but `Receiver` does "
"not."
msgstr ""
"`mpsc` は Multi-Producer, Single-Consumerの略称です。 `Sender`と`SyncSender`"
"は`Clone`を実装している(よって複数のproducerが作成可能)のですが、`Receiver`"
"についてはそうではありません。"
#: src/concurrency/channels.md:28
msgid ""
"`send()` and `recv()` return `Result`. If they return `Err`, it means the "
"counterpart `Sender` or `Receiver` is dropped and the channel is closed."
msgstr ""
"`send()`と`recv()`は`Result`を返します。もし`Err`が返された場合、これは、対応"
"する`Sender`か`Receiver`のいずれかがドロップされ、チャンネルが閉じられたこと"
"を意味します。"
#: src/concurrency/channels/unbounded.md:3
msgid "You get an unbounded and asynchronous channel with `mpsc::channel()`:"
msgstr "Unboundedで非同期的なチャネルは`mpsc::channel()`によって得られます:"
#: src/concurrency/channels/unbounded.md:16
#: src/concurrency/channels/bounded.md:16
msgid "\"Message {i}\""
msgstr ""
#: src/concurrency/channels/unbounded.md:17
#: src/concurrency/channels/bounded.md:17
msgid "\"{thread_id:?}: sent Message {i}\""
msgstr ""
#: src/concurrency/channels/unbounded.md:19
#: src/concurrency/channels/bounded.md:19
msgid "\"{thread_id:?}: done\""
msgstr ""
#: src/concurrency/channels/unbounded.md:24
#: src/concurrency/channels/bounded.md:24
msgid "\"Main: got {msg}\""
msgstr ""
#: src/concurrency/channels/bounded.md:3
msgid ""
"With bounded (synchronous) channels, `send` can block the current thread:"
msgstr ""
"Bounded(かつ同期的)なチャネルを用いたとき、`send`は現在のスレッドをブロック"
"することがあります:"
#: src/concurrency/channels/bounded.md:31
msgid ""
"Calling `send` will block the current thread until there is space in the "
"channel for the new message. The thread can be blocked indefinitely if there "
"is nobody who reads from the channel."
msgstr ""
"`send`を呼んだときにチャネルに空きがなければ、現在のスレッドはブロックされま"
"す。もし誰もチャネルから値を読み取らない場合は、このスレッドは無期限にブロッ"
"クされることがあります。"
#: src/concurrency/channels/bounded.md:32
msgid ""
"A call to `send` will abort with an error (that is why it returns `Result`) "
"if the channel is closed. A channel is closed when the receiver is dropped."
msgstr ""
"もしもチャネルが閉じられた場合、`send`の呼び出しはエラーとともに中断します。"
"(`send`が`Result`を返すのはこのためです。)受け取り側がドロップされたとき"
"に、チャネルは閉じられます。"
#: src/concurrency/channels/bounded.md:33
msgid ""
"A bounded channel with a size of zero is called a \"rendezvous channel\". "
"Every send will block the current thread until another thread calls `read`."
msgstr ""
"サイズが0のBoundedチャネルは「ランデブーチャネル」と呼ばれます。別のスレッド"
"が`read`を呼ぶまでは、それぞれのsendは現在のスレッドをブロックします。"
#: src/concurrency/send-sync.md:1
msgid "`Send` and `Sync`"
msgstr "`Send`と`Sync`"
#: src/concurrency/send-sync.md:3
#, fuzzy
msgid ""
"How does Rust know to forbid shared access across threads? The answer is in "
"two traits:"
msgstr ""
"Rustはどのようにスレッド間での値の共有アクセスを禁止するのでしょうか?その答"
"えとなるのが、以下の2つのトレイトです:"
#: src/concurrency/send-sync.md:5
msgid ""
"[`Send`](https://doc.rust-lang.org/std/marker/trait.Send.html): a type `T` "
"is `Send` if it is safe to move a `T` across a thread boundary."
msgstr ""
"[`Send`](https://doc.rust-lang.org/std/marker/trait.Send.html): スレッド境界"
"をまたいでの型`T`のムーブが安全に行える場合、型`T`は`Send`である。"
#: src/concurrency/send-sync.md:7
msgid ""
"[`Sync`](https://doc.rust-lang.org/std/marker/trait.Sync.html): a type `T` "
"is `Sync` if it is safe to move a `&T` across a thread boundary."
msgstr ""
"[`Sync`](https://doc.rust-lang.org/std/marker/trait.Sync.html): スレッド境界"
"をまたいで`&T`のムーブが安全に行える場合、型`T`は`Sync`である。"
#: src/concurrency/send-sync.md:10
msgid ""
"`Send` and `Sync` are [unsafe traits](../unsafe/unsafe-traits.md). The "
"compiler will automatically derive them for your types as long as they only "
"contain `Send` and `Sync` types. You can also implement them manually when "
"you know it is valid."
msgstr ""
"`Send`と`Sync`は[unsafeなトレイト](../unsafe/unsafe-traits.md)です。 あなたが"
"新たに定義する型が`Send`と`Sync`の型のみを含む場合、コンパイラはその新しい型"
"に対して`Send`と`Sync`を自動的に導出します。そうでなくても妥当であるならば"
"`Send`と`Sync`を自分自身で実装することもできます。"
#: src/concurrency/send-sync.md:20
msgid ""
"One can think of these traits as markers that the type has certain thread-"
"safety properties."
msgstr ""
"これらのトレイトは、ある型が特定のスレッドセーフの特性を持っていることを示す"
"マーカーと考えることもできます。"
#: src/concurrency/send-sync.md:21
msgid "They can be used in the generic constraints as normal traits."
msgstr ""
"これらは通常のトレイトと同じように、ジェネリック境界の中で利用することができ"
"ます。"
#: src/concurrency/send-sync/send.md:1
msgid "`Send`"
msgstr ""
#: src/concurrency/send-sync/send.md:3
msgid ""
"A type `T` is [`Send`](https://doc.rust-lang.org/std/marker/trait.Send.html) "
"if it is safe to move a `T` value to another thread."
msgstr ""
"型`T`の値を安全に別のスレッドにムーブできる場合、型`T`は[`Send`](https://doc."
"rust-lang.org/std/marker/trait.Send.html)である。"
#: src/concurrency/send-sync/send.md:5
msgid ""
"The effect of moving ownership to another thread is that _destructors_ will "
"run in that thread. So the question is when you can allocate a value in one "
"thread and deallocate it in another."
msgstr ""
"所有権を別のスレットにムーブするということは、_デストラクタ_ がそのスレッドで"
"実行されるということです。つまり、あるスレッドでアロケートされた値を別のス"
"レッドで解放しても良いかというのが判断基準になります。"
#: src/concurrency/send-sync/send.md:13
msgid ""
"As an example, a connection to the SQLite library must only be accessed from "
"a single thread."
msgstr ""
"例を挙げると、SQLiteライブラリへのコネクションは、一つのスレッドからのみアク"
"セスされる必要があります。"
#: src/concurrency/send-sync/sync.md:1
msgid "`Sync`"
msgstr ""
#: src/concurrency/send-sync/sync.md:3
msgid ""
"A type `T` is [`Sync`](https://doc.rust-lang.org/std/marker/trait.Sync.html) "
"if it is safe to access a `T` value from multiple threads at the same time."
msgstr ""
"型`T`の値を複数のスレッドから同時にアクセスしても安全な場合、型`T`は [`Sync`]"
"(https://doc.rust-lang.org/std/marker/trait.Sync.html) である。"
#: src/concurrency/send-sync/sync.md:6
msgid "More precisely, the definition is:"
msgstr "より正確には、以下のような定義です:"
#: src/concurrency/send-sync/sync.md:8
msgid "`T` is `Sync` if and only if `&T` is `Send`"
msgstr "`&T`が`Send`である場合、かつその場合に限り、`T`は`Sync`である"
#: src/concurrency/send-sync/sync.md:14
msgid ""
"This statement is essentially a shorthand way of saying that if a type is "
"thread-safe for shared use, it is also thread-safe to pass references of it "
"across threads."
msgstr ""
"これはつまり、「ある型の共有がスレッドセーフであれば、その参照をスレッド間で"
"受け渡すこともスレッドセーフである」ということを手短に表したものです。"
#: src/concurrency/send-sync/sync.md:16
msgid ""
"This is because if a type is Sync it means that it can be shared across "
"multiple threads without the risk of data races or other synchronization "
"issues, so it is safe to move it to another thread. A reference to the type "
"is also safe to move to another thread, because the data it references can "
"be accessed from any thread safely."
msgstr ""
"なぜなら、ある型がSyncである場合、データ競合や他の同期の問題などのリスクなし"
"にその型を複数のスレッド間で共有でき、その型を別のスレッドにムーブしても安全"
"だからです。また、型への参照は別のスレッドにムーブしても安全です。それは、そ"
"れが参照するデータは任意のスレッドから安全にアクセスすることができるからで"
"す。"
#: src/concurrency/send-sync/examples.md:3
msgid "`Send + Sync`"
msgstr ""
#: src/concurrency/send-sync/examples.md:5
msgid "Most types you come across are `Send + Sync`:"
msgstr "見かけるほとんどの型は`Send + Sync`です:"
#: src/concurrency/send-sync/examples.md:7
msgid "`i8`, `f32`, `bool`, `char`, `&str`, ..."
msgstr ""
#: src/concurrency/send-sync/examples.md:8
msgid "`(T1, T2)`, `[T; N]`, `&[T]`, `struct { x: T }`, ..."
msgstr ""
#: src/concurrency/send-sync/examples.md:9
msgid "`String`, `Option<T>`, `Vec<T>`, `Box<T>`, ..."
msgstr ""
#: src/concurrency/send-sync/examples.md:10
msgid "`Arc<T>`: Explicitly thread-safe via atomic reference count."
msgstr "`Arc<T>`: アトミック参照カウントにより、明示的にスレッドセーフ。"
#: src/concurrency/send-sync/examples.md:11
msgid "`Mutex<T>`: Explicitly thread-safe via internal locking."
msgstr "`Mutex<T>`: 内部ロックにより明示的にスレッドセーフ。"
#: src/concurrency/send-sync/examples.md:12
msgid "`AtomicBool`, `AtomicU8`, ...: Uses special atomic instructions."
msgstr "`AtomicBool`, `AtomicU8`, …: 特別なアトミック命令を利用。"
#: src/concurrency/send-sync/examples.md:14
msgid ""
"The generic types are typically `Send + Sync` when the type parameters are "
"`Send + Sync`."
msgstr ""
"ジェネリクスは、型パラメタが`Send + Sync`であるとき、通常は`Send + Sync`で"
"す。"
#: src/concurrency/send-sync/examples.md:17
msgid "`Send + !Sync`"
msgstr ""
#: src/concurrency/send-sync/examples.md:19
msgid ""
"These types can be moved to other threads, but they're not thread-safe. "
"Typically because of interior mutability:"
msgstr ""
"これらの型は別のスレッドにムーブすることができますが、このようなムーブはス"
"レッドセーフではありません。通常は内部可変性がその原因です:"
#: src/concurrency/send-sync/examples.md:22
msgid "`mpsc::Sender<T>`"
msgstr ""
#: src/concurrency/send-sync/examples.md:23
msgid "`mpsc::Receiver<T>`"
msgstr ""
#: src/concurrency/send-sync/examples.md:24
msgid "`Cell<T>`"
msgstr ""
#: src/concurrency/send-sync/examples.md:25
msgid "`RefCell<T>`"
msgstr ""
#: src/concurrency/send-sync/examples.md:27
msgid "`!Send + Sync`"
msgstr ""
#: src/concurrency/send-sync/examples.md:29
msgid ""
"These types are thread-safe, but they cannot be moved to another thread:"
msgstr ""
"このような型はスレッドセーフですが、別のスレッドにムーブすることはできませ"
"ん:"
#: src/concurrency/send-sync/examples.md:31
#, fuzzy
msgid ""
"`MutexGuard<T: Sync>`: Uses OS level primitives which must be deallocated on "
"the thread which created them."
msgstr ""
"`MutexGuard<T>`: プリミティブを作成したスレッド自身により、割り当てを解除され"
"るべきであるようなOSレベルのプリミティブを利用。"
#: src/concurrency/send-sync/examples.md:34
msgid "`!Send + !Sync`"
msgstr ""
#: src/concurrency/send-sync/examples.md:36
msgid "These types are not thread-safe and cannot be moved to other threads:"
msgstr ""
"このような型はスレッドセーフではないため、別のスレッドにムーブすることはでき"
"ません:"
#: src/concurrency/send-sync/examples.md:38
msgid ""
"`Rc<T>`: each `Rc<T>` has a reference to an `RcBox<T>`, which contains a non-"
"atomic reference count."
msgstr ""
"`Rc<T>`: それぞれの `Rc<T>` は`RcBox<T>`への参照を持っています。これは、アト"
"ミックでない参照カウントを持っています。"
#: src/concurrency/send-sync/examples.md:40
msgid ""
"`*const T`, `*mut T`: Rust assumes raw pointers may have special concurrency "
"considerations."
msgstr ""
"`*const T`, `*mut T`: Rust は、生ポインターは同時実行性に関する特別な考慮事項"
"がある可能性があることを仮定しています。"
#: src/concurrency/shared_state.md:3
msgid ""
"Rust uses the type system to enforce synchronization of shared data. This is "
"primarily done via two types:"
msgstr ""
#: src/concurrency/shared_state.md:6
msgid ""
"[`Arc<T>`](https://doc.rust-lang.org/std/sync/struct.Arc.html), atomic "
"reference counted `T`: handles sharing between threads and takes care to "
"deallocate `T` when the last reference is dropped,"
msgstr ""
#: src/concurrency/shared_state.md:8
msgid ""
"[`Mutex<T>`](https://doc.rust-lang.org/std/sync/struct.Mutex.html): ensures "
"mutually exclusive access to the `T` value."
