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mirror of https://gitlab.gnome.org/GNOME/libxml2.git synced 2024-12-28 07:21:26 +03:00
libxml2/xmlschemastypes.c
Nick Wellnhofer e03f0a199a Fix hash callback signatures
Make sure that all parameters and return values of hash callback
functions exactly match the callback function type. This is required
to pass clang's Control Flow Integrity checks and to allow compilation
to asm.js with Emscripten.

Fixes bug 784861.
2017-11-09 16:42:47 +01:00

6163 lines
173 KiB
C

/*
* schemastypes.c : implementation of the XML Schema Datatypes
* definition and validity checking
*
* See Copyright for the status of this software.
*
* Daniel Veillard <veillard@redhat.com>
*/
/* To avoid EBCDIC trouble when parsing on zOS */
#if defined(__MVS__)
#pragma convert("ISO8859-1")
#endif
#define IN_LIBXML
#include "libxml.h"
#ifdef LIBXML_SCHEMAS_ENABLED
#include <string.h>
#include <libxml/xmlmemory.h>
#include <libxml/parser.h>
#include <libxml/parserInternals.h>
#include <libxml/hash.h>
#include <libxml/valid.h>
#include <libxml/xpath.h>
#include <libxml/uri.h>
#include <libxml/xmlschemas.h>
#include <libxml/schemasInternals.h>
#include <libxml/xmlschemastypes.h>
#ifdef HAVE_MATH_H
#include <math.h>
#endif
#ifdef HAVE_FLOAT_H
#include <float.h>
#endif
#define DEBUG
#ifndef LIBXML_XPATH_ENABLED
extern double xmlXPathNAN;
extern double xmlXPathPINF;
extern double xmlXPathNINF;
#endif
#define TODO \
xmlGenericError(xmlGenericErrorContext, \
"Unimplemented block at %s:%d\n", \
__FILE__, __LINE__);
#define XML_SCHEMAS_NAMESPACE_NAME \
(const xmlChar *)"http://www.w3.org/2001/XMLSchema"
#define IS_WSP_REPLACE_CH(c) ((((c) == 0x9) || ((c) == 0xa)) || \
((c) == 0xd))
#define IS_WSP_SPACE_CH(c) ((c) == 0x20)
#define IS_WSP_BLANK_CH(c) IS_BLANK_CH(c)
/* Date value */
typedef struct _xmlSchemaValDate xmlSchemaValDate;
typedef xmlSchemaValDate *xmlSchemaValDatePtr;
struct _xmlSchemaValDate {
long year;
unsigned int mon :4; /* 1 <= mon <= 12 */
unsigned int day :5; /* 1 <= day <= 31 */
unsigned int hour :5; /* 0 <= hour <= 24 */
unsigned int min :6; /* 0 <= min <= 59 */
double sec;
unsigned int tz_flag :1; /* is tzo explicitely set? */
signed int tzo :12; /* -1440 <= tzo <= 1440;
currently only -840 to +840 are needed */
};
/* Duration value */
typedef struct _xmlSchemaValDuration xmlSchemaValDuration;
typedef xmlSchemaValDuration *xmlSchemaValDurationPtr;
struct _xmlSchemaValDuration {
long mon; /* mon stores years also */
long day;
double sec; /* sec stores min and hour also */
};
typedef struct _xmlSchemaValDecimal xmlSchemaValDecimal;
typedef xmlSchemaValDecimal *xmlSchemaValDecimalPtr;
struct _xmlSchemaValDecimal {
/* would use long long but not portable */
unsigned long lo;
unsigned long mi;
unsigned long hi;
unsigned int extra;
unsigned int sign:1;
unsigned int frac:7;
unsigned int total:8;
};
typedef struct _xmlSchemaValQName xmlSchemaValQName;
typedef xmlSchemaValQName *xmlSchemaValQNamePtr;
struct _xmlSchemaValQName {
xmlChar *name;
xmlChar *uri;
};
typedef struct _xmlSchemaValHex xmlSchemaValHex;
typedef xmlSchemaValHex *xmlSchemaValHexPtr;
struct _xmlSchemaValHex {
xmlChar *str;
unsigned int total;
};
typedef struct _xmlSchemaValBase64 xmlSchemaValBase64;
typedef xmlSchemaValBase64 *xmlSchemaValBase64Ptr;
struct _xmlSchemaValBase64 {
xmlChar *str;
unsigned int total;
};
struct _xmlSchemaVal {
xmlSchemaValType type;
struct _xmlSchemaVal *next;
union {
xmlSchemaValDecimal decimal;
xmlSchemaValDate date;
xmlSchemaValDuration dur;
xmlSchemaValQName qname;
xmlSchemaValHex hex;
xmlSchemaValBase64 base64;
float f;
double d;
int b;
xmlChar *str;
} value;
};
static int xmlSchemaTypesInitialized = 0;
static xmlHashTablePtr xmlSchemaTypesBank = NULL;
/*
* Basic types
*/
static xmlSchemaTypePtr xmlSchemaTypeStringDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeAnyTypeDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeAnySimpleTypeDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeDecimalDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeDatetimeDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeDateDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeTimeDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeGYearDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeGYearMonthDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeGDayDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeGMonthDayDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeGMonthDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeDurationDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeFloatDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeBooleanDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeDoubleDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeHexBinaryDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeBase64BinaryDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeAnyURIDef = NULL;
/*
* Derived types
*/
static xmlSchemaTypePtr xmlSchemaTypePositiveIntegerDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeNonPositiveIntegerDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeNegativeIntegerDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeNonNegativeIntegerDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeIntegerDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeLongDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeIntDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeShortDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeByteDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeUnsignedLongDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeUnsignedIntDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeUnsignedShortDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeUnsignedByteDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeNormStringDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeTokenDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeLanguageDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeNameDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeQNameDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeNCNameDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeIdDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeIdrefDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeIdrefsDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeEntityDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeEntitiesDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeNotationDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeNmtokenDef = NULL;
static xmlSchemaTypePtr xmlSchemaTypeNmtokensDef = NULL;
/************************************************************************
* *
* Datatype error handlers *
* *
************************************************************************/
/**
* xmlSchemaTypeErrMemory:
* @extra: extra informations
*
* Handle an out of memory condition
*/
static void
xmlSchemaTypeErrMemory(xmlNodePtr node, const char *extra)
{
__xmlSimpleError(XML_FROM_DATATYPE, XML_ERR_NO_MEMORY, node, NULL, extra);
}
/************************************************************************
* *
* Base types support *
* *
************************************************************************/
/**
* xmlSchemaNewValue:
* @type: the value type
*
* Allocate a new simple type value
*
* Returns a pointer to the new value or NULL in case of error
*/
static xmlSchemaValPtr
xmlSchemaNewValue(xmlSchemaValType type) {
xmlSchemaValPtr value;
value = (xmlSchemaValPtr) xmlMalloc(sizeof(xmlSchemaVal));
if (value == NULL) {
return(NULL);
}
memset(value, 0, sizeof(xmlSchemaVal));
value->type = type;
return(value);
}
static xmlSchemaFacetPtr
xmlSchemaNewMinLengthFacet(int value)
{
xmlSchemaFacetPtr ret;
ret = xmlSchemaNewFacet();
if (ret == NULL) {
return(NULL);
}
ret->type = XML_SCHEMA_FACET_MINLENGTH;
ret->val = xmlSchemaNewValue(XML_SCHEMAS_NNINTEGER);
if (ret->val == NULL) {
xmlFree(ret);
return(NULL);
}
ret->val->value.decimal.lo = value;
return (ret);
}
/*
* xmlSchemaInitBasicType:
* @name: the type name
* @type: the value type associated
*
* Initialize one primitive built-in type
*/
static xmlSchemaTypePtr
xmlSchemaInitBasicType(const char *name, xmlSchemaValType type,
xmlSchemaTypePtr baseType) {
xmlSchemaTypePtr ret;
ret = (xmlSchemaTypePtr) xmlMalloc(sizeof(xmlSchemaType));
if (ret == NULL) {
xmlSchemaTypeErrMemory(NULL, "could not initialize basic types");
return(NULL);
}
memset(ret, 0, sizeof(xmlSchemaType));
ret->name = (const xmlChar *)name;
ret->targetNamespace = XML_SCHEMAS_NAMESPACE_NAME;
ret->type = XML_SCHEMA_TYPE_BASIC;
ret->baseType = baseType;
ret->contentType = XML_SCHEMA_CONTENT_BASIC;
/*
* Primitive types.
*/
switch (type) {
case XML_SCHEMAS_STRING:
case XML_SCHEMAS_DECIMAL:
case XML_SCHEMAS_DATE:
case XML_SCHEMAS_DATETIME:
case XML_SCHEMAS_TIME:
case XML_SCHEMAS_GYEAR:
case XML_SCHEMAS_GYEARMONTH:
case XML_SCHEMAS_GMONTH:
case XML_SCHEMAS_GMONTHDAY:
case XML_SCHEMAS_GDAY:
case XML_SCHEMAS_DURATION:
case XML_SCHEMAS_FLOAT:
case XML_SCHEMAS_DOUBLE:
case XML_SCHEMAS_BOOLEAN:
case XML_SCHEMAS_ANYURI:
case XML_SCHEMAS_HEXBINARY:
case XML_SCHEMAS_BASE64BINARY:
case XML_SCHEMAS_QNAME:
case XML_SCHEMAS_NOTATION:
ret->flags |= XML_SCHEMAS_TYPE_BUILTIN_PRIMITIVE;
break;
default:
break;
}
/*
* Set variety.
*/
switch (type) {
case XML_SCHEMAS_ANYTYPE:
case XML_SCHEMAS_ANYSIMPLETYPE:
break;
case XML_SCHEMAS_IDREFS:
case XML_SCHEMAS_NMTOKENS:
case XML_SCHEMAS_ENTITIES:
ret->flags |= XML_SCHEMAS_TYPE_VARIETY_LIST;
ret->facets = xmlSchemaNewMinLengthFacet(1);
ret->flags |= XML_SCHEMAS_TYPE_HAS_FACETS;
break;
default:
ret->flags |= XML_SCHEMAS_TYPE_VARIETY_ATOMIC;
break;
}
xmlHashAddEntry2(xmlSchemaTypesBank, ret->name,
XML_SCHEMAS_NAMESPACE_NAME, ret);
ret->builtInType = type;
return(ret);
}
/*
* WARNING: Those type reside normally in xmlschemas.c but are
* redefined here locally in oder of being able to use them for xs:anyType-
* TODO: Remove those definition if we move the types to a header file.
* TODO: Always keep those structs up-to-date with the originals.
