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Fontbakery Technical Report

If you think a check is flawed or have an idea for a check, please file an issue at https://github.com/fonttools/fontbakery/issues and remember to include a pointer to the repo and branch you're checking.

DEPRECATION WARNING

By late-December 2024, FontBakery version 0.13.0 introduced a new naming scheme for the check-IDs.

Fontbakery detected usage of old IDs and performed an automatic backwards-compatibility translation for you.
This automatic translation will be deprecated in the next major release.

Please start using the new check-IDs as documented at /Lib/fontbakery/legacy_checkids.py

The following legacy check-IDs were detected:
- com.google.fonts/check/outline_jaggy_segments
- com.google.fonts/check/ttx_roundtrip
- com.google.fonts/check/outline_colinear_vectors
- com.google.fonts/check/outline_alignment_miss
- com.google.fonts/check/outline_semi_vertical
- com.google.fonts/check/version_bump
- com.google.fonts/check/outline_short_segments
- com.google.fonts/check/fontdata_namecheck

Summary

💥 ERROR ☠ FATAL 🔥 FAIL ⚠️ WARN ⏩ SKIP ℹ️ INFO ✅ PASS
2 0 1 14 57 6 158
1% 0% 0% 6% 24% 3% 66%

Meaning of check results:

If you get ERRORs, please help us improve the tool by reporting them at our issue tracker.

(but other kinds of bug reports and/or feature requests are also always welcome, of course!)

FontBakery version: 0.13.1

OpenType Specification Checks

⚠️⏩⏩⏩⏩⏩⏩⏩⏩⏩⏩⏩⏩⏩⏩⏩⏩⏩

Check glyphs in mark glyph class are non-spacing.

Check ID: <FontBakeryCheck:opentype/gdef_spacing_marks>
⚠️ Maname-Regular.ttf
  • ⚠️ WARN

    The following glyphs seem to be spacing (because they have width > 0 on the hmtx table) so they may be in the GDEF mark glyph class by mistake, or they should have zero width instead: sinVirama (U+0DCA)

    [code: spacing-mark-glyphs]

Universal Profile Checks

⚠️⚠️⚠️⚠️⚠️⚠️⏩⏩⏩⏩⏩⏩⏩⏩⏩⏩⏩⏩⏩⏩⏩⏩⏩⏩ℹ️ℹ️

Check if uppercase glyphs are vertically centered.

Check ID: <FontBakeryCheck:caps_vertically_centered>
⚠️ Maname-Regular.ttf
  • ⚠️ WARN

    Uppercase glyphs are not vertically centered in the em box.

    [code: vertical-metrics-not-centered]

Check if each glyph has the recommended amount of contours.

Check ID: <FontBakeryCheck:contour_count>
⚠️ Maname-Regular.ttf
  • ⚠️ WARN

    This check inspects the glyph outlines and detects the total number of contours in each of them. The expected values are infered from the typical ammounts of contours observed in a large collection of reference font families. The divergences listed below may simply indicate a significantly different design on some of your glyphs. On the other hand, some of these may flag actual bugs in the font such as glyphs mapped to an incorrect codepoint. Please consider reviewing the design and codepoint assignment of these to make sure they are correct.

    The following glyphs do not have the recommended number of contours:

    - Glyph name: asterisk	Contours detected: 2	Expected: 1 or 4

- Glyph name: nine	Contours detected: 3	Expected: 1 or 2

- Glyph name: uni00AD	Contours detected: 1	Expected: 0

- Glyph name: cedilla	Contours detected: 2	Expected: 1

- Glyph name: questiondown	Contours detected: 3	Expected: 2

- Glyph name: Ccedilla	Contours detected: 3	Expected: 1 or 2

- Glyph name: Eth	Contours detected: 3	Expected: 2

- Glyph name: ccedilla	Contours detected: 3	Expected: 1 or 2

- Glyph name: aogonek	Contours detected: 3	Expected: 2

- Glyph name: Dcroat	Contours detected: 3	Expected: 2

- Glyph name: eogonek	Contours detected: 3	Expected: 2

- Glyph name: uni0123	Contours detected: 1	Expected: 3 or 4

- Glyph name: Eng	Contours detected: 2	Expected: 1

- Glyph name: Scedilla	Contours detected: 3	Expected: 1 or 2

- Glyph name: scedilla	Contours detected: 3	Expected: 1 or 2

- Glyph name: uni0162	Contours detected: 3	Expected: 1 or 2

- Glyph name: uni0163	Contours detected: 3	Expected: 1 or 2

- Glyph name: Uogonek	Contours detected: 2	Expected: 1

- Glyph name: uogonek	Contours detected: 2	Expected: 1

- Glyph name: ohorn	Contours detected: 3	Expected: 2

- Glyph name: Uhorn	Contours detected: 2	Expected: 1

- Glyph name: uhorn	Contours detected: 2	Expected: 1

- Glyph name: uni01EA	Contours detected: 3	Expected: 2

- Glyph name: uni01EB	Contours detected: 3	Expected: 2

- Glyph name: uni0327	Contours detected: 2	Expected: 1

- Glyph name: uni1EDB	Contours detected: 4	Expected: 3

- Glyph name: uni1EDD	Contours detected: 4	Expected: 3

- Glyph name: uni1EDF	Contours detected: 4	Expected: 3

- Glyph name: uni1EE1	Contours detected: 4	Expected: 3

- Glyph name: uni1EE3	Contours detected: 4	Expected: 3

- Glyph name: uni1EE8	Contours detected: 3	Expected: 2

- Glyph name: uni1EE9	Contours detected: 3	Expected: 2

- Glyph name: uni1EEA	Contours detected: 3	Expected: 2

- Glyph name: uni1EEB	Contours detected: 3	Expected: 2

- Glyph name: uni1EEC	Contours detected: 3	Expected: 2

- Glyph name: uni1EED	Contours detected: 3	Expected: 2

- Glyph name: uni1EEE	Contours detected: 3	Expected: 2

- Glyph name: uni1EEF	Contours detected: 3	Expected: 2

- Glyph name: uni1EF0	Contours detected: 3	Expected: 2

- Glyph name: uni1EF1	Contours detected: 3	Expected: 2

- Glyph name: Ccedilla	Contours detected: 3	Expected: 1 or 2

- Glyph name: Dcroat	Contours detected: 3	Expected: 2

- Glyph name: Eng	Contours detected: 2	Expected: 1

- Glyph name: Eth	Contours detected: 3	Expected: 2

- Glyph name: Uhorn	Contours detected: 2	Expected: 1

- Glyph name: Uogonek	Contours detected: 2	Expected: 1

- Glyph name: aogonek	Contours detected: 3	Expected: 2

- Glyph name: asterisk	Contours detected: 2	Expected: 1 or 4

- Glyph name: ccedilla	Contours detected: 3	Expected: 1 or 2

- Glyph name: cedilla	Contours detected: 2	Expected: 1

- Glyph name: eogonek	Contours detected: 3	Expected: 2

- Glyph name: fi	Contours detected: 1	Expected: 3

- Glyph name: fl	Contours detected: 1	Expected: 2

- Glyph name: nine	Contours detected: 3	Expected: 1 or 2

- Glyph name: ohorn	Contours detected: 3	Expected: 2

- Glyph name: questiondown	Contours detected: 3	Expected: 2

- Glyph name: uhorn	Contours detected: 2	Expected: 1

- Glyph name: uni00AD	Contours detected: 1	Expected: 0

- Glyph name: uni0123	Contours detected: 1	Expected: 3 or 4

- Glyph name: uni0162	Contours detected: 3	Expected: 1 or 2

- Glyph name: uni0163	Contours detected: 3	Expected: 1 or 2

- Glyph name: uni0327	Contours detected: 2	Expected: 1

- Glyph name: uni1EDB	Contours detected: 4	Expected: 3

- Glyph name: uni1EDD	Contours detected: 4	Expected: 3

- Glyph name: uni1EDF	Contours detected: 4	Expected: 3

- Glyph name: uni1EE1	Contours detected: 4	Expected: 3

- Glyph name: uni1EE3	Contours detected: 4	Expected: 3

- Glyph name: uni1EE8	Contours detected: 3	Expected: 2

- Glyph name: uni1EE9	Contours detected: 3	Expected: 2

- Glyph name: uni1EEA	Contours detected: 3	Expected: 2

- Glyph name: uni1EEB	Contours detected: 3	Expected: 2

- Glyph name: uni1EEC	Contours detected: 3	Expected: 2

- Glyph name: uni1EED	Contours detected: 3	Expected: 2

- Glyph name: uni1EEE	Contours detected: 3	Expected: 2

- Glyph name: uni1EEF	Contours detected: 3	Expected: 2

- Glyph name: uni1EF0	Contours detected: 3	Expected: 2

- Glyph name: uni1EF1	Contours detected: 3	Expected: 2

- Glyph name: uogonek	Contours detected: 2	Expected: 1
    [code: contour-count]

Are there caret positions declared for every ligature?

Check ID: <FontBakeryCheck:ligature_carets>
⚠️ Maname-Regular.ttf
  • ⚠️ WARN

    This font lacks caret position values for ligature glyphs on its GDEF table.

    [code: lacks-caret-pos]

Check there are no overlapping path segments

Check ID: <FontBakeryCheck:overlapping_path_segments>
⚠️ Maname-Regular.ttf
  • ⚠️ WARN

    The following glyphs have overlapping path segments:

    * sinCha (U+0DA1): L<<244.0,300.0>--<243.0,299.0>> has the same coordinates as a previous segment.

* sinNya (U+0DA4): L<<864.0,492.0>--<864.0,492.0>> has the same coordinates as a previous segment.

* sinSsa (U+0DC2): L<<245.0,300.0>--<244.0,299.0>> has the same coordinates as a previous segment.

* sinKSsa: L<<751.0,300.0>--<750.0,299.0>> has the same coordinates as a previous segment.

* sinTVa: L<<73.0,57.0>--<73.0,59.0>> has the same coordinates as a previous segment.

* sinTTha: L<<85.0,57.0>--<85.0,59.0>> has the same coordinates as a previous segment.

* sinCh.virama: L<<234.0,300.0>--<233.0,299.0>> has the same coordinates as a previous segment.

* sinJh.virama: L<<760.0,664.0>--<767.0,666.0>> has the same coordinates as a previous segment.

* sinNy.virama: L<<864.0,492.0>--<864.0,492.0>> has the same coordinates as a previous segment.

* sinDh.virama: L<<283.0,664.0>--<290.0,666.0>> has the same coordinates as a previous segment.

* sinB.virama: L<<288.0,713.0>--<296.0,715.0>> has the same coordinates as a previous segment.

* sinM.virama: L<<286.0,708.0>--<292.0,709.0>> has the same coordinates as a previous segment.

* sinMb.virama: L<<284.0,707.0>--<292.0,709.0>> has the same coordinates as a previous segment.

* sinV.virama: L<<269.0,718.0>--<275.0,719.0>> has the same coordinates as a previous segment.

* sinSs.virama: L<<245.0,300.0>--<244.0,299.0>> has the same coordinates as a previous segment.

* sinKSs.virama: L<<736.0,300.0>--<735.0,299.0>> has the same coordinates as a previous segment.

* sinKV.virama: L<<733.0,718.0>--<739.0,719.0>> has the same coordinates as a previous segment.

* sinTV.virama: L<<120.0,52.0>--<120.0,53.0>> has the same coordinates as a previous segment.

* sinTV.virama: L<<754.0,718.0>--<760.0,719.0>> has the same coordinates as a previous segment.

* sinTTh.virama: L<<85.0,57.0>--<85.0,59.0>> has the same coordinates as a previous segment.

* sinNDh.virama: L<<716.0,664.0>--<723.0,666.0>> has the same coordinates as a previous segment.

* sinNV.virama: L<<706.0,718.0>--<712.0,719.0>> has the same coordinates as a previous segment.

* sinDV.virama: L<<403.0,718.0>--<409.0,719.0>> has the same coordinates as a previous segment.

* sinChI: L<<244.0,300.0>--<243.0,299.0>> has the same coordinates as a previous segment.

* sinNyI: L<<864.0,492.0>--<864.0,492.0>> has the same coordinates as a previous segment.

* sinSsI: L<<245.0,300.0>--<244.0,299.0>> has the same coordinates as a previous segment.

* sinKSsI: L<<751.0,300.0>--<750.0,299.0>> has the same coordinates as a previous segment.

* sinTVI: L<<73.0,57.0>--<73.0,59.0>> has the same coordinates as a previous segment.

* sinTThI: L<<85.0,57.0>--<85.0,59.0>> has the same coordinates as a previous segment.

