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pdf.js.mirror/test/unit/cff_parser_spec.js
calixteman 385b1ca412 Clamp out-of-range BlueScale to Adobe's valid window 
Fonts that ship a BlueScale outside the range AFDKO considers valid
for their zone heights (0.5/maxZoneHeight <= BlueScale <= 1/maxZoneHeight)
cause Firefox's CFF rasterizer to misalign overshooting glyphs against
flat-topped ones at body sizes.
Clamp into that window, only apply the lower clamp when BlueScale is
also smaller than the default, so foundry fonts that pair the default
0.039625 with small zones are untouched.

Fixes #9437.
2026-05-26 21:24:51 +02:00

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/* Copyright 2017 Mozilla Foundation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
import {
CFFCharset,
CFFCompiler,
CFFFDSelect,
CFFParser,
CFFPrivateDict,
CFFStrings,
CFFTopDict,
} from "../../src/core/cff_parser.js";
import { SEAC_ANALYSIS_ENABLED } from "../../src/core/fonts_utils.js";
import { Stream } from "../../src/core/stream.js";
describe("CFFParser", function () {
function createWithNullProto(obj) {
const result = Object.create(null);
for (const i in obj) {
result[i] = obj[i];
}
return result;
}
// Stub that returns `0` for any privateDict key.
const privateDictStub = {
getByName(name) {
return 0;
},
};
let fontData, parser, cff;
beforeAll(function () {
// This example font comes from the CFF spec:
// http://www.adobe.com/content/dam/Adobe/en/devnet/font/pdfs/5176.CFF.pdf
const exampleFont =
"0100040100010101134142434445462b" +
"54696d65732d526f6d616e000101011f" +
"f81b00f81c02f81d03f819041c6f000d" +
"fb3cfb6efa7cfa1605e911b8f1120003" +
"01010813183030312e30303754696d65" +
"7320526f6d616e54696d657300000002" +
"010102030e0e7d99f92a99fb7695f773" +
"8b06f79a93fc7c8c077d99f85695f75e" +
"9908fb6e8cf87393f7108b09a70adf0b" +
"f78e14";
const fontArr = [];
for (let i = 0, ii = exampleFont.length; i < ii; i += 2) {
const hex = exampleFont.substring(i, i + 2);
fontArr.push(parseInt(hex, 16));
}
fontData = new Stream(fontArr);
});
afterAll(function () {
fontData = null;
});
beforeEach(function () {
fontData.reset();
parser = new CFFParser(fontData, {}, SEAC_ANALYSIS_ENABLED);
cff = parser.parse();
});
afterEach(function () {
parser = cff = null;
});
it("parses header", function () {
const header = cff.header;
expect(header.major).toEqual(1);
expect(header.minor).toEqual(0);
expect(header.hdrSize).toEqual(4);
expect(header.offSize).toEqual(1);
});
it("parses name index", function () {
const names = cff.names;
expect(names.length).toEqual(1);
expect(names[0]).toEqual("ABCDEF+Times-Roman");
});
it("parses string index", function () {
const strings = cff.strings;
expect(strings.count).toEqual(3);
expect(strings.get(0)).toEqual(".notdef");
expect(strings.get(391)).toEqual("001.007");
});
it("parses top dict", function () {
const topDict = cff.topDict;
// 391 version 392 FullName 393 FamilyName 389 Weight 28416 UniqueID
// -168 -218 1000 898 FontBBox 94 CharStrings 45 102 Private
expect(topDict.getByName("version")).toEqual(391);
expect(topDict.getByName("FullName")).toEqual(392);
expect(topDict.getByName("FamilyName")).toEqual(393);
expect(topDict.getByName("Weight")).toEqual(389);
expect(topDict.getByName("UniqueID")).toEqual(28416);
expect(topDict.getByName("FontBBox")).toEqual([-168, -218, 1000, 898]);
expect(topDict.getByName("CharStrings")).toEqual(94);
expect(topDict.getByName("Private")).toEqual([45, 102]);
});
it("ignores an empty FontBBox when adjusting ascent/descent", function () {
cff.topDict.setByName("FontBBox", [0, 0, 0, 0]);
const fontDataWithEmptyBBox = new CFFCompiler(cff).compile();
const properties = {
ascent: 800,
descent: -200,
};
new CFFParser(
new Stream(fontDataWithEmptyBBox),
properties,
SEAC_ANALYSIS_ENABLED
).parse();
expect(properties.ascent).toEqual(800);
expect(properties.descent).toEqual(-200);
expect(properties.ascentScaled).toBeUndefined();
});
it("repairs an empty FontBBox from font descriptor data", function () {
cff.topDict.setByName("FontBBox", [0, 0, 0, 0]);
const fontDataWithEmptyBBox = new CFFCompiler(cff).compile();
const properties = {
bbox: [2974, -300, 64236, 900],
};
const reparsedCff = new CFFParser(
new Stream(fontDataWithEmptyBBox),
properties,
SEAC_ANALYSIS_ENABLED
).parse();
expect(reparsedCff.topDict.getByName("FontBBox")).toEqual([
-1300, -300, 2974, 900,
]);
expect(properties.ascent).toEqual(900);
expect(properties.descent).toEqual(-300);
expect(properties.ascentScaled).toEqual(true);
});
it("repairs a FontBBox with unsigned-encoded negative coordinates", function () {
// [-456, -305, 2158, 989] encoded as unsigned 16-bit values; produced
// by some Ghostscript-generated CFF fonts.
