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- /*
- * regexp.c: generic and extensible Regular Expression engine
- *
- * Basically designed with the purpose of compiling regexps for
- * the variety of validation/schemas mechanisms now available in
- * XML related specifications these include:
- * - XML-1.0 DTD validation
- * - XML Schemas structure part 1
- * - XML Schemas Datatypes part 2 especially Appendix F
- * - RELAX-NG/TREX i.e. the counter proposal
- *
- * See Copyright for the status of this software.
- *
- * Daniel Veillard <veillard@redhat.com>
- */
- #define IN_LIBXML
- #include "libxml.h"
- #ifdef LIBXML_REGEXP_ENABLED
- /* #define DEBUG_ERR */
- #include <stdio.h>
- #include <string.h>
- #ifdef HAVE_LIMITS_H
- #include <limits.h>
- #endif
- #ifdef HAVE_STDINT_H
- #include <stdint.h>
- #endif
- #include <libxml/tree.h>
- #include <libxml/parserInternals.h>
- #include <libxml/xmlregexp.h>
- #include <libxml/xmlautomata.h>
- #include <libxml/xmlunicode.h>
- #ifndef INT_MAX
- #define INT_MAX 123456789 /* easy to flag and big enough for our needs */
- #endif
- #ifndef SIZE_MAX
- #define SIZE_MAX ((size_t) -1)
- #endif
- /* #define DEBUG_REGEXP_GRAPH */
- /* #define DEBUG_REGEXP_EXEC */
- /* #define DEBUG_PUSH */
- /* #define DEBUG_COMPACTION */
- #define MAX_PUSH 10000000
- #ifdef ERROR
- #undef ERROR
- #endif
- #define ERROR(str) \
- ctxt->error = XML_REGEXP_COMPILE_ERROR; \
- xmlRegexpErrCompile(ctxt, str);
- #define NEXT ctxt->cur++
- #define CUR (*(ctxt->cur))
- #define NXT(index) (ctxt->cur[index])
- #define CUR_SCHAR(s, l) xmlStringCurrentChar(NULL, s, &l)
- #define NEXTL(l) ctxt->cur += l;
- #define XML_REG_STRING_SEPARATOR '|'
- /*
- * Need PREV to check on a '-' within a Character Group. May only be used
- * when it's guaranteed that cur is not at the beginning of ctxt->string!
- */
- #define PREV (ctxt->cur[-1])
- /**
- * TODO:
- *
- * macro to flag unimplemented blocks
- */
- #define TODO \
- xmlGenericError(xmlGenericErrorContext, \
- "Unimplemented block at %s:%d\n", \
- __FILE__, __LINE__);
- /************************************************************************
- * *
- * Datatypes and structures *
- * *
- ************************************************************************/
- /*
- * Note: the order of the enums below is significant, do not shuffle
- */
- typedef enum {
- XML_REGEXP_EPSILON = 1,
- XML_REGEXP_CHARVAL,
- XML_REGEXP_RANGES,
- XML_REGEXP_SUBREG, /* used for () sub regexps */
- XML_REGEXP_STRING,
- XML_REGEXP_ANYCHAR, /* . */
- XML_REGEXP_ANYSPACE, /* \s */
- XML_REGEXP_NOTSPACE, /* \S */
- XML_REGEXP_INITNAME, /* \l */
- XML_REGEXP_NOTINITNAME, /* \L */
- XML_REGEXP_NAMECHAR, /* \c */
- XML_REGEXP_NOTNAMECHAR, /* \C */
- XML_REGEXP_DECIMAL, /* \d */
- XML_REGEXP_NOTDECIMAL, /* \D */
- XML_REGEXP_REALCHAR, /* \w */
- XML_REGEXP_NOTREALCHAR, /* \W */
- XML_REGEXP_LETTER = 100,
- XML_REGEXP_LETTER_UPPERCASE,
- XML_REGEXP_LETTER_LOWERCASE,
- XML_REGEXP_LETTER_TITLECASE,
- XML_REGEXP_LETTER_MODIFIER,
- XML_REGEXP_LETTER_OTHERS,
- XML_REGEXP_MARK,
- XML_REGEXP_MARK_NONSPACING,
- XML_REGEXP_MARK_SPACECOMBINING,
- XML_REGEXP_MARK_ENCLOSING,
- XML_REGEXP_NUMBER,
- XML_REGEXP_NUMBER_DECIMAL,
- XML_REGEXP_NUMBER_LETTER,
- XML_REGEXP_NUMBER_OTHERS,
- XML_REGEXP_PUNCT,
- XML_REGEXP_PUNCT_CONNECTOR,
- XML_REGEXP_PUNCT_DASH,
- XML_REGEXP_PUNCT_OPEN,
- XML_REGEXP_PUNCT_CLOSE,
- XML_REGEXP_PUNCT_INITQUOTE,
- XML_REGEXP_PUNCT_FINQUOTE,
- XML_REGEXP_PUNCT_OTHERS,
- XML_REGEXP_SEPAR,
- XML_REGEXP_SEPAR_SPACE,
- XML_REGEXP_SEPAR_LINE,
- XML_REGEXP_SEPAR_PARA,
- XML_REGEXP_SYMBOL,
- XML_REGEXP_SYMBOL_MATH,
- XML_REGEXP_SYMBOL_CURRENCY,
- XML_REGEXP_SYMBOL_MODIFIER,
- XML_REGEXP_SYMBOL_OTHERS,
- XML_REGEXP_OTHER,
- XML_REGEXP_OTHER_CONTROL,
- XML_REGEXP_OTHER_FORMAT,
- XML_REGEXP_OTHER_PRIVATE,
- XML_REGEXP_OTHER_NA,
- XML_REGEXP_BLOCK_NAME
- } xmlRegAtomType;
- typedef enum {
- XML_REGEXP_QUANT_EPSILON = 1,
- XML_REGEXP_QUANT_ONCE,
- XML_REGEXP_QUANT_OPT,
- XML_REGEXP_QUANT_MULT,
- XML_REGEXP_QUANT_PLUS,
- XML_REGEXP_QUANT_ONCEONLY,
- XML_REGEXP_QUANT_ALL,
- XML_REGEXP_QUANT_RANGE
- } xmlRegQuantType;
- typedef enum {
- XML_REGEXP_START_STATE = 1,
- XML_REGEXP_FINAL_STATE,
- XML_REGEXP_TRANS_STATE,
- XML_REGEXP_SINK_STATE,
- XML_REGEXP_UNREACH_STATE
- } xmlRegStateType;
- typedef enum {
- XML_REGEXP_MARK_NORMAL = 0,
- XML_REGEXP_MARK_START,
- XML_REGEXP_MARK_VISITED
- } xmlRegMarkedType;
- typedef struct _xmlRegRange xmlRegRange;
- typedef xmlRegRange *xmlRegRangePtr;
- struct _xmlRegRange {
- int neg; /* 0 normal, 1 not, 2 exclude */
- xmlRegAtomType type;
- int start;
- int end;
- xmlChar *blockName;
- };
- typedef struct _xmlRegAtom xmlRegAtom;
- typedef xmlRegAtom *xmlRegAtomPtr;
- typedef struct _xmlAutomataState xmlRegState;
- typedef xmlRegState *xmlRegStatePtr;
- struct _xmlRegAtom {
- int no;
- xmlRegAtomType type;
- xmlRegQuantType quant;
- int min;
- int max;
- void *valuep;
- void *valuep2;
- int neg;
- int codepoint;
- xmlRegStatePtr start;
- xmlRegStatePtr start0;
- xmlRegStatePtr stop;
- int maxRanges;
- int nbRanges;
- xmlRegRangePtr *ranges;
- void *data;
- };
- typedef struct _xmlRegCounter xmlRegCounter;
- typedef xmlRegCounter *xmlRegCounterPtr;
- struct _xmlRegCounter {
- int min;
- int max;
- };
- typedef struct _xmlRegTrans xmlRegTrans;
- typedef xmlRegTrans *xmlRegTransPtr;
- struct _xmlRegTrans {
- xmlRegAtomPtr atom;
- int to;
- int counter;
- int count;
- int nd;
- };
- struct _xmlAutomataState {
- xmlRegStateType type;
- xmlRegMarkedType mark;
- xmlRegMarkedType markd;
- xmlRegMarkedType reached;
- int no;
- int maxTrans;
- int nbTrans;
- xmlRegTrans *trans;
- /* knowing states pointing to us can speed things up */
- int maxTransTo;
- int nbTransTo;
- int *transTo;
- };
- typedef struct _xmlAutomata xmlRegParserCtxt;
- typedef xmlRegParserCtxt *xmlRegParserCtxtPtr;
- #define AM_AUTOMATA_RNG 1
- struct _xmlAutomata {
- xmlChar *string;
- xmlChar *cur;
- int error;
- int neg;
- xmlRegStatePtr start;
- xmlRegStatePtr end;
- xmlRegStatePtr state;
- xmlRegAtomPtr atom;
- int maxAtoms;
- int nbAtoms;
- xmlRegAtomPtr *atoms;
- int maxStates;
- int nbStates;
- xmlRegStatePtr *states;
- int maxCounters;
- int nbCounters;
- xmlRegCounter *counters;
- int determinist;
- int negs;
- int flags;
- int depth;
- };
- struct _xmlRegexp {
- xmlChar *string;
- int nbStates;
- xmlRegStatePtr *states;
- int nbAtoms;
- xmlRegAtomPtr *atoms;
- int nbCounters;
- xmlRegCounter *counters;
- int determinist;
- int flags;
- /*
- * That's the compact form for determinists automatas
- */
- int nbstates;
- int *compact;
- void **transdata;
- int nbstrings;
- xmlChar **stringMap;
- };
- typedef struct _xmlRegExecRollback xmlRegExecRollback;
- typedef xmlRegExecRollback *xmlRegExecRollbackPtr;
- struct _xmlRegExecRollback {
- xmlRegStatePtr state;/* the current state */
- int index; /* the index in the input stack */
- int nextbranch; /* the next transition to explore in that state */
- int *counts; /* save the automata state if it has some */
- };
- typedef struct _xmlRegInputToken xmlRegInputToken;
- typedef xmlRegInputToken *xmlRegInputTokenPtr;
- struct _xmlRegInputToken {
- xmlChar *value;
- void *data;
- };
- struct _xmlRegExecCtxt {
- int status; /* execution status != 0 indicate an error */
- int determinist; /* did we find an indeterministic behaviour */
- xmlRegexpPtr comp; /* the compiled regexp */
- xmlRegExecCallbacks callback;
- void *data;
- xmlRegStatePtr state;/* the current state */
- int transno; /* the current transition on that state */
- int transcount; /* the number of chars in char counted transitions */
- /*
- * A stack of rollback states
- */
- int maxRollbacks;
- int nbRollbacks;
- xmlRegExecRollback *rollbacks;
- /*
- * The state of the automata if any
- */
- int *counts;
- /*
- * The input stack
- */
- int inputStackMax;
- int inputStackNr;
- int index;
- int *charStack;
- const xmlChar *inputString; /* when operating on characters */
- xmlRegInputTokenPtr inputStack;/* when operating on strings */
- /*
- * error handling
- */
- int errStateNo; /* the error state number */
- xmlRegStatePtr errState; /* the error state */
- xmlChar *errString; /* the string raising the error */
- int *errCounts; /* counters at the error state */
- int nbPush;
- };
- #define REGEXP_ALL_COUNTER 0x123456
- #define REGEXP_ALL_LAX_COUNTER 0x123457
- static void xmlFAParseRegExp(xmlRegParserCtxtPtr ctxt, int top);
- static void xmlRegFreeState(xmlRegStatePtr state);
- static void xmlRegFreeAtom(xmlRegAtomPtr atom);
- static int xmlRegStrEqualWildcard(const xmlChar *expStr, const xmlChar *valStr);
- static int xmlRegCheckCharacter(xmlRegAtomPtr atom, int codepoint);
- static int xmlRegCheckCharacterRange(xmlRegAtomType type, int codepoint,
- int neg, int start, int end, const xmlChar *blockName);
- void xmlAutomataSetFlags(xmlAutomataPtr am, int flags);
- /************************************************************************
- * *
- * Regexp memory error handler *
- * *
- ************************************************************************/
- /**
- * xmlRegexpErrMemory:
- * @extra: extra information
- *
- * Handle an out of memory condition
- */
- static void
- xmlRegexpErrMemory(xmlRegParserCtxtPtr ctxt, const char *extra)
- {
- const char *regexp = NULL;
- if (ctxt != NULL) {
- regexp = (const char *) ctxt->string;
- ctxt->error = XML_ERR_NO_MEMORY;
- }
- __xmlRaiseError(NULL, NULL, NULL, NULL, NULL, XML_FROM_REGEXP,
- XML_ERR_NO_MEMORY, XML_ERR_FATAL, NULL, 0, extra,
- regexp, NULL, 0, 0,
- "Memory allocation failed : %s\n", extra);
- }
- /**
- * xmlRegexpErrCompile:
- * @extra: extra information
- *
- * Handle a compilation failure
- */
- static void
- xmlRegexpErrCompile(xmlRegParserCtxtPtr ctxt, const char *extra)
- {
- const char *regexp = NULL;
- int idx = 0;
- if (ctxt != NULL) {
- regexp = (const char *) ctxt->string;
- idx = ctxt->cur - ctxt->string;
- ctxt->error = XML_REGEXP_COMPILE_ERROR;
- }
- __xmlRaiseError(NULL, NULL, NULL, NULL, NULL, XML_FROM_REGEXP,
- XML_REGEXP_COMPILE_ERROR, XML_ERR_FATAL, NULL, 0, extra,
- regexp, NULL, idx, 0,
- "failed to compile: %s\n", extra);
- }
- /************************************************************************
- * *
- * Allocation/Deallocation *
- * *
- ************************************************************************/
- static int xmlFAComputesDeterminism(xmlRegParserCtxtPtr ctxt);
- /**
- * xmlRegCalloc2:
- * @dim1: size of first dimension
- * @dim2: size of second dimension
- * @elemSize: size of element
- *
- * Allocate a two-dimensional array and set all elements to zero.
- *
- * Returns the new array or NULL in case of error.
- */
- static void*
- xmlRegCalloc2(size_t dim1, size_t dim2, size_t elemSize) {
- size_t totalSize;
- void *ret;
- /* Check for overflow */
- if (dim1 > SIZE_MAX / dim2 / elemSize)
- return (NULL);
- totalSize = dim1 * dim2 * elemSize;
- ret = xmlMalloc(totalSize);
- if (ret != NULL)
- memset(ret, 0, totalSize);
- return (ret);
- }
- /**
- * xmlRegEpxFromParse:
- * @ctxt: the parser context used to build it
- *
- * Allocate a new regexp and fill it with the result from the parser
- *
- * Returns the new regexp or NULL in case of error
- */
- static xmlRegexpPtr
- xmlRegEpxFromParse(xmlRegParserCtxtPtr ctxt) {
- xmlRegexpPtr ret;
- ret = (xmlRegexpPtr) xmlMalloc(sizeof(xmlRegexp));
- if (ret == NULL) {
- xmlRegexpErrMemory(ctxt, "compiling regexp");
- return(NULL);
- }
- memset(ret, 0, sizeof(xmlRegexp));
- ret->string = ctxt->string;
- ret->nbStates = ctxt->nbStates;
- ret->states = ctxt->states;
- ret->nbAtoms = ctxt->nbAtoms;
- ret->atoms = ctxt->atoms;
- ret->nbCounters = ctxt->nbCounters;
- ret->counters = ctxt->counters;
- ret->determinist = ctxt->determinist;
- ret->flags = ctxt->flags;
- if (ret->determinist == -1) {
- xmlRegexpIsDeterminist(ret);
- }
- if ((ret->determinist != 0) &&
- (ret->nbCounters == 0) &&
- (ctxt->negs == 0) &&
- (ret->atoms != NULL) &&
- (ret->atoms[0] != NULL) &&
- (ret->atoms[0]->type == XML_REGEXP_STRING)) {
- int i, j, nbstates = 0, nbatoms = 0;
- int *stateRemap;
- int *stringRemap;
- int *transitions;
- void **transdata;
- xmlChar **stringMap;
- xmlChar *value;
- /*
- * Switch to a compact representation
- * 1/ counting the effective number of states left
- * 2/ counting the unique number of atoms, and check that
- * they are all of the string type
- * 3/ build a table state x atom for the transitions
- */
- stateRemap = xmlMalloc(ret->nbStates * sizeof(int));
- if (stateRemap == NULL) {
- xmlRegexpErrMemory(ctxt, "compiling regexp");
- xmlFree(ret);
- return(NULL);
- }
- for (i = 0;i < ret->nbStates;i++) {
- if (ret->states[i] != NULL) {
- stateRemap[i] = nbstates;
- nbstates++;
- } else {
- stateRemap[i] = -1;
- }
- }
- #ifdef DEBUG_COMPACTION
- printf("Final: %d states\n", nbstates);
- #endif
- stringMap = xmlMalloc(ret->nbAtoms * sizeof(char *));
- if (stringMap == NULL) {
- xmlRegexpErrMemory(ctxt, "compiling regexp");
- xmlFree(stateRemap);
- xmlFree(ret);
- return(NULL);
- }
- stringRemap = xmlMalloc(ret->nbAtoms * sizeof(int));
- if (stringRemap == NULL) {
- xmlRegexpErrMemory(ctxt, "compiling regexp");
- xmlFree(stringMap);
- xmlFree(stateRemap);
- xmlFree(ret);
- return(NULL);
- }
- for (i = 0;i < ret->nbAtoms;i++) {
- if ((ret->atoms[i]->type == XML_REGEXP_STRING) &&
- (ret->atoms[i]->quant == XML_REGEXP_QUANT_ONCE)) {
- value = ret->atoms[i]->valuep;
- for (j = 0;j < nbatoms;j++) {
- if (xmlStrEqual(stringMap[j], value)) {
- stringRemap[i] = j;
- break;
- }
- }
- if (j >= nbatoms) {
- stringRemap[i] = nbatoms;
- stringMap[nbatoms] = xmlStrdup(value);
- if (stringMap[nbatoms] == NULL) {
- for (i = 0;i < nbatoms;i++)
- xmlFree(stringMap[i]);
- xmlFree(stringRemap);
- xmlFree(stringMap);
- xmlFree(stateRemap);
- xmlFree(ret);
- return(NULL);
- }
- nbatoms++;
- }
- } else {
- xmlFree(stateRemap);
- xmlFree(stringRemap);
- for (i = 0;i < nbatoms;i++)
- xmlFree(stringMap[i]);
- xmlFree(stringMap);
- xmlFree(ret);
- return(NULL);
- }
- }
- #ifdef DEBUG_COMPACTION
- printf("Final: %d atoms\n", nbatoms);
- #endif
- transitions = (int *) xmlRegCalloc2(nbstates + 1, nbatoms + 1,
- sizeof(int));
- if (transitions == NULL) {
- xmlFree(stateRemap);
- xmlFree(stringRemap);
- for (i = 0;i < nbatoms;i++)
- xmlFree(stringMap[i]);
- xmlFree(stringMap);
- xmlFree(ret);
- return(NULL);
- }
- /*
- * Allocate the transition table. The first entry for each
- * state corresponds to the state type.
- */
- transdata = NULL;
- for (i = 0;i < ret->nbStates;i++) {
- int stateno, atomno, targetno, prev;
- xmlRegStatePtr state;
- xmlRegTransPtr trans;
- stateno = stateRemap[i];
- if (stateno == -1)
- continue;
- state = ret->states[i];
- transitions[stateno * (nbatoms + 1)] = state->type;
- for (j = 0;j < state->nbTrans;j++) {
- trans = &(state->trans[j]);
- if ((trans->to == -1) || (trans->atom == NULL))
- continue;
- atomno = stringRemap[trans->atom->no];
- if ((trans->atom->data != NULL) && (transdata == NULL)) {
- transdata = (void **) xmlRegCalloc2(nbstates, nbatoms,
- sizeof(void *));
- if (transdata == NULL) {
- xmlRegexpErrMemory(ctxt, "compiling regexp");
- break;
- }
- }
- targetno = stateRemap[trans->to];
- /*
- * if the same atom can generate transitions to 2 different
- * states then it means the automata is not deterministic and
- * the compact form can't be used !
- */
- prev = transitions[stateno * (nbatoms + 1) + atomno + 1];
- if (prev != 0) {
- if (prev != targetno + 1) {
- ret->determinist = 0;
- #ifdef DEBUG_COMPACTION
- printf("Indet: state %d trans %d, atom %d to %d : %d to %d\n",
- i, j, trans->atom->no, trans->to, atomno, targetno);
- printf(" previous to is %d\n", prev);
- #endif
- if (transdata != NULL)
- xmlFree(transdata);
- xmlFree(transitions);
- xmlFree(stateRemap);
- xmlFree(stringRemap);
- for (i = 0;i < nbatoms;i++)
- xmlFree(stringMap[i]);
- xmlFree(stringMap);
- goto not_determ;
- }
- } else {
- #if 0
- printf("State %d trans %d: atom %d to %d : %d to %d\n",
- i, j, trans->atom->no, trans->to, atomno, targetno);
- #endif
- transitions[stateno * (nbatoms + 1) + atomno + 1] =
- targetno + 1; /* to avoid 0 */
- if (transdata != NULL)
- transdata[stateno * nbatoms + atomno] =
- trans->atom->data;
- }
- }
- }
- ret->determinist = 1;
- #ifdef DEBUG_COMPACTION
- /*
- * Debug
- */
- for (i = 0;i < nbstates;i++) {
- for (j = 0;j < nbatoms + 1;j++) {
- printf("%02d ", transitions[i * (nbatoms + 1) + j]);
- }
- printf("\n");
- }
- printf("\n");
- #endif
- /*
- * Cleanup of the old data
- */
- if (ret->states != NULL) {
- for (i = 0;i < ret->nbStates;i++)
- xmlRegFreeState(ret->states[i]);
- xmlFree(ret->states);
- }
- ret->states = NULL;
- ret->nbStates = 0;
- if (ret->atoms != NULL) {
- for (i = 0;i < ret->nbAtoms;i++)
- xmlRegFreeAtom(ret->atoms[i]);
- xmlFree(ret->atoms);
- }
- ret->atoms = NULL;
- ret->nbAtoms = 0;
- ret->compact = transitions;
- ret->transdata = transdata;
- ret->stringMap = stringMap;
- ret->nbstrings = nbatoms;
- ret->nbstates = nbstates;
- xmlFree(stateRemap);
- xmlFree(stringRemap);
- }
- not_determ:
- ctxt->string = NULL;
- ctxt->nbStates = 0;
- ctxt->states = NULL;
- ctxt->nbAtoms = 0;
- ctxt->atoms = NULL;
- ctxt->nbCounters = 0;
- ctxt->counters = NULL;
- return(ret);
- }
- /**
- * xmlRegNewParserCtxt:
- * @string: the string to parse
- *
- * Allocate a new regexp parser context
- *
- * Returns the new context or NULL in case of error
- */
- static xmlRegParserCtxtPtr
- xmlRegNewParserCtxt(const xmlChar *string) {
- xmlRegParserCtxtPtr ret;
- ret = (xmlRegParserCtxtPtr) xmlMalloc(sizeof(xmlRegParserCtxt));
- if (ret == NULL)
- return(NULL);
- memset(ret, 0, sizeof(xmlRegParserCtxt));
- if (string != NULL)
- ret->string = xmlStrdup(string);
- ret->cur = ret->string;
- ret->neg = 0;
- ret->negs = 0;
- ret->error = 0;
- ret->determinist = -1;
- return(ret);
- }
- /**
- * xmlRegNewRange:
- * @ctxt: the regexp parser context
- * @neg: is that negative
- * @type: the type of range
- * @start: the start codepoint
- * @end: the end codepoint
- *
- * Allocate a new regexp range
- *
- * Returns the new range or NULL in case of error
- */
- static xmlRegRangePtr
- xmlRegNewRange(xmlRegParserCtxtPtr ctxt,
- int neg, xmlRegAtomType type, int start, int end) {
- xmlRegRangePtr ret;
- ret = (xmlRegRangePtr) xmlMalloc(sizeof(xmlRegRange));
- if (ret == NULL) {
- xmlRegexpErrMemory(ctxt, "allocating range");
- return(NULL);
- }
- ret->neg = neg;
- ret->type = type;
- ret->start = start;
- ret->end = end;
- return(ret);
- }
- /**
- * xmlRegFreeRange:
- * @range: the regexp range
- *
- * Free a regexp range
- */
- static void
- xmlRegFreeRange(xmlRegRangePtr range) {
- if (range == NULL)
- return;
- if (range->blockName != NULL)
- xmlFree(range->blockName);
- xmlFree(range);
- }
- /**
- * xmlRegCopyRange:
- * @range: the regexp range
- *
- * Copy a regexp range
- *
- * Returns the new copy or NULL in case of error.
