/* xpath.js - Revision: Spry Preview Release 1.2 */ // Copyright (c) 2005, Google Inc. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // // * Redistributions in binary form must reproduce the above copyright // notice, this list of conditions and the following disclaimer in the // documentation and/or other materials provided with the // distribution. // // * Neither the name of Google Inc. nor the names of its contributors // may be used to endorse or promote products derived from this // software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // An XPath parser and evaluator written in JavaScript. The // implementation is complete except for functions handling // namespaces. // // Reference: [XPATH] XPath Specification // . // // // The API of the parser has several parts: // // 1. The parser function xpathParse() that takes a string and returns // an expession object. // // 2. The expression object that has an evaluate() method to evaluate the // XPath expression it represents. (It is actually a hierarchy of // objects that resembles the parse tree, but an application will call // evaluate() only on the top node of this hierarchy.) // // 3. The context object that is passed as an argument to the evaluate() // method, which represents the DOM context in which the expression is // evaluated. // // 4. The value object that is returned from evaluate() and represents // values of the different types that are defined by XPath (number, // string, boolean, and node-set), and allows to convert between them. // // These parts are near the top of the file, the functions and data // that are used internally follow after them. // // // TODO(mesch): add jsdoc comments. Use more coherent naming. // // // Author: Steffen Meschkat // The entry point for the parser. // // @param expr a string that contains an XPath expression. // @return an expression object that can be evaluated with an // expression context. function xpathParse(expr) { if (xpathdebug) { Log.write('XPath parse ' + expr); } xpathParseInit(); var cached = xpathCacheLookup(expr); if (cached) { if (xpathdebug) { Log.write(' ... cached'); } return cached; } // Optimize for a few common cases: simple attribute node tests // (@id), simple element node tests (page), variable references // ($address), numbers (4), multi-step path expressions where each // step is a plain element node test // (page/overlay/locations/location). if (expr.match(/^(\$|@)?\w+$/i)) { var ret = makeSimpleExpr(expr); xpathParseCache[expr] = ret; if (xpathdebug) { Log.write(' ... simple'); } return ret; } if (expr.match(/^\w+(\/\w+)*$/i)) { var ret = makeSimpleExpr2(expr); xpathParseCache[expr] = ret; if (xpathdebug) { Log.write(' ... simple 2'); } return ret; } var cachekey = expr; // expr is modified during parse if (xpathdebug) { Timer.start('XPath parse', cachekey); } var stack = []; var ahead = null; var previous = null; var done = false; var parse_count = 0; var lexer_count = 0; var reduce_count = 0; while (!done) { parse_count++; expr = expr.replace(/^\s*/, ''); previous = ahead; ahead = null; var rule = null; var match = ''; for (var i = 0; i < xpathTokenRules.length; ++i) { var result = xpathTokenRules[i].re.exec(expr); lexer_count++; if (result && result.length > 0 && result[0].length > match.length) { rule = xpathTokenRules[i]; match = result[0]; break; } } // Special case: allow operator keywords to be element and // variable names. // NOTE(mesch): The parser resolves conflicts by looking ahead, // and this is the only case where we look back to // disambiguate. So this is indeed something different, and // looking back is usually done in the lexer (via states in the // general case, called "start conditions" in flex(1)). Also,the // conflict resolution in the parser is not as robust as it could // be, so I'd like to keep as much off the parser as possible (all // these precedence values should be computed from the grammar // rules and possibly associativity declarations, as in bison(1), // and not explicitly set. if (rule && (rule == TOK_DIV || rule == TOK_MOD || rule == TOK_AND || rule == TOK_OR) && (!previous || previous.tag == TOK_AT || previous.tag == TOK_DSLASH || previous.tag == TOK_SLASH || previous.tag == TOK_AXIS || previous.tag == TOK_DOLLAR)) { rule = TOK_QNAME; } if (rule) { expr = expr.substr(match.length); if (xpathdebug) { Log.write('token: ' + match + ' -- ' + rule.label); } ahead = { tag: rule, match: match, prec: rule.prec ? rule.prec : 0, // || 0 is removed by the compiler expr: makeTokenExpr(match) }; } else { if (xpathdebug) { Log.write('DONE'); } done = true; } while (xpathReduce(stack, ahead)) { reduce_count++; if (xpathdebug) { Log.write('stack: ' + stackToString(stack)); } } } if (xpathdebug) { Log.write(stackToString(stack)); } if (stack.length != 1) { throw 'XPath parse error ' + cachekey + ':\n' + stackToString(stack); } var result = stack[0].expr; xpathParseCache[cachekey] = result; if (xpathdebug) { Timer.end('XPath parse', cachekey); } if (xpathdebug) { Log.write('XPath parse: ' + parse_count + ' / ' + lexer_count + ' / ' + reduce_count); } return result; } var xpathParseCache = {}; function xpathCacheLookup(expr) { return xpathParseCache[expr]; } function xpathReduce(stack, ahead) { var cand = null; if (stack.length > 0) { var top = stack[stack.length-1]; var ruleset = xpathRules[top.tag.key]; if (ruleset) { for (var i = 0; i < ruleset.length; ++i) { var rule = ruleset[i]; var match = xpathMatchStack(stack, rule[1]); if (match.length) { cand = { tag: rule[0], rule: rule, match: match }; cand.prec = xpathGrammarPrecedence(cand); break; } } } } var ret; if (cand && (!ahead || cand.prec > ahead.prec || (ahead.tag.left && cand.prec >= ahead.prec))) { for (var i = 0; i < cand.match.matchlength; ++i) { stack.pop(); } if (xpathdebug) { Log.write('reduce ' + cand.tag.label + ' ' + cand.prec + ' ahead ' + (ahead ? ahead.tag.label + ' ' + ahead.prec + (ahead.tag.left ? ' left' : '') : ' none ')); } var matchexpr = mapExpr(cand.match, function(m) { return m.expr; }); cand.expr = cand.rule[3].apply(null, matchexpr); stack.push(cand); ret = true; } else { if (ahead) { if (xpathdebug) { Log.write('shift ' + ahead.tag.label + ' ' + ahead.prec + (ahead.tag.left ? ' left' : '') + ' over ' + (cand ? cand.tag.label + ' ' + cand.prec : ' none')); } stack.push(ahead); } ret = false; } return ret; } function xpathMatchStack(stack, pattern) { // NOTE(mesch): The stack matches for variable cardinality are // greedy but don't do backtracking. This would be an issue only // with rules of the form A* A, i.e. with an element with variable // cardinality followed by the same element. Since that doesn't // occur in the grammar at hand, all matches on the stack are // unambiguous. var S = stack.length; var P = pattern.length; var p, s; var match = []; match.matchlength = 0; var ds = 0; for (p = P - 1, s = S - 1; p >= 0 && s >= 0; --p, s -= ds) { ds = 0; var qmatch = []; if (pattern[p] == Q_MM) { p -= 1; match.push(qmatch); while (s - ds >= 0 && stack[s - ds].tag == pattern[p]) { qmatch.push(stack[s - ds]); ds += 1; match.matchlength += 1; } } else if (pattern[p] == Q_01) { p -= 1; match.push(qmatch); while (s - ds >= 0 && ds < 2 && stack[s - ds].tag == pattern[p]) { qmatch.push(stack[s - ds]); ds += 1; match.matchlength += 1; } } else if (pattern[p] == Q_1M) { p -= 1; match.push(qmatch); if (stack[s].tag == pattern[p]) { while (s - ds >= 0 && stack[s - ds].tag == pattern[p]) { qmatch.push(stack[s - ds]); ds += 1; match.matchlength += 1; } } else { return []; } } else if (stack[s].tag == pattern[p]) { match.push(stack[s]); ds += 1; match.matchlength += 1; } else { return []; } reverseInplace(qmatch); qmatch.expr = mapExpr(qmatch, function(m) { return m.expr; }); } reverseInplace(match); if (p == -1) { return match; } else { return []; } } function xpathTokenPrecedence(tag) { return tag.prec || 2; } function xpathGrammarPrecedence(frame) { var ret = 0; if (frame.rule) { /* normal reduce */ if (frame.rule.length >= 3 && frame.rule[2] >= 0) { ret = frame.rule[2]; } else { for (var i = 0; i < frame.rule[1].length; ++i) { var p = xpathTokenPrecedence(frame.rule[1][i]); ret = Math.max(ret, p); } } } else if (frame.tag) { /* TOKEN match */ ret = xpathTokenPrecedence(frame.tag); } else if (frame.length) { /* Q_ match */ for (var j = 0; j < frame.length; ++j) { var p = xpathGrammarPrecedence(frame[j]); ret = Math.max(ret, p); } } return ret; } function stackToString(stack) { var ret = ''; for (var i = 0; i < stack.length; ++i) { if (ret) { ret += '\n'; } ret += stack[i].tag.label; } return ret; } // XPath expression evaluation context. An XPath context consists of a // DOM node, a list of DOM nodes that contains this node, a number // that represents the position of the single node in the list, and a // current set of variable bindings. (See XPath spec.) // // The interface of the expression context: // // Constructor -- gets the node, its position, the node set it // belongs to, and a parent context as arguments. The parent context // is used to implement scoping rules for variables: if a variable // is not found in the current context, it is looked for in the // parent context, recursively. Except for node, all arguments have // default values: default position is 0, default node set is the // set that contains only the node, and the default parent is null. // // Notice that position starts at 0 at the outside interface; // inside XPath expressions this shows up as position()=1. // // clone() -- creates a new context with the current context as // parent. If passed as argument to clone(), the new context has a // different node, position, or node set. What is not passed is // inherited from the cloned context. // // setVariable(name, expr) -- binds given XPath expression to the // name. // // getVariable(name) -- what the name says. // // setNode(node, position) -- sets the context to the new node and // its corresponding position. Needed to implement scoping rules for // variables in XPath. (A variable is visible to all subsequent // siblings, not only to its children.) function ExprContext(node, position, nodelist, parent) { this.node = node; this.position = position || 0; this.nodelist = nodelist || [ node ]; this.variables = {}; this.parent = parent || null; this.root = parent ? parent.root : node.ownerDocument; } ExprContext.prototype.clone = function(node, position, nodelist) { return new ExprContext(node || this.node, typeof position != 'undefined' ? position : this.position, nodelist || this.nodelist, this); }; ExprContext.prototype.setVariable = function(name, value) { this.variables[name] = value; }; ExprContext.prototype.getVariable = function(name) { if (typeof this.variables[name] != 'undefined') { return this.variables[name]; } else if (this.parent) { return this.parent.getVariable(name); } else { return null; } } ExprContext.prototype.setNode = function(node, position) { this.node = node; this.position = position; } // XPath expression values. They are what XPath expressions evaluate // to. Strangely, the different value types are not specified in the // XPath syntax, but only in the semantics, so they don't show up as // nonterminals in the grammar. Yet, some expressions are required to // evaluate to particular types, and not every type can be coerced // into every other type. Although the types of XPath values are // similar to the types present in JavaScript, the type coercion rules // are a bit peculiar, so we explicitly model XPath types instead of // mapping them onto JavaScript types. (See XPath spec.) // // The four types are: // // StringValue // // NumberValue // // BooleanValue // // NodeSetValue // // The common interface of the value classes consists of methods that // implement the XPath type coercion rules: // // stringValue() -- returns the value as a JavaScript String, // // numberValue() -- returns the value as a JavaScript Number, // // booleanValue() -- returns the value as a JavaScript Boolean, // // nodeSetValue() -- returns the value as a JavaScript Array of DOM // Node objects. // function StringValue(value) { this.value = value; this.type = 'string'; } StringValue.prototype.stringValue = function() { return this.value; } StringValue.prototype.booleanValue = function() { return this.value.length > 0; } StringValue.prototype.numberValue = function() { return this.value - 0; } StringValue.prototype.nodeSetValue = function() { throw this + ' ' + Error().stack; } function BooleanValue(value) { this.value = value; this.type = 'boolean'; } BooleanValue.prototype.stringValue = function() { return '' + this.value; } BooleanValue.prototype.booleanValue = function() { return this.value; } BooleanValue.prototype.numberValue = function() { return this.value ? 1 : 0; } BooleanValue.prototype.nodeSetValue = function() { throw this + ' ' + Error().stack; } function NumberValue(value) { this.value = value; this.type = 'number'; } NumberValue.prototype.stringValue = function() { return '' + this.value; } NumberValue.prototype.booleanValue = function() { return !!this.value; } NumberValue.prototype.numberValue = function() { return this.value - 0; } NumberValue.prototype.nodeSetValue = function() { throw this + ' ' + Error().stack; } function NodeSetValue(value) { this.value = value; this.type = 'node-set'; } NodeSetValue.prototype.stringValue = function() { if (this.value.length == 0) { return ''; } else { return xmlValue(this.value[0]); } } NodeSetValue.prototype.booleanValue = function() { return this.value.length > 0; } NodeSetValue.prototype.numberValue = function() { return this.stringValue() - 0; } NodeSetValue.prototype.nodeSetValue = function() { return this.value; }; // XPath expressions. They are used as nodes in the parse tree and // possess an evaluate() method to compute an XPath value given an XPath // context. Expressions are returned from the parser. Teh set of // expression classes closely mirrors the set of non terminal symbols // in the grammar. Every non trivial nonterminal symbol has a // corresponding expression class. // // The common expression interface consists of the following methods: // // evaluate(context) -- evaluates the expression, returns a value. // // toString() -- returns the XPath text representation of the // expression (defined in xsltdebug.js). // // parseTree(indent) -- returns a parse tree representation of the // expression (defined in xsltdebug.js). function TokenExpr(m) { this.value = m; } TokenExpr.prototype.evaluate = function() { return new StringValue(this.value); }; function LocationExpr() { this.absolute = false; this.steps = []; } LocationExpr.prototype.appendStep = function(s) { this.steps.push(s); } LocationExpr.prototype.prependStep = function(s) { var steps0 = this.steps; this.steps = [ s ]; for (var i = 0; i < steps0.length; ++i) { this.steps.push(steps0[i]); } }; LocationExpr.prototype.evaluate = function(ctx) { var start; if (this.absolute) { start = ctx.root; } else { start = ctx.node; } var nodes = []; xPathStep(nodes, this.steps, 0, start, ctx); return new NodeSetValue(nodes); }; function xPathStep(nodes, steps, step, input, ctx) { var s = steps[step]; var ctx2 = ctx.clone(input); var nodelist = s.evaluate(ctx2).nodeSetValue(); for (var i = 0; i < nodelist.length; ++i) { if (step == steps.length - 1) { nodes.push(nodelist[i]); } else { xPathStep(nodes, steps, step + 1, nodelist[i], ctx); } } } function StepExpr(axis, nodetest, predicate) { this.axis = axis; this.nodetest = nodetest; this.predicate = predicate || []; } StepExpr.prototype.appendPredicate = function(p) { this.predicate.push(p); } StepExpr.prototype.evaluate = function(ctx) { var input = ctx.node; var nodelist = []; // NOTE(mesch): When this was a switch() statement, it didn't work // in Safari/2.0. Not sure why though; it resulted in the JavaScript // console output "undefined" (without any line number or so). if (this.axis == xpathAxis.ANCESTOR_OR_SELF) { nodelist.push(input); for (var n = input.parentNode; n; n = input.parentNode) { nodelist.push(n); } } else if (this.axis == xpathAxis.ANCESTOR) { for (var n = input.parentNode; n; n = input.parentNode) { nodelist.push(n); } } else if (this.axis == xpathAxis.ATTRIBUTE) { copyArray(nodelist, input.attributes); } else if (this.axis == xpathAxis.CHILD) { copyArray(nodelist, input.childNodes); } else if (this.axis == xpathAxis.DESCENDANT_OR_SELF) { nodelist.push(input); xpathCollectDescendants(nodelist, input); } else if (this.axis == xpathAxis.DESCENDANT) { xpathCollectDescendants(nodelist, input); } else if (this.axis == xpathAxis.FOLLOWING) { for (var n = input.parentNode; n; n = n.parentNode) { for (var nn = n.nextSibling; nn; nn = nn.nextSibling) { nodelist.push(nn); xpathCollectDescendants(nodelist, nn); } } } else if (this.axis == xpathAxis.FOLLOWING_SIBLING) { for (var n = input.nextSibling; n; n = input.nextSibling) { nodelist.push(n); } } else if (this.axis == xpathAxis.NAMESPACE) { alert('not implemented: axis namespace'); } else if (this.axis == xpathAxis.PARENT) { if (input.parentNode) { nodelist.push(input.parentNode); } } else if (this.axis == xpathAxis.PRECEDING) { for (var n = input.parentNode; n; n = n.parentNode) { for (var nn = n.previousSibling; nn; nn = nn.previousSibling) { nodelist.push(nn); xpathCollectDescendantsReverse(nodelist, nn); } } } else if (this.axis == xpathAxis.PRECEDING_SIBLING) { for (var n = input.previousSibling; n; n = input.previousSibling) { nodelist.push(n); } } else if (this.axis == xpathAxis.SELF) { nodelist.push(input); } else { throw 'ERROR -- NO SUCH AXIS: ' + this.axis; } // process node test var nodelist0 = nodelist; nodelist = []; for (var i = 0; i < nodelist0.length; ++i) { var n = nodelist0[i]; if (this.nodetest.evaluate(ctx.clone(n, i, nodelist0)).booleanValue()) { nodelist.push(n); } } // process predicates for (var i = 0; i < this.predicate.length; ++i) { var nodelist0 = nodelist; nodelist = []; for (var ii = 0; ii < nodelist0.length; ++ii) { var n = nodelist0[ii]; if (this.predicate[i].evaluate(ctx.clone(n, ii, nodelist0)).booleanValue()) { nodelist.push(n); } } } return new NodeSetValue(nodelist); }; function NodeTestAny() { this.value = new BooleanValue(true); } NodeTestAny.prototype.evaluate = function(ctx) { return this.value; }; function NodeTestElement() {} NodeTestElement.prototype.evaluate = function(ctx) { return new BooleanValue(ctx.node.nodeType == DOM_ELEMENT_NODE); } function NodeTestText() {} NodeTestText.prototype.evaluate = function(ctx) { return new BooleanValue(ctx.node.nodeType == DOM_TEXT_NODE); } function NodeTestComment() {} NodeTestComment.prototype.evaluate = function(ctx) { return new BooleanValue(ctx.node.nodeType == DOM_COMMENT_NODE); } function NodeTestPI(target) { this.target = target; } NodeTestPI.prototype.evaluate = function(ctx) { return new BooleanValue(ctx.node.nodeType == DOM_PROCESSING_INSTRUCTION_NODE && (!this.target || ctx.node.nodeName == this.target)); } function NodeTestNC(nsprefix) { this.regex = new RegExp("^" + nsprefix + ":"); this.nsprefix = nsprefix; } NodeTestNC.prototype.evaluate = function(ctx) { var n = ctx.node; return new BooleanValue(this.regex.match(n.nodeName)); } function NodeTestName(name) { this.name = name; } NodeTestName.prototype.evaluate = function(ctx) { var n = ctx.node; return new BooleanValue(n.nodeName == this.name); } function PredicateExpr(expr) { this.expr = expr; } PredicateExpr.prototype.evaluate = function(ctx) { var v = this.expr.evaluate(ctx); if (v.type == 'number') { // NOTE(mesch): Internally, position is represented starting with // 0, however in XPath position starts with 1. See functions // position() and last(). return new BooleanValue(ctx.position == v.numberValue() - 1); } else { return new BooleanValue(v.booleanValue()); } }; function FunctionCallExpr(name) { this.name = name; this.args = []; } FunctionCallExpr.prototype.appendArg = function(arg) { this.args.push(arg); }; FunctionCallExpr.prototype.evaluate = function(ctx) { var fn = '' + this.name.value; var f = this.xpathfunctions[fn]; if (f) { return f.call(this, ctx); } else { Log.write('XPath NO SUCH FUNCTION ' + fn); return new BooleanValue(false); } }; FunctionCallExpr.prototype.xpathfunctions = { 'last': function(ctx) { assert(this.args.length == 0); // NOTE(mesch): XPath position starts at 1. return new NumberValue(ctx.nodelist.length); }, 'position': function(ctx) { assert(this.args.length == 0); // NOTE(mesch): XPath position starts at 1. return new NumberValue(ctx.position + 1); }, 'count': function(ctx) { assert(this.args.length == 1); var v = this.args[0].evaluate(ctx); return new NumberValue(v.nodeSetValue().length); }, 'id': function(ctx) { assert(this.args.length == 1); var e = this.args.evaluate(ctx); var ret = []; var ids; if (e.type == 'node-set') { ids = []; for (var i = 0; i < e.length; ++i) { var v = xmlValue(e[i]).split(/\s+/); for (var ii = 0; ii < v.length; ++ii) { ids.push(v[ii]); } } } else { ids = e.split(/\s+/); } var d = ctx.node.ownerDocument; for (var i = 0; i < ids.length; ++i) { var n = d.getElementById(ids[i]); if (n) { ret.push(n); } } return new NodeSetValue(ret); }, 'local-name': function(ctx) { alert('not implmented yet: XPath function local-name()'); }, 'namespace-uri': function(ctx) { alert('not implmented yet: XPath function namespace-uri()'); }, 'name': function(ctx) { assert(this.args.length == 1 || this.args.length == 0); var n; if (this.args.length == 0) { n = [ ctx.node ]; } else { n = this.args[0].evaluate(ctx).nodeSetValue(); } if (n.length == 0) { return new StringValue(''); } else { return new StringValue(n[0].nodeName); } }, 'string': function(ctx) { assert(this.args.length == 1 || this.args.length == 0); if (this.args.length == 0) { return new StringValue(new NodeSetValue([ ctx.node ]).stringValue()); } else { return new StringValue(this.args[0].evaluate(ctx).stringValue()); } }, 'concat': function(ctx) { var ret = ''; for (var i = 0; i < this.args.length; ++i) { ret += this.args[i].evaluate(ctx).stringValue(); } return new StringValue(ret); }, 'starts-with': function(ctx) { assert(this.args.length == 2); var s0 = this.args[0].evaluate(ctx).stringValue(); var s1 = this.args[1].evaluate(ctx).stringValue(); return new