* sinChIi: L<<224.0,300.0>--<223.0,299.0>> has the same coordinates as a previous segment.

* sinNyIi: L<<864.0,492.0>--<864.0,492.0>> has the same coordinates as a previous segment.

* sinBIi: B<<511.0,611.0>-<505.0,614.0>-<499.0,617.0>> has the same coordinates as a previous segment.

* sinSsIi: L<<245.0,300.0>--<244.0,299.0>> has the same coordinates as a previous segment.

* sinKSsIi: L<<751.0,300.0>--<750.0,299.0>> has the same coordinates as a previous segment.

* sinTVIi: L<<80.0,57.0>--<80.0,59.0>> has the same coordinates as a previous segment.

* sinTThIi: L<<85.0,57.0>--<85.0,59.0>> has the same coordinates as a previous segment.

* sinChU: L<<244.0,300.0>--<243.0,299.0>> has the same coordinates as a previous segment.

* sinTU: L<<62.0,68.0>--<62.0,70.0>> has the same coordinates as a previous segment.

* sinSsU: L<<245.0,300.0>--<244.0,299.0>> has the same coordinates as a previous segment.

* sinKSsU: L<<751.0,300.0>--<750.0,299.0>> has the same coordinates as a previous segment.

* sinTThU: L<<85.0,65.0>--<85.0,67.0>> has the same coordinates as a previous segment.

* sinChUu: L<<254.0,300.0>--<253.0,299.0>> has the same coordinates as a previous segment.

* sinNyUu: L<<845.0,490.0>--<845.0,490.0>> has the same coordinates as a previous segment.

* sinSsUu: L<<245.0,300.0>--<244.0,299.0>> has the same coordinates as a previous segment.

* sinKSsUu: L<<751.0,300.0>--<750.0,299.0>> has the same coordinates as a previous segment.

* sinTVUu: L<<80.0,66.0>--<80.0,68.0>> has the same coordinates as a previous segment.

* sinTThUu: L<<85.0,66.0>--<85.0,68.0>> has the same coordinates as a previous segment.

* sinSsRa: L<<245.0,300.0>--<244.0,299.0>> has the same coordinates as a previous segment.

* sinJhR.virama: L<<760.0,664.0>--<767.0,666.0>> has the same coordinates as a previous segment.

* sinDhR.virama: L<<283.0,664.0>--<290.0,666.0>> has the same coordinates as a previous segment.

* sinBR.virama: L<<288.0,713.0>--<296.0,715.0>> has the same coordinates as a previous segment.

* sinMR.virama: L<<286.0,708.0>--<292.0,709.0>> has the same coordinates as a previous segment.

* sinVR.virama: L<<269.0,718.0>--<275.0,719.0>> has the same coordinates as a previous segment.

* sinSsR.virama: L<<245.0,300.0>--<244.0,299.0>> has the same coordinates as a previous segment.

* sinSsRI: L<<245.0,300.0>--<244.0,299.0>> has the same coordinates as a previous segment.

* sinBRIi: B<<511.0,611.0>-<505.0,614.0>-<499.0,617.0>> has the same coordinates as a previous segment.

* sinSsRIi: L<<245.0,300.0>--<244.0,299.0>> has the same coordinates as a previous segment.

* sinCha.reph: L<<244.0,300.0>--<243.0,299.0>> has the same coordinates as a previous segment.

* sinNya.reph: L<<864.0,492.0>--<864.0,492.0>> has the same coordinates as a previous segment.

* sinSsa.reph: L<<245.0,300.0>--<244.0,299.0>> has the same coordinates as a previous segment.

* sinKSsa.reph: L<<751.0,300.0>--<750.0,299.0>> has the same coordinates as a previous segment.

* sinTVa.reph: L<<73.0,57.0>--<73.0,59.0>> has the same coordinates as a previous segment.

* sinTTha.reph: L<<85.0,57.0>--<85.0,59.0>> has the same coordinates as a previous segment.

* asterisk (U+002A): B<<116.0,570.0>-<119.0,561.0>-<119.0,564.0>> has the same coordinates as a previous segment.
    [code: overlapping-path-segments]

Does the font contain a soft hyphen?

Check ID: <FontBakeryCheck:soft_hyphen>
⚠️ Maname-Regular.ttf
  • ⚠️ WARN

    This font has a 'Soft Hyphen' character.

    [code: softhyphen]

Check font contains no unreachable glyphs

Check ID: <FontBakeryCheck:unreachable_glyphs>
⚠️ Maname-Regular.ttf
  • ⚠️ WARN

    The following glyphs could not be reached by codepoint or substitution rules:

    - k.001

- mooniak

- sinCha.reph

- sinDdha.reph

- sinFRI

- sinFRIi

- sinFa.reph

- sinLa.reph

- sinLla.reph

- sinMatraI.alt

- sinMatraI.alt1

- sinMatraI.alt2

- sinMatraI.alt3

- sinMatraIi.alt

- sinMatraIi.alt1

- sinMatraIi.alt2

- sinMatraIi.alt3

- sinMatraU.alt1

- sinMatraUu.alt

- sinMatraUu.alt1

- sinMatraUu.alt2

- sinMatraUu.alt3

- sinMba.reph

- sinNDRI

- sinNDRIi

- sinNdRa

- sinNda.reph

- sinNga.reph

- sinNndda.reph

- sinNnga.reph

- sinNyja.reph

- sinOnelith

- sinPf.virama

- sinPfI

- sinPfIi

- sinPfR.virama

- sinPfRI

- sinPfRIi

- sinPfRa

- sinPfU

- sinPfUu

- sinPfa

- sinPha.reph

- sinRU_period

- sinRakar

- sinRakar.long

- sinRakar.medium

- sinRakar.short

- sinReph.2

- sinSsRI

- sinSsRIi

- sinTtha.reph

- trtight
    [code: unreachable-glyphs]

Article Checks

⚠️

Validate size, and resolution of article images, and ensure article page has minimum length and includes visual assets.

Check ID: <FontBakeryCheck:googlefonts/article/images>
⚠️ Maname-Regular.ttf
  • ⚠️ WARN

    Article page lacks visual assets.

    [code: missing-visual-asset]
  • ✅ PASS

    ok

Metadata Checks

⚠️⏩⏩⏩ℹ️

Check for codepoints not covered by METADATA subsets.

Check ID: <FontBakeryCheck:googlefonts/metadata/unreachable_subsetting>
⚠️ Maname-Regular.ttf
  • ⚠️ WARN

    The following codepoints supported by the font are not covered by any subsets defined in the font's metadata file, and will never be served. You can solve this by either manually adding additional subset declarations to METADATA.pb, or by editing the glyphset definitions.

    • U+02D8 BREVE: try adding one of: canadian-aboriginal, yi
    • U+02D9 DOT ABOVE: try adding one of: canadian-aboriginal, yi
    • U+02DB OGONEK: try adding one of: canadian-aboriginal, yi
    • U+0302 COMBINING CIRCUMFLEX ACCENT: try adding one of: coptic, math, cherokee, tifinagh
    • U+0306 COMBINING BREVE: try adding one of: old-permic, tifinagh
    • U+0307 COMBINING DOT ABOVE: try adding one of: tai-le, math, duployan, malayalam, syriac, canadian-aboriginal, coptic, todhri, hebrew, old-permic, tifinagh
    • U+030A COMBINING RING ABOVE: try adding one of: duployan, syriac
    • U+030B COMBINING DOUBLE ACUTE ACCENT: try adding one of: osage, cherokee
    • U+030C COMBINING CARON: try adding one of: tai-le, cherokee
    • U+030F COMBINING DOUBLE GRAVE ACCENT: not included in any glyphset definition
    • U+0311 COMBINING INVERTED BREVE: try adding one of: coptic, todhri
    • U+0312 COMBINING TURNED COMMA ABOVE: try adding math
    • U+031B COMBINING HORN: not included in any glyphset definition
    • U+0324 COMBINING DIAERESIS BELOW: try adding one of: duployan, cherokee, syriac
    • U+0326 COMBINING COMMA BELOW: try adding math
    • U+0327 COMBINING CEDILLA: try adding math
    • U+0328 COMBINING OGONEK: not included in any glyphset definition
    • U+032E COMBINING BREVE BELOW: try adding syriac
    • U+0331 COMBINING MACRON BELOW: try adding one of: thai, caucasian-albanian, cherokee, sunuwar, syriac, gothic, tifinagh
    • U+2219 BULLET OPERATOR: try adding one of: symbols, math, yi, tai-tham
    • U+FB01 LATIN SMALL LIGATURE FI: not included in any glyphset definition
    • U+FB02 LATIN SMALL LIGATURE FL: not included in any glyphset definition

    Or you can add the above codepoints to one of the subsets supported by the font: latin, latin-ext, menu, sinhala, vietnamese

    [code: unreachable-subsetting]

Glyphset Checks

💥

Shapes languages in all GF glyphsets.

Check ID: <FontBakeryCheck:googlefonts/glyphsets/shape_languages>
💥 Maname-Regular.ttf
  • 💥 ERROR

    Failed with ModuleNotFoundError: No module named 'shaperglot.checker'

      File "/Users/simon/work/gf-dashboard/venv/lib/python3.13/site-packages/fontbakery/checkrunner.py", line 222, in _run_check
    subresults = list(subresults)
  File "/Users/simon/work/gf-dashboard/venv/lib/python3.13/site-packages/fontbakery/checks/vendorspecific/googlefonts/glyphsets/shape_languages.py", line 19, in check_glyphsets_shape_languages
    from shaperglot.checker import Checker
    [code: failed-check]

Description Checks

🔥⚠️⏩⏩⏩⏩

DESCRIPTION.en_us.html should end in a linebreak.

Check ID: <FontBakeryCheck:googlefonts/description/eof_linebreak>
⚠️ METADATA.pb
  • ⚠️ WARN

    The last characther on DESCRIPTION.en_us.html is not a line-break. Please add it.

    [code: missing-eof-linebreak]

DESCRIPTION.en_us.html must have more than 200 bytes.

Check ID: <FontBakeryCheck:googlefonts/description/min_length>
🔥 METADATA.pb
  • 🔥 FAIL

    DESCRIPTION.en_us.html must have size larger than 200 bytes.

    [code: too-short]

Shaping Checks

💥⏩⏩⏩

Ensure soft_dotted characters lose their dot when combined with marks that replace the dot.

Check ID: <FontBakeryCheck:soft_dotted>
💥 Maname-Regular.ttf
  • 💥 ERROR

    Failed with ModuleNotFoundError: No module named 'shaperglot.checker'

      File "/Users/simon/work/gf-dashboard/venv/lib/python3.13/site-packages/fontbakery/checkrunner.py", line 222, in _run_check
    subresults = list(subresults)
  File "/Users/simon/work/gf-dashboard/venv/lib/python3.13/site-packages/fontbakery/checks/soft_dotted.py", line 144, in check_soft_dotted
    from shaperglot.checker import Checker
    [code: failed-check]

Outline Checks

⚠️⚠️⚠️

Do any segments have colinear vectors?