msgstr ""
#: src/concurrency/shared_state/arc.md:1
msgid "`Arc`"
msgstr ""
#: src/concurrency/shared_state/arc.md:3
msgid ""
"[`Arc<T>`](https://doc.rust-lang.org/std/sync/struct.Arc.html) allows shared "
"read-only access via `Arc::clone`:"
msgstr ""
#: src/concurrency/shared_state/arc.md:16
msgid "\"{thread_id:?}: {v:?}\""
msgstr ""
#: src/concurrency/shared_state/arc.md:21
#: src/concurrency/shared_state/example.md:17
#: src/concurrency/shared_state/example.md:45
msgid "\"v: {v:?}\""
msgstr ""
#: src/concurrency/shared_state/arc.md:29
msgid ""
"`Arc` stands for \"Atomic Reference Counted\", a thread safe version of `Rc` "
"that uses atomic operations."
msgstr ""
#: src/concurrency/shared_state/arc.md:31
msgid ""
"`Arc<T>` implements `Clone` whether or not `T` does. It implements `Send` "
"and `Sync` if and only if `T` implements them both."
msgstr ""
#: src/concurrency/shared_state/arc.md:33
msgid ""
"`Arc::clone()` has the cost of atomic operations that get executed, but "
"after that the use of the `T` is free."
msgstr ""
#: src/concurrency/shared_state/arc.md:35
msgid ""
"Beware of reference cycles, `Arc` does not use a garbage collector to detect "
"them."
msgstr ""
#: src/concurrency/shared_state/arc.md:36
msgid "`std::sync::Weak` can help."
msgstr ""
#: src/concurrency/shared_state/mutex.md:1
msgid "`Mutex`"
msgstr ""
#: src/concurrency/shared_state/mutex.md:3
msgid ""
"[`Mutex<T>`](https://doc.rust-lang.org/std/sync/struct.Mutex.html) ensures "
"mutual exclusion _and_ allows mutable access to `T` behind a read-only "
"interface:"
msgstr ""
#: src/concurrency/shared_state/mutex.md:11
#: src/concurrency/shared_state/mutex.md:18
msgid "\"v: {:?}\""
msgstr ""
#: src/concurrency/shared_state/mutex.md:22
msgid ""
"Notice how we have a [`impl<T: Send> Sync for Mutex<T>`](https://doc.rust-"
"lang.org/std/sync/struct.Mutex.html#impl-Sync-for-Mutex%3CT%3E) blanket "
"implementation."
msgstr ""
#: src/concurrency/shared_state/mutex.md:31
msgid ""
"`Mutex` in Rust looks like a collection with just one element - the "
"protected data."
msgstr ""
#: src/concurrency/shared_state/mutex.md:32
msgid ""
"It is not possible to forget to acquire the mutex before accessing the "
"protected data."
msgstr ""
#: src/concurrency/shared_state/mutex.md:33
msgid ""
"You can get an `&mut T` from an `&Mutex<T>` by taking the lock. The "
"`MutexGuard` ensures that the `&mut T` doesn't outlive the lock being held."
msgstr ""
#: src/concurrency/shared_state/mutex.md:35
msgid ""
"`Mutex<T>` implements both `Send` and `Sync` iff (if and only if) `T` "
"implements `Send`."
msgstr ""
#: src/concurrency/shared_state/mutex.md:36
msgid "A read-write lock counterpart - `RwLock`."
msgstr ""
#: src/concurrency/shared_state/mutex.md:37
msgid "Why does `lock()` return a `Result`? "
msgstr ""
#: src/concurrency/shared_state/mutex.md:38
msgid ""
"If the thread that held the `Mutex` panicked, the `Mutex` becomes "
"\"poisoned\" to signal that the data it protected might be in an "
"inconsistent state. Calling `lock()` on a poisoned mutex fails with a "
"[`PoisonError`](https://doc.rust-lang.org/std/sync/struct.PoisonError.html). "
"You can call `into_inner()` on the error to recover the data regardless."
msgstr ""
#: src/concurrency/shared_state/example.md:3
msgid "Let us see `Arc` and `Mutex` in action:"
msgstr ""
#: src/concurrency/shared_state/example.md:6
msgid "// use std::sync::{Arc, Mutex};\n"
msgstr ""
#: src/concurrency/shared_state/example.md:23
msgid "Possible solution:"
msgstr ""
#: src/concurrency/shared_state/example.md:49
msgid "Notable parts:"
msgstr ""
#: src/concurrency/shared_state/example.md:51
msgid ""
"`v` is wrapped in both `Arc` and `Mutex`, because their concerns are "
"orthogonal."
msgstr ""
#: src/concurrency/shared_state/example.md:52
msgid ""
"Wrapping a `Mutex` in an `Arc` is a common pattern to share mutable state "
"between threads."
msgstr ""
#: src/concurrency/shared_state/example.md:53
msgid ""
"`v: Arc<_>` needs to be cloned as `v2` before it can be moved into another "
"thread. Note `move` was added to the lambda signature."
msgstr ""
#: src/concurrency/shared_state/example.md:54
msgid ""
"Blocks are introduced to narrow the scope of the `LockGuard` as much as "
"possible."
msgstr ""
#: src/exercises/concurrency/morning.md:3
msgid "Let us practice our new concurrency skills with"
msgstr ""
#: src/exercises/concurrency/morning.md:5
msgid "Dining philosophers: a classic problem in concurrency."
msgstr ""
#: src/exercises/concurrency/morning.md:7
msgid ""
"Multi-threaded link checker: a larger project where you'll use Cargo to "
"download dependencies and then check links in parallel."
msgstr ""
#: src/exercises/concurrency/dining-philosophers.md:3
msgid "The dining philosophers problem is a classic problem in concurrency:"
msgstr ""
#: src/exercises/concurrency/dining-philosophers.md:5
msgid ""
"Five philosophers dine together at the same table. Each philosopher has "
"their own place at the table. There is a fork between each plate. The dish "
"served is a kind of spaghetti which has to be eaten with two forks. Each "
"philosopher can only alternately think and eat. Moreover, a philosopher can "
"only eat their spaghetti when they have both a left and right fork. Thus two "
"forks will only be available when their two nearest neighbors are thinking, "
"not eating. After an individual philosopher finishes eating, they will put "
"down both forks."
msgstr ""
#: src/exercises/concurrency/dining-philosophers.md:13
msgid ""
"You will need a local [Cargo installation](../../cargo/running-locally.md) "
"for this exercise. Copy the code below to a file called `src/main.rs`, fill "
"out the blanks, and test that `cargo run` does not deadlock:"
msgstr ""
#: src/exercises/concurrency/dining-philosophers.md:28
#: src/exercises/concurrency/dining-philosophers-async.md:23
msgid ""
"// left_fork: ...\n"
" // right_fork: ...\n"
" // thoughts: ...\n"
msgstr ""
#: src/exercises/concurrency/dining-philosophers.md:36
#: src/exercises/concurrency/dining-philosophers-async.md:31
#: src/exercises/concurrency/solutions-morning.md:24
#: src/exercises/concurrency/solutions-afternoon.md:25
msgid "\"Eureka! {} has a new idea!\""
msgstr ""
#: src/exercises/concurrency/dining-philosophers.md:41
#: src/exercises/concurrency/dining-philosophers-async.md:36
#: src/exercises/concurrency/solutions-afternoon.md:30
msgid "// Pick up forks...\n"
msgstr ""
#: src/exercises/concurrency/dining-philosophers.md:42
#: src/exercises/concurrency/dining-philosophers-async.md:37
#: src/exercises/concurrency/solutions-morning.md:33
#: src/exercises/concurrency/solutions-afternoon.md:37
msgid "\"{} is eating...\""
msgstr ""
#: src/exercises/concurrency/dining-philosophers.md:48
#: src/exercises/concurrency/dining-philosophers-async.md:43
#: src/exercises/concurrency/solutions-morning.md:39
#: src/exercises/concurrency/solutions-afternoon.md:45
msgid "\"Socrates\""
msgstr ""
#: src/exercises/concurrency/dining-philosophers.md:48
#: src/exercises/concurrency/dining-philosophers-async.md:43
#: src/exercises/concurrency/solutions-morning.md:39
#: src/exercises/concurrency/solutions-afternoon.md:45
msgid "\"Hypatia\""
msgstr ""
#: src/exercises/concurrency/dining-philosophers.md:48
#: src/exercises/concurrency/dining-philosophers-async.md:43
#: src/exercises/concurrency/solutions-morning.md:39
#: src/exercises/concurrency/solutions-afternoon.md:45
msgid "\"Plato\""
msgstr ""
#: src/exercises/concurrency/dining-philosophers.md:48
#: src/exercises/concurrency/dining-philosophers-async.md:43
#: src/exercises/concurrency/solutions-morning.md:39
#: src/exercises/concurrency/solutions-afternoon.md:45
msgid "\"Aristotle\""
msgstr ""
#: src/exercises/concurrency/dining-philosophers.md:48
#: src/exercises/concurrency/dining-philosophers-async.md:43
#: src/exercises/concurrency/solutions-morning.md:39
#: src/exercises/concurrency/solutions-afternoon.md:45
msgid "\"Pythagoras\""
msgstr ""
#: src/exercises/concurrency/dining-philosophers.md:51
#: src/exercises/concurrency/dining-philosophers-async.md:47
#: src/exercises/concurrency/solutions-afternoon.md:49
msgid "// Create forks\n"
msgstr ""
#: src/exercises/concurrency/dining-philosophers.md:53
#: src/exercises/concurrency/dining-philosophers-async.md:49
#: src/exercises/concurrency/solutions-afternoon.md:53
msgid "// Create philosophers\n"
msgstr ""
#: src/exercises/concurrency/dining-philosophers.md:55
msgid "// Make each of them think and eat 100 times\n"
msgstr ""
#: src/exercises/concurrency/dining-philosophers.md:57
#: src/exercises/concurrency/dining-philosophers-async.md:53
#: src/exercises/concurrency/solutions-afternoon.md:88
msgid "// Output their thoughts\n"
msgstr ""
#: src/exercises/concurrency/dining-philosophers.md:61
msgid "You can use the following `Cargo.toml`:"
msgstr ""
#: src/exercises/concurrency/dining-philosophers.md:65
msgid ""
"```toml\n"
"[package]\n"
"name = \"dining-philosophers\"\n"
"version = \"0.1.0\"\n"
"edition = \"2021\"\n"
"```"
msgstr ""
#: src/exercises/concurrency/link-checker.md:3
msgid ""
"Let us use our new knowledge to create a multi-threaded link checker. It "
"should start at a webpage and check that links on the page are valid. It "
"should recursively check other pages on the same domain and keep doing this "
"until all pages have been validated."
msgstr ""
#: src/exercises/concurrency/link-checker.md:8
msgid ""
"For this, you will need an HTTP client such as [`reqwest`](https://docs.rs/"
"reqwest/). Create a new Cargo project and `reqwest` it as a dependency with:"
msgstr ""
#: src/exercises/concurrency/link-checker.md:17
msgid ""
"If `cargo add` fails with `error: no such subcommand`, then please edit the "
"`Cargo.toml` file by hand. Add the dependencies listed below."
msgstr ""
#: src/exercises/concurrency/link-checker.md:20
msgid ""
"You will also need a way to find links. We can use [`scraper`](https://docs."
"rs/scraper/) for that:"
msgstr ""
#: src/exercises/concurrency/link-checker.md:26
msgid ""
"Finally, we'll need some way of handling errors. We use [`thiserror`]"
"(https://docs.rs/thiserror/) for that:"
msgstr ""
#: src/exercises/concurrency/link-checker.md:33
msgid ""
"The `cargo add` calls will update the `Cargo.toml` file to look like this:"
msgstr ""
#: src/exercises/concurrency/link-checker.md:37
msgid ""
"```toml\n"
"[package]\n"
"name = \"link-checker\"\n"
"version = \"0.1.0\"\n"
"edition = \"2021\"\n"
"publish = false\n"
"\n"
"[dependencies]\n"
"reqwest = { version = \"0.11.12\", features = [\"blocking\", \"rustls-"
"tls\"] }\n"
"scraper = \"0.13.0\"\n"
"thiserror = \"1.0.37\"\n"
"```"
msgstr ""
#: src/exercises/concurrency/link-checker.md:50
msgid ""
"You can now download the start page. Try with a small site such as `https://"
"www.google.org/`."
msgstr ""
#: src/exercises/concurrency/link-checker.md:53
msgid "Your `src/main.rs` file should look something like this:"
msgstr ""
#: src/exercises/concurrency/link-checker.md:64
#: src/exercises/concurrency/solutions-morning.md:95
msgid "\"request error: {0}\""
msgstr ""
#: src/exercises/concurrency/link-checker.md:66
#: src/exercises/concurrency/solutions-morning.md:97
msgid "\"bad http response: {0}\""
msgstr ""
#: src/exercises/concurrency/link-checker.md:77
#: src/exercises/concurrency/solutions-morning.md:108
msgid "\"Checking {:#}\""
msgstr ""
#: src/exercises/concurrency/link-checker.md:95
#: src/exercises/concurrency/solutions-morning.md:126
msgid "\"href\""
msgstr ""
#: src/exercises/concurrency/link-checker.md:102
#: src/exercises/concurrency/solutions-morning.md:133
msgid "\"On {base_url:#}: ignored unparsable {href:?}: {err}\""
msgstr ""
#: src/exercises/concurrency/link-checker.md:111
#: src/exercises/concurrency/solutions-morning.md:246
msgid "\"https://www.google.org\""
msgstr ""
#: src/exercises/concurrency/link-checker.md:114
msgid "\"Links: {links:#?}\""
msgstr ""
#: src/exercises/concurrency/link-checker.md:115
msgid "\"Could not extract links: {err:#}\""
msgstr ""
#: src/exercises/concurrency/link-checker.md:120
msgid "Run the code in `src/main.rs` with"
msgstr ""
#: src/exercises/concurrency/link-checker.md:128
msgid ""
"Use threads to check the links in parallel: send the URLs to be checked to a "
"channel and let a few threads check the URLs in parallel."
msgstr ""
#: src/exercises/concurrency/link-checker.md:130
msgid ""
"Extend this to recursively extract links from all pages on the `www.google."
