/* * This is the Changeset library copied from the old Etherpad with some modifications to use it in node.js * Can be found in https://github.com/ether/pad/blob/master/infrastructure/ace/www/easysync2.js */ /** * This code is mostly from the old Etherpad. Please help us to comment this code. * This helps other people to understand this code better and helps them to improve it. * TL;DR COMMENTS ON THIS FILE ARE HIGHLY APPRECIATED */ /* * Copyright 2009 Google Inc., 2011 Peter 'Pita' Martischka (Primary Technology Ltd) * * 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. */ var AttributePool = require("./AttributePool"); /** * ==================== General Util Functions ======================= */ /** * This method is called whenever there is an error in the sync process * @param msg {string} Just some message */ exports.error = function error(msg) { var e = new Error(msg); e.easysync = true; throw e; }; /** * This method is used for assertions with Messages * if assert fails, the error function is called. * @param b {boolean} assertion condition * @param msgParts {string} error to be passed if it fails */ exports.assert = function assert(b, msgParts) { if (!b) { var msg = Array.prototype.slice.call(arguments, 1).join(''); exports.error("Failed assertion: " + msg); } }; /** * Parses a number from string base 36 * @param str {string} string of the number in base 36 * @returns {int} number */ exports.parseNum = function (str) { return parseInt(str, 36); }; /** * Writes a number in base 36 and puts it in a string * @param num {int} number * @returns {string} string */ exports.numToString = function (num) { return num.toString(36).toLowerCase(); }; /** * Converts stuff before $ to base 10 * @obsolete not really used anywhere?? * @param cs {string} the string * @return integer */ exports.toBaseTen = function (cs) { var dollarIndex = cs.indexOf('$'); var beforeDollar = cs.substring(0, dollarIndex); var fromDollar = cs.substring(dollarIndex); return beforeDollar.replace(/[0-9a-z]+/g, function (s) { return String(exports.parseNum(s)); }) + fromDollar; }; /** * ==================== Changeset Functions ======================= */ /** * returns the required length of the text before changeset * can be applied * @param cs {string} String representation of the Changeset */ exports.oldLen = function (cs) { return exports.unpack(cs).oldLen; }; /** * returns the length of the text after changeset is applied * @param cs {string} String representation of the Changeset */ exports.newLen = function (cs) { return exports.unpack(cs).newLen; }; /** * this function creates an iterator which decodes string changeset operations * @param opsStr {string} String encoding of the change operations to be performed * @param optStartIndex {int} from where in the string should the iterator start * @return {Op} type object iterator */ exports.opIterator = function (opsStr, optStartIndex) { //print(opsStr); var regex = /((?:\*[0-9a-z]+)*)(?:\|([0-9a-z]+))?([-+=])([0-9a-z]+)|\?|/g; var startIndex = (optStartIndex || 0); var curIndex = startIndex; var prevIndex = curIndex; function nextRegexMatch() { prevIndex = curIndex; var result; regex.lastIndex = curIndex; result = regex.exec(opsStr); curIndex = regex.lastIndex; if (result[0] == '?') { exports.error("Hit error opcode in op stream"); } return result; } var regexResult = nextRegexMatch(); var obj = exports.newOp(); function next(optObj) { var op = (optObj || obj); if (regexResult[0]) { op.attribs = regexResult[1]; op.lines = exports.parseNum(regexResult[2] || 0); op.opcode = regexResult[3]; op.chars = exports.parseNum(regexResult[4]); regexResult = nextRegexMatch(); } else { exports.clearOp(op); } return op; } function hasNext() { return !!(regexResult[0]); } function lastIndex() { return prevIndex; } return { next: next, hasNext: hasNext, lastIndex: lastIndex }; }; /** * Cleans an Op object * @param {Op} object to be cleared */ exports.clearOp = function (op) { op.opcode = ''; op.chars = 0; op.lines = 0; op.attribs = ''; }; /** * Creates a new Op object * @param optOpcode the type operation of the Op object */ exports.newOp = function (optOpcode) { return { opcode: (optOpcode || ''), chars: 0, lines: 0, attribs: '' }; }; /** * Clones an Op * @param op Op to be cloned */ exports.cloneOp = function (op) { return { opcode: op.opcode, chars: op.chars, lines: op.lines, attribs: op.attribs }; }; /** * Copies op1 to op2 * @param op1 src Op * @param op2 dest Op */ exports.copyOp = function (op1, op2) { op2.opcode = op1.opcode; op2.chars = op1.chars; op2.lines = op1.lines; op2.attribs = op1.attribs; }; /** * Writes the Op in a string the way that changesets need it */ exports.opString = function (op) { // just for debugging if (!op.opcode) return 'null'; var assem = exports.opAssembler(); assem.append(op); return assem.toString(); }; /** * Used just for debugging */ exports.stringOp = function (str) { // just for debugging return exports.opIterator(str).next(); }; /** * Used to check if a Changeset if valid * @param cs {Changeset} Changeset to be checked */ exports.checkRep = function (cs) { // doesn't check things that require access to attrib pool (e.g. attribute order) // or original string (e.g. newline positions) var unpacked = exports.unpack(cs); var oldLen = unpacked.oldLen; var newLen = unpacked.newLen; var ops = unpacked.ops; var charBank = unpacked.charBank; var assem = exports.smartOpAssembler(); var oldPos = 0; var calcNewLen = 0; var numInserted = 0; var iter = exports.opIterator(ops); while (iter.hasNext()) { var o = iter.next(); switch (o.opcode) { case '=': oldPos += o.chars; calcNewLen += o.chars; break; case '-': oldPos += o.chars; exports.assert(oldPos < oldLen, oldPos, " >= ", oldLen, " in ", cs); break; case '+': { calcNewLen += o.chars; numInserted += o.chars; exports.assert(calcNewLen < newLen, calcNewLen, " >= ", newLen, " in ", cs); break; } } assem.append(o); } calcNewLen += oldLen - oldPos; charBank = charBank.substring(0, numInserted); while (charBank.length < numInserted) { charBank += "?"; } assem.endDocument(); var normalized = exports.pack(oldLen, calcNewLen, assem.toString(), charBank); exports.assert(normalized == cs, 'Invalid changeset (checkRep failed)'); return cs; } /** * ==================== Util Functions ======================= */ /** * creates an object that allows you to append operations (type Op) and also * compresses them if possible */ exports.smartOpAssembler = function () { // Like opAssembler but able to produce conforming exportss // from slightly looser input, at the cost of speed. // Specifically: // - merges consecutive operations that can be merged // - strips final "=" // - ignores 0-length changes // - reorders consecutive + and - (which margingOpAssembler doesn't do) var minusAssem = exports.mergingOpAssembler(); var plusAssem = exports.mergingOpAssembler(); var keepAssem = exports.mergingOpAssembler(); var assem = exports.stringAssembler(); var lastOpcode = ''; var lengthChange = 0; function