*/
#define UNBOUNDED (1 << 30)
typedef struct _xmlSchemaTreeItem xmlSchemaTreeItem;
typedef xmlSchemaTreeItem *xmlSchemaTreeItemPtr;
struct _xmlSchemaTreeItem {
xmlSchemaTypeType type;
xmlSchemaAnnotPtr annot;
xmlSchemaTreeItemPtr next;
xmlSchemaTreeItemPtr children;
};
typedef struct _xmlSchemaParticle xmlSchemaParticle;
typedef xmlSchemaParticle *xmlSchemaParticlePtr;
struct _xmlSchemaParticle {
xmlSchemaTypeType type;
xmlSchemaAnnotPtr annot;
xmlSchemaTreeItemPtr next;
xmlSchemaTreeItemPtr children;
int minOccurs;
int maxOccurs;
xmlNodePtr node;
};
typedef struct _xmlSchemaModelGroup xmlSchemaModelGroup;
typedef xmlSchemaModelGroup *xmlSchemaModelGroupPtr;
struct _xmlSchemaModelGroup {
xmlSchemaTypeType type;
xmlSchemaAnnotPtr annot;
xmlSchemaTreeItemPtr next;
xmlSchemaTreeItemPtr children;
xmlNodePtr node;
};
static xmlSchemaParticlePtr
xmlSchemaAddParticle(void)
{
xmlSchemaParticlePtr ret = NULL;
ret = (xmlSchemaParticlePtr)
xmlMalloc(sizeof(xmlSchemaParticle));
if (ret == NULL) {
xmlSchemaTypeErrMemory(NULL, "allocating particle component");
return (NULL);
}
memset(ret, 0, sizeof(xmlSchemaParticle));
ret->type = XML_SCHEMA_TYPE_PARTICLE;
ret->minOccurs = 1;
ret->maxOccurs = 1;
return (ret);
}
/*
* xmlSchemaInitTypes:
*
* Initialize the default XML Schemas type library
*/
void
xmlSchemaInitTypes(void)
{
if (xmlSchemaTypesInitialized != 0)
return;
xmlSchemaTypesBank = xmlHashCreate(40);
/*
* 3.4.7 Built-in Complex Type Definition
*/
xmlSchemaTypeAnyTypeDef = xmlSchemaInitBasicType("anyType",
XML_SCHEMAS_ANYTYPE,
NULL);
xmlSchemaTypeAnyTypeDef->baseType = xmlSchemaTypeAnyTypeDef;
xmlSchemaTypeAnyTypeDef->contentType = XML_SCHEMA_CONTENT_MIXED;
/*
* Init the content type.
*/
xmlSchemaTypeAnyTypeDef->contentType = XML_SCHEMA_CONTENT_MIXED;
{
xmlSchemaParticlePtr particle;
xmlSchemaModelGroupPtr sequence;
xmlSchemaWildcardPtr wild;
/* First particle. */
particle = xmlSchemaAddParticle();
if (particle == NULL)
return;
xmlSchemaTypeAnyTypeDef->subtypes = (xmlSchemaTypePtr) particle;
/* Sequence model group. */
sequence = (xmlSchemaModelGroupPtr)
xmlMalloc(sizeof(xmlSchemaModelGroup));
if (sequence == NULL) {
xmlSchemaTypeErrMemory(NULL, "allocating model group component");
return;
}
memset(sequence, 0, sizeof(xmlSchemaModelGroup));
sequence->type = XML_SCHEMA_TYPE_SEQUENCE;
particle->children = (xmlSchemaTreeItemPtr) sequence;
/* Second particle. */
particle = xmlSchemaAddParticle();
if (particle == NULL)
return;
particle->minOccurs = 0;
particle->maxOccurs = UNBOUNDED;
sequence->children = (xmlSchemaTreeItemPtr) particle;
/* The wildcard */
wild = (xmlSchemaWildcardPtr) xmlMalloc(sizeof(xmlSchemaWildcard));
if (wild == NULL) {
xmlSchemaTypeErrMemory(NULL, "allocating wildcard component");
return;
}
memset(wild, 0, sizeof(xmlSchemaWildcard));
wild->type = XML_SCHEMA_TYPE_ANY;
wild->any = 1;
wild->processContents = XML_SCHEMAS_ANY_LAX;
particle->children = (xmlSchemaTreeItemPtr) wild;
/*
* Create the attribute wildcard.
*/
wild = (xmlSchemaWildcardPtr) xmlMalloc(sizeof(xmlSchemaWildcard));
if (wild == NULL) {
xmlSchemaTypeErrMemory(NULL, "could not create an attribute "
"wildcard on anyType");
return;
}
memset(wild, 0, sizeof(xmlSchemaWildcard));
wild->any = 1;
wild->processContents = XML_SCHEMAS_ANY_LAX;
xmlSchemaTypeAnyTypeDef->attributeWildcard = wild;
}
xmlSchemaTypeAnySimpleTypeDef = xmlSchemaInitBasicType("anySimpleType",
XML_SCHEMAS_ANYSIMPLETYPE,
xmlSchemaTypeAnyTypeDef);
/*
* primitive datatypes
*/
xmlSchemaTypeStringDef = xmlSchemaInitBasicType("string",
XML_SCHEMAS_STRING,
xmlSchemaTypeAnySimpleTypeDef);
xmlSchemaTypeDecimalDef = xmlSchemaInitBasicType("decimal",
XML_SCHEMAS_DECIMAL,
xmlSchemaTypeAnySimpleTypeDef);
xmlSchemaTypeDateDef = xmlSchemaInitBasicType("date",
XML_SCHEMAS_DATE,
xmlSchemaTypeAnySimpleTypeDef);
xmlSchemaTypeDatetimeDef = xmlSchemaInitBasicType("dateTime",
XML_SCHEMAS_DATETIME,
xmlSchemaTypeAnySimpleTypeDef);
xmlSchemaTypeTimeDef = xmlSchemaInitBasicType("time",
XML_SCHEMAS_TIME,
xmlSchemaTypeAnySimpleTypeDef);
xmlSchemaTypeGYearDef = xmlSchemaInitBasicType("gYear",
XML_SCHEMAS_GYEAR,
xmlSchemaTypeAnySimpleTypeDef);
xmlSchemaTypeGYearMonthDef = xmlSchemaInitBasicType("gYearMonth",
XML_SCHEMAS_GYEARMONTH,
xmlSchemaTypeAnySimpleTypeDef);
xmlSchemaTypeGMonthDef = xmlSchemaInitBasicType("gMonth",
XML_SCHEMAS_GMONTH,
xmlSchemaTypeAnySimpleTypeDef);
xmlSchemaTypeGMonthDayDef = xmlSchemaInitBasicType("gMonthDay",
XML_SCHEMAS_GMONTHDAY,
xmlSchemaTypeAnySimpleTypeDef);
xmlSchemaTypeGDayDef = xmlSchemaInitBasicType("gDay",
XML_SCHEMAS_GDAY,
xmlSchemaTypeAnySimpleTypeDef);
xmlSchemaTypeDurationDef = xmlSchemaInitBasicType("duration",
XML_SCHEMAS_DURATION,
xmlSchemaTypeAnySimpleTypeDef);
xmlSchemaTypeFloatDef = xmlSchemaInitBasicType("float",
XML_SCHEMAS_FLOAT,
xmlSchemaTypeAnySimpleTypeDef);
xmlSchemaTypeDoubleDef = xmlSchemaInitBasicType("double",
XML_SCHEMAS_DOUBLE,
xmlSchemaTypeAnySimpleTypeDef);
xmlSchemaTypeBooleanDef = xmlSchemaInitBasicType("boolean",
XML_SCHEMAS_BOOLEAN,
xmlSchemaTypeAnySimpleTypeDef);
xmlSchemaTypeAnyURIDef = xmlSchemaInitBasicType("anyURI",
XML_SCHEMAS_ANYURI,
xmlSchemaTypeAnySimpleTypeDef);
xmlSchemaTypeHexBinaryDef = xmlSchemaInitBasicType("hexBinary",
XML_SCHEMAS_HEXBINARY,
xmlSchemaTypeAnySimpleTypeDef);
xmlSchemaTypeBase64BinaryDef
= xmlSchemaInitBasicType("base64Binary", XML_SCHEMAS_BASE64BINARY,
xmlSchemaTypeAnySimpleTypeDef);
xmlSchemaTypeNotationDef = xmlSchemaInitBasicType("NOTATION",
XML_SCHEMAS_NOTATION,
xmlSchemaTypeAnySimpleTypeDef);
xmlSchemaTypeQNameDef = xmlSchemaInitBasicType("QName",
XML_SCHEMAS_QNAME,
xmlSchemaTypeAnySimpleTypeDef);
/*
* derived datatypes
*/
xmlSchemaTypeIntegerDef = xmlSchemaInitBasicType("integer",
XML_SCHEMAS_INTEGER,
xmlSchemaTypeDecimalDef);
xmlSchemaTypeNonPositiveIntegerDef =
xmlSchemaInitBasicType("nonPositiveInteger",
XML_SCHEMAS_NPINTEGER,
xmlSchemaTypeIntegerDef);
xmlSchemaTypeNegativeIntegerDef =
xmlSchemaInitBasicType("negativeInteger", XML_SCHEMAS_NINTEGER,
xmlSchemaTypeNonPositiveIntegerDef);
xmlSchemaTypeLongDef =
xmlSchemaInitBasicType("long", XML_SCHEMAS_LONG,
xmlSchemaTypeIntegerDef);
xmlSchemaTypeIntDef = xmlSchemaInitBasicType("int", XML_SCHEMAS_INT,
xmlSchemaTypeLongDef);
xmlSchemaTypeShortDef = xmlSchemaInitBasicType("short",
XML_SCHEMAS_SHORT,
xmlSchemaTypeIntDef);
xmlSchemaTypeByteDef = xmlSchemaInitBasicType("byte",
XML_SCHEMAS_BYTE,
xmlSchemaTypeShortDef);
xmlSchemaTypeNonNegativeIntegerDef =
xmlSchemaInitBasicType("nonNegativeInteger",
XML_SCHEMAS_NNINTEGER,
xmlSchemaTypeIntegerDef);
xmlSchemaTypeUnsignedLongDef =
xmlSchemaInitBasicType("unsignedLong", XML_SCHEMAS_ULONG,
xmlSchemaTypeNonNegativeIntegerDef);
xmlSchemaTypeUnsignedIntDef =
xmlSchemaInitBasicType("unsignedInt", XML_SCHEMAS_UINT,
xmlSchemaTypeUnsignedLongDef);
xmlSchemaTypeUnsignedShortDef =
xmlSchemaInitBasicType("unsignedShort", XML_SCHEMAS_USHORT,
xmlSchemaTypeUnsignedIntDef);
xmlSchemaTypeUnsignedByteDef =
xmlSchemaInitBasicType("unsignedByte", XML_SCHEMAS_UBYTE,
xmlSchemaTypeUnsignedShortDef);
xmlSchemaTypePositiveIntegerDef =
xmlSchemaInitBasicType("positiveInteger", XML_SCHEMAS_PINTEGER,
xmlSchemaTypeNonNegativeIntegerDef);
xmlSchemaTypeNormStringDef = xmlSchemaInitBasicType("normalizedString",
XML_SCHEMAS_NORMSTRING,
xmlSchemaTypeStringDef);
xmlSchemaTypeTokenDef = xmlSchemaInitBasicType("token",
XML_SCHEMAS_TOKEN,
xmlSchemaTypeNormStringDef);
xmlSchemaTypeLanguageDef = xmlSchemaInitBasicType("language",
XML_SCHEMAS_LANGUAGE,
xmlSchemaTypeTokenDef);
xmlSchemaTypeNameDef = xmlSchemaInitBasicType("Name",
XML_SCHEMAS_NAME,
xmlSchemaTypeTokenDef);
xmlSchemaTypeNmtokenDef = xmlSchemaInitBasicType("NMTOKEN",
XML_SCHEMAS_NMTOKEN,
xmlSchemaTypeTokenDef);
xmlSchemaTypeNCNameDef = xmlSchemaInitBasicType("NCName",
XML_SCHEMAS_NCNAME,
xmlSchemaTypeNameDef);
xmlSchemaTypeIdDef = xmlSchemaInitBasicType("ID", XML_SCHEMAS_ID,
xmlSchemaTypeNCNameDef);
xmlSchemaTypeIdrefDef = xmlSchemaInitBasicType("IDREF",
XML_SCHEMAS_IDREF,
xmlSchemaTypeNCNameDef);
xmlSchemaTypeEntityDef = xmlSchemaInitBasicType("ENTITY",
XML_SCHEMAS_ENTITY,
xmlSchemaTypeNCNameDef);
/*
* Derived list types.
