You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
 
 
 
 
 
 

332 lines
8.2 KiB

'use strict';
const assert = require('assert');
const Stream = require('stream');
const inherits = require('util').inherits;
/*
* This filter consumes a stream of characters and emits one string per line.
*/
function LineSplitter() {
const self = this;
var buffer = '';
Stream.call(this);
this.writable = true;
this.write = function(data) {
var lines = (buffer + data).split(/\r\n|\n\r|\n|\r/);
for (var i = 0; i < lines.length - 1; i++) {
self.emit('data', lines[i]);
}
buffer = lines[lines.length - 1];
return true;
};
this.end = function(data) {
this.write(data || '');
if (buffer) {
self.emit('data', buffer);
}
self.emit('end');
};
}
inherits(LineSplitter, Stream);
/*
* This filter consumes lines and emits paragraph objects.
*/
function ParagraphParser() {
const self = this;
var block_is_license_block = false;
var block_has_c_style_comment;
var paragraph_line_indent;
var paragraph;
Stream.call(this);
this.writable = true;
resetBlock(false);
this.write = function(data) {
parseLine(data + '');
return true;
};
this.end = function(data) {
if (data) {
parseLine(data + '');
}
flushParagraph();
self.emit('end');
};
function resetParagraph() {
paragraph_line_indent = -1;
paragraph = {
li: '',
in_license_block: block_is_license_block,
lines: []
};
}
function resetBlock(is_license_block) {
block_is_license_block = is_license_block;
block_has_c_style_comment = false;
resetParagraph();
}
function flushParagraph() {
if (paragraph.lines.length || paragraph.li) {
self.emit('data', paragraph);
}
resetParagraph();
}
function parseLine(line) {
// Strip trailing whitespace
line = line.replace(/\s*$/, '');
// Detect block separator
if (/^\s*(=|"){3,}\s*$/.test(line)) {
flushParagraph();
resetBlock(!block_is_license_block);
return;
}
// Strip comments around block
if (block_is_license_block) {
if (!block_has_c_style_comment)
block_has_c_style_comment = /^\s*(\/\*)/.test(line);
if (block_has_c_style_comment) {
var prev = line;
line = line.replace(/^(\s*?)(?:\s?\*\/|\/\*\s|\s\*\s?)/, '$1');
if (prev == line)
line = line.replace(/^\s{2}/, '');
if (/\*\//.test(prev))
block_has_c_style_comment = false;
} else {
// Strip C++ and perl style comments.
line = line.replace(/^(\s*)(?:\/\/\s?|#\s?)/, '$1');
}
}
// Detect blank line (paragraph separator)
if (!/\S/.test(line)) {
flushParagraph();
return;
}
// Detect separator "lines" within a block. These mark a paragraph break
// and are stripped from the output.
if (/^\s*[=*\-]{5,}\s*$/.test(line)) {
flushParagraph();
return;
}
// Find out indentation level and the start of a lied or numbered list;
var result = /^(\s*)(\d+\.|\*|-)?\s*/.exec(line);
assert.ok(result);
// The number of characters that will be stripped from the beginning of
// the line.
var line_strip_length = result[0].length;
// The indentation size that will be used to detect indentation jumps.
// Fudge by 1 space.
var line_indent = Math.floor(result[0].length / 2) * 2;
// The indentation level that will be exported
var level = Math.floor(result[1].length / 2);
// The list indicator that precedes the actual content, if any.
var line_li = result[2];
// Flush the paragraph when there is a li or an indentation jump
if (line_li || (line_indent != paragraph_line_indent &&
paragraph_line_indent != -1)) {
flushParagraph();
paragraph.li = line_li;
}
// Set the paragraph indent that we use to detect indentation jumps. When
// we just detected a list indicator, wait
// for the next line to arrive before setting this.
if (!line_li && paragraph_line_indent != -1) {
paragraph_line_indent = line_indent;
}
// Set the output indent level if it has not been set yet.