flushKeeps() { assem.append(keepAssem.toString()); keepAssem.clear(); } function flushPlusMinus() { assem.append(minusAssem.toString()); minusAssem.clear(); assem.append(plusAssem.toString()); plusAssem.clear(); } function append(op) { if (!op.opcode) return; if (!op.chars) return; if (op.opcode == '-') { if (lastOpcode == '=') { flushKeeps(); } minusAssem.append(op); lengthChange -= op.chars; } else if (op.opcode == '+') { if (lastOpcode == '=') { flushKeeps(); } plusAssem.append(op); lengthChange += op.chars; } else if (op.opcode == '=') { if (lastOpcode != '=') { flushPlusMinus(); } keepAssem.append(op); } lastOpcode = op.opcode; } function appendOpWithText(opcode, text, attribs, pool) { var op = exports.newOp(opcode); op.attribs = exports.makeAttribsString(opcode, attribs, pool); var lastNewlinePos = text.lastIndexOf('\n'); if (lastNewlinePos < 0) { op.chars = text.length; op.lines = 0; append(op); } else { op.chars = lastNewlinePos + 1; op.lines = text.match(/\n/g).length; append(op); op.chars = text.length - (lastNewlinePos + 1); op.lines = 0; append(op); } } function toString() { flushPlusMinus(); flushKeeps(); return assem.toString(); } function clear() { minusAssem.clear(); plusAssem.clear(); keepAssem.clear(); assem.clear(); lengthChange = 0; } function endDocument() { keepAssem.endDocument(); } function getLengthChange() { return lengthChange; } return { append: append, toString: toString, clear: clear, endDocument: endDocument, appendOpWithText: appendOpWithText, getLengthChange: getLengthChange }; }; exports.mergingOpAssembler = function () { // This assembler can be used in production; it efficiently // merges consecutive operations that are mergeable, ignores // no-ops, and drops final pure "keeps". It does not re-order // operations. var assem = exports.opAssembler(); var bufOp = exports.newOp(); // If we get, for example, insertions [xxx\n,yyy], those don't merge, // but if we get [xxx\n,yyy,zzz\n], that merges to [xxx\nyyyzzz\n]. // This variable stores the length of yyy and any other newline-less // ops immediately after it. var bufOpAdditionalCharsAfterNewline = 0; function flush(isEndDocument) { if (bufOp.opcode) { if (isEndDocument && bufOp.opcode == '=' && !bufOp.attribs) { // final merged keep, leave it implicit } else { assem.append(bufOp); if (bufOpAdditionalCharsAfterNewline) { bufOp.chars = bufOpAdditionalCharsAfterNewline; bufOp.lines = 0; assem.append(bufOp); bufOpAdditionalCharsAfterNewline = 0; } } bufOp.opcode = ''; } } function append(op) { if (op.chars > 0) { if (bufOp.opcode == op.opcode && bufOp.attribs == op.attribs) { if (op.lines > 0) { // bufOp and additional chars are all mergeable into a multi-line op bufOp.chars += bufOpAdditionalCharsAfterNewline + op.chars; bufOp.lines += op.lines; bufOpAdditionalCharsAfterNewline = 0; } else if (bufOp.lines == 0) { // both bufOp and op are in-line bufOp.chars += op.chars; } else { // append in-line text to multi-line bufOp bufOpAdditionalCharsAfterNewline += op.chars; } } else { flush(); exports.copyOp(op, bufOp); } } } function endDocument() { flush(true); } function toString() { flush(); return assem.toString(); } function clear() { assem.clear(); exports.clearOp(bufOp); } return { append: append, toString: toString, clear: clear, endDocument: endDocument }; }; exports.opAssembler = function () { var pieces = []; // this function allows op to be mutated later (doesn't keep a ref) function append(op) { pieces.push(op.attribs); if (op.lines) { pieces.push('|', exports.numToString(op.lines)); } pieces.push(op.opcode); pieces.push(exports.numToString(op.chars)); } function toString() { return pieces.join(''); } function clear() { pieces.length = 0; } return { append: append, toString: toString, clear: clear }; }; /** * A custom made String Iterator * @param str {string} String to be iterated over */ exports.stringIterator = function (str) { var curIndex = 0; function assertRemaining(n) { exports.assert(n <= remaining(), "!(", n, " <= ", remaining(), ")"); } function take(n) { assertRemaining(n); var s = str.substr(curIndex, n); curIndex += n; return s; } function peek(n) { assertRemaining(n); var s = str.substr(curIndex, n); return s; } function skip(n) { assertRemaining(n); curIndex += n; } function remaining() { return str.length - curIndex; } return { take: take, skip: skip, remaining: remaining, peek: peek }; }; /** * A custom made StringBuffer */ exports.stringAssembler = function () { var pieces = []; function append(x) { pieces.push(String(x)); } function toString() { return pieces.join(''); } return { append: append, toString: toString }; }; /** * This class allows to iterate and modify texts which have several lines * It is used for applying Changesets on arrays of lines * Note from prev docs: "lines" need not be an array as long as it supports certain calls (lines_foo inside). */ exports.textLinesMutator = function (lines) { // Mutates lines, an array of strings, in place. // Mutation operations have the same constraints as exports operations // with respect to newlines, but not the other additional constraints // (i.e. ins/del ordering, forbidden no-ops, non-mergeability, final newline). // Can be used to mutate lists of strings where the last char of each string // is not actually a newline, but for the purposes of N and L values, // the caller should pretend it is, and for things to work right in that case, the input // to insert() should be a single line with no newlines. var curSplice = [0, 0]; var inSplice = false; // position in document after curSplice is applied: var curLine = 0, curCol = 0; // invariant: if (inSplice) then (curLine is in curSplice[0] + curSplice.length - {2,3}) && // curLine >= curSplice[0] // invariant: if (inSplice && (curLine >= curSplice[0] + curSplice.length - 2)) then // curCol == 0 function lines_applySplice(s) { lines.splice.apply(lines, s); } function lines_toSource() { return lines.toSource(); } function lines_get(idx) { if (lines.get) { return lines.get(idx); } else { return lines[idx]; } } // can be unimplemented if removeLines's return value not needed function lines_slice(start, end) { if (lines.slice) { return lines.slice(start, end); } else { return []; } } function lines_length() { if ((typeof lines.length) == "number") { return lines.length; } else { return lines.length(); } } function enterSplice() { curSplice[0] = curLine; curSplice[1] = 0; if (curCol > 0) { putCurLineInSplice(); } inSplice = true; } function leaveSplice() { lines_applySplice(curSplice); curSplice.length = 2; curSplice[0] = curSplice[1] = 0; inSplice = false; } function isCurLineInSplice() { return (curLine - curSplice[0] < (curSplice.length - 2)); } function debugPrint(typ) { print(typ + ": " + curSplice.toSource() + " / " + curLine + "," + curCol + " / " + lines_toSource()); } function putCurLineInSplice() { if (!isCurLineInSplice()) { curSplice.push(lines_get(curSplice[0] + curSplice[1])); curSplice[1]++; } return 2 + curLine - curSplice[0]; } function skipLines(L, includeInSplice) { if (L) { if (includeInSplice) { if (!inSplice) { enterSplice(); } for (var i = 0; i < L; i++) { curCol = 0; putCurLineInSplice(); curLine++; } } else { if (inSplice) { if (L > 1) { leaveSplice(); } else { putCurLineInSplice(); } } curLine += L; curCol = 0; } //print(inSplice+" / "+isCurLineInSplice()+" / "+curSplice[0]+" / "+curSplice[1]+" / "+lines.length); /*if (inSplice && (! isCurLineInSplice()) && (curSplice[0] + curSplice[1] < lines.length)) { print("BLAH"); putCurLineInSplice(); }*/ // tests case foo in remove(), which isn't otherwise covered in current impl } //debugPrint("skip"); } function skip(N, L, includeInSplice) { if (N) { if (L) { skipLines(L, includeInSplice); } else { if (includeInSplice && !inSplice) { enterSplice(); } if (inSplice) { putCurLineInSplice(); } curCol += N; //debugPrint("skip"); } } } function removeLines(L) { var removed = ''; if (L) { if (!inSplice) { enterSplice(); } function nextKLinesText(k) { var m = curSplice[0] + curSplice[1]; return lines_slice(m, m + k).join(''); } if (isCurLineInSplice()) { //print(curCol); if (curCol == 0) { removed = curSplice[curSplice.length - 1]; // print("FOO"); // case foo curSplice.length--; removed += nextKLinesText(L - 1); curSplice[1] += L - 1; } else { removed = nextKLinesText(L - 1); curSplice[1] += L - 1; var sline = curSplice.length - 1; removed = curSplice[sline].substring(curCol) + removed; curSplice[sline] = curSplice[sline].substring(0, curCol) + lines_get(curSplice[0] + curSplice[1]); curSplice[1] += 1; } } else { removed = nextKLinesText(L); curSplice[1] += L; } //debugPrint("remove"); } return removed; } function remove(N, L) { var removed = ''; if (N) { if (L) { return removeLines(L); } else { if (!inSplice) { enterSplice(); } var sline = putCurLineInSplice(); removed = curSplice[sline].substring(curCol, curCol + N); curSplice[sline] = curSplice[sline].substring(0, curCol) + curSplice[sline].substring(curCol + N); //debugPrint("remove"); } } return removed; } function insert(text, L) { if (text) { if (!inSplice) { enterSplice(); } if (L) { var newLines = exports.splitTextLines(text); if (isCurLineInSplice()) { //if (curCol == 0) { //curSplice.length--; //curSplice[1]--; //Array.prototype.push.apply(curSplice, newLines); //curLine += newLines.length; //} //else { var sline = curSplice.length - 1; var theLine = curSplice[sline]; var lineCol = curCol; curSplice[sline] = theLine.substring(0, lineCol) + newLines[0]; curLine++; newLines.splice(0, 1); Array.prototype.push.apply(curSplice, newLines); curLine += newLines.length; curSplice.push(theLine.substring(lineCol)); curCol = 0; //} } else { Array.prototype.push.apply(curSplice, newLines); curLine += newLines.length; } } else { var sline = putCurLineInSplice(); curSplice[sline] = curSplice[sline].substring(0, curCol) + text + curSplice[sline].substring(curCol); curCol += text.length; } //debugPrint("insert"); } } function hasMore() { //print(lines.length+" / "+inSplice+" / "+(curSplice.length - 2)+" / "+curSplice[1]); var docLines = lines_length(); if (inSplice) { docLines += curSplice.length - 2 - curSplice[1]; } return curLine < docLines; } function close() { if (inSplice) { leaveSplice(); } //debugPrint("close"); } var self = { skip: skip, remove: remove, insert: insert, close: close, hasMore: hasMore, removeLines: removeLines, skipLines: skipLines }; return self; }; /** * Function allowing iterating over two Op strings. * @params in1 {string} first Op string * @params idx1 {int} integer where 1st iterator should start * @params in2 {string} second Op string * @params idx2 {int} integer where 2nd iterator should start * @params func {function} which decides how 1st or 2nd iterator * advances. When opX.opcode = 0, iterator X advances to * next element * func has signature f(op1, op2, opOut) * op1 - current operation of the first iterator * op2 - current operation of the second iterator * opOut - result operator to be put into Changeset * @return {string} the integrated changeset */ exports.applyZip = function (in1, idx1, in2, idx2, func) { var iter1 = exports.opIterator(in1, idx1); var iter2 = exports.opIterator(in2, idx2); var assem = exports.smartOpAssembler(); var op1 = exports.newOp(); var op2 = exports.newOp(); var opOut = exports.newOp(); while (op1.opcode || iter1.hasNext() || op2.opcode || iter2.hasNext()) { if ((!op1.opcode) && iter1.hasNext()) iter1.next(op1); if ((!op2.opcode) && iter2.hasNext()) iter2.next(op2); func(op1, op2, opOut); if (opOut.opcode) { //print(opOut.toSource()); assem.append(opOut); opOut.opcode = ''; } } assem.endDocument(); return assem.toString(); }; /** * Unpacks a string encoded Changeset into a proper Changeset object * @params cs {string} String encoded Changeset * @returns {Changeset} a Changeset class */ exports.unpack = function (cs) { var headerRegex = /Z:([0-9a-z]+)([><])([0-9a-z]+)|/; var headerMatch = headerRegex.exec(cs); if ((!headerMatch) || (!headerMatch[0])) { exports.error("Not a exports: " + cs); } var oldLen = exports.parseNum(headerMatch[1]); var changeSign = (headerMatch[2] == '>') ? 1 : -1; var changeMag = exports.parseNum(headerMatch[3]); var newLen = oldLen + changeSign * changeMag; var opsStart = headerMatch[0].length; var opsEnd = cs.indexOf("$"); if (opsEnd < 0) opsEnd = cs.length; return { oldLen: oldLen, newLen: newLen, ops: cs.substring(opsStart, opsEnd), charBank: cs.substring(opsEnd + 1) }; }; /** * Packs Changeset object into a string * @params oldLen {int} Old length of the Changeset * @params newLen {int] New length of the Changeset * @params opsStr {string} String encoding of the changes to be made * @params bank {string} Charbank of the Changeset * @returns {Changeset} a Changeset class */ exports.pack = function (oldLen, newLen, opsStr, bank) { var lenDiff = newLen - oldLen; var lenDiffStr = (lenDiff >= 0 ? '>' + exports.numToString(lenDiff) : '<' + exports.numToString(-lenDiff)); var a = []; a.push('Z:', exports.numToString(oldLen), lenDiffStr, opsStr, '$', bank); return a.join(''); }; /** * Applies a Changeset to a string * @params cs {string} String encoded Changeset * @params str {string} String to which a Changeset should be applied */ exports.applyToText = function (cs, str) { var unpacked = exports.unpack(cs); exports.assert(str.length == unpacked.oldLen, "mismatched apply: ", str.length, " / ", unpacked.oldLen); var csIter = exports.opIterator(unpacked.ops); var bankIter = exports.stringIterator(unpacked.charBank); var strIter = exports.stringIterator(str); var assem = exports.stringAssembler(); while (csIter.hasNext()) { var op = csIter.next(); switch (op.opcode) { case '+': assem.append(bankIter.take(op.chars)); break; case '-': strIter.skip(op.chars); break; case '=': assem.append(strIter.take(op.chars)); break; } } assem.append(strIter.take(strIter.remaining())); return assem.toString(); }; /** * applies a changeset on an array of lines * @param CS {Changeset} the changeset to be applied * @param lines The lines to which the changeset needs to be applied */ exports.mutateTextLines = function (cs, lines) { var unpacked = exports.unpack(cs); var csIter = exports.opIterator(unpacked.ops); var bankIter = exports.stringIterator(unpacked.charBank); var mut = exports.textLinesMutator(lines); while (csIter.hasNext()) { var op = csIter.next(); switch (op.opcode) { case '+': mut.insert(bankIter.take(op.chars), op.lines); break; case '-': mut.remove(op.chars, op.lines); break; case '=': mut.skip(op.chars, op.lines, ( !! op.attribs)); break; } } mut.close(); }; /** * Composes two attribute strings (see below) into one. * @param att1 {string} first attribute string * @param att2 {string} second attribue string * @param resultIsMutaton {boolean} * @param pool {AttribPool} attribute pool */ exports.composeAttributes = function (att1, att2, resultIsMutation, pool) { // att1 and att2 are strings like "*3*f*1c", asMutation is a boolean. // Sometimes attribute (key,value) pairs are treated as attribute presence // information, while other times they are treated as operations that // mutate a set of attributes, and this affects whether an empty value // is a deletion or a change. // Examples, of the form (att1Items, att2Items, resultIsMutation) -> result // ([], [(bold, )], true) -> [(bold, )] // ([], [(bold, )], false) -> [] // ([], [(bold, true)], true) -> [(bold, true)] // ([], [(bold, true)], false) -> [(bold, true)] // ([(bold, true)], [(bold, )], true) -> [(bold, )] // ([(bold, true)], [(bold, )], false) -> [] // pool can be null if att2 has no attributes. if ((!att1) && resultIsMutation) { // In the case of a mutation (i.e. composing two exportss), // an att2 composed with an empy att1 is just att2. If att1 // is part of an attribution string, then att2 may remove // attributes that are already gone, so don't do this optimization. return att2; } if (!att2) return att1; var atts = []; att1.replace(/\*([0-9a-z]+)/g, function (_, a) { atts.push(pool.getAttrib(exports.parseNum(a))); return ''; }); att2.replace(/\*([0-9a-z]+)/g, function (_, a) { var pair = pool.getAttrib(exports.parseNum(a)); var found = false; for (var i = 0; i < atts.length; i++) { var oldPair = atts[i]; if (oldPair[0] == pair[0]) { if (pair[1] || resultIsMutation) { oldPair[1] = pair[1]; } else { atts.splice(i, 1); } found = true; break; } } if ((!found) && (pair[1] || resultIsMutation)) { atts.push(pair); } return ''; }); atts.sort(); var buf = exports.stringAssembler(); for (var i = 0; i < atts.length; i++) { buf.append('*'); buf.append(exports.numToString(pool.putAttrib(atts[i]))); } //print(att1+" / "+att2+" / "+buf.toString()); return buf.toString(); }; /** * Function used as parameter for applyZip to apply a Changeset to an * attribute */ exports._slicerZipperFunc = function (attOp, csOp, opOut, pool) { // attOp is the op from the sequence that is being operated on, either an // attribution string or the earlier of two exportss being composed. // pool can be null if definitely not needed. //print(csOp.toSource()+" "+attOp.toSource()+" "+opOut.toSource()); if (attOp.opcode == '-') { exports.copyOp(attOp, opOut); attOp.opcode = ''; } else if (!attOp.opcode) { exports.copyOp(csOp, opOut); csOp.opcode = ''; } else { switch (csOp.opcode) { case '-': { if (csOp.chars <= attOp.chars) { // delete or delete part if (attOp.opcode == '=') { opOut.opcode = '-'; opOut.chars = csOp.chars; opOut.lines = csOp.lines; opOut.attribs = ''; } attOp.chars -= csOp.chars; attOp.lines -= csOp.lines; csOp.opcode = ''; if (!attOp.chars) { attOp.opcode = ''; } } else { // delete and keep going if (attOp.opcode == '=') { opOut.opcode = '-'; opOut.chars = attOp.chars; opOut.lines = attOp.lines; opOut.attribs = ''; } csOp.chars -= attOp.chars; csOp.lines -= attOp.lines; attOp.opcode = ''; } break; } case '+': { // insert exports.copyOp(csOp, opOut); csOp.opcode = ''; break; } case '=': { if (csOp.chars <= attOp.chars) { // keep or keep part opOut.opcode = attOp.opcode; opOut.chars = csOp.chars; opOut.lines = csOp.lines; opOut.attribs = exports.composeAttributes(attOp.attribs, csOp.attribs, attOp.opcode == '=', pool); csOp.opcode = ''; attOp.chars -= csOp.chars; attOp.lines -= csOp.lines; if (!attOp.chars) { attOp.opcode = ''; } } else { // keep and keep going opOut.opcode = attOp.opcode; opOut.chars = attOp.chars; opOut.lines = attOp.lines; opOut.attribs = exports.composeAttributes(attOp.attribs, csOp.attribs, attOp.opcode == '=', pool); attOp.opcode = ''; csOp.chars -= attOp.chars; csOp.lines -= attOp.lines; } break; } case '': { exports.copyOp(attOp, opOut); attOp.opcode = ''; break; } } } }; /** * Applies a Changeset to the attribs string of a AText. * @param cs {string} Changeset * @param astr {string} the attribs string of a AText * @param pool {AttribsPool} the attibutes pool */ exports.applyToAttribution = function (cs, astr, pool) { var unpacked = exports.unpack(cs); return exports.applyZip(astr, 0, unpacked.ops, 0, function (op1, op2, opOut) { return exports._slicerZipperFunc(op1, op2, opOut, pool); }); }; /*exports.oneInsertedLineAtATimeOpIterator = function(opsStr, optStartIndex, charBank) { var iter = exports.opIterator(opsStr, optStartIndex); var bankIndex = 0; };*/ exports.mutateAttributionLines = function (cs, lines, pool) { //dmesg(cs); //dmesg(lines.toSource()+" ->"); var unpacked = exports.unpack(cs); var csIter = exports.opIterator(unpacked.ops); var csBank = unpacked.charBank; var csBankIndex = 0; // treat the attribution lines as text lines, mutating a line at a time var mut = exports.textLinesMutator(lines); var lineIter = null; function isNextMutOp() { return (lineIter && lineIter.hasNext()) || mut.hasMore(); } function nextMutOp(destOp) { if ((!(lineIter && lineIter.hasNext())) && mut.hasMore()) { var line = mut.removeLines(1); lineIter = exports.opIterator(line); } if (lineIter && lineIter.hasNext()) { lineIter.next(destOp); } else { destOp.opcode = ''; } } var lineAssem = null; function outputMutOp(op) { //print("outputMutOp: "+op.toSource()); if (!lineAssem) { lineAssem = exports.mergingOpAssembler(); } lineAssem.append(op); if (op.lines > 0) { exports.assert(op.lines == 1, "Can't have op.lines of ", op.lines, " in attribution lines"); // ship it to the mut mut.insert(lineAssem.toString(), 1); lineAssem = null; } } var csOp = exports.newOp(); var attOp = exports.newOp(); var opOut = exports.newOp(); while (csOp.opcode || csIter.hasNext() || attOp.opcode || isNextMutOp()) { if ((!csOp.opcode) && csIter.hasNext()) { csIter.next(csOp); } //print(csOp.toSource()+" "+attOp.toSource()+" "+opOut.toSource()); //print(csOp.opcode+"/"+csOp.lines+"/"+csOp.attribs+"/"+lineAssem+"/"+lineIter+"/"+(lineIter?lineIter.hasNext():null)); //print("csOp: "+csOp.toSource()); if ((!csOp.opcode) && (!attOp.opcode) && (!lineAssem) && (!(lineIter && lineIter.hasNext()))) { break; // done } else if (csOp.opcode == '=' && csOp.lines > 0 && (!csOp.attribs) && (!attOp.opcode) && (!lineAssem) && (!