- */
- static xmlRegRangePtr
- xmlRegCopyRange(xmlRegParserCtxtPtr ctxt, xmlRegRangePtr range) {
- xmlRegRangePtr ret;
- if (range == NULL)
- return(NULL);
- ret = xmlRegNewRange(ctxt, range->neg, range->type, range->start,
- range->end);
- if (ret == NULL)
- return(NULL);
- if (range->blockName != NULL) {
- ret->blockName = xmlStrdup(range->blockName);
- if (ret->blockName == NULL) {
- xmlRegexpErrMemory(ctxt, "allocating range");
- xmlRegFreeRange(ret);
- return(NULL);
- }
- }
- return(ret);
- }
- /**
- * xmlRegNewAtom:
- * @ctxt: the regexp parser context
- * @type: the type of atom
- *
- * Allocate a new atom
- *
- * Returns the new atom or NULL in case of error
- */
- static xmlRegAtomPtr
- xmlRegNewAtom(xmlRegParserCtxtPtr ctxt, xmlRegAtomType type) {
- xmlRegAtomPtr ret;
- ret = (xmlRegAtomPtr) xmlMalloc(sizeof(xmlRegAtom));
- if (ret == NULL) {
- xmlRegexpErrMemory(ctxt, "allocating atom");
- return(NULL);
- }
- memset(ret, 0, sizeof(xmlRegAtom));
- ret->type = type;
- ret->quant = XML_REGEXP_QUANT_ONCE;
- ret->min = 0;
- ret->max = 0;
- return(ret);
- }
- /**
- * xmlRegFreeAtom:
- * @atom: the regexp atom
- *
- * Free a regexp atom
- */
- static void
- xmlRegFreeAtom(xmlRegAtomPtr atom) {
- int i;
- if (atom == NULL)
- return;
- for (i = 0;i < atom->nbRanges;i++)
- xmlRegFreeRange(atom->ranges[i]);
- if (atom->ranges != NULL)
- xmlFree(atom->ranges);
- if ((atom->type == XML_REGEXP_STRING) && (atom->valuep != NULL))
- xmlFree(atom->valuep);
- if ((atom->type == XML_REGEXP_STRING) && (atom->valuep2 != NULL))
- xmlFree(atom->valuep2);
- if ((atom->type == XML_REGEXP_BLOCK_NAME) && (atom->valuep != NULL))
- xmlFree(atom->valuep);
- xmlFree(atom);
- }
- /**
- * xmlRegCopyAtom:
- * @ctxt: the regexp parser context
- * @atom: the original atom
- *
- * Allocate a new regexp range
- *
- * Returns the new atom or NULL in case of error
- */
- static xmlRegAtomPtr
- xmlRegCopyAtom(xmlRegParserCtxtPtr ctxt, xmlRegAtomPtr atom) {
- xmlRegAtomPtr ret;
- ret = (xmlRegAtomPtr) xmlMalloc(sizeof(xmlRegAtom));
- if (ret == NULL) {
- xmlRegexpErrMemory(ctxt, "copying atom");
- return(NULL);
- }
- memset(ret, 0, sizeof(xmlRegAtom));
- ret->type = atom->type;
- ret->quant = atom->quant;
- ret->min = atom->min;
- ret->max = atom->max;
- if (atom->nbRanges > 0) {
- int i;
- ret->ranges = (xmlRegRangePtr *) xmlMalloc(sizeof(xmlRegRangePtr) *
- atom->nbRanges);
- if (ret->ranges == NULL) {
- xmlRegexpErrMemory(ctxt, "copying atom");
- goto error;
- }
- for (i = 0;i < atom->nbRanges;i++) {
- ret->ranges[i] = xmlRegCopyRange(ctxt, atom->ranges[i]);
- if (ret->ranges[i] == NULL)
- goto error;
- ret->nbRanges = i + 1;
- }
- }
- return(ret);
- error:
- xmlRegFreeAtom(ret);
- return(NULL);
- }
- static xmlRegStatePtr
- xmlRegNewState(xmlRegParserCtxtPtr ctxt) {
- xmlRegStatePtr ret;
- ret = (xmlRegStatePtr) xmlMalloc(sizeof(xmlRegState));
- if (ret == NULL) {
- xmlRegexpErrMemory(ctxt, "allocating state");
- return(NULL);
- }
- memset(ret, 0, sizeof(xmlRegState));
- ret->type = XML_REGEXP_TRANS_STATE;
- ret->mark = XML_REGEXP_MARK_NORMAL;
- return(ret);
- }
- /**
- * xmlRegFreeState:
- * @state: the regexp state
- *
- * Free a regexp state
- */
- static void
- xmlRegFreeState(xmlRegStatePtr state) {
- if (state == NULL)
- return;
- if (state->trans != NULL)
- xmlFree(state->trans);
- if (state->transTo != NULL)
- xmlFree(state->transTo);
- xmlFree(state);
- }
- /**
- * xmlRegFreeParserCtxt:
- * @ctxt: the regexp parser context
- *
- * Free a regexp parser context
- */
- static void
- xmlRegFreeParserCtxt(xmlRegParserCtxtPtr ctxt) {
- int i;
- if (ctxt == NULL)
- return;
- if (ctxt->string != NULL)
- xmlFree(ctxt->string);
- if (ctxt->states != NULL) {
- for (i = 0;i < ctxt->nbStates;i++)
- xmlRegFreeState(ctxt->states[i]);
- xmlFree(ctxt->states);
- }
- if (ctxt->atoms != NULL) {
- for (i = 0;i < ctxt->nbAtoms;i++)
- xmlRegFreeAtom(ctxt->atoms[i]);
- xmlFree(ctxt->atoms);
- }
- if (ctxt->counters != NULL)
- xmlFree(ctxt->counters);
- xmlFree(ctxt);
- }
- /************************************************************************
- * *
- * Display of Data structures *
- * *
- ************************************************************************/
- static void
- xmlRegPrintAtomType(FILE *output, xmlRegAtomType type) {
- switch (type) {
- case XML_REGEXP_EPSILON:
- fprintf(output, "epsilon "); break;
- case XML_REGEXP_CHARVAL:
- fprintf(output, "charval "); break;
- case XML_REGEXP_RANGES:
- fprintf(output, "ranges "); break;
- case XML_REGEXP_SUBREG:
- fprintf(output, "subexpr "); break;
- case XML_REGEXP_STRING:
- fprintf(output, "string "); break;
- case XML_REGEXP_ANYCHAR:
- fprintf(output, "anychar "); break;
- case XML_REGEXP_ANYSPACE:
- fprintf(output, "anyspace "); break;
- case XML_REGEXP_NOTSPACE:
- fprintf(output, "notspace "); break;
- case XML_REGEXP_INITNAME:
- fprintf(output, "initname "); break;
- case XML_REGEXP_NOTINITNAME:
- fprintf(output, "notinitname "); break;
- case XML_REGEXP_NAMECHAR:
- fprintf(output, "namechar "); break;
- case XML_REGEXP_NOTNAMECHAR:
- fprintf(output, "notnamechar "); break;
- case XML_REGEXP_DECIMAL:
- fprintf(output, "decimal "); break;
- case XML_REGEXP_NOTDECIMAL:
- fprintf(output, "notdecimal "); break;
- case XML_REGEXP_REALCHAR:
- fprintf(output, "realchar "); break;
- case XML_REGEXP_NOTREALCHAR:
- fprintf(output, "notrealchar "); break;
- case XML_REGEXP_LETTER:
- fprintf(output, "LETTER "); break;
- case XML_REGEXP_LETTER_UPPERCASE:
- fprintf(output, "LETTER_UPPERCASE "); break;
- case XML_REGEXP_LETTER_LOWERCASE:
- fprintf(output, "LETTER_LOWERCASE "); break;
- case XML_REGEXP_LETTER_TITLECASE:
- fprintf(output, "LETTER_TITLECASE "); break;
- case XML_REGEXP_LETTER_MODIFIER:
- fprintf(output, "LETTER_MODIFIER "); break;
- case XML_REGEXP_LETTER_OTHERS:
- fprintf(output, "LETTER_OTHERS "); break;
- case XML_REGEXP_MARK:
- fprintf(output, "MARK "); break;
- case XML_REGEXP_MARK_NONSPACING:
- fprintf(output, "MARK_NONSPACING "); break;
- case XML_REGEXP_MARK_SPACECOMBINING:
- fprintf(output, "MARK_SPACECOMBINING "); break;
- case XML_REGEXP_MARK_ENCLOSING:
- fprintf(output, "MARK_ENCLOSING "); break;
- case XML_REGEXP_NUMBER:
- fprintf(output, "NUMBER "); break;
- case XML_REGEXP_NUMBER_DECIMAL:
- fprintf(output, "NUMBER_DECIMAL "); break;
- case XML_REGEXP_NUMBER_LETTER:
- fprintf(output, "NUMBER_LETTER "); break;
- case XML_REGEXP_NUMBER_OTHERS:
- fprintf(output, "NUMBER_OTHERS "); break;
- case XML_REGEXP_PUNCT:
- fprintf(output, "PUNCT "); break;
- case XML_REGEXP_PUNCT_CONNECTOR:
- fprintf(output, "PUNCT_CONNECTOR "); break;
- case XML_REGEXP_PUNCT_DASH:
- fprintf(output, "PUNCT_DASH "); break;
- case XML_REGEXP_PUNCT_OPEN:
- fprintf(output, "PUNCT_OPEN "); break;
- case XML_REGEXP_PUNCT_CLOSE:
- fprintf(output, "PUNCT_CLOSE "); break;
- case XML_REGEXP_PUNCT_INITQUOTE:
- fprintf(output, "PUNCT_INITQUOTE "); break;
- case XML_REGEXP_PUNCT_FINQUOTE:
- fprintf(output, "PUNCT_FINQUOTE "); break;
- case XML_REGEXP_PUNCT_OTHERS:
- fprintf(output, "PUNCT_OTHERS "); break;
- case XML_REGEXP_SEPAR:
- fprintf(output, "SEPAR "); break;
- case XML_REGEXP_SEPAR_SPACE:
- fprintf(output, "SEPAR_SPACE "); break;
- case XML_REGEXP_SEPAR_LINE:
- fprintf(output, "SEPAR_LINE "); break;
- case XML_REGEXP_SEPAR_PARA:
- fprintf(output, "SEPAR_PARA "); break;
- case XML_REGEXP_SYMBOL:
- fprintf(output, "SYMBOL "); break;
- case XML_REGEXP_SYMBOL_MATH:
- fprintf(output, "SYMBOL_MATH "); break;
- case XML_REGEXP_SYMBOL_CURRENCY:
- fprintf(output, "SYMBOL_CURRENCY "); break;
- case XML_REGEXP_SYMBOL_MODIFIER:
- fprintf(output, "SYMBOL_MODIFIER "); break;
- case XML_REGEXP_SYMBOL_OTHERS:
- fprintf(output, "SYMBOL_OTHERS "); break;
- case XML_REGEXP_OTHER:
- fprintf(output, "OTHER "); break;
- case XML_REGEXP_OTHER_CONTROL:
- fprintf(output, "OTHER_CONTROL "); break;
- case XML_REGEXP_OTHER_FORMAT:
- fprintf(output, "OTHER_FORMAT "); break;
- case XML_REGEXP_OTHER_PRIVATE:
- fprintf(output, "OTHER_PRIVATE "); break;
- case XML_REGEXP_OTHER_NA:
- fprintf(output, "OTHER_NA "); break;
- case XML_REGEXP_BLOCK_NAME:
- fprintf(output, "BLOCK "); break;
- }
- }
- static void
- xmlRegPrintQuantType(FILE *output, xmlRegQuantType type) {
- switch (type) {
- case XML_REGEXP_QUANT_EPSILON:
- fprintf(output, "epsilon "); break;
- case XML_REGEXP_QUANT_ONCE:
- fprintf(output, "once "); break;
- case XML_REGEXP_QUANT_OPT:
- fprintf(output, "? "); break;
- case XML_REGEXP_QUANT_MULT:
- fprintf(output, "* "); break;
- case XML_REGEXP_QUANT_PLUS:
- fprintf(output, "+ "); break;
- case XML_REGEXP_QUANT_RANGE:
- fprintf(output, "range "); break;
- case XML_REGEXP_QUANT_ONCEONLY:
- fprintf(output, "onceonly "); break;
- case XML_REGEXP_QUANT_ALL:
- fprintf(output, "all "); break;
- }
- }
- static void
- xmlRegPrintRange(FILE *output, xmlRegRangePtr range) {
- fprintf(output, " range: ");
- if (range->neg)
- fprintf(output, "negative ");
- xmlRegPrintAtomType(output, range->type);
- fprintf(output, "%c - %c\n", range->start, range->end);
- }
- static void
- xmlRegPrintAtom(FILE *output, xmlRegAtomPtr atom) {
- fprintf(output, " atom: ");
- if (atom == NULL) {
- fprintf(output, "NULL\n");
- return;
- }
- if (atom->neg)
- fprintf(output, "not ");
- xmlRegPrintAtomType(output, atom->type);
- xmlRegPrintQuantType(output, atom->quant);
- if (atom->quant == XML_REGEXP_QUANT_RANGE)
- fprintf(output, "%d-%d ", atom->min, atom->max);
- if (atom->type == XML_REGEXP_STRING)
- fprintf(output, "'%s' ", (char *) atom->valuep);
- if (atom->type == XML_REGEXP_CHARVAL)
- fprintf(output, "char %c\n", atom->codepoint);
- else if (atom->type == XML_REGEXP_RANGES) {
- int i;
- fprintf(output, "%d entries\n", atom->nbRanges);
- for (i = 0; i < atom->nbRanges;i++)
- xmlRegPrintRange(output, atom->ranges[i]);
- } else if (atom->type == XML_REGEXP_SUBREG) {
- fprintf(output, "start %d end %d\n", atom->start->no, atom->stop->no);
- } else {
- fprintf(output, "\n");
- }
- }
- static void
- xmlRegPrintTrans(FILE *output, xmlRegTransPtr trans) {
- fprintf(output, " trans: ");
- if (trans == NULL) {
- fprintf(output, "NULL\n");
- return;
- }
- if (trans->to < 0) {
- fprintf(output, "removed\n");
- return;
- }
- if (trans->nd != 0) {
- if (trans->nd == 2)
- fprintf(output, "last not determinist, ");
- else
- fprintf(output, "not determinist, ");
- }
- if (trans->counter >= 0) {
- fprintf(output, "counted %d, ", trans->counter);
- }
- if (trans->count == REGEXP_ALL_COUNTER) {
- fprintf(output, "all transition, ");
- } else if (trans->count >= 0) {
- fprintf(output, "count based %d, ", trans->count);
- }
- if (trans->atom == NULL) {
- fprintf(output, "epsilon to %d\n", trans->to);
- return;
- }
- if (trans->atom->type == XML_REGEXP_CHARVAL)
- fprintf(output, "char %c ", trans->atom->codepoint);
- fprintf(output, "atom %d, to %d\n", trans->atom->no, trans->to);
- }
- static void
- xmlRegPrintState(FILE *output, xmlRegStatePtr state) {
- int i;
- fprintf(output, " state: ");
- if (state == NULL) {
- fprintf(output, "NULL\n");
- return;
- }
- if (state->type == XML_REGEXP_START_STATE)
- fprintf(output, "START ");
- if (state->type == XML_REGEXP_FINAL_STATE)
- fprintf(output, "FINAL ");
- fprintf(output, "%d, %d transitions:\n", state->no, state->nbTrans);
- for (i = 0;i < state->nbTrans; i++) {
- xmlRegPrintTrans(output, &(state->trans[i]));
- }
- }
- #ifdef DEBUG_REGEXP_GRAPH
- static void
- xmlRegPrintCtxt(FILE *output, xmlRegParserCtxtPtr ctxt) {
- int i;
- fprintf(output, " ctxt: ");
- if (ctxt == NULL) {
- fprintf(output, "NULL\n");
- return;
- }
- fprintf(output, "'%s' ", ctxt->string);
- if (ctxt->error)
- fprintf(output, "error ");
- if (ctxt->neg)
- fprintf(output, "neg ");
- fprintf(output, "\n");
- fprintf(output, "%d atoms:\n", ctxt->nbAtoms);
- for (i = 0;i < ctxt->nbAtoms; i++) {
- fprintf(output, " %02d ", i);
- xmlRegPrintAtom(output, ctxt->atoms[i]);
- }
- if (ctxt->atom != NULL) {
- fprintf(output, "current atom:\n");
- xmlRegPrintAtom(output, ctxt->atom);
- }
- fprintf(output, "%d states:", ctxt->nbStates);
- if (ctxt->start != NULL)
- fprintf(output, " start: %d", ctxt->start->no);
- if (ctxt->end != NULL)
- fprintf(output, " end: %d", ctxt->end->no);
- fprintf(output, "\n");
- for (i = 0;i < ctxt->nbStates; i++) {
- xmlRegPrintState(output, ctxt->states[i]);
- }
- fprintf(output, "%d counters:\n", ctxt->nbCounters);
- for (i = 0;i < ctxt->nbCounters; i++) {
- fprintf(output, " %d: min %d max %d\n", i, ctxt->counters[i].min,
- ctxt->counters[i].max);
- }
- }
- #endif
- /************************************************************************
- * *
- * Finite Automata structures manipulations *
- * *
- ************************************************************************/
- static void
- xmlRegAtomAddRange(xmlRegParserCtxtPtr ctxt, xmlRegAtomPtr atom,
- int neg, xmlRegAtomType type, int start, int end,
- xmlChar *blockName) {
- xmlRegRangePtr range;
- if (atom == NULL) {
- ERROR("add range: atom is NULL");
- return;
- }
- if (atom->type != XML_REGEXP_RANGES) {
- ERROR("add range: atom is not ranges");
- return;
- }
- if (atom->maxRanges == 0) {
- atom->maxRanges = 4;
- atom->ranges = (xmlRegRangePtr *) xmlMalloc(atom->maxRanges *
- sizeof(xmlRegRangePtr));
- if (atom->ranges == NULL) {
- xmlRegexpErrMemory(ctxt, "adding ranges");
- atom->maxRanges = 0;
- return;
- }
- } else if (atom->nbRanges >= atom->maxRanges) {
- xmlRegRangePtr *tmp;
- atom->maxRanges *= 2;
- tmp = (xmlRegRangePtr *) xmlRealloc(atom->ranges, atom->maxRanges *
- sizeof(xmlRegRangePtr));
- if (tmp == NULL) {
- xmlRegexpErrMemory(ctxt, "adding ranges");
- atom->maxRanges /= 2;
- return;
- }
- atom->ranges = tmp;
- }
- range = xmlRegNewRange(ctxt, neg, type, start, end);
- if (range == NULL)
- return;
- range->blockName = blockName;
- atom->ranges[atom->nbRanges++] = range;
- }
- static int
- xmlRegGetCounter(xmlRegParserCtxtPtr ctxt) {
- if (ctxt->maxCounters == 0) {
- ctxt->maxCounters = 4;
- ctxt->counters = (xmlRegCounter *) xmlMalloc(ctxt->maxCounters *
- sizeof(xmlRegCounter));
- if (ctxt->counters == NULL) {
- xmlRegexpErrMemory(ctxt, "allocating counter");
- ctxt->maxCounters = 0;
- return(-1);
- }
- } else if (ctxt->nbCounters >= ctxt->maxCounters) {
- xmlRegCounter *tmp;
- ctxt->maxCounters *= 2;
- tmp = (xmlRegCounter *) xmlRealloc(ctxt->counters, ctxt->maxCounters *
- sizeof(xmlRegCounter));
- if (tmp == NULL) {
- xmlRegexpErrMemory(ctxt, "allocating counter");
- ctxt->maxCounters /= 2;
- return(-1);
- }
- ctxt->counters = tmp;
- }
- ctxt->counters[ctxt->nbCounters].min = -1;
- ctxt->counters[ctxt->nbCounters].max = -1;
- return(ctxt->nbCounters++);
- }
- static int
- xmlRegAtomPush(xmlRegParserCtxtPtr ctxt, xmlRegAtomPtr atom) {
- if (atom == NULL) {
- ERROR("atom push: atom is NULL");
- return(-1);
- }
- if (ctxt->maxAtoms == 0) {
- ctxt->maxAtoms = 4;
- ctxt->atoms = (xmlRegAtomPtr *) xmlMalloc(ctxt->maxAtoms *
- sizeof(xmlRegAtomPtr));
- if (ctxt->atoms == NULL) {
- xmlRegexpErrMemory(ctxt, "pushing atom");
- ctxt->maxAtoms = 0;
- return(-1);
- }
- } else if (ctxt->nbAtoms >= ctxt->maxAtoms) {
- xmlRegAtomPtr *tmp;
- ctxt->maxAtoms *= 2;
- tmp = (xmlRegAtomPtr *) xmlRealloc(ctxt->atoms, ctxt->maxAtoms *
- sizeof(xmlRegAtomPtr));
- if (tmp == NULL) {
- xmlRegexpErrMemory(ctxt, "allocating counter");
- ctxt->maxAtoms /= 2;
- return(-1);
- }
- ctxt->atoms = tmp;
- }
- atom->no = ctxt->nbAtoms;
- ctxt->atoms[ctxt->nbAtoms++] = atom;
- return(0);
- }
- static void
- xmlRegStateAddTransTo(xmlRegParserCtxtPtr ctxt, xmlRegStatePtr target,
- int from) {
- if (target->maxTransTo == 0) {
- target->maxTransTo = 8;
- target->transTo = (int *) xmlMalloc(target->maxTransTo *
- sizeof(int));
- if (target->transTo == NULL) {
- xmlRegexpErrMemory(ctxt, "adding transition");
- target->maxTransTo = 0;
- return;
- }
- } else if (target->nbTransTo >= target->maxTransTo) {
- int *tmp;
- target->maxTransTo *= 2;
- tmp = (int *) xmlRealloc(target->transTo, target->maxTransTo *
- sizeof(int));
- if (tmp == NULL) {
- xmlRegexpErrMemory(ctxt, "adding transition");
- target->maxTransTo /= 2;
- return;
- }
- target->transTo = tmp;
- }
- target->transTo[target->nbTransTo] = from;
- target->nbTransTo++;
- }
- static void
- xmlRegStateAddTrans(xmlRegParserCtxtPtr ctxt, xmlRegStatePtr state,
- xmlRegAtomPtr atom, xmlRegStatePtr target,
- int counter, int count) {
- int nrtrans;
- if (state == NULL) {
- ERROR("add state: state is NULL");
- return;
- }
- if (target == NULL) {
- ERROR("add state: target is NULL");
- return;
- }
- /*
- * Other routines follow the philosophy 'When in doubt, add a transition'
- * so we check here whether such a transition is already present and, if
- * so, silently ignore this request.
- */
- for (nrtrans = state->nbTrans - 1; nrtrans >= 0; nrtrans--) {
- xmlRegTransPtr trans = &(state->trans[nrtrans]);
- if ((trans->atom == atom) &&
- (trans->to == target->no) &&
- (trans->counter == counter) &&
- (trans->count == count)) {
- #ifdef DEBUG_REGEXP_GRAPH
- printf("Ignoring duplicate transition from %d to %d\n",
- state->no, target->no);
- #endif
- return;
- }
- }
- if (state->maxTrans == 0) {
- state->maxTrans = 8;
- state->trans = (xmlRegTrans *) xmlMalloc(state->maxTrans *
- sizeof(xmlRegTrans));
- if (state->trans == NULL) {
- xmlRegexpErrMemory(ctxt, "adding transition");
- state->maxTrans = 0;
- return;
- }
- } else if (state->nbTrans >= state->maxTrans) {
- xmlRegTrans *tmp;
- state->maxTrans *= 2;
- tmp = (xmlRegTrans *) xmlRealloc(state->trans, state->maxTrans *
- sizeof(xmlRegTrans));
- if (tmp == NULL) {
- xmlRegexpErrMemory(ctxt, "adding transition");
- state->maxTrans /= 2;
- return;
- }
- state->trans = tmp;
- }
- #ifdef DEBUG_REGEXP_GRAPH
- printf("Add trans from %d to %d ", state->no, target->no);
- if (count == REGEXP_ALL_COUNTER)
- printf("all transition\n");
- else if (count >= 0)
- printf("count based %d\n", count);
- else if (counter >= 0)
- printf("counted %d\n", counter);
- else if (atom == NULL)
- printf("epsilon transition\n");
- else if (atom != NULL)
- xmlRegPrintAtom(stdout, atom);
- #endif
- state->trans[state->nbTrans].atom = atom;
- state->trans[state->nbTrans].to = target->no;
- state->trans[state->nbTrans].counter = counter;
- state->trans[state->nbTrans].count = count;
- state->trans[state->nbTrans].nd = 0;
- state->nbTrans++;
- xmlRegStateAddTransTo(ctxt, target, state->no);
- }
- static int
- xmlRegStatePush(xmlRegParserCtxtPtr ctxt, xmlRegStatePtr state) {
- if (state == NULL) return(-1);
- if (ctxt->maxStates == 0) {
- ctxt->maxStates = 4;
- ctxt->states = (xmlRegStatePtr *) xmlMalloc(ctxt->maxStates *
- sizeof(xmlRegStatePtr));
- if (ctxt->states == NULL) {
- xmlRegexpErrMemory(ctxt, "adding state");
- ctxt->maxStates = 0;
- return(-1);
- }
- } else if (ctxt->nbStates >= ctxt->maxStates) {
- xmlRegStatePtr *tmp;
- ctxt->maxStates *= 2;
- tmp = (xmlRegStatePtr *) xmlRealloc(ctxt->states, ctxt->maxStates *
- sizeof(xmlRegStatePtr));
- if (tmp == NULL) {
- xmlRegexpErrMemory(ctxt, "adding state");
- ctxt->maxStates /= 2;
- return(-1);
- }
- ctxt->states = tmp;
- }
- state->no = ctxt->nbStates;
- ctxt->states[ctxt->nbStates++] = state;
- return(0);
- }
- /**
- * xmlFAGenerateAllTransition:
- * @ctxt: a regexp parser context
- * @from: the from state
- * @to: the target state or NULL for building a new one
- * @lax:
- *
- */
- static void
- xmlFAGenerateAllTransition(xmlRegParserCtxtPtr ctxt,
- xmlRegStatePtr from, xmlRegStatePtr to,
- int lax) {
- if (to == NULL) {
- to = xmlRegNewState(ctxt);
- xmlRegStatePush(ctxt, to);
- ctxt->state = to;
- }
- if (lax)
- xmlRegStateAddTrans(ctxt, from, NULL, to, -1, REGEXP_ALL_LAX_COUNTER);
- else
- xmlRegStateAddTrans(ctxt, from, NULL, to, -1, REGEXP_ALL_COUNTER);
- }
- /**
- * xmlFAGenerateEpsilonTransition:
- * @ctxt: a regexp parser context
- * @from: the from state
- * @to: the target state or NULL for building a new one
- *
- */
- static void
- xmlFAGenerateEpsilonTransition(xmlRegParserCtxtPtr ctxt,
- xmlRegStatePtr from, xmlRegStatePtr to) {
- if (to == NULL) {
- to = xmlRegNewState(ctxt);
- xmlRegStatePush(ctxt, to);
- ctxt->state = to;
- }
- xmlRegStateAddTrans(ctxt, from, NULL, to, -1, -1);
- }
- /**
- * xmlFAGenerateCountedEpsilonTransition:
- * @ctxt: a regexp parser context
- * @from: the from state
- * @to: the target state or NULL for building a new one
- * counter: the counter for that transition
- *
- */
- static void
- xmlFAGenerateCountedEpsilonTransition(xmlRegParserCtxtPtr ctxt,
- xmlRegStatePtr from, xmlRegStatePtr to, int counter) {
- if (to == NULL) {
- to = xmlRegNewState(ctxt);
- xmlRegStatePush(ctxt, to);
- ctxt->state = to;
- }
- xmlRegStateAddTrans(ctxt, from, NULL, to, counter, -1);
- }
- /**
- * xmlFAGenerateCountedTransition:
- * @ctxt: a regexp parser context
- * @from: the from state
- * @to: the target state or NULL for building a new one
- * counter: the counter for that transition
- *
- */
- static void
- xmlFAGenerateCountedTransition(xmlRegParserCtxtPtr ctxt,
- xmlRegStatePtr from, xmlRegStatePtr to, int counter) {
- if (to == NULL) {
- to = xmlRegNewState(ctxt);
- xmlRegStatePush(ctxt, to);
- ctxt->state = to;
- }
- xmlRegStateAddTrans(ctxt, from, NULL, to, -1, counter);
- }
- /**
- * xmlFAGenerateTransitions:
- * @ctxt: a regexp parser context
- * @from: the from state
- * @to: the target state or NULL for building a new one
- * @atom: the atom generating the transition
- *
- * Returns 0 if success and -1 in case of error.
- */
- static int
- xmlFAGenerateTransitions(xmlRegParserCtxtPtr ctxt, xmlRegStatePtr from,
- xmlRegStatePtr to, xmlRegAtomPtr atom) {
- xmlRegStatePtr end;
- int nullable = 0;
- if (atom == NULL) {
- ERROR("generate transition: atom == NULL");
- return(-1);
- }
- if (atom->type == XML_REGEXP_SUBREG) {
- /*
- * this is a subexpression handling one should not need to
- * create a new node except for XML_REGEXP_QUANT_RANGE.
- */
- if (xmlRegAtomPush(ctxt, atom) < 0) {
- return(-1);
- }
- if ((to != NULL) && (atom->stop != to) &&
- (atom->quant != XML_REGEXP_QUANT_RANGE)) {
- /*
- * Generate an epsilon transition to link to the target
- */
- xmlFAGenerateEpsilonTransition(ctxt, atom->stop, to);
- #ifdef DV
- } else if ((to == NULL) && (atom->quant != XML_REGEXP_QUANT_RANGE) &&
- (atom->quant != XML_REGEXP_QUANT_ONCE)) {
- to = xmlRegNewState(ctxt);
- xmlRegStatePush(ctxt, to);
- ctxt->state = to;
- xmlFAGenerateEpsilonTransition(ctxt, atom->stop, to);
- #endif
- }
- switch (atom->quant) {
- case XML_REGEXP_QUANT_OPT:
- atom->quant = XML_REGEXP_QUANT_ONCE;
- /*
- * transition done to the state after end of atom.
- * 1. set transition from atom start to new state
- * 2. set transition from atom end to this state.
- */
- if (to == NULL) {
- xmlFAGenerateEpsilonTransition(ctxt, atom->start, 0);
- xmlFAGenerateEpsilonTransition(ctxt, atom->stop,
- ctxt->state);
- } else {
- xmlFAGenerateEpsilonTransition(ctxt, atom->start, to);
- }
- break;
- case XML_REGEXP_QUANT_MULT:
- atom->quant = XML_REGEXP_QUANT_ONCE;
- xmlFAGenerateEpsilonTransition(ctxt, atom->start, atom->stop);
- xmlFAGenerateEpsilonTransition(ctxt, atom->stop, atom->start);
- break;
- case XML_REGEXP_QUANT_PLUS:
- atom->quant = XML_REGEXP_QUANT_ONCE;
- xmlFAGenerateEpsilonTransition(ctxt, atom->stop, atom->start);
- break;
- case XML_REGEXP_QUANT_RANGE: {
- int counter;
- xmlRegStatePtr inter, newstate;
- /*
- * create the final state now if needed
- */
- if (to != NULL) {
- newstate = to;
- } else {
- newstate = xmlRegNewState(ctxt);
- xmlRegStatePush(ctxt, newstate);
- }
- /*
- * The principle here is to use counted transition
- * to avoid explosion in the number of states in the
- * graph. This is clearly more complex but should not
- * be exploitable at runtime.
- */
- if ((atom->min == 0) && (atom->start0 == NULL)) {
- xmlRegAtomPtr copy;
- /*
- * duplicate a transition based on atom to count next
- * occurrences after 1. We cannot loop to atom->start
- * directly because we need an epsilon transition to
- * newstate.
- */
- /* ???? For some reason it seems we never reach that
- case, I suppose this got optimized out before when
- building the automata */
- copy = xmlRegCopyAtom(ctxt, atom);
- if (copy == NULL)
- return(-1);
- copy->quant = XML_REGEXP_QUANT_ONCE;
- copy->min = 0;
- copy->max = 0;
- if (xmlFAGenerateTransitions(ctxt, atom->start, NULL, copy)
- < 0)
- return(-1);
- inter = ctxt->state;
- counter = xmlRegGetCounter(ctxt);
- ctxt->counters[counter].min = atom->min - 1;
- ctxt->counters[counter].max = atom->max - 1;
- /* count the number of times we see it again */
- xmlFAGenerateCountedEpsilonTransition(ctxt, inter,
- atom->stop, counter);
- /* allow a way out based on the count */
- xmlFAGenerateCountedTransition(ctxt, inter,
- newstate, counter);
- /* and also allow a direct exit for 0 */
- xmlFAGenerateEpsilonTransition(ctxt, atom->start,
- newstate);
- } else {
- /*
- * either we need the atom at least once or there
- * is an atom->start0 allowing to easily plug the
- * epsilon transition.
- */
- counter = xmlRegGetCounter(ctxt);
- ctxt->counters[counter].min = atom->min - 1;
- ctxt->counters[counter].max = atom->max - 1;
- /* count the number of times we see it again */
- xmlFAGenerateCountedEpsilonTransition(ctxt, atom->stop,
- atom->start, counter);
- /* allow a way out based on the count */
- xmlFAGenerateCountedTransition(ctxt, atom->stop,
- newstate, counter);
- /* and if needed allow a direct exit for 0 */
- if (atom->min == 0)
- xmlFAGenerateEpsilonTransition(ctxt, atom->start0,
- newstate);
- }
- atom->min = 0;
- atom->max = 0;
- atom->quant = XML_REGEXP_QUANT_ONCE;
- ctxt->state = newstate;
- }
- default:
- break;
- }
- return(0);
- }
- if ((atom->min == 0) && (atom->max == 0) &&
- (atom->quant == XML_REGEXP_QUANT_RANGE)) {
- /*
- * we can discard the atom and generate an epsilon transition instead
- */
- if (to == NULL) {
- to = xmlRegNewState(ctxt);
- if (to != NULL)
- xmlRegStatePush(ctxt, to);
- else {
- return(-1);
- }
- }
- xmlFAGenerateEpsilonTransition(ctxt, from, to);
- ctxt->state = to;
- xmlRegFreeAtom(atom);
- return(0);
- }
- if (to == NULL) {
- to = xmlRegNewState(ctxt);
- if (to != NULL)
- xmlRegStatePush(ctxt, to);
- else {
- return(-1);
- }
- }
- end = to;
- if ((atom->quant == XML_REGEXP_QUANT_MULT) ||
- (atom->quant == XML_REGEXP_QUANT_PLUS)) {
- /*
- * Do not pollute the target state by adding transitions from
- * it as it is likely to be the shared target of multiple branches.
- * So isolate with an epsilon transition.
- */
- xmlRegStatePtr tmp;
- tmp = xmlRegNewState(ctxt);
- if (tmp != NULL)
- xmlRegStatePush(ctxt, tmp);
- else {
- return(-1);
- }
- xmlFAGenerateEpsilonTransition(ctxt, tmp, to);
- to = tmp;
- }
- if (xmlRegAtomPush(ctxt, atom) < 0) {
- return(-1);
- }
- if ((atom->quant == XML_REGEXP_QUANT_RANGE) &&
- (atom->min == 0) && (atom->max > 0)) {
- nullable = 1;
- atom->min = 1;
- if (atom->max == 1)
- atom->quant = XML_REGEXP_QUANT_OPT;
- }
- xmlRegStateAddTrans(ctxt, from, atom, to, -1, -1);
- ctxt->state = end;
- switch (atom->quant) {
- case XML_REGEXP_QUANT_OPT:
- atom->quant = XML_REGEXP_QUANT_ONCE;
- xmlFAGenerateEpsilonTransition(ctxt, from, to);
- break;
- case XML_REGEXP_QUANT_MULT:
- atom->quant = XML_REGEXP_QUANT_ONCE;
- xmlFAGenerateEpsilonTransition(ctxt, from, to);
- xmlRegStateAddTrans(ctxt, to, atom, to, -1, -1);
- break;
- case XML_REGEXP_QUANT_PLUS:
- atom->quant = XML_REGEXP_QUANT_ONCE;
- xmlRegStateAddTrans(ctxt, to, atom, to, -1, -1);
- break;
- case XML_REGEXP_QUANT_RANGE:
- if (nullable)
- xmlFAGenerateEpsilonTransition(ctxt, from, to);
- break;
- default:
- break;
- }
- return(0);
- }
- /**
- * xmlFAReduceEpsilonTransitions:
- * @ctxt: a regexp parser context
- * @fromnr: the from state
- * @tonr: the to state
- * @counter: should that transition be associated to a counted
- *
- */
- static void
- xmlFAReduceEpsilonTransitions(xmlRegParserCtxtPtr ctxt, int fromnr,
- int tonr, int counter) {
- int transnr;
- xmlRegStatePtr from;
- xmlRegStatePtr to;
- #ifdef DEBUG_REGEXP_GRAPH
- printf("xmlFAReduceEpsilonTransitions(%d, %d)\n", fromnr, tonr);
- #endif
- from = ctxt->states[fromnr];
- if (from == NULL)
- return;
- to = ctxt->states[tonr];
- if (to == NULL)
- return;
- if ((to->mark == XML_REGEXP_MARK_START) ||
- (to->mark == XML_REGEXP_MARK_VISITED))
- return;
- to->mark = XML_REGEXP_MARK_VISITED;
- if (to->type == XML_REGEXP_FINAL_STATE) {
- #ifdef DEBUG_REGEXP_GRAPH
- printf("State %d is final, so %d becomes final\n", tonr, fromnr);
- #endif
- from->type = XML_REGEXP_FINAL_STATE;
- }
- for (transnr = 0;transnr < to->nbTrans;transnr++) {
- if (to->trans[transnr].to < 0)
- continue;
- if (to->trans[transnr].atom == NULL) {
- /*
- * Don't remove counted transitions
- * Don't loop either
- */
- if (to->trans[transnr].to != fromnr) {
- if (to->trans[transnr].count >= 0) {
- int newto = to->trans[transnr].to;
- xmlRegStateAddTrans(ctxt, from, NULL,
- ctxt->states[newto],
- -1, to->trans[transnr].count);
- } else {
- #ifdef DEBUG_REGEXP_GRAPH
- printf("Found epsilon trans %d from %d to %d\n",
- transnr, tonr, to->trans[transnr].to);
- #endif
- if (to->trans[transnr].counter >= 0) {
- xmlFAReduceEpsilonTransitions(ctxt, fromnr,
- to->trans[transnr].to,
- to->trans[transnr].counter);
- } else {
- xmlFAReduceEpsilonTransitions(ctxt, fromnr,
- to->trans[transnr].to,
- counter);
- }
- }
- }
- } else {
- int newto = to->trans[transnr].to;
- if (to->trans[transnr].counter >= 0) {
- xmlRegStateAddTrans(ctxt, from, to->trans[transnr].atom,
- ctxt->states[newto],
- to->trans[transnr].counter, -1);
- } else {
- xmlRegStateAddTrans(ctxt, from, to->trans[transnr].atom,
- ctxt->states[newto], counter, -1);
- }
- }
- }
- to->mark = XML_REGEXP_MARK_NORMAL;
- }
- /**
- * xmlFAEliminateSimpleEpsilonTransitions:
- * @ctxt: a regexp parser context
- *
- * Eliminating general epsilon transitions can get costly in the general
- * algorithm due to the large amount of generated new transitions and
- * associated comparisons. However for simple epsilon transition used just
- * to separate building blocks when generating the automata this can be
- * reduced to state elimination:
- * - if there exists an epsilon from X to Y
- * - if there is no other transition from X
- * then X and Y are semantically equivalent and X can be eliminated
- * If X is the start state then make Y the start state, else replace the
- * target of all transitions to X by transitions to Y.
- */
- static void
- xmlFAEliminateSimpleEpsilonTransitions(xmlRegParserCtxtPtr ctxt) {
- int statenr, i, j, newto;
- xmlRegStatePtr state, tmp;
- for (statenr = 0;statenr < ctxt->nbStates;statenr++) {
- state = ctxt->states[statenr];
- if (state == NULL)
- continue;
- if (state->nbTrans != 1)
- continue;
- if (state->type == XML_REGEXP_UNREACH_STATE)
- continue;
- /* is the only transition out a basic transition */
- if ((state->trans[0].atom == NULL) &&
- (state->trans[0].to >= 0) &&
- (state->trans[0].to != statenr) &&
- (state->trans[0].counter < 0) &&
- (state->trans[0].count < 0)) {
- newto = state->trans[0].to;
- if (state->type == XML_REGEXP_START_STATE) {
- #ifdef DEBUG_REGEXP_GRAPH
- printf("Found simple epsilon trans from start %d to %d\n",
- statenr, newto);
- #endif
- } else {
- #ifdef DEBUG_REGEXP_GRAPH
- printf("Found simple epsilon trans from %d to %d\n",
- statenr, newto);
- #endif
- for (i = 0;i < state->nbTransTo;i++) {
- tmp = ctxt->states[state->transTo[i]];
- for (j = 0;j < tmp->nbTrans;j++) {
- if (tmp->trans[j].to == statenr) {
- #ifdef DEBUG_REGEXP_GRAPH
- printf("Changed transition %d on %d to go to %d\n",
- j, tmp->no, newto);
- #endif
- tmp->trans[j].to = -1;
- xmlRegStateAddTrans(ctxt, tmp, tmp->trans[j].atom,
- ctxt->states[newto],
- tmp->trans[j].counter,
- tmp->trans[j].count);
- }
- }
- }
- if (state->type == XML_REGEXP_FINAL_STATE)
- ctxt->states[newto]->type = XML_REGEXP_FINAL_STATE;
- /* eliminate the transition completely */
- state->nbTrans = 0;
- state->type = XML_REGEXP_UNREACH_STATE;
- }
- }
- }
- }
- /**
- * xmlFAEliminateEpsilonTransitions:
- * @ctxt: a regexp parser context
- *
- */
- static void
- xmlFAEliminateEpsilonTransitions(xmlRegParserCtxtPtr ctxt) {
- int statenr, transnr;
- xmlRegStatePtr state;
- int has_epsilon;
- if (ctxt->states == NULL) return;
- /*
- * Eliminate simple epsilon transition and the associated unreachable
- * states.