Check ID: <FontBakeryCheck:outline_colinear_vectors>
⚠️ Maname-Regular.ttf
  • ⚠️ WARN

    The following glyphs have colinear vectors:

    * B (U+0042): L<<199.0,347.0>--<247.0,346.0>> -> L<<247.0,346.0>--<301.0,348.0>>

* H (U+0048): L<<204.0,335.0>--<410.0,335.0>> -> L<<410.0,335.0>--<495.0,338.0>>

* Hbar (U+0126): L<<204.0,335.0>--<410.0,335.0>> -> L<<410.0,335.0>--<495.0,338.0>>

* Hbar (U+0126): L<<208.0,455.0>--<402.0,455.0>> -> L<<402.0,455.0>--<493.0,457.0>>

* Hcircumflex (U+0124): L<<204.0,335.0>--<410.0,335.0>> -> L<<410.0,335.0>--<495.0,338.0>>

* OE (U+0152): L<<511.0,554.0>--<509.0,569.0>> -> L<<509.0,569.0>--<505.0,616.0>>

* ae (U+00E6): L<<415.0,262.0>--<575.0,278.0>> -> L<<575.0,278.0>--<624.0,279.0>>

* aeacute (U+01FD): L<<415.0,262.0>--<575.0,278.0>> -> L<<575.0,278.0>--<624.0,279.0>>

* bracketleft (U+005B): L<<140.0,-53.0>--<193.0,-54.0>> -> L<<193.0,-54.0>--<291.0,-52.0>>

* bracketleft (U+005B): L<<62.0,633.0>--<222.0,632.0>> -> L<<222.0,632.0>--<299.0,633.0>>

* bracketright (U+005D): L<<62.0,633.0>--<138.0,632.0>> -> L<<138.0,632.0>--<298.0,633.0>>

* bracketright (U+005D): L<<69.0,-52.0>--<168.0,-54.0>> -> L<<168.0,-54.0>--<221.0,-53.0>>

* e (U+0065): L<<132.0,262.0>--<292.0,278.0>> -> L<<292.0,278.0>--<341.0,278.0>>

* eacute (U+00E9): L<<132.0,262.0>--<292.0,278.0>> -> L<<292.0,278.0>--<341.0,278.0>>

* ebreve (U+0115): L<<132.0,262.0>--<292.0,278.0>> -> L<<292.0,278.0>--<341.0,278.0>>

* ecaron (U+011B): L<<132.0,262.0>--<292.0,278.0>> -> L<<292.0,278.0>--<341.0,278.0>>

* ecircumflex (U+00EA): L<<132.0,262.0>--<292.0,278.0>> -> L<<292.0,278.0>--<341.0,278.0>>

* edieresis (U+00EB): L<<132.0,262.0>--<292.0,278.0>> -> L<<292.0,278.0>--<341.0,278.0>>

* edotaccent (U+0117): L<<132.0,262.0>--<292.0,278.0>> -> L<<292.0,278.0>--<341.0,278.0>>

* egrave (U+00E8): L<<132.0,262.0>--<292.0,278.0>> -> L<<292.0,278.0>--<341.0,278.0>>

* emacron (U+0113): L<<132.0,262.0>--<292.0,278.0>> -> L<<292.0,278.0>--<341.0,278.0>>

* eogonek (U+0119): L<<132.0,262.0>--<292.0,278.0>> -> L<<292.0,278.0>--<341.0,278.0>>

* m (U+006D): L<<506.0,297.0>--<504.0,187.0>> -> L<<504.0,187.0>--<501.0,91.0>>

* m (U+006D): L<<787.0,297.0>--<785.0,187.0>> -> L<<785.0,187.0>--<782.0,91.0>>

* oe (U+0153): L<<482.0,262.0>--<642.0,278.0>> -> L<<642.0,278.0>--<691.0,278.0>>

* sinCh.virama: L<<326.0,303.0>--<326.0,305.0>> -> L<<326.0,305.0>--<326.0,308.0>>

* sinFI: L<<470.0,447.0>--<470.0,447.0>> -> L<<470.0,447.0>--<471.0,447.0>>

* sinJny.virama: L<<730.0,492.0>--<730.0,492.0>> -> L<<730.0,492.0>--<733.0,492.0>>

* sinJnya (U+0DA5): L<<730.0,492.0>--<730.0,492.0>> -> L<<730.0,492.0>--<733.0,492.0>>

* sinJnya.reph: L<<730.0,492.0>--<730.0,492.0>> -> L<<730.0,492.0>--<733.0,492.0>>

* sinKUu: L<<599.0,83.0>--<600.0,83.0>> -> L<<600.0,83.0>--<600.0,83.0>>

* sinLVocalic (U+0D8F): L<<616.0,484.0>--<617.0,484.0>> -> L<<617.0,484.0>--<617.0,484.0>>

* sinLlVocalic (U+0D90): L<<616.0,484.0>--<617.0,484.0>> -> L<<617.0,484.0>--<617.0,484.0>>

* sinND.virama: L<<684.0,492.0>--<684.0,492.0>> -> L<<684.0,492.0>--<686.0,492.0>>

* sinNDI: L<<684.0,492.0>--<684.0,492.0>> -> L<<684.0,492.0>--<686.0,492.0>>

* sinNDIi: L<<684.0,492.0>--<684.0,492.0>> -> L<<684.0,492.0>--<686.0,492.0>>

* sinNDa.reph: L<<684.0,492.0>--<684.0,492.0>> -> L<<684.0,492.0>--<686.0,492.0>>

* sinNDa: L<<684.0,492.0>--<684.0,492.0>> -> L<<684.0,492.0>--<686.0,492.0>>

* sinNnI: L<<365.0,490.0>--<366.0,490.0>> -> L<<366.0,490.0>--<367.0,490.0>>

* sinNy.virama: L<<864.0,492.0>--<864.0,492.0>> -> L<<864.0,492.0>--<864.0,492.0>>

* sinNy.virama: L<<864.0,492.0>--<864.0,492.0>> -> L<<864.0,492.0>--<866.0,492.0>>

* sinNy.virama: L<<864.0,492.0>--<866.0,492.0>> -> L<<866.0,492.0>--<866.0,492.0>>

* sinNyI: L<<864.0,492.0>--<864.0,492.0>> -> L<<864.0,492.0>--<864.0,492.0>>

* sinNyI: L<<864.0,492.0>--<864.0,492.0>> -> L<<864.0,492.0>--<866.0,492.0>>

* sinNyI: L<<864.0,492.0>--<866.0,492.0>> -> L<<866.0,492.0>--<866.0,492.0>>

* sinNyI: L<<866.0,492.0>--<866.0,492.0>> -> L<<866.0,492.0>--<867.0,492.0>>

* sinNyIi: L<<864.0,492.0>--<864.0,492.0>> -> L<<864.0,492.0>--<864.0,492.0>>

* sinNyIi: L<<864.0,492.0>--<864.0,492.0>> -> L<<864.0,492.0>--<866.0,492.0>>

* sinNyUu: L<<845.0,490.0>--<845.0,490.0>> -> L<<845.0,490.0>--<845.0,490.0>>

* sinNya (U+0DA4): L<<864.0,492.0>--<864.0,492.0>> -> L<<864.0,492.0>--<864.0,492.0>>

* sinNya (U+0DA4): L<<864.0,492.0>--<864.0,492.0>> -> L<<864.0,492.0>--<866.0,492.0>>

* sinNya (U+0DA4): L<<864.0,492.0>--<866.0,492.0>> -> L<<866.0,492.0>--<866.0,492.0>>

* sinNya.reph: L<<864.0,492.0>--<864.0,492.0>> -> L<<864.0,492.0>--<864.0,492.0>>

* sinNya.reph: L<<864.0,492.0>--<864.0,492.0>> -> L<<864.0,492.0>--<866.0,492.0>>

* sinNya.reph: L<<864.0,492.0>--<866.0,492.0>> -> L<<866.0,492.0>--<866.0,492.0>>

* sinPR.virama: L<<604.0,203.0>--<604.0,202.0>> -> L<<604.0,202.0>--<604.0,201.0>>

* sinPRI: L<<602.0,203.0>--<602.0,202.0>> -> L<<602.0,202.0>--<602.0,201.0>>

* sinPRIi: L<<604.0,203.0>--<604.0,202.0>> -> L<<604.0,202.0>--<604.0,201.0>>

* sinPRa: L<<602.0,203.0>--<602.0,202.0>> -> L<<602.0,202.0>--<602.0,201.0>>

* sinShUu: L<<486.0,63.0>--<486.0,68.0>> -> L<<486.0,68.0>--<486.0,69.0>>

* sinTUu: L<<536.0,83.0>--<537.0,83.0>> -> L<<537.0,83.0>--<537.0,83.0>>

* trademark (U+2122): L<<240.0,572.0>--<293.0,571.0>> -> L<<293.0,571.0>--<342.0,572.0>>

* trademark (U+2122): L<<448.0,572.0>--<495.0,571.0>> -> L<<495.0,571.0>--<548.0,572.0>>

* u111EC (U+111EC): L<<664.0,271.0>--<664.0,269.0>> -> L<<664.0,269.0>--<664.0,268.0>>

* uni018F (U+018F): L<<427.0,275.0>--<212.0,256.0>> -> L<<212.0,256.0>--<120.0,255.0>>

* uni0205 (U+0205): L<<132.0,262.0>--<292.0,278.0>> -> L<<292.0,278.0>--<341.0,278.0>>

* uni0207 (U+0207): L<<132.0,262.0>--<292.0,278.0>> -> L<<292.0,278.0>--<341.0,278.0>>

* uni0DE6 (U+0DE6): L<<73.0,0.0>--<75.0,143.0>> -> L<<75.0,143.0>--<77.0,340.0>>

* uni1E43 (U+1E43): L<<506.0,297.0>--<504.0,187.0>> -> L<<504.0,187.0>--<501.0,91.0>>

* uni1E43 (U+1E43): L<<787.0,297.0>--<785.0,187.0>> -> L<<785.0,187.0>--<782.0,91.0>>

* uni1EB9 (U+1EB9): L<<132.0,262.0>--<292.0,278.0>> -> L<<292.0,278.0>--<341.0,278.0>>

* uni1EBB (U+1EBB): L<<132.0,262.0>--<292.0,278.0>> -> L<<292.0,278.0>--<341.0,278.0>>

* uni1EBD (U+1EBD): L<<132.0,262.0>--<292.0,278.0>> -> L<<292.0,278.0>--<341.0,278.0>>

* uni1EBF (U+1EBF): L<<132.0,262.0>--<292.0,278.0>> -> L<<292.0,278.0>--<341.0,278.0>>

* uni1EC1 (U+1EC1): L<<132.0,262.0>--<292.0,278.0>> -> L<<292.0,278.0>--<341.0,278.0>>

* uni1EC3 (U+1EC3): L<<132.0,262.0>--<292.0,278.0>> -> L<<292.0,278.0>--<341.0,278.0>>

* uni1EC5 (U+1EC5): L<<132.0,262.0>--<292.0,278.0>> -> L<<292.0,278.0>--<341.0,278.0>>

* uni1EC7 (U+1EC7): L<<132.0,262.0>--<292.0,278.0>> -> L<<292.0,278.0>--<341.0,278.0>>

* w (U+0077): L<<280.0,460.0>--<379.0,458.0>> -> L<<379.0,458.0>--<487.0,460.0>>

* wacute (U+1E83): L<<280.0,460.0>--<379.0,458.0>> -> L<<379.0,458.0>--<487.0,460.0>>

* wcircumflex (U+0175): L<<280.0,460.0>--<379.0,458.0>> -> L<<379.0,458.0>--<487.0,460.0>>

* wdieresis (U+1E85): L<<280.0,460.0>--<379.0,458.0>> -> L<<379.0,458.0>--<487.0,460.0>>

* wgrave (U+1E81): L<<280.0,460.0>--<379.0,458.0>> -> L<<379.0,458.0>--<487.0,460.0>>
    [code: found-colinear-vectors]

Do outlines contain any jaggy segments?

Check ID: <FontBakeryCheck:outline_jaggy_segments>
⚠️ Maname-Regular.ttf
  • ⚠️ WARN

    The following glyphs have jaggy segments:

    * Eng (U+014A): L<<176.0,555.0>--<178.0,551.0>>/B<<178.0,551.0>-<177.0,554.0>-<177.0,554.0>> = 8.130102354155916

* fi (U+FB01): L<<296.0,453.0>--<299.0,438.0>>/L<<299.0,438.0>--<297.0,454.0>> = 4.184916125118319

* sinAi (U+0D93): B<<605.5,210.0>-<636.0,243.0>-<682.0,262.0>>/B<<682.0,262.0>-<618.0,248.0>-<570.5,227.0>> = 10.103666086968094

* sinB.virama: L<<222.0,696.0>--<256.0,705.0>>/B<<256.0,705.0>-<236.0,702.0>-<229.0,699.0>> = 6.2957143604074775

* sinBR.virama: L<<222.0,696.0>--<256.0,705.0>>/B<<256.0,705.0>-<236.0,702.0>-<229.0,699.0>> = 6.2957143604074775

* sinBRIi: B<<588.0,21.0>-<603.0,68.0>-<610.0,115.0>>/B<<610.0,115.0>-<589.0,63.0>-<549.0,27.0>> = 13.51998528416231

* sinBh.virama: B<<129.5,244.5>-<151.0,277.0>-<187.0,295.0>>/B<<187.0,295.0>-<132.0,283.0>-<91.5,264.0>> = 14.257035359650056

* sinBhI: B<<129.5,244.5>-<151.0,277.0>-<187.0,295.0>>/B<<187.0,295.0>-<132.0,283.0>-<91.5,264.0>> = 14.257035359650056

* sinBhIi: B<<129.5,244.5>-<151.0,277.0>-<187.0,295.0>>/B<<187.0,295.0>-<132.0,283.0>-<91.5,264.0>> = 14.257035359650056

* sinBhR.virama: B<<129.5,244.5>-<151.0,277.0>-<187.0,295.0>>/B<<187.0,295.0>-<132.0,283.0>-<91.5,264.0>> = 14.257035359650056