(lineIter && lineIter.hasNext()))) { // skip multiple lines; this is what makes small changes not order of the document size mut.skipLines(csOp.lines); //print("skipped: "+csOp.lines); csOp.opcode = ''; } else if (csOp.opcode == '+') { if (csOp.lines > 1) { var firstLineLen = csBank.indexOf('\n', csBankIndex) + 1 - csBankIndex; exports.copyOp(csOp, opOut); csOp.chars -= firstLineLen; csOp.lines--; opOut.lines = 1; opOut.chars = firstLineLen; } else { exports.copyOp(csOp, opOut); csOp.opcode = ''; } outputMutOp(opOut); csBankIndex += opOut.chars; opOut.opcode = ''; } else { if ((!attOp.opcode) && isNextMutOp()) { nextMutOp(attOp); } //print("attOp: "+attOp.toSource()); exports._slicerZipperFunc(attOp, csOp, opOut, pool); if (opOut.opcode) { outputMutOp(opOut); opOut.opcode = ''; } } } exports.assert(!lineAssem, "line assembler not finished"); mut.close(); //dmesg("-> "+lines.toSource()); }; /** * joins several Attribution lines * @param theAlines collection of Attribution lines * @returns {string} joined Attribution lines */ exports.joinAttributionLines = function (theAlines) { var assem = exports.mergingOpAssembler(); for (var i = 0; i < theAlines.length; i++) { var aline = theAlines[i]; var iter = exports.opIterator(aline); while (iter.hasNext()) { assem.append(iter.next()); } } return assem.toString(); }; exports.splitAttributionLines = function (attrOps, text) { var iter = exports.opIterator(attrOps); var assem = exports.mergingOpAssembler(); var lines = []; var pos = 0; function appendOp(op) { assem.append(op); if (op.lines > 0) { lines.push(assem.toString()); assem.clear(); } pos += op.chars; } while (iter.hasNext()) { var op = iter.next(); var numChars = op.chars; var numLines = op.lines; while (numLines > 1) { var newlineEnd = text.indexOf('\n', pos) + 1; exports.assert(newlineEnd > 0, "newlineEnd <= 0 in splitAttributionLines"); op.chars = newlineEnd - pos; op.lines = 1; appendOp(op); numChars -= op.chars; numLines -= op.lines; } if (numLines == 1) { op.chars = numChars; op.lines = 1; } appendOp(op); } return lines; }; /** * splits text into lines * @param {string} text to be splitted */ exports.splitTextLines = function (text) { return text.match(/[^\n]*(?:\n|[^\n]$)/g); }; /** * compose two Changesets * @param cs1 {Changeset} first Changeset * @param cs2 {Changeset} second Changeset * @param pool {AtribsPool} Attribs pool */ exports.compose = function (cs1, cs2, pool) { var unpacked1 = exports.unpack(cs1); var unpacked2 = exports.unpack(cs2); var len1 = unpacked1.oldLen; var len2 = unpacked1.newLen; exports.assert(len2 == unpacked2.oldLen, "mismatched composition of two changesets"); var len3 = unpacked2.newLen; var bankIter1 = exports.stringIterator(unpacked1.charBank); var bankIter2 = exports.stringIterator(unpacked2.charBank); var bankAssem = exports.stringAssembler(); var newOps = exports.applyZip(unpacked1.ops, 0, unpacked2.ops, 0, function (op1, op2, opOut) { //var debugBuilder = exports.stringAssembler(); //debugBuilder.append(exports.opString(op1)); //debugBuilder.append(','); //debugBuilder.append(exports.opString(op2)); //debugBuilder.append(' / '); var op1code = op1.opcode; var op2code = op2.opcode; if (op1code == '+' && op2code == '-') { bankIter1.skip(Math.min(op1.chars, op2.chars)); } exports._slicerZipperFunc(op1, op2, opOut, pool); if (opOut.opcode == '+') { if (op2code == '+') { bankAssem.append(bankIter2.take(opOut.chars)); } else { bankAssem.append(bankIter1.take(opOut.chars)); } } //debugBuilder.append(exports.opString(op1)); //debugBuilder.append(','); //debugBuilder.append(exports.opString(op2)); //debugBuilder.append(' -> '); //debugBuilder.append(exports.opString(opOut)); //print(debugBuilder.toString()); }); return exports.pack(len1, len3, newOps, bankAssem.toString()); }; /** * returns a function that tests if a string of attributes * (e.g. *3*4) contains a given attribute key,value that * is already present in the pool. * @param attribPair array [key,value] of the attribute * @param pool {AttribPool} Attribute pool */ exports.attributeTester = function (attribPair, pool) { if (!pool) { return never; } var attribNum = pool.putAttrib(attribPair, true); if (attribNum < 0) { return never; } else { var re = new RegExp('\\*' + exports.numToString(attribNum) + '(?!\\w)'); return function (attribs) { return re.test(attribs); }; } function never(attribs) { return false; } }; /** * creates the identity Changeset of length N * @param N {int} length of the identity changeset */ exports.identity = function (N) { return exports.pack(N, N, "", ""); }; /** * creates a Changeset which works on oldFullText and removes text * from spliceStart to spliceStart+numRemoved and inserts newText * instead. Also gives possibility to add attributes optNewTextAPairs * for the new text. * @param oldFullText {string} old text * @param spliecStart {int} where splicing starts * @param numRemoved {int} number of characters to be removed * @param newText {string} string to be inserted * @param optNewTextAPairs {string} new pairs to be inserted * @param pool {AttribPool} Attribution Pool */ exports.makeSplice = function (oldFullText, spliceStart, numRemoved, newText, optNewTextAPairs, pool) { var oldLen = oldFullText.length; if (spliceStart >= oldLen) { spliceStart = oldLen - 1; } if (numRemoved > oldFullText.length - spliceStart - 1) { numRemoved = oldFullText.length - spliceStart - 1; } var oldText = oldFullText.substring(spliceStart, spliceStart + numRemoved); var newLen = oldLen + newText.length - oldText.length; var assem = exports.smartOpAssembler(); assem.appendOpWithText('=', oldFullText.substring(0, spliceStart)); assem.appendOpWithText('-', oldText); assem.appendOpWithText('+', newText, optNewTextAPairs, pool); assem.endDocument(); return exports.pack(oldLen, newLen, assem.toString(), newText); }; /** * Transforms a changeset into a list of splices in the form * [startChar, endChar, newText] meaning replace text from * startChar to endChar with newText * @param cs Changeset */ exports.toSplices = function (cs) { // var unpacked = exports.unpack(cs); var splices = []; var oldPos = 0; var iter = exports.opIterator(unpacked.ops); var charIter = exports.stringIterator(unpacked.charBank); var inSplice = false; while (iter.hasNext()) { var op = iter.next(); if (op.opcode == '=') { oldPos += op.chars; inSplice = false; } else { if (!inSplice) { splices.push([oldPos, oldPos, ""]); inSplice = true; } if (op.opcode == '-') { oldPos += op.chars; splices[splices.length - 1][1] += op.chars; } else if (op.opcode == '+') { splices[splices.length - 1][2] += charIter.take(op.chars); } } } return splices; }; /** * */ exports.characterRangeFollow = function (cs, startChar, endChar, insertionsAfter) { var newStartChar = startChar; var newEndChar = endChar; var splices = exports.toSplices(cs); var lengthChangeSoFar = 0; for (var i = 0; i < splices.length; i++) { var splice = splices[i]; var spliceStart = splice[0] + lengthChangeSoFar; var spliceEnd = splice[1] + lengthChangeSoFar; var newTextLength = splice[2].length; var thisLengthChange = newTextLength - (spliceEnd - spliceStart); if (spliceStart <= newStartChar && spliceEnd >= newEndChar) { // splice fully replaces/deletes range // (also case that handles insertion at a collapsed selection) if (insertionsAfter) { newStartChar = newEndChar = spliceStart; } else { newStartChar = newEndChar = spliceStart + newTextLength; } } else if (spliceEnd <= newStartChar) { // splice is before range newStartChar += thisLengthChange; newEndChar += thisLengthChange; } else if (spliceStart >= newEndChar) { // splice is after range } else if (spliceStart >= newStartChar && spliceEnd <= newEndChar) { // splice is inside range newEndChar += thisLengthChange; } else if (spliceEnd < newEndChar) { // splice overlaps beginning of range newStartChar = spliceStart + newTextLength; newEndChar += thisLengthChange; } else { // splice overlaps end of range newEndChar = spliceStart; } lengthChangeSoFar += thisLengthChange; } return [newStartChar, newEndChar]; }; /** * Iterate over attributes in a changeset and move them from * oldPool to newPool * @param cs {Changeset} Chageset/attribution string to be iterated over * @param oldPool {AttribPool} old attributes pool * @param newPool {AttribPool} new attributes pool * @return {string} the new Changeset */ exports.moveOpsToNewPool = function (cs, oldPool, newPool) { // works on exports or attribution string var dollarPos = cs.indexOf('$'); if (dollarPos < 0) { dollarPos = cs.length; } var upToDollar = cs.substring(0, dollarPos); var fromDollar = cs.substring(dollarPos); // order of attribs stays the same return upToDollar.replace(/\*([0-9a-z]+)/g, function (_, a) { var oldNum = exports.parseNum(a); var pair = oldPool.getAttrib(oldNum); if(!pair) exports.error('Can\'t copy unknown attrib (reference attrib string to non-existant pool entry). Inconsistent attrib state!'); var newNum = newPool.putAttrib(pair); return '*' + exports.numToString(newNum); }) + fromDollar; }; /** * create an attribution inserting a text * @param text {string} text to be inserted */ exports.makeAttribution = function (text) { var assem = exports.smartOpAssembler(); assem.appendOpWithText('+', text); return assem.toString(); }; /** * Iterates over attributes in exports, attribution string, or attribs property of an op * and runs function func on them * @param cs {Changeset} changeset * @param func {function} function to be called */ exports.eachAttribNumber = function (cs, func) { var dollarPos = cs.indexOf('$'); if (dollarPos < 0) { dollarPos = cs.length; } var upToDollar = cs.substring(0, dollarPos); upToDollar.replace(/\*([0-9a-z]+)/g, function (_, a) { func(exports.parseNum(a)); return ''; }); }; /** * Filter attributes which should remain in a Changeset * callable on a exports, attribution string, or attribs property of an op, * though it may easily create adjacent ops that can be merged. * @param cs {Changeset} changeset to be filtered * @param filter {function} fnc which returns true if an * attribute X (int) should be kept in the Changeset */ exports.filterAttribNumbers = function (cs, filter) { return exports.mapAttribNumbers(cs, filter); }; /** * does exactly the same as exports.filterAttribNumbers */ exports.mapAttribNumbers = function (cs, func) { var dollarPos = cs.indexOf('$'); if (dollarPos < 0) { dollarPos = cs.length; } var upToDollar = cs.substring(0, dollarPos); var newUpToDollar = upToDollar.replace(/\*([0-9a-z]+)/g, function (s, a) { var n = func(exports.parseNum(a)); if (n === true) { return s; } else if ((typeof n) === "number") { return '*' + exports.numToString(n); } else { return ''; } }); return newUpToDollar + cs.substring(dollarPos); }; /** * Create a Changeset going from Identity to a certain state * @params text {string} text of the final change * @attribs attribs {string} optional, operations which insert * the text and also puts the right attributes */ exports.makeAText = function (text, attribs) { return { text: text, attribs: (attribs || exports.makeAttribution(text)) }; }; /** * Apply a Changeset to a AText * @param cs {Changeset} Changeset to be applied * @param atext {AText} * @param pool {AttribPool} Attribute Pool to add to */ exports.applyToAText = function (cs, atext, pool) { return { text: exports.applyToText(cs, atext.text), attribs: exports.applyToAttribution(cs, atext.attribs, pool) }; }; /** * Clones a AText structure * @param atext {AText} */ exports.cloneAText = function (atext) { return { text: atext.text, attribs: atext.attribs }; }; /** * Copies a AText structure from atext1 to atext2 * @param atext {AText} */ exports.copyAText = function (atext1, atext2) { atext2.text = atext1.text; atext2.attribs = atext1.attribs; }; /** * Append the set of operations from atext to an assembler * @param atext {AText} * @param assem Assembler like smartOpAssembler */ exports.appendATextToAssembler = function (atext, assem) { // intentionally skips last newline char of atext var iter = exports.opIterator(atext.attribs); var op = exports.newOp(); while (iter.hasNext()) { iter.next(op); if (!iter.hasNext()) { // last op, exclude final newline if (op.lines <= 1) { op.lines = 0; op.chars--; if (op.chars) { assem.append(op); } } else { var nextToLastNewlineEnd = atext.text.lastIndexOf('\n', atext.text.length - 2) + 1; var lastLineLength = atext.text.length - nextToLastNewlineEnd - 1; op.lines--; op.chars -= (lastLineLength + 1); assem.append(op); op.lines = 0; op.chars = lastLineLength; if (op.chars) { assem.append(op); } } } else { assem.append(op); } } }; /** * Creates a clone of a Changeset and it's APool * @param cs {Changeset} * @param pool {AtributePool} */ exports.prepareForWire = function (cs, pool) { var newPool = new AttributePool(); var newCs = exports.moveOpsToNewPool(cs, pool, newPool); return { translated: newCs, pool: newPool }; }; /** * Checks if a changeset s the identity changeset */ exports.isIdentity = function (cs) { var unpacked = exports.unpack(cs); return unpacked.ops == "" && unpacked.oldLen == unpacked.newLen; }; /** * returns all the values of attributes with a certain key * in an Op attribs string * @param attribs {string} Attribute string of a Op * @param key {string} string to be seached for * @param pool {AttribPool} attribute pool */ exports.opAttributeValue = function (op, key, pool) { return exports.attribsAttributeValue(op.attribs, key, pool); }; /** * returns all the values of attributes with a certain key * in an attribs string * @param attribs {string} Attribute string * @param key {string} string to be seached for * @param pool {AttribPool} attribute pool */ exports.attribsAttributeValue = function (attribs, key, pool) { var value = ''; if (attribs) { exports.eachAttribNumber(attribs, function (n) { if (pool.getAttribKey(n) == key) { value = pool.getAttribValue(n); } }); } return value; }; /** * Creates a Changeset builder for a string with initial * length oldLen. Allows to add/remove parts of it * @param oldLen {int} Old length */ exports.builder = function (oldLen) { var assem = exports.smartOpAssembler(); var o = exports.newOp(); var charBank = exports.stringAssembler(); var