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xpath.c
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xpath.c
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/*
* xpath.c: XML Path Language implementation
* XPath is a language for addressing parts of an XML document,
* designed to be used by both XSLT and XPointer
*
* Reference: W3C Recommendation 16 November 1999
* http://www.w3.org/TR/1999/REC-xpath-19991116
* Public reference:
* http://www.w3.org/TR/xpath
*
* See Copyright for the status of this software
*
* Author: [email protected]
*
*/
/* To avoid EBCDIC trouble when parsing on zOS */
#if defined(__MVS__)
#pragma convert("ISO8859-1")
#endif
#define IN_LIBXML
#include "libxml.h"
#include <limits.h>
#include <string.h>
#include <stddef.h>
#include <math.h>
#include <float.h>
#include <ctype.h>
#include <libxml/xmlmemory.h>
#include <libxml/tree.h>
#include <libxml/xpath.h>
#include <libxml/xpathInternals.h>
#include <libxml/parserInternals.h>
#include <libxml/hash.h>
#ifdef LIBXML_DEBUG_ENABLED
#include <libxml/debugXML.h>
#endif
#include <libxml/xmlerror.h>
#include <libxml/threads.h>
#ifdef LIBXML_PATTERN_ENABLED
#include <libxml/pattern.h>
#endif
#include "private/buf.h"
#include "private/error.h"
#include "private/xpath.h"
/* Disabled for now */
#if 0
#ifdef LIBXML_PATTERN_ENABLED
#define XPATH_STREAMING
#endif
#endif
/**
* WITH_TIM_SORT:
*
* Use the Timsort algorithm provided in timsort.h to sort
* nodeset as this is a great improvement over the old Shell sort
* used in xmlXPathNodeSetSort()
*/
#define WITH_TIM_SORT
/*
* XP_OPTIMIZED_NON_ELEM_COMPARISON:
* If defined, this will use xmlXPathCmpNodesExt() instead of
* xmlXPathCmpNodes(). The new function is optimized comparison of
* non-element nodes; actually it will speed up comparison only if
* xmlXPathOrderDocElems() was called in order to index the elements of
* a tree in document order; Libxslt does such an indexing, thus it will
* benefit from this optimization.
*/
#define XP_OPTIMIZED_NON_ELEM_COMPARISON
/*
* XP_OPTIMIZED_FILTER_FIRST:
* If defined, this will optimize expressions like "key('foo', 'val')[b][1]"
* in a way, that it stop evaluation at the first node.
*/
#define XP_OPTIMIZED_FILTER_FIRST
/*
* XPATH_MAX_STEPS:
* when compiling an XPath expression we arbitrary limit the maximum
* number of step operation in the compiled expression. 1000000 is
* an insanely large value which should never be reached under normal
* circumstances
*/
#define XPATH_MAX_STEPS 1000000
/*
* XPATH_MAX_STACK_DEPTH:
* when evaluating an XPath expression we arbitrary limit the maximum
* number of object allowed to be pushed on the stack. 1000000 is
* an insanely large value which should never be reached under normal
* circumstances
*/
#define XPATH_MAX_STACK_DEPTH 1000000
/*
* XPATH_MAX_NODESET_LENGTH:
* when evaluating an XPath expression nodesets are created and we
* arbitrary limit the maximum length of those node set. 10000000 is
* an insanely large value which should never be reached under normal
* circumstances, one would first need to construct an in memory tree
* with more than 10 millions nodes.
*/
#define XPATH_MAX_NODESET_LENGTH 10000000
/*
* XPATH_MAX_RECRUSION_DEPTH:
* Maximum amount of nested functions calls when parsing or evaluating
* expressions
*/
#ifdef FUZZING_BUILD_MODE_UNSAFE_FOR_PRODUCTION
#define XPATH_MAX_RECURSION_DEPTH 500
#elif defined(_WIN32)
/* Windows typically limits stack size to 1MB. */
#define XPATH_MAX_RECURSION_DEPTH 1000
#else
#define XPATH_MAX_RECURSION_DEPTH 5000
#endif
/*
* TODO:
* There are a few spots where some tests are done which depend upon ascii
* data. These should be enhanced for full UTF8 support (see particularly
* any use of the macros IS_ASCII_CHARACTER and IS_ASCII_DIGIT)
*/
#if defined(LIBXML_XPATH_ENABLED)
/************************************************************************
* *
* Floating point stuff *
* *
************************************************************************/
double xmlXPathNAN = 0.0;
double xmlXPathPINF = 0.0;
double xmlXPathNINF = 0.0;
/**
* xmlXPathInit:
*
* DEPRECATED: Alias for xmlInitParser.