*/
/* ENTITIES */
xmlSchemaTypeEntitiesDef = xmlSchemaInitBasicType("ENTITIES",
XML_SCHEMAS_ENTITIES,
xmlSchemaTypeAnySimpleTypeDef);
xmlSchemaTypeEntitiesDef->subtypes = xmlSchemaTypeEntityDef;
/* IDREFS */
xmlSchemaTypeIdrefsDef = xmlSchemaInitBasicType("IDREFS",
XML_SCHEMAS_IDREFS,
xmlSchemaTypeAnySimpleTypeDef);
xmlSchemaTypeIdrefsDef->subtypes = xmlSchemaTypeIdrefDef;
/* NMTOKENS */
xmlSchemaTypeNmtokensDef = xmlSchemaInitBasicType("NMTOKENS",
XML_SCHEMAS_NMTOKENS,
xmlSchemaTypeAnySimpleTypeDef);
xmlSchemaTypeNmtokensDef->subtypes = xmlSchemaTypeNmtokenDef;
xmlSchemaTypesInitialized = 1;
}
static void
xmlSchemaFreeTypeEntry(void *type, const xmlChar *name ATTRIBUTE_UNUSED) {
xmlSchemaFreeType((xmlSchemaTypePtr) type);
}
/**
* xmlSchemaCleanupTypes:
*
* Cleanup the default XML Schemas type library
*/
void
xmlSchemaCleanupTypes(void) {
if (xmlSchemaTypesInitialized == 0)
return;
/*
* Free xs:anyType.
*/
{
xmlSchemaParticlePtr particle;
/* Attribute wildcard. */
xmlSchemaFreeWildcard(xmlSchemaTypeAnyTypeDef->attributeWildcard);
/* Content type. */
particle = (xmlSchemaParticlePtr) xmlSchemaTypeAnyTypeDef->subtypes;
/* Wildcard. */
xmlSchemaFreeWildcard((xmlSchemaWildcardPtr)
particle->children->children->children);
xmlFree((xmlSchemaParticlePtr) particle->children->children);
/* Sequence model group. */
xmlFree((xmlSchemaModelGroupPtr) particle->children);
xmlFree((xmlSchemaParticlePtr) particle);
xmlSchemaTypeAnyTypeDef->subtypes = NULL;
}
xmlHashFree(xmlSchemaTypesBank, xmlSchemaFreeTypeEntry);
xmlSchemaTypesInitialized = 0;
}
/**
* xmlSchemaIsBuiltInTypeFacet:
* @type: the built-in type
* @facetType: the facet type
*
* Evaluates if a specific facet can be
* used in conjunction with a type.
*
* Returns 1 if the facet can be used with the given built-in type,
* 0 otherwise and -1 in case the type is not a built-in type.
*/
int
xmlSchemaIsBuiltInTypeFacet(xmlSchemaTypePtr type, int facetType)
{
if (type == NULL)
return (-1);
if (type->type != XML_SCHEMA_TYPE_BASIC)
return (-1);
switch (type->builtInType) {
case XML_SCHEMAS_BOOLEAN:
if ((facetType == XML_SCHEMA_FACET_PATTERN) ||
(facetType == XML_SCHEMA_FACET_WHITESPACE))
return (1);
else
return (0);
case XML_SCHEMAS_STRING:
case XML_SCHEMAS_NOTATION:
case XML_SCHEMAS_QNAME:
case XML_SCHEMAS_ANYURI:
case XML_SCHEMAS_BASE64BINARY:
case XML_SCHEMAS_HEXBINARY:
if ((facetType == XML_SCHEMA_FACET_LENGTH) ||
(facetType == XML_SCHEMA_FACET_MINLENGTH) ||
(facetType == XML_SCHEMA_FACET_MAXLENGTH) ||
(facetType == XML_SCHEMA_FACET_PATTERN) ||
(facetType == XML_SCHEMA_FACET_ENUMERATION) ||
(facetType == XML_SCHEMA_FACET_WHITESPACE))
return (1);
else
return (0);
case XML_SCHEMAS_DECIMAL:
if ((facetType == XML_SCHEMA_FACET_TOTALDIGITS) ||
(facetType == XML_SCHEMA_FACET_FRACTIONDIGITS) ||
(facetType == XML_SCHEMA_FACET_PATTERN) ||
(facetType == XML_SCHEMA_FACET_WHITESPACE) ||
(facetType == XML_SCHEMA_FACET_ENUMERATION) ||
(facetType == XML_SCHEMA_FACET_MAXINCLUSIVE) ||
(facetType == XML_SCHEMA_FACET_MAXEXCLUSIVE) ||
(facetType == XML_SCHEMA_FACET_MININCLUSIVE) ||
(facetType == XML_SCHEMA_FACET_MINEXCLUSIVE))
return (1);
else
return (0);
case XML_SCHEMAS_TIME:
case XML_SCHEMAS_GDAY:
case XML_SCHEMAS_GMONTH:
case XML_SCHEMAS_GMONTHDAY:
case XML_SCHEMAS_GYEAR:
case XML_SCHEMAS_GYEARMONTH:
case XML_SCHEMAS_DATE:
case XML_SCHEMAS_DATETIME:
case XML_SCHEMAS_DURATION:
case XML_SCHEMAS_FLOAT:
case XML_SCHEMAS_DOUBLE:
if ((facetType == XML_SCHEMA_FACET_PATTERN) ||
(facetType == XML_SCHEMA_FACET_ENUMERATION) ||
(facetType == XML_SCHEMA_FACET_WHITESPACE) ||
(facetType == XML_SCHEMA_FACET_MAXINCLUSIVE) ||
(facetType == XML_SCHEMA_FACET_MAXEXCLUSIVE) ||
(facetType == XML_SCHEMA_FACET_MININCLUSIVE) ||
(facetType == XML_SCHEMA_FACET_MINEXCLUSIVE))
return (1);
else
return (0);
default:
break;
}
return (0);
}
/**
* xmlSchemaGetBuiltInType:
* @type: the type of the built in type
*
* Gives you the type struct for a built-in
* type by its type id.
*
* Returns the type if found, NULL otherwise.
*/
xmlSchemaTypePtr
xmlSchemaGetBuiltInType(xmlSchemaValType type)
{
if (xmlSchemaTypesInitialized == 0)
xmlSchemaInitTypes();
switch (type) {
case XML_SCHEMAS_ANYSIMPLETYPE:
return (xmlSchemaTypeAnySimpleTypeDef);
case XML_SCHEMAS_STRING:
return (xmlSchemaTypeStringDef);
case XML_SCHEMAS_NORMSTRING:
return (xmlSchemaTypeNormStringDef);
case XML_SCHEMAS_DECIMAL:
return (xmlSchemaTypeDecimalDef);
case XML_SCHEMAS_TIME:
return (xmlSchemaTypeTimeDef);
case XML_SCHEMAS_GDAY:
return (xmlSchemaTypeGDayDef);
case XML_SCHEMAS_GMONTH:
return (xmlSchemaTypeGMonthDef);
case XML_SCHEMAS_GMONTHDAY:
return (xmlSchemaTypeGMonthDayDef);
case XML_SCHEMAS_GYEAR:
return (xmlSchemaTypeGYearDef);
case XML_SCHEMAS_GYEARMONTH:
return (xmlSchemaTypeGYearMonthDef);
case XML_SCHEMAS_DATE:
return (xmlSchemaTypeDateDef);
case XML_SCHEMAS_DATETIME:
return (xmlSchemaTypeDatetimeDef);
case XML_SCHEMAS_DURATION:
return (xmlSchemaTypeDurationDef);
case XML_SCHEMAS_FLOAT:
return (xmlSchemaTypeFloatDef);
case XML_SCHEMAS_DOUBLE:
return (xmlSchemaTypeDoubleDef);
case XML_SCHEMAS_BOOLEAN:
return (xmlSchemaTypeBooleanDef);
case XML_SCHEMAS_TOKEN:
return (xmlSchemaTypeTokenDef);
case XML_SCHEMAS_LANGUAGE:
return (xmlSchemaTypeLanguageDef);
case XML_SCHEMAS_NMTOKEN:
return (xmlSchemaTypeNmtokenDef);
case XML_SCHEMAS_NMTOKENS:
return (xmlSchemaTypeNmtokensDef);
case XML_SCHEMAS_NAME:
return (xmlSchemaTypeNameDef);
case XML_SCHEMAS_QNAME:
return (xmlSchemaTypeQNameDef);
case XML_SCHEMAS_NCNAME:
return (xmlSchemaTypeNCNameDef);
case XML_SCHEMAS_ID:
return (xmlSchemaTypeIdDef);
case XML_SCHEMAS_IDREF:
return (xmlSchemaTypeIdrefDef);
case XML_SCHEMAS_IDREFS:
return (xmlSchemaTypeIdrefsDef);
case XML_SCHEMAS_ENTITY:
return (xmlSchemaTypeEntityDef);
case XML_SCHEMAS_ENTITIES:
return (xmlSchemaTypeEntitiesDef);
case XML_SCHEMAS_NOTATION:
return (xmlSchemaTypeNotationDef);
case XML_SCHEMAS_ANYURI:
return (xmlSchemaTypeAnyURIDef);
case XML_SCHEMAS_INTEGER:
return (xmlSchemaTypeIntegerDef);
case XML_SCHEMAS_NPINTEGER:
return (xmlSchemaTypeNonPositiveIntegerDef);
case XML_SCHEMAS_NINTEGER:
return (xmlSchemaTypeNegativeIntegerDef);
case XML_SCHEMAS_NNINTEGER:
return (xmlSchemaTypeNonNegativeIntegerDef);
case XML_SCHEMAS_PINTEGER:
return (xmlSchemaTypePositiveIntegerDef);
case XML_SCHEMAS_INT:
return (xmlSchemaTypeIntDef);
case XML_SCHEMAS_UINT:
return (xmlSchemaTypeUnsignedIntDef);
case XML_SCHEMAS_LONG:
return (xmlSchemaTypeLongDef);
case XML_SCHEMAS_ULONG:
return (xmlSchemaTypeUnsignedLongDef);
case XML_SCHEMAS_SHORT:
return (xmlSchemaTypeShortDef);
case XML_SCHEMAS_USHORT:
return (xmlSchemaTypeUnsignedShortDef);
case XML_SCHEMAS_BYTE:
return (xmlSchemaTypeByteDef);
case XML_SCHEMAS_UBYTE:
return (xmlSchemaTypeUnsignedByteDef);
case XML_SCHEMAS_HEXBINARY:
return (xmlSchemaTypeHexBinaryDef);
case XML_SCHEMAS_BASE64BINARY:
return (xmlSchemaTypeBase64BinaryDef);
case XML_SCHEMAS_ANYTYPE:
return (xmlSchemaTypeAnyTypeDef);
default:
return (NULL);
}
}
/**
* xmlSchemaValueAppend:
* @prev: the value
* @cur: the value to be appended
*
* Appends a next sibling to a list of computed values.
*
* Returns 0 if succeeded and -1 on API errors.
*/
int
xmlSchemaValueAppend(xmlSchemaValPtr prev, xmlSchemaValPtr cur) {
if ((prev == NULL) || (cur == NULL))
return (-1);
prev->next = cur;
return (0);
}
/**
* xmlSchemaValueGetNext:
* @cur: the value
*
* Accessor for the next sibling of a list of computed values.