self = { // attribs are [[key1,value1],[key2,value2],...] or '*0*1...' (no pool needed in latter case) keep: function (N, L, attribs, pool) { o.opcode = '='; o.attribs = (attribs && exports.makeAttribsString('=', attribs, pool)) || ''; o.chars = N; o.lines = (L || 0); assem.append(o); return self; }, keepText: function (text, attribs, pool) { assem.appendOpWithText('=', text, attribs, pool); return self; }, insert: function (text, attribs, pool) { assem.appendOpWithText('+', text, attribs, pool); charBank.append(text); return self; }, remove: function (N, L) { o.opcode = '-'; o.attribs = ''; o.chars = N; o.lines = (L || 0); assem.append(o); return self; }, toString: function () { assem.endDocument(); var newLen = oldLen + assem.getLengthChange(); return exports.pack(oldLen, newLen, assem.toString(), charBank.toString()); } }; return self; }; exports.makeAttribsString = function (opcode, attribs, pool) { // makeAttribsString(opcode, '*3') or makeAttribsString(opcode, [['foo','bar']], myPool) work if (!attribs) { return ''; } else if ((typeof attribs) == "string") { return attribs; } else if (pool && attribs && attribs.length) { if (attribs.length > 1) { attribs = attribs.slice(); attribs.sort(); } var result = []; for (var i = 0; i < attribs.length; i++) { var pair = attribs[i]; if (opcode == '=' || (opcode == '+' && pair[1])) { result.push('*' + exports.numToString(pool.putAttrib(pair))); } } return result.join(''); } }; // like "substring" but on a single-line attribution string exports.subattribution = function (astr, start, optEnd) { var iter = exports.opIterator(astr, 0); var assem = exports.smartOpAssembler(); var attOp = exports.newOp(); var csOp = exports.newOp(); var opOut = exports.newOp(); function doCsOp() { if (csOp.chars) { while (csOp.opcode && (attOp.opcode || iter.hasNext())) { if (!attOp.opcode) iter.next(attOp); if (csOp.opcode && attOp.opcode && csOp.chars >= attOp.chars && attOp.lines > 0 && csOp.lines <= 0) { csOp.lines++; } exports._slicerZipperFunc(attOp, csOp, opOut, null); if (opOut.opcode) { assem.append(opOut); opOut.opcode = ''; } } } } csOp.opcode = '-'; csOp.chars = start; doCsOp(); if (optEnd === undefined) { if (attOp.opcode) { assem.append(attOp); } while (iter.hasNext()) { iter.next(attOp); assem.append(attOp); } } else { csOp.opcode = '='; csOp.chars = optEnd - start; doCsOp(); } return assem.toString(); }; exports.inverse = function (cs, lines, alines, pool) { // lines and alines are what the exports is meant to apply to. // They may be arrays or objects with .get(i) and .length methods. // They include final newlines on lines. function lines_get(idx) { if (lines.get) { return lines.get(idx); } else { return lines[idx]; } } function alines_get(idx) { if (alines.get) { return alines.get(idx); } else { return alines[idx]; } } var curLine = 0; var curChar = 0; var curLineOpIter = null; var curLineOpIterLine; var curLineNextOp = exports.newOp('+'); var unpacked = exports.unpack(cs); var csIter = exports.opIterator(unpacked.ops); var builder = exports.builder(unpacked.newLen); function consumeAttribRuns(numChars, func /*(len, attribs, endsLine)*/ ) { if ((!curLineOpIter) || (curLineOpIterLine != curLine)) { // create curLineOpIter and advance it to curChar curLineOpIter = exports.opIterator(alines_get(curLine)); curLineOpIterLine = curLine; var indexIntoLine = 0; var done = false; while (!done && curLineOpIter.hasNext()) { curLineOpIter.next(curLineNextOp); if (indexIntoLine + curLineNextOp.chars >= curChar) { curLineNextOp.chars -= (curChar - indexIntoLine); done = true; } else { indexIntoLine += curLineNextOp.chars; } } } while (numChars > 0) { if ((!curLineNextOp.chars) && (!curLineOpIter.hasNext())) { curLine++; curChar = 0; curLineOpIterLine = curLine; curLineNextOp.chars = 0; curLineOpIter = exports.opIterator(alines_get(curLine)); } if (!curLineNextOp.chars) { curLineOpIter.next(curLineNextOp); } var charsToUse = Math.min(numChars, curLineNextOp.chars); func(charsToUse, curLineNextOp.attribs, charsToUse == curLineNextOp.chars && curLineNextOp.lines > 0); numChars -= charsToUse; curLineNextOp.chars -= charsToUse; curChar += charsToUse; } if ((!curLineNextOp.chars) && (!curLineOpIter.hasNext())) { curLine++; curChar = 0; } } function skip(N, L) { if (L) { curLine += L; curChar = 0; } else { if (curLineOpIter && curLineOpIterLine == curLine) { consumeAttribRuns(N, function () {}); } else { curChar += N; } } } function nextText(numChars) { var len = 0; var assem = exports.stringAssembler(); var firstString = lines_get(curLine).substring(curChar); len += firstString.length; assem.append(firstString); var lineNum = curLine + 1; while (len < numChars) { var nextString = lines_get(lineNum); len += nextString.length; assem.append(nextString); lineNum++; } return assem.toString().substring(0, numChars); } function cachedStrFunc(func) { var cache = {}; return function (s) { if (!cache[s]) { cache[s] = func(s); } return cache[s]; }; } var attribKeys = []; var attribValues = []; while (csIter.hasNext()) { var csOp = csIter.next(); if (csOp.opcode == '=') { if (csOp.attribs) { attribKeys.length = 0; attribValues.length = 0; exports.eachAttribNumber(csOp.attribs, function (n) { attribKeys.push(pool.getAttribKey(n)); attribValues.push(pool.getAttribValue(n)); }); var undoBackToAttribs = cachedStrFunc(function (attribs) { var backAttribs = []; for (var i = 0; i < attribKeys.length; i++) { var appliedKey = attribKeys[i]; var appliedValue = attribValues[i]; var oldValue = exports.attribsAttributeValue(attribs, appliedKey, pool); if (appliedValue != oldValue) { backAttribs.push([appliedKey, oldValue]); } } return exports.makeAttribsString('=', backAttribs, pool); }); consumeAttribRuns(csOp.chars, function (len, attribs, endsLine) { builder.keep(len, endsLine ? 1 : 0, undoBackToAttribs(attribs)); }); } else { skip(csOp.chars, csOp.lines); builder.keep(csOp.chars, csOp.lines); } } else if (csOp.opcode == '+') { builder.remove(csOp.chars, csOp.lines); } else if (csOp.opcode == '-') { var textBank = nextText(csOp.chars); var textBankIndex = 0; consumeAttribRuns(csOp.chars, function (len, attribs, endsLine) { builder.insert(textBank.substr(textBankIndex, len), attribs); textBankIndex += len; }); } } return exports.checkRep(builder.toString()); }; // %CLIENT FILE ENDS HERE% exports.follow = function (cs1, cs2, reverseInsertOrder, pool) { var unpacked1 = exports.unpack(cs1); var unpacked2 = exports.unpack(cs2); var len1 = unpacked1.oldLen; var len2 = unpacked2.oldLen; exports.assert(len1 == len2, "mismatched follow - cannot transform cs1 on top of cs2"); var chars1 = exports.stringIterator(unpacked1.charBank); var chars2 = exports.stringIterator(unpacked2.charBank); var oldLen = unpacked1.newLen; var oldPos = 0; var newLen = 0; var hasInsertFirst = exports.attributeTester(['insertorder', 'first'], pool); var newOps = exports.applyZip(unpacked1.ops, 0, unpacked2.ops, 0, function (op1, op2, opOut) { if (op1.opcode == '+' || op2.opcode == '+') { var