- */
- xmlFAEliminateSimpleEpsilonTransitions(ctxt);
- for (statenr = 0;statenr < ctxt->nbStates;statenr++) {
- state = ctxt->states[statenr];
- if ((state != NULL) && (state->type == XML_REGEXP_UNREACH_STATE)) {
- #ifdef DEBUG_REGEXP_GRAPH
- printf("Removed unreachable state %d\n", statenr);
- #endif
- xmlRegFreeState(state);
- ctxt->states[statenr] = NULL;
- }
- }
- has_epsilon = 0;
- /*
- * Build the completed transitions bypassing the epsilons
- * Use a marking algorithm to avoid loops
- * Mark sink states too.
- * Process from the latest states backward to the start when
- * there is long cascading epsilon chains this minimize the
- * recursions and transition compares when adding the new ones
- */
- for (statenr = ctxt->nbStates - 1;statenr >= 0;statenr--) {
- state = ctxt->states[statenr];
- if (state == NULL)
- continue;
- if ((state->nbTrans == 0) &&
- (state->type != XML_REGEXP_FINAL_STATE)) {
- state->type = XML_REGEXP_SINK_STATE;
- }
- for (transnr = 0;transnr < state->nbTrans;transnr++) {
- if ((state->trans[transnr].atom == NULL) &&
- (state->trans[transnr].to >= 0)) {
- if (state->trans[transnr].to == statenr) {
- state->trans[transnr].to = -1;
- #ifdef DEBUG_REGEXP_GRAPH
- printf("Removed loopback epsilon trans %d on %d\n",
- transnr, statenr);
- #endif
- } else if (state->trans[transnr].count < 0) {
- int newto = state->trans[transnr].to;
- #ifdef DEBUG_REGEXP_GRAPH
- printf("Found epsilon trans %d from %d to %d\n",
- transnr, statenr, newto);
- #endif
- has_epsilon = 1;
- state->trans[transnr].to = -2;
- state->mark = XML_REGEXP_MARK_START;
- xmlFAReduceEpsilonTransitions(ctxt, statenr,
- newto, state->trans[transnr].counter);
- state->mark = XML_REGEXP_MARK_NORMAL;
- #ifdef DEBUG_REGEXP_GRAPH
- } else {
- printf("Found counted transition %d on %d\n",
- transnr, statenr);
- #endif
- }
- }
- }
- }
- /*
- * Eliminate the epsilon transitions
- */
- if (has_epsilon) {
- for (statenr = 0;statenr < ctxt->nbStates;statenr++) {
- state = ctxt->states[statenr];
- if (state == NULL)
- continue;
- for (transnr = 0;transnr < state->nbTrans;transnr++) {
- xmlRegTransPtr trans = &(state->trans[transnr]);
- if ((trans->atom == NULL) &&
- (trans->count < 0) &&
- (trans->to >= 0)) {
- trans->to = -1;
- }
- }
- }
- }
- /*
- * Use this pass to detect unreachable states too
- */
- for (statenr = 0;statenr < ctxt->nbStates;statenr++) {
- state = ctxt->states[statenr];
- if (state != NULL)
- state->reached = XML_REGEXP_MARK_NORMAL;
- }
- state = ctxt->states[0];
- if (state != NULL)
- state->reached = XML_REGEXP_MARK_START;
- while (state != NULL) {
- xmlRegStatePtr target = NULL;
- state->reached = XML_REGEXP_MARK_VISITED;
- /*
- * Mark all states reachable from the current reachable state
- */
- for (transnr = 0;transnr < state->nbTrans;transnr++) {
- if ((state->trans[transnr].to >= 0) &&
- ((state->trans[transnr].atom != NULL) ||
- (state->trans[transnr].count >= 0))) {
- int newto = state->trans[transnr].to;
- if (ctxt->states[newto] == NULL)
- continue;
- if (ctxt->states[newto]->reached == XML_REGEXP_MARK_NORMAL) {
- ctxt->states[newto]->reached = XML_REGEXP_MARK_START;
- target = ctxt->states[newto];
- }
- }
- }
- /*
- * find the next accessible state not explored
- */
- if (target == NULL) {
- for (statenr = 1;statenr < ctxt->nbStates;statenr++) {
- state = ctxt->states[statenr];
- if ((state != NULL) && (state->reached ==
- XML_REGEXP_MARK_START)) {
- target = state;
- break;
- }
- }
- }
- state = target;
- }
- for (statenr = 0;statenr < ctxt->nbStates;statenr++) {
- state = ctxt->states[statenr];
- if ((state != NULL) && (state->reached == XML_REGEXP_MARK_NORMAL)) {
- #ifdef DEBUG_REGEXP_GRAPH
- printf("Removed unreachable state %d\n", statenr);
- #endif
- xmlRegFreeState(state);
- ctxt->states[statenr] = NULL;
- }
- }
- }
- static int
- xmlFACompareRanges(xmlRegRangePtr range1, xmlRegRangePtr range2) {
- int ret = 0;
- if ((range1->type == XML_REGEXP_RANGES) ||
- (range2->type == XML_REGEXP_RANGES) ||
- (range2->type == XML_REGEXP_SUBREG) ||
- (range1->type == XML_REGEXP_SUBREG) ||
- (range1->type == XML_REGEXP_STRING) ||
- (range2->type == XML_REGEXP_STRING))
- return(-1);
- /* put them in order */
- if (range1->type > range2->type) {
- xmlRegRangePtr tmp;
- tmp = range1;
- range1 = range2;
- range2 = tmp;
- }
- if ((range1->type == XML_REGEXP_ANYCHAR) ||
- (range2->type == XML_REGEXP_ANYCHAR)) {
- ret = 1;
- } else if ((range1->type == XML_REGEXP_EPSILON) ||
- (range2->type == XML_REGEXP_EPSILON)) {
- return(0);
- } else if (range1->type == range2->type) {
- if (range1->type != XML_REGEXP_CHARVAL)
- ret = 1;
- else if ((range1->end < range2->start) ||
- (range2->end < range1->start))
- ret = 0;
- else
- ret = 1;
- } else if (range1->type == XML_REGEXP_CHARVAL) {
- int codepoint;
- int neg = 0;
- /*
- * just check all codepoints in the range for acceptance,
- * this is usually way cheaper since done only once at
- * compilation than testing over and over at runtime or
- * pushing too many states when evaluating.
- */
- if (((range1->neg == 0) && (range2->neg != 0)) ||
- ((range1->neg != 0) && (range2->neg == 0)))
- neg = 1;
- for (codepoint = range1->start;codepoint <= range1->end ;codepoint++) {
- ret = xmlRegCheckCharacterRange(range2->type, codepoint,
- 0, range2->start, range2->end,
- range2->blockName);
- if (ret < 0)
- return(-1);
- if (((neg == 1) && (ret == 0)) ||
- ((neg == 0) && (ret == 1)))
- return(1);
- }
- return(0);
- } else if ((range1->type == XML_REGEXP_BLOCK_NAME) ||
- (range2->type == XML_REGEXP_BLOCK_NAME)) {
- if (range1->type == range2->type) {
- ret = xmlStrEqual(range1->blockName, range2->blockName);
- } else {
- /*
- * comparing a block range with anything else is way
- * too costly, and maintaining the table is like too much
- * memory too, so let's force the automata to save state
- * here.
- */
- return(1);
- }
- } else if ((range1->type < XML_REGEXP_LETTER) ||
- (range2->type < XML_REGEXP_LETTER)) {
- if ((range1->type == XML_REGEXP_ANYSPACE) &&
- (range2->type == XML_REGEXP_NOTSPACE))
- ret = 0;
- else if ((range1->type == XML_REGEXP_INITNAME) &&
- (range2->type == XML_REGEXP_NOTINITNAME))
- ret = 0;
- else if ((range1->type == XML_REGEXP_NAMECHAR) &&
- (range2->type == XML_REGEXP_NOTNAMECHAR))
- ret = 0;
- else if ((range1->type == XML_REGEXP_DECIMAL) &&
- (range2->type == XML_REGEXP_NOTDECIMAL))
- ret = 0;
- else if ((range1->type == XML_REGEXP_REALCHAR) &&
- (range2->type == XML_REGEXP_NOTREALCHAR))
- ret = 0;
- else {
- /* same thing to limit complexity */
- return(1);
- }
- } else {
- ret = 0;
- /* range1->type < range2->type here */
- switch (range1->type) {
- case XML_REGEXP_LETTER:
- /* all disjoint except in the subgroups */
- if ((range2->type == XML_REGEXP_LETTER_UPPERCASE) ||
- (range2->type == XML_REGEXP_LETTER_LOWERCASE) ||
- (range2->type == XML_REGEXP_LETTER_TITLECASE) ||
- (range2->type == XML_REGEXP_LETTER_MODIFIER) ||
- (range2->type == XML_REGEXP_LETTER_OTHERS))
- ret = 1;
- break;
- case XML_REGEXP_MARK:
- if ((range2->type == XML_REGEXP_MARK_NONSPACING) ||
- (range2->type == XML_REGEXP_MARK_SPACECOMBINING) ||
- (range2->type == XML_REGEXP_MARK_ENCLOSING))
- ret = 1;
- break;
- case XML_REGEXP_NUMBER:
- if ((range2->type == XML_REGEXP_NUMBER_DECIMAL) ||
- (range2->type == XML_REGEXP_NUMBER_LETTER) ||
- (range2->type == XML_REGEXP_NUMBER_OTHERS))
- ret = 1;
- break;
- case XML_REGEXP_PUNCT:
- if ((range2->type == XML_REGEXP_PUNCT_CONNECTOR) ||
- (range2->type == XML_REGEXP_PUNCT_DASH) ||
- (range2->type == XML_REGEXP_PUNCT_OPEN) ||
- (range2->type == XML_REGEXP_PUNCT_CLOSE) ||
- (range2->type == XML_REGEXP_PUNCT_INITQUOTE) ||
- (range2->type == XML_REGEXP_PUNCT_FINQUOTE) ||
- (range2->type == XML_REGEXP_PUNCT_OTHERS))
- ret = 1;
- break;
- case XML_REGEXP_SEPAR:
- if ((range2->type == XML_REGEXP_SEPAR_SPACE) ||
- (range2->type == XML_REGEXP_SEPAR_LINE) ||
- (range2->type == XML_REGEXP_SEPAR_PARA))
- ret = 1;
- break;
- case XML_REGEXP_SYMBOL:
- if ((range2->type == XML_REGEXP_SYMBOL_MATH) ||
- (range2->type == XML_REGEXP_SYMBOL_CURRENCY) ||
- (range2->type == XML_REGEXP_SYMBOL_MODIFIER) ||
- (range2->type == XML_REGEXP_SYMBOL_OTHERS))
- ret = 1;
- break;
- case XML_REGEXP_OTHER:
- if ((range2->type == XML_REGEXP_OTHER_CONTROL) ||
- (range2->type == XML_REGEXP_OTHER_FORMAT) ||
- (range2->type == XML_REGEXP_OTHER_PRIVATE))
- ret = 1;
- break;
- default:
- if ((range2->type >= XML_REGEXP_LETTER) &&
- (range2->type < XML_REGEXP_BLOCK_NAME))
- ret = 0;
- else {
- /* safety net ! */
- return(1);
- }
- }
- }
- if (((range1->neg == 0) && (range2->neg != 0)) ||
- ((range1->neg != 0) && (range2->neg == 0)))
- ret = !ret;
- return(ret);
- }
- /**
- * xmlFACompareAtomTypes:
- * @type1: an atom type
- * @type2: an atom type
- *
- * Compares two atoms type to check whether they intersect in some ways,
- * this is used by xmlFACompareAtoms only
- *
- * Returns 1 if they may intersect and 0 otherwise
- */
- static int
- xmlFACompareAtomTypes(xmlRegAtomType type1, xmlRegAtomType type2) {
- if ((type1 == XML_REGEXP_EPSILON) ||
- (type1 == XML_REGEXP_CHARVAL) ||
- (type1 == XML_REGEXP_RANGES) ||
- (type1 == XML_REGEXP_SUBREG) ||
- (type1 == XML_REGEXP_STRING) ||
- (type1 == XML_REGEXP_ANYCHAR))
- return(1);
- if ((type2 == XML_REGEXP_EPSILON) ||
- (type2 == XML_REGEXP_CHARVAL) ||
- (type2 == XML_REGEXP_RANGES) ||
- (type2 == XML_REGEXP_SUBREG) ||
- (type2 == XML_REGEXP_STRING) ||
- (type2 == XML_REGEXP_ANYCHAR))
- return(1);
- if (type1 == type2) return(1);
- /* simplify subsequent compares by making sure type1 < type2 */
- if (type1 > type2) {
- xmlRegAtomType tmp = type1;
- type1 = type2;
- type2 = tmp;
- }
- switch (type1) {
- case XML_REGEXP_ANYSPACE: /* \s */
- /* can't be a letter, number, mark, punctuation, symbol */
- if ((type2 == XML_REGEXP_NOTSPACE) ||
- ((type2 >= XML_REGEXP_LETTER) &&
- (type2 <= XML_REGEXP_LETTER_OTHERS)) ||
- ((type2 >= XML_REGEXP_NUMBER) &&
- (type2 <= XML_REGEXP_NUMBER_OTHERS)) ||
- ((type2 >= XML_REGEXP_MARK) &&
- (type2 <= XML_REGEXP_MARK_ENCLOSING)) ||
- ((type2 >= XML_REGEXP_PUNCT) &&
- (type2 <= XML_REGEXP_PUNCT_OTHERS)) ||
- ((type2 >= XML_REGEXP_SYMBOL) &&
- (type2 <= XML_REGEXP_SYMBOL_OTHERS))
- ) return(0);
- break;
- case XML_REGEXP_NOTSPACE: /* \S */
- break;
- case XML_REGEXP_INITNAME: /* \l */
- /* can't be a number, mark, separator, punctuation, symbol or other */
- if ((type2 == XML_REGEXP_NOTINITNAME) ||
- ((type2 >= XML_REGEXP_NUMBER) &&
- (type2 <= XML_REGEXP_NUMBER_OTHERS)) ||
- ((type2 >= XML_REGEXP_MARK) &&
- (type2 <= XML_REGEXP_MARK_ENCLOSING)) ||
- ((type2 >= XML_REGEXP_SEPAR) &&
- (type2 <= XML_REGEXP_SEPAR_PARA)) ||
- ((type2 >= XML_REGEXP_PUNCT) &&
- (type2 <= XML_REGEXP_PUNCT_OTHERS)) ||
- ((type2 >= XML_REGEXP_SYMBOL) &&
- (type2 <= XML_REGEXP_SYMBOL_OTHERS)) ||
- ((type2 >= XML_REGEXP_OTHER) &&
- (type2 <= XML_REGEXP_OTHER_NA))
- ) return(0);
- break;
- case XML_REGEXP_NOTINITNAME: /* \L */
- break;
- case XML_REGEXP_NAMECHAR: /* \c */
- /* can't be a mark, separator, punctuation, symbol or other */
- if ((type2 == XML_REGEXP_NOTNAMECHAR) ||
- ((type2 >= XML_REGEXP_MARK) &&
- (type2 <= XML_REGEXP_MARK_ENCLOSING)) ||
- ((type2 >= XML_REGEXP_PUNCT) &&
- (type2 <= XML_REGEXP_PUNCT_OTHERS)) ||
- ((type2 >= XML_REGEXP_SEPAR) &&
- (type2 <= XML_REGEXP_SEPAR_PARA)) ||
- ((type2 >= XML_REGEXP_SYMBOL) &&
- (type2 <= XML_REGEXP_SYMBOL_OTHERS)) ||
- ((type2 >= XML_REGEXP_OTHER) &&
- (type2 <= XML_REGEXP_OTHER_NA))
- ) return(0);
- break;
- case XML_REGEXP_NOTNAMECHAR: /* \C */
- break;
- case XML_REGEXP_DECIMAL: /* \d */
- /* can't be a letter, mark, separator, punctuation, symbol or other */
- if ((type2 == XML_REGEXP_NOTDECIMAL) ||
- (type2 == XML_REGEXP_REALCHAR) ||
- ((type2 >= XML_REGEXP_LETTER) &&
- (type2 <= XML_REGEXP_LETTER_OTHERS)) ||
- ((type2 >= XML_REGEXP_MARK) &&
- (type2 <= XML_REGEXP_MARK_ENCLOSING)) ||
- ((type2 >= XML_REGEXP_PUNCT) &&
- (type2 <= XML_REGEXP_PUNCT_OTHERS)) ||
- ((type2 >= XML_REGEXP_SEPAR) &&
- (type2 <= XML_REGEXP_SEPAR_PARA)) ||
- ((type2 >= XML_REGEXP_SYMBOL) &&
- (type2 <= XML_REGEXP_SYMBOL_OTHERS)) ||
- ((type2 >= XML_REGEXP_OTHER) &&
- (type2 <= XML_REGEXP_OTHER_NA))
- )return(0);
- break;
- case XML_REGEXP_NOTDECIMAL: /* \D */
- break;
- case XML_REGEXP_REALCHAR: /* \w */
- /* can't be a mark, separator, punctuation, symbol or other */
- if ((type2 == XML_REGEXP_NOTDECIMAL) ||
- ((type2 >= XML_REGEXP_MARK) &&
- (type2 <= XML_REGEXP_MARK_ENCLOSING)) ||
- ((type2 >= XML_REGEXP_PUNCT) &&
- (type2 <= XML_REGEXP_PUNCT_OTHERS)) ||
- ((type2 >= XML_REGEXP_SEPAR) &&
- (type2 <= XML_REGEXP_SEPAR_PARA)) ||
- ((type2 >= XML_REGEXP_SYMBOL) &&
- (type2 <= XML_REGEXP_SYMBOL_OTHERS)) ||
- ((type2 >= XML_REGEXP_OTHER) &&
- (type2 <= XML_REGEXP_OTHER_NA))
- )return(0);
- break;
- case XML_REGEXP_NOTREALCHAR: /* \W */
- break;
- /*
- * at that point we know both type 1 and type2 are from
- * character categories are ordered and are different,
- * it becomes simple because this is a partition
- */
- case XML_REGEXP_LETTER:
- if (type2 <= XML_REGEXP_LETTER_OTHERS)
- return(1);
- return(0);
- case XML_REGEXP_LETTER_UPPERCASE:
- case XML_REGEXP_LETTER_LOWERCASE:
- case XML_REGEXP_LETTER_TITLECASE:
- case XML_REGEXP_LETTER_MODIFIER:
- case XML_REGEXP_LETTER_OTHERS:
- return(0);
- case XML_REGEXP_MARK:
- if (type2 <= XML_REGEXP_MARK_ENCLOSING)
- return(1);
- return(0);
- case XML_REGEXP_MARK_NONSPACING:
- case XML_REGEXP_MARK_SPACECOMBINING:
- case XML_REGEXP_MARK_ENCLOSING:
- return(0);
- case XML_REGEXP_NUMBER:
- if (type2 <= XML_REGEXP_NUMBER_OTHERS)
- return(1);
- return(0);
- case XML_REGEXP_NUMBER_DECIMAL:
- case XML_REGEXP_NUMBER_LETTER:
- case XML_REGEXP_NUMBER_OTHERS:
- return(0);
- case XML_REGEXP_PUNCT:
- if (type2 <= XML_REGEXP_PUNCT_OTHERS)
- return(1);
- return(0);
- case XML_REGEXP_PUNCT_CONNECTOR:
- case XML_REGEXP_PUNCT_DASH:
- case XML_REGEXP_PUNCT_OPEN:
- case XML_REGEXP_PUNCT_CLOSE:
- case XML_REGEXP_PUNCT_INITQUOTE:
- case XML_REGEXP_PUNCT_FINQUOTE:
- case XML_REGEXP_PUNCT_OTHERS:
- return(0);
- case XML_REGEXP_SEPAR:
- if (type2 <= XML_REGEXP_SEPAR_PARA)
- return(1);
- return(0);
- case XML_REGEXP_SEPAR_SPACE:
- case XML_REGEXP_SEPAR_LINE:
- case XML_REGEXP_SEPAR_PARA:
- return(0);
- case XML_REGEXP_SYMBOL:
- if (type2 <= XML_REGEXP_SYMBOL_OTHERS)
- return(1);
- return(0);
- case XML_REGEXP_SYMBOL_MATH:
- case XML_REGEXP_SYMBOL_CURRENCY:
- case XML_REGEXP_SYMBOL_MODIFIER:
- case XML_REGEXP_SYMBOL_OTHERS:
- return(0);
- case XML_REGEXP_OTHER:
- if (type2 <= XML_REGEXP_OTHER_NA)
- return(1);
- return(0);
- case XML_REGEXP_OTHER_CONTROL:
- case XML_REGEXP_OTHER_FORMAT:
- case XML_REGEXP_OTHER_PRIVATE:
- case XML_REGEXP_OTHER_NA:
- return(0);
- default:
- break;
- }
- return(1);
- }
- /**
- * xmlFAEqualAtoms:
- * @atom1: an atom
- * @atom2: an atom
- * @deep: if not set only compare string pointers
- *
- * Compares two atoms to check whether they are the same exactly
- * this is used to remove equivalent transitions
- *
- * Returns 1 if same and 0 otherwise
- */
- static int
- xmlFAEqualAtoms(xmlRegAtomPtr atom1, xmlRegAtomPtr atom2, int deep) {
- int ret = 0;
- if (atom1 == atom2)
- return(1);
- if ((atom1 == NULL) || (atom2 == NULL))
- return(0);
- if (atom1->type != atom2->type)
- return(0);
- switch (atom1->type) {
- case XML_REGEXP_EPSILON:
- ret = 0;
- break;
- case XML_REGEXP_STRING:
- if (!deep)
- ret = (atom1->valuep == atom2->valuep);
- else
- ret = xmlStrEqual((xmlChar *)atom1->valuep,
- (xmlChar *)atom2->valuep);
- break;
- case XML_REGEXP_CHARVAL:
- ret = (atom1->codepoint == atom2->codepoint);
- break;
- case XML_REGEXP_RANGES:
- /* too hard to do in the general case */
- ret = 0;
- default:
- break;
- }
- return(ret);
- }
- /**
- * xmlFACompareAtoms:
- * @atom1: an atom
- * @atom2: an atom
- * @deep: if not set only compare string pointers
- *
- * Compares two atoms to check whether they intersect in some ways,
- * this is used by xmlFAComputesDeterminism and xmlFARecurseDeterminism only
- *
- * Returns 1 if yes and 0 otherwise
- */
- static int
- xmlFACompareAtoms(xmlRegAtomPtr atom1, xmlRegAtomPtr atom2, int deep) {
- int ret = 1;
- if (atom1 == atom2)
- return(1);
- if ((atom1 == NULL) || (atom2 == NULL))
- return(0);
- if ((atom1->type == XML_REGEXP_ANYCHAR) ||
- (atom2->type == XML_REGEXP_ANYCHAR))
- return(1);
- if (atom1->type > atom2->type) {
- xmlRegAtomPtr tmp;
- tmp = atom1;
- atom1 = atom2;
- atom2 = tmp;
- }
- if (atom1->type != atom2->type) {
- ret = xmlFACompareAtomTypes(atom1->type, atom2->type);
- /* if they can't intersect at the type level break now */
- if (ret == 0)
- return(0);
- }
- switch (atom1->type) {
- case XML_REGEXP_STRING:
- if (!deep)
- ret = (atom1->valuep != atom2->valuep);
- else {
- xmlChar *val1 = (xmlChar *)atom1->valuep;
- xmlChar *val2 = (xmlChar *)atom2->valuep;
- int compound1 = (xmlStrchr(val1, '|') != NULL);
- int compound2 = (xmlStrchr(val2, '|') != NULL);
- /* Ignore negative match flag for ##other namespaces */
- if (compound1 != compound2)
- return(0);
- ret = xmlRegStrEqualWildcard(val1, val2);
- }
- break;
- case XML_REGEXP_EPSILON:
- goto not_determinist;
- case XML_REGEXP_CHARVAL:
- if (atom2->type == XML_REGEXP_CHARVAL) {
- ret = (atom1->codepoint == atom2->codepoint);
- } else {
- ret = xmlRegCheckCharacter(atom2, atom1->codepoint);
- if (ret < 0)
- ret = 1;
- }
- break;
- case XML_REGEXP_RANGES:
- if (atom2->type == XML_REGEXP_RANGES) {
- int i, j, res;
- xmlRegRangePtr r1, r2;
- /*
- * need to check that none of the ranges eventually matches
- */
- for (i = 0;i < atom1->nbRanges;i++) {
- for (j = 0;j < atom2->nbRanges;j++) {
- r1 = atom1->ranges[i];
- r2 = atom2->ranges[j];
- res = xmlFACompareRanges(r1, r2);
- if (res == 1) {
- ret = 1;
- goto done;
- }
- }
- }
- ret = 0;
- }
- break;
- default:
- goto not_determinist;
- }
- done:
- if (atom1->neg != atom2->neg) {
- ret = !ret;
- }
- if (ret == 0)
- return(0);
- not_determinist:
- return(1);
- }
- /**
- * xmlFARecurseDeterminism:
- * @ctxt: a regexp parser context
- *
- * Check whether the associated regexp is determinist,
- * should be called after xmlFAEliminateEpsilonTransitions()
- *
- */
- static int
- xmlFARecurseDeterminism(xmlRegParserCtxtPtr ctxt, xmlRegStatePtr state,
- int to, xmlRegAtomPtr atom) {
- int ret = 1;
- int res;
- int transnr, nbTrans;
- xmlRegTransPtr t1;
- int deep = 1;
- if (state == NULL)
- return(ret);
- if (state->markd == XML_REGEXP_MARK_VISITED)
- return(ret);
- if (ctxt->flags & AM_AUTOMATA_RNG)
- deep = 0;
- /*
- * don't recurse on transitions potentially added in the course of
- * the elimination.
- */
- nbTrans = state->nbTrans;
- for (transnr = 0;transnr < nbTrans;transnr++) {
- t1 = &(state->trans[transnr]);
- /*
- * check transitions conflicting with the one looked at
- */
- if (t1->atom == NULL) {
- if (t1->to < 0)
- continue;
- state->markd = XML_REGEXP_MARK_VISITED;
- res = xmlFARecurseDeterminism(ctxt, ctxt->states[t1->to],
- to, atom);
- if (res == 0) {
- ret = 0;
- /* t1->nd = 1; */
- }
- continue;
- }
- if (t1->to != to)
- continue;
- if (xmlFACompareAtoms(t1->atom, atom, deep)) {
- ret = 0;
- /* mark the transition as non-deterministic */
- t1->nd = 1;
- }
- }
- return(ret);
- }
- /**
- * xmlFAFinishRecurseDeterminism:
- * @ctxt: a regexp parser context
- *
- * Reset flags after checking determinism.
- */
- static void
- xmlFAFinishRecurseDeterminism(xmlRegParserCtxtPtr ctxt, xmlRegStatePtr state) {
- int transnr, nbTrans;
- if (state == NULL)
- return;
- if (state->markd != XML_REGEXP_MARK_VISITED)
- return;
- state->markd = 0;
- nbTrans = state->nbTrans;
- for (transnr = 0; transnr < nbTrans; transnr++) {
- xmlRegTransPtr t1 = &state->trans[transnr];
- if ((t1->atom == NULL) && (t1->to >= 0))
- xmlFAFinishRecurseDeterminism(ctxt, ctxt->states[t1->to]);
- }
- }
- /**
- * xmlFAComputesDeterminism:
- * @ctxt: a regexp parser context
- *
- * Check whether the associated regexp is determinist,
- * should be called after xmlFAEliminateEpsilonTransitions()
- *
- */
- static int
- xmlFAComputesDeterminism(xmlRegParserCtxtPtr ctxt) {
- int statenr, transnr;
- xmlRegStatePtr state;
- xmlRegTransPtr t1, t2, last;
- int i;
- int ret = 1;
- int deep = 1;
- #ifdef DEBUG_REGEXP_GRAPH
- printf("xmlFAComputesDeterminism\n");
- xmlRegPrintCtxt(stdout, ctxt);
- #endif
- if (ctxt->determinist != -1)
- return(ctxt->determinist);
- if (ctxt->flags & AM_AUTOMATA_RNG)
- deep = 0;
- /*
- * First cleanup the automata removing cancelled transitions
- */
- for (statenr = 0;statenr < ctxt->nbStates;statenr++) {
- state = ctxt->states[statenr];
- if (state == NULL)
- continue;
- if (state->nbTrans < 2)
- continue;
- for (transnr = 0;transnr < state->nbTrans;transnr++) {
- t1 = &(state->trans[transnr]);
- /*
- * Determinism checks in case of counted or all transitions
- * will have to be handled separately
- */
- if (t1->atom == NULL) {
- /* t1->nd = 1; */
- continue;
- }
- if (t1->to == -1) /* eliminated */
- continue;
- for (i = 0;i < transnr;i++) {
- t2 = &(state->trans[i]);
- if (t2->to == -1) /* eliminated */
- continue;
- if (t2->atom != NULL) {
- if (t1->to == t2->to) {
- /*
- * Here we use deep because we want to keep the
- * transitions which indicate a conflict
- */
- if (xmlFAEqualAtoms(t1->atom, t2->atom, deep) &&
- (t1->counter == t2->counter) &&
- (t1->count == t2->count))
- t2->to = -1; /* eliminated */
- }
- }
- }
- }
- }
- /*
- * Check for all states that there aren't 2 transitions
- * with the same atom and a different target.