BooleanValue(s0.indexOf(s1) == 0); }, 'contains': function(ctx) { assert(this.args.length == 2); var s0 = this.args[0].evaluate(ctx).stringValue(); var s1 = this.args[1].evaluate(ctx).stringValue(); return new BooleanValue(s0.indexOf(s1) != -1); }, 'substring-before': function(ctx) { assert(this.args.length == 2); var s0 = this.args[0].evaluate(ctx).stringValue(); var s1 = this.args[1].evaluate(ctx).stringValue(); var i = s0.indexOf(s1); var ret; if (i == -1) { ret = ''; } else { ret = s0.substr(0,i); } return new StringValue(ret); }, 'substring-after': function(ctx) { assert(this.args.length == 2); var s0 = this.args[0].evaluate(ctx).stringValue(); var s1 = this.args[1].evaluate(ctx).stringValue(); var i = s0.indexOf(s1); var ret; if (i == -1) { ret = ''; } else { ret = s0.substr(i + s1.length); } return new StringValue(ret); }, 'substring': function(ctx) { // NOTE: XPath defines the position of the first character in a // string to be 1, in JavaScript this is 0 ([XPATH] Section 4.2). assert(this.args.length == 2 || this.args.length == 3); var s0 = this.args[0].evaluate(ctx).stringValue(); var s1 = this.args[1].evaluate(ctx).numberValue(); var ret; if (this.args.length == 2) { var i1 = Math.max(0, Math.round(s1) - 1); ret = s0.substr(i1); } else { var s2 = this.args[2].evaluate(ctx).numberValue(); var i0 = Math.round(s1) - 1; var i1 = Math.max(0, i0); var i2 = Math.round(s2) - Math.max(0, -i0); ret = s0.substr(i1, i2); } return new StringValue(ret); }, 'string-length': function(ctx) { var s; if (this.args.length > 0) { s = this.args[0].evaluate(ctx).stringValue(); } else { s = new NodeSetValue([ ctx.node ]).stringValue(); } return new NumberValue(s.length); }, 'normalize-space': function(ctx) { var s; if (this.args.length > 0) { s = this.args[0].evaluate(ctx).stringValue(); } else { s = new NodeSetValue([ ctx.node ]).stringValue(); } s = s.replace(/^\s*/,'').replace(/\s*$/,'').replace(/\s+/g, ' '); return new StringValue(s); }, 'translate': function(ctx) { assert(this.args.length == 3); var s0 = this.args[0].evaluate(ctx).stringValue(); var s1 = this.args[1].evaluate(ctx).stringValue(); var s2 = this.args[2].evaluate(ctx).stringValue(); for (var i = 0; i < s1.length; ++i) { s0 = s0.replace(new RegExp(s1.charAt(i), 'g'), s2.charAt(i)); } return new StringValue(s0); }, 'boolean': function(ctx) { assert(this.args.length == 1); return new BooleanValue(this.args[0].evaluate(ctx).booleanValue()); }, 'not': function(ctx) { assert(this.args.length == 1); var ret = !this.args[0].evaluate(ctx).booleanValue(); return new BooleanValue(ret); }, 'true': function(ctx) { assert(this.args.length == 0); return new BooleanValue(true); }, 'false': function(ctx) { assert(this.args.length == 0); return new BooleanValue(false); }, 'lang': function(ctx) { assert(this.args.length == 1); var lang = this.args[0].evaluate(ctx).stringValue(); var xmllang; var n = ctx.node; while (n && n != n.parentNode /* just in case ... */) { xmllang = n.getAttribute('xml:lang'); if (xmllang) { break; } n = n.parentNode; } if (!xmllang) { return new BooleanValue(false); } else { var re = new RegExp('^' + lang + '$', 'i'); return new BooleanValue(xmllang.match(re) || xmllang.replace(/_.*$/,'').match(re)); } }, 'number': function(ctx) { assert(this.args.length == 1 || this.args.length == 0); if (this.args.length == 1) { return new NumberValue(this.args[0].evaluate(ctx).numberValue()); } else { return new NumberValue(new NodeSetValue([ ctx.node ]).numberValue()); } }, 'sum': function(ctx) { assert(this.args.length == 1); var n = this.args[0].evaluate(ctx).nodeSetValue(); var sum = 0; for (var i = 0; i < n.length; ++i) { sum += xmlValue(n[i]) - 0; } return new NumberValue(sum); }, 'floor': function(ctx) { assert(this.args.length == 1); var num = this.args[0].evaluate(ctx).numberValue(); return new NumberValue(Math.floor(num)); }, 'ceiling': function(ctx) { assert(this.args.length == 1); var num = this.args[0].evaluate(ctx).numberValue(); return new NumberValue(Math.ceil(num)); }, 'round': function(ctx) { assert(this.args.length == 1); var num = this.args[0].evaluate(ctx).numberValue(); return new NumberValue(Math.round(num)); }, // TODO(mesch): The following functions are custom. There is a // standard that defines how to add functions, which should be // applied here. 'ext-join': function(ctx) { assert(this.args.length == 2); var nodes = this.args[0].evaluate(ctx).nodeSetValue(); var delim = this.args[1].evaluate(ctx).stringValue(); var ret = ''; for (var i = 0; i < nodes.length; ++i) { if (ret) { ret += delim; } ret += xmlValue(nodes[i]); } return new StringValue(ret); }, // ext-if() evaluates and returns its second argument, if the // boolean value of its first argument is true, otherwise it // evaluates and returns its third argument. 'ext-if': function(ctx) { assert(this.args.length == 3); if (this.args[0].evaluate(ctx).booleanValue()) { return this.args[1].evaluate(ctx); } else { return this.args[2].evaluate(ctx); } }, 'ext-sprintf': function(ctx) { assert(this.args.length >= 1); var args = []; for (var i = 0; i < this.args.length; ++i) { args.push(this.args[i].evaluate(ctx).stringValue()); } return new StringValue(sprintf.apply(null, args)); }, // ext-cardinal() evaluates its single argument as a number, and // returns the current node that many times. It can be used in the // select attribute to iterate over an integer range. 'ext-cardinal': function(ctx) { assert(this.args.length >= 1); var c = this.args[0].evaluate(ctx).numberValue(); var ret = []; for (var i = 0; i < c; ++i) { ret.push(ctx.node); } return new NodeSetValue(ret); } }; function UnionExpr(expr1, expr2) { this.expr1 = expr1; this.expr2 = expr2; } UnionExpr.prototype.evaluate = function(ctx) { var nodes1 = this.expr1.evaluate(ctx).nodeSetValue(); var nodes2 = this.expr2.evaluate(ctx).nodeSetValue(); var I1 = nodes1.length; for (var i2 = 0; i2 < nodes2.length; ++i2) { for (var i1 = 0; i1 < I1; ++i1) { if (nodes1[i1] == nodes2[i2]) { // break inner loop and continue outer loop, labels confuse // the js compiler, so we don't use them here. i1 = I1; } } nodes1.push(nodes2[i2]); } return new NodeSetValue(nodes2); }; function PathExpr(filter, rel) { this.filter = filter; this.rel = rel; } PathExpr.prototype.evaluate = function(ctx) { var nodes = this.filter.evaluate(ctx).nodeSetValue(); var nodes1 = []; for (var i = 0; i < nodes.length; ++i) { var nodes0 = this.rel.evaluate(ctx.clone(nodes[i], i, nodes)).nodeSetValue(); for (var ii = 0; ii < nodes0.length; ++ii) { nodes1.push(nodes0[ii]); } } return new NodeSetValue(nodes1); }; function FilterExpr(expr, predicate) { this.expr = expr; this.predicate = predicate; } FilterExpr.prototype.evaluate = function(ctx) { var nodes = this.expr.evaluate(ctx).nodeSetValue(); for (var i = 0; i < this.predicate.length; ++i) { var nodes0 = nodes; nodes = []; for (var j = 0; j < nodes0.length; ++j) { var n = nodes0[j]; if (this.predicate[i].evaluate(ctx.clone(n, j, nodes0)).booleanValue()) { nodes.push(n); } } } return new NodeSetValue(nodes); } function UnaryMinusExpr(expr) { this.expr = expr; } UnaryMinusExpr.prototype.evaluate = function(ctx) { return new NumberValue(-this.expr.evaluate(ctx).numberValue()); }; function BinaryExpr(expr1, op, expr2) { this.expr1 = expr1; this.expr2 = expr2; this.op = op; } BinaryExpr.prototype.evaluate = function(ctx) { var ret; switch (this.op.value) { case 'or': ret = new BooleanValue(this.expr1.evaluate(ctx).booleanValue() || this.expr2.evaluate(ctx).booleanValue()); break; case 'and': ret = new BooleanValue(this.expr1.evaluate(ctx).booleanValue() && this.expr2.evaluate(ctx).booleanValue()); break; case '+': ret = new NumberValue(this.expr1.evaluate(ctx).numberValue() + this.expr2.evaluate(ctx).numberValue()); break; case '-': ret = new NumberValue(this.expr1.evaluate(ctx).numberValue() - this.expr2.evaluate(ctx).numberValue()); break; case '*': ret = new NumberValue(this.expr1.evaluate(ctx).numberValue() * this.expr2.evaluate(ctx).numberValue()); break; case 'mod': ret = new NumberValue(this.expr1.evaluate(ctx).numberValue() % this.expr2.evaluate(ctx).numberValue()); break; case 'div': ret = new NumberValue(this.expr1.evaluate(ctx).numberValue() / this.expr2.evaluate(ctx).numberValue()); break; case '=': ret = this.compare(ctx, function(x1, x2) { return x1 == x2; }); break; case '!