* sinBhRI: B<<129.5,244.5>-<151.0,277.0>-<187.0,295.0>>/B<<187.0,295.0>-<132.0,283.0>-<91.5,264.0>> = 14.257035359650056

* sinBhRIi: B<<129.5,244.5>-<151.0,277.0>-<187.0,295.0>>/B<<187.0,295.0>-<132.0,283.0>-<91.5,264.0>> = 14.257035359650056

* sinBhRa: B<<129.5,244.5>-<151.0,277.0>-<187.0,295.0>>/B<<187.0,295.0>-<132.0,283.0>-<91.5,264.0>> = 14.257035359650056

* sinBha (U+0DB7): B<<129.5,244.5>-<151.0,277.0>-<187.0,295.0>>/B<<187.0,295.0>-<132.0,283.0>-<91.5,264.0>> = 14.257035359650056

* sinBha.reph: B<<129.5,244.5>-<151.0,277.0>-<187.0,295.0>>/B<<187.0,295.0>-<132.0,283.0>-<91.5,264.0>> = 14.257035359650056

* sinC.virama: B<<128.5,233.5>-<159.0,268.0>-<197.0,287.0>>/B<<197.0,287.0>-<140.0,273.0>-<99.0,255.5>> = 12.765565781058578

* sinCI: B<<116.5,220.0>-<140.0,248.0>-<173.0,265.0>>/B<<173.0,265.0>-<124.0,251.0>-<88.0,235.5>> = 11.309932474020195

* sinCIi: B<<146.0,215.0>-<174.0,247.0>-<211.0,265.0>>/B<<211.0,265.0>-<158.0,251.0>-<118.0,234.5>> = 11.14553324481428

* sinCR.virama: B<<128.5,233.5>-<159.0,268.0>-<197.0,287.0>>/B<<197.0,287.0>-<140.0,273.0>-<99.0,255.5>> = 12.765565781058578

* sinCRI: B<<116.5,220.0>-<140.0,248.0>-<173.0,265.0>>/B<<173.0,265.0>-<124.0,251.0>-<88.0,235.5>> = 11.309932474020195

* sinCRIi: B<<146.0,215.0>-<174.0,247.0>-<211.0,265.0>>/B<<211.0,265.0>-<158.0,251.0>-<118.0,234.5>> = 11.14553324481428

* sinCRa: B<<128.5,233.5>-<159.0,268.0>-<197.0,287.0>>/B<<197.0,287.0>-<140.0,273.0>-<99.0,255.5>> = 12.765565781058578

* sinCU: B<<128.5,233.5>-<159.0,268.0>-<197.0,287.0>>/B<<197.0,287.0>-<140.0,273.0>-<99.0,255.5>> = 12.765565781058578

* sinCUu: B<<128.5,233.5>-<159.0,268.0>-<197.0,287.0>>/B<<197.0,287.0>-<140.0,273.0>-<99.0,255.5>> = 12.765565781058578

* sinCa (U+0DA0): B<<128.5,233.5>-<159.0,268.0>-<197.0,287.0>>/B<<197.0,287.0>-<140.0,273.0>-<99.0,255.5>> = 12.765565781058578

* sinCa.reph: B<<128.5,233.5>-<159.0,268.0>-<197.0,287.0>>/B<<197.0,287.0>-<140.0,273.0>-<99.0,255.5>> = 12.765565781058578

* sinDV.virama: B<<409.0,719.0>-<406.0,719.0>-<403.0,718.0>>/L<<403.0,718.0>--<409.0,719.0>> = 8.972626614896358

* sinDV.virama: L<<335.0,702.0>--<363.0,708.0>>/B<<363.0,708.0>-<347.0,706.0>-<341.0,704.0>> = 4.969740728110216

* sinDV.virama: L<<403.0,718.0>--<409.0,719.0>>/B<<409.0,719.0>-<406.0,719.0>-<403.0,718.0>> = 9.462322208025613

* sinDd.virama: B<<119.5,233.5>-<146.0,271.0>-<190.0,291.0>>/B<<190.0,291.0>-<136.0,276.0>-<102.5,257.5>> = 8.919843783662243

* sinDdI: B<<155.5,226.5>-<183.0,244.0>-<215.0,255.0>>/B<<215.0,255.0>-<153.0,240.0>-<107.0,219.5>> = 5.369865291827683

* sinDdIi: B<<198.0,232.0>-<238.0,249.0>-<277.0,260.0>>/B<<277.0,260.0>-<200.0,247.0>-<142.5,222.5>> = 6.168228939920462

* sinDdR.virama: B<<119.5,233.5>-<146.0,271.0>-<190.0,291.0>>/B<<190.0,291.0>-<136.0,276.0>-<102.5,257.5>> = 8.919843783662243

* sinDdRI: B<<155.5,226.5>-<183.0,244.0>-<215.0,255.0>>/B<<215.0,255.0>-<153.0,240.0>-<107.0,219.5>> = 5.369865291827683

* sinDdRIi: B<<198.0,232.0>-<238.0,249.0>-<277.0,260.0>>/B<<277.0,260.0>-<200.0,247.0>-<142.5,222.5>> = 6.168228939920462

* sinDdRa: B<<119.5,233.5>-<146.0,271.0>-<190.0,291.0>>/B<<190.0,291.0>-<136.0,276.0>-<102.5,257.5>> = 8.919843783662243

* sinDdU: B<<98.5,233.5>-<125.0,271.0>-<169.0,291.0>>/B<<169.0,291.0>-<115.0,276.0>-<81.5,257.5>> = 8.919843783662243

* sinDdUu: B<<119.5,233.5>-<146.0,271.0>-<190.0,291.0>>/B<<190.0,291.0>-<136.0,276.0>-<102.5,257.5>> = 8.919843783662243

* sinDda (U+0DA9): B<<119.5,233.5>-<146.0,271.0>-<190.0,291.0>>/B<<190.0,291.0>-<136.0,276.0>-<102.5,257.5>> = 8.919843783662243

* sinDda.reph: B<<119.5,233.5>-<146.0,271.0>-<190.0,291.0>>/B<<190.0,291.0>-<136.0,276.0>-<102.5,257.5>> = 8.919843783662243

* sinDdh.virama: B<<154.0,247.0>-<181.0,265.0>-<212.0,276.0>>/B<<212.0,276.0>-<148.0,263.0>-<100.0,241.5>> = 8.054663583380213

* sinDdhI: B<<154.0,247.0>-<181.0,265.0>-<212.0,276.0>>/B<<212.0,276.0>-<148.0,263.0>-<100.0,241.5>> = 8.054663583380213

* sinDdhIi: B<<154.0,247.0>-<181.0,265.0>-<212.0,276.0>>/B<<212.0,276.0>-<148.0,263.0>-<100.0,241.5>> = 8.054663583380213

* sinDdhU: B<<154.0,247.0>-<181.0,265.0>-<212.0,276.0>>/B<<212.0,276.0>-<148.0,263.0>-<100.0,241.5>> = 8.054663583380213

* sinDdhUu: B<<154.0,247.0>-<181.0,265.0>-<212.0,276.0>>/B<<212.0,276.0>-<148.0,263.0>-<100.0,241.5>> = 8.054663583380213

* sinDdha (U+0DAA): B<<154.0,247.0>-<181.0,265.0>-<212.0,276.0>>/B<<212.0,276.0>-<148.0,263.0>-<100.0,241.5>> = 8.054663583380213

* sinDdha.reph: B<<154.0,247.0>-<181.0,265.0>-<212.0,276.0>>/B<<212.0,276.0>-<148.0,263.0>-<100.0,241.5>> = 8.054663583380213

* sinDh.virama: B<<290.0,666.0>-<287.0,666.0>-<283.0,664.0>>/L<<283.0,664.0>--<290.0,666.0>> = 10.619655276155106

* sinDh.virama: L<<216.0,648.0>--<240.0,654.0>>/B<<240.0,654.0>-<226.0,652.0>-<221.0,650.0>> = 5.906141113770497

* sinDhR.virama: B<<290.0,666.0>-<287.0,666.0>-<283.0,664.0>>/L<<283.0,664.0>--<290.0,666.0>> = 10.619655276155106

* sinDhR.virama: L<<216.0,648.0>--<240.0,654.0>>/B<<240.0,654.0>-<226.0,652.0>-<221.0,650.0>> = 5.906141113770497

* sinE (U+0D91): B<<134.5,210.0>-<165.0,243.0>-<211.0,262.0>>/B<<211.0,262.0>-<147.0,248.0>-<99.5,227.0>> = 10.103666086968094

* sinEe (U+0D92): B<<114.5,210.0>-<145.0,243.0>-<191.0,262.0>>/B<<191.0,262.0>-<127.0,248.0>-<79.5,227.0>> = 10.103666086968094

* sinI (U+0D89): B<<509.5,26.0>-<445.0,-22.0>-<333.0,-51.0>>/B<<333.0,-51.0>-<346.0,-50.0>-<360.0,-48.5>> = 10.11799460385907

* sinIi (U+0D8A): B<<206.5,424.5>-<168.0,399.0>-<143.0,375.0>>/B<<143.0,375.0>-<170.0,400.0>-<216.0,424.0>> = 1.0334588338579653

* sinJh.virama: B<<269.0,286.0>-<251.0,272.0>-<239.0,261.0>>/B<<239.0,261.0>-<276.0,288.0>-<327.0,311.0>> = 6.391106228521098

* sinJh.virama: B<<767.0,666.0>-<764.0,666.0>-<760.0,664.0>>/L<<760.0,664.0>--<767.0,666.0>> = 10.619655276155106

* sinJh.virama: L<<693.0,648.0>--<717.0,654.0>>/B<<717.0,654.0>-<703.0,652.0>-<698.0,650.0>> = 5.906141113770497

* sinJhI: B<<258.0,286.0>-<240.0,272.0>-<228.0,261.0>>/B<<228.0,261.0>-<265.0,288.0>-<316.0,311.0>> = 6.391106228521098

* sinJhIi: B<<258.0,286.0>-<240.0,272.0>-<228.0,261.0>>/B<<228.0,261.0>-<265.0,288.0>-<316.0,311.0>> = 6.391106228521098

* sinJhR.virama: B<<269.0,286.0>-<251.0,272.0>-<239.0,261.0>>/B<<239.0,261.0>-<276.0,288.0>-<327.0,311.0>> = 6.391106228521098

* sinJhR.virama: B<<767.0,666.0>-<764.0,666.0>-<760.0,664.0>>/L<<760.0,664.0>--<767.0,666.0>> = 10.619655276155106

* sinJhR.virama: L<<693.0,648.0>--<717.0,654.0>>/B<<717.0,654.0>-<703.0,652.0>-<698.0,650.0>> = 5.906141113770497

* sinJhRI: B<<258.0,286.0>-<240.0,272.0>-<228.0,261.0>>/B<<228.0,261.0>-<265.0,288.0>-<316.0,311.0>> = 6.391106228521098

* sinJhRIi: B<<258.0,286.0>-<240.0,272.0>-<228.0,261.0>>/B<<228.0,261.0>-<265.0,288.0>-<316.0,311.0>> = 6.391106228521098

* sinJhRa: B<<284.0,306.0>-<244.0,277.0>-<228.0,261.0>>/B<<228.0,261.0>-<265.0,288.0>-<316.0,311.0>> = 8.880659150520234

* sinJhU: B<<284.0,306.0>-<244.0,277.0>-<228.0,261.0>>/B<<228.0,261.0>-<265.0,288.0>-<316.0,311.0>> = 8.880659150520234

* sinJhUu: B<<284.0,306.0>-<244.0,277.0>-<228.0,261.0>>/B<<228.0,261.0>-<265.0,288.0>-<316.0,311.0>> = 8.880659150520234

* sinJha (U+0DA3): B<<284.0,306.0>-<244.0,277.0>-<228.0,261.0>>/B<<228.0,261.0>-<265.0,288.0>-<316.0,311.0>> = 8.880659150520234

* sinJha.reph: B<<284.0,306.0>-<244.0,277.0>-<228.0,261.0>>/B<<228.0,261.0>-<265.0,288.0>-<316.0,311.0>> = 8.880659150520234

* sinK.virama: B<<281.5,281.0>-<266.0,269.0>-<257.0,260.0>>/B<<257.0,260.0>-<281.0,278.0>-<312.0,294.5>> = 8.13010235415596

* sinKI: B<<281.5,281.0>-<266.0,269.0>-<257.0,260.0>>/B<<257.0,260.0>-<281.0,278.0>-<312.0,294.5>> = 8.13010235415596