"org` domain. Put an upper limit of 100 pages or so so that you don't end up "
"being blocked by the site."
msgstr ""
#: src/async.md:1
msgid "Async Rust"
msgstr "Asyncの基礎"
#: src/async.md:3
msgid ""
"\"Async\" is a concurrency model where multiple tasks are executed "
"concurrently by executing each task until it would block, then switching to "
"another task that is ready to make progress. The model allows running a "
"larger number of tasks on a limited number of threads. This is because the "
"per-task overhead is typically very low and operating systems provide "
"primitives for efficiently identifying I/O that is able to proceed."
msgstr ""
"「Async」は複数のタスクが並行処理される並行性モデルです。それぞれのタスクはブ"
"ロックされるまで実行され、そして次に進むことのできる他のタスクに切り替えるこ"
"とにより実現されます。このモデルは限られた数のスレッド上でより多くのタスクを"
"実行することを可能にします。なぜなら、タスクごとのオーバーヘッドは通常はとて"
"も低く、効率的に実行可能なI/Oを特定するために必要なプリミティブをOSが提供して"
"くれるからです。"
#: src/async.md:10
msgid ""
"Rust's asynchronous operation is based on \"futures\", which represent work "
"that may be completed in the future. Futures are \"polled\" until they "
"signal that they are complete."
msgstr ""
"Rustの非同期的な操作は「future」に基づいていて、これは将来に完了するかもしれ"
"ない作業を表しています。Futureは、タスクが完了したことを知らせるシグナルが得"
"られるまでポーリングされます。"
#: src/async.md:14
msgid ""
"Futures are polled by an async runtime, and several different runtimes are "
"available."
msgstr ""
"Futureは非同期的なランタイムによりポーリングされます。ランタイムにはいくつか"
"の選択肢があります。"
#: src/async.md:17
msgid "Comparisons"
msgstr "他の言語との比較"
#: src/async.md:19
msgid ""
"Python has a similar model in its `asyncio`. However, its `Future` type is "
"callback-based, and not polled. Async Python programs require a \"loop\", "
"similar to a runtime in Rust."
msgstr ""
"Pythonには似たようなモデルが`asyncio`として搭載されています。しかし、ここでの"
"`Future`型はコールバックに基づくものであって、ポーリングによるものではありま"
"せん。Pythonの非同期プログラムは「ループ」を必要とし、Rustのランタイムに似て"
"います。"
#: src/async.md:23
msgid ""
"JavaScript's `Promise` is similar, but again callback-based. The language "
"runtime implements the event loop, so many of the details of Promise "
"resolution are hidden."
msgstr ""
"JavaScriptの`Promise`は似ているものの、これもまたもやコールバックに基づきま"
"す。 この言語のランタイムはイベントループにより実装されているため、多くの"
"Promise解決の詳細は隠されています。"
#: src/async/async-await.md:1
msgid "`async`/`await`"
msgstr "`async`/`await`"
#: src/async/async-await.md:3
msgid ""
"At a high level, async Rust code looks very much like \"normal\" sequential "
"code:"
msgstr ""
"おおまかには、Rustの非同期コードはほとんど「通常の」逐次的なコードのように見"
"えます:"
#: src/async/async-await.md:10
msgid "\"Count is: {i}!\""
msgstr ""
#: src/async/async-await.md:27
msgid ""
"Note that this is a simplified example to show the syntax. There is no long "
"running operation or any real concurrency in it!"
msgstr ""
"これは構文を示すための単純化された例であることに注意してください。長く実行さ"
"れうる操作や本物の並行処理はここには含まれません。"
#: src/async/async-await.md:30
msgid "What is the return type of an async call?"
msgstr "非同期の呼び出しの返り値の型は?"
#: src/async/async-await.md:31
msgid "Use `let future: () = async_main(10);` in `main` to see the type."
msgstr ""
"型を知るために`main`で`let future: () = async_main(10);`を使ってみてくださ"
"い。"
#: src/async/async-await.md:33
msgid ""
"The \"async\" keyword is syntactic sugar. The compiler replaces the return "
"type with a future. "
msgstr ""
"「async」キーワードは糖衣構文です。コンパイラは返り値をfutureに置き換えます。"
#: src/async/async-await.md:36
msgid ""
"You cannot make `main` async, without additional instructions to the "
"compiler on how to use the returned future."
msgstr ""
"コンパイラに対して、返されたfutureの値をその後どう扱うべきかという、追加の指"
"示を含めない限り、`main`をasyncにすることはできません。"
#: src/async/async-await.md:39
msgid ""
"You need an executor to run async code. `block_on` blocks the current thread "
"until the provided future has run to completion. "
msgstr ""
"非同期のコードを実行するためには、エグゼキュータが必要です。`block_on`は、与"
"えられたfutureが最後まで実行されるまで、現在のスレッドをブロックします。"
#: src/async/async-await.md:42
msgid ""
"`.await` asynchronously waits for the completion of another operation. "
"Unlike `block_on`, `.await` doesn't block the current thread."
msgstr ""
"`.await`は非同期的に他の操作の完了を待ちます。`block_on`とは異なり、`.await`"
"は現在のスレッドをブロックしません。"
#: src/async/async-await.md:45
msgid ""
"`.await` can only be used inside an `async` function (or block; these are "
"introduced later). "
msgstr ""
"`.await`はasync関数(またはasync ブロック)の中でのみ利用できます。(async関数・"
"ブロックについては後ほど紹介します。)"
#: src/async/futures.md:3
msgid ""
"[`Future`](https://doc.rust-lang.org/std/future/trait.Future.html) is a "
"trait, implemented by objects that represent an operation that may not be "
"complete yet. A future can be polled, and `poll` returns a [`Poll`](https://"
"doc.rust-lang.org/std/task/enum.Poll.html)."
msgstr ""
"[`Future`](https://doc.rust-lang.org/std/future/trait.Future.html)はトレイト"
"であり、まだ完了してないかもしれない操作を表現するオブジェクトにより実装され"
"ます。Futureはポーリングされることがあり、`poll`は[`Poll`](https://doc.rust-"
"lang.org/std/task/enum.Poll.html)を返します。"
#: src/async/futures.md:23
msgid ""
"An async function returns an `impl Future`. It's also possible (but "
"uncommon) to implement `Future` for your own types. For example, the "
"`JoinHandle` returned from `tokio::spawn` implements `Future` to allow "
"joining to it."
msgstr ""
"非同期の関数は`impl Future`を返します。自分で定義した型に対して`Future`を実装"
"することも(あまりないことですが)可能です。例えば、`tokio::spawn`から返され"
"る`JoinHandle`は`Future`を実装することにより、joinすることを可能にしていま"
"す。"
#: src/async/futures.md:27
msgid ""
"The `.await` keyword, applied to a Future, causes the current async function "
"to pause until that Future is ready, and then evaluates to its output."
msgstr ""
"Futureに適用される`.await`キーワードは、そのFutureの準備ができるまで、現在の"
"非同期の関数の一時停止を起こし、そしてその出力を評価します。"
#: src/async/futures.md:32
msgid ""
"The `Future` and `Poll` types are implemented exactly as shown; click the "
"links to show the implementations in the docs."
msgstr ""
"`Future`と`Poll`の型はまさに示されたように実装されます; ドキュメントの具体的"
"な実装を見るにはリンクをクリックしてください。"
#: src/async/futures.md:35
msgid ""
"We will not get to `Pin` and `Context`, as we will focus on writing async "
"code, rather than building new async primitives. Briefly:"
msgstr ""
"`Pin`と`Context`については詳しくは扱いません。なぜなら、新しく非同期のプリミ"
"ティブを作るよりも、非同期のコードを書くことに我々は重点を置くつもりだからで"
"す。簡潔には以下で説明されます:"
#: src/async/futures.md:38
msgid ""
"`Context` allows a Future to schedule itself to be polled again when an "
"event occurs."
msgstr ""
"`Context`は、特定のイベントが発生した時に、Futureが自分自身を再びポーリングさ"
"れるようにスケジュールすることを可能にします。"
#: src/async/futures.md:41
msgid ""
"`Pin` ensures that the Future isn't moved in memory, so that pointers into "
"that future remain valid. This is required to allow references to remain "
"valid after an `.await`."
msgstr ""
"`Pin`はfutureへのポインタが有効であり続けるために、Futureがメモリの中で移動さ"
"れないことを確実にします。これは、参照が`.await`の後に有効であり続けるために"
"必要です。"
#: src/async/runtimes.md:3
msgid ""
"A _runtime_ provides support for performing operations asynchronously (a "
"_reactor_) and is responsible for executing futures (an _executor_). Rust "
"does not have a \"built-in\" runtime, but several options are available:"
msgstr ""
"\\_runtime_は非同期な演算(_reactor_)のサポートを提供し、また、futureを実行"
"すること(_executor_)を担当しています。Rustには「ビルトイン」のランタイムは"
"ありませんが、いくつかのランタイムの選択肢があります: "
#: src/async/runtimes.md:7
#, fuzzy
msgid ""
"[Tokio](https://tokio.rs/): performant, with a well-developed ecosystem of "
"functionality like [Hyper](https://hyper.rs/) for HTTP or [Tonic](https://"
"github.com/hyperium/tonic) for gRPC."
msgstr ""
"[Tokio](https://tokio.rs/) - パフォーマンスが高い。HTTP向けの[Hyper](https://"
"hyper.rs/)やgRPC向けの[Tonic](https://github.com/hyperium/tonic)のような発達"
"したエコシステムも持っている"
#: src/async/runtimes.md:10
#, fuzzy
msgid ""
"[async-std](https://async.rs/): aims to be a \"std for async\", and includes "
"a basic runtime in `async::task`."
msgstr ""
"[async-std](https://async.rs/) - 「async」のための「std」であることを目指した"
"もの。また、`async::task`に基本的なランタイムを含む。"
#: src/async/runtimes.md:12
#, fuzzy
msgid "[smol](https://docs.rs/smol/latest/smol/): simple and lightweight"
msgstr "[smol](https://docs.rs/smol/latest/smol/) - シンプルで軽量"
#: src/async/runtimes.md:14
msgid ""
"Several larger applications have their own runtimes. For example, [Fuchsia]"
"(https://fuchsia.googlesource.com/fuchsia/+/refs/heads/main/src/lib/fuchsia-"
"async/src/lib.rs) already has one."
msgstr ""
"いくつかのより巨大なアプリケーションは、独自のランタイムを備えています。例え"
"ば[Fuchsia](https://fuchsia.googlesource.com/fuchsia/+/refs/heads/main/src/"
"lib/fuchsia-async/src/lib.rs)はそのようなものをすでに備えています。"
#: src/async/runtimes.md:20
msgid ""
"Note that of the listed runtimes, only Tokio is supported in the Rust "
"playground. The playground also does not permit any I/O, so most interesting "
"async things can't run in the playground."
msgstr ""
"上で挙げられたランタイムのうち、TokioのみがRustプレイグラウンドでサポートされ"
"ています。このプレイグラウンドではいかなる入出力操作も許可されていないため、"
"大抵の興味深い非同期のあれこれは、プレイグラウンドで実行することはできませ"
"ん。"
#: src/async/runtimes.md:24
msgid ""
"Futures are \"inert\" in that they do not do anything (not even start an I/O "
"operation) unless there is an executor polling them. This differs from JS "
"Promises, for example, which will run to completion even if they are never "
"used."
msgstr ""
"Futureは、ポーリングを行うエグゼキュータの存在なしには何も行わない(入出力操"
"作さえ始めない)という点で「怠惰」です。例えば、これは、エグゼキュータがなく"
"とも最後まで実行されるJavaScriptのPromiseとは異なります。"
#: src/async/runtimes/tokio.md:4
msgid "Tokio provides: "
msgstr "Tokioは以下を提供します: "
#: src/async/runtimes/tokio.md:6
msgid "A multi-threaded runtime for executing asynchronous code."
msgstr "非同期のコードを実行するためのマルチスレッドのランタイム。"
#: src/async/runtimes/tokio.md:7
msgid "An asynchronous version of the standard library."
msgstr "標準ライブラリの非同期バージョン。"
#: src/async/runtimes/tokio.md:8
msgid "A large ecosystem of libraries."
msgstr "大きなライブラリのエコシステム。"
#: src/async/runtimes/tokio.md:15
msgid "\"Count in task: {i}!\""
msgstr ""
#: src/async/runtimes/tokio.md:25
msgid "\"Main task: {i}\""
msgstr ""
#: src/async/runtimes/tokio.md:33
msgid "With the `tokio::main` macro we can now make `main` async."