*
* Returns the next value or NULL if there was none, or on
* API errors.
*/
xmlSchemaValPtr
xmlSchemaValueGetNext(xmlSchemaValPtr cur) {
if (cur == NULL)
return (NULL);
return (cur->next);
}
/**
* xmlSchemaValueGetAsString:
* @val: the value
*
* Accessor for the string value of a computed value.
*
* Returns the string value or NULL if there was none, or on
* API errors.
*/
const xmlChar *
xmlSchemaValueGetAsString(xmlSchemaValPtr val)
{
if (val == NULL)
return (NULL);
switch (val->type) {
case XML_SCHEMAS_STRING:
case XML_SCHEMAS_NORMSTRING:
case XML_SCHEMAS_ANYSIMPLETYPE:
case XML_SCHEMAS_TOKEN:
case XML_SCHEMAS_LANGUAGE:
case XML_SCHEMAS_NMTOKEN:
case XML_SCHEMAS_NAME:
case XML_SCHEMAS_NCNAME:
case XML_SCHEMAS_ID:
case XML_SCHEMAS_IDREF:
case XML_SCHEMAS_ENTITY:
case XML_SCHEMAS_ANYURI:
return (BAD_CAST val->value.str);
default:
break;
}
return (NULL);
}
/**
* xmlSchemaValueGetAsBoolean:
* @val: the value
*
* Accessor for the boolean value of a computed value.
*
* Returns 1 if true and 0 if false, or in case of an error. Hmm.
*/
int
xmlSchemaValueGetAsBoolean(xmlSchemaValPtr val)
{
if ((val == NULL) || (val->type != XML_SCHEMAS_BOOLEAN))
return (0);
return (val->value.b);
}
/**
* xmlSchemaNewStringValue:
* @type: the value type
* @value: the value
*
* Allocate a new simple type value. The type can be
* of XML_SCHEMAS_STRING.
* WARNING: This one is intended to be expanded for other
* string based types. We need this for anySimpleType as well.
* The given value is consumed and freed with the struct.
*
* Returns a pointer to the new value or NULL in case of error
*/
xmlSchemaValPtr
xmlSchemaNewStringValue(xmlSchemaValType type,
const xmlChar *value)
{
xmlSchemaValPtr val;
if (type != XML_SCHEMAS_STRING)
return(NULL);
val = (xmlSchemaValPtr) xmlMalloc(sizeof(xmlSchemaVal));
if (val == NULL) {
return(NULL);
}
memset(val, 0, sizeof(xmlSchemaVal));
val->type = type;
val->value.str = (xmlChar *) value;
return(val);
}
/**
* xmlSchemaNewNOTATIONValue:
* @name: the notation name
* @ns: the notation namespace name or NULL
*
* Allocate a new NOTATION value.
* The given values are consumed and freed with the struct.
*
* Returns a pointer to the new value or NULL in case of error
*/
xmlSchemaValPtr
xmlSchemaNewNOTATIONValue(const xmlChar *name,
const xmlChar *ns)
{
xmlSchemaValPtr val;
val = xmlSchemaNewValue(XML_SCHEMAS_NOTATION);
if (val == NULL)
return (NULL);
val->value.qname.name = (xmlChar *)name;
if (ns != NULL)
val->value.qname.uri = (xmlChar *)ns;
return(val);
}
/**
* xmlSchemaNewQNameValue:
* @namespaceName: the namespace name
* @localName: the local name
*
* Allocate a new QName value.
* The given values are consumed and freed with the struct.
*
* Returns a pointer to the new value or NULL in case of an error.
*/
xmlSchemaValPtr
xmlSchemaNewQNameValue(const xmlChar *namespaceName,
const xmlChar *localName)
{
xmlSchemaValPtr val;
val = xmlSchemaNewValue(XML_SCHEMAS_QNAME);
if (val == NULL)
return (NULL);
val->value.qname.name = (xmlChar *) localName;
val->value.qname.uri = (xmlChar *) namespaceName;
return(val);
}
/**
* xmlSchemaFreeValue:
* @value: the value to free
*
* Cleanup the default XML Schemas type library
*/
void
xmlSchemaFreeValue(xmlSchemaValPtr value) {
xmlSchemaValPtr prev;
while (value != NULL) {
switch (value->type) {
case XML_SCHEMAS_STRING:
case XML_SCHEMAS_NORMSTRING:
case XML_SCHEMAS_TOKEN:
case XML_SCHEMAS_LANGUAGE:
case XML_SCHEMAS_NMTOKEN:
case XML_SCHEMAS_NMTOKENS:
case XML_SCHEMAS_NAME:
case XML_SCHEMAS_NCNAME:
case XML_SCHEMAS_ID:
case XML_SCHEMAS_IDREF:
case XML_SCHEMAS_IDREFS:
case XML_SCHEMAS_ENTITY:
case XML_SCHEMAS_ENTITIES:
case XML_SCHEMAS_ANYURI:
case XML_SCHEMAS_ANYSIMPLETYPE:
if (value->value.str != NULL)
xmlFree(value->value.str);
break;
case XML_SCHEMAS_NOTATION:
case XML_SCHEMAS_QNAME:
if (value->value.qname.uri != NULL)
xmlFree(value->value.qname.uri);
if (value->value.qname.name != NULL)
xmlFree(value->value.qname.name);
break;
case XML_SCHEMAS_HEXBINARY:
if (value->value.hex.str != NULL)
xmlFree(value->value.hex.str);
break;
case XML_SCHEMAS_BASE64BINARY:
if (value->value.base64.str != NULL)
xmlFree(value->value.base64.str);
break;
default:
break;
}
prev = value;
value = value->next;
xmlFree(prev);
}
}
/**
* xmlSchemaGetPredefinedType:
* @name: the type name
* @ns: the URI of the namespace usually "http://www.w3.org/2001/XMLSchema"
*
* Lookup a type in the default XML Schemas type library
*
* Returns the type if found, NULL otherwise
*/
xmlSchemaTypePtr
xmlSchemaGetPredefinedType(const xmlChar *name, const xmlChar *ns) {
if (xmlSchemaTypesInitialized == 0)
xmlSchemaInitTypes();
if (name == NULL)
return(NULL);
return((xmlSchemaTypePtr) xmlHashLookup2(xmlSchemaTypesBank, name, ns));
}
/**
* xmlSchemaGetBuiltInListSimpleTypeItemType:
* @type: the built-in simple type.
*
* Lookup function
*
* Returns the item type of @type as defined by the built-in datatype
* hierarchy of XML Schema Part 2: Datatypes, or NULL in case of an error.
*/
xmlSchemaTypePtr
xmlSchemaGetBuiltInListSimpleTypeItemType(xmlSchemaTypePtr type)
{
if ((type == NULL) || (type->type != XML_SCHEMA_TYPE_BASIC))
return (NULL);
switch (type->builtInType) {
case XML_SCHEMAS_NMTOKENS:
return (xmlSchemaTypeNmtokenDef );
case XML_SCHEMAS_IDREFS:
return (xmlSchemaTypeIdrefDef);
case XML_SCHEMAS_ENTITIES:
return (xmlSchemaTypeEntityDef);
default:
return (NULL);
}
}
/****************************************************************
* *
* Convenience macros and functions *
* *
****************************************************************/
#define IS_TZO_CHAR(c) \
((c == 0) || (c == 'Z') || (c == '+') || (c == '-'))
#define VALID_YEAR(yr) (yr != 0)
#define VALID_MONTH(mon) ((mon >= 1) && (mon <= 12))
/* VALID_DAY should only be used when month is unknown */
#define VALID_DAY(day) ((day >= 1) && (day <= 31))
#define VALID_HOUR(hr) ((hr >= 0) && (hr <= 23))
#define VALID_MIN(min) ((min >= 0) && (min <= 59))
#define VALID_SEC(sec) ((sec >= 0) && (sec < 60))
#define VALID_TZO(tzo) ((tzo > -840) && (tzo < 840))
#define IS_LEAP(y) \
(((y % 4 == 0) && (y % 100 != 0)) || (y % 400 == 0))
static const unsigned int daysInMonth[12] =
{ 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 };
static const unsigned int daysInMonthLeap[12] =
{ 31, 29, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 };
#define MAX_DAYINMONTH(yr,mon) \
(IS_LEAP(yr) ? daysInMonthLeap[mon - 1] : daysInMonth[mon - 1])
#define VALID_MDAY(dt) \
(IS_LEAP(dt->year) ? \
(dt->day <= daysInMonthLeap[dt->mon - 1]) : \
(dt->day <= daysInMonth[dt->mon - 1]))
#define VALID_DATE(dt) \
(VALID_YEAR(dt->year) && VALID_MONTH(dt->mon) && VALID_MDAY(dt))
#define VALID_END_OF_DAY(dt) \
((dt)->hour == 24 && (dt)->min == 0 && (dt)->sec == 0)
#define VALID_TIME(dt) \
(((VALID_HOUR(dt->hour) && VALID_MIN(dt->min) && \
VALID_SEC(dt->sec)) || VALID_END_OF_DAY(dt)) && \
VALID_TZO(dt->tzo))
#define VALID_DATETIME(dt) \
(VALID_DATE(dt) && VALID_TIME(dt))
#define SECS_PER_MIN (60)
#define SECS_PER_HOUR (60 * SECS_PER_MIN)
#define SECS_PER_DAY (24 * SECS_PER_HOUR)
static const long dayInYearByMonth[12] =
{ 0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334 };
static const long dayInLeapYearByMonth[12] =
{ 0, 31, 60, 91, 121, 152, 182, 213, 244, 274, 305, 335 };
#define DAY_IN_YEAR(day, month, year) \
((IS_LEAP(year) ? \
dayInLeapYearByMonth[month - 1] : \
dayInYearByMonth[month - 1]) + day)
#ifdef DEBUG
#define DEBUG_DATE(dt) \
xmlGenericError(xmlGenericErrorContext, \
"type=%o %04ld-%02u-%02uT%02u:%02u:%03f", \
dt->type,dt->value.date.year,dt->value.date.mon, \
dt->value.date.day,dt->value.date.hour,dt->value.date.min, \
dt->value.date.sec); \
if (dt->value.date.tz_flag) \
if (dt->value.date.tzo != 0) \
xmlGenericError(xmlGenericErrorContext, \
"%+05d\n",dt->value.date.tzo); \
else \
xmlGenericError(xmlGenericErrorContext, "Z\n"); \
else \
xmlGenericError(xmlGenericErrorContext,"\n")
#else
#define DEBUG_DATE(dt)
#endif
/**
* _xmlSchemaParseGYear:
* @dt: pointer to a date structure
* @str: pointer to the string to analyze
*
* Parses a xs:gYear without time zone and fills in the appropriate
* field of the @dt structure. @str is updated to point just after the
* xs:gYear. It is supposed that @dt->year is big enough to contain
* the year.
*
* Returns 0 or the error code
*/
static int
_xmlSchemaParseGYear (xmlSchemaValDatePtr dt, const xmlChar **str) {
const xmlChar *cur = *str, *firstChar;
int isneg = 0, digcnt = 0;
if (((*cur < '0') || (*cur > '9')) &&
(*cur != '-') && (*cur != '+'))
return -1;
if (*cur == '-') {
isneg = 1;
cur++;
}
firstChar = cur;
while ((*cur >= '0') && (*cur <= '9')) {
dt->year = dt->year * 10 + (*cur - '0');
cur++;
digcnt++;
}
/* year must be at least 4 digits (CCYY); over 4
* digits cannot have a leading zero. */
if ((digcnt < 4) || ((digcnt > 4) && (*firstChar == '0')))
return 1;
if (isneg)
dt->year = - dt->year;
if (!VALID_YEAR(dt->year))
return 2;
*str = cur;
return 0;
}
/**
* PARSE_2_DIGITS:
* @num: the integer to fill in
* @cur: an #xmlChar *
* @invalid: an integer
*
* Parses a 2-digits integer and updates @num with the value. @cur is
* updated to point just after the integer.
