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mirror of https://github.com/ryanoasis/nerd-fonts.git synced 2024-12-13 17:18:37 +02:00
nerd-fonts/bin/scripts/name_parser
Fini Jastrow feafa89bb3 font-patcher: Prevent --mono on proportional fonts
[why]
When the source font is proportional we can not really create a
monospaced (patched) font from it. The glyph width is for example very
small for 'i' but wide for 'W'.
The glyphs are all left aligned, leaving very strange separation between
smallish glyphs.
Even if we would center the glyphs, the look would be strange and
completely differenmt from the source font's look.

[how]
For proportional fonts do not allow to patch with `--mono`.

The fact if a source font is monospaced is determined by examining some
(very few) glyphs. But testing all our source fonts in the repo shows
that it is sufficient.
Furthermore the Panose flag is checked and differences between the flag
and what the glyph examination found are reported.

The user can enforce `Nerd Font Mono` generation with double specifying
the command line option `--mono --mono`. Still a warning will be issued.

[note]
Because `gotta-patch-em-all-font-patcher!.sh` does not really count the
variations but calculates them in a separate loop it does not know
anymore how many variations are created per family. The numbers are
wrong.
But probably we should count the result font files in the end anyhow.

Because the information is not needed (in an automated manner) this is
not corrected here.

It seems wrong anyhow:
  total_variation_count=$((total_variation_count+combination_count))
  total_count=$((total_count+complete_variations_per_family+combination_count))

Signed-off-by: Fini Jastrow <ulf.fini.jastrow@desy.de>
2022-09-24 16:56:30 +02:00
..
FontnameParser.py name-parser: Fix Python2 compatibility 2022-08-22 10:53:05 +02:00
FontnameTools.py name-parser: Fix Python2 compatibility 2022-08-22 10:53:05 +02:00
frequency Draft: Introduce a file name parser 2022-08-22 10:53:05 +02:00
name_parser_test1 name-parser: Specify python version 2022-08-22 10:53:05 +02:00
name_parser_test1.known_issues name-parser: Update test results 2022-08-22 10:53:05 +02:00
name_parser_test2 name-parser: Specify python version 2022-08-22 10:53:05 +02:00
name_parser_test2.known_issues name-parser: Update test results 2022-08-22 10:53:05 +02:00
query_mono Add query_mono debugging script 2022-09-11 16:41:12 +02:00
query_monospace font-patcher: Prevent --mono on proportional fonts 2022-09-24 16:56:30 +02:00
query_names query_names: Unify field widths 2022-09-24 13:53:48 +02:00
query_panose name-parser: Specify python version 2022-08-22 10:53:05 +02:00
query_sftn name-parser: Specify python version 2022-08-22 10:53:05 +02:00
query_version name-parser: Specify python version 2022-08-22 10:53:05 +02:00
README.md Add query_mono debugging script 2022-09-11 16:41:12 +02:00
tags Draft: Introduce a file name parser 2022-08-22 10:53:05 +02:00

Creating Consistently Grouped Patched Fonts

This is a small sub-project to font-patcher that uses a little bit more knowledge to come up with font names and name parts. In applications multiple fonts are grouped under a 'Family'. Each member of the Family has a different 'SubFamily' or 'Style'.

Consider a font named 'Times' that has two variants: normal and bold. For this font the Family would be 'Times' and the 'Style' would be 'Regular' (i.e normal) in one file and 'Bold' in the other file.

With this information applications are able to group all 'Times' together and additionally choose the 'Bold' font if the user pushes the 'B' button on the font style dialog in that application.

Motivation

Quite a number of patched fonts have inconsistent or simply wrong font grouping. The naming in general is sometimes surprising and not following naming conventions. This is in part due to the font-patcher, but in part the source fonts are already strange. This results in invisible (but installed) fonts in some applications, inconsistent naming (Familyname differs from Fullname) and not correctly working bold/italic selectors in some applications.

And we would like to have the information within the names sorted in a consistent way. usually a font name consists of these parts (in this order):

  1. Name base (e.g. Noto)
  2. Variant (e.g. Sans)
  3. Subvariant (e.g. Display)
  4. Weight (e.g. Black)
  5. Style (e.g. Italic)

This is important because we want to add subvariant information, namely the Nerd Font part.

Example:

  • (old) Iosevka Term Light Italic Nerd Font
  • (new) Iosevka Term Nerd Font Light Italic

The Plan

To solve these issues the font name parts have to be analyzed more thoroughly and then categorized. These categories are then used to assemble the names in correct order. The simple (not typographically aware) applications shall always get groups of at most four styles, and these are Regular, Bold, Italic, and Bold-Italic. Other styles turn up as Families, because this is the only way they would work in these more simple applications.

Typographically aware applications, on the other hand, get all styles grouped under one Family name.

First experiments showed that the full information can usually be restored already from the file names that our source fonts have.

This new naming is complete optional (but recommended). Give the option --makegroups to font-patcher and it will try to come up with reasonable grouping and naming. Leave the option out and it will work as it always did.

The Tests

In this directory there are two tests.

  1. The first test checks the basics of the algorithm. It takes the filenames of all fonts in src/unpatched-fonts/, then it calculates the naming and compares it to the original naming in the font files. Ideally they would be equal.
  2. The second test does a 'production run'. It patches each font in src/unpatched-fonts/ and patches it two times: Once without --makegroups and once with. Then it compares the naming, and it also shows the original font naming (for comparison).