msgstr "`tokio::main`のマクロにより、`main`の非同期処理を作ることができます。"
#: src/async/runtimes/tokio.md:35
msgid "The `spawn` function creates a new, concurrent \"task\"."
msgstr "`spawn`関数は新しい並行の「タスク」を作成します。"
#: src/async/runtimes/tokio.md:37
msgid "Note: `spawn` takes a `Future`, you don't call `.await` on `count_to`."
msgstr ""
"注意:`spawn`は`Future`を引数に取るため、`count_to`に対して`.await`を呼ぶこと"
"はありません。"
#: src/async/runtimes/tokio.md:39
msgid "**Further exploration:**"
msgstr "**さらなる探求:**"
#: src/async/runtimes/tokio.md:41
msgid ""
"Why does `count_to` not (usually) get to 10? This is an example of async "
"cancellation. `tokio::spawn` returns a handle which can be awaited to wait "
"until it finishes."
msgstr ""
"どうして`count_to`は(通常は)10に辿り着かないのでしょうか?これは非同期処理"
"のキャンセルの例です。 `tokio::spawn`は完了まで待機するためのハンドラを返しま"
"す。"
#: src/async/runtimes/tokio.md:45
msgid "Try `count_to(10).await` instead of spawning."
msgstr ""
"プロセスを新しく作る代わりに、`count_to(10).await`を試してみてください。"
#: src/async/runtimes/tokio.md:47
msgid "Try awaiting the task returned from `tokio::spawn`."
msgstr "`tokio::spawn`から返されたタスクを待機してみてください。"
#: src/async/tasks.md:3
msgid "Rust has a task system, which is a form of lightweight threading."
msgstr ""
#: src/async/tasks.md:5
msgid ""
"A task has a single top-level future which the executor polls to make "
"progress. That future may have one or more nested futures that its `poll` "
"method polls, corresponding loosely to a call stack. Concurrency within a "
"task is possible by polling multiple child futures, such as racing a timer "
"and an I/O operation."
msgstr ""
"タスクには、単一のトップレベルのfutureがあり、これはエグゼキュータが先に進む"
"ためにポーリングする対象となります。そのfutureには一つまたは複数のfutureがネ"
"ストされていることもあり、トップレベルのfutureの`poll`メソッドがポーリングす"
"ることになり、大まかにはコールスタックに対応すると言えます。タスクにおける並"
"行処理は、例えば競合タイマーや入出力操作など、複数の子のfutureをポーリングす"
"ることにより可能になります。"
#: src/async/tasks.md:16
msgid "\"127.0.0.1:6142\""
msgstr ""
#: src/async/tasks.md:17
msgid "\"listening on port 6142\""
msgstr ""
#: src/async/tasks.md:22
msgid "\"connection from {addr:?}\""
msgstr ""
#: src/async/tasks.md:25
msgid "b\"Who are you?\\n\""
msgstr ""
#: src/async/tasks.md:26 src/async/tasks.md:37 src/async/tasks.md:43
msgid "\"socket error: {e:?}\""
msgstr ""
#: src/async/tasks.md:34
msgid "\"Thanks for dialing in, {name}!\\n\""
msgstr ""
#: src/async/tasks.md:52 src/async/control-flow/join.md:36
msgid ""
"Copy this example into your prepared `src/main.rs` and run it from there."
msgstr ""
"この例を準備した`src/main.rs`にコピーして、そこから実行してみましょう。"
#: src/async/tasks.md:54
msgid ""
"Ask students to visualize what the state of the example server would be with "
"a few connected clients. What tasks exist? What are their Futures?"
msgstr ""
"例のサーバーがどのような状態の時に、いくつかのクライアントと接続された状態に"
"あるのかを、可視化するように受講者に指示してください。どんなタスクが存在して"
"いますか?それらのfutureは何ですか?"
#: src/async/tasks.md:57
msgid ""
"This is the first time we've seen an `async` block. This is similar to a "
"closure, but does not take any arguments. Its return value is a Future, "
"similar to an `async fn`. "
msgstr ""
"私たちが`async`ブロックを見かけるのは初めてですね。これはクロージャと似ていま"
"すが、何も引数は取りません。この返り値はFutureであり、`async fn`と似ていま"
"す。"
#: src/async/tasks.md:61
msgid ""
"Refactor the async block into a function, and improve the error handling "
"using `?`."
msgstr ""
"mainのasyncブロックを関数にリファクタして、`?`を使ったエラーハンドリングを改"
"善してみましょう。"
#: src/async/channels.md:3
#, fuzzy
msgid ""
"Several crates have support for asynchronous channels. For instance `tokio`:"
msgstr ""
"いくつかのクレートは`async`/`await`をサポートしています。例えば、`tokio`チャ"
"ネルは:"
#: src/async/channels.md:13
msgid "\"Received {count} pings so far.\""
msgstr ""
#: src/async/channels.md:16
msgid "\"ping_handler complete\""
msgstr ""
#: src/async/channels.md:24
msgid "\"Failed to send ping.\""
msgstr ""
#: src/async/channels.md:25
msgid "\"Sent {} pings so far.\""
msgstr ""
#: src/async/channels.md:29
msgid "\"Something went wrong in ping handler task.\""
msgstr ""
#: src/async/channels.md:35
msgid "Change the channel size to `3` and see how it affects the execution."
msgstr ""
"チャネルサイズを `3`に変えてみて、これがどのように処理に影響するか確認してみ"
"ましょう。"
#: src/async/channels.md:37
msgid ""
"Overall, the interface is similar to the `sync` channels as seen in the "
"[morning class](concurrency/channels.md)."
msgstr ""
"一般的に、このインターフェースは、[朝の講座](concurrency/channels.md)で見られ"
"たような`sync`チャネルに似ています。"
#: src/async/channels.md:40
msgid "Try removing the `std::mem::drop` call. What happens? Why?"
msgstr ""
"`std::mem::drop`の呼び出しを除いてみましょう。何か起こるでしょうか?それはな"
"ぜでしょうか?"
#: src/async/channels.md:42
msgid ""
"The [Flume](https://docs.rs/flume/latest/flume/) crate has channels that "
"implement both `sync` and `async` `send` and `recv`. This can be convenient "
"for complex applications with both IO and heavy CPU processing tasks."
msgstr ""
"[Flume](https://docs.rs/flume/latest/flume/)クレートには`sync`と`async`や"
"`send`と`recv`の両方を実装するチャネルがあります。 これは入出力と重いCPUの処"
"理のタスクの両方を含む、複雑なアプリケーションで便利です。"
#: src/async/channels.md:46
msgid ""
"What makes working with `async` channels preferable is the ability to "
"combine them with other `future`s to combine them and create complex control "
"flow."
msgstr ""
"`async`チャネルを扱うことを好ましくするのは、チャネルと繋げるためにや、複雑な"
"コントロールフローを作るために、チャネルを他の`future`と繋げられることです。"
#: src/async/control-flow.md:1
msgid "Futures Control Flow"
msgstr "Futureの制御フロー"
#: src/async/control-flow.md:3
msgid ""
"Futures can be combined together to produce concurrent compute flow graphs. "
"We have already seen tasks, that function as independent threads of "
"execution."
msgstr ""
"並行計算フローグラフを生成するために、futureを組み合わせることができます。す"
"でに独立したスレッドとして機能するタスクを見てきました。"
#: src/async/control-flow.md:6
msgid "[Join](control-flow/join.md)"
msgstr ""
#: src/async/control-flow.md:7
msgid "[Select](control-flow/select.md)"
msgstr ""
#: src/async/control-flow/join.md:3
msgid ""
"A join operation waits until all of a set of futures are ready, and returns "
"a collection of their results. This is similar to `Promise.all` in "
"JavaScript or `asyncio.gather` in Python."
msgstr ""
"Joinという操作では、futureの集合の準備が整うまで待機し、その後に結果をまとめ"
"て返します。これはJavaScriptにおける `Promise.all` やPythonにおける`asyncio."
"gather`に似ています。"
#: src/async/control-flow/join.md:21
msgid "\"https://google.com\""
msgstr ""
#: src/async/control-flow/join.md:22
msgid "\"https://httpbin.org/ip\""
msgstr ""
#: src/async/control-flow/join.md:23
msgid "\"https://play.rust-lang.org/\""
msgstr ""
#: src/async/control-flow/join.md:24
msgid "\"BAD_URL\""
msgstr ""
#: src/async/control-flow/join.md:30
#: src/exercises/day-1/solutions-morning.md:78
msgid "\"{:?}\""
msgstr ""
#: src/async/control-flow/join.md:38
msgid ""
"For multiple futures of disjoint types, you can use `std::future::join!` but "
"you must know how many futures you will have at compile time. This is "
"currently in the `futures` crate, soon to be stabilised in `std::future`."
msgstr ""
"複数の互いに素な型のfutureに対しては、`std::future::join!`を利用できます。し"
"かし、いくつのfutureがコンパイル時に存在しているのかを把握しておく必要があり"
"ます。これは現在`futures`クレートにありますが、近いうちに`std::future`に統合"
"される予定です。"
#: src/async/control-flow/join.md:42
msgid ""
"The risk of `join` is that one of the futures may never resolve, this would "
"cause your program to stall. "
msgstr ""
"`join`のリスクは、複数のfutureのうちの1つでも解決されないとプログラムがス"
"トールしてしまうということです。 "
#: src/async/control-flow/join.md:45
msgid ""
"You can also combine `join_all` with `join!` for instance to join all "
"requests to an http service as well as a database query. Try adding a "
"`tokio::time::sleep` to the future, using `futures::join!`. This is not a "
"timeout (that requires `select!`, explained in the next chapter), but "
"demonstrates `join!`."
msgstr ""
"また、`join_all`と`join!`を組み合わせることもできます。それは、例えばデータ"
"ベースのクエリと一緒にhttpサービスへの全てのリクエストをjoinする場合です。"
"futureに`futures::join!`を用いて、`tokio::time::sleep`を追加してみてくださ"
"い。これは(次のチャプターで説明する、`select!`を必要とする)タイムアウトでは"
"ありませんが、`join!`の良い実演となっています。"
#: src/async/control-flow/select.md:3
msgid ""
"A select operation waits until any of a set of futures is ready, and "
"responds to that future's result. In JavaScript, this is similar to `Promise."
"race`. In Python, it compares to `asyncio.wait(task_set, return_when=asyncio."
"FIRST_COMPLETED)`."
msgstr ""
"Selectという操作では、futureの集合のうち、いずれか1つの準備が整うまで待機"
"し、そのfutureが提供する結果に対して応答します。これはJavaScriptにおける"
"`Promise.race`に似ています。また、Pythonにおける `asyncio.wait(task_set, "
"return_when=asyncio.FIRST_COMPLETED)`と比べることができます。"
#: src/async/control-flow/select.md:8
msgid ""
"Similar to a match statement, the body of `select!` has a number of arms, "
"each of the form `pattern = future => statement`. When the `future` is "
"ready, the `statement` is executed with the variables in `pattern` bound to "
"the `future`'s result."
msgstr ""
"Matchステートメントのように、`select!`の本体にはいくつかの 「腕」があり、それ"
"ぞれは`pattern = future => statement`の形をとっています。 `future`の準備が"
"整った時、その`statement`は`future`の結果に紐づく`pattern`の変数を用いて実行"
"されます。"
#: src/async/control-flow/select.md:40
msgid "\"Felix\""
msgstr ""
#: src/async/control-flow/select.md:42
msgid "\"Failed to send cat.\""
msgstr ""
#: src/async/control-flow/select.md:47
msgid "\"Rex\""
msgstr ""
#: src/async/control-flow/select.md:49
msgid "\"Failed to send dog.\""
msgstr ""
#: src/async/control-flow/select.md:54
msgid "\"Failed to receive winner\""
msgstr ""
#: src/async/control-flow/select.md:56
msgid "\"Winner is {winner:?}\""
msgstr ""
#: src/async/control-flow/select.md:62
#, fuzzy
msgid ""
"In this example, we have a race between a cat and a dog. "
"`first_animal_to_finish_race` listens to both channels and will pick "
"whichever arrives first. Since the dog takes 50ms, it wins against the cat "
"that take 500ms."
msgstr ""
"この例では、猫と犬のレースを扱っています。`first_animal_to_finish_race`は両方"
"のチャネルをリッスンし、先に到着した方を選びます。犬は到着まで50msかかるの"
"で、500msかかる猫に勝ちます。"
#: src/async/control-flow/select.md:67
msgid ""
"You can use `oneshot` channels in this example as the channels are supposed "
"to receive only one `send`."
msgstr ""
"この例では`oneshot`チャネルを使うこともできます。なぜなら、チャネルは一回きり"
"の`send`を受け取ることになっているからです。"
#: src/async/control-flow/select.md:70
msgid ""
"Try adding a deadline to the race, demonstrating selecting different sorts "
"of futures."
msgstr ""
"レースに制限時間を追加することによって、違う種類のfutureをselectすることを実"
"演してみてください。"
#: src/async/control-flow/select.md:73
msgid ""
"Note that `select!` drops unmatched branches, which cancels their futures. "
"It is easiest to use when every execution of `select!` creates new futures."
msgstr ""
"`select!`はマッチしなかったブランチをドロップすることに注意してください。これ"
"は、そうしたブランチのfutureがキャンセルされることにつながります。`select!`を"
"毎回実行する際に新たなfutureが作成されるときに、`select!`を使うのが最も簡単で"
"す。"
#: src/async/control-flow/select.md:76
msgid ""
"An alternative is to pass `&mut future` instead of the future itself, but "
"this can lead to issues, further discussed in the pinning slide."