=': ret = this.compare(ctx, function(x1, x2) { return x1 != x2; }); break; case '<': ret = this.compare(ctx, function(x1, x2) { return x1 < x2; }); break; case '<=': ret = this.compare(ctx, function(x1, x2) { return x1 <= x2; }); break; case '>': ret = this.compare(ctx, function(x1, x2) { return x1 > x2; }); break; case '>=': ret = this.compare(ctx, function(x1, x2) { return x1 >= x2; }); break; default: alert('BinaryExpr.evaluate: ' + this.op.value); } return ret; }; BinaryExpr.prototype.compare = function(ctx, cmp) { var v1 = this.expr1.evaluate(ctx); var v2 = this.expr2.evaluate(ctx); var ret; if (v1.type == 'node-set' && v2.type == 'node-set') { var n1 = v1.nodeSetValue(); var n2 = v2.nodeSetValue(); ret = false; for (var i1 = 0; i1 < n1.length; ++i1) { for (var i2 = 0; i2 < n2.length; ++i2) { if (cmp(xmlValue(n1[i1]), xmlValue(n2[i2]))) { ret = true; // Break outer loop. Labels confuse the jscompiler and we // don't use them. i2 = n2.length; i1 = n1.length; } } } } else if (v1.type == 'node-set' || v2.type == 'node-set') { if (v1.type == 'number') { var s = v1.numberValue(); var n = v2.nodeSetValue(); ret = false; for (var i = 0; i < n.length; ++i) { var nn = xmlValue(n[i]) - 0; if (cmp(s, nn)) { ret = true; break; } } } else if (v2.type == 'number') { var n = v1.nodeSetValue(); var s = v2.numberValue(); ret = false; for (var i = 0; i < n.length; ++i) { var nn = xmlValue(n[i]) - 0; if (cmp(nn, s)) { ret = true; break; } } } else if (v1.type == 'string') { var s = v1.stringValue(); var n = v2.nodeSetValue(); ret = false; for (var i = 0; i < n.length; ++i) { var nn = xmlValue(n[i]); if (cmp(s, nn)) { ret = true; break; } } } else if (v2.type == 'string') { var n = v1.nodeSetValue(); var s = v2.stringValue(); ret = false; for (var i = 0; i < n.length; ++i) { var nn = xmlValue(n[i]); if (cmp(nn, s)) { ret = true; break; } } } else { ret = cmp(v1.booleanValue(), v2.booleanValue()); } } else if (v1.type == 'boolean' || v2.type == 'boolean') { ret = cmp(v1.booleanValue(), v2.booleanValue()); } else if (v1.type == 'number' || v2.type == 'number') { ret = cmp(v1.numberValue(), v2.numberValue()); } else { ret = cmp(v1.stringValue(), v2.stringValue()); } return new BooleanValue(ret); } function LiteralExpr(value) { this.value = value; } LiteralExpr.prototype.evaluate = function(ctx) { return new StringValue(this.value); }; function NumberExpr(value) { this.value = value; } NumberExpr.prototype.evaluate = function(ctx) { return new NumberValue(this.value); }; function VariableExpr(name) { this.name = name; } VariableExpr.prototype.evaluate = function(ctx) { return ctx.getVariable(this.name); } // Factory functions for semantic values (i.e. Expressions) of the // productions in the grammar. When a production is matched to reduce // the current parse state stack, the function is called with the // semantic values of the matched elements as arguments, and returns // another semantic value. The semantic value is a node of the parse // tree, an expression object with an evaluate() method that evaluates the // expression in an actual context. These factory functions are used // in the specification of the grammar rules, below. function makeTokenExpr(m) { return new TokenExpr(m); } function passExpr(e) { return e; } function makeLocationExpr1(slash, rel) { rel.absolute = true; return rel; } function makeLocationExpr2(dslash, rel) { rel.absolute = true; rel.prependStep(makeAbbrevStep(dslash.value)); return rel; } function makeLocationExpr3(slash) { var ret = new LocationExpr(); ret.appendStep(makeAbbrevStep('.')); ret.absolute = true; return ret; } function makeLocationExpr4(dslash) { var ret = new LocationExpr(); ret.absolute = true; ret.appendStep(makeAbbrevStep(dslash.value)); return ret; } function makeLocationExpr5(step) { var ret = new LocationExpr(); ret.appendStep(step); return ret; } function makeLocationExpr6(rel, slash, step) { rel.appendStep(step); return rel; } function makeLocationExpr7(rel, dslash, step) { rel.appendStep(makeAbbrevStep(dslash.value)); return rel; } function makeStepExpr1(dot) { return makeAbbrevStep(dot.value); } function makeStepExpr2(ddot) { return makeAbbrevStep(ddot.value); } function makeStepExpr3(axisname, axis, nodetest) { return new StepExpr(axisname.value, nodetest); } function makeStepExpr4(at, nodetest) { return new StepExpr('attribute', nodetest); } function makeStepExpr5(nodetest) { return new StepExpr('child', nodetest); } function makeStepExpr6(step, predicate) { step.appendPredicate(predicate); return step; } function makeAbbrevStep(abbrev) { switch (abbrev) { case '//': return new StepExpr('descendant-or-self', new NodeTestAny); case '.': return new StepExpr('self', new NodeTestAny); case '..': return new StepExpr('parent', new NodeTestAny); } } function makeNodeTestExpr1(asterisk) { return new NodeTestElement; } function makeNodeTestExpr2(ncname, colon, asterisk) { return new NodeTestNC(ncname.value); } function makeNodeTestExpr3(qname) { return new NodeTestName(qname.value); } function makeNodeTestExpr4(typeo, parenc) { var type = typeo.value.replace(/\s*\($/, ''); switch(type) { case 'node': return new NodeTestAny; case 'text': return new NodeTestText; case 'comment': return new NodeTestComment; case 'processing-instruction': return new NodeTestPI; } } function makeNodeTestExpr5(typeo, target, parenc) { var type = typeo.replace(/\s*\($/, ''); if (type != 'processing-instruction') { throw type + ' ' + Error().stack; } return new NodeTestPI(target.value); } function makePredicateExpr(pareno, expr, parenc) { return new PredicateExpr(expr); } function makePrimaryExpr(pareno, expr, parenc) { return expr; } function makeFunctionCallExpr1(name, pareno, parenc) { return new FunctionCallExpr(name); } function makeFunctionCallExpr2(name, pareno, arg1, args, parenc) { var ret = new FunctionCallExpr(name); ret.appendArg(arg1); for (var i = 0; i < args.length; ++i) { ret.appendArg(args[i]); } return ret; } function makeArgumentExpr(comma, expr) { return expr; } function makeUnionExpr(expr1, pipe, expr2) { return new UnionExpr(expr1, expr2); } function makePathExpr1(filter, slash, rel) { return new PathExpr(filter, rel); } function makePathExpr2(filter, dslash, rel) { rel.prependStep(makeAbbrevStep(dslash.value)); return new PathExpr(filter, rel); } function makeFilterExpr(expr, predicates) { if (predicates.length > 0) { return new FilterExpr(expr, predicates); } else { return expr; } } function makeUnaryMinusExpr(minus, expr) { return new UnaryMinusExpr(expr); } function