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/* * xpointer.c : Code to handle XML Pointer * * Base implementation was made accordingly to * W3C Candidate Recommendation 7 June 2000 * http://www.w3.org/TR/2000/CR-xptr-20000607 * * Added support for the element() scheme described in: * W3C Proposed Recommendation 13 November 2002 * http://www.w3.org/TR/2002/PR-xptr-element-20021113/ * * See Copyright for the status of this software. * * daniel@veillard.com */ #define IN_LIBXML #include "libxml.h" /* * TODO: better handling of error cases, the full expression should * be parsed beforehand instead of a progressive evaluation * TODO: Access into entities references are not supported now ... * need a start to be able to pop out of entities refs since * parent is the endity declaration, not the ref. */ #include
#include
#include
#include
#include
#include
#include
#include
#include
#ifdef LIBXML_XPTR_ENABLED /* Add support of the xmlns() xpointer scheme to initialize the namespaces */ #define XPTR_XMLNS_SCHEME /* #define DEBUG_RANGES */ #ifdef DEBUG_RANGES #ifdef LIBXML_DEBUG_ENABLED #include
#endif #endif #define TODO \ xmlGenericError(xmlGenericErrorContext, \ "Unimplemented block at %s:%d\n", \ __FILE__, __LINE__); #define STRANGE \ xmlGenericError(xmlGenericErrorContext, \ "Internal error at %s:%d\n", \ __FILE__, __LINE__); /************************************************************************ * * * Some factorized error routines * * * ************************************************************************/ /** * xmlXPtrErrMemory: * @extra: extra informations * * Handle a redefinition of attribute error */ static void xmlXPtrErrMemory(const char *extra) { __xmlRaiseError(NULL, NULL, NULL, NULL, NULL, XML_FROM_XPOINTER, XML_ERR_NO_MEMORY, XML_ERR_ERROR, NULL, 0, extra, NULL, NULL, 0, 0, "Memory allocation failed : %s\n", extra); } /** * xmlXPtrErr: * @ctxt: an XPTR evaluation context * @extra: extra informations * * Handle a redefinition of attribute error */ static void xmlXPtrErr(xmlXPathParserContextPtr ctxt, int error, const char * msg, const xmlChar *extra) { if (ctxt != NULL) ctxt->error = error; if ((ctxt == NULL) || (ctxt->context == NULL)) { __xmlRaiseError(NULL, NULL, NULL, NULL, NULL, XML_FROM_XPOINTER, error, XML_ERR_ERROR, NULL, 0, (const char *) extra, NULL, NULL, 0, 0, msg, extra); return; } ctxt->context->lastError.domain = XML_FROM_XPOINTER; ctxt->context->lastError.code = error; ctxt->context->lastError.level = XML_ERR_ERROR; ctxt->context->lastError.str1 = (char *) xmlStrdup(ctxt->base); ctxt->context->lastError.int1 = ctxt->cur - ctxt->base; ctxt->context->lastError.node = ctxt->context->debugNode; if (ctxt->context->error != NULL) { ctxt->context->error(ctxt->context->userData, &ctxt->context->lastError); } else { __xmlRaiseError(NULL, NULL, NULL, NULL, ctxt->context->debugNode, XML_FROM_XPOINTER, error, XML_ERR_ERROR, NULL, 0, (const char *) extra, (const char *) ctxt->base, NULL, ctxt->cur - ctxt->base, 0, msg, extra); } } /************************************************************************ * * * A few helper functions for child sequences * * * ************************************************************************/ /* xmlXPtrAdvanceNode is a private function, but used by xinclude.c */ xmlNodePtr xmlXPtrAdvanceNode(xmlNodePtr cur, int *level); /** * xmlXPtrGetArity: * @cur: the node * * Returns the number of child for an element, -1 in case of error */ static int xmlXPtrGetArity(xmlNodePtr cur) { int i; if (cur == NULL) return(-1); cur = cur->children; for (i = 0;cur != NULL;cur = cur->next) { if ((cur->type == XML_ELEMENT_NODE) || (cur->type == XML_DOCUMENT_NODE) || (cur->type == XML_HTML_DOCUMENT_NODE)) { i++; } } return(i); } /** * xmlXPtrGetIndex: * @cur: the node * * Returns the index of the node in its parent children list, -1 * in case of error */ static int xmlXPtrGetIndex(xmlNodePtr cur) { int i; if (cur == NULL) return(-1); for (i = 1;cur != NULL;cur = cur->prev) { if ((cur->type == XML_ELEMENT_NODE) || (cur->type == XML_DOCUMENT_NODE) || (cur->type == XML_HTML_DOCUMENT_NODE)) { i++; } } return(i); } /** * xmlXPtrGetNthChild: * @cur: the node * @no: the child number * * Returns the @no'th element child of @cur or NULL */ static xmlNodePtr xmlXPtrGetNthChild(xmlNodePtr cur, int no) { int i; if (cur == NULL) return(cur); cur = cur->children; for (i = 0;i <= no;cur = cur->next) { if (cur == NULL) return(cur); if ((cur->type == XML_ELEMENT_NODE) || (cur->type == XML_DOCUMENT_NODE) || (cur->type == XML_HTML_DOCUMENT_NODE)) { i++; if (i == no) break; } } return(cur); } /************************************************************************ * * * Handling of XPointer specific types * * * ************************************************************************/ /** * xmlXPtrCmpPoints: * @node1: the first node * @index1: the first index * @node2: the second node * @index2: the second index * * Compare two points w.r.t document order * * Returns -2 in case of error 1 if first point < second point, 0 if * that's the same point, -1 otherwise */ static int xmlXPtrCmpPoints(xmlNodePtr node1, int index1, xmlNodePtr node2, int index2) { if ((node1 == NULL) || (node2 == NULL)) return(-2); /* * a couple of optimizations which will avoid computations in most cases */ if (node1 == node2) { if (index1 < index2) return(1); if (index1 > index2) return(-1); return(0); } return(xmlXPathCmpNodes(node1, node2)); } /** * xmlXPtrNewPoint: * @node: the xmlNodePtr * @indx: the indx within the node * * Create a new xmlXPathObjectPtr of type point * * Returns the newly created object. */ static xmlXPathObjectPtr xmlXPtrNewPoint(xmlNodePtr node, int indx) { xmlXPathObjectPtr ret; if (node == NULL) return(NULL); if (indx < 0) return(NULL); ret = (xmlXPathObjectPtr) xmlMalloc(sizeof(xmlXPathObject)); if (ret == NULL) { xmlXPtrErrMemory("allocating point"); return(NULL); } memset(ret, 0 , (size_t) sizeof(xmlXPathObject)); ret->type = XPATH_POINT; ret->user = (void *) node; ret->index = indx; return(ret); } /** * xmlXPtrRangeCheckOrder: * @range: an object range * * Make sure the points in the range are in the right order */ static void xmlXPtrRangeCheckOrder(xmlXPathObjectPtr range) { int tmp; xmlNodePtr tmp2; if (range == NULL) return; if (range->type != XPATH_RANGE) return; if (range->user2 == NULL) return; tmp = xmlXPtrCmpPoints(range->user, range->index, range->user2, range->index2); if (tmp == -1) { tmp2 = range->user; range->user = range->user2; range->user2 = tmp2; tmp = range->index; range->index = range->index2; range->index2 = tmp; } } /** * xmlXPtrRangesEqual: * @range1: the first range * @range2: the second range * * Compare two ranges * * Returns 1 if equal, 0 otherwise */ static int xmlXPtrRangesEqual(xmlXPathObjectPtr range1, xmlXPathObjectPtr range2) { if (range1 == range2) return(1); if ((range1 == NULL) || (range2 == NULL)) return(0); if (range1->type != range2->type) return(0); if (range1->type != XPATH_RANGE) return(0); if (range1->user != range2->user) return(0); if (range1->index != range2->index) return(0); if (range1->user2 != range2->user2) return(0); if (range1->index2 != range2->index2) return(0); return(1); } /** * xmlXPtrNewRange: * @start: the starting node * @startindex: the start index * @end: the ending point * @endindex: the ending index * * Create a new xmlXPathObjectPtr of type range * * Returns the newly created object. */ xmlXPathObjectPtr xmlXPtrNewRange(xmlNodePtr start, int startindex, xmlNodePtr end, int endindex) { xmlXPathObjectPtr ret; if (start == NULL) return(NULL); if (end == NULL) return(NULL); if (startindex < 0) return(NULL); if (endindex < 0) return(NULL); ret = (xmlXPathObjectPtr) xmlMalloc(sizeof(xmlXPathObject)); if (ret == NULL) { xmlXPtrErrMemory("allocating range"); return(NULL); } memset(ret, 0 , (size_t) sizeof(xmlXPathObject)); ret->type = XPATH_RANGE; ret->user = start; ret->index = startindex; ret->user2 = end; ret->index2 = endindex; xmlXPtrRangeCheckOrder(ret); return(ret); } /** * xmlXPtrNewRangePoints: * @start: the starting point * @end: the ending point * * Create a new xmlXPathObjectPtr of type range using 2 Points * * Returns the newly created object. */ xmlXPathObjectPtr xmlXPtrNewRangePoints(xmlXPathObjectPtr start, xmlXPathObjectPtr end) { xmlXPathObjectPtr ret; if (start == NULL) return(NULL); if (end == NULL) return(NULL); if (start->type != XPATH_POINT) return(NULL); if (end->type != XPATH_POINT) return(NULL); ret = (xmlXPathObjectPtr) xmlMalloc(sizeof(xmlXPathObject)); if (ret == NULL) { xmlXPtrErrMemory("allocating range"); return(NULL); } memset(ret, 0 , (size_t) sizeof(xmlXPathObject)); ret->type = XPATH_RANGE; ret->user = start->user; ret->index = start->index; ret->user2 = end->user; ret->index2 = end->index; xmlXPtrRangeCheckOrder(ret); return(ret); } /** * xmlXPtrNewRangePointNode: * @start: the starting point * @end: the ending node * * Create a new xmlXPathObjectPtr of type range from a point to a node * * Returns the newly created object. */ xmlXPathObjectPtr xmlXPtrNewRangePointNode(xmlXPathObjectPtr start, xmlNodePtr end) { xmlXPathObjectPtr ret; if (start == NULL) return(NULL); if (end == NULL) return(NULL); if (start->type != XPATH_POINT) return(NULL); ret = (xmlXPathObjectPtr) xmlMalloc(sizeof(xmlXPathObject)); if (ret == NULL) { xmlXPtrErrMemory("allocating range"); return(NULL); } memset(ret, 0 , (size_t) sizeof(xmlXPathObject)); ret->type = XPATH_RANGE; ret->user = start->user; ret->index = start->index; ret->user2 = end; ret->index2 = -1; xmlXPtrRangeCheckOrder(ret); return(ret); } /** * xmlXPtrNewRangeNodePoint: * @start: the starting node * @end: the ending point * * Create a new xmlXPathObjectPtr of type range from a node to a point * * Returns the newly created object. */ xmlXPathObjectPtr xmlXPtrNewRangeNodePoint(xmlNodePtr start, xmlXPathObjectPtr end) { xmlXPathObjectPtr ret; if (start == NULL) return(NULL); if (end == NULL) return(NULL); if (start->type != XPATH_POINT) return(NULL); if (end->type != XPATH_POINT) return(NULL); ret = (xmlXPathObjectPtr) xmlMalloc(sizeof(xmlXPathObject)); if (ret == NULL) { xmlXPtrErrMemory("allocating range"); return(NULL); } memset(ret, 0 , (size_t) sizeof(xmlXPathObject)); ret->type = XPATH_RANGE; ret->user = start; ret->index = -1; ret->user2 = end->user; ret->index2 = end->index; xmlXPtrRangeCheckOrder(ret); return(ret); } /** * xmlXPtrNewRangeNodes: * @start: the starting node * @end: the ending node * * Create a new xmlXPathObjectPtr of type range using 2 nodes * * Returns the newly created object. */ xmlXPathObjectPtr xmlXPtrNewRangeNodes(xmlNodePtr start, xmlNodePtr end) { xmlXPathObjectPtr ret; if (start == NULL) return(NULL); if (end == NULL) return(NULL); ret = (xmlXPathObjectPtr) xmlMalloc(sizeof(xmlXPathObject)); if (ret == NULL) { xmlXPtrErrMemory("allocating range"); return(NULL); } memset(ret, 0 , (size_t) sizeof(xmlXPathObject)); ret->type = XPATH_RANGE; ret->user = start; ret->index = -1; ret->user2 = end; ret->index2 = -1; xmlXPtrRangeCheckOrder(ret); return(ret); } /** * xmlXPtrNewCollapsedRange: * @start: the starting and ending node * * Create a new xmlXPathObjectPtr of type range using a single nodes * * Returns the newly created object. */ xmlXPathObjectPtr xmlXPtrNewCollapsedRange(xmlNodePtr start) { xmlXPathObjectPtr ret; if (start == NULL) return(NULL); ret = (xmlXPathObjectPtr) xmlMalloc(sizeof(xmlXPathObject)); if (ret == NULL) { xmlXPtrErrMemory("allocating range"); return(NULL); } memset(ret, 0 , (size_t) sizeof(xmlXPathObject)); ret->type = XPATH_RANGE; ret->user = start; ret->index = -1; ret->user2 = NULL; ret->index2 = -1; return(ret); } /** * xmlXPtrNewRangeNodeObject: * @start: the starting node * @end: the ending object * * Create a new xmlXPathObjectPtr of type range from a not to an object * * Returns the newly created object. */ xmlXPathObjectPtr xmlXPtrNewRangeNodeObject(xmlNodePtr start, xmlXPathObjectPtr end) { xmlXPathObjectPtr ret; if (start == NULL) return(NULL); if (end == NULL) return(NULL); switch (end->type) { case XPATH_POINT: case XPATH_RANGE: break; case XPATH_NODESET: /* * Empty set ... */ if (end->nodesetval->nodeNr <= 0) return(NULL); break; default: /* TODO */ return(NULL); } ret = (xmlXPathObjectPtr) xmlMalloc(sizeof(xmlXPathObject)); if (ret == NULL) { xmlXPtrErrMemory("allocating range"); return(NULL); } memset(ret, 0 , (size_t) sizeof(xmlXPathObject)); ret->type = XPATH_RANGE; ret->user = start; ret->index = -1; switch (end->type) { case XPATH_POINT: ret->user2 = end->user; ret->index2 = end->index; break; case XPATH_RANGE: ret->user2 = end->user2; ret->index2 = end->index2; break; case XPATH_NODESET: { ret->user2 = end->nodesetval->nodeTab[end->nodesetval->nodeNr - 1]; ret->index2 = -1; break; } default: STRANGE return(NULL); } xmlXPtrRangeCheckOrder(ret); return(ret); } #define XML_RANGESET_DEFAULT 10 /** * xmlXPtrLocationSetCreate: * @val: an initial xmlXPathObjectPtr, or NULL * * Create a new xmlLocationSetPtr of type double and of value @val * * Returns the newly created object. */ xmlLocationSetPtr xmlXPtrLocationSetCreate(xmlXPathObjectPtr val) { xmlLocationSetPtr ret; ret = (xmlLocationSetPtr) xmlMalloc(sizeof(xmlLocationSet)); if (ret == NULL) { xmlXPtrErrMemory("allocating locationset"); return(NULL); } memset(ret, 0 , (size_t) sizeof(xmlLocationSet)); if (val != NULL) { ret->locTab = (xmlXPathObjectPtr *) xmlMalloc(XML_RANGESET_DEFAULT * sizeof(xmlXPathObjectPtr)); if (ret->locTab == NULL) { xmlXPtrErrMemory("allocating locationset"); xmlFree(ret); return(NULL); } memset(ret->locTab, 0 , XML_RANGESET_DEFAULT * (size_t) sizeof(xmlXPathObjectPtr)); ret->locMax = XML_RANGESET_DEFAULT; ret->locTab[ret->locNr++] = val; } return(ret); } /** * xmlXPtrLocationSetAdd: * @cur: the initial range set * @val: a new xmlXPathObjectPtr * * add a new xmlXPathObjectPtr to an existing LocationSet * If the location already exist in the set @val is freed. */ void xmlXPtrLocationSetAdd(xmlLocationSetPtr cur, xmlXPathObjectPtr val) { int i; if ((cur == NULL) || (val == NULL)) return; /* * check against doublons */ for (i = 0;i < cur->locNr;i++) { if (xmlXPtrRangesEqual(cur->locTab[i], val)) { xmlXPathFreeObject(val); return; } } /* * grow the locTab if needed */ if (cur->locMax == 0) { cur->locTab = (xmlXPathObjectPtr *) xmlMalloc(XML_RANGESET_DEFAULT * sizeof(xmlXPathObjectPtr)); if (cur->locTab == NULL) { xmlXPtrErrMemory("adding location to set"); return; } memset(cur->locTab, 0 , XML_RANGESET_DEFAULT * (size_t) sizeof(xmlXPathObjectPtr)); cur->locMax = XML_RANGESET_DEFAULT; } else if (cur->locNr == cur->locMax) { xmlXPathObjectPtr *temp; cur->locMax *= 2; temp = (xmlXPathObjectPtr *) xmlRealloc(cur->locTab, cur->locMax * sizeof(xmlXPathObjectPtr)); if (temp == NULL) { xmlXPtrErrMemory("adding location to set"); return; } cur->locTab = temp; } cur->locTab[cur->locNr++] = val; } /** * xmlXPtrLocationSetMerge: * @val1: the first LocationSet * @val2: the second LocationSet * * Merges two rangesets, all ranges from @val2 are added to @val1 * * Returns val1 once extended or NULL in case of error. */ xmlLocationSetPtr xmlXPtrLocationSetMerge(xmlLocationSetPtr val1, xmlLocationSetPtr val2) { int i; if (val1 == NULL) return(NULL); if (val2 == NULL) return(val1); /* * !!!!! this can be optimized a lot, knowing that both * val1 and val2 already have unicity of their values. */ for (i = 0;i < val2->locNr;i++) xmlXPtrLocationSetAdd(val1, val2->locTab[i]); return(val1); } /** * xmlXPtrLocationSetDel: * @cur: the initial range set * @val: an xmlXPathObjectPtr * * Removes an xmlXPathObjectPtr from an existing LocationSet */ void xmlXPtrLocationSetDel(xmlLocationSetPtr cur, xmlXPathObjectPtr val) { int i; if (cur == NULL) return; if (val == NULL) return; /* * check against doublons */ for (i = 0;i < cur->locNr;i++) if (cur->locTab[i] == val) break; if (i >= cur->locNr) { #ifdef DEBUG xmlGenericError(xmlGenericErrorContext, "xmlXPtrLocationSetDel: Range wasn't found in RangeList\n"); #endif return; } cur->locNr--; for (;i < cur->locNr;i++) cur->locTab[i] = cur->locTab[i + 1]; cur->locTab[cur->locNr] = NULL; } /** * xmlXPtrLocationSetRemove: * @cur: the initial range set * @val: the index to remove * * Removes an entry from an existing LocationSet list. */ void xmlXPtrLocationSetRemove(xmlLocationSetPtr cur, int val) { if (cur == NULL) return; if (val >= cur->locNr) return; cur->locNr--; for (;val < cur->locNr;val++) cur->locTab[val] = cur->locTab[val + 1]; cur->locTab[cur->locNr] = NULL; } /** * xmlXPtrFreeLocationSet: * @obj: the xmlLocationSetPtr to free * * Free the LocationSet compound (not the actual ranges !). */ void xmlXPtrFreeLocationSet(xmlLocationSetPtr obj) { int i; if (obj == NULL) return; if (obj->locTab != NULL) { for (i = 0;i < obj->locNr; i++) { xmlXPathFreeObject(obj->locTab[i]); } xmlFree(obj->locTab); } xmlFree(obj); } /** * xmlXPtrNewLocationSetNodes: * @start: the start NodePtr value * @end: the end NodePtr value or NULL * * Create a new xmlXPathObjectPtr of type LocationSet