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//usr/lib/python2.4/site-packages/_xmlplus/xslt/Stylesheet.py
######################################################################## # # File Name: Stylesheet.py # # """ Implement all the stylesheet internals WWW: http://4suite.com/4XSLT e-mail: support@4suite.com Copyright (c) 1999-2001 Fourthought Inc, USA. All Rights Reserved. See http://4suite.com/COPYRIGHT for license and copyright information """ import string, types from xml.dom import EMPTY_NAMESPACE import xml.dom.ext from xml import xpath, xslt from xml.dom import Node from xml.dom.NodeFilter import NodeFilter from xml.xslt import XsltElement, XsltException, InternalException, Error from xml.xslt import XPatternParser, XsltContext from xml.xslt import XSL_NAMESPACE, OutputParameters, ReleaseNode from xml.xpath import CoreFunctions, Util, XPathParser, Conversions class PatternInfo: """Indexes into the tuple for pattern information""" PATTERN = 0 AXIS_TYPE = 1 PRIORITY = 2 MODE = 3 NSS = 4 TEMPLATE = 5 SPECIAL_RE_CHARS = ['.', '^', '$', '*', '+', '?'] def MatchTree(patterns, context): '''Select all nodes from node on down that match the pattern''' matched = map(lambda x, c=context, n=context.node: [n]*x.match(c,n), patterns) counter = 1 size = len(context.node.childNodes) origState = context.copyNodePosSize() for child in context.node.childNodes: context.setNodePosSize((child, counter, size)) map(lambda x, y: x.extend(y), matched, MatchTree(patterns, context)) context.setNodePosSize(origState) counter = counter + 1 if context.node.nodeType == Node.ELEMENT_NODE: counter = 1 size = len(context.node.attributes) for attr in context.node.attributes.values(): context.setNodePosSize((attr, counter, size)) map(lambda x, y: x.extend(y), matched, MatchTree(patterns, context)) context.setNodePosSize(origState) counter = counter + 1 return matched class StylesheetElement(XsltElement): legalAttrs = ('id', 'extension-element-prefixes', 'exclude-result-prefixes', 'version') def __init__(self, doc, uri=xml.xslt.XSL_NAMESPACE, localName='stylesheet', prefix='xsl', baseUri=''): XsltElement.__init__(self, doc, uri, localName, prefix, baseUri) self._imports = [] self.extensionNss = [] self._primedContext = None self._lres = [] return def _updateKeys(self, doc, processor): context = XsltContext.XsltContext(doc, 1, 1, processorNss=self.namespaces, processor=processor) patterns = map(lambda x: x[1], self._kelems) if not patterns: return match_lists = MatchTree(patterns, context) ctr = 0 for (name, match_pattern, use_expr) in self._kelems: match_list = match_lists[ctr] if not self.keys.has_key(name): self.keys[name] = {} for node in match_list: context.stylesheet = self origState = context.copy() context.node = node key_value_list = use_expr.evaluate(context) #NOTE: use attrs can't contain var refs, so result can't #be RTF So use CoreFunc StringValue, not ExtFunc version if type(key_value_list) != type([]): key_value_list = [key_value_list] for obj in key_value_list: keystr = Conversions.StringValue(obj) if not self.keys[name].has_key(keystr): self.keys[name][keystr] = [] self.keys[name][keystr].append(node) context.set(origState) ctr = ctr + 1 context.release() return def setup(self): ''' Called only once, at the first initialization ''' self.namespaces = xml.dom.ext.GetAllNs(self) self.spaceRules = {} self._topLevelVarNodes = {} self.namespaceAliases = ({}, {}) self.decimalFormats = {'': ('.', ',', 'Infinity', '-', 'NaN', '%', '?', '0', '#', ';')} self.keys = {} self.outputParams = OutputParameters() excluded_prefixes = self.getAttributeNS(EMPTY_NAMESPACE, 'exclude-result-prefixes') self.excludedNss = [] if excluded_prefixes: excluded_prefixes = string.splitfields(excluded_prefixes) for prefix in excluded_prefixes: if prefix == '#default': prefix = '' self.excludedNss.append(self.namespaces[prefix]) self._setupNamespaceAliases() self._setupChildNodes() self._setupDecimalFormats() self._setupWhitespaceRules() self._setupOutput() self._setupTemplates() self._setupKeys() self._setupTopLevelVarParams() return def _setupNamespaceAliases(self): #Namespace aliases ns_aliases = filter(lambda x: x.nodeType == Node.ELEMENT_NODE and (x.namespaceURI, x.localName) == (XSL_NAMESPACE, 'namespace-alias'), self.childNodes) for nsa in ns_aliases: stylesheet_prefix = nsa.getAttributeNS(EMPTY_NAMESPACE, 'stylesheet-prefix') result_prefix = nsa.getAttributeNS(EMPTY_NAMESPACE, 'result-prefix') if not (stylesheet_prefix and result_prefix): raise XsltException(Error.INVALID_NAMESPACE_ALIAS) if stylesheet_prefix == '#default': stylesheet_prefix == '' if result_prefix == '#default': result_prefix == '' sty_ns = self.namespaces[stylesheet_prefix] res_ns = self.namespaces[result_prefix] self.namespaceAliases[0][stylesheet_prefix] = result_prefix self.namespaceAliases[1][sty_ns] = res_ns return def _setupChildNodes(self): snit = self.ownerDocument.createNodeIterator(self, NodeFilter.SHOW_ELEMENT | NodeFilter.SHOW_TEXT, None,0) curr_node = snit.nextNode() curr_node = snit.nextNode() while curr_node: try: curr_node.setup() except (xpath.SyntaxException, xpath.InternalException, xslt.SyntaxException, xslt.InternalException), e: #import traceback #traceback.print_exc(1000) if not hasattr(e, 'stylesheetUri'): e.stylesheetUri = curr_node.baseUri raise e curr_node = snit.nextNode() return def _setupDecimalFormats(self): dec_formats = filter(lambda x: x.nodeType == Node.ELEMENT_NODE and (x.namespaceURI, x.localName) == (XSL_NAMESPACE, 'decimal-format'), self.childNodes) for dc in dec_formats: format_settings = ( (dc.getAttributeNS(EMPTY_NAMESPACE, 'decimal-separator') or '.'), (dc.getAttributeNS(EMPTY_NAMESPACE, 'grouping-separator') or ','), (dc.getAttributeNS(EMPTY_NAMESPACE, 'infinity') or 'Infinity'), (dc.getAttributeNS(EMPTY_NAMESPACE, 'minus-sign') or '-'), (dc.getAttributeNS(EMPTY_NAMESPACE, 'NaN') or 'NaN'), (dc.getAttributeNS(EMPTY_NAMESPACE, 'percent') or '%'), (dc.getAttributeNS(EMPTY_NAMESPACE, 'per-mille') or '?'), (dc.getAttributeNS(EMPTY_NAMESPACE, 'zero-digit') or '0'), (dc.getAttributeNS(EMPTY_NAMESPACE, 'digit') or '#'), (dc.getAttributeNS(EMPTY_NAMESPACE, 'pattern-separator') or ';') ) nfs = [] for fc in format_settings: if fc in SPECIAL_RE_CHARS: nfs.append('\\'+fc) else: nfs.append(fc) name = dc.getAttributeNS(EMPTY_NAMESPACE, 'name') name = name and Util.ExpandQName(name, dc) self.decimalFormats[name] = tuple(nfs) return def _setupWhitespaceRules(self): #Whitespace rules space_rules = filter(lambda x: x.nodeType == Node.ELEMENT_NODE and (x.namespaceURI, x.localName) in [(XSL_NAMESPACE, 'preserve-space'), (XSL_NAMESPACE, 'strip-space')], self.childNodes) for sr in space_rules: args = string.splitfields(sr.getAttributeNS(EMPTY_NAMESPACE, 'elements')) for an_arg in args: #FIXME: watch out! ExpandQName doesn't handle ns defaulting split_name = Util.ExpandQName(an_arg, sr) self.spaceRules[split_name] = string.splitfields(sr.localName, '-')[0] return def _setupOutput(self): #Output output = filter(lambda x: x.nodeType == Node.ELEMENT_NODE and (x.namespaceURI, x.localName) == (XSL_NAMESPACE, 'output'), self.childNodes) for out in output: method = out.getAttributeNS(EMPTY_NAMESPACE, 'method') if method: self.outputParams.method = method version = out.getAttributeNS(EMPTY_NAMESPACE, 'version') if version: self.outputParams.version = version encoding = out.getAttributeNS(EMPTY_NAMESPACE, 'encoding') if encoding: self.outputParams.encoding = encoding omit_xml_decl = out.getAttributeNS(EMPTY_NAMESPACE, 'omit-xml-declaration') if omit_xml_decl: self.outputParams.omitXmlDeclaration = omit_xml_decl standalone = out.getAttributeNS(EMPTY_NAMESPACE, 'standalone') if standalone: self.outputParams.standalone = standalone doctype_system = out.getAttributeNS(EMPTY_NAMESPACE, 'doctype-system') if doctype_system: self.outputParams.doctypeSystem = doctype_system doctype_public = out.getAttributeNS(EMPTY_NAMESPACE, 'doctype-public') if doctype_public: self.outputParams.doctypePublic = doctype_public media_type = out.getAttributeNS(EMPTY_NAMESPACE, 'media-type') if media_type: self.outputParams.mediaType = media_type #cdata_sec_elem = out.getAttributeNS(EMPTY_NAMESPACE, 'cdata-section-elements') self.outputParams.cdataSectionElements = [] qnames = string.splitfields(out.getAttributeNS(EMPTY_NAMESPACE, 'cdata-section-elements')) for qname in qnames: self.outputParams.cdataSectionElements.append(Util.ExpandQName(qname, namespaces=self.namespaces)) indent = out.getAttributeNS(EMPTY_NAMESPACE, 'indent') if indent: self.outputParams.indent = indent return def _setupTemplates(self): templates = filter(lambda x: x.nodeType == Node.ELEMENT_NODE and (x.namespaceURI, x.localName) == (XSL_NAMESPACE, 'template'), self.childNodes) #Preprocess all of the templates with names match_tpls = filter(lambda x: x._name != '', templates) self._call_templates = {} for m in match_tpls: if not self._call_templates.has_key(m._name): self._call_templates[m._name] = m #Preprocess the patterns from all templates patterns = [] for tpl in templates: (patternInfo, mode, nss) = tpl.getMatchInfo() for pi in patternInfo: patterns.append(pi+(mode, nss, tpl)) patterns.reverse() patterns.sort(lambda x, y: cmp(y[PatternInfo.PRIORITY], x[PatternInfo.PRIORITY])) patternDict = {} for p in patterns: m = p[PatternInfo.MODE] if not patternDict.has_key(m): patternDict[m] = [] patternDict[m].append(p) self._patterns = patternDict return def _setupKeys(self): self._kelems = [] pattern_parser = XPatternParser.XPatternParser() path_parser = XPathParser.XPathParser() kelems = filter(lambda x: x.nodeType == Node.ELEMENT_NODE and (x.namespaceURI, x.localName) == (XSL_NAMESPACE, 'key'), self.childNodes) for kelem in kelems: name = Util.ExpandQName(kelem.getAttributeNS(EMPTY_NAMESPACE, 'name'), kelem) match = kelem.getAttributeNS(EMPTY_NAMESPACE, 'match') match_pattern = pattern_parser.parsePattern(match) use = kelem.getAttributeNS(EMPTY_NAMESPACE, 'use') use_expr = path_parser.parseExpression(use) self._kelems.append((name, match_pattern, use_expr)) self.reset() return def _setupTopLevelVarParams(self): #Is there a more efficient way to zip two sequences into a dict? vars = filter(lambda x: x.nodeType == Node.ELEMENT_NODE and x.namespaceURI == XSL_NAMESPACE and x.localName == 'variable', self.childNodes) self._topVariables = {} for var in vars: #FIXME: First check multiple variable errors self._topVariables[var._name] = var params = filter(lambda x: x.nodeType == Node.ELEMENT_NODE and x.namespaceURI == XSL_NAMESPACE and x.localName == 'param', self.childNodes) for param in params: #FIXME: First check multiple variable errors self._topVariables[param._name] = param return def newSource(self, doc, processor): """ Called whenever there's a new source document registed to the processor """ self._updateKeys(doc, processor) return def reset(self): """ Called whenever the processor is reset, i.e. after each run """ self.keys = {} if self._primedContext: self._primedContext.release() self._primedContext = None return def _fixupAliases(self): for lre in self._lres: lre.fixupAliases() return def processImports(self, contextNode, processor, topLevelParams): #Import precedence rules can be taken care of by having parent self._imports = filter(lambda x: x.nodeType == Node.ELEMENT_NODE and (x.namespaceURI, x.localName) == (XSL_NAMESPACE, 'import'), self.childNodes) #Style-sheet dictionaries override imported values for imp in self._imports: imp.setup() #FIXME: Extension elements? imp.stylesheet = processor._styReader.fromUri(imp.href, baseUri=imp.baseUri) sheet = imp.stylesheet sheet.processImports(contextNode, processor, topLevelParams) sheet.prime(contextNode, processor, topLevelParams) self.spaceRules.update(sheet.spaceRules) self.namespaceAliases[0].update(sheet.namespaceAliases[0]) self.namespaceAliases[1].update(sheet.namespaceAliases[1]) self._fixupAliases() return def _computeVar(self, vname, context, processed, deferred, overriddenParams, topLevelParams, processor): vnode = self._topVariables[vname] if vnode in deferred: raise XsltException(Error.CIRCULAR_VAR, vname[0], vname[1]) if vnode in processed: return if vnode.localName[0] == 'p': if overriddenParams.has_key(vname): context.varBindings[vname] = overriddenParams[vname] else: try: context = vnode.instantiate(context, processor)[0] except xpath.RuntimeException, e: deferred.append(vnode) self._computeVar((e.args[0], e.args[1]), context, processed, deferred, overriddenParams, topLevelParams, processor) deferred.remove(vnode) context = vnode.instantiate(context, processor)[0] #Set up so that later stylesheets will get overridden by #parameter values set in higher-priority stylesheets topLevelParams[vname] = context.varBindings[vname] else: try: context = vnode.instantiate(context, processor)[0] except xpath.RuntimeException, e: deferred.append(vnode) self._computeVar((e.args[0], e.args[1]), context, processed, deferred, overriddenParams, topLevelParams, processor) deferred.remove(vnode) context = vnode.instantiate(context, processor)[0] processed.append(vnode) return def prime(self, contextNode, processor, topLevelParams): self._primedContext = context = XsltContext.XsltContext(contextNode.ownerDocument, 1, 1, processorNss=self.namespaces, stylesheet=self, processor=processor) self._docReader = processor._docReader #Attribute sets attribute_sets = filter(lambda x: x.nodeType == Node.ELEMENT_NODE and (x.namespaceURI, x.localName) == (XSL_NAMESPACE, 'attribute-set'), self.childNodes) for as in attribute_sets: as.instantiate(context, processor) overridden_params = {} for k in topLevelParams.keys(): if type(k) != types.TupleType: try: split_name = Util.ExpandQName(k, namespaces=context.processorNss) except KeyError: continue else: split_name = k overridden_params[split_name] = topLevelParams[k] for vname in self._topVariables.keys(): self._computeVar(vname, context, [], [], overridden_params, topLevelParams, processor) self._primedContext = context #Note: key expressions can't have var refs, so we needn't worry about imports self._updateKeys(contextNode, processor) for imp in self._imports: self._primedContext.varBindings.update(imp.stylesheet._primedContext.varBindings) return topLevelParams ########################## Run-time methods ######################## def getNamedTemplates(self): templates = {} for name,tpl in self._call_templates.items(): templates[name] = (self, tpl) for imported in self._imports: imp_tpl = imported.stylesheet.getNamedTemplates() for name, (sty, tpl) in imp_tpl.items(): if not templates.has_key(name): templates[name] = (sty, tpl) return templates def getTopLevelVariables(self): return self._primedContext.varBindings.copy() def applyTemplates(self, context, mode, processor, params=None): params = params or {} origState = context.copyStylesheet() context.setStylesheet((self._primedContext.varBindings,self.namespaces, self)) #Set the current node for this template application context.currentNode = context.node matched = 1 for patternInfo in self._patterns.get(mode,[]): context.processorNss = patternInfo[PatternInfo.NSS] pattern = patternInfo[PatternInfo.PATTERN] if pattern.match(context, context.node, patternInfo[PatternInfo.AXIS_TYPE]): patternInfo[PatternInfo.TEMPLATE].instantiate(context, processor, params) break else: for imported in self._imports: if imported.stylesheet.applyTemplates(context, mode, processor, params): break else: matched = 0 context.setStylesheet(origState) return matched def applyImports(self, context, mode, processor, params=None): params = params or {} for imp in self._imports: matched = imp.stylesheet.applyTemplates(context, mode, processor, params) if matched: return 1 return 0 def callTemplate(self, processor, name, context, params, new_level=1): vars = self._primedContext.varBindings.copy() vars.update(params) origState = context.copyStylesheet() context.setStylesheet((vars, self.namespaces, self)) matched = 0 rec_tpl_params = None tpl = self._call_templates.get(name) if tpl: rec_tpl_params = tpl.instantiate(context, processor, params, new_level)[1] else: for child in self._imports: (matched, rec_tpl_params) = child.stylesheet.callTemplate(processor, name, context, params, new_level) if matched: break context.setStylesheet(origState) return (matched, rec_tpl_params) def reclaim(self): self.__dict__['_primedContext'] = None for imp in self._imports: imp.stylesheet.reclaim() ReleaseNode(imp.stylesheet.ownerDocument) self.namespaces = xml.dom.ext.GetAllNs(self) self.spaceRules = {} self.namespaceAliases = ({}, {}) self.decimalFormats = {'': ('.', ',', 'Infinity', '-', 'NaN', '%', '?', '0', '#', ';')} self.keys = {} self.outputParams = OutputParameters() excluded_prefixes = self.getAttributeNS(EMPTY_NAMESPACE, 'exclude-result-prefixes') self.excludedNss = [] self._lres = [] return def __getinitargs__(self): return (None, self.namespaceURI, self.localName, self.prefix, self.baseUri) def __getstate__(self): base_state = XsltElement.__getstate__(self) new_state = (base_state, self.namespaces, self.spaceRules, self.namespaceAliases, self.decimalFormats, self.keys, self.outputParams, self.excludedNss, self._patterns, self._call_templates, self._kelems, self.extensionNss, self._topVariables) return new_state def __setstate__(self, state): XsltElement.__setstate__(self, state[0]) self.namespaces = state[1] self.spaceRules = state[2] self.namespaceAliases = state[3] self.decimalFormats = state[4] self.keys = state[5] self.outputParams = state[6] self.excludedNss = state[7] self._patterns = state[8] self._call_templates = state[9] self._kelems = state[10] self.extensionNss = state[11] self._topVariables = state[12] return