- */
- for (statenr = 0;statenr < ctxt->nbStates;statenr++) {
- state = ctxt->states[statenr];
- if (state == NULL)
- continue;
- if (state->nbTrans < 2)
- continue;
- last = NULL;
- for (transnr = 0;transnr < state->nbTrans;transnr++) {
- t1 = &(state->trans[transnr]);
- /*
- * Determinism checks in case of counted or all transitions
- * will have to be handled separately
- */
- if (t1->atom == NULL) {
- continue;
- }
- if (t1->to == -1) /* eliminated */
- continue;
- for (i = 0;i < transnr;i++) {
- t2 = &(state->trans[i]);
- if (t2->to == -1) /* eliminated */
- continue;
- if (t2->atom != NULL) {
- /*
- * But here we don't use deep because we want to
- * find transitions which indicate a conflict
- */
- if (xmlFACompareAtoms(t1->atom, t2->atom, 1)) {
- ret = 0;
- /* mark the transitions as non-deterministic ones */
- t1->nd = 1;
- t2->nd = 1;
- last = t1;
- }
- } else if (t1->to != -1) {
- /*
- * do the closure in case of remaining specific
- * epsilon transitions like choices or all
- */
- ret = xmlFARecurseDeterminism(ctxt, ctxt->states[t1->to],
- t2->to, t2->atom);
- xmlFAFinishRecurseDeterminism(ctxt, ctxt->states[t1->to]);
- /* don't shortcut the computation so all non deterministic
- transition get marked down
- if (ret == 0)
- return(0);
- */
- if (ret == 0) {
- t1->nd = 1;
- /* t2->nd = 1; */
- last = t1;
- }
- }
- }
- /* don't shortcut the computation so all non deterministic
- transition get marked down
- if (ret == 0)
- break; */
- }
- /*
- * mark specifically the last non-deterministic transition
- * from a state since there is no need to set-up rollback
- * from it
- */
- if (last != NULL) {
- last->nd = 2;
- }
- /* don't shortcut the computation so all non deterministic
- transition get marked down
- if (ret == 0)
- break; */
- }
- ctxt->determinist = ret;
- return(ret);
- }
- /************************************************************************
- * *
- * Routines to check input against transition atoms *
- * *
- ************************************************************************/
- static int
- xmlRegCheckCharacterRange(xmlRegAtomType type, int codepoint, int neg,
- int start, int end, const xmlChar *blockName) {
- int ret = 0;
- switch (type) {
- case XML_REGEXP_STRING:
- case XML_REGEXP_SUBREG:
- case XML_REGEXP_RANGES:
- case XML_REGEXP_EPSILON:
- return(-1);
- case XML_REGEXP_ANYCHAR:
- ret = ((codepoint != '\n') && (codepoint != '\r'));
- break;
- case XML_REGEXP_CHARVAL:
- ret = ((codepoint >= start) && (codepoint <= end));
- break;
- case XML_REGEXP_NOTSPACE:
- neg = !neg;
- /* Falls through. */
- case XML_REGEXP_ANYSPACE:
- ret = ((codepoint == '\n') || (codepoint == '\r') ||
- (codepoint == '\t') || (codepoint == ' '));
- break;
- case XML_REGEXP_NOTINITNAME:
- neg = !neg;
- /* Falls through. */
- case XML_REGEXP_INITNAME:
- ret = (IS_LETTER(codepoint) ||
- (codepoint == '_') || (codepoint == ':'));
- break;
- case XML_REGEXP_NOTNAMECHAR:
- neg = !neg;
- /* Falls through. */
- case XML_REGEXP_NAMECHAR:
- ret = (IS_LETTER(codepoint) || IS_DIGIT(codepoint) ||
- (codepoint == '.') || (codepoint == '-') ||
- (codepoint == '_') || (codepoint == ':') ||
- IS_COMBINING(codepoint) || IS_EXTENDER(codepoint));
- break;
- case XML_REGEXP_NOTDECIMAL:
- neg = !neg;
- /* Falls through. */
- case XML_REGEXP_DECIMAL:
- ret = xmlUCSIsCatNd(codepoint);
- break;
- case XML_REGEXP_REALCHAR:
- neg = !neg;
- /* Falls through. */
- case XML_REGEXP_NOTREALCHAR:
- ret = xmlUCSIsCatP(codepoint);
- if (ret == 0)
- ret = xmlUCSIsCatZ(codepoint);
- if (ret == 0)
- ret = xmlUCSIsCatC(codepoint);
- break;
- case XML_REGEXP_LETTER:
- ret = xmlUCSIsCatL(codepoint);
- break;
- case XML_REGEXP_LETTER_UPPERCASE:
- ret = xmlUCSIsCatLu(codepoint);
- break;
- case XML_REGEXP_LETTER_LOWERCASE:
- ret = xmlUCSIsCatLl(codepoint);
- break;
- case XML_REGEXP_LETTER_TITLECASE:
- ret = xmlUCSIsCatLt(codepoint);
- break;
- case XML_REGEXP_LETTER_MODIFIER:
- ret = xmlUCSIsCatLm(codepoint);
- break;
- case XML_REGEXP_LETTER_OTHERS:
- ret = xmlUCSIsCatLo(codepoint);
- break;
- case XML_REGEXP_MARK:
- ret = xmlUCSIsCatM(codepoint);
- break;
- case XML_REGEXP_MARK_NONSPACING:
- ret = xmlUCSIsCatMn(codepoint);
- break;
- case XML_REGEXP_MARK_SPACECOMBINING:
- ret = xmlUCSIsCatMc(codepoint);
- break;
- case XML_REGEXP_MARK_ENCLOSING:
- ret = xmlUCSIsCatMe(codepoint);
- break;
- case XML_REGEXP_NUMBER:
- ret = xmlUCSIsCatN(codepoint);
- break;
- case XML_REGEXP_NUMBER_DECIMAL:
- ret = xmlUCSIsCatNd(codepoint);
- break;
- case XML_REGEXP_NUMBER_LETTER:
- ret = xmlUCSIsCatNl(codepoint);
- break;
- case XML_REGEXP_NUMBER_OTHERS:
- ret = xmlUCSIsCatNo(codepoint);
- break;
- case XML_REGEXP_PUNCT:
- ret = xmlUCSIsCatP(codepoint);
- break;
- case XML_REGEXP_PUNCT_CONNECTOR:
- ret = xmlUCSIsCatPc(codepoint);
- break;
- case XML_REGEXP_PUNCT_DASH:
- ret = xmlUCSIsCatPd(codepoint);
- break;
- case XML_REGEXP_PUNCT_OPEN:
- ret = xmlUCSIsCatPs(codepoint);
- break;
- case XML_REGEXP_PUNCT_CLOSE:
- ret = xmlUCSIsCatPe(codepoint);
- break;
- case XML_REGEXP_PUNCT_INITQUOTE:
- ret = xmlUCSIsCatPi(codepoint);
- break;
- case XML_REGEXP_PUNCT_FINQUOTE:
- ret = xmlUCSIsCatPf(codepoint);
- break;
- case XML_REGEXP_PUNCT_OTHERS:
- ret = xmlUCSIsCatPo(codepoint);
- break;
- case XML_REGEXP_SEPAR:
- ret = xmlUCSIsCatZ(codepoint);
- break;
- case XML_REGEXP_SEPAR_SPACE:
- ret = xmlUCSIsCatZs(codepoint);
- break;
- case XML_REGEXP_SEPAR_LINE:
- ret = xmlUCSIsCatZl(codepoint);
- break;
- case XML_REGEXP_SEPAR_PARA:
- ret = xmlUCSIsCatZp(codepoint);
- break;
- case XML_REGEXP_SYMBOL:
- ret = xmlUCSIsCatS(codepoint);
- break;
- case XML_REGEXP_SYMBOL_MATH:
- ret = xmlUCSIsCatSm(codepoint);
- break;
- case XML_REGEXP_SYMBOL_CURRENCY:
- ret = xmlUCSIsCatSc(codepoint);
- break;
- case XML_REGEXP_SYMBOL_MODIFIER:
- ret = xmlUCSIsCatSk(codepoint);
- break;
- case XML_REGEXP_SYMBOL_OTHERS:
- ret = xmlUCSIsCatSo(codepoint);
- break;
- case XML_REGEXP_OTHER:
- ret = xmlUCSIsCatC(codepoint);
- break;
- case XML_REGEXP_OTHER_CONTROL:
- ret = xmlUCSIsCatCc(codepoint);
- break;
- case XML_REGEXP_OTHER_FORMAT:
- ret = xmlUCSIsCatCf(codepoint);
- break;
- case XML_REGEXP_OTHER_PRIVATE:
- ret = xmlUCSIsCatCo(codepoint);
- break;
- case XML_REGEXP_OTHER_NA:
- /* ret = xmlUCSIsCatCn(codepoint); */
- /* Seems it doesn't exist anymore in recent Unicode releases */
- ret = 0;
- break;
- case XML_REGEXP_BLOCK_NAME:
- ret = xmlUCSIsBlock(codepoint, (const char *) blockName);
- break;
- }
- if (neg)
- return(!ret);
- return(ret);
- }
- static int
- xmlRegCheckCharacter(xmlRegAtomPtr atom, int codepoint) {
- int i, ret = 0;
- xmlRegRangePtr range;
- if ((atom == NULL) || (!IS_CHAR(codepoint)))
- return(-1);
- switch (atom->type) {
- case XML_REGEXP_SUBREG:
- case XML_REGEXP_EPSILON:
- return(-1);
- case XML_REGEXP_CHARVAL:
- return(codepoint == atom->codepoint);
- case XML_REGEXP_RANGES: {
- int accept = 0;
- for (i = 0;i < atom->nbRanges;i++) {
- range = atom->ranges[i];
- if (range->neg == 2) {
- ret = xmlRegCheckCharacterRange(range->type, codepoint,
- 0, range->start, range->end,
- range->blockName);
- if (ret != 0)
- return(0); /* excluded char */
- } else if (range->neg) {
- ret = xmlRegCheckCharacterRange(range->type, codepoint,
- 0, range->start, range->end,
- range->blockName);
- if (ret == 0)
- accept = 1;
- else
- return(0);
- } else {
- ret = xmlRegCheckCharacterRange(range->type, codepoint,
- 0, range->start, range->end,
- range->blockName);
- if (ret != 0)
- accept = 1; /* might still be excluded */
- }
- }
- return(accept);
- }
- case XML_REGEXP_STRING:
- printf("TODO: XML_REGEXP_STRING\n");
- return(-1);
- case XML_REGEXP_ANYCHAR:
- case XML_REGEXP_ANYSPACE:
- case XML_REGEXP_NOTSPACE:
- case XML_REGEXP_INITNAME:
- case XML_REGEXP_NOTINITNAME:
- case XML_REGEXP_NAMECHAR:
- case XML_REGEXP_NOTNAMECHAR:
- case XML_REGEXP_DECIMAL:
- case XML_REGEXP_NOTDECIMAL:
- case XML_REGEXP_REALCHAR:
- case XML_REGEXP_NOTREALCHAR:
- case XML_REGEXP_LETTER:
- case XML_REGEXP_LETTER_UPPERCASE:
- case XML_REGEXP_LETTER_LOWERCASE:
- case XML_REGEXP_LETTER_TITLECASE:
- case XML_REGEXP_LETTER_MODIFIER:
- case XML_REGEXP_LETTER_OTHERS:
- case XML_REGEXP_MARK:
- case XML_REGEXP_MARK_NONSPACING:
- case XML_REGEXP_MARK_SPACECOMBINING:
- case XML_REGEXP_MARK_ENCLOSING:
- case XML_REGEXP_NUMBER:
- case XML_REGEXP_NUMBER_DECIMAL:
- case XML_REGEXP_NUMBER_LETTER:
- case XML_REGEXP_NUMBER_OTHERS:
- case XML_REGEXP_PUNCT:
- case XML_REGEXP_PUNCT_CONNECTOR:
- case XML_REGEXP_PUNCT_DASH:
- case XML_REGEXP_PUNCT_OPEN:
- case XML_REGEXP_PUNCT_CLOSE:
- case XML_REGEXP_PUNCT_INITQUOTE:
- case XML_REGEXP_PUNCT_FINQUOTE:
- case XML_REGEXP_PUNCT_OTHERS:
- case XML_REGEXP_SEPAR:
- case XML_REGEXP_SEPAR_SPACE:
- case XML_REGEXP_SEPAR_LINE:
- case XML_REGEXP_SEPAR_PARA:
- case XML_REGEXP_SYMBOL:
- case XML_REGEXP_SYMBOL_MATH:
- case XML_REGEXP_SYMBOL_CURRENCY:
- case XML_REGEXP_SYMBOL_MODIFIER:
- case XML_REGEXP_SYMBOL_OTHERS:
- case XML_REGEXP_OTHER:
- case XML_REGEXP_OTHER_CONTROL:
- case XML_REGEXP_OTHER_FORMAT:
- case XML_REGEXP_OTHER_PRIVATE:
- case XML_REGEXP_OTHER_NA:
- case XML_REGEXP_BLOCK_NAME:
- ret = xmlRegCheckCharacterRange(atom->type, codepoint, 0, 0, 0,
- (const xmlChar *)atom->valuep);
- if (atom->neg)
- ret = !ret;
- break;
- }
- return(ret);
- }
- /************************************************************************
- * *
- * Saving and restoring state of an execution context *
- * *
- ************************************************************************/
- #ifdef DEBUG_REGEXP_EXEC
- static void
- xmlFARegDebugExec(xmlRegExecCtxtPtr exec) {
- printf("state: %d:%d:idx %d", exec->state->no, exec->transno, exec->index);
- if (exec->inputStack != NULL) {
- int i;
- printf(": ");
- for (i = 0;(i < 3) && (i < exec->inputStackNr);i++)
- printf("%s ", (const char *)
- exec->inputStack[exec->inputStackNr - (i + 1)].value);
- } else {
- printf(": %s", &(exec->inputString[exec->index]));
- }
- printf("\n");
- }
- #endif
- static void
- xmlFARegExecSave(xmlRegExecCtxtPtr exec) {
- #ifdef DEBUG_REGEXP_EXEC
- printf("saving ");
- exec->transno++;
- xmlFARegDebugExec(exec);
- exec->transno--;
- #endif
- #ifdef MAX_PUSH
- if (exec->nbPush > MAX_PUSH) {
- return;
- }
- exec->nbPush++;
- #endif
- if (exec->maxRollbacks == 0) {
- exec->maxRollbacks = 4;
- exec->rollbacks = (xmlRegExecRollback *) xmlMalloc(exec->maxRollbacks *
- sizeof(xmlRegExecRollback));
- if (exec->rollbacks == NULL) {
- xmlRegexpErrMemory(NULL, "saving regexp");
- exec->maxRollbacks = 0;
- return;
- }
- memset(exec->rollbacks, 0,
- exec->maxRollbacks * sizeof(xmlRegExecRollback));
- } else if (exec->nbRollbacks >= exec->maxRollbacks) {
- xmlRegExecRollback *tmp;
- int len = exec->maxRollbacks;
- exec->maxRollbacks *= 2;
- tmp = (xmlRegExecRollback *) xmlRealloc(exec->rollbacks,
- exec->maxRollbacks * sizeof(xmlRegExecRollback));
- if (tmp == NULL) {
- xmlRegexpErrMemory(NULL, "saving regexp");
- exec->maxRollbacks /= 2;
- return;
- }
- exec->rollbacks = tmp;
- tmp = &exec->rollbacks[len];
- memset(tmp, 0, (exec->maxRollbacks - len) * sizeof(xmlRegExecRollback));
- }
- exec->rollbacks[exec->nbRollbacks].state = exec->state;
- exec->rollbacks[exec->nbRollbacks].index = exec->index;
- exec->rollbacks[exec->nbRollbacks].nextbranch = exec->transno + 1;
- if (exec->comp->nbCounters > 0) {
- if (exec->rollbacks[exec->nbRollbacks].counts == NULL) {
- exec->rollbacks[exec->nbRollbacks].counts = (int *)
- xmlMalloc(exec->comp->nbCounters * sizeof(int));
- if (exec->rollbacks[exec->nbRollbacks].counts == NULL) {
- xmlRegexpErrMemory(NULL, "saving regexp");
- exec->status = -5;
- return;
- }
- }
- memcpy(exec->rollbacks[exec->nbRollbacks].counts, exec->counts,
- exec->comp->nbCounters * sizeof(int));
- }
- exec->nbRollbacks++;
- }
- static void
- xmlFARegExecRollBack(xmlRegExecCtxtPtr exec) {
- if (exec->nbRollbacks <= 0) {
- exec->status = -1;
- #ifdef DEBUG_REGEXP_EXEC
- printf("rollback failed on empty stack\n");
- #endif
- return;
- }
- exec->nbRollbacks--;
- exec->state = exec->rollbacks[exec->nbRollbacks].state;
- exec->index = exec->rollbacks[exec->nbRollbacks].index;
- exec->transno = exec->rollbacks[exec->nbRollbacks].nextbranch;
- if (exec->comp->nbCounters > 0) {
- if (exec->rollbacks[exec->nbRollbacks].counts == NULL) {
- fprintf(stderr, "exec save: allocation failed");
- exec->status = -6;
- return;
- }
- if (exec->counts) {
- memcpy(exec->counts, exec->rollbacks[exec->nbRollbacks].counts,
- exec->comp->nbCounters * sizeof(int));
- }
- }
- #ifdef DEBUG_REGEXP_EXEC
- printf("restored ");
- xmlFARegDebugExec(exec);
- #endif
- }
- /************************************************************************
- * *
- * Verifier, running an input against a compiled regexp *
- * *
- ************************************************************************/
- static int
- xmlFARegExec(xmlRegexpPtr comp, const xmlChar *content) {
- xmlRegExecCtxt execval;
- xmlRegExecCtxtPtr exec = &execval;
- int ret, codepoint = 0, len, deter;
- exec->inputString = content;
- exec->index = 0;
- exec->nbPush = 0;
- exec->determinist = 1;
- exec->maxRollbacks = 0;
- exec->nbRollbacks = 0;
- exec->rollbacks = NULL;
- exec->status = 0;
- exec->comp = comp;
- exec->state = comp->states[0];
- exec->transno = 0;
- exec->transcount = 0;
- exec->inputStack = NULL;
- exec->inputStackMax = 0;
- if (comp->nbCounters > 0) {
- exec->counts = (int *) xmlMalloc(comp->nbCounters * sizeof(int));
- if (exec->counts == NULL) {
- xmlRegexpErrMemory(NULL, "running regexp");
- return(-1);
- }
- memset(exec->counts, 0, comp->nbCounters * sizeof(int));
- } else
- exec->counts = NULL;
- while ((exec->status == 0) && (exec->state != NULL) &&
- ((exec->inputString[exec->index] != 0) ||
- ((exec->state != NULL) &&
- (exec->state->type != XML_REGEXP_FINAL_STATE)))) {
- xmlRegTransPtr trans;
- xmlRegAtomPtr atom;
- /*
- * If end of input on non-terminal state, rollback, however we may
- * still have epsilon like transition for counted transitions
- * on counters, in that case don't break too early. Additionally,
- * if we are working on a range like "AB{0,2}", where B is not present,
- * we don't want to break.
- */
- len = 1;
- if ((exec->inputString[exec->index] == 0) && (exec->counts == NULL)) {
- /*
- * if there is a transition, we must check if
- * atom allows minOccurs of 0
- */
- if (exec->transno < exec->state->nbTrans) {
- trans = &exec->state->trans[exec->transno];
- if (trans->to >=0) {
- atom = trans->atom;
- if (!((atom->min == 0) && (atom->max > 0)))
- goto rollback;
- }
- } else
- goto rollback;
- }
- exec->transcount = 0;
- for (;exec->transno < exec->state->nbTrans;exec->transno++) {
- trans = &exec->state->trans[exec->transno];
- if (trans->to < 0)
- continue;
- atom = trans->atom;
- ret = 0;
- deter = 1;
- if (trans->count >= 0) {
- int count;
- xmlRegCounterPtr counter;
- if (exec->counts == NULL) {
- exec->status = -1;
- goto error;
- }
- /*
- * A counted transition.
- */
- count = exec->counts[trans->count];
- counter = &exec->comp->counters[trans->count];
- #ifdef DEBUG_REGEXP_EXEC
- printf("testing count %d: val %d, min %d, max %d\n",
- trans->count, count, counter->min, counter->max);
- #endif
- ret = ((count >= counter->min) && (count <= counter->max));
- if ((ret) && (counter->min != counter->max))
- deter = 0;
- } else if (atom == NULL) {
- fprintf(stderr, "epsilon transition left at runtime\n");
- exec->status = -2;
- break;
- } else if (exec->inputString[exec->index] != 0) {
- codepoint = CUR_SCHAR(&(exec->inputString[exec->index]), len);
- ret = xmlRegCheckCharacter(atom, codepoint);
- if ((ret == 1) && (atom->min >= 0) && (atom->max > 0)) {
- xmlRegStatePtr to = comp->states[trans->to];
- /*
- * this is a multiple input sequence
- * If there is a counter associated increment it now.
- * before potentially saving and rollback
- * do not increment if the counter is already over the
- * maximum limit in which case get to next transition
- */
- if (trans->counter >= 0) {
- xmlRegCounterPtr counter;
- if ((exec->counts == NULL) ||
- (exec->comp == NULL) ||
- (exec->comp->counters == NULL)) {
- exec->status = -1;
- goto error;
- }
- counter = &exec->comp->counters[trans->counter];
- if (exec->counts[trans->counter] >= counter->max)
- continue; /* for loop on transitions */
- #ifdef DEBUG_REGEXP_EXEC
- printf("Increasing count %d\n", trans->counter);
- #endif
- exec->counts[trans->counter]++;
- }
- if (exec->state->nbTrans > exec->transno + 1) {
- xmlFARegExecSave(exec);
- }
- exec->transcount = 1;
- do {
- /*
- * Try to progress as much as possible on the input
- */
- if (exec->transcount == atom->max) {
- break;
- }
- exec->index += len;
- /*
- * End of input: stop here
- */
- if (exec->inputString[exec->index] == 0) {
- exec->index -= len;
- break;
- }
- if (exec->transcount >= atom->min) {
- int transno = exec->transno;
- xmlRegStatePtr state = exec->state;
- /*
- * The transition is acceptable save it
- */
- exec->transno = -1; /* trick */
- exec->state = to;
- xmlFARegExecSave(exec);
- exec->transno = transno;
- exec->state = state;
- }
- codepoint = CUR_SCHAR(&(exec->inputString[exec->index]),
- len);
- ret = xmlRegCheckCharacter(atom, codepoint);
- exec->transcount++;
- } while (ret == 1);
- if (exec->transcount < atom->min)
- ret = 0;
- /*
- * If the last check failed but one transition was found
- * possible, rollback
- */
- if (ret < 0)
- ret = 0;
- if (ret == 0) {
- goto rollback;
- }
- if (trans->counter >= 0) {
- if (exec->counts == NULL) {
- exec->status = -1;
- goto error;
- }
- #ifdef DEBUG_REGEXP_EXEC
- printf("Decreasing count %d\n", trans->counter);
- #endif
- exec->counts[trans->counter]--;
- }
- } else if ((ret == 0) && (atom->min == 0) && (atom->max > 0)) {
- /*
- * we don't match on the codepoint, but minOccurs of 0
- * says that's ok. Setting len to 0 inhibits stepping
- * over the codepoint.
- */
- exec->transcount = 1;
- len = 0;
- ret = 1;
- }
- } else if ((atom->min == 0) && (atom->max > 0)) {
- /* another spot to match when minOccurs is 0 */
- exec->transcount = 1;
- len = 0;
- ret = 1;
- }
- if (ret == 1) {
- if ((trans->nd == 1) ||
- ((trans->count >= 0) && (deter == 0) &&
- (exec->state->nbTrans > exec->transno + 1))) {
- #ifdef DEBUG_REGEXP_EXEC
- if (trans->nd == 1)
- printf("Saving on nd transition atom %d for %c at %d\n",
- trans->atom->no, codepoint, exec->index);
- else
- printf("Saving on counted transition count %d for %c at %d\n",
- trans->count, codepoint, exec->index);
- #endif
- xmlFARegExecSave(exec);
- }
- if (trans->counter >= 0) {
- xmlRegCounterPtr counter;
- /* make sure we don't go over the counter maximum value */
- if ((exec->counts == NULL) ||
- (exec->comp == NULL) ||
- (exec->comp->counters == NULL)) {
- exec->status = -1;
- goto error;
- }
- counter = &exec->comp->counters[trans->counter];
- if (exec->counts[trans->counter] >= counter->max)
- continue; /* for loop on transitions */
- #ifdef DEBUG_REGEXP_EXEC
- printf("Increasing count %d\n", trans->counter);
- #endif
- exec->counts[trans->counter]++;
- }
- if ((trans->count >= 0) &&
- (trans->count < REGEXP_ALL_COUNTER)) {
- if (exec->counts == NULL) {
- exec->status = -1;
- goto error;
- }
- #ifdef DEBUG_REGEXP_EXEC
- printf("resetting count %d on transition\n",
- trans->count);
- #endif
- exec->counts[trans->count] = 0;
- }
- #ifdef DEBUG_REGEXP_EXEC
- printf("entering state %d\n", trans->to);
- #endif
- exec->state = comp->states[trans->to];
- exec->transno = 0;
- if (trans->atom != NULL) {
- exec->index += len;
- }
- goto progress;
- } else if (ret < 0) {
- exec->status = -4;
- break;
- }
- }
- if ((exec->transno != 0) || (exec->state->nbTrans == 0)) {
- rollback:
- /*
- * Failed to find a way out
- */
- exec->determinist = 0;
- #ifdef DEBUG_REGEXP_EXEC
- printf("rollback from state %d on %d:%c\n", exec->state->no,
- codepoint,codepoint);
- #endif
- xmlFARegExecRollBack(exec);
- }
- progress:
- continue;
- }
- error:
- if (exec->rollbacks != NULL) {
- if (exec->counts != NULL) {
- int i;
- for (i = 0;i < exec->maxRollbacks;i++)
- if (exec->rollbacks[i].counts != NULL)
- xmlFree(exec->rollbacks[i].counts);
- }
- xmlFree(exec->rollbacks);
- }
- if (exec->state == NULL)
- return(-1);
- if (exec->counts != NULL)
- xmlFree(exec->counts);
- if (exec->status == 0)
- return(1);
- if (exec->status == -1) {
- if (exec->nbPush > MAX_PUSH)
- return(-1);
- return(0);
- }
- return(exec->status);
- }
- /************************************************************************
- * *
- * Progressive interface to the verifier one atom at a time *
- * *
- ************************************************************************/
- #ifdef DEBUG_ERR
- static void testerr(xmlRegExecCtxtPtr exec);
- #endif
- /**
- * xmlRegNewExecCtxt:
- * @comp: a precompiled regular expression
- * @callback: a callback function used for handling progresses in the
- * automata matching phase
- * @data: the context data associated to the callback in this context
- *
- * Build a context used for progressive evaluation of a regexp.
- *
- * Returns the new context
- */
- xmlRegExecCtxtPtr
- xmlRegNewExecCtxt(xmlRegexpPtr comp, xmlRegExecCallbacks callback, void *data) {
- xmlRegExecCtxtPtr exec;
- if (comp == NULL)
- return(NULL);
- if ((comp->compact == NULL) && (comp->states == NULL))
- return(NULL);
- exec = (xmlRegExecCtxtPtr) xmlMalloc(sizeof(xmlRegExecCtxt));
- if (exec == NULL) {
- xmlRegexpErrMemory(NULL, "creating execution context");
- return(NULL);
- }
- memset(exec, 0, sizeof(xmlRegExecCtxt));
- exec->inputString = NULL;
- exec->index = 0;
- exec->determinist = 1;
- exec->maxRollbacks = 0;
- exec->nbRollbacks = 0;
- exec->rollbacks = NULL;
- exec->status = 0;
- exec->comp = comp;
- if (comp->compact == NULL)
- exec->state = comp->states[0];
- exec->transno = 0;
- exec->transcount = 0;
- exec->callback = callback;
- exec->data = data;
- if (comp->nbCounters > 0) {
- /*
- * For error handling, exec->counts is allocated twice the size
- * the second half is used to store the data in case of rollback
- */
- exec->counts = (int *) xmlMalloc(comp->nbCounters * sizeof(int)
- * 2);
- if (exec->counts == NULL) {
- xmlRegexpErrMemory(NULL, "creating execution context");
- xmlFree(exec);
- return(NULL);
- }
- memset(exec->counts, 0, comp->nbCounters * sizeof(int) * 2);
- exec->errCounts = &exec->counts[comp->nbCounters];
- } else {
- exec->counts = NULL;
- exec->errCounts = NULL;
- }
- exec->inputStackMax = 0;
- exec->inputStackNr = 0;
- exec->inputStack = NULL;
- exec->errStateNo = -1;
- exec->errString = NULL;
- exec->nbPush = 0;
- return(exec);
- }
- /**
- * xmlRegFreeExecCtxt:
- * @exec: a regular expression evaluation context
- *
- * Free the structures associated to a regular expression evaluation context.
- */
- void
- xmlRegFreeExecCtxt(xmlRegExecCtxtPtr exec) {
- if (exec == NULL)
- return;
- if (exec->rollbacks != NULL) {
- if (exec->counts != NULL) {
- int i;
- for (i = 0;i < exec->maxRollbacks;i++)
- if (exec->rollbacks[i].counts != NULL)
- xmlFree(exec->rollbacks[i].counts);
- }
- xmlFree(exec->rollbacks);
- }
- if (exec->counts != NULL)
- xmlFree(exec->counts);
- if (exec->inputStack != NULL) {
- int i;
- for (i = 0;i < exec->inputStackNr;i++) {
- if (exec->inputStack[i].value != NULL)
- xmlFree(exec->inputStack[i].value);
- }
- xmlFree(exec->inputStack);
- }
- if (exec->errString != NULL)
- xmlFree(exec->errString);
- xmlFree(exec);
- }
- static void
- xmlFARegExecSaveInputString(xmlRegExecCtxtPtr exec, const xmlChar *value,
- void *data) {
- #ifdef DEBUG_PUSH
- printf("saving value: %d:%s\n", exec->inputStackNr, value);
- #endif
- if (exec->inputStackMax == 0) {
- exec->inputStackMax = 4;
- exec->inputStack = (xmlRegInputTokenPtr)
- xmlMalloc(exec->inputStackMax * sizeof(xmlRegInputToken));
- if (exec->inputStack == NULL) {
- xmlRegexpErrMemory(NULL, "pushing input string");
- exec->inputStackMax = 0;
- return;
- }
- } else if (exec->inputStackNr + 1 >= exec->inputStackMax) {
- xmlRegInputTokenPtr tmp;
- exec->inputStackMax *= 2;
- tmp = (xmlRegInputTokenPtr) xmlRealloc(exec->inputStack,
- exec->inputStackMax * sizeof(xmlRegInputToken));
- if (tmp == NULL) {
- xmlRegexpErrMemory(NULL, "pushing input string");
- exec->inputStackMax /= 2;
- return;
- }
- exec->inputStack = tmp;
- }
- exec->inputStack[exec->inputStackNr].value = xmlStrdup(value);
- exec->inputStack[exec->inputStackNr].data = data;
- exec->inputStackNr++;
- exec->inputStack[exec->inputStackNr].value = NULL;
- exec->inputStack[exec->inputStackNr].data = NULL;
- }
- /**
- * xmlRegStrEqualWildcard:
- * @expStr: the string to be evaluated
- * @valStr: the validation string
- *
- * Checks if both strings are equal or have the same content. "*"
- * can be used as a wildcard in @valStr; "|" is used as a separator of
- * substrings in both @expStr and @valStr.
- *
- * Returns 1 if the comparison is satisfied and the number of substrings
- * is equal, 0 otherwise.
- */
- static int
- xmlRegStrEqualWildcard(const xmlChar *expStr, const xmlChar *valStr) {
- if (expStr == valStr) return(1);
- if (expStr == NULL) return(0);
- if (valStr == NULL) return(0);
- do {
- /*
- * Eval if we have a wildcard for the current item.
- */
- if (*expStr != *valStr) {
- /* if one of them starts with a wildcard make valStr be it */
- if (*valStr == '*') {
- const xmlChar *tmp;
- tmp = valStr;
- valStr = expStr;
- expStr = tmp;
- }
- if ((*valStr != 0) && (*expStr != 0) && (*expStr++ == '*')) {
- do {
- if (*valStr == XML_REG_STRING_SEPARATOR)
- break;
- valStr++;
- } while (*valStr != 0);
- continue;
- } else
- return(0);
- }
- expStr++;
- valStr++;
- } while (*valStr != 0);
- if (*expStr != 0)
- return (0);
- else
- return (1);
- }
- /**
- * xmlRegCompactPushString:
- * @exec: a regexp execution context
- * @comp: the precompiled exec with a compact table
- * @value: a string token input
- * @data: data associated to the token to reuse in callbacks
- *
- * Push one input token in the execution context
- *
- * Returns: 1 if the regexp reached a final state, 0 if non-final, and
- * a negative value in case of error.
- */
- static int
- xmlRegCompactPushString(xmlRegExecCtxtPtr exec,
- xmlRegexpPtr comp,
- const xmlChar *value,
- void *data) {
- int state = exec->index;
- int i, target;
- if ((comp == NULL) || (comp->compact == NULL) || (comp->stringMap == NULL))
- return(-1);
- if (value == NULL) {
- /*
- * are we at a final state ?
- */
- if (comp->compact[state * (comp->nbstrings + 1)] ==
- XML_REGEXP_FINAL_STATE)
- return(1);
- return(0);
- }
- #ifdef DEBUG_PUSH
- printf("value pushed: %s\n", value);
- #endif
- /*
- * Examine all outside transitions from current state
- */
- for (i = 0;i < comp->nbstrings;i++) {
- target = comp->compact[state * (comp->nbstrings + 1) + i + 1];
- if ((target > 0) && (target <= comp->nbstates)) {
- target--; /* to avoid 0 */
- if (xmlRegStrEqualWildcard(comp->stringMap[i], value)) {
- exec->index = target;
- if ((exec->callback != NULL) && (comp->transdata != NULL)) {
- exec->callback(exec->data, value,
- comp->transdata[state * comp->nbstrings + i], data);
- }
- #ifdef DEBUG_PUSH
- printf("entering state %d\n", target);
- #endif
- if (comp->compact[target * (comp->nbstrings + 1)] ==
- XML_REGEXP_SINK_STATE)
- goto error;
- if (comp->compact[target * (comp->nbstrings + 1)] ==
- XML_REGEXP_FINAL_STATE)
- return(1);
- return(0);
- }
- }
- }
- /*
- * Failed to find an exit transition out from current state for the
- * current token
- */
- #ifdef DEBUG_PUSH
- printf("failed to find a transition for %s on state %d\n", value, state);
- #endif
- error:
- if (exec->errString != NULL)
- xmlFree(exec->errString);
- exec->errString = xmlStrdup(value);
- exec->errStateNo = state;
- exec->status = -1;
- #ifdef DEBUG_ERR
- testerr(exec);
- #endif
- return(-1);
- }
- /**
- * xmlRegExecPushStringInternal:
- * @exec: a regexp execution context or NULL to indicate the end
- * @value: a string token input
- * @data: data associated to the token to reuse in callbacks
- * @compound: value was assembled from 2 strings
- *
- * Push one input token in the execution context
- *
- * Returns: 1 if the regexp reached a final state, 0 if non-final, and
- * a negative value in case of error.
- */
- static int
- xmlRegExecPushStringInternal(xmlRegExecCtxtPtr exec, const xmlChar *value,
- void *data, int compound) {
- xmlRegTransPtr trans;
- xmlRegAtomPtr atom;
- int ret;
- int final = 0;
- int progress = 1;
- if (exec == NULL)
- return(-1);
- if (exec->comp == NULL)
- return(-1);
- if (exec->status != 0)
- return(exec->status);
- if (exec->comp->compact != NULL)
- return(xmlRegCompactPushString(exec, exec->comp, value, data));
- if (value == NULL) {
- if (exec->state->type == XML_REGEXP_FINAL_STATE)
- return(1);
- final = 1;
- }
- #ifdef DEBUG_PUSH
- printf("value pushed: %s\n", value);
- #endif
- /*
- * If we have an active rollback stack push the new value there
- * and get back to where we were left
- */
- if ((value != NULL) && (exec->inputStackNr > 0)) {
- xmlFARegExecSaveInputString(exec, value, data);
- value = exec->inputStack[exec->index].value;
- data = exec->inputStack[exec->index].data;
- #ifdef DEBUG_PUSH
- printf("value loaded: %s\n", value);
- #endif
- }
- while ((exec->status == 0) &&
- ((value != NULL) ||
- ((final == 1) &&
- (exec->state->type != XML_REGEXP_FINAL_STATE)))) {
- /*
- * End of input on non-terminal state, rollback, however we may
- * still have epsilon like transition for counted transitions
- * on counters, in that case don't break too early.