and initialize * it with the single range made of the two nodes @start and @end * * Returns the newly created object. */ xmlXPathObjectPtr xmlXPtrNewLocationSetNodes(xmlNodePtr start, xmlNodePtr end) { xmlXPathObjectPtr ret; ret = (xmlXPathObjectPtr) xmlMalloc(sizeof(xmlXPathObject)); if (ret == NULL) { xmlXPtrErrMemory("allocating locationset"); return(NULL); } memset(ret, 0 , (size_t) sizeof(xmlXPathObject)); ret->type = XPATH_LOCATIONSET; if (end == NULL) ret->user = xmlXPtrLocationSetCreate(xmlXPtrNewCollapsedRange(start)); else ret->user = xmlXPtrLocationSetCreate(xmlXPtrNewRangeNodes(start,end)); return(ret); } /** * xmlXPtrNewLocationSetNodeSet: * @set: a node set * * Create a new xmlXPathObjectPtr of type LocationSet and initialize * it with all the nodes from @set * * Returns the newly created object. */ xmlXPathObjectPtr xmlXPtrNewLocationSetNodeSet(xmlNodeSetPtr set) { xmlXPathObjectPtr ret; ret = (xmlXPathObjectPtr) xmlMalloc(sizeof(xmlXPathObject)); if (ret == NULL) { xmlXPtrErrMemory("allocating locationset"); return(NULL); } memset(ret, 0 , (size_t) sizeof(xmlXPathObject)); ret->type = XPATH_LOCATIONSET; if (set != NULL) { int i; xmlLocationSetPtr newset; newset = xmlXPtrLocationSetCreate(NULL); if (newset == NULL) return(ret); for (i = 0;i < set->nodeNr;i++) xmlXPtrLocationSetAdd(newset, xmlXPtrNewCollapsedRange(set->nodeTab[i])); ret->user = (void *) newset; } return(ret); } /** * xmlXPtrWrapLocationSet: * @val: the LocationSet value * * Wrap the LocationSet @val in a new xmlXPathObjectPtr * * Returns the newly created object. */ xmlXPathObjectPtr xmlXPtrWrapLocationSet(xmlLocationSetPtr val) { xmlXPathObjectPtr ret; ret = (xmlXPathObjectPtr) xmlMalloc(sizeof(xmlXPathObject)); if (ret == NULL) { xmlXPtrErrMemory("allocating locationset"); return(NULL); } memset(ret, 0 , (size_t) sizeof(xmlXPathObject)); ret->type = XPATH_LOCATIONSET; ret->user = (void *) val; return(ret); } /************************************************************************ * * * The parser * * * ************************************************************************/ static void xmlXPtrEvalChildSeq(xmlXPathParserContextPtr ctxt, xmlChar *name); /* * Macros for accessing the content. Those should be used only by the parser, * and not exported. * * Dirty macros, i.e. one need to make assumption on the context to use them * * CUR_PTR return the current pointer to the xmlChar to be parsed. * CUR returns the current xmlChar value, i.e. a 8 bit value * in ISO-Latin or UTF-8. * This should be used internally by the parser * only to compare to ASCII values otherwise it would break when * running with UTF-8 encoding. * NXT(n) returns the n'th next xmlChar. Same as CUR is should be used only * to compare on ASCII based substring. * SKIP(n) Skip n xmlChar, and must also be used only to skip ASCII defined * strings within the parser. * CURRENT Returns the current char value, with the full decoding of * UTF-8 if we are using this mode. It returns an int. * NEXT Skip to the next character, this does the proper decoding * in UTF-8 mode. It also pop-up unfinished entities on the fly. * It returns the pointer to the current xmlChar. */ #define CUR (*ctxt->cur) #define SKIP(val) ctxt->cur += (val) #define NXT(val) ctxt->cur[(val)] #define CUR_PTR ctxt->cur #define SKIP_BLANKS \ while (IS_BLANK_CH(*(ctxt->cur))) NEXT #define CURRENT (*ctxt->cur) #define NEXT ((*ctxt->cur) ? ctxt->cur++: ctxt->cur) /* * xmlXPtrGetChildNo: * @ctxt: the XPointer Parser context * @index: the child number * * Move the current node of the nodeset on the stack to the * given child if found */ static void xmlXPtrGetChildNo(xmlXPathParserContextPtr ctxt, int indx) { xmlNodePtr cur = NULL; xmlXPathObjectPtr obj; xmlNodeSetPtr oldset; CHECK_TYPE(XPATH_NODESET); obj = valuePop(ctxt); oldset = obj->nodesetval; if ((indx <= 0) || (oldset == NULL) || (oldset->nodeNr != 1)) { xmlXPathFreeObject(obj); valuePush(ctxt, xmlXPathNewNodeSet(NULL)); return; } cur = xmlXPtrGetNthChild(oldset->nodeTab[0], indx); if (cur == NULL) { xmlXPathFreeObject(obj); valuePush(ctxt, xmlXPathNewNodeSet(NULL)); return; } oldset->nodeTab[0] = cur; valuePush(ctxt, obj); } /** * xmlXPtrEvalXPtrPart: * @ctxt: the XPointer Parser context * @name: the preparsed Scheme for the XPtrPart * * XPtrPart ::= 'xpointer' '(' XPtrExpr ')' * | Scheme '(' SchemeSpecificExpr ')' * * Scheme ::= NCName - 'xpointer' [VC: Non-XPointer schemes] * * SchemeSpecificExpr ::= StringWithBalancedParens * * StringWithBalancedParens ::= * [^()]* ('(' StringWithBalancedParens ')' [^()]*)* * [VC: Parenthesis escaping] * * XPtrExpr ::= Expr [VC: Parenthesis escaping] * * VC: Parenthesis escaping: * The end of an XPointer part is signaled by the right parenthesis ")" * character that is balanced with the left parenthesis "(" character * that began the part. Any unbalanced parenthesis character inside the * expression, even within literals, must be escaped with a circumflex (^) * character preceding it. If the expression contains any literal * occurrences of the circumflex, each must be escaped with an additional * circumflex (that is, ^^). If the unescaped parentheses in the expression * are not balanced, a syntax error results. * * Parse and evaluate an XPtrPart. Basically it generates the unescaped * string and if the scheme is 'xpointer' it will call the XPath interpreter. * * TODO: there is no new scheme registration mechanism */ static void xmlXPtrEvalXPtrPart(xmlXPathParserContextPtr ctxt, xmlChar *name) { xmlChar *buffer, *cur; int len; int level; if (name == NULL) name = xmlXPathParseName(ctxt); if (name == NULL) XP_ERROR(XPATH_EXPR_ERROR); if (CUR != '(') XP_ERROR(XPATH_EXPR_ERROR); NEXT; level = 1; len = xmlStrlen(ctxt->cur); len++; buffer = (xmlChar *) xmlMallocAtomic(len * sizeof (xmlChar)); if (buffer == NULL) { xmlXPtrErrMemory("allocating buffer"); return; } cur = buffer; while (CUR != 0) { if (CUR == ')') { level--; if (level == 0) { NEXT; break; } *cur++ = CUR; } else if (CUR == '(') { level++; *cur++ = CUR; } else if (CUR == '^') { NEXT; if ((CUR == ')') || (CUR == '(') || (CUR == '^')) { *cur++ = CUR; } else { *cur++ = '^'; *cur++ = CUR; } } else { *cur++ = CUR; } NEXT; } *cur = 0; if ((level != 0) && (CUR == 0)) { xmlFree(buffer); XP_ERROR(XPTR_SYNTAX_ERROR); } if (xmlStrEqual(name, (xmlChar *) "xpointer")) { const xmlChar *left = CUR_PTR; CUR_PTR = buffer; /* * To evaluate an xpointer scheme element (4.3) we need: * context initialized to the root * context position initalized to 1 * context size initialized to 1 */ ctxt->context->node = (xmlNodePtr)ctxt->context->doc; ctxt->context->proximityPosition = 1; ctxt->context->contextSize = 1; xmlXPathEvalExpr(ctxt); CUR_PTR=left; } else if (xmlStrEqual(name, (xmlChar *) "element")) { const xmlChar *left = CUR_PTR; xmlChar *name2; CUR_PTR = buffer; if (buffer[0] == '/') { xmlXPathRoot(ctxt); xmlXPtrEvalChildSeq(ctxt, NULL); } else { name2 = xmlXPathParseName(ctxt); if (name2 == NULL) { CUR_PTR = left; xmlFree(buffer); XP_ERROR(XPATH_EXPR_ERROR); } xmlXPtrEvalChildSeq(ctxt, name2); } CUR_PTR = left; #ifdef XPTR_XMLNS_SCHEME } else if (xmlStrEqual(name, (xmlChar *) "xmlns")) { const xmlChar *left = CUR_PTR; xmlChar *prefix; xmlChar *URI; xmlURIPtr value; CUR_PTR = buffer; prefix = xmlXPathParseNCName(ctxt); if (prefix == NULL) { xmlFree(buffer); xmlFree(name); XP_ERROR(XPTR_SYNTAX_ERROR); } SKIP_BLANKS; if (CUR != '=') { xmlFree(prefix); xmlFree(buffer); xmlFree(name); XP_ERROR(XPTR_SYNTAX_ERROR); } NEXT; SKIP_BLANKS; /* @@ check escaping in the XPointer WD */ value = xmlParseURI((const char *)ctxt->cur); if (value == NULL) { xmlFree(prefix); xmlFree(buffer); xmlFree(name); XP_ERROR(XPTR_SYNTAX_ERROR); } URI = xmlSaveUri(value); xmlFreeURI(value); if (URI == NULL) { xmlFree(prefix); xmlFree(buffer); xmlFree(name); XP_ERROR(XPATH_MEMORY_ERROR); } xmlXPathRegisterNs(ctxt->context, prefix, URI); CUR_PTR = left; xmlFree(URI); xmlFree(prefix); #endif /* XPTR_XMLNS_SCHEME */ } else { xmlXPtrErr(ctxt, XML_XPTR_UNKNOWN_SCHEME, "unsupported scheme '%s'\n", name); } xmlFree(buffer); xmlFree(name); } /** * xmlXPtrEvalFullXPtr: * @ctxt: the XPointer Parser context * @name: the preparsed Scheme for the first XPtrPart * * FullXPtr ::= XPtrPart (S? XPtrPart)* * * As the specs says: * ----------- * When multiple XPtrParts are provided, they must be evaluated in * left-to-right order. If evaluation of one part fails, the nexti * is evaluated. The following conditions cause XPointer part failure: * * - An unknown