*/
void
xmlXPathInit(void) {
xmlInitParser();
}
/**
* xmlInitXPathInternal:
*
* Initialize the XPath environment
*/
ATTRIBUTE_NO_SANITIZE("float-divide-by-zero")
void
xmlInitXPathInternal(void) {
#if defined(NAN) && defined(INFINITY)
xmlXPathNAN = NAN;
xmlXPathPINF = INFINITY;
xmlXPathNINF = -INFINITY;
#else
/* MSVC doesn't allow division by zero in constant expressions. */
double zero = 0.0;
xmlXPathNAN = 0.0 / zero;
xmlXPathPINF = 1.0 / zero;
xmlXPathNINF = -xmlXPathPINF;
#endif
}
/**
* xmlXPathIsNaN:
* @val: a double value
*
* Checks whether a double is a NaN.
*
* Returns 1 if the value is a NaN, 0 otherwise
*/
int
xmlXPathIsNaN(double val) {
#ifdef isnan
return isnan(val);
#else
return !(val == val);
#endif
}
/**
* xmlXPathIsInf:
* @val: a double value
*
* Checks whether a double is an infinity.
*
* Returns 1 if the value is +Infinite, -1 if -Infinite, 0 otherwise
*/
int
xmlXPathIsInf(double val) {
#ifdef isinf
return isinf(val) ? (val > 0 ? 1 : -1) : 0;
#else
if (val >= xmlXPathPINF)
return 1;
if (val <= -xmlXPathPINF)
return -1;
return 0;
#endif
}
/*
* TODO: when compatibility allows remove all "fake node libxslt" strings
* the test should just be name[0] = ' '
*/
static const xmlNs xmlXPathXMLNamespaceStruct = {
NULL,
XML_NAMESPACE_DECL,
XML_XML_NAMESPACE,
BAD_CAST "xml",
NULL,
NULL
};
static const xmlNs *const xmlXPathXMLNamespace = &xmlXPathXMLNamespaceStruct;
static void
xmlXPathNodeSetClear(xmlNodeSetPtr set, int hasNsNodes);
#ifdef XP_OPTIMIZED_NON_ELEM_COMPARISON
/**
* xmlXPathCmpNodesExt:
* @node1: the first node
* @node2: the second node
*
* Compare two nodes w.r.t document order.
* This one is optimized for handling of non-element nodes.
*
* Returns -2 in case of error 1 if first point < second point, 0 if
* it's the same node, -1 otherwise
*/
static int
xmlXPathCmpNodesExt(xmlNodePtr node1, xmlNodePtr node2) {
int depth1, depth2;
int misc = 0, precedence1 = 0, precedence2 = 0;
xmlNodePtr miscNode1 = NULL, miscNode2 = NULL;
xmlNodePtr cur, root;
ptrdiff_t l1, l2;
if ((node1 == NULL) || (node2 == NULL))
return(-2);
if (node1 == node2)
return(0);
/*
* a couple of optimizations which will avoid computations in most cases
*/
switch (node1->type) {
case XML_ELEMENT_NODE:
if (node2->type == XML_ELEMENT_NODE) {
if ((0 > (ptrdiff_t) node1->content) &&
(0 > (ptrdiff_t) node2->content) &&
(node1->doc == node2->doc))
{
l1 = -((ptrdiff_t) node1->content);
l2 = -((ptrdiff_t) node2->content);
if (l1 < l2)
return(1);
if (l1 > l2)
return(-1);
} else
goto turtle_comparison;
}
break;
case XML_ATTRIBUTE_NODE:
precedence1 = 1; /* element is owner */
miscNode1 = node1;
node1 = node1->parent;
misc = 1;
break;
case XML_TEXT_NODE:
case XML_CDATA_SECTION_NODE:
case XML_COMMENT_NODE:
case XML_PI_NODE: {
miscNode1 = node1;
/*
* Find nearest element node.