* In case of error, @invalid is set to %TRUE, values of @num and
* @cur are undefined.
*/
#define PARSE_2_DIGITS(num, cur, invalid) \
if ((cur[0] < '0') || (cur[0] > '9') || \
(cur[1] < '0') || (cur[1] > '9')) \
invalid = 1; \
else \
num = (cur[0] - '0') * 10 + (cur[1] - '0'); \
cur += 2;
/**
* PARSE_FLOAT:
* @num: the double to fill in
* @cur: an #xmlChar *
* @invalid: an integer
*
* Parses a float and updates @num with the value. @cur is
* updated to point just after the float. The float must have a
* 2-digits integer part and may or may not have a decimal part.
* In case of error, @invalid is set to %TRUE, values of @num and
* @cur are undefined.
*/
#define PARSE_FLOAT(num, cur, invalid) \
PARSE_2_DIGITS(num, cur, invalid); \
if (!invalid && (*cur == '.')) { \
double mult = 1; \
cur++; \
if ((*cur < '0') || (*cur > '9')) \
invalid = 1; \
while ((*cur >= '0') && (*cur <= '9')) { \
mult /= 10; \
num += (*cur - '0') * mult; \
cur++; \
} \
}
/**
* _xmlSchemaParseGMonth:
* @dt: pointer to a date structure
* @str: pointer to the string to analyze
*
* Parses a xs:gMonth without time zone and fills in the appropriate
* field of the @dt structure. @str is updated to point just after the
* xs:gMonth.
*
* Returns 0 or the error code
*/
static int
_xmlSchemaParseGMonth (xmlSchemaValDatePtr dt, const xmlChar **str) {
const xmlChar *cur = *str;
int ret = 0;
unsigned int value = 0;
PARSE_2_DIGITS(value, cur, ret);
if (ret != 0)
return ret;
if (!VALID_MONTH(value))
return 2;
dt->mon = value;
*str = cur;
return 0;
}
/**
* _xmlSchemaParseGDay:
* @dt: pointer to a date structure
* @str: pointer to the string to analyze
*
* Parses a xs:gDay without time zone and fills in the appropriate
* field of the @dt structure. @str is updated to point just after the
* xs:gDay.
*
* Returns 0 or the error code
*/
static int
_xmlSchemaParseGDay (xmlSchemaValDatePtr dt, const xmlChar **str) {
const xmlChar *cur = *str;
int ret = 0;
unsigned int value = 0;
PARSE_2_DIGITS(value, cur, ret);
if (ret != 0)
return ret;
if (!VALID_DAY(value))
return 2;
dt->day = value;
*str = cur;
return 0;
}
/**
* _xmlSchemaParseTime:
* @dt: pointer to a date structure
* @str: pointer to the string to analyze
*
* Parses a xs:time without time zone and fills in the appropriate
* fields of the @dt structure. @str is updated to point just after the
* xs:time.
* In case of error, values of @dt fields are undefined.
*
* Returns 0 or the error code
*/
static int
_xmlSchemaParseTime (xmlSchemaValDatePtr dt, const xmlChar **str) {
const xmlChar *cur = *str;
int ret = 0;
int value = 0;
PARSE_2_DIGITS(value, cur, ret);
if (ret != 0)
return ret;
if (*cur != ':')
return 1;
if (!VALID_HOUR(value) && value != 24 /* Allow end-of-day hour */)
return 2;
cur++;
/* the ':' insures this string is xs:time */
dt->hour = value;
PARSE_2_DIGITS(value, cur, ret);
if (ret != 0)
return ret;
if (!VALID_MIN(value))
return 2;
dt->min = value;
if (*cur != ':')
return 1;
cur++;
PARSE_FLOAT(dt->sec, cur, ret);
if (ret != 0)
return ret;
if (!VALID_TIME(dt))
return 2;
*str = cur;
return 0;
}
/**
* _xmlSchemaParseTimeZone:
* @dt: pointer to a date structure
* @str: pointer to the string to analyze
*
* Parses a time zone without time zone and fills in the appropriate
* field of the @dt structure. @str is updated to point just after the
* time zone.
*
* Returns 0 or the error code
*/
static int
_xmlSchemaParseTimeZone (xmlSchemaValDatePtr dt, const xmlChar **str) {
const xmlChar *cur;
int ret = 0;
if (str == NULL)
return -1;
cur = *str;
switch (*cur) {
case 0:
dt->tz_flag = 0;
dt->tzo = 0;
break;
case 'Z':
dt->tz_flag = 1;
dt->tzo = 0;
cur++;
break;
case '+':
case '-': {
int isneg = 0, tmp = 0;
isneg = (*cur == '-');
cur++;
PARSE_2_DIGITS(tmp, cur, ret);
if (ret != 0)
return ret;
if (!VALID_HOUR(tmp))
return 2;
if (*cur != ':')
return 1;
cur++;
dt->tzo = tmp * 60;
PARSE_2_DIGITS(tmp, cur, ret);
if (ret != 0)
return ret;
if (!VALID_MIN(tmp))
return 2;
dt->tzo += tmp;
if (isneg)
dt->tzo = - dt->tzo;
if (!VALID_TZO(dt->tzo))
return 2;
dt->tz_flag = 1;
break;
}
default:
return 1;
}
*str = cur;
return 0;
}
/**
* _xmlSchemaBase64Decode:
* @ch: a character
*
* Converts a base64 encoded character to its base 64 value.
*
* Returns 0-63 (value), 64 (pad), or -1 (not recognized)
*/
static int
_xmlSchemaBase64Decode (const xmlChar ch) {
if (('A' <= ch) && (ch <= 'Z')) return ch - 'A';
if (('a' <= ch) && (ch <= 'z')) return ch - 'a' + 26;
if (('0' <= ch) && (ch <= '9')) return ch - '0' + 52;
if ('+' == ch) return 62;
if ('/' == ch) return 63;
if ('=' == ch) return 64;
return -1;
}
/****************************************************************
* *
* XML Schema Dates/Times Datatypes Handling *
* *
****************************************************************/
/**
* PARSE_DIGITS:
* @num: the integer to fill in
* @cur: an #xmlChar *
* @num_type: an integer flag
*
* Parses a digits integer and updates @num with the value. @cur is
* updated to point just after the integer.
* In case of error, @num_type is set to -1, values of @num and
* @cur are undefined.
*/
#define PARSE_DIGITS(num, cur, num_type) \
if ((*cur < '0') || (*cur > '9')) \
num_type = -1; \
else \
while ((*cur >= '0') && (*cur <= '9')) { \
num = num * 10 + (*cur - '0'); \
cur++; \
}
/**
* PARSE_NUM:
* @num: the double to fill in
* @cur: an #xmlChar *
* @num_type: an integer flag
*
* Parses a float or integer and updates @num with the value. @cur is
* updated to point just after the number. If the number is a float,
* then it must have an integer part and a decimal part; @num_type will
* be set to 1. If there is no decimal part, @num_type is set to zero.
* In case of error, @num_type is set to -1, values of @num and
* @cur are undefined.
*/
#define PARSE_NUM(num, cur, num_type) \
num = 0; \
PARSE_DIGITS(num, cur, num_type); \
if (!num_type && (*cur == '.')) { \
double mult = 1; \
cur++; \
if ((*cur < '0') || (*cur > '9')) \
num_type = -1; \
else \
num_type = 1; \
while ((*cur >= '0') && (*cur <= '9')) { \
mult /= 10; \
num += (*cur - '0') * mult; \
cur++; \
} \
}
/**
* xmlSchemaValidateDates:
* @type: the expected type or XML_SCHEMAS_UNKNOWN
* @dateTime: string to analyze
* @val: the return computed value
*
* Check that @dateTime conforms to the lexical space of one of the date types.
* if true a value is computed and returned in @val.
*
* Returns 0 if this validates, a positive error code number otherwise
* and -1 in case of internal or API error.
*/
static int
xmlSchemaValidateDates (xmlSchemaValType type,
const xmlChar *dateTime, xmlSchemaValPtr *val,
int collapse) {
xmlSchemaValPtr dt;
int ret;
const xmlChar *cur = dateTime;
#define RETURN_TYPE_IF_VALID(t) \
if (IS_TZO_CHAR(*cur)) { \
ret = _xmlSchemaParseTimeZone(&(dt->value.date), &cur); \
if (ret == 0) { \
if (*cur != 0) \
goto error; \
dt->type = t; \
goto done; \
} \
}
if (dateTime == NULL)
return -1;
if (collapse)
while IS_WSP_BLANK_CH(*cur) cur++;
if ((*cur != '-') && (*cur < '0') && (*cur > '9'))
return 1;
dt = xmlSchemaNewValue(XML_SCHEMAS_UNKNOWN);
if (dt == NULL)
return -1;
if ((cur[0] == '-') && (cur[1] == '-')) {
/*
* It's an incomplete date (xs:gMonthDay, xs:gMonth or
* xs:gDay)
*/
cur += 2;
/* is it an xs:gDay? */
if (*cur == '-') {
if (type == XML_SCHEMAS_GMONTH)
goto error;
++cur;
ret = _xmlSchemaParseGDay(&(dt->value.date), &cur);
if (ret != 0)
goto error;
RETURN_TYPE_IF_VALID(XML_SCHEMAS_GDAY);
goto error;
}
/*
* it should be an xs:gMonthDay or xs:gMonth
*/
ret = _xmlSchemaParseGMonth(&(dt->value.date), &cur);
if (ret != 0)
goto error;
/*
* a '-' char could indicate this type is xs:gMonthDay or
* a negative time zone offset. Check for xs:gMonthDay first.
* Also the first three char's of a negative tzo (-MM:SS) can
* appear to be a valid day; so even if the day portion
* of the xs:gMonthDay verifies, we must insure it was not
* a tzo.
*/
if (*cur == '-') {
const xmlChar *rewnd = cur;
cur++;
ret = _xmlSchemaParseGDay(&(dt->value.date), &cur);
if ((ret == 0) && ((*cur == 0) || (*cur != ':'))) {
/*
* we can use the VALID_MDAY macro to validate the month
* and day because the leap year test will flag year zero
* as a leap year (even though zero is an invalid year).
* FUTURE TODO: Zero will become valid in XML Schema 1.1
* probably.
*/
if (VALID_MDAY((&(dt->value.date)))) {
RETURN_TYPE_IF_VALID(XML_SCHEMAS_GMONTHDAY);
goto error;
}
}
/*
* not xs:gMonthDay so rewind and check if just xs:gMonth
* with an optional time zone.
*/
cur = rewnd;
}
RETURN_TYPE_IF_VALID(XML_SCHEMAS_GMONTH);
goto error;
}
/*
* It's a right-truncated date or an xs:time.
* Try to parse an xs:time then fallback on right-truncated dates.