msgstr ""
"Futureそのものでなく、`&mut future`を渡すという代替案もあります。しかし、これ"
"は問題につながることもあります。このことはPinに関するスライドで詳細に議論しま"
"す。"
#: src/async/pitfalls.md:1
msgid "Pitfalls of async/await"
msgstr ""
#: src/async/pitfalls.md:3
msgid ""
"Async / await provides convenient and efficient abstraction for concurrent "
"asynchronous programming. However, the async/await model in Rust also comes "
"with its share of pitfalls and footguns. We illustrate some of them in this "
"chapter:"
msgstr ""
#: src/async/pitfalls.md:5
msgid "[Blocking the Executor](pitfalls/blocking-executor.md)"
msgstr ""
#: src/async/pitfalls.md:6
msgid "[Pin](pitfalls/pin.md)"
msgstr ""
#: src/async/pitfalls.md:7
msgid "[Async Traits](pitfalls/async-traits.md)"
msgstr ""
#: src/async/pitfalls.md:8
msgid "[Cancellation](pitfalls/cancellation.md)"
msgstr ""
#: src/async/pitfalls/blocking-executor.md:1
msgid "Blocking the executor"
msgstr ""
#: src/async/pitfalls/blocking-executor.md:3
msgid ""
"Most async runtimes only allow IO tasks to run concurrently. This means that "
"CPU blocking tasks will block the executor and prevent other tasks from "
"being executed. An easy workaround is to use async equivalent methods where "
"possible."
msgstr ""
#: src/async/pitfalls/blocking-executor.md:14
msgid "\"future {id} slept for {duration_ms}ms, finished after {}ms\""
msgstr ""
#: src/async/pitfalls/blocking-executor.md:19
msgid "\"current_thread\""
msgstr ""
#: src/async/pitfalls/blocking-executor.md:29
msgid ""
"Run the code and see that the sleeps happen consecutively rather than "
"concurrently."
msgstr ""
#: src/async/pitfalls/blocking-executor.md:32
msgid ""
"The `\"current_thread\"` flavor puts all tasks on a single thread. This "
"makes the effect more obvious, but the bug is still present in the multi-"
"threaded flavor."
msgstr ""
#: src/async/pitfalls/blocking-executor.md:36
msgid ""
"Switch the `std::thread::sleep` to `tokio::time::sleep` and await its result."
msgstr ""
#: src/async/pitfalls/blocking-executor.md:38
msgid ""
"Another fix would be to `tokio::task::spawn_blocking` which spawns an actual "
"thread and transforms its handle into a future without blocking the executor."
msgstr ""
#: src/async/pitfalls/blocking-executor.md:41
msgid ""
"You should not think of tasks as OS threads. They do not map 1 to 1 and most "
"executors will allow many tasks to run on a single OS thread. This is "
"particularly problematic when interacting with other libraries via FFI, "
"where that library might depend on thread-local storage or map to specific "
"OS threads (e.g., CUDA). Prefer `tokio::task::spawn_blocking` in such "
"situations."
msgstr ""
#: src/async/pitfalls/blocking-executor.md:47
msgid ""
"Use sync mutexes with care. Holding a mutex over an `.await` may cause "
"another task to block, and that task may be running on the same thread."
msgstr ""
#: src/async/pitfalls/pin.md:3
msgid ""
"When you await a future, all local variables (that would ordinarily be "
"stored on a stack frame) are instead stored in the Future for the current "
"async block. If your future has pointers to data on the stack, those "
"pointers might get invalidated. This is unsafe."
msgstr ""
#: src/async/pitfalls/pin.md:8
msgid ""
"Therefore, you must guarantee that the addresses your future points to don't "
"change. That is why we need to `pin` futures. Using the same future "
"repeatedly in a `select!` often leads to issues with pinned values."
msgstr ""
#: src/async/pitfalls/pin.md:16
msgid ""
"// A work item. In this case, just sleep for the given time and respond\n"
"// with a message on the `respond_on` channel.\n"
msgstr ""
#: src/async/pitfalls/pin.md:24
msgid "// A worker which listens for work on a queue and performs it.\n"
msgstr ""
#: src/async/pitfalls/pin.md:31
msgid "// Pretend to work.\n"
msgstr ""
#: src/async/pitfalls/pin.md:34
msgid "\"failed to send response\""
msgstr ""
#: src/async/pitfalls/pin.md:37
msgid "// TODO: report number of iterations every 100ms\n"
msgstr ""
#: src/async/pitfalls/pin.md:41
msgid "// A requester which requests work and waits for it to complete.\n"
msgstr ""
#: src/async/pitfalls/pin.md:51
msgid "\"failed to send on work queue\""
msgstr ""
#: src/async/pitfalls/pin.md:52
msgid "\"failed waiting for response\""
msgstr ""
#: src/async/pitfalls/pin.md:61
msgid "\"work result for iteration {i}: {resp}\""
msgstr ""
#: src/async/pitfalls/pin.md:68
msgid ""
"You may recognize this as an example of the actor pattern. Actors typically "
"call `select!` in a loop."
msgstr ""
#: src/async/pitfalls/pin.md:71
msgid ""
"This serves as a summation of a few of the previous lessons, so take your "
"time with it."
msgstr ""
#: src/async/pitfalls/pin.md:74
msgid ""
"Naively add a `_ = sleep(Duration::from_millis(100)) => { println!(..) }` to "
"the `select!`. This will never execute. Why?"
msgstr ""
#: src/async/pitfalls/pin.md:77
msgid ""
"Instead, add a `timeout_fut` containing that future outside of the `loop`:"
msgstr ""
#: src/async/pitfalls/pin.md:88
msgid ""
"This still doesn't work. Follow the compiler errors, adding `&mut` to the "
"`timeout_fut` in the `select!` to work around the move, then using `Box::"
"pin`:"
msgstr ""
#: src/async/pitfalls/pin.md:102
msgid ""
"This compiles, but once the timeout expires it is `Poll::Ready` on every "
"iteration (a fused future would help with this). Update to reset "
"`timeout_fut` every time it expires."
msgstr ""
#: src/async/pitfalls/pin.md:106
msgid ""
"Box allocates on the heap. In some cases, `std::pin::pin!` (only recently "
"stabilized, with older code often using `tokio::pin!`) is also an option, "
"but that is difficult to use for a future that is reassigned."
msgstr ""
#: src/async/pitfalls/pin.md:110
msgid ""
"Another alternative is to not use `pin` at all but spawn another task that "
"will send to a `oneshot` channel every 100ms."
msgstr ""
#: src/async/pitfalls/async-traits.md:3
msgid ""
"Async methods in traits are not yet supported in the stable channel ([An "
"experimental feature exists in nightly and should be stabilized in the mid "
"term.](https://blog.rust-lang.org/inside-rust/2022/11/17/async-fn-in-trait-"
"nightly.html))"
msgstr ""
#: src/async/pitfalls/async-traits.md:5
msgid ""
"The crate [async_trait](https://docs.rs/async-trait/latest/async_trait/) "
"provides a workaround through a macro:"
msgstr ""
#: src/async/pitfalls/async-traits.md:30
msgid "\"running all sleepers..\""
msgstr ""
#: src/async/pitfalls/async-traits.md:34
msgid "\"slept for {}ms\""
msgstr ""
#: src/async/pitfalls/async-traits.md:51
msgid ""
"`async_trait` is easy to use, but note that it's using heap allocations to "
"achieve this. This heap allocation has performance overhead."
msgstr ""
#: src/async/pitfalls/async-traits.md:54
msgid ""
"The challenges in language support for `async trait` are deep Rust and "
"probably not worth describing in-depth. Niko Matsakis did a good job of "
"explaining them in [this post](https://smallcultfollowing.com/babysteps/"
"blog/2019/10/26/async-fn-in-traits-are-hard/) if you are interested in "
"digging deeper."
msgstr ""
#: src/async/pitfalls/async-traits.md:60
msgid ""
"Try creating a new sleeper struct that will sleep for a random amount of "
"time and adding it to the Vec."
msgstr ""
#: src/async/pitfalls/cancellation.md:3
msgid ""
"Dropping a future implies it can never be polled again. This is called "
"_cancellation_ and it can occur at any `await` point. Care is needed to "
"ensure the system works correctly even when futures are cancelled. For "
"example, it shouldn't deadlock or lose data."
msgstr ""
#: src/async/pitfalls/cancellation.md:35
msgid "\"not UTF-8\""
msgstr ""
#: src/async/pitfalls/cancellation.md:51
msgid "\"hi\\nthere\\n\""
msgstr ""
#: src/async/pitfalls/cancellation.md:57
msgid "\"tick!\""
msgstr ""
#: src/async/pitfalls/cancellation.md:72
msgid ""
"The compiler doesn't help with cancellation-safety. You need to read API "
"documentation and consider what state your `async fn` holds."
msgstr ""
#: src/async/pitfalls/cancellation.md:75
msgid ""
"Unlike `panic` and `?`, cancellation is part of normal control flow (vs "
"error-handling)."
msgstr ""
#: src/async/pitfalls/cancellation.md:78
msgid "The example loses parts of the string."
msgstr ""
#: src/async/pitfalls/cancellation.md:80
msgid ""
"Whenever the `tick()` branch finishes first, `next()` and its `buf` are "
"dropped."
msgstr ""
#: src/async/pitfalls/cancellation.md:82
msgid ""
"`LinesReader` can be made cancellation-safe by making `buf` part of the "
"struct:"
msgstr ""
#: src/async/pitfalls/cancellation.md:95
msgid ""
"// prefix buf and bytes with self.\n"
" // ...\n"
msgstr ""
#: src/async/pitfalls/cancellation.md:104
msgid ""
"[`Interval::tick`](https://docs.rs/tokio/latest/tokio/time/struct.Interval."
"html#method.tick) is cancellation-safe because it keeps track of whether a "
"tick has been 'delivered'."
msgstr ""
#: src/async/pitfalls/cancellation.md:107
msgid ""
"[`AsyncReadExt::read`](https://docs.rs/tokio/latest/tokio/io/trait."
"AsyncReadExt.html#method.read) is cancellation-safe because it either "
"returns or doesn't read data."
msgstr ""
#: src/async/pitfalls/cancellation.md:110
msgid ""
"[`AsyncBufReadExt::read_line`](https://docs.rs/tokio/latest/tokio/io/trait."
"AsyncBufReadExt.html#method.read_line) is similar to the example and _isn't_ "
"cancellation-safe. See its documentation for details and alternatives."
msgstr ""
#: src/exercises/concurrency/afternoon.md:3
msgid ""
"To practice your Async Rust skills, we have again two exercises for you:"
msgstr ""
#: src/exercises/concurrency/afternoon.md:5
msgid ""
"Dining philosophers: we already saw this problem in the morning. This time "
"you are going to implement it with Async Rust."
msgstr ""
#: src/exercises/concurrency/afternoon.md:8
msgid ""
"A Broadcast Chat Application: this is a larger project that allows you "
"experiment with more advanced Async Rust features."
msgstr ""
#: src/exercises/concurrency/dining-philosophers-async.md:1
#: src/exercises/concurrency/solutions-afternoon.md:3
msgid "Dining Philosophers - Async"
msgstr ""
#: src/exercises/concurrency/dining-philosophers-async.md:3
msgid ""
"See [dining philosophers](dining-philosophers.md) for a description of the "
"problem."
msgstr ""
#: src/exercises/concurrency/dining-philosophers-async.md:6
msgid ""
"As before, you will need a local [Cargo installation](../../cargo/running-"
"locally.md) for this exercise. Copy the code below to a file called `src/"
"main.rs`, fill out the blanks, and test that `cargo run` does not deadlock:"
msgstr ""
#: src/exercises/concurrency/dining-philosophers-async.md:51
#: src/exercises/concurrency/solutions-afternoon.md:77
msgid "// Make them think and eat\n"
msgstr ""
#: src/exercises/concurrency/dining-philosophers-async.md:57
msgid ""
"Since this time you are using Async Rust, you'll need a `tokio` dependency. "
"You can use the following `Cargo.toml`:"
msgstr ""
#: src/exercises/concurrency/dining-philosophers-async.md:62
msgid ""
"```toml\n"
"[package]\n"
"name = \"dining-philosophers-async-dine\"\n"
"version = \"0.1.0\"\n"
"edition = \"2021\"\n"
"\n"
"[dependencies]\n"
"tokio = {version = \"1.26.0\", features = [\"sync\", \"time\", \"macros\", "
"\"rt-multi-thread\"]}\n"
"```"
msgstr ""
#: src/exercises/concurrency/dining-philosophers-async.md:72
msgid ""
"Also note that this time you have to use the `Mutex` and the `mpsc` module "
"from the `tokio` crate."
msgstr ""
#: src/exercises/concurrency/dining-philosophers-async.md:77
msgid "Can you make your implementation single-threaded? "
msgstr ""
#: src/exercises/concurrency/chat-app.md:3
msgid ""
"In this exercise, we want to use our new knowledge to implement a broadcast "
"chat application. We have a chat server that the clients connect to and "
"publish their messages. The client reads user messages from the standard "
"input, and sends them to the server. The chat server broadcasts each message "
"that it receives to all the clients."
msgstr ""
#: src/exercises/concurrency/chat-app.md:9
msgid ""
"For this, we use [a broadcast channel](https://docs.rs/tokio/latest/tokio/"
"sync/broadcast/fn.channel.html) on the server, and [`tokio_websockets`]"
"(https://docs.rs/tokio-websockets/0.4.0/tokio_websockets/) for the "
"communication between the client and the server."