*/
if (node1->prev != NULL) {
do {
node1 = node1->prev;
if (node1->type == XML_ELEMENT_NODE) {
precedence1 = 3; /* element in prev-sibl axis */
break;
}
if (node1->prev == NULL) {
precedence1 = 2; /* element is parent */
/*
* URGENT TODO: Are there any cases, where the
* parent of such a node is not an element node?
*/
node1 = node1->parent;
break;
}
} while (1);
} else {
precedence1 = 2; /* element is parent */
node1 = node1->parent;
}
if ((node1 == NULL) || (node1->type != XML_ELEMENT_NODE) ||
(0 <= (ptrdiff_t) node1->content)) {
/*
* Fallback for whatever case.
*/
node1 = miscNode1;
precedence1 = 0;
} else
misc = 1;
}
break;
case XML_NAMESPACE_DECL:
/*
* TODO: why do we return 1 for namespace nodes?
*/
return(1);
default:
break;
}
switch (node2->type) {
case XML_ELEMENT_NODE:
break;
case XML_ATTRIBUTE_NODE:
precedence2 = 1; /* element is owner */
miscNode2 = node2;
node2 = node2->parent;
misc = 1;
break;
case XML_TEXT_NODE:
case XML_CDATA_SECTION_NODE:
case XML_COMMENT_NODE:
case XML_PI_NODE: {
miscNode2 = node2;
if (node2->prev != NULL) {
do {
node2 = node2->prev;
if (node2->type == XML_ELEMENT_NODE) {
precedence2 = 3; /* element in prev-sibl axis */
break;
}
if (node2->prev == NULL) {
precedence2 = 2; /* element is parent */
node2 = node2->parent;
break;
}
} while (1);
} else {
precedence2 = 2; /* element is parent */
node2 = node2->parent;
}
if ((node2 == NULL) || (node2->type != XML_ELEMENT_NODE) ||
(0 <= (ptrdiff_t) node2->content))
{
node2 = miscNode2;
precedence2 = 0;
} else
misc = 1;
}
break;
case XML_NAMESPACE_DECL:
return(1);
default:
break;
}
if (misc) {
if (node1 == node2) {
if (precedence1 == precedence2) {
/*
* The ugly case; but normally there aren't many
* adjacent non-element nodes around.
*/
cur = miscNode2->prev;
while (cur != NULL) {
if (cur == miscNode1)
return(1);
if (cur->type == XML_ELEMENT_NODE)
return(-1);
cur = cur->prev;
}
return (-1);
} else {
/*
* Evaluate based on higher precedence wrt to the element.
* TODO: This assumes attributes are sorted before content.
* Is this 100% correct?
*/
if (precedence1 < precedence2)
return(1);
else
return(-1);
}
}
/*
* Special case: One of the helper-elements is contained by the other.
* <foo>
* <node2>
* <node1>Text-1(precedence1 == 2)</node1>
* </node2>
* Text-6(precedence2 == 3)
* </foo>
*/
if ((precedence2 == 3) && (precedence1 > 1)) {
cur = node1->parent;
while (cur) {
if (cur == node2)
return(1);
cur = cur->parent;
}
}
if ((precedence1 == 3) && (precedence2 > 1)) {
cur = node2->parent;
while (cur) {
if (cur == node1)
return(-1);
cur = cur->parent;
}
}
}
/*
* Speedup using document order if available.
