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revive/rule/var-naming.go

282 lines
7.1 KiB
Go

package rule
import (
"fmt"
"go/ast"
"go/token"
"regexp"
"strings"
"sync"
"github.com/mgechev/revive/lint"
)
var anyCapsRE = regexp.MustCompile(`[A-Z]`)
// regexp for constant names like `SOME_CONST`, `SOME_CONST_2`, `X123_3`, `_SOME_PRIVATE_CONST` (#851, #865)
var upperCaseConstRE = regexp.MustCompile(`^_?[A-Z][A-Z\d]*(_[A-Z\d]+)*$`)
// VarNamingRule lints given else constructs.
type VarNamingRule struct {
configured bool
allowlist []string
blocklist []string
upperCaseConst bool // if true - allows to use UPPER_SOME_NAMES for constants
skipPackageNameChecks bool
sync.Mutex
}
func (r *VarNamingRule) configure(arguments lint.Arguments) {
r.Lock()
defer r.Unlock()
if r.configured {
return
}
r.configured = true
if len(arguments) >= 1 {
r.allowlist = getList(arguments[0], "allowlist")
}
if len(arguments) >= 2 {
r.blocklist = getList(arguments[1], "blocklist")
}
if len(arguments) >= 3 {
// not pretty code because should keep compatibility with TOML (no mixed array types) and new map parameters
thirdArgument := arguments[2]
asSlice, ok := thirdArgument.([]any)
if !ok {
panic(fmt.Sprintf("Invalid third argument to the var-naming rule. Expecting a %s of type slice, got %T", "options", arguments[2]))
}
if len(asSlice) != 1 {
panic(fmt.Sprintf("Invalid third argument to the var-naming rule. Expecting a %s of type slice, of len==1, but %d", "options", len(asSlice)))
}
args, ok := asSlice[0].(map[string]any)
if !ok {
panic(fmt.Sprintf("Invalid third argument to the var-naming rule. Expecting a %s of type slice, of len==1, with map, but %T", "options", asSlice[0]))
}
r.upperCaseConst = fmt.Sprint(args["upperCaseConst"]) == "true"
r.skipPackageNameChecks = fmt.Sprint(args["skipPackageNameChecks"]) == "true"
}
}
func (r *VarNamingRule) applyPackageCheckRules(walker *lintNames) {
// Package names need slightly different handling than other names.
if strings.Contains(walker.fileAst.Name.Name, "_") && !strings.HasSuffix(walker.fileAst.Name.Name, "_test") {
walker.onFailure(lint.Failure{
Failure: "don't use an underscore in package name",
Confidence: 1,
Node: walker.fileAst.Name,
Category: "naming",
})
}
if anyCapsRE.MatchString(walker.fileAst.Name.Name) {
walker.onFailure(lint.Failure{
Failure: fmt.Sprintf("don't use MixedCaps in package name; %s should be %s", walker.fileAst.Name.Name, strings.ToLower(walker.fileAst.Name.Name)),
Confidence: 1,
Node: walker.fileAst.Name,
Category: "naming",
})
}
}
// Apply applies the rule to given file.
func (r *VarNamingRule) Apply(file *lint.File, arguments lint.Arguments) []lint.Failure {
r.configure(arguments)
var failures []lint.Failure
fileAst := file.AST
walker := lintNames{
file: file,
fileAst: fileAst,
allowlist: r.allowlist,
blocklist: r.blocklist,
onFailure: func(failure lint.Failure) {
failures = append(failures, failure)
},
upperCaseConst: r.upperCaseConst,
}
if !r.skipPackageNameChecks {
r.applyPackageCheckRules(&walker)
}
ast.Walk(&walker, fileAst)
return failures
}
// Name returns the rule name.
func (*VarNamingRule) Name() string {
return "var-naming"
}
func (w *lintNames) checkList(fl *ast.FieldList, thing string) {
if fl == nil {
return
}
for _, f := range fl.List {
for _, id := range f.Names {
w.check(id, thing)
}
}
}
func (w *lintNames) check(id *ast.Ident, thing string) {
if id.Name == "_" {
return
}
if knownNameExceptions[id.Name] {
return
}
// #851 upperCaseConst support
// if it's const
if thing == token.CONST.String() && w.upperCaseConst && upperCaseConstRE.MatchString(id.Name) {
return
}
// Handle two common styles from other languages that don't belong in Go.
