/* Copyright 2014 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.
*/
const fs = require("fs");
const path = require("path");
const parseAdobeCMap = require("./parse.js").parseAdobeCMap;
const optimizeCMap = require("./optimize.js").optimizeCMap;
function compressCmap(srcPath, destPath, verify) {
const content = fs.readFileSync(srcPath).toString();
const inputData = parseAdobeCMap(content);
optimizeCMap(inputData);
let out = writeByte((inputData.type << 1) | inputData.wmode);
if (inputData.comment) {
out += writeByte(0xe0) + writeString(inputData.comment);
}
if (inputData.usecmap) {
out += writeByte(0xe1) + writeString(inputData.usecmap);
}
let i = 0;
while (i < inputData.body.length) {
const item = inputData.body[i++],
subitems = item.items;
const first = item.items[0];
const sequence = item.sequence === true;
const flags = (item.type << 5) | (sequence ? 0x10 : 0);
let nextStart, nextCode;
switch (item.type) {
case 0:
out +=
writeByte(flags | getHexSize(first.start)) +
writeNumber(subitems.length);
out += first.start + writeNumber(subHex(first.end, first.start));
nextStart = incHex(first.end);
for (let j = 1; j < subitems.length; j++) {
out +=
writeNumber(subHex(subitems[j].start, nextStart)) +
writeNumber(subHex(subitems[j].end, subitems[j].start));
nextStart = incHex(subitems[j].end);
}
break;
case 1:
out +=
writeByte(flags | getHexSize(first.start)) +
writeNumber(subitems.length);
out +=
first.start +
writeNumber(subHex(first.end, first.start)) +
writeNumber(first.code);
nextStart = incHex(first.end);
for (let j = 1; j < subitems.length; j++) {
out +=
writeNumber(subHex(subitems[j].start, nextStart)) +
writeNumber(subHex(subitems[j].end, subitems[j].start)) +
writeNumber(subitems[j].code);
nextStart = incHex(subitems[j].end);
}
break;
case 2:
out +=
writeByte(flags | getHexSize(first.char)) +
writeNumber(subitems.length);
out += first.char + writeNumber(first.code);
nextStart = incHex(first.char);
nextCode = first.code + 1;
for (let j = 1; j < subitems.length; j++) {
out +=
(sequence ? "" : writeNumber(subHex(subitems[j].char, nextStart))) +
writeSigned(subitems[j].code - nextCode);
nextStart = incHex(subitems[j].char);
nextCode = item.items[j].code + 1;
}
break;
case 3:
out +=
writeByte(flags | getHexSize(first.start)) +
writeNumber(subitems.length);
out +=
first.start +
writeNumber(subHex(first.end, first.start)) +
writeNumber(first.code);
nextStart = incHex(first.end);
for (let j = 1; j < subitems.length; j++) {
out +=
(sequence
? ""
: writeNumber(subHex(subitems[j].start, nextStart))) +
writeNumber(subHex(subitems[j].end, subitems[j].start)) +
writeNumber(subitems[j].code);
nextStart = incHex(subitems[j].end);
}
break;
case 4:
out +=
writeByte(flags | getHexSize(first.code)) +
writeNumber(subitems.length);
out += first.char + first.code;
nextStart = incHex(first.char);
nextCode = incHex(first.code);
for (let j = 1; j < subitems.length; j++) {
out +=
(sequence ? "" : writeNumber(subHex(subitems[j].char, nextStart))) +
writeSigned(subHex(subitems[j].code, nextCode));
nextStart = incHex(subitems[j].char);
nextCode = incHex(subitems[j].code);
}
break;
case 5:
out +=
writeByte(flags | getHexSize(first.code)) +
writeNumber(subitems.length);
out +=
first.start +
writeNumber(subHex(first.end, first.start)) +
first.code;
nextStart = incHex(first.end);
for (let j = 1; j < subitems.length; j++) {
out +=
(sequence
? ""
: writeNumber(subHex(subitems[j].start, nextStart))) +
writeNumber(subHex(subitems[j].end, subitems[j].start)) +
subitems[j].code;
nextStart = incHex(subitems[j].end);
}
break;
}
}
fs.writeFileSync(destPath, Buffer.from(out, "hex"));
if (verify) {
const result2 = parseCMap(out);