* sinKIi: B<<281.5,281.0>-<266.0,269.0>-<257.0,260.0>>/B<<257.0,260.0>-<281.0,278.0>-<312.0,294.5>> = 8.13010235415596

* sinKRI: B<<281.5,281.0>-<266.0,269.0>-<257.0,260.0>>/B<<257.0,260.0>-<281.0,278.0>-<312.0,294.5>> = 8.13010235415596

* sinKRIi: B<<281.5,281.0>-<266.0,269.0>-<257.0,260.0>>/B<<257.0,260.0>-<281.0,278.0>-<312.0,294.5>> = 8.13010235415596

* sinKRa: B<<281.5,281.0>-<266.0,269.0>-<257.0,260.0>>/B<<257.0,260.0>-<281.0,278.0>-<312.0,294.5>> = 8.13010235415596

* sinKSs.virama: B<<281.0,286.0>-<263.0,272.0>-<252.0,261.0>>/B<<252.0,261.0>-<289.0,288.0>-<339.5,311.0>> = 8.880659150520193

* sinKSsI: B<<296.0,286.0>-<278.0,272.0>-<267.0,261.0>>/B<<267.0,261.0>-<304.0,288.0>-<354.5,311.0>> = 8.880659150520193

* sinKSsIi: B<<296.0,286.0>-<278.0,272.0>-<267.0,261.0>>/B<<267.0,261.0>-<304.0,288.0>-<354.5,311.0>> = 8.880659150520193

* sinKSsU: B<<296.0,286.0>-<278.0,272.0>-<267.0,261.0>>/B<<267.0,261.0>-<304.0,288.0>-<354.5,311.0>> = 8.880659150520193

* sinKSsUu: B<<296.0,286.0>-<278.0,272.0>-<267.0,261.0>>/B<<267.0,261.0>-<304.0,288.0>-<354.5,311.0>> = 8.880659150520193

* sinKSsa.reph: B<<296.0,286.0>-<278.0,272.0>-<267.0,261.0>>/B<<267.0,261.0>-<304.0,288.0>-<354.5,311.0>> = 8.880659150520193

* sinKSsa: B<<296.0,286.0>-<278.0,272.0>-<267.0,261.0>>/B<<267.0,261.0>-<304.0,288.0>-<354.5,311.0>> = 8.880659150520193

* sinKU: B<<261.5,288.5>-<246.0,276.0>-<237.0,268.0>>/B<<237.0,268.0>-<262.0,285.0>-<292.5,301.5>> = 7.417837204132778

* sinKUu: B<<263.0,291.0>-<248.0,279.0>-<239.0,271.0>>/B<<239.0,271.0>-<276.0,297.0>-<325.0,319.5>> = 6.537722549544061

* sinKV.virama: B<<267.0,286.0>-<249.0,272.0>-<238.0,261.0>>/B<<238.0,261.0>-<275.0,288.0>-<325.5,311.0>> = 8.880659150520193

* sinKV.virama: B<<739.0,719.0>-<736.0,719.0>-<733.0,718.0>>/L<<733.0,718.0>--<739.0,719.0>> = 8.972626614896358

* sinKV.virama: L<<665.0,702.0>--<693.0,708.0>>/B<<693.0,708.0>-<677.0,706.0>-<671.0,704.0>> = 4.969740728110216

* sinKV.virama: L<<733.0,718.0>--<739.0,719.0>>/B<<739.0,719.0>-<736.0,719.0>-<733.0,718.0>> = 9.462322208025613

* sinKVI: B<<296.0,265.0>-<278.0,251.0>-<267.0,240.0>>/B<<267.0,240.0>-<304.0,267.0>-<354.5,290.0>> = 8.880659150520193

* sinKVIi: B<<296.0,265.0>-<278.0,251.0>-<267.0,240.0>>/B<<267.0,240.0>-<304.0,267.0>-<354.5,290.0>> = 8.880659150520193

* sinKVU: B<<296.5,285.0>-<279.0,272.0>-<268.0,260.0>>/B<<268.0,260.0>-<305.0,287.0>-<355.0,309.5>> = 11.370212072519402

* sinKVUu: B<<297.0,291.5>-<280.0,278.0>-<269.0,267.0>>/B<<269.0,267.0>-<305.0,294.0>-<355.5,316.0>> = 8.13010235415596

* sinKVa.reph: B<<267.0,286.0>-<249.0,272.0>-<238.0,261.0>>/B<<238.0,261.0>-<275.0,288.0>-<325.5,311.0>> = 8.880659150520193

* sinKVa: B<<267.0,286.0>-<249.0,272.0>-<238.0,261.0>>/B<<238.0,261.0>-<275.0,288.0>-<325.5,311.0>> = 8.880659150520193

* sinKa (U+0D9A): B<<281.5,281.0>-<266.0,269.0>-<257.0,260.0>>/B<<257.0,260.0>-<281.0,278.0>-<312.0,294.5>> = 8.13010235415596

* sinKa.reph: B<<281.5,281.0>-<266.0,269.0>-<257.0,260.0>>/B<<257.0,260.0>-<281.0,278.0>-<312.0,294.5>> = 8.13010235415596

* sinKh.virama: B<<176.5,652.5>-<186.0,674.0>-<194.0,688.0>>/L<<194.0,688.0>--<189.0,681.0>> = 5.792796495032087

* sinKhR.virama: B<<176.5,652.5>-<186.0,674.0>-<194.0,688.0>>/L<<194.0,688.0>--<189.0,681.0>> = 5.792796495032087

* sinKundaliya (U+0DF4): B<<460.5,72.0>-<453.0,118.0>-<450.0,171.0>>/B<<450.0,171.0>-<445.0,145.0>-<437.5,110.0>> = 14.125227350760875

* sinKundaliya (U+0DF4): B<<562.0,109.0>-<558.0,152.0>-<555.0,217.0>>/B<<555.0,217.0>-<553.0,190.0>-<546.5,152.0>> = 6.878940093123571

* sinKundaliya (U+0DF4): B<<590.5,181.5>-<592.0,141.0>-<597.0,88.0>>/B<<597.0,88.0>-<603.0,141.0>-<616.0,191.0>> = 11.848128138692037

* sinKundaliya (U+0DF4): B<<817.0,151.0>-<819.0,122.0>-<820.0,109.0>>/B<<820.0,109.0>-<821.0,123.0>-<829.5,149.5>> = 8.484322134970332

* sinKundaliya (U+0DF4): B<<880.0,196.5>-<880.0,201.0>-<881.0,205.0>>/B<<881.0,205.0>-<869.0,171.0>-<857.5,134.5>> = 5.403791360249728

* sinM.virama: B<<292.0,709.0>-<289.0,709.0>-<286.0,708.0>>/L<<286.0,708.0>--<292.0,709.0>> = 8.972626614896358

* sinM.virama: L<<218.0,692.0>--<246.0,698.0>>/B<<246.0,698.0>-<230.0,696.0>-<224.0,694.0>> = 4.969740728110216

* sinM.virama: L<<286.0,708.0>--<292.0,709.0>>/B<<292.0,709.0>-<289.0,709.0>-<286.0,708.0>> = 9.462322208025613

* sinMR.virama: B<<292.0,709.0>-<289.0,709.0>-<286.0,708.0>>/L<<286.0,708.0>--<292.0,709.0>> = 8.972626614896358

* sinMR.virama: L<<218.0,692.0>--<246.0,698.0>>/B<<246.0,698.0>-<230.0,696.0>-<224.0,694.0>> = 4.969740728110216

* sinMR.virama: L<<286.0,708.0>--<292.0,709.0>>/B<<292.0,709.0>-<289.0,709.0>-<286.0,708.0>> = 9.462322208025613

* sinMb.virama: L<<218.0,690.0>--<235.0,694.0>>/B<<235.0,694.0>-<227.0,693.0>-<222.5,691.5>> = 6.115503566285384

* sinN.virama: B<<258.0,264.0>-<248.0,253.0>-<239.0,242.0>>/B<<239.0,242.0>-<278.0,272.0>-<319.0,294.0>> = 13.142001108672124

* sinND.virama: B<<288.5,281.5>-<280.0,273.0>-<271.0,264.0>>/B<<271.0,264.0>-<307.0,290.0>-<344.0,308.5>> = 9.162347045721626

* sinNDI: B<<288.5,281.5>-<280.0,273.0>-<271.0,264.0>>/B<<271.0,264.0>-<307.0,290.0>-<344.0,308.5>> = 9.162347045721626

* sinNDIi: B<<288.5,281.5>-<280.0,273.0>-<271.0,264.0>>/B<<271.0,264.0>-<307.0,290.0>-<344.0,308.5>> = 9.162347045721626

* sinNDRI: B<<284.0,274.5>-<274.0,263.0>-<264.0,251.0>>/B<<264.0,251.0>-<304.0,282.0>-<345.0,304.5>> = 12.418744601780118

* sinNDRIi: B<<284.0,274.5>-<274.0,263.0>-<264.0,251.0>>/B<<264.0,251.0>-<304.0,282.0>-<345.0,304.5>> = 12.418744601780118

* sinNDRa: B<<284.0,274.5>-<274.0,263.0>-<264.0,251.0>>/B<<264.0,251.0>-<304.0,282.0>-<345.0,304.5>> = 12.418744601780118

* sinNDU: B<<285.0,259.0>-<275.0,248.0>-<265.0,236.0>>/B<<265.0,236.0>-<304.0,266.0>-<345.0,288.0>> = 12.625836878907275

* sinNDUu: B<<285.0,274.5>-<275.0,263.0>-<264.0,251.0>>/B<<264.0,251.0>-<304.0,281.0>-<345.0,303.0>> = 10.61965527615514

* sinNDa.reph: B<<288.5,281.5>-<280.0,273.0>-<271.0,264.0>>/B<<271.0,264.0>-<307.0,290.0>-<344.0,308.5>> = 9.162347045721626

* sinNDa: B<<288.5,281.5>-<280.0,273.0>-<271.0,264.0>>/B<<271.0,264.0>-<307.0,290.0>-<344.0,308.5>> = 9.162347045721626

* sinNDh.virama: B<<276.0,265.5>-<266.0,254.0>-<255.0,242.0>>/B<<255.0,242.0>-<295.0,272.0>-<336.0,294.0>> = 10.61965527615514

* sinNDh.virama: B<<723.0,666.0>-<720.0,666.0>-<716.0,664.0>>/L<<716.0,664.0>--<723.0,666.0>> = 10.619655276155106

* sinNDh.virama: L<<649.0,648.0>--<673.0,654.0>>/B<<673.0,654.0>-<659.0,652.0>-<654.0,650.0>> = 5.906141113770497

* sinNDhI: B<<285.0,265.5>-<275.0,254.0>-<264.0,242.0>>/B<<264.0,242.0>-<304.0,272.0>-<345.0,294.0>> = 10.61965527615514

* sinNDhIi: B<<285.0,265.5>-<275.0,254.0>-<264.0,242.0>>/B<<264.0,242.0>-<304.0,272.0>-<345.0,294.0>> = 10.61965527615514

* sinNDhU: B<<260.0,265.5>-<250.0,254.0>-<239.0,242.0>>/B<<239.0,242.0>-<279.0,272.0>-<320.0,294.0>> = 10.61965527615514

* sinNDhUu: B<<255.0,265.5>-<245.0,254.0>-<234.0,242.0>>/B<<234.0,242.0>-<274.0,272.0>-<315.0,294.0>> = 10.61965527615514

* sinNDha.reph: B<<255.0,265.5>-<245.0,254.0>-<234.0,242.0>>/B<<234.0,242.0>-<274.0,272.0>-<315.0,294.0>> = 10.61965527615514

* sinNDha: B<<255.0,265.5>-<245.0,254.0>-<234.0,242.0>>/B<<234.0,242.0>-<274.0,272.0>-<315.0,294.0>> = 10.61965527615514

* sinNI: B<<258.0,264.0>-<248.0,253.0>-<239.0,242.0>>/B<<239.0,242.0>-<278.0,272.0>-<319.0,294.0>> = 13.142001108672124

* sinNIi: B<<258.0,264.0>-<248.0,253.0>-<239.0,242.0>>/B<<239.0,242.0>-<278.0,272.0>-<319.0,294.0>> = 13.142001108672124

* sinNTh.virama: B<<288.0,282.0>-<287.0,281.0>-<284.0,279.0>>/B<<284.0,279.0>-<312.0,295.0>-<338.5,305.5>> = 3.9451862290374176

* sinNThI: B<<311.0,282.0>-<310.0,281.0>-<307.0,279.0>>/B<<307.0,279.0>-<335.0,295.0>-<361.5,305.5>> = 3.9451862290374176