if len(id.Name) >= 5 && allCapsRE.MatchString(id.Name) && strings.Contains(id.Name, "_") {
w.onFailure(lint.Failure{
Failure: "don't use ALL_CAPS in Go names; use CamelCase",
Confidence: 0.8,
Node: id,
Category: "naming",
})
return
}
should := lint.Name(id.Name, w.allowlist, w.blocklist)
if id.Name == should {
return
}
if len(id.Name) > 2 && strings.Contains(id.Name[1:], "_") {
w.onFailure(lint.Failure{
Failure: fmt.Sprintf("don't use underscores in Go names; %s %s should be %s", thing, id.Name, should),
Confidence: 0.9,
Node: id,
Category: "naming",
})
return
}
w.onFailure(lint.Failure{
Failure: fmt.Sprintf("%s %s should be %s", thing, id.Name, should),
Confidence: 0.8,
Node: id,
Category: "naming",
})
}
type lintNames struct {
file *lint.File
fileAst *ast.File
onFailure func(lint.Failure)
allowlist []string
blocklist []string
upperCaseConst bool
}
func (w *lintNames) Visit(n ast.Node) ast.Visitor {
switch v := n.(type) {
case *ast.AssignStmt:
if v.Tok == token.ASSIGN {
return w
}
for _, exp := range v.Lhs {
if id, ok := exp.(*ast.Ident); ok {
w.check(id, "var")
}
}
case *ast.FuncDecl:
funcName := v.Name.Name
if w.file.IsTest() &&
(strings.HasPrefix(funcName, "Example") ||
strings.HasPrefix(funcName, "Test") ||
strings.HasPrefix(funcName, "Benchmark") ||
strings.HasPrefix(funcName, "Fuzz")) {
return w
}
thing := "func"
if v.Recv != nil {
thing = "method"
}
// Exclude naming warnings for functions that are exported to C but
// not exported in the Go API.
// See https://github.com/golang/lint/issues/144.
if ast.IsExported(v.Name.Name) || !isCgoExported(v) {
w.check(v.Name, thing)
}
w.checkList(v.Type.Params, thing+" parameter")
w.checkList(v.Type.Results, thing+" result")
case *ast.GenDecl:
if v.Tok == token.IMPORT {
return w
}
thing := v.Tok.String()
for _, spec := range v.Specs {
switch s := spec.(type) {
case *ast.TypeSpec:
w.check(s.Name, thing)
case *ast.ValueSpec:
for _, id := range s.Names {
w.check(id, thing)
}
}
}
case *ast.InterfaceType:
// Do not check interface method names.
// They are often constrained by the method names of concrete types.
for _, x := range v.Methods.List {
ft, ok := x.Type.(*ast.FuncType)
if !ok { // might be an embedded interface name
continue
}
w.checkList(ft.Params, "interface method parameter")
w.checkList(ft.Results, "interface method result")
}
case *ast.RangeStmt:
if v.Tok == token.ASSIGN {
return w
}
if id, ok := v.Key.(*ast.Ident); ok {
w.check(id, "range var")
}
if id, ok := v.Value.(*ast.Ident); ok {
w.check(id, "range var")
}
case *ast.StructType:
for _, f := range v.Fields.List {
for _, id := range f.Names {
w.check(id, "struct field")
}
}
}
return w
}
func getList(arg any, argName string) []string {
temp, ok := arg.([]any)
if !ok {
panic(fmt.Sprintf("Invalid argument to the var-naming rule. Expecting a %s of type slice with initialisms, got %T", argName, arg))
}
var list []string
for _, v := range temp {
if val, ok := v.(string); ok {
list = append(list, val)
} else {
panic(fmt.Sprintf("Invalid %s values of the var-naming rule. Expecting slice of strings but got element of type %T", val, arg))
}
}
return list
}