makeBinaryExpr(expr1, op, expr2) { return new BinaryExpr(expr1, op, expr2); } function makeLiteralExpr(token) { // remove quotes from the parsed value: var value = token.value.substring(1, token.value.length - 1); return new LiteralExpr(value); } function makeNumberExpr(token) { return new NumberExpr(token.value); } function makeVariableReference(dollar, name) { return new VariableExpr(name.value); } // Used before parsing for optimization of common simple cases. See // the begin of xpathParse() for which they are. function makeSimpleExpr(expr) { if (expr.charAt(0) == '$') { return new VariableExpr(expr.substr(1)); } else if (expr.charAt(0) == '@') { var a = new NodeTestName(expr.substr(1)); var b = new StepExpr('attribute', a); var c = new LocationExpr(); c.appendStep(b); return c; } else if (expr.match(/^[0-9]+$/)) { return new NumberExpr(expr); } else { var a = new NodeTestName(expr); var b = new StepExpr('child', a); var c = new LocationExpr(); c.appendStep(b); return c; } } function makeSimpleExpr2(expr) { var steps = expr.split('/'); var c = new LocationExpr(); for (var i = 0; i < steps.length; i++) { var a = new NodeTestName(steps[i]); var b = new StepExpr('child', a); c.appendStep(b); } return c; } // The axes of XPath expressions. var xpathAxis = { ANCESTOR_OR_SELF: 'ancestor-or-self', ANCESTOR: 'ancestor', ATTRIBUTE: 'attribute', CHILD: 'child', DESCENDANT_OR_SELF: 'descendant-or-self', DESCENDANT: 'descendant', FOLLOWING_SIBLING: 'following-sibling', FOLLOWING: 'following', NAMESPACE: 'namespace', PARENT: 'parent', PRECEDING_SIBLING: 'preceding-sibling', PRECEDING: 'preceding', SELF: 'self' }; var xpathAxesRe = [ xpathAxis.ANCESTOR_OR_SELF, xpathAxis.ANCESTOR, xpathAxis.ATTRIBUTE, xpathAxis.CHILD, xpathAxis.DESCENDANT_OR_SELF, xpathAxis.DESCENDANT, xpathAxis.FOLLOWING_SIBLING, xpathAxis.FOLLOWING, xpathAxis.NAMESPACE, xpathAxis.PARENT, xpathAxis.PRECEDING_SIBLING, xpathAxis.PRECEDING, xpathAxis.SELF ].join('|'); // The tokens of the language. The label property is just used for // generating debug output. The prec property is the precedence used // for shift/reduce resolution. Default precedence is 0 as a lookahead // token and 2 on the stack. TODO(mesch): this is certainly not // necessary and too complicated. Simplify this! // NOTE: tabular formatting is the big exception, but here it should // be OK. var TOK_PIPE = { label: "|", prec: 17, re: new RegExp("^\\|") }; var TOK_DSLASH = { label: "//", prec: 19, re: new RegExp("^//") }; var TOK_SLASH = { label: "/", prec: 30, re: new RegExp("^/") }; var TOK_AXIS = { label: "::", prec: 20, re: new RegExp("^::") }; var TOK_COLON = { label: ":", prec: 1000, re: new RegExp("^:") }; var TOK_AXISNAME = { label: "[axis]", re: new RegExp('^(' + xpathAxesRe + ')') }; var TOK_PARENO = { label: "(", prec: 34, re: new RegExp("^\\(") }; var TOK_PARENC = { label: ")", re: new RegExp("^\\)") }; var TOK_DDOT = { label: "..", prec: 34, re: new RegExp("^\\.\\.") }; var TOK_DOT = { label: ".", prec: 34, re: new RegExp("^\\.") }; var TOK_AT = { label: "@", prec: 34, re: new RegExp("^@") }; var TOK_COMMA = { label: ",", re: new RegExp("^,") }; var TOK_OR = { label: "or", prec: 10, re: new RegExp("^or\\b") }; var TOK_AND = { label: "and", prec: 11, re: new RegExp("^and\\b") }; var TOK_EQ = { label: "=", prec: 12, re: new RegExp("^=") }; var TOK_NEQ = { label: "!=", prec: 12, re: new RegExp("^!=") }; var TOK_GE = { label: ">=", prec: 13, re: new RegExp("^>=") }; var TOK_GT = { label: ">", prec: 13, re: new RegExp("^>") }; var TOK_LE = { label: "<=", prec: 13, re: new RegExp("^<=") }; var TOK_LT = { label: "<", prec: 13, re: new RegExp("^<") }; var TOK_PLUS = { label: "+", prec: 14, re: new RegExp("^\\+"), left: true }; var TOK_MINUS = { label: "-", prec: 14, re: new RegExp("^\\-"), left: true }; var TOK_DIV = { label: "div", prec: 15, re: new RegExp("^div\\b"), left: true }; var TOK_MOD = { label: "mod", prec: 15, re: new RegExp("^mod\\b"), left: true }; var TOK_BRACKO = { label: "[", prec: 32, re: new RegExp("^\\[") }; var TOK_BRACKC = { label: "]", re: new RegExp("^\\]") }; var TOK_DOLLAR = { label: "$", re: new RegExp("^\\$") }; var TOK_NCNAME = { label: "[ncname]", re: new RegExp('^[a-z][-\\w]*','i') }; var TOK_ASTERISK = { label: "*", prec: 15, re: new RegExp("^\\*"), left: true }; var TOK_LITERALQ = { label: "[litq]", prec: 20, re: new RegExp("^'[^\\']*'") }; var TOK_LITERALQQ = { label: "[litqq]", prec: 20, re: new RegExp('^"[^\\"]*"') }; var TOK_NUMBER = { label: "[number]", prec: 35, re: new RegExp('^\\d+(\\.\\d*)?') }; var TOK_QNAME = { label: "[qname]", re: new RegExp('^([a-z][-\\w]*:)?[a-z][-\\w]*','i') }; var TOK_NODEO = { label: "[nodetest-start]", re: new RegExp('^(processing-instruction|comment|text|node)\\(') }; // The table of the tokens of our grammar, used by the lexer: first // column the tag, second column a regexp to recognize it in the // input, third column the precedence of the token, fourth column a // factory function for the semantic value of the token. // // NOTE: order of this list is important, because the first match // counts. Cf. DDOT and DOT, and AXIS and COLON. var xpathTokenRules = [ TOK_DSLASH, TOK_SLASH, TOK_DDOT, TOK_DOT, TOK_AXIS, TOK_COLON, TOK_AXISNAME, TOK_NODEO, TOK_PARENO, TOK_PARENC, TOK_BRACKO, TOK_BRACKC, TOK_AT, TOK_COMMA, TOK_OR, TOK_AND, TOK_NEQ, TOK_EQ, TOK_GE, TOK_GT, TOK_LE, TOK_LT, TOK_PLUS, TOK_MINUS, TOK_ASTERISK, TOK_PIPE, TOK_MOD, TOK_DIV, TOK_LITERALQ, TOK_LITERALQQ, TOK_NUMBER, TOK_QNAME, TOK_NCNAME, TOK_DOLLAR ]; // All the nonterminals of the grammar. The nonterminal objects are // identified by object identity; the labels are used in the debug // output only. var XPathLocationPath = { label: "LocationPath" }; var XPathRelativeLocationPath = { label: "RelativeLocationPath" }; var XPathAbsoluteLocationPath = { label: "AbsoluteLocationPath" }; var XPathStep = { label: "Step" }; var XPathNodeTest = { label: "NodeTest" }; var XPathPredicate = { label: "Predicate" }; var XPathLiteral = { label: "Literal" }; var XPathExpr = { label: "Expr" }; var XPathPrimaryExpr = { label: "PrimaryExpr" }; var XPathVariableReference = { label: "Variablereference" }; var XPathNumber = { label: "Number" }; var XPathFunctionCall = { label: "FunctionCall" }; var XPathArgumentRemainder = { label: "ArgumentRemainder" }; var XPathPathExpr = { label: "PathExpr" }; var XPathUnionExpr = { label: "UnionExpr" }; var XPathFilterExpr = { label: "FilterExpr" }; var XPathDigits = { label: "Digits" }; var xpathNonTerminals = [ XPathLocationPath, XPathRelativeLocationPath, XPathAbsoluteLocationPath, XPathStep, XPathNodeTest, XPathPredicate, XPathLiteral, XPathExpr, XPathPrimaryExpr, XPathVariableReference, XPathNumber, XPathFunctionCall, XPathArgumentRemainder, XPathPathExpr, XPathUnionExpr, XPathFilterExpr, XPathDigits ]; // Quantifiers that are used in the productions of the grammar. var Q_01 = { label: "?" }; var Q_MM = { label: "*" }; var Q_1M = { label: "+" }; // Tag for left associativity (right assoc is implied by undefined). var ASSOC_LEFT = true; // The productions of the grammar. Columns of the table: // // - target nonterminal, // - pattern, // - precedence, // - semantic value factory // // The semantic value factory is a function that receives parse tree // nodes from the stack frames of the matched symbols as arguments and // returns an a node of the parse tree. The node is stored in the top // stack frame along with the target object of the rule. The node in // the parse tree is an expression object that has an evaluate() method // and thus evaluates XPath expressions. // // The precedence is used to decide between reducing and shifting by // comparing the precendence of the rule that is candidate for // reducing with the precedence of the look ahead token. Precedence of // -1 means that the precedence of the tokens in the pattern is used // instead. TODO: It shouldn't be necessary to explicitly assign // precedences to rules. var xpathGrammarRules = [ [ XPathLocationPath, [ XPathRelativeLocationPath ], 18, passExpr ], [ XPathLocationPath, [ XPathAbsoluteLocationPath ], 18, passExpr ], [ XPathAbsoluteLocationPath, [ TOK_SLASH, XPathRelativeLocationPath ], 18, makeLocationExpr1 ], [ XPathAbsoluteLocationPath, [ TOK_DSLASH, XPathRelativeLocationPath ], 18, makeLocationExpr2 ], [ XPathAbsoluteLocationPath, [ TOK_SLASH ], 0, makeLocationExpr3 ], [ XPathAbsoluteLocationPath, [ TOK_DSLASH ], 0, makeLocationExpr4 ], [ XPathRelativeLocationPath, [ XPathStep ], 31, makeLocationExpr5 ], [ XPathRelativeLocationPath, [ XPathRelativeLocationPath, TOK_SLASH, XPathStep ], 31, makeLocationExpr6 ], [ XPathRelativeLocationPath, [ XPathRelativeLocationPath, TOK_DSLASH, XPathStep ], 31, makeLocationExpr7 ], [ XPathStep, [ TOK_DOT ], 33, makeStepExpr1 ], [ XPathStep, [ TOK_DDOT ], 33, makeStepExpr2 ], [ XPathStep, [ TOK_AXISNAME, TOK_AXIS, XPathNodeTest ], 33, makeStepExpr3 ], [ XPathStep, [ TOK_AT, XPathNodeTest ], 33, makeStepExpr4 ], [ XPathStep, [ XPathNodeTest ], 33, makeStepExpr5 ], [ XPathStep, [ XPathStep, XPathPredicate ], 33, makeStepExpr6 ], [ XPathNodeTest, [ TOK_ASTERISK ], 33, makeNodeTestExpr1 ], [ XPathNodeTest, [ TOK_NCNAME, TOK_COLON, TOK_ASTERISK ], 33, makeNodeTestExpr2 ], [ XPathNodeTest, [ TOK_QNAME ], 33, makeNodeTestExpr3 ], [ XPathNodeTest, [ TOK_NODEO, TOK_PARENC ], 33, makeNodeTestExpr4 ], [ XPathNodeTest, [ TOK_NODEO, XPathLiteral, TOK_PARENC ], 33, makeNodeTestExpr5 ], [ XPathPredicate, [ TOK_BRACKO, XPathExpr, TOK_BRACKC ], 33, makePredicateExpr ], [ XPathPrimaryExpr, [ XPathVariableReference ], 33, passExpr ], [ XPathPrimaryExpr, [ TOK_PARENO, XPathExpr, TOK_PARENC ], 33, makePrimaryExpr ], [ XPathPrimaryExpr, [ XPathLiteral ], 30, passExpr ], [ XPathPrimaryExpr, [ XPathNumber ], 30, passExpr ], [ XPathPrimaryExpr, [ XPathFunctionCall ], 30, passExpr ], [ XPathFunctionCall, [ TOK_QNAME, TOK_PARENO, TOK_PARENC ], -1, makeFunctionCallExpr1 ], [ XPathFunctionCall, [ TOK_QNAME, TOK_PARENO, XPathExpr, XPathArgumentRemainder, Q_MM, TOK_PARENC ], -1, makeFunctionCallExpr2 ], [ XPathArgumentRemainder, [ TOK_COMMA, XPathExpr ], -1, makeArgumentExpr ], [ XPathUnionExpr, [ XPathPathExpr ], 20, passExpr ], [ XPathUnionExpr, [ XPathUnionExpr, TOK_PIPE, XPathPathExpr ], 20, makeUnionExpr ], [ XPathPathExpr, [ XPathLocationPath ], 20, passExpr ], [ XPathPathExpr, [ XPathFilterExpr ], 19, passExpr ], [ XPathPathExpr, [ XPathFilterExpr, TOK_SLASH, XPathRelativeLocationPath ], 20, makePathExpr1 ], [ XPathPathExpr, [ XPathFilterExpr, TOK_DSLASH, XPathRelativeLocationPath ], 20, makePathExpr2 ], [ XPathFilterExpr, [ XPathPrimaryExpr, XPathPredicate, Q_MM ], 20, makeFilterExpr ], [ XPathExpr, [ XPathPrimaryExpr ], 16, passExpr ], [ XPathExpr, [ XPathUnionExpr ], 16, passExpr ], [ XPathExpr, [ TOK_MINUS, XPathExpr ], -1, makeUnaryMinusExpr ], [ XPathExpr, [ XPathExpr, TOK_OR, XPathExpr ], -1, makeBinaryExpr ], [ XPathExpr, [ XPathExpr, TOK_AND, XPathExpr ], -1, makeBinaryExpr ], [ XPathExpr, [ XPathExpr, TOK_EQ, XPathExpr ], -1, makeBinaryExpr ], [ XPathExpr, [ XPathExpr, TOK_NEQ, XPathExpr ], -1, makeBinaryExpr ], [ XPathExpr, [ XPathExpr, TOK_LT, XPathExpr ], -1, makeBinaryExpr ], [ XPathExpr, [ XPathExpr, TOK_LE, XPathExpr ], -1, makeBinaryExpr ], [ XPathExpr, [ XPathExpr, TOK_GT, XPathExpr ], -1, makeBinaryExpr ], [ XPathExpr, [ XPathExpr, TOK_GE, XPathExpr ], -1, makeBinaryExpr ], [ XPathExpr, [ XPathExpr, TOK_PLUS, XPathExpr ], -1, makeBinaryExpr, ASSOC_LEFT ], [ XPathExpr, [ XPathExpr, TOK_MINUS, XPathExpr ], -1, makeBinaryExpr, ASSOC_LEFT ], [ XPathExpr, [ XPathExpr, TOK_ASTERISK, XPathExpr ], -1, makeBinaryExpr, ASSOC_LEFT ], [ XPathExpr, [ XPathExpr, TOK_DIV, XPathExpr ], -1, makeBinaryExpr, ASSOC_LEFT ], [ XPathExpr, [ XPathExpr, TOK_MOD, XPathExpr ], -1, makeBinaryExpr, ASSOC_LEFT ], [ XPathLiteral, [ TOK_LITERALQ ], -1, makeLiteralExpr ], [ XPathLiteral, [ TOK_LITERALQQ ], -1, makeLiteralExpr ], [ XPathNumber, [ TOK_NUMBER ], -1, makeNumberExpr ], [ XPathVariableReference, [ TOK_DOLLAR, TOK_QNAME ], 200, makeVariableReference ] ]; // That function computes some optimizations of the above data // structures and will be called right here. It merely takes the // counter variables out of the global scope. var xpathRules = []; function xpathParseInit() { if (xpathRules.length) { return; } // Some simple optimizations for the xpath expression parser: sort // grammar rules descending by length, so that the longest match is // first found. xpathGrammarRules.sort(function(a,b) { var la = a[1].length; var lb = b[1].length; if (la < lb) { return 1; } else if (la > lb) { return -1; } else { return 0; } }); var k = 1; for (var i = 0; i < xpathNonTerminals.length; ++i) { xpathNonTerminals[i].key = k++; } for (i = 0; i < xpathTokenRules.length; ++i) { xpathTokenRules[i].key = k++; } if (xpathdebug) Log.write('XPath parse INIT: ' + k + ' rules'); // Another slight optimization: sort the rules into bins according // to the last element (observing quantifiers), so we can restrict // the match against the stack to the subest of rules that match the // top of the stack. // // TODO(mesch): What we actually want is to compute states as in // bison, so that we don't have to do any explicit and iterated // match against the stack. function push_(array, position, element) { if (!array[position]) { array[position] = []; } array[position].push(element); } for (i = 0; i < xpathGrammarRules.length; ++i) { var rule = xpathGrammarRules[i]; var pattern = rule[1]; for (var j = pattern.length - 1; j >= 0; --j) { if (pattern[j] == Q_1M) { push_(xpathRules, pattern[j-1].key, rule); break; } else if (pattern[j] == Q_MM || pattern[j] == Q_01) { push_(xpathRules, pattern[j-1].key, rule); --j; } else { push_(xpathRules, pattern[j].key, rule); break; } } } if (xpathdebug) Log.write('XPath parse INIT: ' + xpathRules.length + ' rule bins'); var sum = 0; mapExec(xpathRules, function(i) { if (i) { sum += i.length; } }); if (xpathdebug) Log.write('XPath parse INIT: ' + (sum / xpathRules.length) + ' average bin size'); } // Local utility functions that are used by the lexer or parser. function xpathCollectDescendants(nodelist, node) { for (var n = node.firstChild; n; n = n.nextSibling) { nodelist.push(n); arguments.callee(nodelist, n); } } function xpathCollectDescendantsReverse(nodelist, node) { for (var n = node.lastChild; n; n = n.previousSibling) { nodelist.push(n); arguments.callee(nodelist, n); } } // The entry point for the library: match an expression against a DOM // node. Returns an XPath value. function xpathDomEval(expr, node) { var expr1 = xpathParse(expr); var ret = expr1.evaluate(new ExprContext(node)); return ret; } // Utility function to sort a list of nodes. Used by xsltSort() and // nxslSelect(). function xpathSort(input, sort) { if (sort.length == 0) { return; } var sortlist = []; for (var i = 0; i < input.nodelist.length; ++i) { var node = input.nodelist[i]; var sortitem = { node: node, key: [] }; var context = input.clone(node, 0, [ node ]); for (var j = 0; j < sort.length; ++j) { var s = sort[j]; var value = s.expr.evaluate(context); var evalue; if (s.type == 'text') { evalue = value.stringValue(); } else if (s.type == 'number') { evalue = value.numberValue(); } sortitem.key.push({ value: evalue, order: s.order }); } // Make the sort stable by adding a lowest priority sort by // id. This is very convenient and furthermore required by the // spec ([XSLT] - Section 10 Sorting). sortitem.key.push({ value: i, order: 'ascending' }); sortlist.push(sortitem); } sortlist.sort(xpathSortByKey); var nodes = []; for (var i = 0; i < sortlist.length; ++i) { nodes.push(sortlist[i].node); } input.nodelist = nodes; input.setNode(nodes[0], 0); } // Sorts by all order criteria defined. According to the JavaScript // spec ([ECMA] Section 11.8.5), the compare operators compare strings // as strings and numbers as numbers. // // NOTE: In browsers which do not follow the spec, this breaks only in // the case that numbers should be sorted as strings, which is very // uncommon. function xpathSortByKey(v1, v2) { // NOTE: Sort key vectors of different length never occur in // xsltSort. for (var i = 0; i < v1.key.length; ++i) { var o = v1.key[i].order == 'descending' ? -1 : 1; if (v1.key[i].value > v2.key[i].value) { return +1 * o; } else if (v1.key[i].value < v2.key[i].value) { return -1 * o; } } return 0; } // Copyright (c) 2005, Google Inc. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // // * Redistributions in binary form must reproduce the above copyright // notice, this list of conditions and the following disclaimer in the // documentation and/or other materials provided with the // distribution. // // * Neither the name of Google Inc. nor the names of its contributors // may be used to endorse or promote products derived from this // software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // Miscellania that support the ajaxslt implementation. // // Author: Steffen Meschkat // function el(i) { return document.getElementById(i); } function px(x) { return x + 'px'; } // Split a string s at all occurrences of character c. This is like // the split() method of the string object, but IE omits empty // strings, which violates the invariant (s.split(x).join(x) == s). function stringSplit(s, c) { var a = s.indexOf(c); if (a == -1) { return [ s ]; } var parts = []; parts.push(s.substr(0,a)); while (a != -1) { var a1 = s.indexOf(c, a + 1); if (a1 != -1) { parts.push(s.substr(a + 1, a1 - a - 1)); } else { parts.push(s.substr(a + 1)); } a = a1; } return parts; } // Returns the text value if a node; for nodes without children this // is the nodeValue, for nodes with children this is the concatenation // of the value of all children. function xmlValue(node) { if (!node) { return ''; } var ret = ''; if (node.nodeType == DOM_TEXT_NODE || node.nodeType == DOM_CDATA_SECTION_NODE || node.nodeType == DOM_ATTRIBUTE_NODE) { ret += node.nodeValue; } else if (node.nodeType == DOM_ELEMENT_NODE || node.nodeType == DOM_DOCUMENT_NODE || node.nodeType == DOM_DOCUMENT_FRAGMENT_NODE) { for (var i = 0; i < node.childNodes.length; ++i) { ret += arguments.callee(node.childNodes[i]); } } return ret; } // Returns the representation of a node as XML text. function xmlText(node) { var ret = ''; if (node.nodeType == DOM_TEXT_NODE) { ret += xmlEscapeText(node.nodeValue); } else if (node.nodeType == DOM_ELEMENT_NODE) { ret += '<' + node.nodeName; for (var i = 0; i < node.attributes.length; ++i) { var a = node.attributes[i]; if (a && a.nodeName && a.nodeValue) { ret += ' ' + a.nodeName; ret += '="' + xmlEscapeAttr(a.nodeValue) + '"'; } } if (node.childNodes.length == 0) { ret += '/>'; } else { ret += '>'; for (var i = 0; i < node.childNodes.length; ++i) { ret += arguments.callee(node.childNodes[i]); } ret += ''; } } else if (node.nodeType == DOM_DOCUMENT_NODE || node.nodeType == DOM_DOCUMENT_FRAGMENT_NODE) { for (var i = 0; i < node.childNodes.length; ++i) { ret += arguments.callee(node.childNodes[i]); } } return ret; } // Applies the given function to each element of the array. function mapExec(array, func) { for (var i = 0; i < array.length; ++i) { func(array[i]); } } // Returns an array that contains the return value of the given // function applied to every element of the input array. function mapExpr(array, func) { var ret = []; for (var i = 0; i < array.length; ++i) { ret.push(func(array[i])); } return ret; }; // Reverses the given array in place. function reverseInplace(array) { for (var i = 0; i < array.length / 2; ++i) { var h = array[i]; var ii = array.length - i - 1; array[i] = array[ii]; array[ii] = h; } } // Shallow-copies an array. function copyArray(dst, src) { for (var i = 0; i < src.length; ++i) { dst.push(src[i]); } } function assert(b) { if (!b) { throw 'assertion failed'; } } // Based on // var DOM_ELEMENT_NODE = 1; var DOM_ATTRIBUTE_NODE = 2; var DOM_TEXT_NODE = 3; var DOM_CDATA_SECTION_NODE = 4; var DOM_ENTITY_REFERENCE_NODE = 5; var DOM_ENTITY_NODE = 6; var DOM_PROCESSING_INSTRUCTION_NODE = 7; var DOM_COMMENT_NODE = 8; var DOM_DOCUMENT_NODE = 9; var DOM_DOCUMENT_TYPE_NODE = 10; var DOM_DOCUMENT_FRAGMENT_NODE = 11; var DOM_NOTATION_NODE = 12; var xpathdebug = false; // trace xpath parsing var xsltdebug = false; // trace xslt processing // Escape XML special markup chracters: tag delimiter < > and entity // reference start delimiter &. The escaped string can be used in XML // text portions (i.e. between tags). function xmlEscapeText(s) { return s.replace(/&/g, '&').replace(//g, '>'); } // Escape XML special markup characters: tag delimiter < > entity // reference start delimiter & and quotes ". The escaped string can be // used in double quoted XML attribute value portions (i.e. in // attributes within start tags). function xmlEscapeAttr(s) { return xmlEscapeText(s).replace(/\"/g, '"'); } // Escape markup in XML text, but don't touch entity references. The // escaped string can be used as XML text (i.e. between tags). function xmlEscapeTags(s) { return s.replace(//g, '>'); } // An implementation of the debug log. var logging__ = true; function Log() {}; Log.lines = []; Log.write = function(s) { if (logging__) { this.lines.push(xmlEscapeText(s)); this.show(); } }; // Writes the given XML with every tag on a new line. Log.writeXML = function(xml) { if (logging__) { var s0 = xml.replace(/'); this.lines.push(s2); this.show(); } } // Writes without any escaping Log.writeRaw = function(s) { if (logging__) { this.lines.push(s); this.show(); } } Log.clear = function() { if (logging__) { var l = this.div(); l.innerHTML = ''; this.lines = []; } } Log.show = function() { var l = this.div(); l.innerHTML += this.lines.join('
') + '
'; this.lines = []; l.scrollTop = l.scrollHeight; } Log.div = function() { var l = document.getElementById('log'); if (!l) { l = document.createElement('div'); l.id = 'log'; l.style.position = 'absolute'; l.style.right = '5px'; l.style.top = '5px'; l.style.width = '250px'; l.style.height = '150px'; l.style.overflow = 'auto'; l.style.backgroundColor = '#f0f0f0'; l.style.border = '1px solid gray'; l.style.fontSize = '10px'; l.style.padding = '5px'; document.body.appendChild(l); } return l; } function Timer() {} Timer.start = function() {} Timer.end = function() {}