scheme * - A scheme that does not locate any sub-resource present in the resource * - A scheme that is not applicable to the media type of the resource * * The XPointer application must consume a failed XPointer part and * attempt to evaluate the next one, if any. The result of the first * XPointer part whose evaluation succeeds is taken to be the fragment * located by the XPointer as a whole. If all the parts fail, the result * for the XPointer as a whole is a sub-resource error. * ----------- * * Parse and evaluate a Full XPtr i.e. possibly a cascade of XPath based * expressions or other schemes. */ static void xmlXPtrEvalFullXPtr(xmlXPathParserContextPtr ctxt, xmlChar *name) { if (name == NULL) name = xmlXPathParseName(ctxt); if (name == NULL) XP_ERROR(XPATH_EXPR_ERROR); while (name != NULL) { xmlXPtrEvalXPtrPart(ctxt, name); /* in case of syntax error, break here */ if (ctxt->error != XPATH_EXPRESSION_OK) return; /* * If the returned value is a non-empty nodeset * or location set, return here. */ if (ctxt->value != NULL) { xmlXPathObjectPtr obj = ctxt->value; switch (obj->type) { case XPATH_LOCATIONSET: { xmlLocationSetPtr loc = ctxt->value->user; if ((loc != NULL) && (loc->locNr > 0)) return; break; } case XPATH_NODESET: { xmlNodeSetPtr loc = ctxt->value->nodesetval; if ((loc != NULL) && (loc->nodeNr > 0)) return; break; } default: break; } /* * Evaluating to improper values is equivalent to * a sub-resource error, clean-up the stack */ do { obj = valuePop(ctxt); if (obj != NULL) { xmlXPathFreeObject(obj); } } while (obj != NULL); } /* * Is there another XPointer part. */ SKIP_BLANKS; name = xmlXPathParseName(ctxt); } } /** * xmlXPtrEvalChildSeq: * @ctxt: the XPointer Parser context * @name: a possible ID name of the child sequence * * ChildSeq ::= '/1' ('/' [0-9]*)* * | Name ('/' [0-9]*)+ * * Parse and evaluate a Child Sequence. This routine also handle the * case of a Bare Name used to get a document ID. */ static void xmlXPtrEvalChildSeq(xmlXPathParserContextPtr ctxt, xmlChar *name) { /* * XPointer don't allow by syntax to address in mutirooted trees * this might prove useful in some cases, warn about it. */ if ((name == NULL) && (CUR == '/') && (NXT(1) != '1')) { xmlXPtrErr(ctxt, XML_XPTR_CHILDSEQ_START, "warning: ChildSeq not starting by /1\n", NULL); } if (name != NULL) { valuePush(ctxt, xmlXPathNewString(name)); xmlFree(name); xmlXPathIdFunction(ctxt, 1); CHECK_ERROR; } while (CUR == '/') { int child = 0; NEXT; while ((CUR >= '0') && (CUR <= '9')) { child = child * 10 + (CUR - '0'); NEXT; } xmlXPtrGetChildNo(ctxt, child); } } /** * xmlXPtrEvalXPointer: * @ctxt: the XPointer Parser context * * XPointer ::= Name * | ChildSeq * | FullXPtr * * Parse and evaluate an XPointer */ static void xmlXPtrEvalXPointer(xmlXPathParserContextPtr ctxt) { if (ctxt->valueTab == NULL) { /* Allocate the value stack */ ctxt->valueTab = (xmlXPathObjectPtr *) xmlMalloc(10 * sizeof(xmlXPathObjectPtr)); if (ctxt->valueTab == NULL) { xmlXPtrErrMemory("allocating evaluation context"); return; } ctxt->valueNr = 0; ctxt->valueMax = 10; ctxt->value = NULL; } SKIP_BLANKS; if (CUR == '/') { xmlXPathRoot(ctxt); xmlXPtrEvalChildSeq(ctxt, NULL); } else { xmlChar *name; name = xmlXPathParseName(ctxt); if (name == NULL) XP_ERROR(XPATH_EXPR_ERROR); if (CUR == '(') { xmlXPtrEvalFullXPtr(ctxt, name); /* Short evaluation */ return; } else { /* this handle both Bare Names and Child Sequences */ xmlXPtrEvalChildSeq(ctxt, name); } } SKIP_BLANKS; if (CUR != 0) XP_ERROR(XPATH_EXPR_ERROR); } /************************************************************************ * * * General routines * * * ************************************************************************/ void xmlXPtrStringRangeFunction(xmlXPathParserContextPtr ctxt, int nargs); void xmlXPtrStartPointFunction(xmlXPathParserContextPtr ctxt, int nargs); void xmlXPtrEndPointFunction(xmlXPathParserContextPtr ctxt, int nargs); void xmlXPtrHereFunction(xmlXPathParserContextPtr ctxt, int nargs); void xmlXPtrOriginFunction(xmlXPathParserContextPtr ctxt, int nargs); void xmlXPtrRangeInsideFunction(xmlXPathParserContextPtr ctxt, int nargs); void xmlXPtrRangeFunction(xmlXPathParserContextPtr ctxt, int nargs); /** * xmlXPtrNewContext: * @doc: the XML document * @here: the node that directly contains the XPointer being evaluated or NULL * @origin: the element from which a user or program initiated traversal of * the link, or NULL. * * Create a new XPointer context * * Returns the xmlXPathContext just allocated. */ xmlXPathContextPtr xmlXPtrNewContext(xmlDocPtr doc, xmlNodePtr here, xmlNodePtr origin) { xmlXPathContextPtr ret; ret = xmlXPathNewContext(doc); if (ret == NULL) return(ret); ret->xptr = 1; ret->here = here; ret->origin = origin; xmlXPathRegisterFunc(ret, (xmlChar *)"range-to", xmlXPtrRangeToFunction); xmlXPathRegisterFunc(ret, (xmlChar *)"range", xmlXPtrRangeFunction); xmlXPathRegisterFunc(ret, (xmlChar *)"range-inside", xmlXPtrRangeInsideFunction); xmlXPathRegisterFunc(ret, (xmlChar *)"string-range", xmlXPtrStringRangeFunction); xmlXPathRegisterFunc(ret, (xmlChar *)"start-point", xmlXPtrStartPointFunction); xmlXPathRegisterFunc(ret, (xmlChar *)"end-point", xmlXPtrEndPointFunction); xmlXPathRegisterFunc(ret, (xmlChar *)"here", xmlXPtrHereFunction); xmlXPathRegisterFunc(ret, (xmlChar *)" origin", xmlXPtrOriginFunction); return(ret); } /** * xmlXPtrEval: * @str: the XPointer expression * @ctx: the XPointer context * * Evaluate the XPath Location Path in the given context. * * Returns the xmlXPathObjectPtr resulting from the evaluation or NULL. * the caller has to free the object. */ xmlXPathObjectPtr xmlXPtrEval(const xmlChar *str, xmlXPathContextPtr ctx) { xmlXPathParserContextPtr ctxt; xmlXPathObjectPtr res = NULL, tmp; xmlXPathObjectPtr init = NULL; int stack = 0; xmlXPathInit(); if ((ctx == NULL) || (str == NULL)) return(NULL); ctxt = xmlXPathNewParserContext(str, ctx); ctxt->xptr = 1; xmlXPtrEvalXPointer(ctxt); if ((ctxt->value != NULL) && (ctxt->value->type != XPATH_NODESET) && (ctxt->value->type != XPATH_LOCATIONSET)) { xmlXPtrErr(ctxt, XML_XPTR_EVAL_FAILED, "xmlXPtrEval: evaluation failed to return a node set\n", NULL); } else { res = valuePop(ctxt); } do { tmp = valuePop(ctxt); if (tmp != NULL) { if (tmp != init) { if (tmp->type == XPATH_NODESET) { /* * Evaluation may push a root nodeset which is unused */ xmlNodeSetPtr set; set = tmp->nodesetval; if ((set->nodeNr != 1) || (set->nodeTab[0] != (xmlNodePtr) ctx->doc)) stack++; } else stack++; } xmlXPathFreeObject(tmp); } } while (tmp != NULL); if (stack != 0) { xmlXPtrErr(ctxt, XML_XPTR_EXTRA_OBJECTS, "xmlXPtrEval: object(s) left on the eval stack\n", NULL); } if (ctxt->error != XPATH_EXPRESSION_OK) { xmlXPathFreeObject(res); res = NULL; } xmlXPathFreeParserContext(ctxt); return(res); } /** * xmlXPtrBuildRangeNodeList: * @range: a range object * * Build a node list tree copy of the range * * Returns an xmlNodePtr list or NULL. * the caller has to free the node tree. */ static xmlNodePtr xmlXPtrBuildRangeNodeList(xmlXPathObjectPtr range) { /* pointers to generated nodes */ xmlNodePtr list = NULL, last = NULL, parent = NULL, tmp; /* pointers to traversal nodes */ xmlNodePtr start, cur, end; int index1, index2; if (range == NULL) return(NULL); if (range->type != XPATH_RANGE) return(NULL); start = (xmlNodePtr) range->user; if (start == NULL) return(NULL); end = range->user2; if (end == NULL) return(xmlCopyNode(start, 1)); cur = start; index1 = range->index; index2 = range->index2; while (cur != NULL) { if (cur == end) { if (cur->type == XML_TEXT_NODE) { const xmlChar *content = cur->content; int len; if (content == NULL) { tmp = xmlNewTextLen(NULL, 0); } else { len = index2; if ((cur == start) && (index1 > 1)) { content += (index1 - 1); len -= (index1 - 1); index1 = 0; } else { len = index2; } tmp = xmlNewTextLen(content, len); } /* single sub text node selection */ if (list == NULL) return(tmp); /* prune and return full set */ if (last != NULL) xmlAddNextSibling(last, tmp); else xmlAddChild(parent, tmp); return(list); } else { tmp = xmlCopyNode(cur, 0); if (list == NULL) list = tmp; else { if (last != NULL) xmlAddNextSibling(last, tmp); else xmlAddChild(parent, tmp); } last = NULL; parent = tmp; if (index2 > 1) { end = xmlXPtrGetNthChild(cur, index2 - 1); index2 = 0; } if ((cur == start) && (index1 > 1)) { cur = xmlXPtrGetNthChild(cur, index1 - 1); index1 = 0; } else { cur = cur->children; } /* * Now gather the remaining nodes from cur to end */ continue; /* while */ } } else if ((cur == start) && (list == NULL) /* looks superfluous but ... */ ) { if ((cur->type == XML_TEXT_NODE) || (cur->type == XML_CDATA_SECTION_NODE)) { const xmlChar *content = cur->content; if (content == NULL) { tmp = xmlNewTextLen(NULL, 0); } else { if (index1 > 1) { content += (index1 - 1); } tmp = xmlNewText(content); } last = list = tmp; } else { if ((cur == start) && (index1 > 1)) { tmp = xmlCopyNode(cur, 0); list = tmp; parent = tmp; last = NULL; cur = xmlXPtrGetNthChild(cur, index1 - 1); index1 = 0; /* * Now gather the remaining nodes from cur to end */ continue; /* while */ } tmp = xmlCopyNode(cur, 1); list = tmp; parent = NULL; last = tmp; } } else { tmp = NULL; switch (cur->type) { case XML_DTD_NODE: case XML_ELEMENT_DECL: case XML_ATTRIBUTE_DECL: case XML_ENTITY_NODE: /* Do not copy DTD informations */ break; case XML_ENTITY_DECL: TODO /* handle crossing entities -> stack needed */ break; case XML_XINCLUDE_START: case XML_XINCLUDE_END: /* don't consider it part of the tree content */ break; case XML_ATTRIBUTE_NODE: /* Humm, should not happen ! */ STRANGE break; default: tmp = xmlCopyNode(cur, 1); break; } if (tmp != NULL) { if ((list == NULL) || ((last == NULL) && (parent == NULL))) { STRANGE return(NULL); } if (last != NULL) xmlAddNextSibling(last, tmp); else { xmlAddChild(parent, tmp); last = tmp; } } } /* * Skip to next node in document order */ if ((list == NULL) || ((last == NULL) && (parent == NULL))) { STRANGE return(NULL); } cur = xmlXPtrAdvanceNode(cur, NULL); } return(list); } /** * xmlXPtrBuildNodeList: * @obj: the XPointer result from the evaluation. * * Build a node list tree copy of the XPointer result. * This will drop Attributes and Namespace declarations. * * Returns an xmlNodePtr list or NULL. * the caller has to free the node tree. */ xmlNodePtr xmlXPtrBuildNodeList(xmlXPathObjectPtr obj) { xmlNodePtr list = NULL, last = NULL; int i; if (obj == NULL) return(NULL); switch (obj->type) { case XPATH_NODESET: { xmlNodeSetPtr set = obj->nodesetval; if (set == NULL) return(NULL); for (i = 0;i < set->nodeNr;i++) { if (set->nodeTab[i] == NULL) continue; switch (set->nodeTab[i]->type) { case XML_TEXT_NODE: case XML_CDATA_SECTION_NODE: case XML_ELEMENT_NODE: case XML_ENTITY_REF_NODE: case XML_ENTITY_NODE: case XML_PI_NODE: case XML_COMMENT_NODE: case XML_DOCUMENT_NODE: case XML_HTML_DOCUMENT_NODE: #ifdef LIBXML_DOCB_ENABLED case XML_DOCB_DOCUMENT_NODE: #endif case XML_XINCLUDE_START: case XML_XINCLUDE_END: break; case XML_ATTRIBUTE_NODE: case XML_NAMESPACE_DECL: case XML_DOCUMENT_TYPE_NODE: case XML_DOCUMENT_FRAG_NODE: case XML_NOTATION_NODE: case XML_DTD_NODE: case XML_ELEMENT_DECL: case XML_ATTRIBUTE_DECL: case XML_ENTITY_DECL: continue; /* for */ } if (last == NULL) list = last = xmlCopyNode(set->nodeTab[i], 1); else { xmlAddNextSibling(last, xmlCopyNode(set->nodeTab[i], 1)); if (last->next != NULL) last = last->next; } } break; } case XPATH_LOCATIONSET: { xmlLocationSetPtr set = (xmlLocationSetPtr) obj->user; if (set == NULL) return(NULL); for (i = 0;i < set->locNr;i++) { if (last == NULL) list = last = xmlXPtrBuildNodeList(set->locTab[i]); else xmlAddNextSibling(last, xmlXPtrBuildNodeList(set->locTab[i])); if (last != NULL) { while (last->next != NULL) last = last->next; } } break; } case XPATH_RANGE: return(xmlXPtrBuildRangeNodeList(obj)); case XPATH_POINT: return(xmlCopyNode(obj->user, 0)); default: break; } return(list); } /************************************************************************ * * * XPointer functions * * * ************************************************************************/ /** * xmlXPtrNbLocChildren: * @node: an xmlNodePtr * * Count the number of location children of @node or the length of the * string value in case of text/PI/Comments nodes * * Returns the number of location children */ static int xmlXPtrNbLocChildren(xmlNodePtr node) { int ret = 0; if (node == NULL) return(-1); switch (node->type) { case XML_HTML_DOCUMENT_NODE: case XML_DOCUMENT_NODE: case XML_ELEMENT_NODE: node = node->children; while (node != NULL) { if (node->type == XML_ELEMENT_NODE) ret++; node = node->next; } break; case XML_ATTRIBUTE_NODE: return(-1); case XML_PI_NODE: case XML_COMMENT_NODE: case XML_TEXT_NODE: case XML_CDATA_SECTION_NODE: case XML_ENTITY_REF_NODE: ret = xmlStrlen(node->content); break; default: return(-1); } return(ret); } /** * xmlXPtrHereFunction: * @ctxt: the XPointer Parser context * @nargs: the number of args * * Function implementing here() operation * as described in 5.4.3 */ void xmlXPtrHereFunction(xmlXPathParserContextPtr ctxt, int nargs) { CHECK_ARITY(0); if (ctxt->context->here == NULL) XP_ERROR(XPTR_SYNTAX_ERROR); valuePush(ctxt, xmlXPtrNewLocationSetNodes(ctxt->context->here, NULL)); } /** * xmlXPtrOriginFunction: * @ctxt: the XPointer Parser context * @nargs: the number of args * * Function implementing origin() operation * as described in 5.4.3 */ void xmlXPtrOriginFunction(xmlXPathParserContextPtr ctxt, int nargs) { CHECK_ARITY(0); if (ctxt->context->origin == NULL) XP_ERROR(XPTR_SYNTAX_ERROR); valuePush(ctxt, xmlXPtrNewLocationSetNodes(ctxt->context->origin, NULL)); } /** * xmlXPtrStartPointFunction: * @ctxt: the XPointer Parser context * @nargs: the number of args * * Function implementing start-point() operation * as described in 5.4.3 * ---------------- * location-set start-point(location-set) * * For each location x in the argument location-set, start-point adds a * location of type point to the result location-set. That point represents * the start point of location x and is determined by the following rules: * * - If x is of type point, the start point is x. * - If x is of type range, the start point is the start point of x. * - If x is of type root, element, text, comment, or processing instruction, * - the container node of the start point is x and the index is 0. * - If x is of type attribute or namespace, the function must signal a * syntax error. * ---------------- * */ void xmlXPtrStartPointFunction(xmlXPathParserContextPtr ctxt, int nargs) { xmlXPathObjectPtr tmp, obj, point; xmlLocationSetPtr newset = NULL; xmlLocationSetPtr oldset = NULL; CHECK_ARITY(1); if ((ctxt->value == NULL) || ((ctxt->value->type != XPATH_LOCATIONSET) && (ctxt->value->type != XPATH_NODESET))) XP_ERROR(XPATH_INVALID_TYPE) obj = valuePop(ctxt); if (obj->type == XPATH_NODESET) { /* * First convert to a location set */ tmp = xmlXPtrNewLocationSetNodeSet(obj->nodesetval); xmlXPathFreeObject(obj); obj = tmp; } newset = xmlXPtrLocationSetCreate(NULL); if (newset == NULL) { xmlXPathFreeObject(obj); XP_ERROR(XPATH_MEMORY_ERROR); } oldset = (xmlLocationSetPtr) obj->user; if (oldset != NULL) { int i; for (i = 0; i < oldset->locNr; i++) { tmp = oldset->locTab[i]; if (tmp == NULL) continue; point = NULL; switch (tmp->type) { case XPATH_POINT: point = xmlXPtrNewPoint(tmp->user, tmp->index); break; case XPATH_RANGE: { xmlNodePtr node = tmp->user; if (node != NULL) { if (node->type == XML_ATTRIBUTE_NODE) { /* TODO: Namespace Nodes ??? */ xmlXPathFreeObject(obj); xmlXPtrFreeLocationSet(newset); XP_ERROR(XPTR_SYNTAX_ERROR); } point = xmlXPtrNewPoint(node, tmp->index); } break; } default: /*** Should we raise an error ? xmlXPathFreeObject(obj); xmlXPathFreeObject(newset); XP_ERROR(XPATH_INVALID_TYPE) ***/ break; } if (point != NULL) xmlXPtrLocationSetAdd(newset, point); } } xmlXPathFreeObject(obj); valuePush(ctxt, xmlXPtrWrapLocationSet(newset)); } /** * xmlXPtrEndPointFunction: * @ctxt: the XPointer Parser context * @nargs: the number of args * * Function implementing end-point() operation * as described in 5.4.3 * ---------------------------- * location-set end-point(location-set) * * For each location x in the argument location-set, end-point adds a * location of type point to the result location-set. That point represents * the end point of location x and is determined by the following rules: * * - If x is of type point, the resulting point is x. * - If x is of type range, the resulting point is the end point of x. * - If x is of type root or element, the container node of the resulting * point is x and the index is the number of location children of x. * - If x is of type text, comment, or processing instruction, the container * node of the resulting point is x and the index is the length of the * string-value of x. * - If x is of type attribute or namespace, the function must signal a * syntax error. * ---------------------------- */ void xmlXPtrEndPointFunction(xmlXPathParserContextPtr ctxt, int