msgstr ""
#: src/exercises/concurrency/chat-app.md:13
msgid "Create a new Cargo project and add the following dependencies:"
msgstr ""
#: src/exercises/concurrency/chat-app.md:15
msgid "_Cargo.toml_:"
msgstr ""
#: src/exercises/concurrency/chat-app.md:19
msgid ""
"```toml\n"
"[package]\n"
"name = \"chat-async\"\n"
"version = \"0.1.0\"\n"
"edition = \"2021\"\n"
"\n"
"[dependencies]\n"
"futures-util = { version = \"0.3.28\", features = [\"sink\"] }\n"
"http = \"0.2.9\"\n"
"tokio = { version = \"1.28.1\", features = [\"full\"] }\n"
"tokio-websockets = { version = \"0.4.0\", features = [\"client\", "
"\"fastrand\", \"server\", \"sha1_smol\"] }\n"
"```"
msgstr ""
#: src/exercises/concurrency/chat-app.md:32
msgid "The required APIs"
msgstr ""
#: src/exercises/concurrency/chat-app.md:33
msgid ""
"You are going to need the following functions from `tokio` and "
"[`tokio_websockets`](https://docs.rs/tokio-websockets/0.4.0/"
"tokio_websockets/). Spend a few minutes to familiarize yourself with the "
"API. "
msgstr ""
#: src/exercises/concurrency/chat-app.md:37
msgid ""
"[StreamExt::next()](https://docs.rs/futures-util/0.3.28/futures_util/stream/"
"trait.StreamExt.html#method.next) implemented by `WebsocketStream`: for "
"asynchronously reading messages from a Websocket Stream."
msgstr ""
#: src/exercises/concurrency/chat-app.md:39
msgid ""
"[SinkExt::send()](https://docs.rs/futures-util/0.3.28/futures_util/sink/"
"trait.SinkExt.html#method.send) implemented by `WebsocketStream`: for "
"asynchronously sending messages on a Websocket Stream."
msgstr ""
#: src/exercises/concurrency/chat-app.md:41
msgid ""
"[Lines::next_line()](https://docs.rs/tokio/latest/tokio/io/struct.Lines."
"html#method.next_line): for asynchronously reading user messages from the "
"standard input."
msgstr ""
#: src/exercises/concurrency/chat-app.md:43
msgid ""
"[Sender::subscribe()](https://docs.rs/tokio/latest/tokio/sync/broadcast/"
"struct.Sender.html#method.subscribe): for subscribing to a broadcast channel."
msgstr ""
#: src/exercises/concurrency/chat-app.md:46
msgid "Two binaries"
msgstr ""
#: src/exercises/concurrency/chat-app.md:48
msgid ""
"Normally in a Cargo project, you can have only one binary, and one `src/main."
"rs` file. In this project, we need two binaries. One for the client, and one "
"for the server. You could potentially make them two separate Cargo projects, "
"but we are going to put them in a single Cargo project with two binaries. "
"For this to work, the client and the server code should go under `src/bin` "
"(see the [documentation](https://doc.rust-lang.org/cargo/reference/cargo-"
"targets.html#binaries)). "
msgstr ""
#: src/exercises/concurrency/chat-app.md:55
msgid ""
"Copy the following server and client code into `src/bin/server.rs` and `src/"
"bin/client.rs`, respectively. Your task is to complete these files as "
"described below. "
msgstr ""
#: src/exercises/concurrency/chat-app.md:59
#: src/exercises/concurrency/solutions-afternoon.md:99
msgid "_src/bin/server.rs_:"
msgstr ""
#: src/exercises/concurrency/chat-app.md:78
#: src/exercises/concurrency/chat-app.md:125
msgid "// TODO: For a hint, see the description of the task below.\n"
msgstr ""
#: src/exercises/concurrency/chat-app.md:86
#: src/exercises/concurrency/solutions-afternoon.md:149
msgid "\"127.0.0.1:2000\""
msgstr ""
#: src/exercises/concurrency/chat-app.md:87
#: src/exercises/concurrency/solutions-afternoon.md:150
msgid "\"listening on port 2000\""
msgstr ""
#: src/exercises/concurrency/chat-app.md:91
#: src/exercises/concurrency/solutions-afternoon.md:154
msgid "\"New connection from {addr:?}\""
msgstr ""
#: src/exercises/concurrency/chat-app.md:94
#: src/exercises/concurrency/solutions-afternoon.md:157
msgid "// Wrap the raw TCP stream into a websocket.\n"
msgstr ""
#: src/exercises/concurrency/chat-app.md:103
#: src/exercises/concurrency/solutions-afternoon.md:166
msgid "_src/bin/client.rs_:"
msgstr ""
#: src/exercises/concurrency/chat-app.md:117
#: src/exercises/concurrency/solutions-afternoon.md:178
msgid "\"ws://127.0.0.1:2000\""
msgstr ""
#: src/exercises/concurrency/chat-app.md:130
msgid "Running the binaries"
msgstr ""
#: src/exercises/concurrency/chat-app.md:131
msgid "Run the server with:"
msgstr ""
#: src/exercises/concurrency/chat-app.md:137
msgid "and the client with:"
msgstr ""
#: src/exercises/concurrency/chat-app.md:145
msgid "Implement the `handle_connection` function in `src/bin/server.rs`."
msgstr ""
#: src/exercises/concurrency/chat-app.md:146
msgid ""
"Hint: Use `tokio::select!` for concurrently performing two tasks in a "
"continuous loop. One task receives messages from the client and broadcasts "
"them. The other sends messages received by the server to the client."
msgstr ""
#: src/exercises/concurrency/chat-app.md:149
msgid "Complete the main function in `src/bin/client.rs`."
msgstr ""
#: src/exercises/concurrency/chat-app.md:150
msgid ""
"Hint: As before, use `tokio::select!` in a continuous loop for concurrently "
"performing two tasks: (1) reading user messages from standard input and "
"sending them to the server, and (2) receiving messages from the server, and "
"displaying them for the user."
msgstr ""
#: src/exercises/concurrency/chat-app.md:154
msgid ""
"Optional: Once you are done, change the code to broadcast messages to all "
"clients, but the sender of the message."
msgstr ""
#: src/thanks.md:3
msgid ""
"_Thank you for taking Comprehensive Rust 🦀!_ We hope you enjoyed it and "
"that it was useful."
msgstr ""
#: src/thanks.md:6
msgid ""
"We've had a lot of fun putting the course together. The course is not "
"perfect, so if you spotted any mistakes or have ideas for improvements, "
"please get in [contact with us on GitHub](https://github.com/google/"
"comprehensive-rust/discussions). We would love to hear from you."
msgstr ""
#: src/glossary.md:3
msgid ""
"The following is a glossary which aims to give a short definition of many "
"Rust terms. For translations, this also serves to connect the term back to "
"the English original."
msgstr ""
#: src/glossary.md:30
msgid ""
"allocate: \n"
"Dynamic memory allocation on [the heap](memory-management/stack-vs-heap.md)."
msgstr ""
#: src/glossary.md:32
msgid "argument:"
msgstr ""
#: src/glossary.md:33
msgid ""
"Bare-metal Rust: \n"
"Low-level Rust development, often deployed to a system without an operating "
"system. See [Bare-metal Rust](bare-metal.md)."
msgstr ""
#: src/glossary.md:36
msgid ""
"block: \n"
"See [Blocks](control-flow/blocks.md) and _scope_."
msgstr ""
#: src/glossary.md:38
msgid ""
"borrow: \n"
"See [Borrowing](ownership/borrowing.md)."
msgstr ""
#: src/glossary.md:40
msgid ""
"borrow checker: \n"
"The part of the Rust compiler which checks that all borrows are valid."
msgstr ""
#: src/glossary.md:42
msgid ""
"brace: \n"
"`{` and `}`. Also called _curly brace_, they delimit _blocks_."
msgstr ""
#: src/glossary.md:44
msgid "build:"
msgstr ""
#: src/glossary.md:45
msgid "call:"
msgstr ""
#: src/glossary.md:46
msgid ""
"channel: \n"
"Used to safely pass messages [between threads](concurrency/channels.md)."
msgstr ""
#: src/glossary.md:48
msgid ""
"Comprehensive Rust 🦀: \n"
"The courses here are jointly called Comprehensive Rust 🦀."
msgstr ""
#: src/glossary.md:50
#, fuzzy
msgid "concurrency:"
msgstr "並行性"
#: src/glossary.md:51
msgid ""
"Concurrency in Rust: \n"
"See [Concurrency in Rust](concurrency.md)."
msgstr ""
#: src/glossary.md:53
msgid "constant:"
msgstr ""
#: src/glossary.md:54
#, fuzzy
msgid "control flow:"
msgstr "制御フロー"
#: src/glossary.md:55
msgid "crash:"
msgstr ""
#: src/glossary.md:56
#, fuzzy
msgid "enumeration:"
msgstr "実装"
#: src/glossary.md:57
msgid "error:"
msgstr ""
#: src/glossary.md:58
#, fuzzy
msgid "error handling:"
msgstr "エラー処理"
#: src/glossary.md:59
#, fuzzy
msgid "exercise:"
msgstr "練習問題"
#: src/glossary.md:60
#, fuzzy
msgid "function:"
msgstr "関数"
#: src/glossary.md:61
#, fuzzy
msgid "garbage collector:"
msgstr "ガベージコレクション"
#: src/glossary.md:62
#, fuzzy
msgid "generics:"
msgstr "ジェネリクス(generics)"
#: src/glossary.md:63
msgid "immutable:"
msgstr ""
#: src/glossary.md:64
#, fuzzy
msgid "integration test:"
msgstr "インテグレーションテスト"
#: src/glossary.md:65
msgid "keyword:"
msgstr ""
#: src/glossary.md:66
#, fuzzy
msgid "library:"
msgstr "ライブラリ"
#: src/glossary.md:67
msgid "macro:"
msgstr ""
#: src/glossary.md:68
#, fuzzy
msgid "main function:"
msgstr "Unsafe関数の呼び出し"
#: src/glossary.md:69
msgid "match:"
msgstr ""
#: src/glossary.md:70
msgid "memory leak:"
msgstr ""
#: src/glossary.md:71
#, fuzzy
msgid "method:"
msgstr "メソッド"
#: src/glossary.md:72
#, fuzzy
msgid "module:"
msgstr "モジュール"
#: src/glossary.md:73
msgid "move:"
msgstr ""
#: src/glossary.md:74
msgid "mutable:"
msgstr ""
#: src/glossary.md:75
#, fuzzy
msgid "ownership:"
msgstr "所有権"
#: src/glossary.md:76
#, fuzzy
msgid "panic:"
msgstr "パニック(panic)"
#: src/glossary.md:77
msgid "parameter:"
msgstr ""
#: src/glossary.md:78
msgid "pattern:"
msgstr ""
#: src/glossary.md:79
msgid "payload:"
msgstr ""
#: src/glossary.md:80
msgid "program:"
msgstr ""
#: src/glossary.md:81
msgid "programming language:"
msgstr ""
#: src/glossary.md:82
#, fuzzy
msgid "receiver:"
msgstr "ドライバ"
#: src/glossary.md:83
msgid "reference counting:"
msgstr ""
#: src/glossary.md:84
msgid "return:"
msgstr ""
#: src/glossary.md:85
#, fuzzy
msgid "Rust:"
msgstr "Rustdoc"
#: src/glossary.md:86
msgid ""
"Rust Fundamentals: \n"
"Days 1 to 3 of this course."
msgstr ""
#: src/glossary.md:88
msgid ""
"Rust in Android: \n"
"See [Rust in Android](android.md)."
msgstr ""
#: src/glossary.md:90
msgid "safe:"
msgstr ""
#: src/glossary.md:91
msgid "scope:"
msgstr ""
#: src/glossary.md:92
#, fuzzy
msgid "standard library:"
msgstr "標準ライブラリ"
#: src/glossary.md:93
msgid "static:"
msgstr ""
#: src/glossary.md:94
#, fuzzy
msgid "string:"
msgstr "文字列(String)"
#: src/glossary.md:95
#, fuzzy
msgid "struct:"
msgstr "構造体(structs)"
#: src/glossary.md:96
msgid "test:"
msgstr ""
#: src/glossary.md:97
#, fuzzy
msgid "thread:"
msgstr "スレッド"
#: src/glossary.md:98
msgid "thread safety:"
msgstr ""
#: src/glossary.md:99
#, fuzzy
msgid "trait:"
msgstr "トレイト(trait)"
#: src/glossary.md:100
msgid "type:"
msgstr ""
#: src/glossary.md:101
#, fuzzy
msgid "type inference:"
msgstr "型推論"
#: src/glossary.md:102
#, fuzzy
msgid "undefined behavior:"
msgstr "実行時に未定義の動作はありません:"
#: src/glossary.md:103
#, fuzzy
msgid "union:"
msgstr "共用体"
#: src/glossary.md:104
#, fuzzy
msgid "unit test:"
msgstr "ユニットテスト"
#: src/glossary.md:105
msgid "unsafe:"
msgstr ""
#: src/glossary.md:106
#, fuzzy
msgid "variable:\\"
msgstr "変数"
#: src/other-resources.md:1
msgid "Other Rust Resources"
msgstr ""
#: src/other-resources.md:3
msgid ""
"The Rust community has created a wealth of high-quality and free resources "
"online."