*/
if ((node1->type == XML_ELEMENT_NODE) &&
(node2->type == XML_ELEMENT_NODE) &&
(0 > (ptrdiff_t) node1->content) &&
(0 > (ptrdiff_t) node2->content) &&
(node1->doc == node2->doc)) {
l1 = -((ptrdiff_t) node1->content);
l2 = -((ptrdiff_t) node2->content);
if (l1 < l2)
return(1);
if (l1 > l2)
return(-1);
}
turtle_comparison:
if (node1 == node2->prev)
return(1);
if (node1 == node2->next)
return(-1);
/*
* compute depth to root
*/
for (depth2 = 0, cur = node2; cur->parent != NULL; cur = cur->parent) {
if (cur->parent == node1)
return(1);
depth2++;
}
root = cur;
for (depth1 = 0, cur = node1; cur->parent != NULL; cur = cur->parent) {
if (cur->parent == node2)
return(-1);
depth1++;
}
/*
* Distinct document (or distinct entities :-( ) case.
*/
if (root != cur) {
return(-2);
}
/*
* get the nearest common ancestor.
*/
while (depth1 > depth2) {
depth1--;
node1 = node1->parent;
}
while (depth2 > depth1) {
depth2--;
node2 = node2->parent;
}
while (node1->parent != node2->parent) {
node1 = node1->parent;
node2 = node2->parent;
/* should not happen but just in case ... */
if ((node1 == NULL) || (node2 == NULL))
return(-2);
}
/*
* Find who's first.
*/
if (node1 == node2->prev)
return(1);
if (node1 == node2->next)
return(-1);
/*
* Speedup using document order if available.
*/
if ((node1->type == XML_ELEMENT_NODE) &&
(node2->type == XML_ELEMENT_NODE) &&
(0 > (ptrdiff_t) node1->content) &&
(0 > (ptrdiff_t) node2->content) &&
(node1->doc == node2->doc)) {
l1 = -((ptrdiff_t) node1->content);
l2 = -((ptrdiff_t) node2->content);
if (l1 < l2)
return(1);
if (l1 > l2)
return(-1);
}
for (cur = node1->next;cur != NULL;cur = cur->next)
if (cur == node2)
return(1);
return(-1); /* assume there is no sibling list corruption */
}
#endif /* XP_OPTIMIZED_NON_ELEM_COMPARISON */
/*
* Wrapper for the Timsort algorithm from timsort.h
*/
#ifdef WITH_TIM_SORT
#define SORT_NAME libxml_domnode
#define SORT_TYPE xmlNodePtr
/**
* wrap_cmp:
* @x: a node
* @y: another node
*
* Comparison function for the Timsort implementation
*
* Returns -2 in case of error -1 if first point < second point, 0 if
* it's the same node, +1 otherwise
*/
static
int wrap_cmp( xmlNodePtr x, xmlNodePtr y );
#ifdef XP_OPTIMIZED_NON_ELEM_COMPARISON
static int wrap_cmp( xmlNodePtr x, xmlNodePtr y )
{
int res = xmlXPathCmpNodesExt(x, y);
return res == -2 ? res : -res;
}
#else
static int wrap_cmp( xmlNodePtr x, xmlNodePtr y )
{
int res = xmlXPathCmpNodes(x, y);
return res == -2 ? res : -res;
}
#endif
#define SORT_CMP(x, y) (wrap_cmp(x, y))
#include "timsort.h"
#endif /* WITH_TIM_SORT */
/************************************************************************
* *
* Error handling routines *
* *
************************************************************************/
/**
* XP_ERRORNULL:
* @X: the error code
*
* Macro to raise an XPath error and return NULL.
*/
#define XP_ERRORNULL(X) \
{ xmlXPathErr(ctxt, X); return(NULL); }
/*
* The array xmlXPathErrorMessages corresponds to the enum xmlXPathError
*/
static const char* const xmlXPathErrorMessages[] = {
"Ok\n",
"Number encoding\n",
"Unfinished literal\n",
"Start of literal\n",
"Expected $ for variable reference\n",
"Undefined variable\n",
"Invalid predicate\n",
"Invalid expression\n",
"Missing closing curly brace\n",
"Unregistered function\n",
"Invalid operand\n",
"Invalid type\n",
"Invalid number of arguments\n",
"Invalid context size\n",
"Invalid context position\n",
"Memory allocation error\n",
"Syntax error\n",
"Resource error\n",
"Sub resource error\n",
"Undefined namespace prefix\n",
"Encoding error\n",
"Char out of XML range\n",
"Invalid or incomplete context\n",
"Stack usage error\n",
"Forbidden variable\n",
"Operation limit exceeded\n",
"Recursion limit exceeded\n",
"?? Unknown error ??\n" /* Must be last in the list! */
};
#define MAXERRNO ((int)(sizeof(xmlXPathErrorMessages) / \
sizeof(xmlXPathErrorMessages[0])) - 1)
/**
* xmlXPathErrMemory:
* @ctxt: an XPath context
*
* Handle a memory allocation failure.