nargs) { xmlXPathObjectPtr tmp, obj, point; xmlLocationSetPtr newset = NULL; xmlLocationSetPtr oldset = NULL; CHECK_ARITY(1); if ((ctxt->value == NULL) || ((ctxt->value->type != XPATH_LOCATIONSET) && (ctxt->value->type != XPATH_NODESET))) XP_ERROR(XPATH_INVALID_TYPE) obj = valuePop(ctxt); if (obj->type == XPATH_NODESET) { /* * First convert to a location set */ tmp = xmlXPtrNewLocationSetNodeSet(obj->nodesetval); xmlXPathFreeObject(obj); obj = tmp; } newset = xmlXPtrLocationSetCreate(NULL); oldset = (xmlLocationSetPtr) obj->user; if (oldset != NULL) { int i; for (i = 0; i < oldset->locNr; i++) { tmp = oldset->locTab[i]; if (tmp == NULL) continue; point = NULL; switch (tmp->type) { case XPATH_POINT: point = xmlXPtrNewPoint(tmp->user, tmp->index); break; case XPATH_RANGE: { xmlNodePtr node = tmp->user2; if (node != NULL) { if (node->type == XML_ATTRIBUTE_NODE) { /* TODO: Namespace Nodes ??? */ xmlXPathFreeObject(obj); xmlXPtrFreeLocationSet(newset); XP_ERROR(XPTR_SYNTAX_ERROR); } point = xmlXPtrNewPoint(node, tmp->index2); } else if (tmp->user == NULL) { point = xmlXPtrNewPoint(node, xmlXPtrNbLocChildren(node)); } break; } default: /*** Should we raise an error ? xmlXPathFreeObject(obj); xmlXPathFreeObject(newset); XP_ERROR(XPATH_INVALID_TYPE) ***/ break; } if (point != NULL) xmlXPtrLocationSetAdd(newset, point); } } xmlXPathFreeObject(obj); valuePush(ctxt, xmlXPtrWrapLocationSet(newset)); } /** * xmlXPtrCoveringRange: * @ctxt: the XPointer Parser context * @loc: the location for which the covering range must be computed * * A covering range is a range that wholly encompasses a location * Section 5.3.3. Covering Ranges for All Location Types * http://www.w3.org/TR/xptr#N2267 * * Returns a new location or NULL in case of error */ static xmlXPathObjectPtr xmlXPtrCoveringRange(xmlXPathParserContextPtr ctxt, xmlXPathObjectPtr loc) { if (loc == NULL) return(NULL); if ((ctxt == NULL) || (ctxt->context == NULL) || (ctxt->context->doc == NULL)) return(NULL); switch (loc->type) { case XPATH_POINT: return(xmlXPtrNewRange(loc->user, loc->index, loc->user, loc->index)); case XPATH_RANGE: if (loc->user2 != NULL) { return(xmlXPtrNewRange(loc->user, loc->index, loc->user2, loc->index2)); } else { xmlNodePtr node = (xmlNodePtr) loc->user; if (node == (xmlNodePtr) ctxt->context->doc) { return(xmlXPtrNewRange(node, 0, node, xmlXPtrGetArity(node))); } else { switch (node->type) { case XML_ATTRIBUTE_NODE: /* !!! our model is slightly different than XPath */ return(xmlXPtrNewRange(node, 0, node, xmlXPtrGetArity(node))); case XML_ELEMENT_NODE: case XML_TEXT_NODE: case XML_CDATA_SECTION_NODE: case XML_ENTITY_REF_NODE: case XML_PI_NODE: case XML_COMMENT_NODE: case XML_DOCUMENT_NODE: case XML_NOTATION_NODE: case XML_HTML_DOCUMENT_NODE: { int indx = xmlXPtrGetIndex(node); node = node->parent; return(xmlXPtrNewRange(node, indx - 1, node, indx + 1)); } default: return(NULL); } } } default: TODO /* missed one case ??? */ } return(NULL); } /** * xmlXPtrRangeFunction: * @ctxt: the XPointer Parser context * @nargs: the number of args * * Function implementing the range() function 5.4.3 * location-set range(location-set ) * * The range function returns ranges covering the locations in * the argument location-set. For each location x in the argument * location-set, a range location representing the covering range of * x is added to the result location-set. */ void xmlXPtrRangeFunction(xmlXPathParserContextPtr ctxt, int nargs) { int i; xmlXPathObjectPtr set; xmlLocationSetPtr oldset; xmlLocationSetPtr newset; CHECK_ARITY(1); if ((ctxt->value == NULL) || ((ctxt->value->type != XPATH_LOCATIONSET) && (ctxt->value->type != XPATH_NODESET))) XP_ERROR(XPATH_INVALID_TYPE) set = valuePop(ctxt); if (set->type == XPATH_NODESET) { xmlXPathObjectPtr tmp; /* * First convert to a location set */ tmp = xmlXPtrNewLocationSetNodeSet(set->nodesetval); xmlXPathFreeObject(set); set = tmp; } oldset = (xmlLocationSetPtr) set->user; /* * The loop is to compute the covering range for each item and add it */ newset = xmlXPtrLocationSetCreate(NULL); for (i = 0;i < oldset->locNr;i++) { xmlXPtrLocationSetAdd(newset, xmlXPtrCoveringRange(ctxt, oldset->locTab[i])); } /* * Save the new value and cleanup */ valuePush(ctxt, xmlXPtrWrapLocationSet(newset)); xmlXPathFreeObject(set); } /** * xmlXPtrInsideRange: * @ctxt: the XPointer Parser context * @loc: the location for which the inside range must be computed * * A inside range is a range described in the range-inside() description * * Returns a new location or NULL in case of error */ static xmlXPathObjectPtr xmlXPtrInsideRange(xmlXPathParserContextPtr ctxt, xmlXPathObjectPtr loc) { if (loc == NULL) return(NULL); if ((ctxt == NULL) || (ctxt->context == NULL) || (ctxt->context->doc == NULL)) return(NULL); switch (loc->type) { case XPATH_POINT: { xmlNodePtr node = (xmlNodePtr) loc->user; switch (node->type) { case XML_PI_NODE: case XML_COMMENT_NODE: case XML_TEXT_NODE: case XML_CDATA_SECTION_NODE: { if (node->content == NULL) { return(xmlXPtrNewRange(node, 0, node, 0)); } else { return(xmlXPtrNewRange(node, 0, node, xmlStrlen(node->content))); } } case XML_ATTRIBUTE_NODE: case XML_ELEMENT_NODE: case XML_ENTITY_REF_NODE: case XML_DOCUMENT_NODE: case XML_NOTATION_NODE: case XML_HTML_DOCUMENT_NODE: { return(xmlXPtrNewRange(node, 0, node, xmlXPtrGetArity(node))); } default: break; } return(NULL); } case XPATH_RANGE: { xmlNodePtr node = (xmlNodePtr) loc->user; if (loc->user2 != NULL) { return(xmlXPtrNewRange(node, loc->index, loc->user2, loc->index2)); } else { switch (node->type) { case XML_PI_NODE: case XML_COMMENT_NODE: case XML_TEXT_NODE: case XML_CDATA_SECTION_NODE: { if (node->content == NULL) { return(xmlXPtrNewRange(node, 0, node, 0)); } else { return(xmlXPtrNewRange(node, 0, node, xmlStrlen(node->content))); } } case XML_ATTRIBUTE_NODE: case XML_ELEMENT_NODE: case XML_ENTITY_REF_NODE: case XML_DOCUMENT_NODE: case XML_NOTATION_NODE: case XML_HTML_DOCUMENT_NODE: { return(xmlXPtrNewRange(node, 0, node, xmlXPtrGetArity(node))); } default: break; } return(NULL); } } default: TODO /* missed one case ??? */ } return(NULL); } /** * xmlXPtrRangeInsideFunction: * @ctxt: the XPointer Parser context * @nargs: the number of args * * Function implementing the range-inside() function 5.4.3 * location-set range-inside(location-set ) * * The range-inside function returns ranges covering the contents of * the locations in the argument location-set. For each location x in * the argument location-set, a range location is added to the result * location-set. If x is a range location, then x is added to the * result location-set. If x is not a range location, then x is used * as the container location of the start and end points of the range * location to be added; the index of the start point of the range is * zero; if the end point is a character point then its index is the * length of the string-value of x, and otherwise is the number of * location children of x. * */ void xmlXPtrRangeInsideFunction(xmlXPathParserContextPtr ctxt, int nargs) { int i; xmlXPathObjectPtr set; xmlLocationSetPtr oldset; xmlLocationSetPtr newset; CHECK_ARITY(1); if ((ctxt->value == NULL) || ((ctxt->value->type != XPATH_LOCATIONSET) && (ctxt->value->type != XPATH_NODESET))) XP_ERROR(XPATH_INVALID_TYPE) set = valuePop(ctxt); if (set->type == XPATH_NODESET) { xmlXPathObjectPtr tmp; /* * First convert to a location set */ tmp = xmlXPtrNewLocationSetNodeSet(set->nodesetval); xmlXPathFreeObject(set); set = tmp; } oldset = (xmlLocationSetPtr) set->user; /* * The loop is to compute the covering range for each item and add it */ newset = xmlXPtrLocationSetCreate(NULL); for (i = 0;i < oldset->locNr;i++) { xmlXPtrLocationSetAdd(newset, xmlXPtrInsideRange(ctxt, oldset->locTab[i])); } /* * Save the new value and cleanup */ valuePush(ctxt, xmlXPtrWrapLocationSet(newset)); xmlXPathFreeObject(set); } /** * xmlXPtrRangeToFunction: * @ctxt: the XPointer Parser context * @nargs: the number of args * * Implement the range-to() XPointer function */ void xmlXPtrRangeToFunction(xmlXPathParserContextPtr ctxt, int nargs) { xmlXPathObjectPtr range; const xmlChar *cur; xmlXPathObjectPtr res, obj; xmlXPathObjectPtr tmp; xmlLocationSetPtr newset = NULL; xmlNodeSetPtr oldset; int i; if (ctxt == NULL) return; CHECK_ARITY(1); /* * Save the expression pointer since we will have to evaluate * it multiple times. Initialize the new set. */ CHECK_TYPE(XPATH_NODESET); obj = valuePop(ctxt); oldset = obj->nodesetval; ctxt->context->node = NULL; cur = ctxt->cur; newset = xmlXPtrLocationSetCreate(NULL); for (i = 0; i < oldset->nodeNr; i++) { ctxt->cur = cur; /* * Run the evaluation with a node list made of a single item * in the nodeset. */ ctxt->context->node = oldset->nodeTab[i]; tmp = xmlXPathNewNodeSet(ctxt->context->node); valuePush(ctxt, tmp); xmlXPathEvalExpr(ctxt); CHECK_ERROR; /* * The result of the evaluation need to be tested to * decided whether the filter succeeded or not */ res = valuePop(ctxt); range = xmlXPtrNewRangeNodeObject(oldset->nodeTab[i], res); if (range != NULL) { xmlXPtrLocationSetAdd(newset, range); } /* * Cleanup */ if (res != NULL) xmlXPathFreeObject(res); if (ctxt->value == tmp) { res = valuePop(ctxt); xmlXPathFreeObject(res); } ctxt->context->node = NULL; } /* * The result is used as the new evaluation set. */ xmlXPathFreeObject(obj); ctxt->context->node = NULL; ctxt->context->contextSize = -1; ctxt->context->proximityPosition = -1; valuePush(ctxt, xmlXPtrWrapLocationSet(newset)); } /** * xmlXPtrAdvanceNode: * @cur: the node * @level: incremented/decremented to show level in tree * * Advance to the next element or text node in document order * TODO: add a stack for entering/exiting entities * * Returns -1 in case of failure, 0 otherwise */ xmlNodePtr xmlXPtrAdvanceNode(xmlNodePtr cur, int *level) { next: if (cur == NULL) return(NULL); if (cur->children != NULL) { cur = cur->children ; if (level != NULL) (*level)++; goto found; } skip: /* This label should only be needed if something is wrong! */ if (cur->next != NULL) { cur = cur->next; goto found; } do { cur = cur->parent; if (level != NULL) (*level)--; if (cur == NULL) return(NULL); if (cur->next != NULL) { cur = cur->next; goto found; } } while (cur != NULL); found: if ((cur->type != XML_ELEMENT_NODE) && (cur->type != XML_TEXT_NODE) && (cur->type != XML_DOCUMENT_NODE) && (cur->type != XML_HTML_DOCUMENT_NODE) && (cur->type != XML_CDATA_SECTION_NODE)) { if (cur->type == XML_ENTITY_REF_NODE) { /* Shouldn't happen */ TODO goto skip; } goto next; } return(cur); } /** * xmlXPtrAdvanceChar: * @node: the node * @indx: the indx * @bytes: the number of bytes * * Advance a point of the associated number of bytes (not UTF8 chars) * * Returns -1 in case of failure, 0 otherwise */ static int xmlXPtrAdvanceChar(xmlNodePtr *node, int *indx, int bytes) { xmlNodePtr cur; int pos; int len; if ((node == NULL) || (indx == NULL)) return(-1); cur = *node; if (cur == NULL) return(-1); pos = *indx; while (bytes >= 0) { /* * First position to the beginning of the first text node * corresponding to this point */ while ((cur != NULL) && ((cur->type == XML_ELEMENT_NODE) || (cur->type == XML_DOCUMENT_NODE) || (cur->type == XML_HTML_DOCUMENT_NODE))) { if (pos > 0) { cur = xmlXPtrGetNthChild(cur, pos); pos = 0; } else { cur = xmlXPtrAdvanceNode(cur, NULL); pos = 0; } } if (cur == NULL) { *node = NULL; *indx = 0; return(-1); } /* * if there is no move needed return the current value. */ if (pos == 0) pos = 1; if (bytes == 0) { *node = cur; *indx = pos; return(0); } /* * We should have a text (or cdata) node ... */ len = 0; if ((cur->type != XML_ELEMENT_NODE) && (cur->content != NULL)) { len = xmlStrlen(cur->content); } if (pos > len) { /* Strange, the indx in the text node is greater than it's len */ STRANGE pos = len; } if (pos + bytes >= len) { bytes -= (len - pos); cur = xmlXPtrAdvanceNode(cur, NULL); pos = 0; } else if (pos + bytes < len) { pos += bytes; *node = cur; *indx = pos; return(0); } } return(-1); } /** * xmlXPtrMatchString: * @string: the string to search * @start: the start textnode * @startindex: the start index * @end: the end textnode IN/OUT * @endindex: the end index IN/OUT * * Check whether the document contains @string at the position * (@start, @startindex) and limited by the (@end, @endindex) point * * Returns -1 in case of failure, 0 if not found, 1 if found in which case * (@start, @startindex) will indicate the position of the beginning * of the range and (@end, @endindex) will indicate the end * of the range */ static int xmlXPtrMatchString(const xmlChar *string, xmlNodePtr start, int startindex, xmlNodePtr *end, int *endindex) { xmlNodePtr cur; int pos; /* 0 based */ int len; /* in bytes */ int stringlen; /* in bytes */ int match; if (string == NULL) return(-1); if (start == NULL) return(-1); if ((end == NULL) || (endindex == NULL)) return(-1); cur = start; if (cur == NULL) return(-1); pos = startindex - 1; stringlen = xmlStrlen(string); while (stringlen > 0) { if ((cur == *end) && (pos + stringlen > *endindex)) return(0); if ((cur->type != XML_ELEMENT_NODE) && (cur->content != NULL)) { len = xmlStrlen(cur->content); if (len >= pos + stringlen) { match = (!xmlStrncmp(&cur->content[pos], string, stringlen)); if (match) { #ifdef DEBUG_RANGES xmlGenericError(xmlGenericErrorContext, "found range %d bytes at index %d of ->", stringlen, pos + 1); xmlDebugDumpString(stdout, cur->content); xmlGenericError(xmlGenericErrorContext, "\n"); #endif *end = cur; *endindex = pos + stringlen; return(1); } else { return(0); } } else { int sub = len - pos; match = (!xmlStrncmp(&cur->content[pos], string, sub)); if (match) { #ifdef DEBUG_RANGES xmlGenericError(xmlGenericErrorContext, "found subrange %d bytes at index %d of ->", sub, pos + 1); xmlDebugDumpString(stdout, cur->content); xmlGenericError(xmlGenericErrorContext, "\n"); #endif string = &string[sub]; stringlen -= sub; } else { return(0); } } } cur = xmlXPtrAdvanceNode(cur, NULL); if (cur == NULL) return(0); pos = 0; } return(1); } /** * xmlXPtrSearchString: * @string: the string to search * @start: the start textnode IN/OUT * @startindex: the start index IN/OUT * @end: the end textnode * @endindex: the end index * * Search the next occurrence of @string within the document content * until the (@end, @endindex) point is reached * * Returns -1 in case of failure, 0 if not found, 1 if found in which case * (@start, @startindex) will indicate the position of the beginning * of the range and (@end, @endindex) will indicate the end * of the range */ static int xmlXPtrSearchString(const xmlChar *string, xmlNodePtr *start, int *startindex, xmlNodePtr *end, int *endindex) { xmlNodePtr cur; const xmlChar *str; int pos; /* 0 based */ int len; /* in bytes */ xmlChar first; if (string == NULL) return(-1); if ((start == NULL) || (startindex == NULL)) return(-1); if ((end == NULL) || (endindex == NULL)) return(-1); cur = *start; if (cur == NULL) return(-1); pos = *startindex - 1; first = string[0]; while (cur != NULL) { if ((cur->type != XML_ELEMENT_NODE) && (cur->content != NULL)) { len = xmlStrlen(cur->content); while (pos <= len) { if (first != 0) { str = xmlStrchr(&cur->content[pos], first); if (str != NULL) { pos = (str - (xmlChar *)(cur->content)); #ifdef DEBUG_RANGES xmlGenericError(xmlGenericErrorContext, "found '%c' at index %d of ->", first, pos + 1); xmlDebugDumpString(stdout, cur->content); xmlGenericError(xmlGenericErrorContext, "\n"); #endif if (xmlXPtrMatchString(string, cur, pos + 1, end, endindex)) { *start = cur; *startindex = pos + 1; return(1); } pos++; } else { pos = len + 1; } } else { /* * An empty string is considered to match before each * character of the string-value and after the final * character. */ #ifdef DEBUG_RANGES xmlGenericError(xmlGenericErrorContext, "found '' at index %d of ->", pos + 1); xmlDebugDumpString(stdout, cur->content); xmlGenericError(xmlGenericErrorContext, "\n"); #endif *start = cur; *startindex = pos + 1; *end = cur; *endindex = pos + 1; return(1); } } } if ((cur == *end) && (pos >= *endindex)) return(0); cur = xmlXPtrAdvanceNode(cur, NULL); if (cur == NULL) return(0); pos = 1; } return(0); } /** * xmlXPtrGetLastChar: * @node: the node * @index: the index * * Computes the point coordinates of the last char of this point * * Returns -1 in case of failure, 0 otherwise */ static int xmlXPtrGetLastChar(xmlNodePtr *node, int *indx) { xmlNodePtr cur; int pos, len = 0; if ((node == NULL) || (indx == NULL)) return(-1); cur = *node; pos = *indx; if (cur == NULL) return(-1); if ((cur->type == XML_ELEMENT_NODE) || (cur->type == XML_DOCUMENT_NODE) || (cur->type == XML_HTML_DOCUMENT_NODE)) { if (pos > 0) { cur = xmlXPtrGetNthChild(cur, pos); pos = 0; } } while (cur != NULL) { if (cur->last != NULL) cur = cur->last; else if ((cur->type != XML_ELEMENT_NODE) && (cur->content != NULL)) { len = xmlStrlen(cur->content); break; } else { return(-1); } } if (cur == NULL) return(-1); *node = cur; *indx = len; return(0); } /** * xmlXPtrGetStartPoint: * @obj: an range * @node: the resulting node * @indx: the resulting index * * read the object and return the start point coordinates. * * Returns -1 in case of failure, 0 otherwise */ static int xmlXPtrGetStartPoint(xmlXPathObjectPtr obj, xmlNodePtr *node, int *indx) { if ((obj == NULL) || (node == NULL) || (indx == NULL)) return(-1); switch (obj->type) { case XPATH_POINT: *node = obj->user; if (obj->index <= 0) *indx = 0; else *indx = obj->index; return(0); case XPATH_RANGE: *node = obj->user; if (obj->index <= 0) *indx = 0; else *indx = obj->index; return(0); default: break; } return(-1); } /** * xmlXPtrGetEndPoint: * @obj: an range * @node: the resulting node * @indx: the resulting indx * * read the object and return the end point coordinates. * * Returns -1 in case of failure, 0 otherwise */ static int xmlXPtrGetEndPoint(xmlXPathObjectPtr obj, xmlNodePtr *node, int *indx) { if ((obj == NULL) || (node == NULL) || (indx == NULL)) return(-1); switch (obj->type) { case XPATH_POINT: *node = obj->user; if (obj->index <= 0) *indx = 0; else *indx = obj->index; return(0); case XPATH_RANGE: *node = obj->user; if (obj->index <= 0) *indx = 0; else *indx = obj->index; return(0); default: break; } return(-1); } /** * xmlXPtrStringRangeFunction: * @ctxt: the XPointer Parser context * @nargs: the number of args * * Function implementing the string-range() function * range as described in 5.4.2 * * ------------------------------ * [Definition: For each location in the location-set argument, * string-range returns a set of string ranges, a set of substrings in a * string. Specifically, the string-value of the location is searched for * substrings that match the string argument, and the resulting location-set * will contain a range location for each non-overlapping match.] * An empty string is considered to match before each character of the * string-value and after the final character. Whitespace in a string * is matched literally, with no normalization except that provided by * XML for line ends. The third argument gives the position of the first * character to be in the resulting range, relative to the start of the * match. The default value is 1, which makes the range start immediately * before the first character of the matched string. The fourth argument * gives the number of characters in the range; the default is that the * range extends to the end of the matched string. * * Element boundaries, as well as entire embedded nodes such as processing * instructions and comments, are ignored as defined in [XPath]. * * If the string in the second argument is not found in the string-value * of the location, or if a value in the third or fourth argument indicates * a string that is beyond the beginning or end of the document, the * expression fails. * * The points of the range-locations in the returned location-set will * all be character points. * ------------------------------ */ void xmlXPtrStringRangeFunction(xmlXPathParserContextPtr ctxt, int nargs) { int i, startindex, endindex = 0, fendindex; xmlNodePtr start, end = 0, fend; xmlXPathObjectPtr set; xmlLocationSetPtr oldset; xmlLocationSetPtr newset; xmlXPathObjectPtr string; xmlXPathObjectPtr position = NULL; xmlXPathObjectPtr number = NULL; int found, pos = 0, num = 0; /* * Grab the arguments */ if ((nargs < 2) || (nargs > 4)) XP_ERROR(XPATH_INVALID_ARITY); if (nargs >= 4) { CHECK_TYPE(XPATH_NUMBER); number = valuePop(ctxt); if (number != NULL) num = (int) number->floatval; } if (nargs >= 3) { CHECK_TYPE(XPATH_NUMBER); position = valuePop(ctxt); if (position != NULL) pos = (int) position->floatval; } CHECK_TYPE(XPATH_STRING); string = valuePop(ctxt); if ((ctxt->value == NULL) || ((ctxt->value->type != XPATH_LOCATIONSET) && (ctxt->value->type != XPATH_NODESET))) XP_ERROR(XPATH_INVALID_TYPE) set = valuePop(ctxt); newset = xmlXPtrLocationSetCreate(NULL); if (set->nodesetval == NULL) { goto error; } if (set->type == XPATH_NODESET) { xmlXPathObjectPtr tmp; /* * First convert to a location set */ tmp = xmlXPtrNewLocationSetNodeSet(set->nodesetval); xmlXPathFreeObject(set); set = tmp; } oldset = (xmlLocationSetPtr) set->user; /* * The loop is to search for each element in the location set * the list of location set corresponding to that search */ for (i = 0;i < oldset->locNr;i++) { #ifdef DEBUG_RANGES xmlXPathDebugDumpObject(stdout, oldset->locTab[i], 0); #endif xmlXPtrGetStartPoint(oldset->locTab[i], &start, &startindex); xmlXPtrGetEndPoint(oldset->locTab[i], &end, &endindex); xmlXPtrAdvanceChar(&start, &startindex, 0); xmlXPtrGetLastChar(&end, &endindex); #ifdef DEBUG_RANGES xmlGenericError(xmlGenericErrorContext, "from index %d of ->", startindex); xmlDebugDumpString(stdout, start->content); xmlGenericError(xmlGenericErrorContext, "\n"); xmlGenericError(xmlGenericErrorContext, "to index %d of ->", endindex); xmlDebugDumpString(stdout, end->content); xmlGenericError(xmlGenericErrorContext, "\n"); #endif do { fend = end; fendindex = endindex; found = xmlXPtrSearchString(string->stringval, &start, &startindex, &fend, &fendindex); if (found == 1) { if (position == NULL) { xmlXPtrLocationSetAdd(newset, xmlXPtrNewRange(start, startindex, fend, fendindex)); } else if (xmlXPtrAdvanceChar(&start, &startindex, pos - 1) == 0) { if ((number != NULL) && (num > 0)) { int rindx; xmlNodePtr rend; rend = start; rindx = startindex - 1; if (xmlXPtrAdvanceChar(&rend, &rindx, num) == 0) { xmlXPtrLocationSetAdd(newset, xmlXPtrNewRange(start, startindex, rend, rindx)); } } else if ((number != NULL) && (num <= 0)) { xmlXPtrLocationSetAdd(newset, xmlXPtrNewRange(start, startindex, start, startindex)); } else { xmlXPtrLocationSetAdd(newset, xmlXPtrNewRange(start, startindex, fend, fendindex)); } } start = fend; startindex = fendindex; if (string->stringval[0] == 0) startindex++; } } while (found == 1); } /* * Save the new value and cleanup */ error: valuePush(ctxt, xmlXPtrWrapLocationSet(newset)); xmlXPathFreeObject(set); xmlXPathFreeObject(string); if (position) xmlXPathFreeObject(position); if (number) xmlXPathFreeObject(number); } /** * xmlXPtrEvalRangePredicate: * @ctxt: the XPointer Parser context * * [8] Predicate ::= '[' PredicateExpr ']' * [9] PredicateExpr ::= Expr * * Evaluate a predicate as in xmlXPathEvalPredicate() but for * a Location Set instead of a node set */ void xmlXPtrEvalRangePredicate(xmlXPathParserContextPtr ctxt) { const xmlChar *cur; xmlXPathObjectPtr res; xmlXPathObjectPtr obj, tmp; xmlLocationSetPtr newset = NULL; xmlLocationSetPtr oldset; int i; if (ctxt == NULL) return; SKIP_BLANKS; if (CUR != '[') { XP_ERROR(XPATH_INVALID_PREDICATE_ERROR); } NEXT; SKIP_BLANKS; /* * Extract the old set, and then evaluate the result of the * expression for all the element in the set. use it to grow * up a new set. */ CHECK_TYPE(XPATH_LOCATIONSET); obj = valuePop(ctxt); oldset = obj->user; ctxt->context->node = NULL; if ((oldset == NULL) || (oldset->locNr == 0)) { ctxt->context->contextSize = 0; ctxt->context->proximityPosition = 0; xmlXPathEvalExpr(ctxt); res = valuePop(ctxt); if (res != NULL) xmlXPathFreeObject(res); valuePush(ctxt, obj); CHECK_ERROR; } else { /* * Save the expression pointer since we will have to evaluate * it multiple times. Initialize the new set. */ cur = ctxt->cur; newset = xmlXPtrLocationSetCreate(NULL); for (i = 0; i < oldset->locNr; i++) { ctxt->cur = cur; /* * Run the evaluation with a node list made of a single item * in the nodeset. */ ctxt->context->node = oldset->locTab[i]->user; tmp = xmlXPathNewNodeSet(ctxt->context->node); valuePush(ctxt, tmp); ctxt->context->contextSize = oldset->locNr; ctxt->context->proximityPosition = i + 1; xmlXPathEvalExpr(ctxt); CHECK_ERROR; /* * The result of the evaluation need to be tested to * decided whether the filter succeeded or not */ res = valuePop(ctxt); if (xmlXPathEvaluatePredicateResult(ctxt, res)) { xmlXPtrLocationSetAdd(newset, xmlXPathObjectCopy(oldset->locTab[i])); } /* * Cleanup */ if (res != NULL) xmlXPathFreeObject(res); if (ctxt->value == tmp) { res = valuePop(ctxt); xmlXPathFreeObject(res); } ctxt->context->node = NULL; } /* * The result is used as the new evaluation set. */ xmlXPathFreeObject(obj); ctxt->context->node = NULL; ctxt->context->contextSize = -1; ctxt->context->proximityPosition = -1; valuePush(ctxt, xmlXPtrWrapLocationSet(newset)); } if (CUR != ']') { XP_ERROR(XPATH_INVALID_PREDICATE_ERROR); } NEXT; SKIP_BLANKS; } #define bottom_xpointer #include "elfgcchack.h" #endif
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