msgstr ""
#: src/other-resources.md:6
msgid "Official Documentation"
msgstr ""
#: src/other-resources.md:8
msgid "The Rust project hosts many resources. These cover Rust in general:"
msgstr ""
#: src/other-resources.md:10
msgid ""
"[The Rust Programming Language](https://doc.rust-lang.org/book/): the "
"canonical free book about Rust. Covers the language in detail and includes a "
"few projects for people to build."
msgstr ""
#: src/other-resources.md:13
msgid ""
"[Rust By Example](https://doc.rust-lang.org/rust-by-example/): covers the "
"Rust syntax via a series of examples which showcase different constructs. "
"Sometimes includes small exercises where you are asked to expand on the code "
"in the examples."
msgstr ""
#: src/other-resources.md:17
msgid ""
"[Rust Standard Library](https://doc.rust-lang.org/std/): full documentation "
"of the standard library for Rust."
msgstr ""
#: src/other-resources.md:19
msgid ""
"[The Rust Reference](https://doc.rust-lang.org/reference/): an incomplete "
"book which describes the Rust grammar and memory model."
msgstr ""
#: src/other-resources.md:22
msgid "More specialized guides hosted on the official Rust site:"
msgstr ""
#: src/other-resources.md:24
msgid ""
"[The Rustonomicon](https://doc.rust-lang.org/nomicon/): covers unsafe Rust, "
"including working with raw pointers and interfacing with other languages "
"(FFI)."
msgstr ""
#: src/other-resources.md:27
msgid ""
"[Asynchronous Programming in Rust](https://rust-lang.github.io/async-book/): "
"covers the new asynchronous programming model which was introduced after the "
"Rust Book was written."
msgstr ""
#: src/other-resources.md:30
msgid ""
"[The Embedded Rust Book](https://doc.rust-lang.org/stable/embedded-book/): "
"an introduction to using Rust on embedded devices without an operating "
"system."
msgstr ""
#: src/other-resources.md:33
msgid "Unofficial Learning Material"
msgstr ""
#: src/other-resources.md:35
msgid "A small selection of other guides and tutorial for Rust:"
msgstr ""
#: src/other-resources.md:37
msgid ""
"[Learn Rust the Dangerous Way](http://cliffle.com/p/dangerust/): covers Rust "
"from the perspective of low-level C programmers."
msgstr ""
#: src/other-resources.md:39
msgid ""
"[Rust for Embedded C Programmers](https://docs.opentitan.org/doc/ug/"
"rust_for_c/): covers Rust from the perspective of developers who write "
"firmware in C."
msgstr ""
#: src/other-resources.md:42
msgid ""
"[Rust for professionals](https://overexact.com/rust-for-professionals/): "
"covers the syntax of Rust using side-by-side comparisons with other "
"languages such as C, C++, Java, JavaScript, and Python."
msgstr ""
#: src/other-resources.md:45
msgid ""
"[Rust on Exercism](https://exercism.org/tracks/rust): 100+ exercises to help "
"you learn Rust."
msgstr ""
#: src/other-resources.md:47
msgid ""
"[Ferrous Teaching Material](https://ferrous-systems.github.io/teaching-"
"material/index.html): a series of small presentations covering both basic "
"and advanced part of the Rust language. Other topics such as WebAssembly, "
"and async/await are also covered."
msgstr ""
#: src/other-resources.md:52
msgid ""
"[Beginner's Series to Rust](https://docs.microsoft.com/en-us/shows/beginners-"
"series-to-rust/) and [Take your first steps with Rust](https://docs."
"microsoft.com/en-us/learn/paths/rust-first-steps/): two Rust guides aimed at "
"new developers. The first is a set of 35 videos and the second is a set of "
"11 modules which covers Rust syntax and basic constructs."
msgstr ""
#: src/other-resources.md:58
msgid ""
"[Learn Rust With Entirely Too Many Linked Lists](https://rust-unofficial."
"github.io/too-many-lists/): in-depth exploration of Rust's memory management "
"rules, through implementing a few different types of list structures."
msgstr ""
#: src/other-resources.md:63
msgid ""
"Please see the [Little Book of Rust Books](https://lborb.github.io/book/) "
"for even more Rust books."
msgstr ""
#: src/credits.md:3
msgid ""
"The material here builds on top of the many great sources of Rust "
"documentation. See the page on [other resources](other-resources.md) for a "
"full list of useful resources."
msgstr ""
#: src/credits.md:7
msgid ""
"The material of Comprehensive Rust is licensed under the terms of the Apache "
"2.0 license, please see [`LICENSE`](https://github.com/google/comprehensive-"
"rust/blob/main/LICENSE) for details."
msgstr ""
#: src/credits.md:12
msgid "Rust by Example"
msgstr ""
#: src/credits.md:14
msgid ""
"Some examples and exercises have been copied and adapted from [Rust by "
"Example](https://doc.rust-lang.org/rust-by-example/). Please see the "
"`third_party/rust-by-example/` directory for details, including the license "
"terms."
msgstr ""
#: src/credits.md:19
msgid "Rust on Exercism"
msgstr ""
#: src/credits.md:21
msgid ""
"Some exercises have been copied and adapted from [Rust on Exercism](https://"
"exercism.org/tracks/rust). Please see the `third_party/rust-on-exercism/` "
"directory for details, including the license terms."
msgstr ""
#: src/credits.md:26
msgid "CXX"
msgstr ""
#: src/credits.md:28
msgid ""
"The [Interoperability with C++](android/interoperability/cpp.md) section "
"uses an image from [CXX](https://cxx.rs/). Please see the `third_party/cxx/` "
"directory for details, including the license terms."
msgstr ""
#: src/credits.md:34
msgid ""
"The [Why Rust? - An Example in C](why-rust/an-example-in-c.md) section has "
"been taken from the presentation slides of [Colin Finck's Master Thesis]"
"(https://colinfinck.de/Master_Thesis_Colin_Finck.pdf). It has been "
"relicensed under the terms of the Apache 2.0 license for this course by the "
"author."
msgstr ""
#: src/exercises/solutions.md:3
msgid "You will find solutions to the exercises on the following pages."
msgstr ""
#: src/exercises/solutions.md:5
msgid ""
"Feel free to ask questions about the solutions [on GitHub](https://github."
"com/google/comprehensive-rust/discussions). Let us know if you have a "
"different or better solution than what is presented here."
msgstr ""
#: src/exercises/day-1/solutions-morning.md:1
msgid "Day 1 Morning Exercises"
msgstr ""
#: src/exercises/day-1/solutions-morning.md:5
msgid "([back to exercise](for-loops.md))"
msgstr ""
#: src/exercises/day-1/solutions-morning.md:20
msgid "\"{row:?}\""
msgstr ""
#: src/exercises/day-1/solutions-morning.md:27
#: src/exercises/day-1/solutions-morning.md:35
msgid "//\n"
msgstr ""
#: src/exercises/day-1/solutions-morning.md:57
msgid "Bonus question"
msgstr ""
#: src/exercises/day-1/solutions-morning.md:59
msgid ""
"It requires more advanced concepts. It might seem that we could use a slice-"
"of-slices (`&[&[i32]]`) as the input type to transpose and thus make our "
"function handle any size of matrix. However, this quickly breaks down: the "
"return type cannot be `&[&[i32]]` since it needs to own the data you return."
msgstr ""
#: src/exercises/day-1/solutions-morning.md:61
msgid ""
"You can attempt to use something like `Vec<Vec<i32>>`, but this doesn't work "
"out-of-the-box either: it's hard to convert from `Vec<Vec<i32>>` to "
"`&[&[i32]]` so now you cannot easily use `pretty_print` either."
msgstr ""
#: src/exercises/day-1/solutions-morning.md:63
msgid ""
"Once we get to traits and generics, we'll be able to use the [`std::convert::"
"AsRef`](https://doc.rust-lang.org/std/convert/trait.AsRef.html) trait to "
"abstract over anything that can be referenced as a slice."
msgstr ""
#: src/exercises/day-1/solutions-morning.md:72
msgid "// A line references a slice of items\n"
msgstr ""
#: src/exercises/day-1/solutions-morning.md:74
msgid "// A matrix references a slice of lines\n"
msgstr ""
#: src/exercises/day-1/solutions-morning.md:83
msgid "// &[&[i32]]\n"
msgstr ""
#: src/exercises/day-1/solutions-morning.md:85
msgid "// [[&str; 2]; 2]\n"
msgstr ""
#: src/exercises/day-1/solutions-morning.md:87
msgid "// Vec<Vec<i32>>\n"
msgstr ""
#: src/exercises/day-1/solutions-morning.md:92
msgid ""
"In addition, the type itself would not enforce that the child slices are of "
"the same length, so such variable could contain an invalid matrix."
msgstr ""
#: src/exercises/day-1/solutions-afternoon.md:1
msgid "Day 1 Afternoon Exercises"
msgstr ""
#: src/exercises/day-1/solutions-afternoon.md:5
msgid "([back to exercise](luhn.md))"
msgstr ""
#: src/exercises/day-1/solutions-afternoon.md:34
msgid "\"1234 5678 1234 5670\""
msgstr ""
#: src/exercises/day-1/solutions-afternoon.md:36
msgid "\"Is {cc_number} a valid credit card number? {}\""
msgstr ""
#: src/exercises/day-1/solutions-afternoon.md:80
#, fuzzy
msgid "Pattern matching"
msgstr "パターンマッチング"
#: src/exercises/day-1/solutions-afternoon.md:205
msgid "\"expr: {:?}\""
msgstr ""
#: src/exercises/day-1/solutions-afternoon.md:206
msgid "\"result: {:?}\""
msgstr ""
#: src/exercises/day-2/solutions-morning.md:1
msgid "Day 2 Morning Exercises"
msgstr ""
#: src/exercises/day-2/solutions-morning.md:3
msgid "Designing a Library"
msgstr "ライブラリをデザイン"
#: src/exercises/day-2/solutions-morning.md:5
msgid "([back to exercise](book-library.md))"
msgstr ""
#: src/exercises/day-2/solutions-morning.md:54
msgid "\"{}, published in {}\""
msgstr ""
#: src/exercises/day-2/solutions-morning.md:59
msgid ""
"// Using a closure and a built-in method:\n"
" // self.books.iter().min_by_key(|book| book.year)\n"
msgstr ""
#: src/exercises/day-2/solutions-morning.md:62
msgid "// Longer hand-written solution:\n"
msgstr ""
#: src/exercises/day-2/solutions-morning.md:127
msgid ""
"// We could try and capture stdout, but let us just call the\n"
" // method to start with.\n"
msgstr ""
#: src/exercises/day-2/solutions-morning.md:153
msgid "([back to exercise](health-statistics.md))"
msgstr ""
#: src/exercises/day-2/solutions-afternoon.md:1
msgid "Day 2 Afternoon Exercises"
msgstr ""
#: src/exercises/day-2/solutions-afternoon.md:5
msgid "([back to exercise](strings-iterators.md))"
msgstr ""
#: src/exercises/day-2/solutions-afternoon.md:10
#: src/exercises/day-2/solutions-afternoon.md:12
msgid "'/'"
msgstr ""
#: src/exercises/day-2/solutions-afternoon.md:16
msgid "\"*\""
msgstr ""
#: src/exercises/day-2/solutions-afternoon.md:22
msgid ""
"// Alternatively, Iterator::zip() lets us iterate simultaneously over "
"prefix\n"
" // and request segments. The zip() iterator is finished as soon as one "
"of\n"
" // the source iterators is finished, but we need to iterate over all "
"request\n"
" // segments. A neat trick that makes zip() work is to use map() and "
"chain()\n"
" // to produce an iterator that returns Some(str) for each pattern "
"segments,\n"
" // and then returns None indefinitely.\n"
msgstr ""
#: src/exercises/day-3/solutions-morning.md:1
msgid "Day 3 Morning Exercise"
msgstr ""
#: src/exercises/day-3/solutions-morning.md:5
msgid "([back to exercise](simple-gui.md))"
msgstr ""
#: src/exercises/day-3/solutions-morning.md:75
msgid "// Add 4 paddings for borders\n"
msgstr ""
#: src/exercises/day-3/solutions-morning.md:87
msgid ""
"// TODO: after learning about error handling, you can change\n"
" // draw_into to return Result<(), std::fmt::Error>. Then use\n"
" // the ?-operator here instead of .unwrap().\n"
msgstr ""
#: src/exercises/day-3/solutions-morning.md:90
#: src/exercises/day-3/solutions-morning.md:96
msgid "\"+-{:-<inner_width$}-+\""
msgstr ""
#: src/exercises/day-3/solutions-morning.md:91
msgid "\"| {:^inner_width$} |\""
msgstr ""
#: src/exercises/day-3/solutions-morning.md:92
msgid "\"+={:=<inner_width$}=+\""
msgstr ""
#: src/exercises/day-3/solutions-morning.md:94
msgid "\"| {:inner_width$} |\""
msgstr ""
#: src/exercises/day-3/solutions-morning.md:102
msgid "// add a bit of padding\n"
msgstr ""