const isGood = JSON.stringify(inputData) === JSON.stringify(result2);
if (!isGood) {
throw new Error("Extracted data does not match the expected result");
}
}
return {
orig: fs.statSync(srcPath).size,
packed: out.length >> 1,
};
}
function parseCMap(binaryData) {
const reader = {
buffer: binaryData,
pos: 0,
end: binaryData.length,
readByte() {
if (this.pos >= this.end) {
return -1;
}
const d1 = fromHexDigit(this.buffer[this.pos]);
const d2 = fromHexDigit(this.buffer[this.pos + 1]);
this.pos += 2;
return (d1 << 4) | d2;
},
readNumber() {
let n = 0;
let last;
do {
const b = this.readByte();
last = !(b & 0x80);
n = (n << 7) | (b & 0x7f);
} while (!last);
return n;
},
readSigned() {
const n = this.readNumber();
return n & 1 ? -(n >>> 1) - 1 : n >>> 1;
},
readHex(size) {
const lengthInChars = (size + 1) << 1;
const s = this.buffer.substring(this.pos, this.pos + lengthInChars);
this.pos += lengthInChars;
return s;
},
readHexNumber(size) {
const lengthInChars = (size + 1) << 1,
stack = [];
let last;
do {
const b = this.readByte();
last = !(b & 0x80);
stack.push(b & 0x7f);
} while (!last);
let s = "",
buffer = 0,
bufferSize = 0;
while (s.length < lengthInChars) {
while (bufferSize < 4 && stack.length > 0) {
buffer = (stack.pop() << bufferSize) | buffer;
bufferSize += 7;
}
s = toHexDigit(buffer & 15) + s;
buffer >>= 4;
bufferSize -= 4;
}
return s;
},
readHexSigned(size) {
const num = this.readHexNumber(size);
const sign = fromHexDigit(num[num.length - 1]) & 1 ? 15 : 0;
let c = 0;
let result = "";
for (let i = 0; i < num.length; i++) {
c = (c << 4) | fromHexDigit(num[i]);
result += toHexDigit(sign ? (c >> 1) ^ sign : c >> 1);
c &= 1;
}
return result;
},
readString() {
const len = this.readNumber();
let s = "";
for (let i = 0; i < len; i++) {
s += String.fromCharCode(this.readNumber());
}
return s;
},
};
const header = reader.readByte();
const result = {
type: header >> 1,
wmode: header & 1,
comment: null,
usecmap: null,
body: [],
};
let b;
while ((b = reader.readByte()) >= 0) {
const type = b >> 5;
if (type === 7) {
switch (b & 0x1f) {
case 0:
result.comment = reader.readString();
break;
case 1:
result.usecmap = reader.readString();
break;
}
continue;
}
const sequence = !!(b & 0x10);
const dataSize = b & 15;
const subitems = [];
const item = {
type,
items: subitems,
};
if (sequence) {
item.sequence = true;
}
const ucs2DataSize = 1;
const subitemsCount = reader.readNumber();
let start, end, code, char;
switch (type) {
case 0:
start = reader.readHex(dataSize);
end = addHex(reader.readHexNumber(dataSize), start);
subitems.push({ start, end });
for (let i = 1; i < subitemsCount; i++) {
start = addHex(reader.readHexNumber(dataSize), incHex(end));
end = addHex(reader.readHexNumber(dataSize), start);
subitems.push({ start, end });
}
break;
case 1:
start = reader.readHex(dataSize);
end = addHex(reader.readHexNumber(dataSize), start);
code = reader.readNumber();
subitems.push({ start, end, code });
for (let i = 1; i < subitemsCount; i++) {
start = addHex(reader.readHexNumber(dataSize), incHex(end));
end = addHex(reader.readHexNumber(dataSize), start);
code = reader.readNumber();
subitems.push({ start, end, code });
}
break;
case 2:
char = reader.readHex(dataSize);
code = reader.readNumber();
subitems.push({ char, code });
for (let i = 1; i < subitemsCount; i++) {
char = sequence
? incHex(char)
: addHex(reader.readHexNumber(dataSize), incHex(char));
code = reader.readSigned() + (code + 1);
subitems.push({ char, code });
}
break;
case 3:
start = reader.readHex(dataSize);
end = addHex(reader.readHexNumber(dataSize), start);
code = reader.readNumber();
subitems.push({ start, end, code });
for (let i = 1; i < subitemsCount; i++) {