whichToDo; if (op2.opcode != '+') { whichToDo = 1; } else if (op1.opcode != '+') { whichToDo = 2; } else { // both + var firstChar1 = chars1.peek(1); var firstChar2 = chars2.peek(1); var insertFirst1 = hasInsertFirst(op1.attribs); var insertFirst2 = hasInsertFirst(op2.attribs); if (insertFirst1 && !insertFirst2) { whichToDo = 1; } else if (insertFirst2 && !insertFirst1) { whichToDo = 2; } // insert string that doesn't start with a newline first so as not to break up lines else if (firstChar1 == '\n' && firstChar2 != '\n') { whichToDo = 2; } else if (firstChar1 != '\n' && firstChar2 == '\n') { whichToDo = 1; } // break symmetry: else if (reverseInsertOrder) { whichToDo = 2; } else { whichToDo = 1; } } if (whichToDo == 1) { chars1.skip(op1.chars); opOut.opcode = '='; opOut.lines = op1.lines; opOut.chars = op1.chars; opOut.attribs = ''; op1.opcode = ''; } else { // whichToDo == 2 chars2.skip(op2.chars); exports.copyOp(op2, opOut); op2.opcode = ''; } } else if (op1.opcode == '-') { if (!op2.opcode) { op1.opcode = ''; } else { if (op1.chars <= op2.chars) { op2.chars -= op1.chars; op2.lines -= op1.lines; op1.opcode = ''; if (!op2.chars) { op2.opcode = ''; } } else { op1.chars -= op2.chars; op1.lines -= op2.lines; op2.opcode = ''; } } } else if (op2.opcode == '-') { exports.copyOp(op2, opOut); if (!op1.opcode) { op2.opcode = ''; } else if (op2.chars <= op1.chars) { // delete part or all of a keep op1.chars -= op2.chars; op1.lines -= op2.lines; op2.opcode = ''; if (!op1.chars) { op1.opcode = ''; } } else { // delete all of a keep, and keep going opOut.lines = op1.lines; opOut.chars = op1.chars; op2.lines -= op1.lines; op2.chars -= op1.chars; op1.opcode = ''; } } else if (!op1.opcode) { exports.copyOp(op2, opOut); op2.opcode = ''; } else if (!op2.opcode) { // @NOTE: Critical bugfix for EPL issue #1625. We do not copy op1 here // in order to prevent attributes from leaking into result changesets. // exports.copyOp(op1, opOut); op1.opcode = ''; } else { // both keeps opOut.opcode = '='; opOut.attribs = exports.followAttributes(op1.attribs, op2.attribs, pool); if (op1.chars <= op2.chars) { opOut.chars = op1.chars; opOut.lines = op1.lines; op2.chars -= op1.chars; op2.lines -= op1.lines; op1.opcode = ''; if (!op2.chars) { op2.opcode = ''; } } else { opOut.chars = op2.chars; opOut.lines = op2.lines; op1.chars -= op2.chars; op1.lines -= op2.lines; op2.opcode = ''; } } switch (opOut.opcode) { case '=': oldPos += opOut.chars; newLen += opOut.chars; break; case '-': oldPos += opOut.chars; break; case '+': newLen += opOut.chars; break; } }); newLen += oldLen - oldPos; return exports.pack(oldLen, newLen, newOps, unpacked2.charBank); }; exports.followAttributes = function (att1, att2, pool) { // The merge of two sets of attribute changes to the same text // takes the lexically-earlier value if there are two values // for the same key. Otherwise, all key/value changes from // both attribute sets are taken. This operation is the "follow", // so a set of changes is produced that can be applied to att1 // to produce the merged set. if ((!att2) || (!pool)) return ''; if (!att1) return att2; var atts = []; att2.replace(/\*([0-9a-z]+)/g, function (_, a) { atts.push(pool.getAttrib(exports.parseNum(a))); return ''; }); att1.replace(/\*([0-9a-z]+)/g, function (_, a) { var pair1 = pool.getAttrib(exports.parseNum(a)); for (var i = 0; i < atts.length; i++) { var pair2 = atts[i]; if (pair1[0] == pair2[0]) { if (pair1[1] <= pair2[1]) { // winner of merge is pair1, delete this attribute atts.splice(i, 1); } break; } } return ''; }); // we've only removed attributes, so they're already sorted var buf = exports.stringAssembler(); for (var i = 0; i < atts.length; i++) { buf.append('*'); buf.append(exports.numToString(pool.putAttrib(atts[i]))); } return buf.toString(); }; exports.composeWithDeletions = function (cs1, cs2, pool) { var unpacked1 = exports.unpack(cs1); var unpacked2 = exports.unpack(cs2); var len1 = unpacked1.oldLen; var len2 = unpacked1.newLen; exports.assert(len2 == unpacked2.oldLen, "mismatched composition of two changesets"); var len3 = unpacked2.newLen; var bankIter1 = exports.stringIterator(unpacked1.charBank); var bankIter2 = exports.stringIterator(unpacked2.charBank); var bankAssem = exports.stringAssembler(); var newOps = exports.applyZip(unpacked1.ops, 0, unpacked2.ops, 0, function (op1, op2, opOut) { var op1code = op1.opcode; var op2code = op2.opcode; if (op1code == '+' && op2code == '-') { bankIter1.skip(Math.min(op1.chars, op2.chars)); } exports._slicerZipperFuncWithDeletions(op1, op2, opOut, pool); if (opOut.opcode == '+') { if (op2code == '+') { bankAssem.append(bankIter2.take(opOut.chars)); } else { bankAssem.append(bankIter1.take(opOut.chars)); } } }); return exports.pack(len1, len3, newOps, bankAssem.toString()); }; // This function is 95% like _slicerZipperFunc, we just changed two lines to ensure it merges the attribs of deletions properly. // This is necassary for correct paddiff. But to ensure these changes doesn't affect anything else, we've created a seperate function only used for paddiffs exports._slicerZipperFuncWithDeletions= function (attOp, csOp, opOut, pool) { // attOp is the op from the sequence that is being operated on, either an // attribution string or the earlier of two exportss being composed. // pool can be null if definitely not needed. //print(csOp.toSource()+" "+attOp.toSource()+" "+opOut.toSource()); if (attOp.opcode == '-') { exports.copyOp(attOp, opOut); attOp.opcode = ''; } else if (!attOp.opcode) { exports.copyOp(csOp, opOut); csOp.opcode = ''; } else { switch (csOp.opcode) { case '-': { if (csOp.chars <= attOp.chars) { // delete or delete part if (attOp.opcode == '=') { opOut.opcode = '-'; opOut.chars = csOp.chars; opOut.lines = csOp.lines; opOut.attribs = csOp.attribs; //changed by yammer } attOp.chars -= csOp.chars; attOp.lines -= csOp.lines; csOp.opcode = ''; if (!attOp.chars) { attOp.opcode = ''; } } else { // delete and keep going if (attOp.opcode == '=') { opOut.opcode = '-'; opOut.chars = attOp.chars; opOut.lines = attOp.lines; opOut.attribs = csOp.attribs; //changed by yammer } csOp.chars -= attOp.chars; csOp.lines -= attOp.lines; attOp.opcode = ''; } break; } case '+': { // insert exports.copyOp(csOp, opOut); csOp.opcode = ''; break; } case '=': { if (csOp.chars <= attOp.chars) { // keep or keep part opOut.opcode = attOp.opcode; opOut.chars = csOp.chars; opOut.lines = csOp.lines; opOut.attribs = exports.composeAttributes(attOp.attribs, csOp.attribs, attOp.opcode == '=', pool); csOp.opcode = ''; attOp.chars -= csOp.chars; attOp.lines -= csOp.lines; if (!attOp.chars) { attOp.opcode = ''; } } else { // keep and keep going opOut.opcode = attOp.opcode; opOut.chars = attOp.chars; opOut.lines = attOp.lines; opOut.attribs = exports.composeAttributes(attOp.attribs, csOp.attribs, attOp.opcode == '=', pool); attOp.opcode = ''; csOp.chars -= attOp.chars; csOp.lines -= attOp.lines; } break; } case '': { exports.copyOp(attOp, opOut); attOp.opcode = ''; break; } } } };