cff.topDict.setByName("FontBBox", [65080, 65231, 2158, 989]);
const fontDataRepaired = new CFFCompiler(cff).compile();
const properties = {
bbox: [-456, -305, 2158, 989],
};
const reparsedCff = new CFFParser(
new Stream(fontDataRepaired),
properties,
SEAC_ANALYSIS_ENABLED
).parse();
expect(reparsedCff.topDict.getByName("FontBBox")).toEqual([
-456, -305, 2158, 989,
]);
expect(properties.ascent).toEqual(989);
expect(properties.descent).toEqual(-305);
expect(properties.ascentScaled).toEqual(true);
});
it("doesn't replace a repairable FontBBox with an empty descriptor bbox", function () {
cff.topDict.setByName("FontBBox", [65080, 65231, 2158, 989]);
const fontDataRepaired = new CFFCompiler(cff).compile();
const properties = {
bbox: [0, 0, 0, 0],
};
const reparsedCff = new CFFParser(
new Stream(fontDataRepaired),
properties,
SEAC_ANALYSIS_ENABLED
).parse();
expect(reparsedCff.topDict.getByName("FontBBox")).toEqual([
-456, -305, 2158, 989,
]);
expect(properties.ascent).toEqual(989);
expect(properties.descent).toEqual(-305);
expect(properties.ascentScaled).toEqual(true);
});
it("repairs unsigned-encoded negative FontBBox without descriptor data", function () {
cff.topDict.setByName("FontBBox", [65080, 65231, 2158, 989]);
const fontDataRepaired = new CFFCompiler(cff).compile();
const properties = {};
const reparsedCff = new CFFParser(
new Stream(fontDataRepaired),
properties,
SEAC_ANALYSIS_ENABLED
).parse();
expect(reparsedCff.topDict.getByName("FontBBox")).toEqual([
-456, -305, 2158, 989,
]);
expect(properties.ascent).toEqual(989);
expect(properties.descent).toEqual(-305);
expect(properties.ascentScaled).toEqual(true);
});
it("preserves large positive upper FontBBox coordinates", function () {
cff.topDict.setByName("FontBBox", [0, -305, 40000, 989]);
const fontDataRepaired = new CFFCompiler(cff).compile();
const properties = {
bbox: [0, -305, 40000, 989],
};
const reparsedCff = new CFFParser(
new Stream(fontDataRepaired),
properties,
SEAC_ANALYSIS_ENABLED
).parse();
expect(reparsedCff.topDict.getByName("FontBBox")).toEqual([
0, -305, 40000, 989,
]);
expect(properties.ascent).toEqual(989);
expect(properties.descent).toEqual(-305);
expect(properties.ascentScaled).toEqual(true);
});
it("repairs likely Ghostscript-zeroed FDArray private defaults", function () {
cff.isCIDFont = true;
cff.topDict.setByName("ROS", [0, 0, 0]);
cff.topDict.setByName("FDSelect", 0);
cff.topDict.setByName("FDArray", 0);
const fdDict = new CFFTopDict(cff.strings);
fdDict.setByName("Private", [0, 0]);
fdDict.privateDict = new CFFPrivateDict(cff.strings);
fdDict.privateDict.setByName("BlueScale", 0);
fdDict.privateDict.setByName("BlueShift", 0);
fdDict.privateDict.setByName("BlueFuzz", 0);
fdDict.privateDict.setByName("ExpansionFactor", 0);
cff.fdArray = [fdDict];
cff.fdSelect = new CFFFDSelect(0, Array(cff.charStrings.count).fill(0));
const fontDataWithBrokenFDPrivate = new CFFCompiler(cff).compile();
const reparsedCff = new CFFParser(
new Stream(fontDataWithBrokenFDPrivate),
{},
SEAC_ANALYSIS_ENABLED
).parse();
const privateDict = reparsedCff.fdArray[0].privateDict;
expect(privateDict.getByName("BlueScale")).toEqual(0.039625);
expect(privateDict.getByName("BlueShift")).toEqual(7);
expect(privateDict.getByName("BlueFuzz")).toEqual(1);
expect(privateDict.getByName("ExpansionFactor")).toEqual(0.06);
});
it("clamps a too-small BlueScale up to 0.5 / maxZoneHeight", function () {
cff.topDict.privateDict = new CFFPrivateDict(cff.strings);
// Zones (deltas): heights are the odd-indexed entries (all 20 here).