* sinNThIi: B<<311.0,282.0>-<310.0,281.0>-<307.0,279.0>>/B<<307.0,279.0>-<335.0,295.0>-<361.5,305.5>> = 3.9451862290374176

* sinNThU: B<<312.0,291.0>-<310.0,289.0>-<306.0,285.0>>/B<<306.0,285.0>-<334.0,303.0>-<361.5,314.0>> = 12.26477372789237

* sinNThU: B<<335.5,397.5>-<330.0,381.0>-<321.0,365.0>>/B<<321.0,365.0>-<350.0,396.0>-<383.0,424.0>> = 13.73309402421234

* sinNThUu: B<<311.0,291.0>-<310.0,290.0>-<307.0,288.0>>/B<<307.0,288.0>-<335.0,304.0>-<361.5,314.5>> = 3.9451862290374176

* sinNTha.reph: B<<311.0,282.0>-<310.0,281.0>-<307.0,279.0>>/B<<307.0,279.0>-<335.0,295.0>-<361.5,305.5>> = 3.9451862290374176

* sinNTha: B<<311.0,282.0>-<310.0,281.0>-<307.0,279.0>>/B<<307.0,279.0>-<335.0,295.0>-<361.5,305.5>> = 3.9451862290374176

* sinNU: B<<258.0,264.0>-<248.0,253.0>-<239.0,242.0>>/B<<239.0,242.0>-<278.0,272.0>-<319.0,294.0>> = 13.142001108672124

* sinNUu: B<<258.0,264.0>-<248.0,253.0>-<239.0,242.0>>/B<<239.0,242.0>-<278.0,272.0>-<319.0,294.0>> = 13.142001108672124

* sinNV.virama: B<<285.0,251.0>-<275.0,240.0>-<265.0,228.0>>/B<<265.0,228.0>-<305.0,258.0>-<345.5,280.0>> = 13.324531261890755

* sinNV.virama: B<<712.0,719.0>-<709.0,719.0>-<706.0,718.0>>/L<<706.0,718.0>--<712.0,719.0>> = 8.972626614896358

* sinNV.virama: L<<638.0,702.0>--<666.0,708.0>>/B<<666.0,708.0>-<650.0,706.0>-<644.0,704.0>> = 4.969740728110216

* sinNV.virama: L<<706.0,718.0>--<712.0,719.0>>/B<<712.0,719.0>-<709.0,719.0>-<706.0,718.0>> = 9.462322208025613

* sinNVI: B<<285.0,251.0>-<275.0,240.0>-<265.0,228.0>>/B<<265.0,228.0>-<305.0,258.0>-<345.5,280.0>> = 13.324531261890755

* sinNVIi: B<<285.5,249.5>-<276.0,239.0>-<266.0,227.0>>/B<<266.0,227.0>-<305.0,257.0>-<346.0,278.5>> = 12.625836878907275

* sinNVU: B<<274.0,267.5>-<264.0,256.0>-<254.0,244.0>>/B<<254.0,244.0>-<294.0,274.0>-<335.0,296.5>> = 13.324531261890755

* sinNVU: B<<506.0,142.0>-<506.0,146.0>-<506.0,149.0>>/B<<506.0,149.0>-<488.0,73.0>-<424.5,30.5>> = 13.324531261890783

* sinNVUu: B<<285.0,274.5>-<275.0,263.0>-<264.0,251.0>>/B<<264.0,251.0>-<304.0,281.0>-<345.0,303.0>> = 10.61965527615514

* sinNVa.reph: B<<285.0,251.0>-<275.0,240.0>-<265.0,228.0>>/B<<265.0,228.0>-<305.0,258.0>-<345.5,280.0>> = 13.324531261890755

* sinNVa: B<<285.0,251.0>-<275.0,240.0>-<265.0,228.0>>/B<<265.0,228.0>-<305.0,258.0>-<345.5,280.0>> = 13.324531261890755

* sinNa (U+0DB1): B<<258.0,264.0>-<248.0,253.0>-<239.0,242.0>>/B<<239.0,242.0>-<278.0,272.0>-<319.0,294.0>> = 13.142001108672124

* sinNa.reph: B<<258.0,264.0>-<248.0,253.0>-<239.0,242.0>>/B<<239.0,242.0>-<278.0,272.0>-<319.0,294.0>> = 13.142001108672124

* sinNndd.virama: B<<250.5,233.5>-<277.0,271.0>-<321.0,291.0>>/B<<321.0,291.0>-<267.0,276.0>-<233.5,257.5>> = 8.919843783662243

* sinNnddI: B<<280.5,226.5>-<308.0,244.0>-<340.0,255.0>>/B<<340.0,255.0>-<278.0,240.0>-<232.0,219.5>> = 5.369865291827683

* sinNnddIi: B<<322.0,232.0>-<362.0,249.0>-<401.0,260.0>>/B<<401.0,260.0>-<324.0,247.0>-<266.5,222.5>> = 6.168228939920462

* sinNnddU: B<<244.5,233.5>-<271.0,271.0>-<315.0,291.0>>/B<<315.0,291.0>-<261.0,276.0>-<227.5,257.5>> = 8.919843783662243

* sinNnddUu: B<<250.5,233.5>-<277.0,271.0>-<321.0,291.0>>/B<<321.0,291.0>-<267.0,276.0>-<233.5,257.5>> = 8.919843783662243

* sinNndda (U+0DAC): B<<240.5,233.5>-<267.0,271.0>-<311.0,291.0>>/B<<311.0,291.0>-<257.0,276.0>-<223.5,257.5>> = 8.919843783662243

* sinNndda.reph: B<<240.5,233.5>-<267.0,271.0>-<311.0,291.0>>/B<<311.0,291.0>-<257.0,276.0>-<223.5,257.5>> = 8.919843783662243

* sinNy.virama: B<<393.5,289.0>-<377.0,276.0>-<368.0,268.0>>/B<<368.0,268.0>-<393.0,286.0>-<424.5,303.0>> = 5.879652082133404

* sinNyI: B<<393.5,289.0>-<377.0,276.0>-<368.0,268.0>>/B<<368.0,268.0>-<393.0,286.0>-<424.5,303.0>> = 5.879652082133404

* sinNyIi: B<<393.5,289.0>-<377.0,276.0>-<368.0,268.0>>/B<<368.0,268.0>-<393.0,286.0>-<424.5,303.0>> = 5.879652082133404

* sinNyR.virama: B<<400.0,294.5>-<381.0,280.0>-<370.0,269.0>>/B<<370.0,269.0>-<407.0,296.0>-<458.5,319.5>> = 8.880659150520193

* sinNyRI: B<<398.0,293.5>-<378.0,278.0>-<368.0,268.0>>/B<<368.0,268.0>-<392.0,286.0>-<424.0,303.0>> = 8.13010235415596

* sinNyRIi: B<<434.0,293.5>-<414.0,278.0>-<404.0,268.0>>/B<<404.0,268.0>-<428.0,286.0>-<460.0,303.0>> = 8.13010235415596

* sinNyRa: B<<398.0,293.5>-<378.0,278.0>-<368.0,268.0>>/B<<368.0,268.0>-<392.0,286.0>-<424.0,303.0>> = 8.13010235415596

* sinNyU: B<<393.5,289.0>-<377.0,276.0>-<368.0,268.0>>/B<<368.0,268.0>-<393.0,286.0>-<424.5,303.0>> = 5.879652082133404

* sinNyUu: B<<399.0,292.5>-<385.0,281.0>-<375.0,273.0>>/B<<375.0,273.0>-<412.0,299.0>-<461.0,321.0>> = 3.563991467063822

* sinNya (U+0DA4): B<<393.5,289.0>-<377.0,276.0>-<368.0,268.0>>/B<<368.0,268.0>-<393.0,286.0>-<424.5,303.0>> = 5.879652082133404

* sinNya.reph: B<<393.5,289.0>-<377.0,276.0>-<368.0,268.0>>/B<<368.0,268.0>-<393.0,286.0>-<424.5,303.0>> = 5.879652082133404

* sinR.virama: B<<206.5,424.5>-<168.0,399.0>-<143.0,375.0>>/B<<143.0,375.0>-<170.0,400.0>-<216.0,424.0>> = 1.0334588338579653

* sinRAae: B<<206.5,424.5>-<168.0,399.0>-<143.0,375.0>>/B<<143.0,375.0>-<170.0,400.0>-<216.0,424.0>> = 1.0334588338579653

* sinRAe: B<<199.5,434.0>-<152.0,404.0>-<123.0,375.0>>/B<<123.0,375.0>-<150.0,400.0>-<196.0,424.0>> = 2.2025981617654704

* sinRI: B<<230.5,424.5>-<192.0,399.0>-<167.0,375.0>>/B<<167.0,375.0>-<194.0,400.0>-<240.0,424.0>> = 1.0334588338579653

* sinRIi: B<<206.5,424.5>-<168.0,399.0>-<143.0,375.0>>/B<<143.0,375.0>-<170.0,400.0>-<216.0,424.0>> = 1.0334588338579653

* sinRU: B<<206.5,424.5>-<168.0,399.0>-<143.0,375.0>>/B<<143.0,375.0>-<170.0,400.0>-<216.0,424.0>> = 1.0334588338579653

* sinRUu: B<<216.5,424.5>-<178.0,399.0>-<153.0,375.0>>/B<<153.0,375.0>-<180.0,400.0>-<226.0,424.0>> = 1.0334588338579653

* sinRa (U+0DBB): B<<206.5,424.5>-<168.0,399.0>-<143.0,375.0>>/B<<143.0,375.0>-<170.0,400.0>-<216.0,424.0>> = 1.0334588338579653

* sinS.virama: B<<121.5,246.5>-<157.0,284.0>-<207.0,305.0>>/B<<207.0,305.0>-<144.0,294.0>-<98.0,273.5>> = 12.878222517507801

* sinSI: B<<121.5,246.5>-<157.0,284.0>-<207.0,305.0>>/B<<207.0,305.0>-<144.0,294.0>-<98.0,273.5>> = 12.878222517507801

* sinSIi: B<<121.5,246.5>-<157.0,284.0>-<207.0,305.0>>/B<<207.0,305.0>-<144.0,294.0>-<98.0,273.5>> = 12.878222517507801

* sinSR.virama: B<<121.5,246.5>-<157.0,284.0>-<207.0,305.0>>/B<<207.0,305.0>-<144.0,294.0>-<98.0,273.5>> = 12.878222517507801

* sinSRI: B<<121.5,246.5>-<157.0,284.0>-<207.0,305.0>>/B<<207.0,305.0>-<144.0,294.0>-<98.0,273.5>> = 12.878222517507801

* sinSRIi: B<<121.5,246.5>-<157.0,284.0>-<207.0,305.0>>/B<<207.0,305.0>-<144.0,294.0>-<98.0,273.5>> = 12.878222517507801

* sinSRa: B<<121.5,246.5>-<157.0,284.0>-<207.0,305.0>>/B<<207.0,305.0>-<144.0,294.0>-<98.0,273.5>> = 12.878222517507801

* sinSU: B<<121.5,246.5>-<157.0,284.0>-<207.0,305.0>>/B<<207.0,305.0>-<144.0,294.0>-<98.0,273.5>> = 12.878222517507801

* sinSUu: B<<121.5,246.5>-<157.0,284.0>-<207.0,305.0>>/B<<207.0,305.0>-<144.0,294.0>-<98.0,273.5>> = 12.878222517507801

* sinSa (U+0DC3): B<<121.5,246.5>-<157.0,284.0>-<207.0,305.0>>/B<<207.0,305.0>-<144.0,294.0>-<98.0,273.5>> = 12.878222517507801

* sinSa.reph: B<<121.5,246.5>-<157.0,284.0>-<207.0,305.0>>/B<<207.0,305.0>-<144.0,294.0>-<98.0,273.5>> = 12.878222517507801

* sinT.virama: B<<258.0,297.0>-<227.0,273.0>-<211.0,256.0>>/B<<211.0,256.0>-<219.0,263.0>-<223.0,265.5>> = 5.549779423218771

* sinT.virama: B<<264.5,372.5>-<255.0,350.0>-<243.0,331.0>>/B<<243.0,331.0>-<245.0,333.0>-<248.0,336.0>> = 12.724355685422363

* sinT.virama: B<<62.0,62.0>-<60.0,59.0>-<59.0,55.0>>/B<<59.0,55.0>-<59.0,56.0>-<51.0,60.5>> = 14.036243467926484

* sinTI: B<<258.0,297.0>-<227.0,273.0>-<211.0,256.0>>/B<<211.0,256.0>-<219.0,263.0>-<223.0,265.5>> = 5.549779423218771