start = sequence
? incHex(end)
: addHex(reader.readHexNumber(dataSize), incHex(end));
end = addHex(reader.readHexNumber(dataSize), start);
code = reader.readNumber();
subitems.push({ start, end, code });
}
break;
case 4:
char = reader.readHex(ucs2DataSize);
code = reader.readHex(dataSize);
subitems.push({ char, code });
for (let i = 1; i < subitemsCount; i++) {
char = sequence
? incHex(char)
: addHex(reader.readHexNumber(ucs2DataSize), incHex(char));
code = addHex(reader.readHexSigned(dataSize), incHex(code));
subitems.push({ char, code });
}
break;
case 5:
start = reader.readHex(ucs2DataSize);
end = addHex(reader.readHexNumber(ucs2DataSize), start);
code = reader.readHex(dataSize);
subitems.push({ start, end, code });
for (let i = 1; i < subitemsCount; i++) {
start = sequence
? incHex(end)
: addHex(reader.readHexNumber(ucs2DataSize), incHex(end));
end = addHex(reader.readHexNumber(ucs2DataSize), start);
code = reader.readHex(dataSize);
subitems.push({ start, end, code });
}
break;
default:
throw new Error("Unknown type: " + type);
}
result.body.push(item);
}
return result;
}
function toHexDigit(n) {
return n.toString(16);
}
function fromHexDigit(s) {
return parseInt(s, 16);
}
function getHexSize(s) {
return (s.length >> 1) - 1;
}
function writeByte(b) {
return toHexDigit((b >> 4) & 15) + toHexDigit(b & 15);
}
function writeNumber(n) {
if (typeof n === "string") {
let s = "",
buffer = 0,
bufferSize = 0;
let i = n.length;
while (i > 0) {
--i;
buffer = (fromHexDigit(n[i]) << bufferSize) | buffer;
bufferSize += 4;
if (bufferSize >= 7) {
s = writeByte((buffer & 0x7f) | (s.length > 0 ? 0x80 : 0)) + s;
buffer >>>= 7;
bufferSize -= 7;
}
}
if (buffer > 0) {
s = writeByte((buffer & 0x7f) | (s.length > 0 ? 0x80 : 0)) + s;
}
while (s.indexOf("80") === 0) {
s = s.substring(2);
}
return s;
}
let s = writeByte(n & 0x7f);
n >>>= 7;
while (n > 0) {
s = writeByte((n & 0x7f) | 0x80) + s;
n >>>= 7;
}
return s;
}
function writeSigned(n) {
if (typeof n === "string") {
let t = "";
let c = fromHexDigit(n[0]);
const neg = c >= 8;
c = neg ? c ^ 15 : c;
for (let i = 1; i < n.length; i++) {
const d = fromHexDigit(n[i]);
c = (c << 4) | (neg ? d ^ 15 : d);
t += toHexDigit(c >> 3);
c = c & 7;
}
t += toHexDigit((c << 1) | (neg ? 1 : 0));
return writeNumber(t);
}
return n < 0 ? writeNumber(-2 * n - 1) : writeNumber(2 * n);
}
function writeString(s) {
let t = writeNumber(s.length);
for (let i = 0; i < s.length; i++) {
t += writeNumber(s.charCodeAt(i));
}
return t;
}
function addHex(a, b) {
let c = 0,
s = "";
for (let i = a.length - 1; i >= 0; i--) {
c += fromHexDigit(a[i]) + fromHexDigit(b[i]);
if (c >= 16) {
s = toHexDigit(c - 16) + s;
c = 1;
} else {
s = toHexDigit(c) + s;
c = 0;
}
}
return s;
}
function subHex(a, b) {
let c = 0,
s = "";
for (let i = a.length - 1; i >= 0; i--) {
c += fromHexDigit(a[i]) - fromHexDigit(b[i]);
if (c < 0) {
s = toHexDigit(c + 16) + s;
c = -1;
} else {
s = toHexDigit(c) + s;
c = 0;
}
}
return s;
}
function incHex(a) {
let c = 1,
s = "";
for (let i = a.length - 1; i >= 0; i--) {
c += fromHexDigit(a[i]);
if (c >= 16) {
s = toHexDigit(c - 16) + s;
c = 1;
} else {
s = toHexDigit(c) + s;
c = 0;
}
}
return s;
}
exports.compressCmaps = function (src, dest, verify) {
const files = fs.readdirSync(src).filter(function (fn) {
return !fn.includes("."); // skipping files with the extension
});
files.forEach(function (fn) {
const srcPath = path.join(src, fn);
const destPath = path.join(dest, fn + ".bcmap");
const stats = compressCmap(srcPath, destPath, verify);
console.log(
"Compressing " +
fn +
": " +
stats.orig +
" vs " +
stats.packed +
" " +
((stats.packed / stats.orig) * 100).toFixed(1) +
"%"
);
});
};