cff.topDict.privateDict.setByName(
"BlueValues",
[-20, 20, 530, 20, 220, 20, 30, 20]
);
cff.topDict.privateDict.setByName("OtherBlues", [-270, 20]);
cff.topDict.privateDict.setByName("BlueScale", 0.016666999);
cff.topDict.setByName("Private", [0, 0]);
const fontDataWithSmallBlueScale = new CFFCompiler(cff).compile();
const reparsedCff = new CFFParser(
new Stream(fontDataWithSmallBlueScale),
{},
SEAC_ANALYSIS_ENABLED
).parse();
// maxZoneHeight = 20 -> minBlueScale = 0.5 / 20 = 0.025.
expect(reparsedCff.topDict.privateDict.getByName("BlueScale")).toEqual(
0.025
);
});
it("clamps a too-large BlueScale down to 1 / maxZoneHeight", function () {
cff.topDict.privateDict = new CFFPrivateDict(cff.strings);
cff.topDict.privateDict.setByName(
"BlueValues",
[-20, 20, 530, 20, 220, 20, 30, 20]
);
cff.topDict.privateDict.setByName("BlueScale", 0.1);
cff.topDict.setByName("Private", [0, 0]);
const fontDataWithLargeBlueScale = new CFFCompiler(cff).compile();
const reparsedCff = new CFFParser(
new Stream(fontDataWithLargeBlueScale),
{},
SEAC_ANALYSIS_ENABLED
).parse();
// maxZoneHeight = 20 -> maxBlueScale = 1 / 20 = 0.05.
expect(reparsedCff.topDict.privateDict.getByName("BlueScale")).toEqual(
0.05
);
});
it("preserves a BlueScale that is already inside the valid range", function () {
cff.topDict.privateDict = new CFFPrivateDict(cff.strings);
cff.topDict.privateDict.setByName(
"BlueValues",
[-20, 20, 530, 20, 220, 20, 30, 20]
);
cff.topDict.privateDict.setByName("BlueScale", 0.039625);
cff.topDict.setByName("Private", [0, 0]);
const fontDataWithNormalBlueScale = new CFFCompiler(cff).compile();
const reparsedCff = new CFFParser(
new Stream(fontDataWithNormalBlueScale),
{},
SEAC_ANALYSIS_ENABLED
).parse();
expect(reparsedCff.topDict.privateDict.getByName("BlueScale")).toEqual(
0.039625
);
});
it("preserves the default BlueScale even when zones are very small", function () {
// Foundry fonts (e.g. Eurostile LT Std Medium, maxZoneHeight 6) ship the
// default BlueScale of 0.039625 together with small zones; that combination
// technically violates AFDKO's lower bound but is the rendered intent.