* sinTI: B<<264.5,372.5>-<255.0,350.0>-<243.0,331.0>>/B<<243.0,331.0>-<245.0,333.0>-<248.0,336.0>> = 12.724355685422363

* sinTI: B<<62.0,62.0>-<60.0,59.0>-<59.0,55.0>>/B<<59.0,55.0>-<59.0,56.0>-<51.0,60.5>> = 14.036243467926484

* sinTIi: B<<258.0,297.0>-<227.0,273.0>-<211.0,256.0>>/B<<211.0,256.0>-<219.0,263.0>-<223.0,265.5>> = 5.549779423218771

* sinTIi: B<<264.5,372.5>-<255.0,350.0>-<243.0,331.0>>/B<<243.0,331.0>-<245.0,333.0>-<248.0,336.0>> = 12.724355685422363

* sinTIi: B<<62.0,62.0>-<60.0,59.0>-<59.0,55.0>>/B<<59.0,55.0>-<59.0,56.0>-<51.0,60.5>> = 14.036243467926484

* sinTR.virama: B<<258.0,297.0>-<227.0,273.0>-<211.0,256.0>>/B<<211.0,256.0>-<219.0,263.0>-<223.0,265.5>> = 5.549779423218771

* sinTR.virama: B<<264.5,372.5>-<255.0,350.0>-<243.0,331.0>>/B<<243.0,331.0>-<245.0,333.0>-<248.0,336.0>> = 12.724355685422363

* sinTR.virama: B<<62.0,62.0>-<60.0,59.0>-<59.0,55.0>>/B<<59.0,55.0>-<59.0,56.0>-<51.0,60.5>> = 14.036243467926484

* sinTRI: B<<270.0,297.0>-<239.0,273.0>-<223.0,256.0>>/B<<223.0,256.0>-<231.0,263.0>-<235.0,265.5>> = 5.549779423218771

* sinTRI: B<<276.5,372.5>-<267.0,350.0>-<255.0,331.0>>/B<<255.0,331.0>-<257.0,333.0>-<260.0,336.0>> = 12.724355685422363

* sinTRI: B<<74.0,62.0>-<72.0,59.0>-<71.0,55.0>>/B<<71.0,55.0>-<71.0,56.0>-<63.0,60.5>> = 14.036243467926484

* sinTRIi: B<<258.0,297.0>-<227.0,273.0>-<211.0,256.0>>/B<<211.0,256.0>-<219.0,263.0>-<223.0,265.5>> = 5.549779423218771

* sinTRIi: B<<264.5,372.5>-<255.0,350.0>-<243.0,331.0>>/B<<243.0,331.0>-<245.0,333.0>-<248.0,336.0>> = 12.724355685422363

* sinTRIi: B<<62.0,62.0>-<60.0,59.0>-<59.0,55.0>>/B<<59.0,55.0>-<59.0,56.0>-<51.0,60.5>> = 14.036243467926484

* sinTRa: B<<258.0,297.0>-<227.0,273.0>-<211.0,256.0>>/B<<211.0,256.0>-<219.0,263.0>-<223.0,265.5>> = 5.549779423218771

* sinTRa: B<<264.5,372.5>-<255.0,350.0>-<243.0,331.0>>/B<<243.0,331.0>-<245.0,333.0>-<248.0,336.0>> = 12.724355685422363

* sinTRa: B<<62.0,62.0>-<60.0,59.0>-<59.0,55.0>>/B<<59.0,55.0>-<59.0,56.0>-<51.0,60.5>> = 14.036243467926484

* sinTTh.virama: B<<258.5,278.0>-<244.0,265.0>-<236.0,257.0>>/B<<236.0,257.0>-<252.0,269.0>-<266.5,277.5>> = 8.13010235415596

* sinTTh.virama: B<<290.0,374.0>-<281.0,352.0>-<269.0,333.0>>/B<<269.0,333.0>-<271.0,335.0>-<273.0,337.0>> = 12.724355685422363

* sinTTh.virama: B<<85.0,59.0>-<83.0,55.0>-<82.0,51.0>>/B<<82.0,51.0>-<82.0,52.0>-<74.0,56.5>> = 14.036243467926484

* sinTThI: B<<258.5,278.0>-<244.0,265.0>-<236.0,257.0>>/B<<236.0,257.0>-<252.0,269.0>-<266.5,277.5>> = 8.13010235415596

* sinTThI: B<<290.0,374.0>-<281.0,352.0>-<269.0,333.0>>/B<<269.0,333.0>-<271.0,335.0>-<273.0,337.0>> = 12.724355685422363

* sinTThI: B<<85.0,59.0>-<83.0,55.0>-<82.0,51.0>>/B<<82.0,51.0>-<82.0,52.0>-<74.0,56.5>> = 14.036243467926484

* sinTThIi: B<<258.5,278.0>-<244.0,265.0>-<236.0,257.0>>/B<<236.0,257.0>-<252.0,269.0>-<266.5,277.5>> = 8.13010235415596

* sinTThIi: B<<290.0,374.0>-<281.0,352.0>-<269.0,333.0>>/B<<269.0,333.0>-<271.0,335.0>-<273.0,337.0>> = 12.724355685422363

* sinTThIi: B<<85.0,59.0>-<83.0,55.0>-<82.0,51.0>>/B<<82.0,51.0>-<82.0,52.0>-<74.0,56.5>> = 14.036243467926484

* sinTThU: B<<258.5,285.5>-<244.0,272.0>-<236.0,264.0>>/B<<236.0,264.0>-<252.0,277.0>-<266.5,286.0>> = 5.906141113770497

* sinTThU: B<<289.0,380.5>-<279.0,358.0>-<267.0,338.0>>/B<<267.0,338.0>-<270.0,341.0>-<273.0,344.0>> = 14.036243467926457

* sinTThU: B<<85.0,67.0>-<83.0,63.0>-<82.0,59.0>>/B<<82.0,59.0>-<82.0,60.0>-<74.0,64.5>> = 14.036243467926484

* sinTThUu: B<<258.5,286.5>-<244.0,273.0>-<236.0,265.0>>/B<<236.0,265.0>-<252.0,278.0>-<266.5,286.5>> = 5.906141113770497

* sinTThUu: B<<290.0,383.0>-<281.0,361.0>-<269.0,342.0>>/B<<269.0,342.0>-<271.0,344.0>-<273.0,346.0>> = 12.724355685422363

* sinTThUu: B<<85.0,68.0>-<83.0,64.0>-<82.0,60.0>>/B<<82.0,60.0>-<82.0,61.0>-<74.0,65.5>> = 14.036243467926484

* sinTTha.reph: B<<258.5,278.0>-<244.0,265.0>-<236.0,257.0>>/B<<236.0,257.0>-<252.0,269.0>-<266.5,277.5>> = 8.13010235415596

* sinTTha.reph: B<<290.0,374.0>-<281.0,352.0>-<269.0,333.0>>/B<<269.0,333.0>-<271.0,335.0>-<273.0,337.0>> = 12.724355685422363

* sinTTha.reph: B<<85.0,59.0>-<83.0,55.0>-<82.0,51.0>>/B<<82.0,51.0>-<82.0,52.0>-<74.0,56.5>> = 14.036243467926484

* sinTTha: B<<258.5,278.0>-<244.0,265.0>-<236.0,257.0>>/B<<236.0,257.0>-<252.0,269.0>-<266.5,277.5>> = 8.13010235415596

* sinTTha: B<<290.0,374.0>-<281.0,352.0>-<269.0,333.0>>/B<<269.0,333.0>-<271.0,335.0>-<273.0,337.0>> = 12.724355685422363

* sinTTha: B<<85.0,59.0>-<83.0,55.0>-<82.0,51.0>>/B<<82.0,51.0>-<82.0,52.0>-<74.0,56.5>> = 14.036243467926484

* sinTU: B<<230.5,282.0>-<219.0,272.0>-<211.0,263.0>>/B<<211.0,263.0>-<219.0,270.0>-<223.0,273.0>> = 7.180535497720208

* sinTU: B<<264.5,381.0>-<255.0,359.0>-<243.0,339.0>>/B<<243.0,339.0>-<245.0,342.0>-<248.0,344.0>> = 2.726310993906212

* sinTU: B<<62.0,70.0>-<60.0,66.0>-<59.0,62.0>>/B<<59.0,62.0>-<59.0,63.0>-<51.0,67.5>> = 14.036243467926484

* sinTUu: B<<258.0,306.0>-<226.0,281.0>-<211.0,264.0>>/B<<211.0,264.0>-<219.0,271.0>-<223.0,274.0>> = 7.390409209287742

* sinTUu: B<<264.5,381.5>-<255.0,359.0>-<243.0,340.0>>/B<<243.0,340.0>-<245.0,342.0>-<248.0,345.0>> = 12.724355685422363

* sinTUu: B<<62.0,72.0>-<60.0,68.0>-<59.0,64.0>>/B<<59.0,64.0>-<59.0,65.0>-<51.0,69.5>> = 14.036243467926484

* sinTV.virama: B<<120.0,53.0>-<118.0,49.0>-<117.0,45.0>>/B<<117.0,45.0>-<117.0,46.0>-<109.0,51.0>> = 14.036243467926484

* sinTV.virama: B<<293.5,271.5>-<279.0,258.0>-<271.0,250.0>>/B<<271.0,250.0>-<287.0,264.0>-<301.5,272.5>> = 3.8140748342903783

* sinTV.virama: B<<324.0,368.0>-<314.0,345.0>-<302.0,325.0>>/B<<302.0,325.0>-<305.0,328.0>-<308.0,331.0>> = 14.036243467926457

* sinTV.virama: B<<760.0,719.0>-<757.0,719.0>-<754.0,718.0>>/L<<754.0,718.0>--<760.0,719.0>> = 8.972626614896358

* sinTV.virama: L<<686.0,702.0>--<714.0,708.0>>/B<<714.0,708.0>-<698.0,706.0>-<692.0,704.0>> = 4.969740728110216

* sinTV.virama: L<<754.0,718.0>--<760.0,719.0>>/B<<760.0,719.0>-<757.0,719.0>-<754.0,718.0>> = 9.462322208025613

* sinTVI: B<<246.5,278.0>-<232.0,265.0>-<224.0,257.0>>/B<<224.0,257.0>-<240.0,269.0>-<254.5,277.5>> = 8.13010235415596

* sinTVI: B<<277.5,374.0>-<268.0,352.0>-<256.0,332.0>>/B<<256.0,332.0>-<258.0,335.0>-<261.0,337.0>> = 2.726310993906212

* sinTVI: B<<73.0,59.0>-<71.0,55.0>-<70.0,51.0>>/B<<70.0,51.0>-<70.0,52.0>-<62.0,56.5>> = 14.036243467926484

* sinTVIi: B<<253.5,278.0>-<239.0,265.0>-<231.0,257.0>>/B<<231.0,257.0>-<247.0,269.0>-<261.5,278.0>> = 8.13010235415596

* sinTVIi: B<<284.5,374.0>-<275.0,352.0>-<263.0,332.0>>/B<<263.0,332.0>-<265.0,335.0>-<268.0,337.0>> = 2.726310993906212

* sinTVIi: B<<80.0,59.0>-<78.0,55.0>-<77.0,51.0>>/B<<77.0,51.0>-<77.0,52.0>-<69.0,56.5>> = 14.036243467926484

* sinTVU: B<<253.5,285.5>-<239.0,272.0>-<231.0,264.0>>/B<<231.0,264.0>-<247.0,278.0>-<261.5,286.5>> = 3.8140748342903783

* sinTVU: B<<80.0,67.0>-<78.0,64.0>-<77.0,60.0>>/B<<77.0,60.0>-<77.0,61.0>-<69.0,65.5>> = 14.036243467926484

* sinTVUu: B<<253.5,286.5>-<239.0,273.0>-<231.0,265.0>>/B<<231.0,265.0>-<247.0,278.0>-<261.5,286.5>> = 5.906141113770497

* sinTVUu: B<<80.0,68.0>-<78.0,64.0>-<77.0,60.0>>/B<<77.0,60.0>-<77.0,61.0>-<69.0,65.5>> = 14.036243467926484

* sinTVa.reph: B<<246.5,278.0>-<232.0,265.0>-<224.0,257.0>>/B<<224.0,257.0>-<240.0,269.0>-<254.5,277.5>> = 8.13010235415596

* sinTVa.reph: B<<73.0,59.0>-<71.0,55.0>-<70.0,51.0>>/B<<70.0,51.0>-<70.0,52.0>-<62.0,56.5>> = 14.036243467926484