*/
if ((*cur >= '0') && (*cur <= '9')) {
ret = _xmlSchemaParseTime(&(dt->value.date), &cur);
if (ret == 0) {
/* it's an xs:time */
RETURN_TYPE_IF_VALID(XML_SCHEMAS_TIME);
}
}
/* fallback on date parsing */
cur = dateTime;
ret = _xmlSchemaParseGYear(&(dt->value.date), &cur);
if (ret != 0)
goto error;
/* is it an xs:gYear? */
RETURN_TYPE_IF_VALID(XML_SCHEMAS_GYEAR);
if (*cur != '-')
goto error;
cur++;
ret = _xmlSchemaParseGMonth(&(dt->value.date), &cur);
if (ret != 0)
goto error;
/* is it an xs:gYearMonth? */
RETURN_TYPE_IF_VALID(XML_SCHEMAS_GYEARMONTH);
if (*cur != '-')
goto error;
cur++;
ret = _xmlSchemaParseGDay(&(dt->value.date), &cur);
if ((ret != 0) || !VALID_DATE((&(dt->value.date))))
goto error;
/* is it an xs:date? */
RETURN_TYPE_IF_VALID(XML_SCHEMAS_DATE);
if (*cur != 'T')
goto error;
cur++;
/* it should be an xs:dateTime */
ret = _xmlSchemaParseTime(&(dt->value.date), &cur);
if (ret != 0)
goto error;
ret = _xmlSchemaParseTimeZone(&(dt->value.date), &cur);
if (collapse)
while IS_WSP_BLANK_CH(*cur) cur++;
if ((ret != 0) || (*cur != 0) || (!(VALID_DATETIME((&(dt->value.date))))))
goto error;
dt->type = XML_SCHEMAS_DATETIME;
done:
#if 1
if ((type != XML_SCHEMAS_UNKNOWN) && (type != dt->type))
goto error;
#else
/*
* insure the parsed type is equal to or less significant (right
* truncated) than the desired type.
*/
if ((type != XML_SCHEMAS_UNKNOWN) && (type != dt->type)) {
/* time only matches time */
if ((type == XML_SCHEMAS_TIME) && (dt->type == XML_SCHEMAS_TIME))
goto error;
if ((type == XML_SCHEMAS_DATETIME) &&
((dt->type != XML_SCHEMAS_DATE) ||
(dt->type != XML_SCHEMAS_GYEARMONTH) ||
(dt->type != XML_SCHEMAS_GYEAR)))
goto error;
if ((type == XML_SCHEMAS_DATE) &&
((dt->type != XML_SCHEMAS_GYEAR) ||
(dt->type != XML_SCHEMAS_GYEARMONTH)))
goto error;
if ((type == XML_SCHEMAS_GYEARMONTH) && (dt->type != XML_SCHEMAS_GYEAR))
goto error;
if ((type == XML_SCHEMAS_GMONTHDAY) && (dt->type != XML_SCHEMAS_GMONTH))
goto error;
}
#endif
if (val != NULL)
*val = dt;
else
xmlSchemaFreeValue(dt);
return 0;
error:
if (dt != NULL)
xmlSchemaFreeValue(dt);
return 1;
}
/**
* xmlSchemaValidateDuration:
* @type: the predefined type
* @duration: string to analyze
* @val: the return computed value
*
* Check that @duration conforms to the lexical space of the duration type.
* if true a value is computed and returned in @val.
*
* Returns 0 if this validates, a positive error code number otherwise
* and -1 in case of internal or API error.
*/
static int
xmlSchemaValidateDuration (xmlSchemaTypePtr type ATTRIBUTE_UNUSED,
const xmlChar *duration, xmlSchemaValPtr *val,
int collapse) {
const xmlChar *cur = duration;
xmlSchemaValPtr dur;
int isneg = 0;
unsigned int seq = 0;
double num;
int num_type = 0; /* -1 = invalid, 0 = int, 1 = floating */
const xmlChar desig[] = {'Y', 'M', 'D', 'H', 'M', 'S'};
const double multi[] = { 0.0, 0.0, 86400.0, 3600.0, 60.0, 1.0, 0.0};
if (duration == NULL)
return -1;
if (collapse)
while IS_WSP_BLANK_CH(*cur) cur++;
if (*cur == '-') {
isneg = 1;
cur++;
}
/* duration must start with 'P' (after sign) */
if (*cur++ != 'P')
return 1;
if (*cur == 0)
return 1;
dur = xmlSchemaNewValue(XML_SCHEMAS_DURATION);
if (dur == NULL)
return -1;
while (*cur != 0) {
/* input string should be empty or invalid date/time item */
if (seq >= sizeof(desig))
goto error;
/* T designator must be present for time items */
if (*cur == 'T') {
if (seq <= 3) {
seq = 3;
cur++;
} else
return 1;
} else if (seq == 3)
goto error;
/* parse the number portion of the item */
PARSE_NUM(num, cur, num_type);
if ((num_type == -1) || (*cur == 0))
goto error;
/* update duration based on item type */
while (seq < sizeof(desig)) {
if (*cur == desig[seq]) {
/* verify numeric type; only seconds can be float */
if ((num_type != 0) && (seq < (sizeof(desig)-1)))
goto error;
switch (seq) {
case 0:
dur->value.dur.mon = (long)num * 12;
break;
case 1:
dur->value.dur.mon += (long)num;
break;
default:
/* convert to seconds using multiplier */
dur->value.dur.sec += num * multi[seq];
seq++;
break;
}
break; /* exit loop */
}
/* no date designators found? */
if ((++seq == 3) || (seq == 6))
goto error;
}
cur++;
if (collapse)
while IS_WSP_BLANK_CH(*cur) cur++;
}
if (isneg) {
dur->value.dur.mon = -dur->value.dur.mon;
dur->value.dur.day = -dur->value.dur.day;
dur->value.dur.sec = -dur->value.dur.sec;
}
if (val != NULL)
*val = dur;
else
xmlSchemaFreeValue(dur);
return 0;
error:
if (dur != NULL)
xmlSchemaFreeValue(dur);
return 1;
}
/**
* xmlSchemaStrip:
* @value: a value
*
* Removes the leading and ending spaces of a string
*
* Returns the new string or NULL if no change was required.
*/
static xmlChar *
xmlSchemaStrip(const xmlChar *value) {
const xmlChar *start = value, *end, *f;
if (value == NULL) return(NULL);
while ((*start != 0) && (IS_BLANK_CH(*start))) start++;
end = start;
while (*end != 0) end++;
f = end;
end--;
while ((end > start) && (IS_BLANK_CH(*end))) end--;
end++;
if ((start == value) && (f == end)) return(NULL);
return(xmlStrndup(start, end - start));
}
/**
* xmlSchemaWhiteSpaceReplace:
* @value: a value
*
* Replaces 0xd, 0x9 and 0xa with a space.
*
* Returns the new string or NULL if no change was required.
*/
xmlChar *
xmlSchemaWhiteSpaceReplace(const xmlChar *value) {
const xmlChar *cur = value;
xmlChar *ret = NULL, *mcur;
if (value == NULL)
return(NULL);
while ((*cur != 0) &&
(((*cur) != 0xd) && ((*cur) != 0x9) && ((*cur) != 0xa))) {
cur++;
}
if (*cur == 0)
return (NULL);
ret = xmlStrdup(value);
/* TODO FIXME: I guess gcc will bark at this. */
mcur = (xmlChar *) (ret + (cur - value));
do {
if ( ((*mcur) == 0xd) || ((*mcur) == 0x9) || ((*mcur) == 0xa) )
*mcur = ' ';
mcur++;
} while (*mcur != 0);
return(ret);
}
/**
* xmlSchemaCollapseString:
* @value: a value
*
* Removes and normalize white spaces in the string
*
* Returns the new string or NULL if no change was required.
*/
xmlChar *
xmlSchemaCollapseString(const xmlChar *value) {
const xmlChar *start = value, *end, *f;
xmlChar *g;
int col = 0;
if (value == NULL) return(NULL);
while ((*start != 0) && (IS_BLANK_CH(*start))) start++;
end = start;
while (*end != 0) {
if ((*end == ' ') && (IS_BLANK_CH(end[1]))) {
col = end - start;
break;
} else if ((*end == 0xa) || (*end == 0x9) || (*end == 0xd)) {
col = end - start;
break;
}
end++;
}
if (col == 0) {
f = end;
end--;
while ((end > start) && (IS_BLANK_CH(*end))) end--;
end++;
if ((start == value) && (f == end)) return(NULL);
return(xmlStrndup(start, end - start));
}
start = xmlStrdup(start);
if (start == NULL) return(NULL);
g = (xmlChar *) (start + col);
end = g;
while (*end != 0) {
if (IS_BLANK_CH(*end)) {
end++;
while (IS_BLANK_CH(*end)) end++;
if (*end != 0)
*g++ = ' ';
} else
*g++ = *end++;
}
*g = 0;
return((xmlChar *) start);
}
/**
* xmlSchemaValAtomicListNode:
* @type: the predefined atomic type for a token in the list
* @value: the list value to check
* @ret: the return computed value
* @node: the node containing the value
*
* Check that a value conforms to the lexical space of the predefined
* list type. if true a value is computed and returned in @ret.
*
* Returns the number of items if this validates, a negative error code
* number otherwise
*/
static int
xmlSchemaValAtomicListNode(xmlSchemaTypePtr type, const xmlChar *value,
xmlSchemaValPtr *ret, xmlNodePtr node) {
xmlChar *val, *cur, *endval;
int nb_values = 0;
int tmp = 0;
if (value == NULL) {
return(-1);
}
val = xmlStrdup(value);
if (val == NULL) {
return(-1);
}
if (ret != NULL) {
*ret = NULL;
}
cur = val;
/*
* Split the list
*/
while (IS_BLANK_CH(*cur)) *cur++ = 0;
while (*cur != 0) {
if (IS_BLANK_CH(*cur)) {
*cur = 0;
cur++;
while (IS_BLANK_CH(*cur)) *cur++ = 0;
} else {
nb_values++;
cur++;
while ((*cur != 0) && (!IS_BLANK_CH(*cur))) cur++;
}
}
if (nb_values == 0) {
xmlFree(val);
return(nb_values);
}
endval = cur;
cur = val;
while ((*cur == 0) && (cur != endval)) cur++;
while (cur != endval) {
tmp = xmlSchemaValPredefTypeNode(type, cur, NULL, node);
if (tmp != 0)
break;
while (*cur != 0) cur++;
while ((*cur == 0) && (cur != endval)) cur++;
}
/* TODO what return value ? c.f. bug #158628
if (ret != NULL) {
TODO
} */
xmlFree(val);
if (tmp == 0)
return(nb_values);
return(-1);
}
/**
* xmlSchemaParseUInt:
* @str: pointer to the string R/W
* @llo: pointer to the low result
* @lmi: pointer to the mid result
* @lhi: pointer to the high result
*
* Parse an unsigned long into 3 fields.
*
* Returns the number of significant digits in the number or
* -1 if overflow of the capacity and -2 if it's not a number.
*/
static int
xmlSchemaParseUInt(const xmlChar **str, unsigned long *llo,
unsigned long *lmi, unsigned long *lhi) {
unsigned long lo = 0, mi = 0, hi = 0;
const xmlChar *tmp, *cur = *str;
int ret = 0, i = 0;
if (!((*cur >= '0') && (*cur <= '9')))
return(-2);
while (*cur == '0') { /* ignore leading zeroes */
cur++;
}
tmp = cur;
while ((*tmp != 0) && (*tmp >= '0') && (*tmp <= '9')) {
i++;tmp++;ret++;
}
if (i > 24) {
*str = tmp;
return(-1);
}
while (i > 16) {
hi = hi * 10 + (*cur++ - '0');
i--;
}
while (i > 8) {
mi = mi * 10 + (*cur++ - '0');
i--;
}
while (i > 0) {
lo = lo * 10 + (*cur++ - '0');
i--;
}
*str = cur;
*llo = lo;
*lmi = mi;
*lhi = hi;
return(ret);
}
/**
* xmlSchemaValAtomicType:
* @type: the predefined type
* @value: the value to check
* @val: the return computed value
* @node: the node containing the value
* flags: flags to control the vlidation
*
* Check that a value conforms to the lexical space of the atomic type.