- */
- if ((value == NULL) && (exec->counts == NULL))
- goto rollback;
- exec->transcount = 0;
- for (;exec->transno < exec->state->nbTrans;exec->transno++) {
- trans = &exec->state->trans[exec->transno];
- if (trans->to < 0)
- continue;
- atom = trans->atom;
- ret = 0;
- if (trans->count == REGEXP_ALL_LAX_COUNTER) {
- int i;
- int count;
- xmlRegTransPtr t;
- xmlRegCounterPtr counter;
- ret = 0;
- #ifdef DEBUG_PUSH
- printf("testing all lax %d\n", trans->count);
- #endif
- /*
- * Check all counted transitions from the current state
- */
- if ((value == NULL) && (final)) {
- ret = 1;
- } else if (value != NULL) {
- for (i = 0;i < exec->state->nbTrans;i++) {
- t = &exec->state->trans[i];
- if ((t->counter < 0) || (t == trans))
- continue;
- counter = &exec->comp->counters[t->counter];
- count = exec->counts[t->counter];
- if ((count < counter->max) &&
- (t->atom != NULL) &&
- (xmlStrEqual(value, t->atom->valuep))) {
- ret = 0;
- break;
- }
- if ((count >= counter->min) &&
- (count < counter->max) &&
- (t->atom != NULL) &&
- (xmlStrEqual(value, t->atom->valuep))) {
- ret = 1;
- break;
- }
- }
- }
- } else if (trans->count == REGEXP_ALL_COUNTER) {
- int i;
- int count;
- xmlRegTransPtr t;
- xmlRegCounterPtr counter;
- ret = 1;
- #ifdef DEBUG_PUSH
- printf("testing all %d\n", trans->count);
- #endif
- /*
- * Check all counted transitions from the current state
- */
- for (i = 0;i < exec->state->nbTrans;i++) {
- t = &exec->state->trans[i];
- if ((t->counter < 0) || (t == trans))
- continue;
- counter = &exec->comp->counters[t->counter];
- count = exec->counts[t->counter];
- if ((count < counter->min) || (count > counter->max)) {
- ret = 0;
- break;
- }
- }
- } else if (trans->count >= 0) {
- int count;
- xmlRegCounterPtr counter;
- /*
- * A counted transition.
- */
- count = exec->counts[trans->count];
- counter = &exec->comp->counters[trans->count];
- #ifdef DEBUG_PUSH
- printf("testing count %d: val %d, min %d, max %d\n",
- trans->count, count, counter->min, counter->max);
- #endif
- ret = ((count >= counter->min) && (count <= counter->max));
- } else if (atom == NULL) {
- fprintf(stderr, "epsilon transition left at runtime\n");
- exec->status = -2;
- break;
- } else if (value != NULL) {
- ret = xmlRegStrEqualWildcard(atom->valuep, value);
- if (atom->neg) {
- ret = !ret;
- if (!compound)
- ret = 0;
- }
- if ((ret == 1) && (trans->counter >= 0)) {
- xmlRegCounterPtr counter;
- int count;
- count = exec->counts[trans->counter];
- counter = &exec->comp->counters[trans->counter];
- if (count >= counter->max)
- ret = 0;
- }
- if ((ret == 1) && (atom->min > 0) && (atom->max > 0)) {
- xmlRegStatePtr to = exec->comp->states[trans->to];
- /*
- * this is a multiple input sequence
- */
- if (exec->state->nbTrans > exec->transno + 1) {
- if (exec->inputStackNr <= 0) {
- xmlFARegExecSaveInputString(exec, value, data);
- }
- xmlFARegExecSave(exec);
- }
- exec->transcount = 1;
- do {
- /*
- * Try to progress as much as possible on the input
- */
- if (exec->transcount == atom->max) {
- break;
- }
- exec->index++;
- value = exec->inputStack[exec->index].value;
- data = exec->inputStack[exec->index].data;
- #ifdef DEBUG_PUSH
- printf("value loaded: %s\n", value);
- #endif
- /*
- * End of input: stop here
- */
- if (value == NULL) {
- exec->index --;
- break;
- }
- if (exec->transcount >= atom->min) {
- int transno = exec->transno;
- xmlRegStatePtr state = exec->state;
- /*
- * The transition is acceptable save it
- */
- exec->transno = -1; /* trick */
- exec->state = to;
- if (exec->inputStackNr <= 0) {
- xmlFARegExecSaveInputString(exec, value, data);
- }
- xmlFARegExecSave(exec);
- exec->transno = transno;
- exec->state = state;
- }
- ret = xmlStrEqual(value, atom->valuep);
- exec->transcount++;
- } while (ret == 1);
- if (exec->transcount < atom->min)
- ret = 0;
- /*
- * If the last check failed but one transition was found
- * possible, rollback
- */
- if (ret < 0)
- ret = 0;
- if (ret == 0) {
- goto rollback;
- }
- }
- }
- if (ret == 1) {
- if ((exec->callback != NULL) && (atom != NULL) &&
- (data != NULL)) {
- exec->callback(exec->data, atom->valuep,
- atom->data, data);
- }
- if (exec->state->nbTrans > exec->transno + 1) {
- if (exec->inputStackNr <= 0) {
- xmlFARegExecSaveInputString(exec, value, data);
- }
- xmlFARegExecSave(exec);
- }
- if (trans->counter >= 0) {
- #ifdef DEBUG_PUSH
- printf("Increasing count %d\n", trans->counter);
- #endif
- exec->counts[trans->counter]++;
- }
- if ((trans->count >= 0) &&
- (trans->count < REGEXP_ALL_COUNTER)) {
- #ifdef DEBUG_REGEXP_EXEC
- printf("resetting count %d on transition\n",
- trans->count);
- #endif
- exec->counts[trans->count] = 0;
- }
- #ifdef DEBUG_PUSH
- printf("entering state %d\n", trans->to);
- #endif
- if ((exec->comp->states[trans->to] != NULL) &&
- (exec->comp->states[trans->to]->type ==
- XML_REGEXP_SINK_STATE)) {
- /*
- * entering a sink state, save the current state as error
- * state.
- */
- if (exec->errString != NULL)
- xmlFree(exec->errString);
- exec->errString = xmlStrdup(value);
- exec->errState = exec->state;
- memcpy(exec->errCounts, exec->counts,
- exec->comp->nbCounters * sizeof(int));
- }
- exec->state = exec->comp->states[trans->to];
- exec->transno = 0;
- if (trans->atom != NULL) {
- if (exec->inputStack != NULL) {
- exec->index++;
- if (exec->index < exec->inputStackNr) {
- value = exec->inputStack[exec->index].value;
- data = exec->inputStack[exec->index].data;
- #ifdef DEBUG_PUSH
- printf("value loaded: %s\n", value);
- #endif
- } else {
- value = NULL;
- data = NULL;
- #ifdef DEBUG_PUSH
- printf("end of input\n");
- #endif
- }
- } else {
- value = NULL;
- data = NULL;
- #ifdef DEBUG_PUSH
- printf("end of input\n");
- #endif
- }
- }
- goto progress;
- } else if (ret < 0) {
- exec->status = -4;
- break;
- }
- }
- if ((exec->transno != 0) || (exec->state->nbTrans == 0)) {
- rollback:
- /*
- * if we didn't yet rollback on the current input
- * store the current state as the error state.
- */
- if ((progress) && (exec->state != NULL) &&
- (exec->state->type != XML_REGEXP_SINK_STATE)) {
- progress = 0;
- if (exec->errString != NULL)
- xmlFree(exec->errString);
- exec->errString = xmlStrdup(value);
- exec->errState = exec->state;
- if (exec->comp->nbCounters)
- memcpy(exec->errCounts, exec->counts,
- exec->comp->nbCounters * sizeof(int));
- }
- /*
- * Failed to find a way out
- */
- exec->determinist = 0;
- xmlFARegExecRollBack(exec);
- if ((exec->inputStack != NULL ) && (exec->status == 0)) {
- value = exec->inputStack[exec->index].value;
- data = exec->inputStack[exec->index].data;
- #ifdef DEBUG_PUSH
- printf("value loaded: %s\n", value);
- #endif
- }
- }
- continue;
- progress:
- progress = 1;
- continue;
- }
- if (exec->status == 0) {
- return(exec->state->type == XML_REGEXP_FINAL_STATE);
- }
- #ifdef DEBUG_ERR
- if (exec->status < 0) {
- testerr(exec);
- }
- #endif
- return(exec->status);
- }
- /**
- * xmlRegExecPushString:
- * @exec: a regexp execution context or NULL to indicate the end
- * @value: a string token input
- * @data: data associated to the token to reuse in callbacks
- *
- * Push one input token in the execution context
- *
- * Returns: 1 if the regexp reached a final state, 0 if non-final, and
- * a negative value in case of error.
- */
- int
- xmlRegExecPushString(xmlRegExecCtxtPtr exec, const xmlChar *value,
- void *data) {
- return(xmlRegExecPushStringInternal(exec, value, data, 0));
- }
- /**
- * xmlRegExecPushString2:
- * @exec: a regexp execution context or NULL to indicate the end
- * @value: the first string token input
- * @value2: the second string token input
- * @data: data associated to the token to reuse in callbacks
- *
- * Push one input token in the execution context
- *
- * Returns: 1 if the regexp reached a final state, 0 if non-final, and
- * a negative value in case of error.
- */
- int
- xmlRegExecPushString2(xmlRegExecCtxtPtr exec, const xmlChar *value,
- const xmlChar *value2, void *data) {
- xmlChar buf[150];
- int lenn, lenp, ret;
- xmlChar *str;
- if (exec == NULL)
- return(-1);
- if (exec->comp == NULL)
- return(-1);
- if (exec->status != 0)
- return(exec->status);
- if (value2 == NULL)
- return(xmlRegExecPushString(exec, value, data));
- lenn = strlen((char *) value2);
- lenp = strlen((char *) value);
- if (150 < lenn + lenp + 2) {
- str = (xmlChar *) xmlMallocAtomic(lenn + lenp + 2);
- if (str == NULL) {
- exec->status = -1;
- return(-1);
- }
- } else {
- str = buf;
- }
- memcpy(&str[0], value, lenp);
- str[lenp] = XML_REG_STRING_SEPARATOR;
- memcpy(&str[lenp + 1], value2, lenn);
- str[lenn + lenp + 1] = 0;
- if (exec->comp->compact != NULL)
- ret = xmlRegCompactPushString(exec, exec->comp, str, data);
- else
- ret = xmlRegExecPushStringInternal(exec, str, data, 1);
- if (str != buf)
- xmlFree(str);
- return(ret);
- }
- /**
- * xmlRegExecGetValues:
- * @exec: a regexp execution context
- * @err: error extraction or normal one
- * @nbval: pointer to the number of accepted values IN/OUT
- * @nbneg: return number of negative transitions
- * @values: pointer to the array of acceptable values
- * @terminal: return value if this was a terminal state
- *
- * Extract information from the regexp execution, internal routine to
- * implement xmlRegExecNextValues() and xmlRegExecErrInfo()
- *
- * Returns: 0 in case of success or -1 in case of error.
- */
- static int
- xmlRegExecGetValues(xmlRegExecCtxtPtr exec, int err,
- int *nbval, int *nbneg,
- xmlChar **values, int *terminal) {
- int maxval;
- int nb = 0;
- if ((exec == NULL) || (nbval == NULL) || (nbneg == NULL) ||
- (values == NULL) || (*nbval <= 0))
- return(-1);
- maxval = *nbval;
- *nbval = 0;
- *nbneg = 0;
- if ((exec->comp != NULL) && (exec->comp->compact != NULL)) {
- xmlRegexpPtr comp;
- int target, i, state;
- comp = exec->comp;
- if (err) {
- if (exec->errStateNo == -1) return(-1);
- state = exec->errStateNo;
- } else {
- state = exec->index;
- }
- if (terminal != NULL) {
- if (comp->compact[state * (comp->nbstrings + 1)] ==
- XML_REGEXP_FINAL_STATE)
- *terminal = 1;
- else
- *terminal = 0;
- }
- for (i = 0;(i < comp->nbstrings) && (nb < maxval);i++) {
- target = comp->compact[state * (comp->nbstrings + 1) + i + 1];
- if ((target > 0) && (target <= comp->nbstates) &&
- (comp->compact[(target - 1) * (comp->nbstrings + 1)] !=
- XML_REGEXP_SINK_STATE)) {
- values[nb++] = comp->stringMap[i];
- (*nbval)++;
- }
- }
- for (i = 0;(i < comp->nbstrings) && (nb < maxval);i++) {
- target = comp->compact[state * (comp->nbstrings + 1) + i + 1];
- if ((target > 0) && (target <= comp->nbstates) &&
- (comp->compact[(target - 1) * (comp->nbstrings + 1)] ==
- XML_REGEXP_SINK_STATE)) {
- values[nb++] = comp->stringMap[i];
- (*nbneg)++;
- }
- }
- } else {
- int transno;
- xmlRegTransPtr trans;
- xmlRegAtomPtr atom;
- xmlRegStatePtr state;
- if (terminal != NULL) {
- if (exec->state->type == XML_REGEXP_FINAL_STATE)
- *terminal = 1;
- else
- *terminal = 0;
- }
- if (err) {
- if (exec->errState == NULL) return(-1);
- state = exec->errState;
- } else {
- if (exec->state == NULL) return(-1);
- state = exec->state;
- }
- for (transno = 0;
- (transno < state->nbTrans) && (nb < maxval);
- transno++) {
- trans = &state->trans[transno];
- if (trans->to < 0)
- continue;
- atom = trans->atom;
- if ((atom == NULL) || (atom->valuep == NULL))
- continue;
- if (trans->count == REGEXP_ALL_LAX_COUNTER) {
- /* this should not be reached but ... */
- TODO;
- } else if (trans->count == REGEXP_ALL_COUNTER) {
- /* this should not be reached but ... */
- TODO;
- } else if (trans->counter >= 0) {
- xmlRegCounterPtr counter = NULL;
- int count;
- if (err)
- count = exec->errCounts[trans->counter];
- else
- count = exec->counts[trans->counter];
- if (exec->comp != NULL)
- counter = &exec->comp->counters[trans->counter];
- if ((counter == NULL) || (count < counter->max)) {
- if (atom->neg)
- values[nb++] = (xmlChar *) atom->valuep2;
- else
- values[nb++] = (xmlChar *) atom->valuep;
- (*nbval)++;
- }
- } else {
- if ((exec->comp != NULL) && (exec->comp->states[trans->to] != NULL) &&
- (exec->comp->states[trans->to]->type !=
- XML_REGEXP_SINK_STATE)) {
- if (atom->neg)
- values[nb++] = (xmlChar *) atom->valuep2;
- else
- values[nb++] = (xmlChar *) atom->valuep;
- (*nbval)++;
- }
- }
- }
- for (transno = 0;
- (transno < state->nbTrans) && (nb < maxval);
- transno++) {
- trans = &state->trans[transno];
- if (trans->to < 0)
- continue;
- atom = trans->atom;
- if ((atom == NULL) || (atom->valuep == NULL))
- continue;
- if (trans->count == REGEXP_ALL_LAX_COUNTER) {
- continue;
- } else if (trans->count == REGEXP_ALL_COUNTER) {
- continue;
- } else if (trans->counter >= 0) {
- continue;
- } else {
- if ((exec->comp->states[trans->to] != NULL) &&
- (exec->comp->states[trans->to]->type ==
- XML_REGEXP_SINK_STATE)) {
- if (atom->neg)
- values[nb++] = (xmlChar *) atom->valuep2;
- else
- values[nb++] = (xmlChar *) atom->valuep;
- (*nbneg)++;
- }
- }
- }
- }
- return(0);
- }
- /**
- * xmlRegExecNextValues:
- * @exec: a regexp execution context
- * @nbval: pointer to the number of accepted values IN/OUT
- * @nbneg: return number of negative transitions
- * @values: pointer to the array of acceptable values
- * @terminal: return value if this was a terminal state
- *
- * Extract information from the regexp execution,
- * the parameter @values must point to an array of @nbval string pointers
- * on return nbval will contain the number of possible strings in that
- * state and the @values array will be updated with them. The string values
- * returned will be freed with the @exec context and don't need to be
- * deallocated.
- *
- * Returns: 0 in case of success or -1 in case of error.
- */
- int
- xmlRegExecNextValues(xmlRegExecCtxtPtr exec, int *nbval, int *nbneg,
- xmlChar **values, int *terminal) {
- return(xmlRegExecGetValues(exec, 0, nbval, nbneg, values, terminal));
- }
- /**
- * xmlRegExecErrInfo:
- * @exec: a regexp execution context generating an error
- * @string: return value for the error string
- * @nbval: pointer to the number of accepted values IN/OUT
- * @nbneg: return number of negative transitions
- * @values: pointer to the array of acceptable values
- * @terminal: return value if this was a terminal state
- *
- * Extract error information from the regexp execution, the parameter
- * @string will be updated with the value pushed and not accepted,
- * the parameter @values must point to an array of @nbval string pointers
- * on return nbval will contain the number of possible strings in that
- * state and the @values array will be updated with them. The string values
- * returned will be freed with the @exec context and don't need to be
- * deallocated.
- *
- * Returns: 0 in case of success or -1 in case of error.
- */
- int
- xmlRegExecErrInfo(xmlRegExecCtxtPtr exec, const xmlChar **string,
- int *nbval, int *nbneg, xmlChar **values, int *terminal) {
- if (exec == NULL)
- return(-1);
- if (string != NULL) {
- if (exec->status != 0)
- *string = exec->errString;
- else
- *string = NULL;
- }
- return(xmlRegExecGetValues(exec, 1, nbval, nbneg, values, terminal));
- }
- #ifdef DEBUG_ERR
- static void testerr(xmlRegExecCtxtPtr exec) {
- const xmlChar *string;
- xmlChar *values[5];
- int nb = 5;
- int nbneg;
- int terminal;
- xmlRegExecErrInfo(exec, &string, &nb, &nbneg, &values[0], &terminal);
- }
- #endif
- #if 0
- static int
- xmlRegExecPushChar(xmlRegExecCtxtPtr exec, int UCS) {
- xmlRegTransPtr trans;
- xmlRegAtomPtr atom;
- int ret;
- int codepoint, len;
- if (exec == NULL)
- return(-1);
- if (exec->status != 0)
- return(exec->status);
- while ((exec->status == 0) &&
- ((exec->inputString[exec->index] != 0) ||
- (exec->state->type != XML_REGEXP_FINAL_STATE))) {
- /*
- * End of input on non-terminal state, rollback, however we may
- * still have epsilon like transition for counted transitions
- * on counters, in that case don't break too early.
- */
- if ((exec->inputString[exec->index] == 0) && (exec->counts == NULL))
- goto rollback;
- exec->transcount = 0;
- for (;exec->transno < exec->state->nbTrans;exec->transno++) {
- trans = &exec->state->trans[exec->transno];
- if (trans->to < 0)
- continue;
- atom = trans->atom;
- ret = 0;
- if (trans->count >= 0) {
- int count;
- xmlRegCounterPtr counter;
- /*
- * A counted transition.
- */
- count = exec->counts[trans->count];
- counter = &exec->comp->counters[trans->count];
- #ifdef DEBUG_REGEXP_EXEC
- printf("testing count %d: val %d, min %d, max %d\n",
- trans->count, count, counter->min, counter->max);
- #endif
- ret = ((count >= counter->min) && (count <= counter->max));
- } else if (atom == NULL) {
- fprintf(stderr, "epsilon transition left at runtime\n");
- exec->status = -2;
- break;
- } else if (exec->inputString[exec->index] != 0) {
- codepoint = CUR_SCHAR(&(exec->inputString[exec->index]), len);
- ret = xmlRegCheckCharacter(atom, codepoint);
- if ((ret == 1) && (atom->min > 0) && (atom->max > 0)) {
- xmlRegStatePtr to = exec->comp->states[trans->to];
- /*
- * this is a multiple input sequence
- */
- if (exec->state->nbTrans > exec->transno + 1) {
- xmlFARegExecSave(exec);
- }
- exec->transcount = 1;
- do {
- /*
- * Try to progress as much as possible on the input
- */
- if (exec->transcount == atom->max) {
- break;
- }
- exec->index += len;
- /*
- * End of input: stop here
- */
- if (exec->inputString[exec->index] == 0) {
- exec->index -= len;
- break;
- }
- if (exec->transcount >= atom->min) {
- int transno = exec->transno;
- xmlRegStatePtr state = exec->state;
- /*
- * The transition is acceptable save it
- */
- exec->transno = -1; /* trick */
- exec->state = to;
- xmlFARegExecSave(exec);
- exec->transno = transno;
- exec->state = state;
- }
- codepoint = CUR_SCHAR(&(exec->inputString[exec->index]),
- len);
- ret = xmlRegCheckCharacter(atom, codepoint);
- exec->transcount++;
- } while (ret == 1);
- if (exec->transcount < atom->min)
- ret = 0;
- /*
- * If the last check failed but one transition was found
- * possible, rollback
- */
- if (ret < 0)
- ret = 0;
- if (ret == 0) {
- goto rollback;
- }
- }
- }
- if (ret == 1) {
- if (exec->state->nbTrans > exec->transno + 1) {
- xmlFARegExecSave(exec);
- }
- /*
- * restart count for expressions like this ((abc){2})*
- */
- if (trans->count >= 0) {
- #ifdef DEBUG_REGEXP_EXEC
- printf("Reset count %d\n", trans->count);
- #endif
- exec->counts[trans->count] = 0;
- }
- if (trans->counter >= 0) {
- #ifdef DEBUG_REGEXP_EXEC
- printf("Increasing count %d\n", trans->counter);
- #endif
- exec->counts[trans->counter]++;
- }
- #ifdef DEBUG_REGEXP_EXEC
- printf("entering state %d\n", trans->to);
- #endif
- exec->state = exec->comp->states[trans->to];
- exec->transno = 0;
- if (trans->atom != NULL) {
- exec->index += len;
- }
- goto progress;
- } else if (ret < 0) {
- exec->status = -4;
- break;
- }
- }
- if ((exec->transno != 0) || (exec->state->nbTrans == 0)) {
- rollback:
- /*
- * Failed to find a way out
- */
- exec->determinist = 0;
- xmlFARegExecRollBack(exec);
- }
- progress:
- continue;
- }
- }
- #endif
- /************************************************************************
- * *
- * Parser for the Schemas Datatype Regular Expressions *
- * http://www.w3.org/TR/2001/REC-xmlschema-2-20010502/#regexs *
- * *
- ************************************************************************/
- /**
- * xmlFAIsChar:
- * @ctxt: a regexp parser context
- *
- * [10] Char ::= [^.\?*+()|#x5B#x5D]
- */
- static int
- xmlFAIsChar(xmlRegParserCtxtPtr ctxt) {
- int cur;
- int len;
- cur = CUR_SCHAR(ctxt->cur, len);
- if ((cur == '.') || (cur == '\\') || (cur == '?') ||
- (cur == '*') || (cur == '+') || (cur == '(') ||
- (cur == ')') || (cur == '|') || (cur == 0x5B) ||
- (cur == 0x5D) || (cur == 0))
- return(-1);
- return(cur);
- }
- /**
- * xmlFAParseCharProp:
- * @ctxt: a regexp parser context
- *
- * [27] charProp ::= IsCategory | IsBlock
- * [28] IsCategory ::= Letters | Marks | Numbers | Punctuation |
- * Separators | Symbols | Others
- * [29] Letters ::= 'L' [ultmo]?
- * [30] Marks ::= 'M' [nce]?
- * [31] Numbers ::= 'N' [dlo]?
- * [32] Punctuation ::= 'P' [cdseifo]?
- * [33] Separators ::= 'Z' [slp]?
- * [34] Symbols ::= 'S' [mcko]?
- * [35] Others ::= 'C' [cfon]?
- * [36] IsBlock ::= 'Is' [a-zA-Z0-9#x2D]+
- */
- static void
- xmlFAParseCharProp(xmlRegParserCtxtPtr ctxt) {
- int cur;
- xmlRegAtomType type = (xmlRegAtomType) 0;
- xmlChar *blockName = NULL;
- cur = CUR;
- if (cur == 'L') {
- NEXT;
- cur = CUR;
- if (cur == 'u') {
- NEXT;
- type = XML_REGEXP_LETTER_UPPERCASE;
- } else if (cur == 'l') {
- NEXT;
- type = XML_REGEXP_LETTER_LOWERCASE;
- } else if (cur == 't') {
- NEXT;
- type = XML_REGEXP_LETTER_TITLECASE;
- } else if (cur == 'm') {
- NEXT;
- type = XML_REGEXP_LETTER_MODIFIER;
- } else if (cur == 'o') {
- NEXT;
- type = XML_REGEXP_LETTER_OTHERS;
- } else {
- type = XML_REGEXP_LETTER;
- }
- } else if (cur == 'M') {
- NEXT;
- cur = CUR;
- if (cur == 'n') {
- NEXT;
- /* nonspacing */
- type = XML_REGEXP_MARK_NONSPACING;
- } else if (cur == 'c') {
- NEXT;
- /* spacing combining */
- type = XML_REGEXP_MARK_SPACECOMBINING;
- } else if (cur == 'e') {
- NEXT;
- /* enclosing */
- type = XML_REGEXP_MARK_ENCLOSING;
- } else {
- /* all marks */
- type = XML_REGEXP_MARK;
- }
- } else if (cur == 'N') {
- NEXT;
- cur = CUR;
- if (cur == 'd') {
- NEXT;
- /* digital */
- type = XML_REGEXP_NUMBER_DECIMAL;
- } else if (cur == 'l') {
- NEXT;
- /* letter */
- type = XML_REGEXP_NUMBER_LETTER;
- } else if (cur == 'o') {
- NEXT;
- /* other */
- type = XML_REGEXP_NUMBER_OTHERS;
- } else {
- /* all numbers */
- type = XML_REGEXP_NUMBER;
- }
- } else if (cur == 'P') {
- NEXT;
- cur = CUR;
- if (cur == 'c') {
- NEXT;
- /* connector */
- type = XML_REGEXP_PUNCT_CONNECTOR;
- } else if (cur == 'd') {
- NEXT;
- /* dash */
- type = XML_REGEXP_PUNCT_DASH;
- } else if (cur == 's') {
- NEXT;
- /* open */
- type = XML_REGEXP_PUNCT_OPEN;
- } else if (cur == 'e') {
- NEXT;
- /* close */
- type = XML_REGEXP_PUNCT_CLOSE;
- } else if (cur == 'i') {
- NEXT;
- /* initial quote */
- type = XML_REGEXP_PUNCT_INITQUOTE;
- } else if (cur == 'f') {
- NEXT;
- /* final quote */
- type = XML_REGEXP_PUNCT_FINQUOTE;
- } else if (cur == 'o') {
- NEXT;
- /* other */
- type = XML_REGEXP_PUNCT_OTHERS;
- } else {
- /* all punctuation */
- type = XML_REGEXP_PUNCT;
- }
- } else if (cur == 'Z') {
- NEXT;
- cur = CUR;
- if (cur == 's') {
- NEXT;
- /* space */
- type = XML_REGEXP_SEPAR_SPACE;
- } else if (cur == 'l') {
- NEXT;
- /* line */
- type = XML_REGEXP_SEPAR_LINE;
- } else if (cur == 'p') {
- NEXT;
- /* paragraph */
- type = XML_REGEXP_SEPAR_PARA;
- } else {
- /* all separators */
- type = XML_REGEXP_SEPAR;
- }
- } else if (cur == 'S') {
- NEXT;
- cur = CUR;
- if (cur == 'm') {
- NEXT;
- type = XML_REGEXP_SYMBOL_MATH;
- /* math */
- } else if (cur == 'c') {
- NEXT;
- type = XML_REGEXP_SYMBOL_CURRENCY;
- /* currency */
- } else if (cur == 'k') {
- NEXT;
- type = XML_REGEXP_SYMBOL_MODIFIER;
- /* modifiers */
- } else if (cur == 'o') {
- NEXT;
- type = XML_REGEXP_SYMBOL_OTHERS;
- /* other */
- } else {
- /* all symbols */
- type = XML_REGEXP_SYMBOL;
- }
- } else if (cur == 'C') {
- NEXT;
- cur = CUR;
- if (cur == 'c') {
- NEXT;
- /* control */
- type = XML_REGEXP_OTHER_CONTROL;
- } else if (cur == 'f') {
- NEXT;
- /* format */
- type = XML_REGEXP_OTHER_FORMAT;
- } else if (cur == 'o') {
- NEXT;
- /* private use */
- type = XML_REGEXP_OTHER_PRIVATE;
- } else if (cur == 'n') {
- NEXT;
- /* not assigned */
- type = XML_REGEXP_OTHER_NA;
- } else {
- /* all others */
- type = XML_REGEXP_OTHER;
- }
- } else if (cur == 'I') {
- const xmlChar *start;
- NEXT;
- cur = CUR;
- if (cur != 's') {
- ERROR("IsXXXX expected");
- return;
- }
- NEXT;
- start = ctxt->cur;
- cur = CUR;
- if (((cur >= 'a') && (cur <= 'z')) ||
- ((cur >= 'A') && (cur <= 'Z')) ||
- ((cur >= '0') && (cur <= '9')) ||
- (cur == 0x2D)) {
- NEXT;
- cur = CUR;
- while (((cur >= 'a') && (cur <= 'z')) ||
- ((cur >= 'A') && (cur <= 'Z')) ||
- ((cur >= '0') && (cur <= '9')) ||
- (cur == 0x2D)) {
- NEXT;
- cur = CUR;
- }
- }
- type = XML_REGEXP_BLOCK_NAME;
- blockName = xmlStrndup(start, ctxt->cur - start);
- } else {
- ERROR("Unknown char property");
- return;
- }
- if (ctxt->atom == NULL) {
- ctxt->atom = xmlRegNewAtom(ctxt, type);
- if (ctxt->atom != NULL)
- ctxt->atom->valuep = blockName;
- } else if (ctxt->atom->type == XML_REGEXP_RANGES) {
- xmlRegAtomAddRange(ctxt, ctxt->atom, ctxt->neg,
- type, 0, 0, blockName);
- }
- }
- /**
- * xmlFAParseCharClassEsc:
- * @ctxt: a regexp parser context
- *
- * [23] charClassEsc ::= ( SingleCharEsc | MultiCharEsc | catEsc | complEsc )
- * [24] SingleCharEsc ::= '\' [nrt\|.?*+(){}#x2D#x5B#x5D#x5E]
- * [25] catEsc ::= '\p{' charProp '}'
- * [26] complEsc ::= '\P{' charProp '}'
- * [37] MultiCharEsc ::= '.' | ('\' [sSiIcCdDwW])
- */
- static void
- xmlFAParseCharClassEsc(xmlRegParserCtxtPtr ctxt) {
- int cur;
- if (CUR == '.') {
- if (ctxt->atom == NULL) {
- ctxt->atom = xmlRegNewAtom(ctxt, XML_REGEXP_ANYCHAR);
- } else if (ctxt->atom->type == XML_REGEXP_RANGES) {
- xmlRegAtomAddRange(ctxt, ctxt->atom, ctxt->neg,
- XML_REGEXP_ANYCHAR, 0, 0, NULL);
- }
- NEXT;
- return;
- }
- if (CUR != '\\') {
- ERROR("Escaped sequence: expecting \\");
- return;
- }
- NEXT;
- cur = CUR;
- if (cur == 'p') {
- NEXT;
- if (CUR != '{') {
- ERROR("Expecting '{'");
- return;
- }
- NEXT;
- xmlFAParseCharProp(ctxt);
- if (CUR != '}') {
- ERROR("Expecting '}'");
- return;
- }
- NEXT;
- } else if (cur == 'P') {
- NEXT;
- if (CUR != '{') {
- ERROR("Expecting '{'");
- return;
- }
- NEXT;
- xmlFAParseCharProp(ctxt);
- if (ctxt->atom != NULL)
- ctxt->atom->neg = 1;
- if (CUR != '}') {
- ERROR("Expecting '}'");
- return;
- }
- NEXT;
- } else if ((cur == 'n') || (cur == 'r') || (cur == 't') || (cur == '\\') ||
- (cur == '|') || (cur == '.') || (cur == '?') || (cur == '*') ||
- (cur == '+') || (cur == '(') || (cur == ')') || (cur == '{') ||
- (cur == '}') || (cur == 0x2D) || (cur == 0x5B) || (cur == 0x5D) ||
- (cur == 0x5E)) {
- if (ctxt->atom == NULL) {
- ctxt->atom = xmlRegNewAtom(ctxt, XML_REGEXP_CHARVAL);
- if (ctxt->atom != NULL) {
- switch (cur) {
- case 'n':
- ctxt->atom->codepoint = '\n';
- break;
- case 'r':
- ctxt->atom->codepoint = '\r';
- break;
- case 't':
- ctxt->atom->codepoint = '\t';
- break;
- default:
- ctxt->atom->codepoint = cur;
- }
- }
- } else if (ctxt->atom->type == XML_REGEXP_RANGES) {
- switch (cur) {
- case 'n':
- cur = '\n';
- break;
- case 'r':
- cur = '\r';
- break;
- case 't':
- cur = '\t';
- break;
- }
- xmlRegAtomAddRange(ctxt, ctxt->atom, ctxt->neg,
- XML_REGEXP_CHARVAL, cur, cur, NULL);
- }
- NEXT;
- } else if ((cur == 's') || (cur == 'S') || (cur == 'i') || (cur == 'I') ||
- (cur == 'c') || (cur == 'C') || (cur == 'd') || (cur == 'D') ||
- (cur == 'w') || (cur == 'W')) {
- xmlRegAtomType type = XML_REGEXP_ANYSPACE;
- switch (cur) {
- case 's':
- type = XML_REGEXP_ANYSPACE;
- break;
- case 'S':
- type = XML_REGEXP_NOTSPACE;
- break;
- case 'i':
- type = XML_REGEXP_INITNAME;
- break;
- case 'I':
- type = XML_REGEXP_NOTINITNAME;
- break;
- case 'c':
- type = XML_REGEXP_NAMECHAR;
- break;
- case 'C':
- type = XML_REGEXP_NOTNAMECHAR;
- break;
- case 'd':
- type = XML_REGEXP_DECIMAL;
- break;
- case 'D':
- type = XML_REGEXP_NOTDECIMAL;
- break;
- case 'w':
- type = XML_REGEXP_REALCHAR;
- break;
- case 'W':
- type = XML_REGEXP_NOTREALCHAR;
- break;
- }
- NEXT;
- if (ctxt->atom == NULL) {
- ctxt->atom = xmlRegNewAtom(ctxt, type);
- } else if (ctxt->atom->type == XML_REGEXP_RANGES) {
- xmlRegAtomAddRange(ctxt, ctxt->atom, ctxt->neg,
- type, 0, 0, NULL);
- }
- } else {
- ERROR("Wrong escape sequence, misuse of character '\\'");
- }
- }
- /**
- * xmlFAParseCharRange:
- * @ctxt: a regexp parser context
- *
- * [17] charRange ::= seRange | XmlCharRef | XmlCharIncDash
- * [18] seRange ::= charOrEsc '-' charOrEsc
- * [20] charOrEsc ::= XmlChar | SingleCharEsc
- * [21] XmlChar ::= [^\#x2D#x5B#x5D]
- * [22] XmlCharIncDash ::= [^\#x5B#x5D]
- */
- static void
- xmlFAParseCharRange(xmlRegParserCtxtPtr ctxt) {
- int cur, len;
- int start = -1;
- int end = -1;
- if (CUR == '\0') {
- ERROR("Expecting ']'");
- return;
- }
- cur = CUR;
- if (cur == '\\') {
- NEXT;
- cur = CUR;
- switch (cur) {
- case 'n': start = 0xA; break;
- case 'r': start = 0xD; break;
- case 't': start = 0x9; break;
- case '\\': case '|': case '.': case '-': case '^': case '?':
- case '*': case '+': case '{': case '}': case '(': case ')':
- case '[': case ']':
- start = cur; break;
- default:
- ERROR("Invalid escape value");
- return;
- }
- end = start;
- len = 1;
- } else if ((cur != 0x5B) && (cur != 0x5D)) {
- end = start = CUR_SCHAR(ctxt->cur, len);
- } else {
- ERROR("Expecting a char range");
- return;
- }
- /*
- * Since we are "inside" a range, we can assume ctxt->cur is past
- * the start of ctxt->string, and PREV should be safe
- */
- if ((start == '-') && (NXT(1) != ']') && (PREV != '[') && (PREV != '^')) {
- NEXTL(len);
- return;
- }
- NEXTL(len);
- cur = CUR;
- if ((cur != '-') || (NXT(1) == ']')) {
- xmlRegAtomAddRange(ctxt, ctxt->atom, ctxt->neg,
- XML_REGEXP_CHARVAL, start, end, NULL);
- return;
- }
- NEXT;
- cur = CUR;
- if (cur == '\\') {
- NEXT;
- cur = CUR;
- switch (cur) {
- case 'n': end = 0xA; break;
- case 'r': end = 0xD; break;
- case 't': end = 0x9; break;
- case '\\': case '|': case '.': case '-': case '^': case '?':
- case '*': case '+': case '{': case '}': case '(': case ')':
- case '[': case ']':
- end = cur; break;
- default:
- ERROR("Invalid escape value");
- return;
- }
- len = 1;
- } else if ((cur != '\0') && (cur != 0x5B) && (cur != 0x5D)) {
- end = CUR_SCHAR(ctxt->cur, len);
- } else {
- ERROR("Expecting the end of a char range");
- return;
- }
- /* TODO check that the values are acceptable character ranges for XML */
- if (end < start) {
- ERROR("End of range is before start of range");
- } else {
- NEXTL(len);
- xmlRegAtomAddRange(ctxt, ctxt->atom, ctxt->neg,
- XML_REGEXP_CHARVAL, start, end, NULL);
- }
- return;
- }
- /**
- * xmlFAParsePosCharGroup:
- * @ctxt: a regexp parser context
- *
- * [14] posCharGroup ::= ( charRange | charClassEsc )+
- */
- static void
- xmlFAParsePosCharGroup(xmlRegParserCtxtPtr ctxt) {
- do {
- if (CUR == '\\') {
- xmlFAParseCharClassEsc(ctxt);
- } else {
- xmlFAParseCharRange(ctxt);
- }
- } while ((CUR != ']') && (CUR != '-') &&
- (CUR != 0) && (ctxt->error == 0));
- }
- /**
- * xmlFAParseCharGroup:
- * @ctxt: a regexp parser context
- *
- * [13] charGroup ::= posCharGroup | negCharGroup | charClassSub
- * [15] negCharGroup ::= '^' posCharGroup
- * [16] charClassSub ::= ( posCharGroup | negCharGroup ) '-' charClassExpr
- * [12] charClassExpr ::= '[' charGroup ']'
- */
- static void
- xmlFAParseCharGroup(xmlRegParserCtxtPtr ctxt) {
- int neg = ctxt->neg;
- if (CUR == '^') {
- NEXT;
- ctxt->neg = !ctxt->neg;
- xmlFAParsePosCharGroup(ctxt);
- ctxt->neg = neg;
- }
- while ((CUR != ']') && (ctxt->error == 0)) {
- if ((CUR == '-') && (NXT(1) == '[')) {
- NEXT; /* eat the '-' */
- NEXT; /* eat the '[' */
- ctxt->neg = 2;
- xmlFAParseCharGroup(ctxt);
- ctxt->neg = neg;
- if (CUR == ']') {
- NEXT;
- } else {
- ERROR("charClassExpr: ']' expected");
- }
- break;
- } else {
- xmlFAParsePosCharGroup(ctxt);
- }
- }
- }
- /**
- * xmlFAParseCharClass:
- * @ctxt: a regexp parser context
- *
- * [11] charClass ::= charClassEsc | charClassExpr
- * [12] charClassExpr ::= '[' charGroup ']'
- */
- static void
- xmlFAParseCharClass(xmlRegParserCtxtPtr ctxt) {
- if (CUR == '[') {
- NEXT;
- ctxt->atom = xmlRegNewAtom(ctxt, XML_REGEXP_RANGES);
- if (ctxt->atom == NULL)
- return;
- xmlFAParseCharGroup(ctxt);
- if (CUR == ']') {
- NEXT;
- } else {
- ERROR("xmlFAParseCharClass: ']' expected");
- }
- } else {
- xmlFAParseCharClassEsc(ctxt);
- }
- }
- /**
- * xmlFAParseQuantExact:
- * @ctxt: a regexp parser context
- *
- * [8] QuantExact ::= [0-9]+
- *
- * Returns 0 if success or -1 in case of error
- */
- static int
- xmlFAParseQuantExact(xmlRegParserCtxtPtr ctxt) {
- int ret = 0;
- int ok = 0;
- int overflow = 0;
- while ((CUR >= '0') && (CUR <= '9')) {
- if (ret > INT_MAX / 10) {
- overflow = 1;
- } else {
- int digit = CUR - '0';
- ret *= 10;
- if (ret > INT_MAX - digit)
- overflow = 1;
- else
- ret += digit;
- }
- ok = 1;
- NEXT;
- }
- if ((ok != 1) || (overflow == 1)) {
- return(-1);
- }
- return(ret);
- }
- /**
- * xmlFAParseQuantifier:
- * @ctxt: a regexp parser context
- *
- * [4] quantifier ::= [?*+] | ( '{' quantity '}' )
- * [5] quantity ::= quantRange | quantMin | QuantExact
- * [6] quantRange ::= QuantExact ',' QuantExact
- * [7] quantMin ::= QuantExact ','
- * [8] QuantExact ::= [0-9]+
- */
- static int
- xmlFAParseQuantifier(xmlRegParserCtxtPtr ctxt) {
- int cur;
- cur = CUR;
- if ((cur == '?') || (cur == '*') || (cur == '+')) {
- if (ctxt->atom != NULL) {
- if (cur == '?')