*/
void
xmlXPathErrMemory(xmlXPathContextPtr ctxt)
{
if (ctxt == NULL)
return;
xmlRaiseMemoryError(ctxt->error, NULL, ctxt->userData, XML_FROM_XPATH,
&ctxt->lastError);
}
/**
* xmlXPathPErrMemory:
* @ctxt: an XPath parser context
*
* Handle a memory allocation failure.
*/
void
xmlXPathPErrMemory(xmlXPathParserContextPtr ctxt)
{
if (ctxt == NULL)
return;
ctxt->error = XPATH_MEMORY_ERROR;
xmlXPathErrMemory(ctxt->context);
}
/**
* xmlXPathErr:
* @ctxt: a XPath parser context
* @code: the error code
*
* Handle an XPath error
*/
void
xmlXPathErr(xmlXPathParserContextPtr ctxt, int code)
{
xmlStructuredErrorFunc schannel = NULL;
xmlGenericErrorFunc channel = NULL;
void *data = NULL;
xmlNodePtr node = NULL;
int res;
if (ctxt == NULL)
return;
if ((code < 0) || (code > MAXERRNO))
code = MAXERRNO;
/* Only report the first error */
if (ctxt->error != 0)
return;
ctxt->error = code;
if (ctxt->context != NULL) {
xmlErrorPtr err = &ctxt->context->lastError;
/* Don't overwrite memory error. */
if (err->code == XML_ERR_NO_MEMORY)
return;
/* cleanup current last error */
xmlResetError(err);
err->domain = XML_FROM_XPATH;
err->code = code + XML_XPATH_EXPRESSION_OK - XPATH_EXPRESSION_OK;
err->level = XML_ERR_ERROR;
if (ctxt->base != NULL) {
err->str1 = (char *) xmlStrdup(ctxt->base);
if (err->str1 == NULL) {
xmlXPathPErrMemory(ctxt);
return;
}
}
err->int1 = ctxt->cur - ctxt->base;
err->node = ctxt->context->debugNode;
schannel = ctxt->context->error;
data = ctxt->context->userData;
node = ctxt->context->debugNode;
}
if (schannel == NULL) {
channel = xmlGenericError;
data = xmlGenericErrorContext;
}
res = xmlRaiseError(schannel, channel, data, NULL, node, XML_FROM_XPATH,
code + XML_XPATH_EXPRESSION_OK - XPATH_EXPRESSION_OK,
XML_ERR_ERROR, NULL, 0,
(const char *) ctxt->base, NULL, NULL,
ctxt->cur - ctxt->base, 0,
"%s", xmlXPathErrorMessages[code]);
if (res < 0)
xmlXPathPErrMemory(ctxt);
}
/**
* xmlXPatherror:
* @ctxt: the XPath Parser context
* @file: the file name
* @line: the line number
* @no: the error number
*
* Formats an error message.
*/
void
xmlXPatherror(xmlXPathParserContextPtr ctxt, const char *file ATTRIBUTE_UNUSED,
int line ATTRIBUTE_UNUSED, int no) {
xmlXPathErr(ctxt, no);
}
/**
* xmlXPathCheckOpLimit:
* @ctxt: the XPath Parser context
* @opCount: the number of operations to be added
*
* Adds opCount to the running total of operations and returns -1 if the
* operation limit is exceeded. Returns 0 otherwise.