* if true a value is computed and returned in @val.
* This checks the value space for list types as well (IDREFS, NMTOKENS).
*
* Returns 0 if this validates, a positive error code number otherwise
* and -1 in case of internal or API error.
*/
static int
xmlSchemaValAtomicType(xmlSchemaTypePtr type, const xmlChar * value,
xmlSchemaValPtr * val, xmlNodePtr node, int flags,
xmlSchemaWhitespaceValueType ws,
int normOnTheFly, int applyNorm, int createStringValue)
{
xmlSchemaValPtr v;
xmlChar *norm = NULL;
int ret = 0;
if (xmlSchemaTypesInitialized == 0)
xmlSchemaInitTypes();
if (type == NULL)
return (-1);
/*
* validating a non existant text node is similar to validating
* an empty one.
*/
if (value == NULL)
value = BAD_CAST "";
if (val != NULL)
*val = NULL;
if ((flags == 0) && (value != NULL)) {
if ((type->builtInType != XML_SCHEMAS_STRING) &&
(type->builtInType != XML_SCHEMAS_ANYTYPE) &&
(type->builtInType != XML_SCHEMAS_ANYSIMPLETYPE)) {
if (type->builtInType == XML_SCHEMAS_NORMSTRING)
norm = xmlSchemaWhiteSpaceReplace(value);
else
norm = xmlSchemaCollapseString(value);
if (norm != NULL)
value = norm;
}
}
switch (type->builtInType) {
case XML_SCHEMAS_UNKNOWN:
goto error;
case XML_SCHEMAS_ANYTYPE:
case XML_SCHEMAS_ANYSIMPLETYPE:
if ((createStringValue) && (val != NULL)) {
v = xmlSchemaNewValue(XML_SCHEMAS_ANYSIMPLETYPE);
if (v != NULL) {
v->value.str = xmlStrdup(value);
*val = v;
} else {
goto error;
}
}
goto return0;
case XML_SCHEMAS_STRING:
if (! normOnTheFly) {
const xmlChar *cur = value;
if (ws == XML_SCHEMA_WHITESPACE_REPLACE) {
while (*cur != 0) {
if ((*cur == 0xd) || (*cur == 0xa) || (*cur == 0x9)) {
goto return1;
} else {
cur++;
}
}
} else if (ws == XML_SCHEMA_WHITESPACE_COLLAPSE) {
while (*cur != 0) {
if ((*cur == 0xd) || (*cur == 0xa) || (*cur == 0x9)) {
goto return1;
} else if IS_WSP_SPACE_CH(*cur) {
cur++;
if IS_WSP_SPACE_CH(*cur)
goto return1;
} else {
cur++;
}
}
}
}
if (createStringValue && (val != NULL)) {
if (applyNorm) {
if (ws == XML_SCHEMA_WHITESPACE_COLLAPSE)
norm = xmlSchemaCollapseString(value);
else if (ws == XML_SCHEMA_WHITESPACE_REPLACE)
norm = xmlSchemaWhiteSpaceReplace(value);
if (norm != NULL)
value = norm;
}
v = xmlSchemaNewValue(XML_SCHEMAS_STRING);
if (v != NULL) {
v->value.str = xmlStrdup(value);
*val = v;
} else {
goto error;
}
}
goto return0;
case XML_SCHEMAS_NORMSTRING:{
if (normOnTheFly) {
if (applyNorm) {
if (ws == XML_SCHEMA_WHITESPACE_COLLAPSE)
norm = xmlSchemaCollapseString(value);
else
norm = xmlSchemaWhiteSpaceReplace(value);
if (norm != NULL)
value = norm;
}
} else {
const xmlChar *cur = value;
while (*cur != 0) {
if ((*cur == 0xd) || (*cur == 0xa) || (*cur == 0x9)) {
goto return1;
} else {
cur++;
}
}
}
if (val != NULL) {
v = xmlSchemaNewValue(XML_SCHEMAS_NORMSTRING);
if (v != NULL) {
v->value.str = xmlStrdup(value);
*val = v;
} else {
goto error;
}
}
goto return0;
}
case XML_SCHEMAS_DECIMAL:{
const xmlChar *cur = value;
unsigned int len, neg, integ, hasLeadingZeroes;
xmlChar cval[25];
xmlChar *cptr = cval;
if ((cur == NULL) || (*cur == 0))
goto return1;
/*
* xs:decimal has a whitespace-facet value of 'collapse'.
*/
if (normOnTheFly)
while IS_WSP_BLANK_CH(*cur) cur++;
/*
* First we handle an optional sign.
*/
neg = 0;
if (*cur == '-') {
neg = 1;
cur++;
} else if (*cur == '+')
cur++;
/*
* Disallow: "", "-", "- "
*/
if (*cur == 0)
goto return1;
/*
* Next we "pre-parse" the number, in preparation for calling
* the common routine xmlSchemaParseUInt. We get rid of any
* leading zeroes (because we have reserved only 25 chars),
* and note the position of a decimal point.
*/
len = 0;
integ = ~0u;
hasLeadingZeroes = 0;
/*
* Skip leading zeroes.
*/
while (*cur == '0') {
cur++;
hasLeadingZeroes = 1;
}
if (*cur != 0) {
do {
if ((*cur >= '0') && (*cur <= '9')) {
*cptr++ = *cur++;
len++;
} else if (*cur == '.') {
cur++;
integ = len;
do {
if ((*cur >= '0') && (*cur <= '9')) {
*cptr++ = *cur++;
len++;
} else
break;
} while (len < 24);
/*
* Disallow "." but allow "00."
*/
if ((len == 0) && (!hasLeadingZeroes))
goto return1;
break;
} else
break;
} while (len < 24);
}
if (normOnTheFly)
while IS_WSP_BLANK_CH(*cur) cur++;
if (*cur != 0)
goto return1; /* error if any extraneous chars */
if (val != NULL) {
v = xmlSchemaNewValue(XML_SCHEMAS_DECIMAL);
if (v != NULL) {
/*
* Now evaluate the significant digits of the number
*/
if (len != 0) {
if (integ != ~0u) {
/*
* Get rid of trailing zeroes in the
* fractional part.
*/
while ((len != integ) && (*(cptr-1) == '0')) {
cptr--;
len--;
}
}
/*
* Terminate the (preparsed) string.
*/
if (len != 0) {
*cptr = 0;
cptr = cval;
xmlSchemaParseUInt((const xmlChar **)&cptr,
&v->value.decimal.lo,
&v->value.decimal.mi,
&v->value.decimal.hi);
}
}
/*
* Set the total digits to 1 if a zero value.
*/
v->value.decimal.sign = neg;
if (len == 0) {
/* Speedup for zero values. */
v->value.decimal.total = 1;
} else {
v->value.decimal.total = len;
if (integ == ~0u)
v->value.decimal.frac = 0;
else
v->value.decimal.frac = len - integ;
}
*val = v;
}
}
goto return0;
}
case XML_SCHEMAS_TIME:
case XML_SCHEMAS_GDAY:
case XML_SCHEMAS_GMONTH:
case XML_SCHEMAS_GMONTHDAY:
case XML_SCHEMAS_GYEAR:
case XML_SCHEMAS_GYEARMONTH:
case XML_SCHEMAS_DATE:
case XML_SCHEMAS_DATETIME:
ret = xmlSchemaValidateDates(type->builtInType, value, val,
normOnTheFly);
break;
case XML_SCHEMAS_DURATION:
ret = xmlSchemaValidateDuration(type, value, val,
normOnTheFly);
break;
case XML_SCHEMAS_FLOAT:
case XML_SCHEMAS_DOUBLE: {
const xmlChar *cur = value;
int neg = 0;
int digits_before = 0;
int digits_after = 0;
if (normOnTheFly)
while IS_WSP_BLANK_CH(*cur) cur++;
if ((cur[0] == 'N') && (cur[1] == 'a') && (cur[2] == 'N')) {
cur += 3;
if (*cur != 0)
goto return1;
if (val != NULL) {
if (type == xmlSchemaTypeFloatDef) {
v = xmlSchemaNewValue(XML_SCHEMAS_FLOAT);
if (v != NULL) {
v->value.f = (float) xmlXPathNAN;
} else {
xmlSchemaFreeValue(v);
goto error;
}
} else {
v = xmlSchemaNewValue(XML_SCHEMAS_DOUBLE);
if (v != NULL) {
v->value.d = xmlXPathNAN;
} else {
xmlSchemaFreeValue(v);
goto error;
}
}
*val = v;
}
goto return0;
}
if (*cur == '-') {
neg = 1;
cur++;
}
if ((cur[0] == 'I') && (cur[1] == 'N') && (cur[2] == 'F')) {
cur += 3;
if (*cur != 0)
goto return1;
if (val != NULL) {
if (type == xmlSchemaTypeFloatDef) {
v = xmlSchemaNewValue(XML_SCHEMAS_FLOAT);
if (v != NULL) {
if (neg)
v->value.f = (float) xmlXPathNINF;
else
v->value.f = (float) xmlXPathPINF;
} else {
xmlSchemaFreeValue(v);
goto error;
}
} else {
v = xmlSchemaNewValue(XML_SCHEMAS_DOUBLE);
if (v != NULL) {
if (neg)
v->value.d = xmlXPathNINF;
else
v->value.d = xmlXPathPINF;
} else {
xmlSchemaFreeValue(v);
goto error;
}
}
*val = v;
}
goto return0;
}
if ((neg == 0) && (*cur == '+'))
cur++;
if ((cur[0] == 0) || (cur[0] == '+') || (cur[0] == '-'))
goto return1;
while ((*cur >= '0') && (*cur <= '9')) {
cur++;
digits_before++;
}
if (*cur == '.') {
cur++;
while ((*cur >= '0') && (*cur <= '9')) {
cur++;
digits_after++;
}
}
if ((digits_before == 0) && (digits_after == 0))
goto return1;
if ((*cur == 'e') || (*cur == 'E')) {
cur++;
if ((*cur == '-') || (*cur == '+'))
cur++;
while ((*cur >= '0') && (*cur <= '9'))
cur++;
}
if (normOnTheFly)
while IS_WSP_BLANK_CH(*cur) cur++;
if (*cur != 0)
goto return1;
if (val != NULL) {
if (type == xmlSchemaTypeFloatDef) {
v = xmlSchemaNewValue(XML_SCHEMAS_FLOAT);
if (v != NULL) {
/*
* TODO: sscanf seems not to give the correct
* value for extremely high/low values.
* E.g. "1E-149" results in zero.
*/
if (sscanf((const char *) value, "%f",
&(v->value.f)) == 1) {
*val = v;
} else {
xmlSchemaFreeValue(v);
goto return1;
}
} else {
goto error;
}
} else {
v = xmlSchemaNewValue(XML_SCHEMAS_DOUBLE);
if (v != NULL) {
/*
* TODO: sscanf seems not to give the correct
* value for extremely high/low values.