- ctxt->atom->quant = XML_REGEXP_QUANT_OPT;
- else if (cur == '*')
- ctxt->atom->quant = XML_REGEXP_QUANT_MULT;
- else if (cur == '+')
- ctxt->atom->quant = XML_REGEXP_QUANT_PLUS;
- }
- NEXT;
- return(1);
- }
- if (cur == '{') {
- int min = 0, max = 0;
- NEXT;
- cur = xmlFAParseQuantExact(ctxt);
- if (cur >= 0)
- min = cur;
- else {
- ERROR("Improper quantifier");
- }
- if (CUR == ',') {
- NEXT;
- if (CUR == '}')
- max = INT_MAX;
- else {
- cur = xmlFAParseQuantExact(ctxt);
- if (cur >= 0)
- max = cur;
- else {
- ERROR("Improper quantifier");
- }
- }
- }
- if (CUR == '}') {
- NEXT;
- } else {
- ERROR("Unterminated quantifier");
- }
- if (max == 0)
- max = min;
- if (ctxt->atom != NULL) {
- ctxt->atom->quant = XML_REGEXP_QUANT_RANGE;
- ctxt->atom->min = min;
- ctxt->atom->max = max;
- }
- return(1);
- }
- return(0);
- }
- /**
- * xmlFAParseAtom:
- * @ctxt: a regexp parser context
- *
- * [9] atom ::= Char | charClass | ( '(' regExp ')' )
- */
- static int
- xmlFAParseAtom(xmlRegParserCtxtPtr ctxt) {
- int codepoint, len;
- codepoint = xmlFAIsChar(ctxt);
- if (codepoint > 0) {
- ctxt->atom = xmlRegNewAtom(ctxt, XML_REGEXP_CHARVAL);
- if (ctxt->atom == NULL)
- return(-1);
- codepoint = CUR_SCHAR(ctxt->cur, len);
- ctxt->atom->codepoint = codepoint;
- NEXTL(len);
- return(1);
- } else if (CUR == '|') {
- return(0);
- } else if (CUR == 0) {
- return(0);
- } else if (CUR == ')') {
- return(0);
- } else if (CUR == '(') {
- xmlRegStatePtr start, oldend, start0;
- NEXT;
- if (ctxt->depth >= 50) {
- ERROR("xmlFAParseAtom: maximum nesting depth exceeded");
- return(-1);
- }
- /*
- * this extra Epsilon transition is needed if we count with 0 allowed
- * unfortunately this can't be known at that point
- */
- xmlFAGenerateEpsilonTransition(ctxt, ctxt->state, NULL);
- start0 = ctxt->state;
- xmlFAGenerateEpsilonTransition(ctxt, ctxt->state, NULL);
- start = ctxt->state;
- oldend = ctxt->end;
- ctxt->end = NULL;
- ctxt->atom = NULL;
- ctxt->depth++;
- xmlFAParseRegExp(ctxt, 0);
- ctxt->depth--;
- if (CUR == ')') {
- NEXT;
- } else {
- ERROR("xmlFAParseAtom: expecting ')'");
- }
- ctxt->atom = xmlRegNewAtom(ctxt, XML_REGEXP_SUBREG);
- if (ctxt->atom == NULL)
- return(-1);
- ctxt->atom->start = start;
- ctxt->atom->start0 = start0;
- ctxt->atom->stop = ctxt->state;
- ctxt->end = oldend;
- return(1);
- } else if ((CUR == '[') || (CUR == '\\') || (CUR == '.')) {
- xmlFAParseCharClass(ctxt);
- return(1);
- }
- return(0);
- }
- /**
- * xmlFAParsePiece:
- * @ctxt: a regexp parser context
- *
- * [3] piece ::= atom quantifier?
- */
- static int
- xmlFAParsePiece(xmlRegParserCtxtPtr ctxt) {
- int ret;
- ctxt->atom = NULL;
- ret = xmlFAParseAtom(ctxt);
- if (ret == 0)
- return(0);
- if (ctxt->atom == NULL) {
- ERROR("internal: no atom generated");
- }
- xmlFAParseQuantifier(ctxt);
- return(1);
- }
- /**
- * xmlFAParseBranch:
- * @ctxt: a regexp parser context
- * @to: optional target to the end of the branch
- *
- * @to is used to optimize by removing duplicate path in automata
- * in expressions like (a|b)(c|d)
- *
- * [2] branch ::= piece*
- */
- static int
- xmlFAParseBranch(xmlRegParserCtxtPtr ctxt, xmlRegStatePtr to) {
- xmlRegStatePtr previous;
- int ret;
- previous = ctxt->state;
- ret = xmlFAParsePiece(ctxt);
- if (ret == 0) {
- /* Empty branch */
- xmlFAGenerateEpsilonTransition(ctxt, previous, to);
- } else {
- if (xmlFAGenerateTransitions(ctxt, previous,
- (CUR=='|' || CUR==')' || CUR==0) ? to : NULL, ctxt->atom) < 0)
- return(-1);
- previous = ctxt->state;
- ctxt->atom = NULL;
- }
- while ((ret != 0) && (ctxt->error == 0)) {
- ret = xmlFAParsePiece(ctxt);
- if (ret != 0) {
- if (xmlFAGenerateTransitions(ctxt, previous,
- (CUR=='|' || CUR==')' || CUR==0) ? to : NULL,
- ctxt->atom) < 0)
- return(-1);
- previous = ctxt->state;
- ctxt->atom = NULL;
- }
- }
- return(0);
- }
- /**
- * xmlFAParseRegExp:
- * @ctxt: a regexp parser context
- * @top: is this the top-level expression ?
- *
- * [1] regExp ::= branch ( '|' branch )*
- */
- static void
- xmlFAParseRegExp(xmlRegParserCtxtPtr ctxt, int top) {
- xmlRegStatePtr start, end;
- /* if not top start should have been generated by an epsilon trans */
- start = ctxt->state;
- ctxt->end = NULL;
- xmlFAParseBranch(ctxt, NULL);
- if (top) {
- #ifdef DEBUG_REGEXP_GRAPH
- printf("State %d is final\n", ctxt->state->no);
- #endif
- ctxt->state->type = XML_REGEXP_FINAL_STATE;
- }
- if (CUR != '|') {
- ctxt->end = ctxt->state;
- return;
- }
- end = ctxt->state;
- while ((CUR == '|') && (ctxt->error == 0)) {
- NEXT;
- ctxt->state = start;
- ctxt->end = NULL;
- xmlFAParseBranch(ctxt, end);
- }
- if (!top) {
- ctxt->state = end;
- ctxt->end = end;
- }
- }
- /************************************************************************
- * *
- * The basic API *
- * *
- ************************************************************************/
- /**
- * xmlRegexpPrint:
- * @output: the file for the output debug
- * @regexp: the compiled regexp
- *
- * Print the content of the compiled regular expression
- */
- void
- xmlRegexpPrint(FILE *output, xmlRegexpPtr regexp) {
- int i;
- if (output == NULL)
- return;
- fprintf(output, " regexp: ");
- if (regexp == NULL) {
- fprintf(output, "NULL\n");
- return;
- }
- fprintf(output, "'%s' ", regexp->string);
- fprintf(output, "\n");
- fprintf(output, "%d atoms:\n", regexp->nbAtoms);
- for (i = 0;i < regexp->nbAtoms; i++) {
- fprintf(output, " %02d ", i);
- xmlRegPrintAtom(output, regexp->atoms[i]);
- }
- fprintf(output, "%d states:", regexp->nbStates);
- fprintf(output, "\n");
- for (i = 0;i < regexp->nbStates; i++) {
- xmlRegPrintState(output, regexp->states[i]);
- }
- fprintf(output, "%d counters:\n", regexp->nbCounters);
- for (i = 0;i < regexp->nbCounters; i++) {
- fprintf(output, " %d: min %d max %d\n", i, regexp->counters[i].min,
- regexp->counters[i].max);
- }
- }
- /**
- * xmlRegexpCompile:
- * @regexp: a regular expression string
- *
- * Parses a regular expression conforming to XML Schemas Part 2 Datatype
- * Appendix F and builds an automata suitable for testing strings against
- * that regular expression
- *
- * Returns the compiled expression or NULL in case of error
- */
- xmlRegexpPtr
- xmlRegexpCompile(const xmlChar *regexp) {
- xmlRegexpPtr ret;
- xmlRegParserCtxtPtr ctxt;
- ctxt = xmlRegNewParserCtxt(regexp);
- if (ctxt == NULL)
- return(NULL);
- /* initialize the parser */
- ctxt->end = NULL;
- ctxt->start = ctxt->state = xmlRegNewState(ctxt);
- xmlRegStatePush(ctxt, ctxt->start);
- /* parse the expression building an automata */
- xmlFAParseRegExp(ctxt, 1);
- if (CUR != 0) {
- ERROR("xmlFAParseRegExp: extra characters");
- }
- if (ctxt->error != 0) {
- xmlRegFreeParserCtxt(ctxt);
- return(NULL);
- }
- ctxt->end = ctxt->state;
- ctxt->start->type = XML_REGEXP_START_STATE;
- ctxt->end->type = XML_REGEXP_FINAL_STATE;
- /* remove the Epsilon except for counted transitions */
- xmlFAEliminateEpsilonTransitions(ctxt);
- if (ctxt->error != 0) {
- xmlRegFreeParserCtxt(ctxt);
- return(NULL);
- }
- ret = xmlRegEpxFromParse(ctxt);
- xmlRegFreeParserCtxt(ctxt);
- return(ret);
- }
- /**
- * xmlRegexpExec:
- * @comp: the compiled regular expression
- * @content: the value to check against the regular expression
- *
- * Check if the regular expression generates the value
- *
- * Returns 1 if it matches, 0 if not and a negative value in case of error
- */
- int
- xmlRegexpExec(xmlRegexpPtr comp, const xmlChar *content) {
- if ((comp == NULL) || (content == NULL))
- return(-1);
- return(xmlFARegExec(comp, content));
- }
- /**
- * xmlRegexpIsDeterminist:
- * @comp: the compiled regular expression
- *
- * Check if the regular expression is determinist
- *
- * Returns 1 if it yes, 0 if not and a negative value in case of error
- */
- int
- xmlRegexpIsDeterminist(xmlRegexpPtr comp) {
- xmlAutomataPtr am;
- int ret;
- if (comp == NULL)
- return(-1);
- if (comp->determinist != -1)
- return(comp->determinist);
- am = xmlNewAutomata();
- if (am == NULL)
- return(-1);
- if (am->states != NULL) {
- int i;
- for (i = 0;i < am->nbStates;i++)
- xmlRegFreeState(am->states[i]);
- xmlFree(am->states);
- }
- am->nbAtoms = comp->nbAtoms;
- am->atoms = comp->atoms;
- am->nbStates = comp->nbStates;
- am->states = comp->states;
- am->determinist = -1;
- am->flags = comp->flags;
- ret = xmlFAComputesDeterminism(am);
- am->atoms = NULL;
- am->states = NULL;
- xmlFreeAutomata(am);
- comp->determinist = ret;
- return(ret);
- }
- /**
- * xmlRegFreeRegexp:
- * @regexp: the regexp
- *
- * Free a regexp
- */
- void
- xmlRegFreeRegexp(xmlRegexpPtr regexp) {
- int i;
- if (regexp == NULL)
- return;
- if (regexp->string != NULL)
- xmlFree(regexp->string);
- if (regexp->states != NULL) {
- for (i = 0;i < regexp->nbStates;i++)
- xmlRegFreeState(regexp->states[i]);
- xmlFree(regexp->states);
- }
- if (regexp->atoms != NULL) {
- for (i = 0;i < regexp->nbAtoms;i++)
- xmlRegFreeAtom(regexp->atoms[i]);
- xmlFree(regexp->atoms);
- }
- if (regexp->counters != NULL)
- xmlFree(regexp->counters);
- if (regexp->compact != NULL)
- xmlFree(regexp->compact);
- if (regexp->transdata != NULL)
- xmlFree(regexp->transdata);
- if (regexp->stringMap != NULL) {
- for (i = 0; i < regexp->nbstrings;i++)
- xmlFree(regexp->stringMap[i]);
- xmlFree(regexp->stringMap);
- }
- xmlFree(regexp);
- }
- #ifdef LIBXML_AUTOMATA_ENABLED
- /************************************************************************
- * *
- * The Automata interface *
- * *
- ************************************************************************/
- /**
- * xmlNewAutomata:
- *
- * Create a new automata
- *
- * Returns the new object or NULL in case of failure
- */
- xmlAutomataPtr
- xmlNewAutomata(void) {
- xmlAutomataPtr ctxt;
- ctxt = xmlRegNewParserCtxt(NULL);
- if (ctxt == NULL)
- return(NULL);
- /* initialize the parser */
- ctxt->end = NULL;
- ctxt->start = ctxt->state = xmlRegNewState(ctxt);
- if (ctxt->start == NULL) {
- xmlFreeAutomata(ctxt);
- return(NULL);
- }
- ctxt->start->type = XML_REGEXP_START_STATE;
- if (xmlRegStatePush(ctxt, ctxt->start) < 0) {
- xmlRegFreeState(ctxt->start);
- xmlFreeAutomata(ctxt);
- return(NULL);
- }
- ctxt->flags = 0;
- return(ctxt);
- }
- /**
- * xmlFreeAutomata:
- * @am: an automata
- *
- * Free an automata
- */
- void
- xmlFreeAutomata(xmlAutomataPtr am) {
- if (am == NULL)
- return;
- xmlRegFreeParserCtxt(am);
- }
- /**
- * xmlAutomataSetFlags:
- * @am: an automata
- * @flags: a set of internal flags
- *
- * Set some flags on the automata
- */
- void
- xmlAutomataSetFlags(xmlAutomataPtr am, int flags) {
- if (am == NULL)
- return;
- am->flags |= flags;
- }
- /**
- * xmlAutomataGetInitState:
- * @am: an automata
- *
- * Initial state lookup
- *
- * Returns the initial state of the automata
- */
- xmlAutomataStatePtr
- xmlAutomataGetInitState(xmlAutomataPtr am) {
- if (am == NULL)
- return(NULL);
- return(am->start);
- }
- /**
- * xmlAutomataSetFinalState:
- * @am: an automata
- * @state: a state in this automata
- *
- * Makes that state a final state
- *
- * Returns 0 or -1 in case of error
- */
- int
- xmlAutomataSetFinalState(xmlAutomataPtr am, xmlAutomataStatePtr state) {
- if ((am == NULL) || (state == NULL))
- return(-1);
- state->type = XML_REGEXP_FINAL_STATE;
- return(0);
- }
- /**
- * xmlAutomataNewTransition:
- * @am: an automata
- * @from: the starting point of the transition
- * @to: the target point of the transition or NULL
- * @token: the input string associated to that transition
- * @data: data passed to the callback function if the transition is activated
- *
- * If @to is NULL, this creates first a new target state in the automata
- * and then adds a transition from the @from state to the target state
- * activated by the value of @token
- *
- * Returns the target state or NULL in case of error
- */
- xmlAutomataStatePtr
- xmlAutomataNewTransition(xmlAutomataPtr am, xmlAutomataStatePtr from,
- xmlAutomataStatePtr to, const xmlChar *token,
- void *data) {
- xmlRegAtomPtr atom;
- if ((am == NULL) || (from == NULL) || (token == NULL))
- return(NULL);
- atom = xmlRegNewAtom(am, XML_REGEXP_STRING);
- if (atom == NULL)
- return(NULL);
- atom->data = data;
- atom->valuep = xmlStrdup(token);
- if (xmlFAGenerateTransitions(am, from, to, atom) < 0) {
- xmlRegFreeAtom(atom);
- return(NULL);
- }
- if (to == NULL)
- return(am->state);
- return(to);
- }
- /**
- * xmlAutomataNewTransition2:
- * @am: an automata
- * @from: the starting point of the transition
- * @to: the target point of the transition or NULL
- * @token: the first input string associated to that transition
- * @token2: the second input string associated to that transition
- * @data: data passed to the callback function if the transition is activated
- *
- * If @to is NULL, this creates first a new target state in the automata
- * and then adds a transition from the @from state to the target state
- * activated by the value of @token
- *
- * Returns the target state or NULL in case of error
- */
- xmlAutomataStatePtr
- xmlAutomataNewTransition2(xmlAutomataPtr am, xmlAutomataStatePtr from,
- xmlAutomataStatePtr to, const xmlChar *token,
- const xmlChar *token2, void *data) {
- xmlRegAtomPtr atom;
- if ((am == NULL) || (from == NULL) || (token == NULL))
- return(NULL);
- atom = xmlRegNewAtom(am, XML_REGEXP_STRING);
- if (atom == NULL)
- return(NULL);
- atom->data = data;
- if ((token2 == NULL) || (*token2 == 0)) {
- atom->valuep = xmlStrdup(token);
- } else {
- int lenn, lenp;
- xmlChar *str;
- lenn = strlen((char *) token2);
- lenp = strlen((char *) token);
- str = (xmlChar *) xmlMallocAtomic(lenn + lenp + 2);
- if (str == NULL) {
- xmlRegFreeAtom(atom);
- return(NULL);
- }
- memcpy(&str[0], token, lenp);
- str[lenp] = '|';
- memcpy(&str[lenp + 1], token2, lenn);
- str[lenn + lenp + 1] = 0;
- atom->valuep = str;
- }
- if (xmlFAGenerateTransitions(am, from, to, atom) < 0) {
- xmlRegFreeAtom(atom);
- return(NULL);
- }
- if (to == NULL)
- return(am->state);
- return(to);
- }
- /**
- * xmlAutomataNewNegTrans:
- * @am: an automata
- * @from: the starting point of the transition
- * @to: the target point of the transition or NULL
- * @token: the first input string associated to that transition
- * @token2: the second input string associated to that transition
- * @data: data passed to the callback function if the transition is activated
- *
- * If @to is NULL, this creates first a new target state in the automata
- * and then adds a transition from the @from state to the target state
- * activated by any value except (@token,@token2)
- * Note that if @token2 is not NULL, then (X, NULL) won't match to follow
- # the semantic of XSD ##other
- *
- * Returns the target state or NULL in case of error
- */
- xmlAutomataStatePtr
- xmlAutomataNewNegTrans(xmlAutomataPtr am, xmlAutomataStatePtr from,
- xmlAutomataStatePtr to, const xmlChar *token,
- const xmlChar *token2, void *data) {
- xmlRegAtomPtr atom;
- xmlChar err_msg[200];
- if ((am == NULL) || (from == NULL) || (token == NULL))
- return(NULL);
- atom = xmlRegNewAtom(am, XML_REGEXP_STRING);
- if (atom == NULL)
- return(NULL);
- atom->data = data;
- atom->neg = 1;
- if ((token2 == NULL) || (*token2 == 0)) {
- atom->valuep = xmlStrdup(token);
- } else {
- int lenn, lenp;
- xmlChar *str;
- lenn = strlen((char *) token2);
- lenp = strlen((char *) token);
- str = (xmlChar *) xmlMallocAtomic(lenn + lenp + 2);
- if (str == NULL) {
- xmlRegFreeAtom(atom);
- return(NULL);
- }
- memcpy(&str[0], token, lenp);
- str[lenp] = '|';
- memcpy(&str[lenp + 1], token2, lenn);
- str[lenn + lenp + 1] = 0;
- atom->valuep = str;
- }
- snprintf((char *) err_msg, 199, "not %s", (const char *) atom->valuep);
- err_msg[199] = 0;
- atom->valuep2 = xmlStrdup(err_msg);
- if (xmlFAGenerateTransitions(am, from, to, atom) < 0) {
- xmlRegFreeAtom(atom);
- return(NULL);
- }
- am->negs++;
- if (to == NULL)
- return(am->state);
- return(to);
- }
- /**
- * xmlAutomataNewCountTrans2:
- * @am: an automata
- * @from: the starting point of the transition
- * @to: the target point of the transition or NULL
- * @token: the input string associated to that transition
- * @token2: the second input string associated to that transition
- * @min: the minimum successive occurrences of token
- * @max: the maximum successive occurrences of token
- * @data: data associated to the transition
- *
- * If @to is NULL, this creates first a new target state in the automata
- * and then adds a transition from the @from state to the target state
- * activated by a succession of input of value @token and @token2 and
- * whose number is between @min and @max
- *
- * Returns the target state or NULL in case of error
- */
- xmlAutomataStatePtr
- xmlAutomataNewCountTrans2(xmlAutomataPtr am, xmlAutomataStatePtr from,
- xmlAutomataStatePtr to, const xmlChar *token,
- const xmlChar *token2,
- int min, int max, void *data) {
- xmlRegAtomPtr atom;
- int counter;
- if ((am == NULL) || (from == NULL) || (token == NULL))
- return(NULL);
- if (min < 0)
- return(NULL);
- if ((max < min) || (max < 1))
- return(NULL);
- atom = xmlRegNewAtom(am, XML_REGEXP_STRING);
- if (atom == NULL)
- return(NULL);
- if ((token2 == NULL) || (*token2 == 0)) {
- atom->valuep = xmlStrdup(token);
- } else {
- int lenn, lenp;
- xmlChar *str;
- lenn = strlen((char *) token2);
- lenp = strlen((char *) token);
- str = (xmlChar *) xmlMallocAtomic(lenn + lenp + 2);
- if (str == NULL) {
- xmlRegFreeAtom(atom);
- return(NULL);
- }
- memcpy(&str[0], token, lenp);
- str[lenp] = '|';
- memcpy(&str[lenp + 1], token2, lenn);
- str[lenn + lenp + 1] = 0;
- atom->valuep = str;
- }
- atom->data = data;
- if (min == 0)
- atom->min = 1;
- else
- atom->min = min;
- atom->max = max;
- /*
- * associate a counter to the transition.
- */
- counter = xmlRegGetCounter(am);
- am->counters[counter].min = min;
- am->counters[counter].max = max;
- /* xmlFAGenerateTransitions(am, from, to, atom); */
- if (to == NULL) {
- to = xmlRegNewState(am);
- xmlRegStatePush(am, to);
- }
- xmlRegStateAddTrans(am, from, atom, to, counter, -1);
- xmlRegAtomPush(am, atom);
- am->state = to;
- if (to == NULL)
- to = am->state;
- if (to == NULL)
- return(NULL);
- if (min == 0)
- xmlFAGenerateEpsilonTransition(am, from, to);
- return(to);
- }
- /**
- * xmlAutomataNewCountTrans:
- * @am: an automata
- * @from: the starting point of the transition
- * @to: the target point of the transition or NULL
- * @token: the input string associated to that transition
- * @min: the minimum successive occurrences of token
- * @max: the maximum successive occurrences of token
- * @data: data associated to the transition
- *
- * If @to is NULL, this creates first a new target state in the automata
- * and then adds a transition from the @from state to the target state
- * activated by a succession of input of value @token and whose number
- * is between @min and @max
- *
- * Returns the target state or NULL in case of error
- */
- xmlAutomataStatePtr
- xmlAutomataNewCountTrans(xmlAutomataPtr am, xmlAutomataStatePtr from,
- xmlAutomataStatePtr to, const xmlChar *token,
- int min, int max, void *data) {
- xmlRegAtomPtr atom;
- int counter;
- if ((am == NULL) || (from == NULL) || (token == NULL))
- return(NULL);
- if (min < 0)
- return(NULL);
- if ((max < min) || (max < 1))
- return(NULL);
- atom = xmlRegNewAtom(am, XML_REGEXP_STRING);
- if (atom == NULL)
- return(NULL);
- atom->valuep = xmlStrdup(token);
- atom->data = data;
- if (min == 0)
- atom->min = 1;
- else
- atom->min = min;
- atom->max = max;
- /*
- * associate a counter to the transition.
- */
- counter = xmlRegGetCounter(am);
- am->counters[counter].min = min;
- am->counters[counter].max = max;
- /* xmlFAGenerateTransitions(am, from, to, atom); */
- if (to == NULL) {
- to = xmlRegNewState(am);
- xmlRegStatePush(am, to);
- }
- xmlRegStateAddTrans(am, from, atom, to, counter, -1);
- xmlRegAtomPush(am, atom);
- am->state = to;
- if (to == NULL)
- to = am->state;
- if (to == NULL)
- return(NULL);
- if (min == 0)
- xmlFAGenerateEpsilonTransition(am, from, to);
- return(to);
- }
- /**
- * xmlAutomataNewOnceTrans2:
- * @am: an automata
- * @from: the starting point of the transition
- * @to: the target point of the transition or NULL
- * @token: the input string associated to that transition
- * @token2: the second input string associated to that transition
- * @min: the minimum successive occurrences of token
- * @max: the maximum successive occurrences of token
- * @data: data associated to the transition
- *
- * If @to is NULL, this creates first a new target state in the automata
- * and then adds a transition from the @from state to the target state
- * activated by a succession of input of value @token and @token2 and whose
- * number is between @min and @max, moreover that transition can only be
- * crossed once.
- *
- * Returns the target state or NULL in case of error
- */
- xmlAutomataStatePtr
- xmlAutomataNewOnceTrans2(xmlAutomataPtr am, xmlAutomataStatePtr from,
- xmlAutomataStatePtr to, const xmlChar *token,
- const xmlChar *token2,
- int min, int max, void *data) {
- xmlRegAtomPtr atom;
- int counter;
- if ((am == NULL) || (from == NULL) || (token == NULL))
- return(NULL);
- if (min < 1)
- return(NULL);
- if (max < min)
- return(NULL);
- atom = xmlRegNewAtom(am, XML_REGEXP_STRING);
- if (atom == NULL)
- return(NULL);
- if ((token2 == NULL) || (*token2 == 0)) {
- atom->valuep = xmlStrdup(token);
- } else {
- int lenn, lenp;
- xmlChar *str;
- lenn = strlen((char *) token2);
- lenp = strlen((char *) token);
- str = (xmlChar *) xmlMallocAtomic(lenn + lenp + 2);
- if (str == NULL) {
- xmlRegFreeAtom(atom);
- return(NULL);
- }
- memcpy(&str[0], token, lenp);
- str[lenp] = '|';
- memcpy(&str[lenp + 1], token2, lenn);
- str[lenn + lenp + 1] = 0;
- atom->valuep = str;
- }
- atom->data = data;
- atom->quant = XML_REGEXP_QUANT_ONCEONLY;
- atom->min = min;
- atom->max = max;
- /*
- * associate a counter to the transition.