*/
static int
xmlXPathCheckOpLimit(xmlXPathParserContextPtr ctxt, unsigned long opCount) {
xmlXPathContextPtr xpctxt = ctxt->context;
if ((opCount > xpctxt->opLimit) ||
(xpctxt->opCount > xpctxt->opLimit - opCount)) {
xpctxt->opCount = xpctxt->opLimit;
xmlXPathErr(ctxt, XPATH_OP_LIMIT_EXCEEDED);
return(-1);
}
xpctxt->opCount += opCount;
return(0);
}
#define OP_LIMIT_EXCEEDED(ctxt, n) \
((ctxt->context->opLimit != 0) && (xmlXPathCheckOpLimit(ctxt, n) < 0))
/************************************************************************
* *
* Parser Types *
* *
************************************************************************/
/*
* Types are private:
*/
typedef enum {
XPATH_OP_END=0,
XPATH_OP_AND,
XPATH_OP_OR,
XPATH_OP_EQUAL,
XPATH_OP_CMP,
XPATH_OP_PLUS,
XPATH_OP_MULT,
XPATH_OP_UNION,
XPATH_OP_ROOT,
XPATH_OP_NODE,
XPATH_OP_COLLECT,
XPATH_OP_VALUE, /* 11 */
XPATH_OP_VARIABLE,
XPATH_OP_FUNCTION,
XPATH_OP_ARG,
XPATH_OP_PREDICATE,
XPATH_OP_FILTER, /* 16 */
XPATH_OP_SORT /* 17 */
} xmlXPathOp;
typedef enum {
AXIS_ANCESTOR = 1,
AXIS_ANCESTOR_OR_SELF,
AXIS_ATTRIBUTE,
AXIS_CHILD,
AXIS_DESCENDANT,
AXIS_DESCENDANT_OR_SELF,
AXIS_FOLLOWING,
AXIS_FOLLOWING_SIBLING,
AXIS_NAMESPACE,
AXIS_PARENT,
AXIS_PRECEDING,
AXIS_PRECEDING_SIBLING,
AXIS_SELF
} xmlXPathAxisVal;
typedef enum {
NODE_TEST_NONE = 0,
NODE_TEST_TYPE = 1,
NODE_TEST_PI = 2,
NODE_TEST_ALL = 3,
NODE_TEST_NS = 4,
NODE_TEST_NAME = 5
} xmlXPathTestVal;
typedef enum {
NODE_TYPE_NODE = 0,
NODE_TYPE_COMMENT = XML_COMMENT_NODE,
NODE_TYPE_TEXT = XML_TEXT_NODE,
NODE_TYPE_PI = XML_PI_NODE
} xmlXPathTypeVal;
typedef struct _xmlXPathStepOp xmlXPathStepOp;
typedef xmlXPathStepOp *xmlXPathStepOpPtr;
struct _xmlXPathStepOp {
xmlXPathOp op; /* The identifier of the operation */
int ch1; /* First child */
int ch2; /* Second child */
int value;
int value2;
int value3;
void *value4;
void *value5;
xmlXPathFunction cache;
void *cacheURI;
};
struct _xmlXPathCompExpr {
int nbStep; /* Number of steps in this expression */
int maxStep; /* Maximum number of steps allocated */
xmlXPathStepOp *steps; /* ops for computation of this expression */
int last; /* index of last step in expression */
xmlChar *expr; /* the expression being computed */
xmlDictPtr dict; /* the dictionary to use if any */
#ifdef XPATH_STREAMING
xmlPatternPtr stream;
#endif
};
/************************************************************************
* *
* Forward declarations *
* *
************************************************************************/
static void
xmlXPathReleaseObject(xmlXPathContextPtr ctxt, xmlXPathObjectPtr obj);
static int
xmlXPathCompOpEvalFirst(xmlXPathParserContextPtr ctxt,
xmlXPathStepOpPtr op, xmlNodePtr *first);
static int
xmlXPathCompOpEvalToBoolean(xmlXPathParserContextPtr ctxt,
xmlXPathStepOpPtr op,
int isPredicate);
static void
xmlXPathFreeObjectEntry(void *obj, const xmlChar *name);
/************************************************************************
* *
* Parser Type functions *
* *
************************************************************************/
/**
* xmlXPathNewCompExpr:
*