* sinTVa: B<<246.5,278.0>-<232.0,265.0>-<224.0,257.0>>/B<<224.0,257.0>-<240.0,269.0>-<254.5,277.5>> = 8.13010235415596

* sinTVa: B<<73.0,59.0>-<71.0,55.0>-<70.0,51.0>>/B<<70.0,51.0>-<70.0,52.0>-<62.0,56.5>> = 14.036243467926484

* sinTa (U+0DAD): B<<258.0,297.0>-<227.0,273.0>-<211.0,256.0>>/B<<211.0,256.0>-<219.0,263.0>-<223.0,265.5>> = 5.549779423218771

* sinTa (U+0DAD): B<<264.5,372.5>-<255.0,350.0>-<243.0,331.0>>/B<<243.0,331.0>-<245.0,333.0>-<248.0,336.0>> = 12.724355685422363

* sinTa (U+0DAD): B<<62.0,62.0>-<60.0,59.0>-<59.0,55.0>>/B<<59.0,55.0>-<59.0,56.0>-<51.0,60.5>> = 14.036243467926484

* sinTa.reph: B<<258.0,297.0>-<227.0,273.0>-<211.0,256.0>>/B<<211.0,256.0>-<219.0,263.0>-<223.0,265.5>> = 5.549779423218771

* sinTa.reph: B<<264.5,372.5>-<255.0,350.0>-<243.0,331.0>>/B<<243.0,331.0>-<245.0,333.0>-<248.0,336.0>> = 12.724355685422363

* sinTa.reph: B<<62.0,62.0>-<60.0,59.0>-<59.0,55.0>>/B<<59.0,55.0>-<59.0,56.0>-<51.0,60.5>> = 14.036243467926484

* sinV.virama: B<<275.0,719.0>-<272.0,719.0>-<269.0,718.0>>/L<<269.0,718.0>--<275.0,719.0>> = 8.972626614896358

* sinV.virama: L<<201.0,702.0>--<229.0,708.0>>/B<<229.0,708.0>-<213.0,706.0>-<207.0,704.0>> = 4.969740728110216

* sinV.virama: L<<269.0,718.0>--<275.0,719.0>>/B<<275.0,719.0>-<272.0,719.0>-<269.0,718.0>> = 9.462322208025613

* sinVR.virama: B<<275.0,719.0>-<272.0,719.0>-<269.0,718.0>>/L<<269.0,718.0>--<275.0,719.0>> = 8.972626614896358

* sinVR.virama: L<<201.0,702.0>--<229.0,708.0>>/B<<229.0,708.0>-<213.0,706.0>-<207.0,704.0>> = 4.969740728110216

* sinVR.virama: L<<269.0,718.0>--<275.0,719.0>>/B<<275.0,719.0>-<272.0,719.0>-<269.0,718.0>> = 9.462322208025613

* trademark (U+2122): B<<315.0,531.5>-<312.0,543.0>-<311.0,548.0>>/L<<311.0,548.0>--<309.0,487.0>> = 13.18780992130553

* u111E5 (U+111E5): B<<533.0,316.0>-<580.0,261.0>-<604.0,171.0>>/B<<604.0,171.0>-<603.0,202.0>-<618.5,225.0>> = 13.083806912142956

* u111E9 (U+111E9): B<<973.0,306.5>-<1015.0,217.0>-<1033.0,112.0>>/L<<1033.0,112.0>--<1033.0,424.0>> = 9.727578551401587

* u111EF (U+111EF): B<<745.0,271.0>-<755.0,230.0>-<760.0,190.0>>/L<<760.0,190.0>--<760.0,421.0>> = 7.125016348901757

* u111F3 (U+111F3): B<<1038.0,269.0>-<1048.0,228.0>-<1054.0,187.0>>/L<<1054.0,187.0>--<1054.0,421.0>> = 8.325650330426804

* uni0DE8 (U+0DE8): B<<580.5,122.0>-<577.0,104.0>-<576.0,98.0>>/L<<576.0,98.0>--<576.0,99.0>> = 9.462322208025613

* uni0DE8 (U+0DE8): L<<576.0,98.0>--<576.0,99.0>>/B<<576.0,99.0>-<569.0,67.0>-<559.5,38.5>> = 12.33908727832618

* uni0DE9 (U+0DE9): B<<580.5,122.0>-<577.0,104.0>-<576.0,98.0>>/L<<576.0,98.0>--<576.0,99.0>> = 9.462322208025613

* uni0DE9 (U+0DE9): L<<576.0,98.0>--<576.0,99.0>>/B<<576.0,99.0>-<569.0,67.0>-<559.5,38.5>> = 12.33908727832618

* uni0DEF (U+0DEF): B<<580.5,122.0>-<577.0,104.0>-<576.0,98.0>>/L<<576.0,98.0>--<576.0,99.0>> = 9.462322208025613

* uni0DEF (U+0DEF): L<<576.0,98.0>--<576.0,99.0>>/B<<576.0,99.0>-<569.0,67.0>-<559.5,38.5>> = 12.33908727832618
    [code: found-jaggy-segments]

Do outlines contain any semi-vertical or semi-horizontal lines?

Check ID: <FontBakeryCheck:outline_semi_vertical>
⚠️ Maname-Regular.ttf
  • ⚠️ WARN

    The following glyphs have semi-vertical/semi-horizontal lines:

    * D (U+0044): L<<263.0,1.0>--<25.0,0.0>>

* Dcaron (U+010E): L<<263.0,1.0>--<25.0,0.0>>

* Dcroat (U+0110): L<<263.0,1.0>--<25.0,0.0>>

* Eng (U+014A): L<<269.0,0.0>--<30.0,-1.0>>

* Eth (U+00D0): L<<263.0,1.0>--<25.0,0.0>>

* ae (U+00E6): L<<719.0,225.0>--<414.0,223.0>>

* aeacute (U+01FD): L<<719.0,225.0>--<414.0,223.0>>

* bracketleft (U+005B): L<<62.0,633.0>--<222.0,632.0>>

* bracketright (U+005D): L<<138.0,632.0>--<298.0,633.0>>

* e (U+0065): L<<436.0,225.0>--<131.0,223.0>>

* eacute (U+00E9): L<<436.0,225.0>--<131.0,223.0>>

* ebreve (U+0115): L<<436.0,225.0>--<131.0,223.0>>

* ecaron (U+011B): L<<436.0,225.0>--<131.0,223.0>>

* ecircumflex (U+00EA): L<<436.0,225.0>--<131.0,223.0>>

* edieresis (U+00EB): L<<436.0,225.0>--<131.0,223.0>>

* edotaccent (U+0117): L<<436.0,225.0>--<131.0,223.0>>

* egrave (U+00E8): L<<436.0,225.0>--<131.0,223.0>>

* emacron (U+0113): L<<436.0,225.0>--<131.0,223.0>>

* eogonek (U+0119): L<<436.0,225.0>--<131.0,223.0>>

* kgreenlandic (U+0138): L<<347.0,0.0>--<122.0,-1.0>>

* oe (U+0153): L<<786.0,225.0>--<481.0,223.0>>

* sinBUu: L<<633.0,134.0>--<635.0,-238.0>>

* sinBhR.virama: L<<581.0,471.0>--<583.0,713.0>>

* sinDDhUu: L<<763.0,110.0>--<765.0,-238.0>>

* sinDU: L<<454.0,-240.0>--<196.0,-242.0>>

* sinDVU: L<<699.0,179.0>--<697.0,-215.0>>

* sinDVUu: L<<676.0,132.0>--<673.0,-255.0>>

* sinDdUu: L<<653.0,119.0>--<655.0,-238.0>>

* sinDdhUu: L<<653.0,144.0>--<655.0,-238.0>>

* sinDhUu: L<<603.0,93.0>--<605.0,-238.0>>

* sinFR.virama: L<<519.0,458.0>--<521.0,719.0>>

* sinFUu.alt: L<<631.0,154.0>--<633.0,-190.0>>

* sinFUu: L<<673.0,177.0>--<676.0,-248.0>>

* sinGhR.virama: L<<567.0,486.0>--<569.0,719.0>>

* sinGhUu: L<<673.0,110.0>--<675.0,-248.0>>

* sinJhUu: L<<1063.0,120.0>--<1065.0,-238.0>>

* sinKSsUu: L<<1100.0,144.0>--<1102.0,-238.0>>

* sinKVU: L<<1051.0,179.0>--<1049.0,-215.0>>

* sinKVUu: L<<1034.0,132.0>--<1031.0,-255.0>>

* sinKhUu: L<<640.0,225.0>--<642.0,-183.0>>

* sinMU: L<<633.0,223.0>--<631.0,-212.0>>

* sinMatraAa.virama: L<<131.0,435.0>--<132.0,719.0>>

* sinMatraUu.alt3: L<<19.0,218.0>--<22.0,-208.0>>

* sinMatraUu.alt: L<<23.0,195.0>--<25.0,-209.0>>

* sinMbUu: L<<663.0,118.0>--<665.0,-238.0>>

* sinNDU: L<<908.0,-240.0>--<650.0,-242.0>>

* sinNDhUu: L<<1032.0,106.0>--<1034.0,-228.0>>

* sinNUu: L<<783.0,131.0>--<786.0,-248.0>>

* sinNVU: L<<1027.0,179.0>--<1025.0,-215.0>>

* sinNVUu: L<<1006.0,132.0>--<1003.0,-255.0>>

* sinNdU: L<<547.0,-240.0>--<289.0,-242.0>>

* sinNnUu: L<<924.0,256.0>--<927.0,-188.0>>

* sinNnddUu: L<<784.0,119.0>--<786.0,-238.0>>

* sinNyU: L<<1035.0,-240.0>--<777.0,-242.0>>

* sinPUu: L<<593.0,144.0>--<595.0,-248.0>>

* sinPf.virama: L<<467.0,612.0>--<468.0,739.0>>

* sinPfR.virama: L<<468.0,612.0>--<469.0,739.0>>

* sinPfUu: L<<631.0,154.0>--<633.0,-190.0>>

* sinR.virama: L<<54.0,300.0>--<57.0,764.0>>

* sinSUu: L<<684.0,115.0>--<686.0,-238.0>>

* sinSsUu: L<<594.0,144.0>--<596.0,-238.0>>

* sinTThUu: L<<1016.0,172.0>--<1013.0,-211.0>>

* sinTVU: L<<1006.0,179.0>--<1004.0,-215.0>>

* sinTVUu: L<<1014.0,132.0>--<1011.0,-255.0>>

* sinTtTthUu: L<<754.0,157.0>--<751.0,-213.0>>

* sinVU: L<<565.0,179.0>--<563.0,-215.0>>

* sterling (U+00A3): L<<430.0,1.0>--<52.0,0.0>>

* uni018F (U+018F): L<<33.0,322.0>--<426.0,324.0>>

* uni01C4 (U+01C4): L<<263.0,1.0>--<25.0,0.0>>

* uni01C5 (U+01C5): L<<263.0,1.0>--<25.0,0.0>>

* uni0205 (U+0205): L<<436.0,225.0>--<131.0,223.0>>

* uni0207 (U+0207): L<<436.0,225.0>--<131.0,223.0>>

* uni0259 (U+0259): L<<55.0,223.0>--<360.0,224.0>>

* uni1E0C (U+1E0C): L<<263.0,1.0>--<25.0,0.0>>

* uni1EB9 (U+1EB9): L<<436.0,225.0>--<131.0,223.0>>

* uni1EBB (U+1EBB): L<<436.0,225.0>--<131.0,223.0>>

* uni1EBD (U+1EBD): L<<436.0,225.0>--<131.0,223.0>>

* uni1EBF (U+1EBF): L<<436.0,225.0>--<131.0,223.0>>

* uni1EC1 (U+1EC1): L<<436.0,225.0>--<131.0,223.0>>

* uni1EC3 (U+1EC3): L<<436.0,225.0>--<131.0,223.0>>

* uni1EC5 (U+1EC5): L<<436.0,225.0>--<131.0,223.0>>

* uni1EC7 (U+1EC7): L<<436.0,225.0>--<131.0,223.0>>
    [code: found-semi-vertical]

Font File Checks

⚠️⏩⏩⏩⏩⏩⏩⏩⏩⏩⏩ℹ️ℹ️

Ensure fonts have ScriptLangTags declared on the 'meta' table.

Check ID: <FontBakeryCheck:googlefonts/meta/script_lang_tags>
⚠️ Maname-Regular.ttf
  • ⚠️ WARN

    This font file does not have a 'meta' table.

    [code: lacks-meta-table]