- */
- counter = xmlRegGetCounter(am);
- am->counters[counter].min = 1;
- am->counters[counter].max = 1;
- /* xmlFAGenerateTransitions(am, from, to, atom); */
- if (to == NULL) {
- to = xmlRegNewState(am);
- xmlRegStatePush(am, to);
- }
- xmlRegStateAddTrans(am, from, atom, to, counter, -1);
- xmlRegAtomPush(am, atom);
- am->state = to;
- return(to);
- }
- /**
- * xmlAutomataNewOnceTrans:
- * @am: an automata
- * @from: the starting point of the transition
- * @to: the target point of the transition or NULL
- * @token: the input string associated to that transition
- * @min: the minimum successive occurrences of token
- * @max: the maximum successive occurrences of token
- * @data: data associated to the transition
- *
- * If @to is NULL, this creates first a new target state in the automata
- * and then adds a transition from the @from state to the target state
- * activated by a succession of input of value @token and whose number
- * is between @min and @max, moreover that transition can only be crossed
- * once.
- *
- * Returns the target state or NULL in case of error
- */
- xmlAutomataStatePtr
- xmlAutomataNewOnceTrans(xmlAutomataPtr am, xmlAutomataStatePtr from,
- xmlAutomataStatePtr to, const xmlChar *token,
- int min, int max, void *data) {
- xmlRegAtomPtr atom;
- int counter;
- if ((am == NULL) || (from == NULL) || (token == NULL))
- return(NULL);
- if (min < 1)
- return(NULL);
- if (max < min)
- return(NULL);
- atom = xmlRegNewAtom(am, XML_REGEXP_STRING);
- if (atom == NULL)
- return(NULL);
- atom->valuep = xmlStrdup(token);
- atom->data = data;
- atom->quant = XML_REGEXP_QUANT_ONCEONLY;
- atom->min = min;
- atom->max = max;
- /*
- * associate a counter to the transition.
- */
- counter = xmlRegGetCounter(am);
- am->counters[counter].min = 1;
- am->counters[counter].max = 1;
- /* xmlFAGenerateTransitions(am, from, to, atom); */
- if (to == NULL) {
- to = xmlRegNewState(am);
- xmlRegStatePush(am, to);
- }
- xmlRegStateAddTrans(am, from, atom, to, counter, -1);
- xmlRegAtomPush(am, atom);
- am->state = to;
- return(to);
- }
- /**
- * xmlAutomataNewState:
- * @am: an automata
- *
- * Create a new disconnected state in the automata
- *
- * Returns the new state or NULL in case of error
- */
- xmlAutomataStatePtr
- xmlAutomataNewState(xmlAutomataPtr am) {
- xmlAutomataStatePtr to;
- if (am == NULL)
- return(NULL);
- to = xmlRegNewState(am);
- xmlRegStatePush(am, to);
- return(to);
- }
- /**
- * xmlAutomataNewEpsilon:
- * @am: an automata
- * @from: the starting point of the transition
- * @to: the target point of the transition or NULL
- *
- * If @to is NULL, this creates first a new target state in the automata
- * and then adds an epsilon transition from the @from state to the
- * target state
- *
- * Returns the target state or NULL in case of error
- */
- xmlAutomataStatePtr
- xmlAutomataNewEpsilon(xmlAutomataPtr am, xmlAutomataStatePtr from,
- xmlAutomataStatePtr to) {
- if ((am == NULL) || (from == NULL))
- return(NULL);
- xmlFAGenerateEpsilonTransition(am, from, to);
- if (to == NULL)
- return(am->state);
- return(to);
- }
- /**
- * xmlAutomataNewAllTrans:
- * @am: an automata
- * @from: the starting point of the transition
- * @to: the target point of the transition or NULL
- * @lax: allow to transition if not all all transitions have been activated
- *
- * If @to is NULL, this creates first a new target state in the automata
- * and then adds a an ALL transition from the @from state to the
- * target state. That transition is an epsilon transition allowed only when
- * all transitions from the @from node have been activated.
- *
- * Returns the target state or NULL in case of error
- */
- xmlAutomataStatePtr
- xmlAutomataNewAllTrans(xmlAutomataPtr am, xmlAutomataStatePtr from,
- xmlAutomataStatePtr to, int lax) {
- if ((am == NULL) || (from == NULL))
- return(NULL);
- xmlFAGenerateAllTransition(am, from, to, lax);
- if (to == NULL)
- return(am->state);
- return(to);
- }
- /**
- * xmlAutomataNewCounter:
- * @am: an automata
- * @min: the minimal value on the counter
- * @max: the maximal value on the counter
- *
- * Create a new counter
- *
- * Returns the counter number or -1 in case of error
- */
- int
- xmlAutomataNewCounter(xmlAutomataPtr am, int min, int max) {
- int ret;
- if (am == NULL)
- return(-1);
- ret = xmlRegGetCounter(am);
- if (ret < 0)
- return(-1);
- am->counters[ret].min = min;
- am->counters[ret].max = max;
- return(ret);
- }
- /**
- * xmlAutomataNewCountedTrans:
- * @am: an automata
- * @from: the starting point of the transition
- * @to: the target point of the transition or NULL
- * @counter: the counter associated to that transition
- *
- * If @to is NULL, this creates first a new target state in the automata
- * and then adds an epsilon transition from the @from state to the target state
- * which will increment the counter provided
- *
- * Returns the target state or NULL in case of error
- */
- xmlAutomataStatePtr
- xmlAutomataNewCountedTrans(xmlAutomataPtr am, xmlAutomataStatePtr from,
- xmlAutomataStatePtr to, int counter) {
- if ((am == NULL) || (from == NULL) || (counter < 0))
- return(NULL);
- xmlFAGenerateCountedEpsilonTransition(am, from, to, counter);
- if (to == NULL)
- return(am->state);
- return(to);
- }
- /**
- * xmlAutomataNewCounterTrans:
- * @am: an automata
- * @from: the starting point of the transition
- * @to: the target point of the transition or NULL
- * @counter: the counter associated to that transition
- *
- * If @to is NULL, this creates first a new target state in the automata
- * and then adds an epsilon transition from the @from state to the target state
- * which will be allowed only if the counter is within the right range.
- *
- * Returns the target state or NULL in case of error
- */
- xmlAutomataStatePtr
- xmlAutomataNewCounterTrans(xmlAutomataPtr am, xmlAutomataStatePtr from,
- xmlAutomataStatePtr to, int counter) {
- if ((am == NULL) || (from == NULL) || (counter < 0))
- return(NULL);
- xmlFAGenerateCountedTransition(am, from, to, counter);
- if (to == NULL)
- return(am->state);
- return(to);
- }
- /**
- * xmlAutomataCompile:
- * @am: an automata
- *
- * Compile the automata into a Reg Exp ready for being executed.
- * The automata should be free after this point.
- *
- * Returns the compiled regexp or NULL in case of error
- */
- xmlRegexpPtr
- xmlAutomataCompile(xmlAutomataPtr am) {
- xmlRegexpPtr ret;
- if ((am == NULL) || (am->error != 0)) return(NULL);
- xmlFAEliminateEpsilonTransitions(am);
- /* xmlFAComputesDeterminism(am); */
- ret = xmlRegEpxFromParse(am);
- return(ret);
- }
- /**
- * xmlAutomataIsDeterminist:
- * @am: an automata
- *
- * Checks if an automata is determinist.
- *
- * Returns 1 if true, 0 if not, and -1 in case of error
- */
- int
- xmlAutomataIsDeterminist(xmlAutomataPtr am) {
- int ret;
- if (am == NULL)
- return(-1);
- ret = xmlFAComputesDeterminism(am);
- return(ret);
- }
- #endif /* LIBXML_AUTOMATA_ENABLED */
- #ifdef LIBXML_EXPR_ENABLED
- /************************************************************************
- * *
- * Formal Expression handling code *
- * *
- ************************************************************************/
- /************************************************************************
- * *
- * Expression handling context *
- * *
- ************************************************************************/
- struct _xmlExpCtxt {
- xmlDictPtr dict;
- xmlExpNodePtr *table;
- int size;
- int nbElems;
- int nb_nodes;
- int maxNodes;
- const char *expr;
- const char *cur;
- int nb_cons;
- int tabSize;
- };
- /**
- * xmlExpNewCtxt:
- * @maxNodes: the maximum number of nodes
- * @dict: optional dictionary to use internally
- *
- * Creates a new context for manipulating expressions
- *
- * Returns the context or NULL in case of error
- */
- xmlExpCtxtPtr
- xmlExpNewCtxt(int maxNodes, xmlDictPtr dict) {
- xmlExpCtxtPtr ret;
- int size = 256;
- if (maxNodes <= 4096)
- maxNodes = 4096;
- ret = (xmlExpCtxtPtr) xmlMalloc(sizeof(xmlExpCtxt));
- if (ret == NULL)
- return(NULL);
- memset(ret, 0, sizeof(xmlExpCtxt));
- ret->size = size;
- ret->nbElems = 0;
- ret->maxNodes = maxNodes;
- ret->table = xmlMalloc(size * sizeof(xmlExpNodePtr));
- if (ret->table == NULL) {
- xmlFree(ret);
- return(NULL);
- }
- memset(ret->table, 0, size * sizeof(xmlExpNodePtr));
- if (dict == NULL) {
- ret->dict = xmlDictCreate();
- if (ret->dict == NULL) {
- xmlFree(ret->table);
- xmlFree(ret);
- return(NULL);
- }
- } else {
- ret->dict = dict;
- xmlDictReference(ret->dict);
- }
- return(ret);
- }
- /**
- * xmlExpFreeCtxt:
- * @ctxt: an expression context
- *
- * Free an expression context
- */
- void
- xmlExpFreeCtxt(xmlExpCtxtPtr ctxt) {
- if (ctxt == NULL)
- return;
- xmlDictFree(ctxt->dict);
- if (ctxt->table != NULL)
- xmlFree(ctxt->table);
- xmlFree(ctxt);
- }
- /************************************************************************
- * *
- * Structure associated to an expression node *
- * *
- ************************************************************************/
- #define MAX_NODES 10000
- /* #define DEBUG_DERIV */
- /*
- * TODO:
- * - Wildcards
- * - public API for creation
- *
- * Started
- * - regression testing
- *
- * Done
- * - split into module and test tool
- * - memleaks
- */
- typedef enum {
- XML_EXP_NILABLE = (1 << 0)
- } xmlExpNodeInfo;
- #define IS_NILLABLE(node) ((node)->info & XML_EXP_NILABLE)
- struct _xmlExpNode {
- unsigned char type;/* xmlExpNodeType */
- unsigned char info;/* OR of xmlExpNodeInfo */
- unsigned short key; /* the hash key */
- unsigned int ref; /* The number of references */
- int c_max; /* the maximum length it can consume */
- xmlExpNodePtr exp_left;
- xmlExpNodePtr next;/* the next node in the hash table or free list */
- union {
- struct {
- int f_min;
- int f_max;
- } count;
- struct {
- xmlExpNodePtr f_right;
- } children;
- const xmlChar *f_str;
- } field;
- };
- #define exp_min field.count.f_min
- #define exp_max field.count.f_max
- /* #define exp_left field.children.f_left */
- #define exp_right field.children.f_right
- #define exp_str field.f_str
- static xmlExpNodePtr xmlExpNewNode(xmlExpCtxtPtr ctxt, xmlExpNodeType type);
- static xmlExpNode forbiddenExpNode = {
- XML_EXP_FORBID, 0, 0, 0, 0, NULL, NULL, {{ 0, 0}}
- };
- xmlExpNodePtr forbiddenExp = &forbiddenExpNode;
- static xmlExpNode emptyExpNode = {
- XML_EXP_EMPTY, 1, 0, 0, 0, NULL, NULL, {{ 0, 0}}
- };
- xmlExpNodePtr emptyExp = &emptyExpNode;
- /************************************************************************
- * *
- * The custom hash table for unicity and canonicalization *
- * of sub-expressions pointers *
- * *
- ************************************************************************/
- /*
- * xmlExpHashNameComputeKey:
- * Calculate the hash key for a token
- */
- static unsigned short
- xmlExpHashNameComputeKey(const xmlChar *name) {
- unsigned short value = 0L;
- char ch;
- if (name != NULL) {
- value += 30 * (*name);
- while ((ch = *name++) != 0) {
- value = value ^ ((value << 5) + (value >> 3) + (unsigned long)ch);
- }
- }
- return (value);
- }
- /*
- * xmlExpHashComputeKey:
- * Calculate the hash key for a compound expression
- */
- static unsigned short
- xmlExpHashComputeKey(xmlExpNodeType type, xmlExpNodePtr left,
- xmlExpNodePtr right) {
- unsigned long value;
- unsigned short ret;
- switch (type) {
- case XML_EXP_SEQ:
- value = left->key;
- value += right->key;
- value *= 3;
- ret = (unsigned short) value;
- break;
- case XML_EXP_OR:
- value = left->key;
- value += right->key;
- value *= 7;
- ret = (unsigned short) value;
- break;
- case XML_EXP_COUNT:
- value = left->key;
- value += right->key;
- ret = (unsigned short) value;
- break;
- default:
- ret = 0;
- }
- return(ret);
- }
- static xmlExpNodePtr
- xmlExpNewNode(xmlExpCtxtPtr ctxt, xmlExpNodeType type) {
- xmlExpNodePtr ret;
- if (ctxt->nb_nodes >= MAX_NODES)
- return(NULL);
- ret = (xmlExpNodePtr) xmlMalloc(sizeof(xmlExpNode));
- if (ret == NULL)
- return(NULL);
- memset(ret, 0, sizeof(xmlExpNode));
- ret->type = type;
- ret->next = NULL;
- ctxt->nb_nodes++;
- ctxt->nb_cons++;
- return(ret);
- }
- /**
- * xmlExpHashGetEntry:
- * @table: the hash table
- *
- * Get the unique entry from the hash table. The entry is created if
- * needed. @left and @right are consumed, i.e. their ref count will
- * be decremented by the operation.
- *
- * Returns the pointer or NULL in case of error
- */
- static xmlExpNodePtr
- xmlExpHashGetEntry(xmlExpCtxtPtr ctxt, xmlExpNodeType type,
- xmlExpNodePtr left, xmlExpNodePtr right,
- const xmlChar *name, int min, int max) {
- unsigned short kbase, key;
- xmlExpNodePtr entry;
- xmlExpNodePtr insert;
- if (ctxt == NULL)
- return(NULL);
- /*
- * Check for duplicate and insertion location.
- */
- if (type == XML_EXP_ATOM) {
- kbase = xmlExpHashNameComputeKey(name);
- } else if (type == XML_EXP_COUNT) {
- /* COUNT reduction rule 1 */
- /* a{1} -> a */
- if (min == max) {
- if (min == 1) {
- return(left);
- }
- if (min == 0) {
- xmlExpFree(ctxt, left);
- return(emptyExp);
- }
- }
- if (min < 0) {
- xmlExpFree(ctxt, left);
- return(forbiddenExp);
- }
- if (max == -1)
- kbase = min + 79;
- else
- kbase = max - min;
- kbase += left->key;
- } else if (type == XML_EXP_OR) {
- /* Forbid reduction rules */
- if (left->type == XML_EXP_FORBID) {
- xmlExpFree(ctxt, left);
- return(right);
- }
- if (right->type == XML_EXP_FORBID) {
- xmlExpFree(ctxt, right);
- return(left);
- }
- /* OR reduction rule 1 */
- /* a | a reduced to a */
- if (left == right) {
- xmlExpFree(ctxt, right);
- return(left);
- }
- /* OR canonicalization rule 1 */
- /* linearize (a | b) | c into a | (b | c) */
- if ((left->type == XML_EXP_OR) && (right->type != XML_EXP_OR)) {
- xmlExpNodePtr tmp = left;
- left = right;
- right = tmp;
- }
- /* OR reduction rule 2 */
- /* a | (a | b) and b | (a | b) are reduced to a | b */
- if (right->type == XML_EXP_OR) {
- if ((left == right->exp_left) ||
- (left == right->exp_right)) {
- xmlExpFree(ctxt, left);
- return(right);
- }
- }
- /* OR canonicalization rule 2 */
- /* linearize (a | b) | c into a | (b | c) */
- if (left->type == XML_EXP_OR) {
- xmlExpNodePtr tmp;
- /* OR canonicalization rule 2 */
- if ((left->exp_right->type != XML_EXP_OR) &&
- (left->exp_right->key < left->exp_left->key)) {
- tmp = left->exp_right;
- left->exp_right = left->exp_left;
- left->exp_left = tmp;
- }
- left->exp_right->ref++;
- tmp = xmlExpHashGetEntry(ctxt, XML_EXP_OR, left->exp_right, right,
- NULL, 0, 0);
- left->exp_left->ref++;
- tmp = xmlExpHashGetEntry(ctxt, XML_EXP_OR, left->exp_left, tmp,
- NULL, 0, 0);
- xmlExpFree(ctxt, left);
- return(tmp);
- }
- if (right->type == XML_EXP_OR) {
- /* Ordering in the tree */
- /* C | (A | B) -> A | (B | C) */
- if (left->key > right->exp_right->key) {
- xmlExpNodePtr tmp;
- right->exp_right->ref++;
- tmp = xmlExpHashGetEntry(ctxt, XML_EXP_OR, right->exp_right,
- left, NULL, 0, 0);
- right->exp_left->ref++;
- tmp = xmlExpHashGetEntry(ctxt, XML_EXP_OR, right->exp_left,
- tmp, NULL, 0, 0);
- xmlExpFree(ctxt, right);
- return(tmp);
- }
- /* Ordering in the tree */
- /* B | (A | C) -> A | (B | C) */
- if (left->key > right->exp_left->key) {
- xmlExpNodePtr tmp;
- right->exp_right->ref++;
- tmp = xmlExpHashGetEntry(ctxt, XML_EXP_OR, left,
- right->exp_right, NULL, 0, 0);
- right->exp_left->ref++;
- tmp = xmlExpHashGetEntry(ctxt, XML_EXP_OR, right->exp_left,
- tmp, NULL, 0, 0);
- xmlExpFree(ctxt, right);
- return(tmp);
- }
- }
- /* we know both types are != XML_EXP_OR here */
- else if (left->key > right->key) {
- xmlExpNodePtr tmp = left;
- left = right;
- right = tmp;
- }
- kbase = xmlExpHashComputeKey(type, left, right);
- } else if (type == XML_EXP_SEQ) {
- /* Forbid reduction rules */
- if (left->type == XML_EXP_FORBID) {
- xmlExpFree(ctxt, right);
- return(left);
- }
- if (right->type == XML_EXP_FORBID) {
- xmlExpFree(ctxt, left);
- return(right);
- }
- /* Empty reduction rules */
- if (right->type == XML_EXP_EMPTY) {
- return(left);
- }
- if (left->type == XML_EXP_EMPTY) {
- return(right);
- }
- kbase = xmlExpHashComputeKey(type, left, right);
- } else
- return(NULL);
- key = kbase % ctxt->size;
- if (ctxt->table[key] != NULL) {
- for (insert = ctxt->table[key]; insert != NULL;
- insert = insert->next) {
- if ((insert->key == kbase) &&
- (insert->type == type)) {
- if (type == XML_EXP_ATOM) {
- if (name == insert->exp_str) {
- insert->ref++;
- return(insert);
- }
- } else if (type == XML_EXP_COUNT) {
- if ((insert->exp_min == min) && (insert->exp_max == max) &&
- (insert->exp_left == left)) {
- insert->ref++;
- left->ref--;
- return(insert);
- }
- } else if ((insert->exp_left == left) &&
- (insert->exp_right == right)) {
- insert->ref++;
- left->ref--;
- right->ref--;
- return(insert);
- }
- }
- }
- }
- entry = xmlExpNewNode(ctxt, type);
- if (entry == NULL)
- return(NULL);
- entry->key = kbase;
- if (type == XML_EXP_ATOM) {
- entry->exp_str = name;
- entry->c_max = 1;
- } else if (type == XML_EXP_COUNT) {
- entry->exp_min = min;
- entry->exp_max = max;
- entry->exp_left = left;
- if ((min == 0) || (IS_NILLABLE(left)))
- entry->info |= XML_EXP_NILABLE;
- if (max < 0)
- entry->c_max = -1;
- else
- entry->c_max = max * entry->exp_left->c_max;
- } else {
- entry->exp_left = left;
- entry->exp_right = right;
- if (type == XML_EXP_OR) {
- if ((IS_NILLABLE(left)) || (IS_NILLABLE(right)))
- entry->info |= XML_EXP_NILABLE;
- if ((entry->exp_left->c_max == -1) ||
- (entry->exp_right->c_max == -1))
- entry->c_max = -1;
- else if (entry->exp_left->c_max > entry->exp_right->c_max)
- entry->c_max = entry->exp_left->c_max;
- else
- entry->c_max = entry->exp_right->c_max;
- } else {
- if ((IS_NILLABLE(left)) && (IS_NILLABLE(right)))
- entry->info |= XML_EXP_NILABLE;
- if ((entry->exp_left->c_max == -1) ||
- (entry->exp_right->c_max == -1))
- entry->c_max = -1;
- else
- entry->c_max = entry->exp_left->c_max + entry->exp_right->c_max;
- }
- }
- entry->ref = 1;
- if (ctxt->table[key] != NULL)
- entry->next = ctxt->table[key];
- ctxt->table[key] = entry;
- ctxt->nbElems++;
- return(entry);
- }
- /**
- * xmlExpFree:
- * @ctxt: the expression context
- * @exp: the expression
- *
- * Dereference the expression
- */
- void
- xmlExpFree(xmlExpCtxtPtr ctxt, xmlExpNodePtr exp) {
- if ((exp == NULL) || (exp == forbiddenExp) || (exp == emptyExp))
- return;
- exp->ref--;
- if (exp->ref == 0) {
- unsigned short key;
- /* Unlink it first from the hash table */
- key = exp->key % ctxt->size;
- if (ctxt->table[key] == exp) {
- ctxt->table[key] = exp->next;
- } else {
- xmlExpNodePtr tmp;
- tmp = ctxt->table[key];
- while (tmp != NULL) {
- if (tmp->next == exp) {
- tmp->next = exp->next;
- break;
- }
- tmp = tmp->next;
- }
- }
- if ((exp->type == XML_EXP_SEQ) || (exp->type == XML_EXP_OR)) {
- xmlExpFree(ctxt, exp->exp_left);
- xmlExpFree(ctxt, exp->exp_right);
- } else if (exp->type == XML_EXP_COUNT) {
- xmlExpFree(ctxt, exp->exp_left);
- }
- xmlFree(exp);
- ctxt->nb_nodes--;
- }
- }
- /**
- * xmlExpRef:
- * @exp: the expression
- *
- * Increase the reference count of the expression
- */
- void
- xmlExpRef(xmlExpNodePtr exp) {
- if (exp != NULL)
- exp->ref++;
- }
- /**
- * xmlExpNewAtom:
- * @ctxt: the expression context
- * @name: the atom name
- * @len: the atom name length in byte (or -1);
- *
- * Get the atom associated to this name from that context
- *
- * Returns the node or NULL in case of error
- */
- xmlExpNodePtr
- xmlExpNewAtom(xmlExpCtxtPtr ctxt, const xmlChar *name, int len) {
- if ((ctxt == NULL) || (name == NULL))
- return(NULL);
- name = xmlDictLookup(ctxt->dict, name, len);
- if (name == NULL)
- return(NULL);
- return(xmlExpHashGetEntry(ctxt, XML_EXP_ATOM, NULL, NULL, name, 0, 0));
- }
- /**
- * xmlExpNewOr:
- * @ctxt: the expression context
- * @left: left expression
- * @right: right expression
- *
- * Get the atom associated to the choice @left | @right
- * Note that @left and @right are consumed in the operation, to keep
- * an handle on them use xmlExpRef() and use xmlExpFree() to release them,
- * this is true even in case of failure (unless ctxt == NULL).
- *
- * Returns the node or NULL in case of error
- */
- xmlExpNodePtr
- xmlExpNewOr(xmlExpCtxtPtr ctxt, xmlExpNodePtr left, xmlExpNodePtr right) {
- if (ctxt == NULL)
- return(NULL);
- if ((left == NULL) || (right == NULL)) {
- xmlExpFree(ctxt, left);
- xmlExpFree(ctxt, right);
- return(NULL);
- }
- return(xmlExpHashGetEntry(ctxt, XML_EXP_OR, left, right, NULL, 0, 0));
- }
- /**
- * xmlExpNewSeq:
- * @ctxt: the expression context
- * @left: left expression
- * @right: right expression
- *
- * Get the atom associated to the sequence @left , @right
- * Note that @left and @right are consumed in the operation, to keep
- * an handle on them use xmlExpRef() and use xmlExpFree() to release them,
- * this is true even in case of failure (unless ctxt == NULL).
- *
- * Returns the node or NULL in case of error
- */
- xmlExpNodePtr
- xmlExpNewSeq(xmlExpCtxtPtr ctxt, xmlExpNodePtr left, xmlExpNodePtr right) {
- if (ctxt == NULL)
- return(NULL);
- if ((left == NULL) || (right == NULL)) {
- xmlExpFree(ctxt, left);
- xmlExpFree(ctxt, right);
- return(NULL);
- }
- return(xmlExpHashGetEntry(ctxt, XML_EXP_SEQ, left, right, NULL, 0, 0));
- }
- /**
- * xmlExpNewRange:
- * @ctxt: the expression context
- * @subset: the expression to be repeated
- * @min: the lower bound for the repetition
- * @max: the upper bound for the repetition, -1 means infinite
- *
- * Get the atom associated to the range (@subset){@min, @max}
- * Note that @subset is consumed in the operation, to keep
- * an handle on it use xmlExpRef() and use xmlExpFree() to release it,
- * this is true even in case of failure (unless ctxt == NULL).
- *
- * Returns the node or NULL in case of error
- */
- xmlExpNodePtr
- xmlExpNewRange(xmlExpCtxtPtr ctxt, xmlExpNodePtr subset, int min, int max) {
- if (ctxt == NULL)
- return(NULL);
- if ((subset == NULL) || (min < 0) || (max < -1) ||
- ((max >= 0) && (min > max))) {
- xmlExpFree(ctxt, subset);
- return(NULL);
- }
- return(xmlExpHashGetEntry(ctxt, XML_EXP_COUNT, subset,
- NULL, NULL, min, max));
- }
- /************************************************************************
- * *
- * Public API for operations on expressions *
- * *
- ************************************************************************/
- static int
- xmlExpGetLanguageInt(xmlExpCtxtPtr ctxt, xmlExpNodePtr exp,
- const xmlChar**list, int len, int nb) {
- int tmp, tmp2;
- tail:
- switch (exp->type) {
- case XML_EXP_EMPTY:
- return(0);
- case XML_EXP_ATOM:
- for (tmp = 0;tmp < nb;tmp++)
- if (list[tmp] == exp->exp_str)
- return(0);
- if (nb >= len)
- return(-2);
- list[nb] = exp->exp_str;
- return(1);
- case XML_EXP_COUNT:
- exp = exp->exp_left;
- goto tail;
- case XML_EXP_SEQ:
- case XML_EXP_OR:
- tmp = xmlExpGetLanguageInt(ctxt, exp->exp_left, list, len, nb);
- if (tmp < 0)
- return(tmp);
- tmp2 = xmlExpGetLanguageInt(ctxt, exp->exp_right, list, len,
- nb + tmp);
- if (tmp2 < 0)
- return(tmp2);
- return(tmp + tmp2);
- }
- return(-1);
- }
- /**
- * xmlExpGetLanguage:
- * @ctxt: the expression context
- * @exp: the expression
- * @langList: where to store the tokens
- * @len: the allocated length of @list
- *
- * Find all the strings used in @exp and store them in @list
- *
- * Returns the number of unique strings found, -1 in case of errors and
- * -2 if there is more than @len strings
- */
- int
- xmlExpGetLanguage(xmlExpCtxtPtr ctxt, xmlExpNodePtr exp,
- const xmlChar**langList, int len) {
- if ((ctxt == NULL) || (exp == NULL) || (langList == NULL) || (len <= 0))
- return(-1);
- return(xmlExpGetLanguageInt(ctxt, exp, langList, len, 0));
- }
- static int
- xmlExpGetStartInt(xmlExpCtxtPtr ctxt, xmlExpNodePtr exp,
- const xmlChar**list, int len, int nb) {
- int tmp, tmp2;
- tail:
- switch (exp->type) {
- case XML_EXP_FORBID:
- return(0);
- case XML_EXP_EMPTY:
- return(0);
- case XML_EXP_ATOM:
- for (tmp = 0;tmp < nb;tmp++)
- if (list[tmp] == exp->exp_str)
- return(0);
- if (nb >= len)
- return(-2);
- list[nb] = exp->exp_str;
- return(1);
- case XML_EXP_COUNT:
- exp = exp->exp_left;
- goto tail;
- case XML_EXP_SEQ:
- tmp = xmlExpGetStartInt(ctxt, exp->exp_left, list, len, nb);
- if (tmp < 0)
- return(tmp);
- if (IS_NILLABLE(exp->exp_left)) {
- tmp2 = xmlExpGetStartInt(ctxt, exp->exp_right, list, len,
- nb + tmp);
- if (tmp2 < 0)
- return(tmp2);
- tmp += tmp2;
- }
- return(tmp);
- case XML_EXP_OR:
- tmp = xmlExpGetStartInt(ctxt, exp->exp_left, list, len, nb);
- if (tmp < 0)
- return(tmp);
- tmp2 = xmlExpGetStartInt(ctxt, exp->exp_right, list, len,
- nb + tmp);
- if (tmp2 < 0)
- return(tmp2);
- return(tmp + tmp2);
- }
- return(-1);
- }
- /**
- * xmlExpGetStart:
- * @ctxt: the expression context
- * @exp: the expression
- * @tokList: where to store the tokens
- * @len: the allocated length of @list
- *
- * Find all the strings that appears at the start of the languages
- * accepted by @exp and store them in @list. E.g. for (a, b) | c
- * it will return the list [a, c]
- *
- * Returns the number of unique strings found, -1 in case of errors and
- * -2 if there is more than @len strings
- */
- int
- xmlExpGetStart(xmlExpCtxtPtr ctxt, xmlExpNodePtr exp,
- const xmlChar**tokList, int len) {
- if ((ctxt == NULL) || (exp == NULL) || (tokList == NULL) || (len <= 0))
- return(-1);
- return(xmlExpGetStartInt(ctxt, exp, tokList, len, 0));
- }
- /**
- * xmlExpIsNillable:
- * @exp: the expression
- *
- * Finds if the expression is nillable, i.e. if it accepts the empty sequence
- *
- * Returns 1 if nillable, 0 if not and -1 in case of error
- */
- int
- xmlExpIsNillable(xmlExpNodePtr exp) {
- if (exp == NULL)
- return(-1);
- return(IS_NILLABLE(exp) != 0);
- }
- static xmlExpNodePtr
- xmlExpStringDeriveInt(xmlExpCtxtPtr ctxt, xmlExpNodePtr exp, const xmlChar *str)
- {
- xmlExpNodePtr ret;
- switch (exp->type) {
- case XML_EXP_EMPTY:
- return(forbiddenExp);
- case XML_EXP_FORBID:
- return(forbiddenExp);
- case XML_EXP_ATOM:
- if (exp->exp_str == str) {
- #ifdef DEBUG_DERIV
- printf("deriv atom: equal => Empty\n");
- #endif
- ret = emptyExp;
- } else {
- #ifdef DEBUG_DERIV
- printf("deriv atom: mismatch => forbid\n");
- #endif
- /* TODO wildcards here */
- ret = forbiddenExp;
- }
- return(ret);
- case XML_EXP_OR: {
- xmlExpNodePtr tmp;
- #ifdef DEBUG_DERIV
- printf("deriv or: => or(derivs)\n");
- #endif
- tmp = xmlExpStringDeriveInt(ctxt, exp->exp_left, str);
- if (tmp == NULL) {
- return(NULL);
- }
- ret = xmlExpStringDeriveInt(ctxt, exp->exp_right, str);
- if (ret == NULL) {
- xmlExpFree(ctxt, tmp);
- return(NULL);
- }
- ret = xmlExpHashGetEntry(ctxt, XML_EXP_OR, tmp, ret,
- NULL, 0, 0);
- return(ret);
- }
- case XML_EXP_SEQ:
- #ifdef DEBUG_DERIV
- printf("deriv seq: starting with left\n");
- #endif
- ret = xmlExpStringDeriveInt(ctxt, exp->exp_left, str);
- if (ret == NULL) {
- return(NULL);
- } else if (ret == forbiddenExp) {
- if (IS_NILLABLE(exp->exp_left)) {
- #ifdef DEBUG_DERIV
- printf("deriv seq: left failed but nillable\n");
- #endif
- ret = xmlExpStringDeriveInt(ctxt, exp->exp_right, str);
- }
- } else {
- #ifdef DEBUG_DERIV
- printf("deriv seq: left match => sequence\n");
- #endif
- exp->exp_right->ref++;
- ret = xmlExpHashGetEntry(ctxt, XML_EXP_SEQ, ret, exp->exp_right,
- NULL, 0, 0);
- }
- return(ret);
- case XML_EXP_COUNT: {
- int min, max;
- xmlExpNodePtr tmp;
- if (exp->exp_max == 0)
- return(forbiddenExp);
- ret = xmlExpStringDeriveInt(ctxt, exp->exp_left, str);
- if (ret == NULL)
- return(NULL);
- if (ret == forbiddenExp) {
- #ifdef DEBUG_DERIV
- printf("deriv count: pattern mismatch => forbid\n");
- #endif
- return(ret);
- }
- if (exp->exp_max == 1)
- return(ret);
- if (exp->exp_max < 0) /* unbounded */
- max = -1;
- else
- max = exp->exp_max - 1;
- if (exp->exp_min > 0)
- min = exp->exp_min - 1;
- else
- min = 0;
- exp->exp_left->ref++;
- tmp = xmlExpHashGetEntry(ctxt, XML_EXP_COUNT, exp->exp_left, NULL,
- NULL, min, max);
- if (ret == emptyExp) {
- #ifdef DEBUG_DERIV
- printf("deriv count: match to empty => new count\n");
- #endif
- return(tmp);
- }
- #ifdef DEBUG_DERIV
- printf("deriv count: match => sequence with new count\n");
- #endif
- return(xmlExpHashGetEntry(ctxt, XML_EXP_SEQ, ret, tmp,
- NULL, 0, 0));
- }
- }
- return(NULL);
- }
- /**
- * xmlExpStringDerive:
- * @ctxt: the expression context
- * @exp: the expression
- * @str: the string
- * @len: the string len in bytes if available
- *
- * Do one step of Brzozowski derivation of the expression @exp with
- * respect to the input string
- *
- * Returns the resulting expression or NULL in case of internal error
- */
- xmlExpNodePtr
- xmlExpStringDerive(xmlExpCtxtPtr ctxt, xmlExpNodePtr exp,
- const xmlChar *str, int len) {
- const xmlChar *input;
- if ((exp == NULL) || (ctxt == NULL) || (str == NULL)) {
- return(NULL);
- }
- /*
- * check the string is in the dictionary, if yes use an interned
- * copy, otherwise we know it's not an acceptable input
- */
- input = xmlDictExists(ctxt->dict, str, len);
- if (input == NULL) {
- return(forbiddenExp);
- }
- return(xmlExpStringDeriveInt(ctxt, exp, input));
- }
- static int
- xmlExpCheckCard(xmlExpNodePtr exp, xmlExpNodePtr sub) {
- int ret = 1;
- if (sub->c_max == -1) {
- if (exp->c_max != -1)
- ret = 0;
- } else if ((exp->c_max >= 0) && (exp->c_max < sub->c_max)) {
- ret = 0;
- }
- #if 0
- if ((IS_NILLABLE(sub)) && (!IS_NILLABLE(exp)))
- ret = 0;
- #endif
- return(ret);
- }
- static xmlExpNodePtr xmlExpExpDeriveInt(xmlExpCtxtPtr ctxt, xmlExpNodePtr exp,
- xmlExpNodePtr sub);
- /**
- * xmlExpDivide:
- * @ctxt: the expressions context
- * @exp: the englobing expression
- * @sub: the subexpression
- * @mult: the multiple expression
- * @remain: the remain from the derivation of the multiple
- *
- * Check if exp is a multiple of sub, i.e. if there is a finite number n
- * so that sub{n} subsume exp
- *
- * Returns the multiple value if successful, 0 if it is not a multiple
- * and -1 in case of internal error.