cff.topDict.privateDict = new CFFPrivateDict(cff.strings);
cff.topDict.privateDict.setByName("BlueValues", [-12, 6, 530, 6]);
cff.topDict.privateDict.setByName("BlueScale", 0.039625);
cff.topDict.setByName("Private", [0, 0]);
const fontDataDefaultBlueScale = new CFFCompiler(cff).compile();
const reparsedCff = new CFFParser(
new Stream(fontDataDefaultBlueScale),
{},
SEAC_ANALYSIS_ENABLED
).parse();
expect(reparsedCff.topDict.privateDict.getByName("BlueScale")).toEqual(
0.039625
);
});
it("refuses to add topDict key with invalid value (bug 1068432)", function () {
const topDict = cff.topDict;
const defaultValue = topDict.getByName("UnderlinePosition");
topDict.setByKey(/* [12, 3] = */ 3075, [NaN]);
expect(topDict.getByName("UnderlinePosition")).toEqual(defaultValue);
});
it(
"ignores reserved commands in parseDict, and refuses to add privateDict " +
"keys with invalid values (bug 1308536)",
function () {
const bytes = new Uint8Array([
64, 39, 31, 30, 252, 114, 137, 115, 79, 30, 197, 119, 2, 99, 127, 6,
]);
parser.bytes = bytes;
const topDict = cff.topDict;
topDict.setByName("Private", [bytes.length, 0]);
const parsePrivateDict = function () {
parser.parsePrivateDict(topDict);
};
expect(parsePrivateDict).not.toThrow();
const privateDict = topDict.privateDict;
expect(privateDict.getByName("BlueValues")).toBeNull();
}
);
it("parses a CharString having cntrmask", function () {
// prettier-ignore
const bytes = new Uint8Array([0, 1, // count
1, // offsetSize
0, // offset[0]
38, // end
149, 149, 149, 149, 149, 149, 149, 149,
149, 149, 149, 149, 149, 149, 149, 149,
1, // hstem
149, 149, 149, 149, 149, 149, 149, 149,
149, 149, 149, 149, 149, 149, 149, 149,
3, // vstem
20, // cntrmask
22, 22, // fail if misparsed as hmoveto
14 // endchar
]);
parser.bytes = bytes;
const charStringsIndex = parser.parseIndex(0).obj;
const charStrings = parser.parseCharStrings({
charStrings: charStringsIndex,
privateDict: privateDictStub,
}).charStrings;
expect(charStrings.count).toEqual(1);
// shouldn't be sanitized
expect(charStrings.get(0).length).toEqual(38);
});
it("parses a CharString endchar with 4 args w/seac enabled", function () {
fontData.reset();
const cffParser = new CFFParser(
fontData,
{},
/* seacAnalysisEnabled = */ true
);
cffParser.parse(); // cff
// prettier-ignore
const bytes = new Uint8Array([0, 1, // count
1, // offsetSize
0, // offset[0]
237, 247, 22, 247, 72, 204, 247, 86, 14]);
cffParser.bytes = bytes;
const charStringsIndex = cffParser.parseIndex(0).obj;
const result = cffParser.parseCharStrings({
charStrings: charStringsIndex,
privateDict: privateDictStub,
});
expect(result.charStrings.count).toEqual(1);
expect(result.charStrings.get(0).length).toEqual(1);
expect(result.seacs.length).toEqual(1);
expect(result.seacs[0].length).toEqual(4);
expect(result.seacs[0][0]).toEqual(130);
expect(result.seacs[0][1]).toEqual(180);
expect(result.seacs[0][2]).toEqual(65);
expect(result.seacs[0][3]).toEqual(194);
});
it("parses a CharString endchar with 4 args w/seac disabled", function () {
fontData.reset();
const cffParser = new CFFParser(
fontData,
{},
/* seacAnalysisEnabled = */ false
);
cffParser.parse(); // cff
// prettier-ignore
const bytes = new Uint8Array([0, 1, // count
1, // offsetSize
0, // offset[0]
237, 247, 22, 247, 72, 204, 247, 86, 14]);
cffParser.bytes = bytes;
const charStringsIndex = cffParser.parseIndex(0).obj;
const result = cffParser.parseCharStrings({
charStrings: charStringsIndex,
privateDict: privateDictStub,
});
expect(result.charStrings.count).toEqual(1);
expect(result.charStrings.get(0).length).toEqual(9);
expect(result.seacs.length).toEqual(0);
});
it("parses a CharString endchar no args", function () {
// prettier-ignore
const bytes = new Uint8Array([0, 1, // count
1, // offsetSize
0, // offset[0]
14]);
parser.bytes = bytes;
const charStringsIndex = parser.parseIndex(0).obj;
const result = parser.parseCharStrings({
charStrings: charStringsIndex,
privateDict: privateDictStub,
});
expect(result.charStrings.count).toEqual(1);
expect(result.charStrings.get(0)[0]).toEqual(14);
expect(result.seacs.length).toEqual(0);
});
it("parses predefined charsets", function () {
const charset = parser.parseCharsets(0, 0, null, true);
expect(charset.predefined).toEqual(true);
});
it("parses charset format 0", function () {
// The first three bytes make the offset large enough to skip predefined.