if (paragraph.level === undefined)
paragraph.level = level;
// Strip leading whitespace and li.
line = line.slice(line_strip_length);
if (line)
paragraph.lines.push(line);
}
}
inherits(ParagraphParser, Stream);
/*
* This filter consumes paragraph objects and emits modified paragraph objects.
* The lines within the paragraph are unwrapped where appropriate. It also
* replaces multiple consecutive whitespace characters by a single one.
*/
function Unwrapper() {
var self = this;
Stream.call(this);
this.writable = true;
this.write = function(paragraph) {
var lines = paragraph.lines;
var break_after = [];
var i;
for (i = 0; i < lines.length - 1; i++) {
var line = lines[i];
// When a line is really short, the line was probably kept separate for a
// reason.
if (line.length < 50) {
// If the first word on the next line really didn't fit after the line,
// it probably was just ordinary wrapping after all.
var next_first_word_length = lines[i + 1].replace(/\s.*$/, '').length;
if (line.length + next_first_word_length < 60) {
break_after[i] = true;
}
}
}
for (i = 0; i < lines.length - 1;) {
if (!break_after[i]) {
lines[i] += ' ' + lines.splice(i + 1, 1)[0];
} else {
i++;
}
}
for (i = 0; i < lines.length; i++) {
// Replace multiple whitespace characters by a single one, and strip
// trailing whitespace.
lines[i] = lines[i].replace(/\s+/g, ' ').replace(/\s+$/, '');
}
self.emit('data', paragraph);
};
this.end = function(data) {
if (data)
self.write(data);
self.emit('end');
};
}
inherits(Unwrapper, Stream);
/*
* This filter generates an rtf document from a stream of paragraph objects.
*/
function RtfGenerator() {
const self = this;
var did_write_anything = false;
Stream.call(this);
this.writable = true;
this.write = function(paragraph) {
if (!did_write_anything) {
emitHeader();
did_write_anything = true;
}
var li = paragraph.li;
var level = paragraph.level + (li ? 1 : 0);
var lic = paragraph.in_license_block;
var rtf = '\\pard';
rtf += '\\sa150\\sl300\\slmult1';
if (level > 0)
rtf += '\\li' + (level * 240);
if (li) {
rtf += '\\tx' + (level) * 240;
rtf += '\\fi-240';
}
if (lic)
rtf += '\\ri240';
if (!lic)
rtf += '\\b';
if (li)
rtf += ' ' + li + '\\tab';
rtf += ' ';
rtf += paragraph.lines.map(rtfEscape).join('\\line ');
if (!lic)
rtf += '\\b0';
rtf += '\\par\n';
self.emit('data', rtf);
};
this.end = function(data) {
if (data)
self.write(data);
if (did_write_anything)
emitFooter();
self.emit('end');
};
function toHex(number, length) {
var hex = (~~number).toString(16);
while (hex.length < length)
hex = '0' + hex;
return hex;
}
function rtfEscape(string) {
return string
.replace(/[\\\{\}]/g, function(m) {
return '\\' + m;
})
.replace(/\t/g, function() {
return '\\tab ';
})
// eslint-disable-next-line no-control-regex
.replace(/[\x00-\x1f\x7f-\xff]/g, function(m) {
return '\\\'' + toHex(m.charCodeAt(0), 2);
})
.replace(/\ufeff/g, '')
.replace(/[\u0100-\uffff]/g, function(m) {
return '\\u' + toHex(m.charCodeAt(0), 4) + '?';
});
}
function emitHeader() {
self.emit('data', '{\\rtf1\\ansi\\ansicpg1252\\uc1\\deff0\\deflang1033' +
'{\\fonttbl{\\f0\\fswiss\\fcharset0 Tahoma;}}\\fs20\n' +
'{\\*\\generator txt2rtf 0.0.1;}\n');
}
function emitFooter() {
self.emit('data', '}');
}
}
inherits(RtfGenerator, Stream);
const stdin = process.stdin;
const stdout = process.stdout;
const line_splitter = new LineSplitter();
const paragraph_parser = new ParagraphParser();
const unwrapper = new Unwrapper();
const rtf_generator = new RtfGenerator();
stdin.setEncoding('utf-8');
stdin.resume();
stdin.pipe(line_splitter);
line_splitter.pipe(paragraph_parser);
paragraph_parser.pipe(unwrapper);
unwrapper.pipe(rtf_generator);
rtf_generator.pipe(stdout);