All tests base on these assumptions

  • Fullname must be roughly equal
  • Fontname must be roughly equal
  • Familyname must roughly equal, order of all words does not matter (Order of words is ignored with test 2 only)
  • SubFamilyname must be equal, order of words does not matter (First word must be equal, order of other words is ignored with test 2 only)
  • Typographic names can be empty if the correct typographic name would be equal to the ordinary name
  • Tests are done case insensitive
  • Some special exemptions are made (see lenient_cmp() in test scripts)

Test 1

fontforge name_parser_test1 ../../../src/unpatched-fonts/**/*.[ot]tf 2>/dev/null

This test takes the filename of a font, parses it and generates names from it. Then the actual font is opened and the generated names are compared with the stored names. This test is used to test the algorithm itself. Of course no SIL table is active as we want to preserve the original names.

The output shows all the names, always two lines: first the generated names, then the readout names. If there are differences the generated names are tagged with + and the readout ones with -. If there are differences the actually different name part is marked with an X.

The differences have reasons, and there is a file with textual explanations for them. So far all differences are 'ok'. A new run of the script will compare all differences with the stored ones and alert the user if a new difference is detected (or a difference vanished). In this way changes of the algorithm can be tested with a wide base of inputs.

Test 2

fontforge name_parser_test2 ../../../src/unpatched-fonts/**/*.[ot]tf 2>/dev/null

This test compares actually patched fonts. Every font in src/unpatched-fonts/ is patched two times: First with the 'old/classic' font-patcher naming, and second with the new naming algorithm in action (by specifying --makegroups). Again the name parts are compared with some lenience and an output generated like test 1 does.

Also again a file with known differences (with explanations) is read, and any new or vanished differences are reported. In the report an additional line is given, tagged with >, that contains the names of the original font, for human interpretation (often the reason for a difference is obvious, because the classic font-patcher dropped information.

Note: Fonts NotoColorEmoji and Lilex-VF are not patchable, and thus ignored Note: Fonts iosevka-heavyoblique, iosevka-term-heavyoblique, iosevka-mediumoblique crash my machine and are ignored

Differences

The naming of the patched fonts, if --makegroups is applied, will be different. Of course, that is the goal. What are the differences in particular:

  • Nerd Font is not added in the end, but after the extended base name before the style
  • The SubFamily contains only 4 Styles max: Regular, Bold, Italic, Bold-Italic
  • The Noto fonts retain their abbreviated style names in the Family information
  • Nerd Font Mono fonts get a M in windows mode (I believe that has been left out accidentally before)

Apart from these general things, all changes are documented in detail in the name_parser_test2 issues file. Here is an overview over all the things that get renamed and why:

Occurences Description
511 Add weight/style to family
43 The fonts name is M+ not Mplus
36 Drop unneeded Typogr.Family/Typogr.Style
26 'Term' is missing from Family
22 Change regular-equivalent name to Regular
19 Put Oblique into own SubFamily (and mark it as italic)
5 Drop Regular from Style
4 We handle (TTF) as sub-name
4 Fullname has been missing 'Nerd Font'
4 Bold / Bold-Italic are just a styles of Regular
2 Original font broken (Light in Family)
2 Classify Medium as own weigt and not Bold
2 Bold and Italic are styles of a basefont
1 Weight Condensed does not belong to base name
1 Use only Regular/Bold/Italic in SubFamily
1 Handle Retina as Weight and not Style
1 Do not call Semibold Light-Bold

From the count we see that almost all fonts are affected by incorrect Family naming.

Further steps

One can examine all the (current) naming differences in the name_parser_test2.known_issues file. The Explanation is followed by three lines of names: source-file, patched-with-makegroups, and patched-classic.

The Explanation sorts most differences into common groups. This helps to weed out explanations that might do not need much attention.

Helper scripts

There are some helper scripts that help examining the font files. Of course there are other, more professional tools to dump font information, but here we get all we need in a concise way:

  • query_mono font_name [font_name ...]
  • query_names font_name [font_name ...]
  • query_panose font_name
  • query_sftn [<sfnt-name>] font_name
  • query_version font_name

They can be invoked like this $ fontforge query_sfnt foo.ttf.

Appendix: The name_parser_test*.known_issues files

All differences of 'old' to 'new' naming (if not one of the very general kind like resorting of the words) are documented in the known_issues files. For each difference a reason is given.

The files consist of entries that spans 3 (for test 1) or 4 (for test 2) lines.

Line starts with Contents
# Reson for the difference (or AUTOGENERATED)
> Naming fo the original/source font (only test 2)
+ Naming with --makegroups (new naming)
- Naming classically generated by font-patcher

After any test run a known_issues.new file is generated. It contains all the issues from the known_issues file that were detected. Original issues that are not existing anymore are at the bottom of the new file, clearly marked as such. If new (previously unexplained) issues were detected they show up with the AUTOGENERATED reason.

After adding new fonts or replacing font files the test can be rerun. If there are issues in the .new file they should be documented there, and the .new file replace the original known_issues file (after removing possible 'obsolete' issues that are listed in the bottom of the new file).

In this way one can tweak the parser code and compare very easily what a change means for all the fonts, which will break or be repaired.