// prettier-ignore
const bytes = new Uint8Array([0x00, 0x00, 0x00,
0x00, // format
0x00, 0x02 // sid/cid
]);
parser.bytes = bytes;
let charset = parser.parseCharsets(3, 2, new CFFStrings(), false);
expect(charset.charset[1]).toEqual("exclam");
// CID font
charset = parser.parseCharsets(3, 2, new CFFStrings(), true);
expect(charset.charset[1]).toEqual(2);
});
it("parses charset format 1", function () {
// The first three bytes make the offset large enough to skip predefined.
// prettier-ignore
const bytes = new Uint8Array([0x00, 0x00, 0x00,
0x01, // format
0x00, 0x08, // sid/cid start
0x01 // sid/cid left
]);
parser.bytes = bytes;
let charset = parser.parseCharsets(3, 2, new CFFStrings(), false);
expect(charset.charset).toEqual([".notdef", "quoteright", "parenleft"]);
// CID font
charset = parser.parseCharsets(3, 2, new CFFStrings(), true);
expect(charset.charset).toEqual([0, 8, 9]);
});
it("parses charset format 2", function () {
// format 2 is the same as format 1 but the left is card16
// The first three bytes make the offset large enough to skip predefined.
// prettier-ignore
const bytes = new Uint8Array([0x00, 0x00, 0x00,
0x02, // format
0x00, 0x08, // sid/cid start
0x00, 0x01 // sid/cid left
]);
parser.bytes = bytes;
let charset = parser.parseCharsets(3, 2, new CFFStrings(), false);
expect(charset.charset).toEqual([".notdef", "quoteright", "parenleft"]);
// CID font
charset = parser.parseCharsets(3, 2, new CFFStrings(), true);
expect(charset.charset).toEqual([0, 8, 9]);
});
it("parses encoding format 0", function () {
// The first two bytes make the offset large enough to skip predefined.
// prettier-ignore
const bytes = new Uint8Array([0x00, 0x00,
0x00, // format
0x01, // count
0x08 // start
]);
parser.bytes = bytes;
const encoding = parser.parseEncoding(2, {}, new CFFStrings(), null);
expect(encoding.encoding).toEqual(createWithNullProto({ 0x8: 1 }));
});
it("parses encoding format 1", function () {
// The first two bytes make the offset large enough to skip predefined.
// prettier-ignore
const bytes = new Uint8Array([0x00, 0x00,
0x01, // format
0x01, // num ranges
0x07, // range1 start
0x01 // range2 left
]);
parser.bytes = bytes;
const encoding = parser.parseEncoding(2, {}, new CFFStrings(), null);
expect(encoding.encoding).toEqual(
createWithNullProto({ 0x7: 0x01, 0x08: 0x02 })
);
});
it("parses fdselect format 0", function () {
// prettier-ignore
const bytes = new Uint8Array([0x00, // format
0x00, // gid: 0 fd: 0
0x01 // gid: 1 fd: 1
]);
parser.bytes = bytes.slice();
const fdSelect = parser.parseFDSelect(0, 2);
expect(fdSelect.fdSelect).toEqual([0, 1]);
expect(fdSelect.format).toEqual(0);
});
it("parses fdselect format 3", function () {
// prettier-ignore
const bytes = new Uint8Array([0x03, // format
0x00, 0x02, // range count
0x00, 0x00, // first gid
0x09, // font dict 1 id
0x00, 0x02, // next gid
0x0a, // font dict 2 id
0x00, 0x04 // sentinel (last gid)
]);
parser.bytes = bytes.slice();
const fdSelect = parser.parseFDSelect(0, 4);
expect(fdSelect.fdSelect).toEqual([9, 9, 0xa, 0xa]);
expect(fdSelect.format).toEqual(3);
});
it("parses invalid fdselect format 3 (bug 1146106)", function () {
// prettier-ignore
const bytes = new Uint8Array([0x03, // format
0x00, 0x02, // range count
0x00, 0x01, // first gid (invalid)
0x09, // font dict 1 id
0x00, 0x02, // next gid
0x0a, // font dict 2 id
0x00, 0x04 // sentinel (last gid)
]);
parser.bytes = bytes.slice();
const fdSelect = parser.parseFDSelect(0, 4);
expect(fdSelect.fdSelect).toEqual([9, 9, 0xa, 0xa]);
expect(fdSelect.format).toEqual(3);
});
// TODO fdArray
});
describe("CFFCompiler", function () {
function testParser(bytes) {