- */
- static int
- xmlExpDivide(xmlExpCtxtPtr ctxt, xmlExpNodePtr exp, xmlExpNodePtr sub,
- xmlExpNodePtr *mult, xmlExpNodePtr *remain) {
- int i;
- xmlExpNodePtr tmp, tmp2;
- if (mult != NULL) *mult = NULL;
- if (remain != NULL) *remain = NULL;
- if (exp->c_max == -1) return(0);
- if (IS_NILLABLE(exp) && (!IS_NILLABLE(sub))) return(0);
- for (i = 1;i <= exp->c_max;i++) {
- sub->ref++;
- tmp = xmlExpHashGetEntry(ctxt, XML_EXP_COUNT,
- sub, NULL, NULL, i, i);
- if (tmp == NULL) {
- return(-1);
- }
- if (!xmlExpCheckCard(tmp, exp)) {
- xmlExpFree(ctxt, tmp);
- continue;
- }
- tmp2 = xmlExpExpDeriveInt(ctxt, tmp, exp);
- if (tmp2 == NULL) {
- xmlExpFree(ctxt, tmp);
- return(-1);
- }
- if ((tmp2 != forbiddenExp) && (IS_NILLABLE(tmp2))) {
- if (remain != NULL)
- *remain = tmp2;
- else
- xmlExpFree(ctxt, tmp2);
- if (mult != NULL)
- *mult = tmp;
- else
- xmlExpFree(ctxt, tmp);
- #ifdef DEBUG_DERIV
- printf("Divide succeeded %d\n", i);
- #endif
- return(i);
- }
- xmlExpFree(ctxt, tmp);
- xmlExpFree(ctxt, tmp2);
- }
- #ifdef DEBUG_DERIV
- printf("Divide failed\n");
- #endif
- return(0);
- }
- /**
- * xmlExpExpDeriveInt:
- * @ctxt: the expressions context
- * @exp: the englobing expression
- * @sub: the subexpression
- *
- * Try to do a step of Brzozowski derivation but at a higher level
- * the input being a subexpression.
- *
- * Returns the resulting expression or NULL in case of internal error
- */
- static xmlExpNodePtr
- xmlExpExpDeriveInt(xmlExpCtxtPtr ctxt, xmlExpNodePtr exp, xmlExpNodePtr sub) {
- xmlExpNodePtr ret, tmp, tmp2, tmp3;
- const xmlChar **tab;
- int len, i;
- /*
- * In case of equality and if the expression can only consume a finite
- * amount, then the derivation is empty
- */
- if ((exp == sub) && (exp->c_max >= 0)) {
- #ifdef DEBUG_DERIV
- printf("Equal(exp, sub) and finite -> Empty\n");
- #endif
- return(emptyExp);
- }
- /*
- * decompose sub sequence first
- */
- if (sub->type == XML_EXP_EMPTY) {
- #ifdef DEBUG_DERIV
- printf("Empty(sub) -> Empty\n");
- #endif
- exp->ref++;
- return(exp);
- }
- if (sub->type == XML_EXP_SEQ) {
- #ifdef DEBUG_DERIV
- printf("Seq(sub) -> decompose\n");
- #endif
- tmp = xmlExpExpDeriveInt(ctxt, exp, sub->exp_left);
- if (tmp == NULL)
- return(NULL);
- if (tmp == forbiddenExp)
- return(tmp);
- ret = xmlExpExpDeriveInt(ctxt, tmp, sub->exp_right);
- xmlExpFree(ctxt, tmp);
- return(ret);
- }
- if (sub->type == XML_EXP_OR) {
- #ifdef DEBUG_DERIV
- printf("Or(sub) -> decompose\n");
- #endif
- tmp = xmlExpExpDeriveInt(ctxt, exp, sub->exp_left);
- if (tmp == forbiddenExp)
- return(tmp);
- if (tmp == NULL)
- return(NULL);
- ret = xmlExpExpDeriveInt(ctxt, exp, sub->exp_right);
- if ((ret == NULL) || (ret == forbiddenExp)) {
- xmlExpFree(ctxt, tmp);
- return(ret);
- }
- return(xmlExpHashGetEntry(ctxt, XML_EXP_OR, tmp, ret, NULL, 0, 0));
- }
- if (!xmlExpCheckCard(exp, sub)) {
- #ifdef DEBUG_DERIV
- printf("CheckCard(exp, sub) failed -> Forbid\n");
- #endif
- return(forbiddenExp);
- }
- switch (exp->type) {
- case XML_EXP_EMPTY:
- if (sub == emptyExp)
- return(emptyExp);
- #ifdef DEBUG_DERIV
- printf("Empty(exp) -> Forbid\n");
- #endif
- return(forbiddenExp);
- case XML_EXP_FORBID:
- #ifdef DEBUG_DERIV
- printf("Forbid(exp) -> Forbid\n");
- #endif
- return(forbiddenExp);
- case XML_EXP_ATOM:
- if (sub->type == XML_EXP_ATOM) {
- /* TODO: handle wildcards */
- if (exp->exp_str == sub->exp_str) {
- #ifdef DEBUG_DERIV
- printf("Atom match -> Empty\n");
- #endif
- return(emptyExp);
- }
- #ifdef DEBUG_DERIV
- printf("Atom mismatch -> Forbid\n");
- #endif
- return(forbiddenExp);
- }
- if ((sub->type == XML_EXP_COUNT) &&
- (sub->exp_max == 1) &&
- (sub->exp_left->type == XML_EXP_ATOM)) {
- /* TODO: handle wildcards */
- if (exp->exp_str == sub->exp_left->exp_str) {
- #ifdef DEBUG_DERIV
- printf("Atom match -> Empty\n");
- #endif
- return(emptyExp);
- }
- #ifdef DEBUG_DERIV
- printf("Atom mismatch -> Forbid\n");
- #endif
- return(forbiddenExp);
- }
- #ifdef DEBUG_DERIV
- printf("Complex exp vs Atom -> Forbid\n");
- #endif
- return(forbiddenExp);
- case XML_EXP_SEQ:
- /* try to get the sequence consumed only if possible */
- if (xmlExpCheckCard(exp->exp_left, sub)) {
- /* See if the sequence can be consumed directly */
- #ifdef DEBUG_DERIV
- printf("Seq trying left only\n");
- #endif
- ret = xmlExpExpDeriveInt(ctxt, exp->exp_left, sub);
- if ((ret != forbiddenExp) && (ret != NULL)) {
- #ifdef DEBUG_DERIV
- printf("Seq trying left only worked\n");
- #endif
- /*
- * TODO: assumption here that we are determinist
- * i.e. we won't get to a nillable exp left
- * subset which could be matched by the right
- * part too.
- * e.g.: (a | b)+,(a | c) and 'a+,a'
- */
- exp->exp_right->ref++;
- return(xmlExpHashGetEntry(ctxt, XML_EXP_SEQ, ret,
- exp->exp_right, NULL, 0, 0));
- }
- #ifdef DEBUG_DERIV
- } else {
- printf("Seq: left too short\n");
- #endif
- }
- /* Try instead to decompose */
- if (sub->type == XML_EXP_COUNT) {
- int min, max;
- #ifdef DEBUG_DERIV
- printf("Seq: sub is a count\n");
- #endif
- ret = xmlExpExpDeriveInt(ctxt, exp->exp_left, sub->exp_left);
- if (ret == NULL)
- return(NULL);
- if (ret != forbiddenExp) {
- #ifdef DEBUG_DERIV
- printf("Seq , Count match on left\n");
- #endif
- if (sub->exp_max < 0)
- max = -1;
- else
- max = sub->exp_max -1;
- if (sub->exp_min > 0)
- min = sub->exp_min -1;
- else
- min = 0;
- exp->exp_right->ref++;
- tmp = xmlExpHashGetEntry(ctxt, XML_EXP_SEQ, ret,
- exp->exp_right, NULL, 0, 0);
- if (tmp == NULL)
- return(NULL);
- sub->exp_left->ref++;
- tmp2 = xmlExpHashGetEntry(ctxt, XML_EXP_COUNT,
- sub->exp_left, NULL, NULL, min, max);
- if (tmp2 == NULL) {
- xmlExpFree(ctxt, tmp);
- return(NULL);
- }
- ret = xmlExpExpDeriveInt(ctxt, tmp, tmp2);
- xmlExpFree(ctxt, tmp);
- xmlExpFree(ctxt, tmp2);
- return(ret);
- }
- }
- /* we made no progress on structured operations */
- break;
- case XML_EXP_OR:
- #ifdef DEBUG_DERIV
- printf("Or , trying both side\n");
- #endif
- ret = xmlExpExpDeriveInt(ctxt, exp->exp_left, sub);
- if (ret == NULL)
- return(NULL);
- tmp = xmlExpExpDeriveInt(ctxt, exp->exp_right, sub);
- if (tmp == NULL) {
- xmlExpFree(ctxt, ret);
- return(NULL);
- }
- return(xmlExpHashGetEntry(ctxt, XML_EXP_OR, ret, tmp, NULL, 0, 0));
- case XML_EXP_COUNT: {
- int min, max;
- if (sub->type == XML_EXP_COUNT) {
- /*
- * Try to see if the loop is completely subsumed
- */
- tmp = xmlExpExpDeriveInt(ctxt, exp->exp_left, sub->exp_left);
- if (tmp == NULL)
- return(NULL);
- if (tmp == forbiddenExp) {
- int mult;
- #ifdef DEBUG_DERIV
- printf("Count, Count inner don't subsume\n");
- #endif
- mult = xmlExpDivide(ctxt, sub->exp_left, exp->exp_left,
- NULL, &tmp);
- if (mult <= 0) {
- #ifdef DEBUG_DERIV
- printf("Count, Count not multiple => forbidden\n");
- #endif
- return(forbiddenExp);
- }
- if (sub->exp_max == -1) {
- max = -1;
- if (exp->exp_max == -1) {
- if (exp->exp_min <= sub->exp_min * mult)
- min = 0;
- else
- min = exp->exp_min - sub->exp_min * mult;
- } else {
- #ifdef DEBUG_DERIV
- printf("Count, Count finite can't subsume infinite\n");
- #endif
- xmlExpFree(ctxt, tmp);
- return(forbiddenExp);
- }
- } else {
- if (exp->exp_max == -1) {
- #ifdef DEBUG_DERIV
- printf("Infinite loop consume mult finite loop\n");
- #endif
- if (exp->exp_min > sub->exp_min * mult) {
- max = -1;
- min = exp->exp_min - sub->exp_min * mult;
- } else {
- max = -1;
- min = 0;
- }
- } else {
- if (exp->exp_max < sub->exp_max * mult) {
- #ifdef DEBUG_DERIV
- printf("loops max mult mismatch => forbidden\n");
- #endif
- xmlExpFree(ctxt, tmp);
- return(forbiddenExp);
- }
- if (sub->exp_max * mult > exp->exp_min)
- min = 0;
- else
- min = exp->exp_min - sub->exp_max * mult;
- max = exp->exp_max - sub->exp_max * mult;
- }
- }
- } else if (!IS_NILLABLE(tmp)) {
- /*
- * TODO: loop here to try to grow if working on finite
- * blocks.
- */
- #ifdef DEBUG_DERIV
- printf("Count, Count remain not nillable => forbidden\n");
- #endif
- xmlExpFree(ctxt, tmp);
- return(forbiddenExp);
- } else if (sub->exp_max == -1) {
- if (exp->exp_max == -1) {
- if (exp->exp_min <= sub->exp_min) {
- #ifdef DEBUG_DERIV
- printf("Infinite loops Okay => COUNT(0,Inf)\n");
- #endif
- max = -1;
- min = 0;
- } else {
- #ifdef DEBUG_DERIV
- printf("Infinite loops min => Count(X,Inf)\n");
- #endif
- max = -1;
- min = exp->exp_min - sub->exp_min;
- }
- } else if (exp->exp_min > sub->exp_min) {
- #ifdef DEBUG_DERIV
- printf("loops min mismatch 1 => forbidden ???\n");
- #endif
- xmlExpFree(ctxt, tmp);
- return(forbiddenExp);
- } else {
- max = -1;
- min = 0;
- }
- } else {
- if (exp->exp_max == -1) {
- #ifdef DEBUG_DERIV
- printf("Infinite loop consume finite loop\n");
- #endif
- if (exp->exp_min > sub->exp_min) {
- max = -1;
- min = exp->exp_min - sub->exp_min;
- } else {
- max = -1;
- min = 0;
- }
- } else {
- if (exp->exp_max < sub->exp_max) {
- #ifdef DEBUG_DERIV
- printf("loops max mismatch => forbidden\n");
- #endif
- xmlExpFree(ctxt, tmp);
- return(forbiddenExp);
- }
- if (sub->exp_max > exp->exp_min)
- min = 0;
- else
- min = exp->exp_min - sub->exp_max;
- max = exp->exp_max - sub->exp_max;
- }
- }
- #ifdef DEBUG_DERIV
- printf("loops match => SEQ(COUNT())\n");
- #endif
- exp->exp_left->ref++;
- tmp2 = xmlExpHashGetEntry(ctxt, XML_EXP_COUNT, exp->exp_left,
- NULL, NULL, min, max);
- if (tmp2 == NULL) {
- return(NULL);
- }
- ret = xmlExpHashGetEntry(ctxt, XML_EXP_SEQ, tmp, tmp2,
- NULL, 0, 0);
- return(ret);
- }
- tmp = xmlExpExpDeriveInt(ctxt, exp->exp_left, sub);
- if (tmp == NULL)
- return(NULL);
- if (tmp == forbiddenExp) {
- #ifdef DEBUG_DERIV
- printf("loop mismatch => forbidden\n");
- #endif
- return(forbiddenExp);
- }
- if (exp->exp_min > 0)
- min = exp->exp_min - 1;
- else
- min = 0;
- if (exp->exp_max < 0)
- max = -1;
- else
- max = exp->exp_max - 1;
- #ifdef DEBUG_DERIV
- printf("loop match => SEQ(COUNT())\n");
- #endif
- exp->exp_left->ref++;
- tmp2 = xmlExpHashGetEntry(ctxt, XML_EXP_COUNT, exp->exp_left,
- NULL, NULL, min, max);
- if (tmp2 == NULL)
- return(NULL);
- ret = xmlExpHashGetEntry(ctxt, XML_EXP_SEQ, tmp, tmp2,
- NULL, 0, 0);
- return(ret);
- }
- }
- #ifdef DEBUG_DERIV
- printf("Fallback to derivative\n");
- #endif
- if (IS_NILLABLE(sub)) {
- if (!(IS_NILLABLE(exp)))
- return(forbiddenExp);
- else
- ret = emptyExp;
- } else
- ret = NULL;
- /*
- * here the structured derivation made no progress so
- * we use the default token based derivation to force one more step
- */
- if (ctxt->tabSize == 0)
- ctxt->tabSize = 40;
- tab = (const xmlChar **) xmlMalloc(ctxt->tabSize *
- sizeof(const xmlChar *));
- if (tab == NULL) {
- return(NULL);
- }
- /*
- * collect all the strings accepted by the subexpression on input
- */
- len = xmlExpGetStartInt(ctxt, sub, tab, ctxt->tabSize, 0);
- while (len < 0) {
- const xmlChar **temp;
- temp = (const xmlChar **) xmlRealloc((xmlChar **) tab, ctxt->tabSize * 2 *
- sizeof(const xmlChar *));
- if (temp == NULL) {
- xmlFree((xmlChar **) tab);
- return(NULL);
- }
- tab = temp;
- ctxt->tabSize *= 2;
- len = xmlExpGetStartInt(ctxt, sub, tab, ctxt->tabSize, 0);
- }
- for (i = 0;i < len;i++) {
- tmp = xmlExpStringDeriveInt(ctxt, exp, tab[i]);
- if ((tmp == NULL) || (tmp == forbiddenExp)) {
- xmlExpFree(ctxt, ret);
- xmlFree((xmlChar **) tab);
- return(tmp);
- }
- tmp2 = xmlExpStringDeriveInt(ctxt, sub, tab[i]);
- if ((tmp2 == NULL) || (tmp2 == forbiddenExp)) {
- xmlExpFree(ctxt, tmp);
- xmlExpFree(ctxt, ret);
- xmlFree((xmlChar **) tab);
- return(tmp);
- }
- tmp3 = xmlExpExpDeriveInt(ctxt, tmp, tmp2);
- xmlExpFree(ctxt, tmp);
- xmlExpFree(ctxt, tmp2);
- if ((tmp3 == NULL) || (tmp3 == forbiddenExp)) {
- xmlExpFree(ctxt, ret);
- xmlFree((xmlChar **) tab);
- return(tmp3);
- }
- if (ret == NULL)
- ret = tmp3;
- else {
- ret = xmlExpHashGetEntry(ctxt, XML_EXP_OR, ret, tmp3, NULL, 0, 0);
- if (ret == NULL) {
- xmlFree((xmlChar **) tab);
- return(NULL);
- }
- }
- }
- xmlFree((xmlChar **) tab);
- return(ret);
- }
- /**
- * xmlExpExpDerive:
- * @ctxt: the expressions context
- * @exp: the englobing expression
- * @sub: the subexpression
- *
- * Evaluates the expression resulting from @exp consuming a sub expression @sub
- * Based on algebraic derivation and sometimes direct Brzozowski derivation
- * it usually takes less than linear time and can handle expressions generating
- * infinite languages.
- *
- * Returns the resulting expression or NULL in case of internal error, the
- * result must be freed
- */
- xmlExpNodePtr
- xmlExpExpDerive(xmlExpCtxtPtr ctxt, xmlExpNodePtr exp, xmlExpNodePtr sub) {
- if ((exp == NULL) || (ctxt == NULL) || (sub == NULL))
- return(NULL);
- /*
- * O(1) speedups
- */
- if (IS_NILLABLE(sub) && (!IS_NILLABLE(exp))) {
- #ifdef DEBUG_DERIV
- printf("Sub nillable and not exp : can't subsume\n");
- #endif
- return(forbiddenExp);
- }
- if (xmlExpCheckCard(exp, sub) == 0) {
- #ifdef DEBUG_DERIV
- printf("sub generate longer sequences than exp : can't subsume\n");
- #endif
- return(forbiddenExp);
- }
- return(xmlExpExpDeriveInt(ctxt, exp, sub));
- }
- /**
- * xmlExpSubsume:
- * @ctxt: the expressions context
- * @exp: the englobing expression
- * @sub: the subexpression
- *
- * Check whether @exp accepts all the languages accepted by @sub
- * the input being a subexpression.
- *
- * Returns 1 if true 0 if false and -1 in case of failure.
- */
- int
- xmlExpSubsume(xmlExpCtxtPtr ctxt, xmlExpNodePtr exp, xmlExpNodePtr sub) {
- xmlExpNodePtr tmp;
- if ((exp == NULL) || (ctxt == NULL) || (sub == NULL))
- return(-1);
- /*
- * TODO: speedup by checking the language of sub is a subset of the
- * language of exp
- */
- /*
- * O(1) speedups
- */
- if (IS_NILLABLE(sub) && (!IS_NILLABLE(exp))) {
- #ifdef DEBUG_DERIV
- printf("Sub nillable and not exp : can't subsume\n");
- #endif
- return(0);
- }
- if (xmlExpCheckCard(exp, sub) == 0) {
- #ifdef DEBUG_DERIV
- printf("sub generate longer sequences than exp : can't subsume\n");
- #endif
- return(0);
- }
- tmp = xmlExpExpDeriveInt(ctxt, exp, sub);
- #ifdef DEBUG_DERIV
- printf("Result derivation :\n");
- PRINT_EXP(tmp);
- #endif
- if (tmp == NULL)
- return(-1);
- if (tmp == forbiddenExp)
- return(0);
- if (tmp == emptyExp)
- return(1);
- if ((tmp != NULL) && (IS_NILLABLE(tmp))) {
- xmlExpFree(ctxt, tmp);
- return(1);
- }
- xmlExpFree(ctxt, tmp);
- return(0);
- }
- /************************************************************************
- * *
- * Parsing expression *
- * *
- ************************************************************************/
- static xmlExpNodePtr xmlExpParseExpr(xmlExpCtxtPtr ctxt);
- #undef CUR
- #define CUR (*ctxt->cur)
- #undef NEXT
- #define NEXT ctxt->cur++;
- #undef IS_BLANK
- #define IS_BLANK(c) ((c == ' ') || (c == '\n') || (c == '\r') || (c == '\t'))
- #define SKIP_BLANKS while (IS_BLANK(*ctxt->cur)) ctxt->cur++;
- static int
- xmlExpParseNumber(xmlExpCtxtPtr ctxt) {
- int ret = 0;
- SKIP_BLANKS
- if (CUR == '*') {
- NEXT
- return(-1);
- }
- if ((CUR < '0') || (CUR > '9'))
- return(-1);
- while ((CUR >= '0') && (CUR <= '9')) {
- ret = ret * 10 + (CUR - '0');
- NEXT
- }
- return(ret);
- }
- static xmlExpNodePtr
- xmlExpParseOr(xmlExpCtxtPtr ctxt) {
- const char *base;
- xmlExpNodePtr ret;
- const xmlChar *val;
- SKIP_BLANKS
- base = ctxt->cur;
- if (*ctxt->cur == '(') {
- NEXT
- ret = xmlExpParseExpr(ctxt);
- SKIP_BLANKS
- if (*ctxt->cur != ')') {
- fprintf(stderr, "unbalanced '(' : %s\n", base);
- xmlExpFree(ctxt, ret);
- return(NULL);
- }
- NEXT;
- SKIP_BLANKS
- goto parse_quantifier;
- }
- while ((CUR != 0) && (!(IS_BLANK(CUR))) && (CUR != '(') &&
- (CUR != ')') && (CUR != '|') && (CUR != ',') && (CUR != '{') &&
- (CUR != '*') && (CUR != '+') && (CUR != '?') && (CUR != '}'))
- NEXT;
- val = xmlDictLookup(ctxt->dict, BAD_CAST base, ctxt->cur - base);
- if (val == NULL)
- return(NULL);
- ret = xmlExpHashGetEntry(ctxt, XML_EXP_ATOM, NULL, NULL, val, 0, 0);
- if (ret == NULL)
- return(NULL);
- SKIP_BLANKS
- parse_quantifier:
- if (CUR == '{') {
- int min, max;
- NEXT
- min = xmlExpParseNumber(ctxt);
- if (min < 0) {
- xmlExpFree(ctxt, ret);
- return(NULL);
- }
- SKIP_BLANKS
- if (CUR == ',') {
- NEXT
- max = xmlExpParseNumber(ctxt);
- SKIP_BLANKS
- } else
- max = min;
- if (CUR != '}') {
- xmlExpFree(ctxt, ret);
- return(NULL);
- }
- NEXT
- ret = xmlExpHashGetEntry(ctxt, XML_EXP_COUNT, ret, NULL, NULL,
- min, max);
- SKIP_BLANKS
- } else if (CUR == '?') {
- NEXT
- ret = xmlExpHashGetEntry(ctxt, XML_EXP_COUNT, ret, NULL, NULL,
- 0, 1);
- SKIP_BLANKS
- } else if (CUR == '+') {
- NEXT
- ret = xmlExpHashGetEntry(ctxt, XML_EXP_COUNT, ret, NULL, NULL,
- 1, -1);
- SKIP_BLANKS
- } else if (CUR == '*') {
- NEXT
- ret = xmlExpHashGetEntry(ctxt, XML_EXP_COUNT, ret, NULL, NULL,
- 0, -1);
- SKIP_BLANKS
- }
- return(ret);
- }
- static xmlExpNodePtr
- xmlExpParseSeq(xmlExpCtxtPtr ctxt) {
- xmlExpNodePtr ret, right;
- ret = xmlExpParseOr(ctxt);
- SKIP_BLANKS
- while (CUR == '|') {
- NEXT
- right = xmlExpParseOr(ctxt);
- if (right == NULL) {
- xmlExpFree(ctxt, ret);
- return(NULL);
- }
- ret = xmlExpHashGetEntry(ctxt, XML_EXP_OR, ret, right, NULL, 0, 0);
- if (ret == NULL)
- return(NULL);
- }
- return(ret);
- }
- static xmlExpNodePtr
- xmlExpParseExpr(xmlExpCtxtPtr ctxt) {
- xmlExpNodePtr ret, right;
- ret = xmlExpParseSeq(ctxt);
- SKIP_BLANKS
- while (CUR == ',') {
- NEXT
- right = xmlExpParseSeq(ctxt);
- if (right == NULL) {
- xmlExpFree(ctxt, ret);
- return(NULL);
- }
- ret = xmlExpHashGetEntry(ctxt, XML_EXP_SEQ, ret, right, NULL, 0, 0);
- if (ret == NULL)
- return(NULL);
- }
- return(ret);
- }
- /**
- * xmlExpParse:
- * @ctxt: the expressions context
- * @expr: the 0 terminated string
- *
- * Minimal parser for regexps, it understand the following constructs
- * - string terminals
- * - choice operator |
- * - sequence operator ,
- * - subexpressions (...)
- * - usual cardinality operators + * and ?
- * - finite sequences { min, max }
- * - infinite sequences { min, * }
- * There is minimal checkings made especially no checking on strings values
- *
- * Returns a new expression or NULL in case of failure
- */
- xmlExpNodePtr
- xmlExpParse(xmlExpCtxtPtr ctxt, const char *expr) {
- xmlExpNodePtr ret;
- ctxt->expr = expr;
- ctxt->cur = expr;
- ret = xmlExpParseExpr(ctxt);
- SKIP_BLANKS
- if (*ctxt->cur != 0) {
- xmlExpFree(ctxt, ret);
- return(NULL);
- }
- return(ret);
- }
- static void
- xmlExpDumpInt(xmlBufferPtr buf, xmlExpNodePtr expr, int glob) {
- xmlExpNodePtr c;
- if (expr == NULL) return;
- if (glob) xmlBufferWriteChar(buf, "(");
- switch (expr->type) {
- case XML_EXP_EMPTY:
- xmlBufferWriteChar(buf, "empty");
- break;
- case XML_EXP_FORBID:
- xmlBufferWriteChar(buf, "forbidden");
- break;
- case XML_EXP_ATOM:
- xmlBufferWriteCHAR(buf, expr->exp_str);
- break;
- case XML_EXP_SEQ:
- c = expr->exp_left;
- if ((c->type == XML_EXP_SEQ) || (c->type == XML_EXP_OR))
- xmlExpDumpInt(buf, c, 1);
- else
- xmlExpDumpInt(buf, c, 0);
- xmlBufferWriteChar(buf, " , ");
- c = expr->exp_right;
- if ((c->type == XML_EXP_SEQ) || (c->type == XML_EXP_OR))
- xmlExpDumpInt(buf, c, 1);
- else
- xmlExpDumpInt(buf, c, 0);
- break;
- case XML_EXP_OR:
- c = expr->exp_left;
- if ((c->type == XML_EXP_SEQ) || (c->type == XML_EXP_OR))
- xmlExpDumpInt(buf, c, 1);
- else
- xmlExpDumpInt(buf, c, 0);
- xmlBufferWriteChar(buf, " | ");
- c = expr->exp_right;
- if ((c->type == XML_EXP_SEQ) || (c->type == XML_EXP_OR))
- xmlExpDumpInt(buf, c, 1);
- else
- xmlExpDumpInt(buf, c, 0);
- break;
- case XML_EXP_COUNT: {
- char rep[40];
- c = expr->exp_left;
- if ((c->type == XML_EXP_SEQ) || (c->type == XML_EXP_OR))
- xmlExpDumpInt(buf, c, 1);
- else
- xmlExpDumpInt(buf, c, 0);
- if ((expr->exp_min == 0) && (expr->exp_max == 1)) {
- rep[0] = '?';
- rep[1] = 0;
- } else if ((expr->exp_min == 0) && (expr->exp_max == -1)) {
- rep[0] = '*';
- rep[1] = 0;
- } else if ((expr->exp_min == 1) && (expr->exp_max == -1)) {
- rep[0] = '+';
- rep[1] = 0;
- } else if (expr->exp_max == expr->exp_min) {
- snprintf(rep, 39, "{%d}", expr->exp_min);
- } else if (expr->exp_max < 0) {
- snprintf(rep, 39, "{%d,inf}", expr->exp_min);
- } else {
- snprintf(rep, 39, "{%d,%d}", expr->exp_min, expr->exp_max);
- }
- rep[39] = 0;
- xmlBufferWriteChar(buf, rep);
- break;
- }
- default:
- fprintf(stderr, "Error in tree\n");
- }
- if (glob)
- xmlBufferWriteChar(buf, ")");
- }
- /**
- * xmlExpDump:
- * @buf: a buffer to receive the output
- * @expr: the compiled expression
- *
- * Serialize the expression as compiled to the buffer
- */
- void
- xmlExpDump(xmlBufferPtr buf, xmlExpNodePtr expr) {
- if ((buf == NULL) || (expr == NULL))
- return;
- xmlExpDumpInt(buf, expr, 0);
- }
- /**
- * xmlExpMaxToken:
- * @expr: a compiled expression
- *
- * Indicate the maximum number of input a expression can accept
- *
- * Returns the maximum length or -1 in case of error
- */
- int
- xmlExpMaxToken(xmlExpNodePtr expr) {
- if (expr == NULL)
- return(-1);
- return(expr->c_max);
- }
- /**
- * xmlExpCtxtNbNodes:
- * @ctxt: an expression context
- *
- * Debugging facility provides the number of allocated nodes at a that point
- *
- * Returns the number of nodes in use or -1 in case of error
- */
- int
- xmlExpCtxtNbNodes(xmlExpCtxtPtr ctxt) {
- if (ctxt == NULL)
- return(-1);
- return(ctxt->nb_nodes);
- }
- /**
- * xmlExpCtxtNbCons:
- * @ctxt: an expression context
- *
- * Debugging facility provides the number of allocated nodes over lifetime
- *
- * Returns the number of nodes ever allocated or -1 in case of error
- */
- int
- xmlExpCtxtNbCons(xmlExpCtxtPtr ctxt) {
- if (ctxt == NULL)
- return(-1);
- return(ctxt->nb_cons);
- }
- #endif /* LIBXML_EXPR_ENABLED */
- #define bottom_xmlregexp
- #include "elfgcchack.h"
- #endif /* LIBXML_REGEXP_ENABLED */
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