* Create a new Xpath component
*
* Returns the newly allocated xmlXPathCompExprPtr or NULL in case of error
*/
static xmlXPathCompExprPtr
xmlXPathNewCompExpr(void) {
xmlXPathCompExprPtr cur;
cur = (xmlXPathCompExprPtr) xmlMalloc(sizeof(xmlXPathCompExpr));
if (cur == NULL)
return(NULL);
memset(cur, 0, sizeof(xmlXPathCompExpr));
cur->maxStep = 10;
cur->nbStep = 0;
cur->steps = (xmlXPathStepOp *) xmlMalloc(cur->maxStep *
sizeof(xmlXPathStepOp));
if (cur->steps == NULL) {
xmlFree(cur);
return(NULL);
}
memset(cur->steps, 0, cur->maxStep * sizeof(xmlXPathStepOp));
cur->last = -1;
return(cur);
}
/**
* xmlXPathFreeCompExpr:
* @comp: an XPATH comp
*
* Free up the memory allocated by @comp
*/
void
xmlXPathFreeCompExpr(xmlXPathCompExprPtr comp)
{
xmlXPathStepOpPtr op;
int i;
if (comp == NULL)
return;
if (comp->dict == NULL) {
for (i = 0; i < comp->nbStep; i++) {
op = &comp->steps[i];
if (op->value4 != NULL) {
if (op->op == XPATH_OP_VALUE)
xmlXPathFreeObject(op->value4);
else
xmlFree(op->value4);
}
if (op->value5 != NULL)
xmlFree(op->value5);
}
} else {
for (i = 0; i < comp->nbStep; i++) {
op = &comp->steps[i];
if (op->value4 != NULL) {
if (op->op == XPATH_OP_VALUE)
xmlXPathFreeObject(op->value4);
}
}
xmlDictFree(comp->dict);
}
if (comp->steps != NULL) {
xmlFree(comp->steps);
}
#ifdef XPATH_STREAMING
if (comp->stream != NULL) {
xmlFreePatternList(comp->stream);
}
#endif
if (comp->expr != NULL) {
xmlFree(comp->expr);
}
xmlFree(comp);
}
/**
* xmlXPathCompExprAdd:
* @comp: the compiled expression
* @ch1: first child index
* @ch2: second child index
* @op: an op
* @value: the first int value
* @value2: the second int value
* @value3: the third int value
* @value4: the first string value
* @value5: the second string value
*
* Add a step to an XPath Compiled Expression
*
* Returns -1 in case of failure, the index otherwise
*/
static int
xmlXPathCompExprAdd(xmlXPathParserContextPtr ctxt, int ch1, int ch2,
xmlXPathOp op, int value,
int value2, int value3, void *value4, void *value5) {
xmlXPathCompExprPtr comp = ctxt->comp;
if (comp->nbStep >= comp->maxStep) {
xmlXPathStepOp *real;
if (comp->maxStep >= XPATH_MAX_STEPS) {
xmlXPathPErrMemory(ctxt);
return(-1);
}
comp->maxStep *= 2;
real = (xmlXPathStepOp *) xmlRealloc(comp->steps,
comp->maxStep * sizeof(xmlXPathStepOp));
if (real == NULL) {
comp->maxStep /= 2;
xmlXPathPErrMemory(ctxt);
return(-1);
}
comp->steps = real;
}
comp->last = comp->nbStep;
comp->steps[comp->nbStep].ch1 = ch1;
comp->steps[comp->nbStep].ch2 = ch2;
comp->steps[comp->nbStep].op = op;
comp->steps[comp->nbStep].value = value;
comp->steps[comp->nbStep].value2 = value2;
comp->steps[comp->nbStep].value3 = value3;
if ((comp->dict != NULL) &&
((op == XPATH_OP_FUNCTION) || (op == XPATH_OP_VARIABLE) ||
(op == XPATH_OP_COLLECT))) {
if (value4 != NULL) {
comp->steps[comp->nbStep].value4 = (xmlChar *)
(void *)xmlDictLookup(comp->dict, value4, -1);
xmlFree(value4);
} else
comp->steps[comp->nbStep].value4 = NULL;
if (value5 != NULL) {
comp->steps[comp->nbStep].value5 = (xmlChar *)
(void *)xmlDictLookup(comp->dict, value5, -1);
xmlFree(value5);