#: src/exercises/day-3/solutions-morning.md:110
#: src/exercises/day-3/solutions-morning.md:114
msgid "\"+{:-<width$}+\""
msgstr ""
#: src/exercises/day-3/solutions-morning.md:112
msgid "\"|{:^width$}|\""
msgstr ""
#: src/exercises/day-3/solutions-morning.md:144
msgid "([back to exercise](points-polygons.md))"
msgstr ""
#: src/exercises/day-3/solutions-morning.md:223
msgid ""
"// Alternatively, Iterator::zip() lets us iterate over the points as pairs\n"
" // but we need to pair each point with the next one, and the last "
"point\n"
" // with the first point. The zip() iterator is finished as soon as "
"one of \n"
" // the source iterators is finished, a neat trick is to combine "
"Iterator::cycle\n"
" // with Iterator::skip to create the second iterator for the zip and "
"using map \n"
" // and sum to calculate the total length.\n"
msgstr ""
#: src/exercises/day-3/solutions-afternoon.md:1
msgid "Day 3 Afternoon Exercises"
msgstr ""
#: src/exercises/day-3/solutions-afternoon.md:5
msgid "([back to exercise](safe-ffi-wrapper.md))"
msgstr ""
#: src/exercises/day-3/solutions-afternoon.md:77
msgid "\"Invalid path: {err}\""
msgstr ""
#: src/exercises/day-3/solutions-afternoon.md:78
msgid "// SAFETY: path.as_ptr() cannot be NULL.\n"
msgstr ""
#: src/exercises/day-3/solutions-afternoon.md:81
msgid "\"Could not open {:?}\""
msgstr ""
#: src/exercises/day-3/solutions-afternoon.md:91
msgid ""
"// Keep calling readdir until we get a NULL pointer back.\n"
" // SAFETY: self.dir is never NULL.\n"
msgstr ""
#: src/exercises/day-3/solutions-afternoon.md:95
msgid "// We have reached the end of the directory.\n"
msgstr ""
#: src/exercises/day-3/solutions-afternoon.md:98
msgid ""
"// SAFETY: dirent is not NULL and dirent.d_name is NUL\n"
" // terminated.\n"
msgstr ""
#: src/exercises/day-3/solutions-afternoon.md:110
msgid "// SAFETY: self.dir is not NULL.\n"
msgstr ""
#: src/exercises/day-3/solutions-afternoon.md:112
msgid "\"Could not close {:?}\""
msgstr ""
#: src/exercises/day-3/solutions-afternoon.md:131
msgid "\"no-such-directory\""
msgstr ""
#: src/exercises/day-3/solutions-afternoon.md:139
#: src/exercises/day-3/solutions-afternoon.md:154
msgid "\"Non UTF-8 character in path\""
msgstr ""
#: src/exercises/day-3/solutions-afternoon.md:143
#: src/exercises/day-3/solutions-afternoon.md:158
msgid "\"..\""
msgstr ""
#: src/exercises/day-3/solutions-afternoon.md:150
#: src/exercises/day-3/solutions-afternoon.md:158
msgid "\"foo.txt\""
msgstr ""
#: src/exercises/day-3/solutions-afternoon.md:150
msgid "\"The Foo Diaries\\n\""
msgstr ""
#: src/exercises/day-3/solutions-afternoon.md:151
#: src/exercises/day-3/solutions-afternoon.md:158
msgid "\"bar.png\""
msgstr ""
#: src/exercises/day-3/solutions-afternoon.md:151
msgid "\"<PNG>\\n\""
msgstr ""
#: src/exercises/day-3/solutions-afternoon.md:152
#: src/exercises/day-3/solutions-afternoon.md:158
msgid "\"crab.rs\""
msgstr ""
#: src/exercises/day-3/solutions-afternoon.md:152
msgid "\"//! Crab\\n\""
msgstr ""
#: src/exercises/bare-metal/solutions-morning.md:1
msgid "Bare Metal Rust Morning Exercise"
msgstr ""
#: src/exercises/bare-metal/solutions-morning.md:5
msgid "([back to exercise](compass.md))"
msgstr ""
#: src/exercises/bare-metal/solutions-morning.md:40
msgid "// Set up the I2C controller and Inertial Measurement Unit.\n"
msgstr ""
#: src/exercises/bare-metal/solutions-morning.md:41
msgid "\"Setting up IMU...\""
msgstr ""
#: src/exercises/bare-metal/solutions-morning.md:49
msgid "// Set up display and timer.\n"
msgstr ""
#: src/exercises/bare-metal/solutions-morning.md:59
msgid "// Read compass data and log it to the serial port.\n"
msgstr ""
#: src/exercises/bare-metal/solutions-morning.md:67
msgid "\"{},{},{}\\t{},{},{}\""
msgstr ""
#: src/exercises/bare-metal/solutions-morning.md:103
msgid ""
"// If button A is pressed, switch to the next mode and briefly blink all "
"LEDs on.\n"
msgstr ""
#: src/exercises/bare-metal/solutions-afternoon.md:5
msgid "([back to exercise](rtc.md))"
msgstr ""
#: src/exercises/bare-metal/solutions-afternoon.md:7
msgid "_main.rs_:"
msgstr ""
#: src/exercises/bare-metal/solutions-afternoon.md:36
msgid "/// Base address of the PL031 RTC.\n"
msgstr ""
#: src/exercises/bare-metal/solutions-afternoon.md:38
msgid "/// The IRQ used by the PL031 RTC.\n"
msgstr ""
#: src/exercises/bare-metal/solutions-afternoon.md:57
msgid ""
"// Safe because `PL031_BASE_ADDRESS` is the base address of a PL031 device,\n"
" // and nothing else accesses that address range.\n"
msgstr ""
#: src/exercises/bare-metal/solutions-afternoon.md:62
msgid "\"RTC: {time}\""
msgstr ""
#: src/exercises/bare-metal/solutions-afternoon.md:70
msgid "// Wait for 3 seconds, without interrupts.\n"
msgstr ""
#: src/exercises/bare-metal/solutions-afternoon.md:74
#: src/exercises/bare-metal/solutions-afternoon.md:95
msgid "\"Waiting for {}\""
msgstr ""
#: src/exercises/bare-metal/solutions-afternoon.md:78
#: src/exercises/bare-metal/solutions-afternoon.md:86
#: src/exercises/bare-metal/solutions-afternoon.md:102
#: src/exercises/bare-metal/solutions-afternoon.md:110
msgid "\"matched={}, interrupt_pending={}\""
msgstr ""
#: src/exercises/bare-metal/solutions-afternoon.md:90
#: src/exercises/bare-metal/solutions-afternoon.md:114
msgid "\"Finished waiting\""
msgstr ""
#: src/exercises/bare-metal/solutions-afternoon.md:92
msgid "// Wait another 3 seconds for an interrupt.\n"
msgstr ""
#: src/exercises/bare-metal/solutions-afternoon.md:127
msgid "_pl031.rs_:"
msgstr ""
#: src/exercises/bare-metal/solutions-afternoon.md:134
msgid "/// Data register\n"
msgstr ""
#: src/exercises/bare-metal/solutions-afternoon.md:136
msgid "/// Match register\n"
msgstr ""
#: src/exercises/bare-metal/solutions-afternoon.md:138
msgid "/// Load register\n"
msgstr ""
#: src/exercises/bare-metal/solutions-afternoon.md:140
msgid "/// Control register\n"
msgstr ""
#: src/exercises/bare-metal/solutions-afternoon.md:143
msgid "/// Interrupt Mask Set or Clear register\n"
msgstr ""
#: src/exercises/bare-metal/solutions-afternoon.md:146
msgid "/// Raw Interrupt Status\n"
msgstr ""
#: src/exercises/bare-metal/solutions-afternoon.md:149
msgid "/// Masked Interrupt Status\n"
msgstr ""
#: src/exercises/bare-metal/solutions-afternoon.md:152
msgid "/// Interrupt Clear Register\n"
msgstr ""
#: src/exercises/bare-metal/solutions-afternoon.md:156
msgid "/// Driver for a PL031 real-time clock.\n"
msgstr ""
#: src/exercises/bare-metal/solutions-afternoon.md:164
msgid ""
"/// Constructs a new instance of the RTC driver for a PL031 device at the\n"
" /// given base address.\n"
" ///\n"
" /// # Safety\n"
" ///\n"
" /// The given base address must point to the MMIO control registers of "
"a\n"
" /// PL031 device, which must be mapped into the address space of the "
"process\n"
" /// as device memory and not have any other aliases.\n"
msgstr ""
#: src/exercises/bare-metal/solutions-afternoon.md:178
msgid "/// Reads the current RTC value.\n"
msgstr ""
#: src/exercises/bare-metal/solutions-afternoon.md:180
#: src/exercises/bare-metal/solutions-afternoon.md:188
#: src/exercises/bare-metal/solutions-afternoon.md:196
#: src/exercises/bare-metal/solutions-afternoon.md:207
#: src/exercises/bare-metal/solutions-afternoon.md:219
#: src/exercises/bare-metal/solutions-afternoon.md:226
msgid ""
"// Safe because we know that self.registers points to the control\n"
" // registers of a PL031 device which is appropriately mapped.\n"
msgstr ""
#: src/exercises/bare-metal/solutions-afternoon.md:185
msgid ""
"/// Writes a match value. When the RTC value matches this then an interrupt\n"
" /// will be generated (if it is enabled).\n"
msgstr ""
#: src/exercises/bare-metal/solutions-afternoon.md:193
msgid ""
"/// Returns whether the match register matches the RTC value, whether or "
"not\n"
" /// the interrupt is enabled.\n"
msgstr ""
#: src/exercises/bare-metal/solutions-afternoon.md:202
msgid ""
"/// Returns whether there is currently an interrupt pending.\n"
" ///\n"
" /// This should be true if and only if `matched` returns true and the\n"
" /// interrupt is masked.\n"
msgstr ""
#: src/exercises/bare-metal/solutions-afternoon.md:213
msgid ""
"/// Sets or clears the interrupt mask.\n"
" ///\n"
" /// When the mask is true the interrupt is enabled; when it is false "
"the\n"
" /// interrupt is disabled.\n"
msgstr ""
#: src/exercises/bare-metal/solutions-afternoon.md:224
msgid "/// Clears a pending interrupt, if any.\n"
msgstr ""
#: src/exercises/concurrency/solutions-morning.md:1
msgid "Concurrency Morning Exercise"
msgstr ""
#: src/exercises/concurrency/solutions-morning.md:5
msgid "([back to exercise](dining-philosophers.md))"
msgstr ""
#: src/exercises/concurrency/solutions-morning.md:29
msgid "\"{} is trying to eat\""
msgstr ""
#: src/exercises/concurrency/solutions-morning.md:53
msgid ""
"// To avoid a deadlock, we have to break the symmetry\n"
" // somewhere. This will swap the forks without deinitializing\n"
" // either of them.\n"
msgstr ""
#: src/exercises/concurrency/solutions-morning.md:77
msgid "\"{thought}\""
msgstr ""
#: src/exercises/concurrency/solutions-morning.md:82
#, fuzzy
msgid "Link Checker"
msgstr "マルチスレッド・リンクチェッカー"
#: src/exercises/concurrency/solutions-morning.md:84
msgid "([back to exercise](link-checker.md))"
msgstr ""
#: src/exercises/concurrency/solutions-morning.md:155
msgid ""
"/// Determine whether links within the given page should be extracted.\n"
msgstr ""
#: src/exercises/concurrency/solutions-morning.md:163
msgid ""
"/// Mark the given page as visited, returning false if it had already\n"
" /// been visited.\n"
msgstr ""
#: src/exercises/concurrency/solutions-morning.md:189
msgid "// The sender got dropped. No more commands coming in.\n"
msgstr ""
#: src/exercises/concurrency/solutions-morning.md:230
msgid "\"Got crawling error: {:#}\""
msgstr ""
#: src/exercises/concurrency/solutions-morning.md:248
msgid "\"Bad URLs: {:#?}\""
msgstr ""
#: src/exercises/concurrency/solutions-afternoon.md:1
msgid "Concurrency Afternoon Exercise"
msgstr ""
#: src/exercises/concurrency/solutions-afternoon.md:5
msgid "([back to exercise](dining-philosophers-async.md))"
msgstr ""
#: src/exercises/concurrency/solutions-afternoon.md:32
msgid ""
"// Add a delay before picking the second fork to allow the execution\n"
" // to transfer to another task\n"
msgstr ""
#: src/exercises/concurrency/solutions-afternoon.md:40
msgid "// The locks are dropped here\n"
msgstr ""
#: src/exercises/concurrency/solutions-afternoon.md:60
msgid ""
"// To avoid a deadlock, we have to break the symmetry\n"
" // somewhere. This will swap the forks without deinitializing\n"
" // either of them.\n"
msgstr ""
#: src/exercises/concurrency/solutions-afternoon.md:74
msgid "// tx is dropped here, so we don't need to explicitly drop it later\n"
msgstr ""
#: src/exercises/concurrency/solutions-afternoon.md:90
msgid "\"Here is a thought: {thought}\""
msgstr ""
#: src/exercises/concurrency/solutions-afternoon.md:97
msgid "([back to exercise](chat-app.md))"
msgstr ""
#: src/exercises/concurrency/solutions-afternoon.md:117
msgid "\"Welcome to chat! Type a message\""
msgstr ""
#: src/exercises/concurrency/solutions-afternoon.md:121
msgid ""
"// A continuous loop for concurrently performing two tasks: (1) receiving\n"
" // messages from `ws_stream` and broadcasting them, and (2) receiving\n"
" // messages on `bcast_rx` and sending them to the client.\n"
msgstr ""
#: src/exercises/concurrency/solutions-afternoon.md:130
msgid "\"From client {addr:?} {text:?}\""
msgstr ""
#: src/exercises/concurrency/solutions-afternoon.md:185
msgid "// Continuous loop for concurrently sending and receiving messages.\n"
msgstr ""
#: src/exercises/concurrency/solutions-afternoon.md:192
msgid "\"From server: {}\""
msgstr ""