bytes = new Uint8Array(bytes);
return new CFFParser(
{
getBytes: () => bytes,
},
{},
SEAC_ANALYSIS_ENABLED
);
}
it("encodes integers", function () {
const c = new CFFCompiler();
// all the examples from the spec
expect(c.encodeInteger(0)).toEqual([0x8b]);
expect(c.encodeInteger(100)).toEqual([0xef]);
expect(c.encodeInteger(-100)).toEqual([0x27]);
expect(c.encodeInteger(1000)).toEqual([0xfa, 0x7c]);
expect(c.encodeInteger(-1000)).toEqual([0xfe, 0x7c]);
expect(c.encodeInteger(10000)).toEqual([0x1c, 0x27, 0x10]);
expect(c.encodeInteger(-10000)).toEqual([0x1c, 0xd8, 0xf0]);
expect(c.encodeInteger(100000)).toEqual([0x1d, 0x00, 0x01, 0x86, 0xa0]);
expect(c.encodeInteger(-100000)).toEqual([0x1d, 0xff, 0xfe, 0x79, 0x60]);
});
it("encodes floats", function () {
const c = new CFFCompiler();
expect(c.encodeFloat(-2.25)).toEqual([0x1e, 0xe2, 0xa2, 0x5f]);
expect(c.encodeFloat(5e-11)).toEqual([0x1e, 0x5c, 0x11, 0xff]);
});
it("sanitizes name index", function () {
const c = new CFFCompiler();
let nameIndexCompiled = c.compileNameIndex(["[a"]);
let parser = testParser(nameIndexCompiled);
let nameIndex = parser.parseIndex(0);
let names = parser.parseNameIndex(nameIndex.obj);
expect(names).toEqual(["_a"]);
let longName = "";
for (let i = 0; i < 129; i++) {
longName += "_";
}
nameIndexCompiled = c.compileNameIndex([longName]);
parser = testParser(nameIndexCompiled);
nameIndex = parser.parseIndex(0);
names = parser.parseNameIndex(nameIndex.obj);
expect(names[0].length).toEqual(127);
});
it("compiles fdselect format 0", function () {
const fdSelect = new CFFFDSelect(0, [3, 2, 1]);
const c = new CFFCompiler();
const out = c.compileFDSelect(fdSelect);
expect(out).toEqual(
new Uint8Array([
0, // format
3, // gid: 0 fd 3
2, // gid: 1 fd 3
1, // gid: 2 fd 3
])
);
});
it("compiles fdselect format 3", function () {
const fdSelect = new CFFFDSelect(3, [0, 0, 1, 1]);
const c = new CFFCompiler();
const out = c.compileFDSelect(fdSelect);
expect(out).toEqual(
new Uint8Array([
3, // format
0, // nRanges (high)
2, // nRanges (low)
0, // range struct 0 - first (high)
0, // range struct 0 - first (low)
0, // range struct 0 - fd
0, // range struct 0 - first (high)
2, // range struct 0 - first (low)
1, // range struct 0 - fd
0, // sentinel (high)
4, // sentinel (low)
])
);
});
it("compiles fdselect format 3, single range", function () {
const fdSelect = new CFFFDSelect(3, [0, 0]);
const c = new CFFCompiler();
const out = c.compileFDSelect(fdSelect);
expect(out).toEqual(
new Uint8Array([
3, // format
0, // nRanges (high)
1, // nRanges (low)
0, // range struct 0 - first (high)
0, // range struct 0 - first (low)
0, // range struct 0 - fd
0, // sentinel (high)
2, // sentinel (low)
])
);
});
it("compiles charset of CID font", function () {
const charset = new CFFCharset();
const c = new CFFCompiler();
const numGlyphs = 7;
const out = c.compileCharset(charset, numGlyphs, new CFFStrings(), true);
// All CID charsets get turned into a simple format 2.
expect(out).toEqual(
new Uint8Array([
2, // format
0, // cid (high)
1, // cid (low)
0, // nLeft (high)
numGlyphs - 2, // nLeft (low)
])
);
});
it("compiles charset of non CID font", function () {
const charset = new CFFCharset(false, 0, ["space", "exclam"]);
const c = new CFFCompiler();
const numGlyphs = 3;
const out = c.compileCharset(charset, numGlyphs, new CFFStrings(), false);
// All non-CID fonts use a format 0 charset.
expect(out).toEqual(
new Uint8Array([
0, // format
0, // sid of 'space' (high)
1, // sid of 'space' (low)
0, // sid of 'exclam' (high)
2, // sid of 'exclam' (low)
])
);
});
// TODO a lot more compiler tests
});
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