*/
if (sscanf((const char *) value, "%lf",
&(v->value.d)) == 1) {
*val = v;
} else {
xmlSchemaFreeValue(v);
goto return1;
}
} else {
goto error;
}
}
}
goto return0;
}
case XML_SCHEMAS_BOOLEAN:{
const xmlChar *cur = value;
if (normOnTheFly) {
while IS_WSP_BLANK_CH(*cur) cur++;
if (*cur == '0') {
ret = 0;
cur++;
} else if (*cur == '1') {
ret = 1;
cur++;
} else if (*cur == 't') {
cur++;
if ((*cur++ == 'r') && (*cur++ == 'u') &&
(*cur++ == 'e')) {
ret = 1;
} else
goto return1;
} else if (*cur == 'f') {
cur++;
if ((*cur++ == 'a') && (*cur++ == 'l') &&
(*cur++ == 's') && (*cur++ == 'e')) {
ret = 0;
} else
goto return1;
} else
goto return1;
if (*cur != 0) {
while IS_WSP_BLANK_CH(*cur) cur++;
if (*cur != 0)
goto return1;
}
} else {
if ((cur[0] == '0') && (cur[1] == 0))
ret = 0;
else if ((cur[0] == '1') && (cur[1] == 0))
ret = 1;
else if ((cur[0] == 't') && (cur[1] == 'r')
&& (cur[2] == 'u') && (cur[3] == 'e')
&& (cur[4] == 0))
ret = 1;
else if ((cur[0] == 'f') && (cur[1] == 'a')
&& (cur[2] == 'l') && (cur[3] == 's')
&& (cur[4] == 'e') && (cur[5] == 0))
ret = 0;
else
goto return1;
}
if (val != NULL) {
v = xmlSchemaNewValue(XML_SCHEMAS_BOOLEAN);
if (v != NULL) {
v->value.b = ret;
*val = v;
} else {
goto error;
}
}
goto return0;
}
case XML_SCHEMAS_TOKEN:{
const xmlChar *cur = value;
if (! normOnTheFly) {
while (*cur != 0) {
if ((*cur == 0xd) || (*cur == 0xa) || (*cur == 0x9)) {
goto return1;
} else if (*cur == ' ') {
cur++;
if (*cur == 0)
goto return1;
if (*cur == ' ')
goto return1;
} else {
cur++;
}
}
}
if (val != NULL) {
v = xmlSchemaNewValue(XML_SCHEMAS_TOKEN);
if (v != NULL) {
v->value.str = xmlStrdup(value);
*val = v;
} else {
goto error;
}
}
goto return0;
}
case XML_SCHEMAS_LANGUAGE:
if (normOnTheFly) {
norm = xmlSchemaCollapseString(value);
if (norm != NULL)
value = norm;
}
if (xmlCheckLanguageID(value) == 1) {
if (val != NULL) {
v = xmlSchemaNewValue(XML_SCHEMAS_LANGUAGE);
if (v != NULL) {
v->value.str = xmlStrdup(value);
*val = v;
} else {
goto error;
}
}
goto return0;
}
goto return1;
case XML_SCHEMAS_NMTOKEN:
if (xmlValidateNMToken(value, 1) == 0) {
if (val != NULL) {
v = xmlSchemaNewValue(XML_SCHEMAS_NMTOKEN);
if (v != NULL) {
v->value.str = xmlStrdup(value);
*val = v;
} else {
goto error;
}
}
goto return0;
}
goto return1;
case XML_SCHEMAS_NMTOKENS:
ret = xmlSchemaValAtomicListNode(xmlSchemaTypeNmtokenDef,
value, val, node);
if (ret > 0)
ret = 0;
else
ret = 1;
goto done;
case XML_SCHEMAS_NAME:
ret = xmlValidateName(value, 1);
if ((ret == 0) && (val != NULL) && (value != NULL)) {
v = xmlSchemaNewValue(XML_SCHEMAS_NAME);
if (v != NULL) {
const xmlChar *start = value, *end;
while (IS_BLANK_CH(*start)) start++;
end = start;
while ((*end != 0) && (!IS_BLANK_CH(*end))) end++;
v->value.str = xmlStrndup(start, end - start);
*val = v;
} else {
goto error;
}
}
goto done;
case XML_SCHEMAS_QNAME:{
const xmlChar *uri = NULL;
xmlChar *local = NULL;
ret = xmlValidateQName(value, 1);
if (ret != 0)
goto done;
if (node != NULL) {
xmlChar *prefix;
xmlNsPtr ns;
local = xmlSplitQName2(value, &prefix);
ns = xmlSearchNs(node->doc, node, prefix);
if ((ns == NULL) && (prefix != NULL)) {
xmlFree(prefix);
if (local != NULL)
xmlFree(local);
goto return1;
}
if (ns != NULL)
uri = ns->href;
if (prefix != NULL)
xmlFree(prefix);
}
if (val != NULL) {
v = xmlSchemaNewValue(XML_SCHEMAS_QNAME);
if (v == NULL) {
if (local != NULL)
xmlFree(local);
goto error;
}
if (local != NULL)
v->value.qname.name = local;
else
v->value.qname.name = xmlStrdup(value);
if (uri != NULL)
v->value.qname.uri = xmlStrdup(uri);
*val = v;
} else
if (local != NULL)
xmlFree(local);
goto done;
}
case XML_SCHEMAS_NCNAME:
ret = xmlValidateNCName(value, 1);
if ((ret == 0) && (val != NULL)) {
v = xmlSchemaNewValue(XML_SCHEMAS_NCNAME);
if (v != NULL) {
v->value.str = xmlStrdup(value);
*val = v;
} else {
goto error;
}
}
goto done;
case XML_SCHEMAS_ID:
ret = xmlValidateNCName(value, 1);
if ((ret == 0) && (val != NULL)) {
v = xmlSchemaNewValue(XML_SCHEMAS_ID);
if (v != NULL) {
v->value.str = xmlStrdup(value);
*val = v;
} else {
goto error;
}
}
if ((ret == 0) && (node != NULL) &&
(node->type == XML_ATTRIBUTE_NODE)) {
xmlAttrPtr attr = (xmlAttrPtr) node;
/*
* NOTE: the IDness might have already be declared in the DTD
*/
if (attr->atype != XML_ATTRIBUTE_ID) {
xmlIDPtr res;
xmlChar *strip;
strip = xmlSchemaStrip(value);
if (strip != NULL) {
res = xmlAddID(NULL, node->doc, strip, attr);
xmlFree(strip);
} else
res = xmlAddID(NULL, node->doc, value, attr);
if (res == NULL) {
ret = 2;
} else {
attr->atype = XML_ATTRIBUTE_ID;
}
}
}
goto done;
case XML_SCHEMAS_IDREF:
ret = xmlValidateNCName(value, 1);
if ((ret == 0) && (val != NULL)) {
v = xmlSchemaNewValue(XML_SCHEMAS_IDREF);
if (v == NULL)
goto error;
v->value.str = xmlStrdup(value);
*val = v;
}
if ((ret == 0) && (node != NULL) &&
(node->type == XML_ATTRIBUTE_NODE)) {
xmlAttrPtr attr = (xmlAttrPtr) node;
xmlChar *strip;
strip = xmlSchemaStrip(value);
if (strip != NULL) {
xmlAddRef(NULL, node->doc, strip, attr);
xmlFree(strip);
} else
xmlAddRef(NULL, node->doc, value, attr);
attr->atype = XML_ATTRIBUTE_IDREF;
}
goto done;
case XML_SCHEMAS_IDREFS:
ret = xmlSchemaValAtomicListNode(xmlSchemaTypeIdrefDef,
value, val, node);
if (ret < 0)
ret = 2;
else
ret = 0;
if ((ret == 0) && (node != NULL) &&
(node->type == XML_ATTRIBUTE_NODE)) {
xmlAttrPtr attr = (xmlAttrPtr) node;
attr->atype = XML_ATTRIBUTE_IDREFS;
}
goto done;
case XML_SCHEMAS_ENTITY:{
xmlChar *strip;
ret = xmlValidateNCName(value, 1);
if ((node == NULL) || (node->doc == NULL))
ret = 3;
if (ret == 0) {
xmlEntityPtr ent;
strip = xmlSchemaStrip(value);
if (strip != NULL) {
ent = xmlGetDocEntity(node->doc, strip);
xmlFree(strip);
} else {
ent = xmlGetDocEntity(node->doc, value);
}
if ((ent == NULL) ||
(ent->etype !=
XML_EXTERNAL_GENERAL_UNPARSED_ENTITY))
ret = 4;
}
if ((ret == 0) && (val != NULL)) {
TODO;
}
if ((ret == 0) && (node != NULL) &&
(node->type == XML_ATTRIBUTE_NODE)) {
xmlAttrPtr attr = (xmlAttrPtr) node;
attr->atype = XML_ATTRIBUTE_ENTITY;
}
goto done;
}
case XML_SCHEMAS_ENTITIES:
if ((node == NULL) || (node->doc == NULL))
goto return3;
ret = xmlSchemaValAtomicListNode(xmlSchemaTypeEntityDef,
value, val, node);
if (ret <= 0)
ret = 1;
else
ret = 0;
if ((ret == 0) && (node != NULL) &&
(node->type == XML_ATTRIBUTE_NODE)) {
xmlAttrPtr attr = (xmlAttrPtr) node;
attr->atype = XML_ATTRIBUTE_ENTITIES;
}
goto done;
case XML_SCHEMAS_NOTATION:{
xmlChar *uri = NULL;
xmlChar *local = NULL;
ret = xmlValidateQName(value, 1);
if ((ret == 0) && (node != NULL)) {
xmlChar *prefix;
local = xmlSplitQName2(value, &prefix);
if (prefix != NULL) {
xmlNsPtr ns;
ns = xmlSearchNs(node->doc, node, prefix);
if (ns == NULL)
ret = 1;
else if (val != NULL)
uri = xmlStrdup(ns->href);
}
if ((local != NULL) && ((val == NULL) || (ret != 0)))
xmlFree(local);
if (prefix != NULL)
xmlFree(prefix);
}
if ((node == NULL) || (node->doc == NULL))
ret = 3;
if (ret == 0) {
ret = xmlValidateNotationUse(NULL, node->doc, value);
if (ret == 1)
ret = 0;
else
ret = 1;
}
if ((ret == 0) && (val != NULL)) {
v = xmlSchemaNewValue(XML_SCHEMAS_NOTATION);
if (v != NULL) {
if (local != NULL)
v->value.qname.name = local;
else
v->value.qname.name = xmlStrdup(value);
if (uri != NULL)
v->value.qname.uri = uri;
*val = v;
} else {
if (local != NULL)
xmlFree(local);
if (uri != NULL)
xmlFree(uri);
goto error;
}
}
goto done;
}
case XML_SCHEMAS_ANYURI:{
if (*value != 0) {
xmlURIPtr uri;
xmlChar *tmpval, *cur;
if (normOnTheFly) {
norm = xmlSchemaCollapseString(value);
if (norm != NULL)
value = norm;
}
tmpval = xmlStrdup(value);
for (cur = tmpval; *cur; ++cur) {
if (*cur < 32 || *cur >= 127 || *cur == ' ' ||
*cur == '<' || *cur == '>' || *cur == '"' ||
*cur == '{' || *cur == '}' || *cur == '|' ||
*cur == '\\' || *cur == '^' || *cur == '`' ||
*cur == '\'')
*cur = '_';
}
uri = xmlParseURI((const char *) tmpval);
xmlFree(tmpval);
if (uri == NULL)
goto return1;
xmlFreeURI(uri);
}
if (val != NULL) {
v = xmlSchemaNewValue(XML_SCHEMAS_ANYURI);
if (v == NULL)
goto error;
v->value.str = xmlStrdup(value);
*val = v;
}
goto return0;
}
case XML_SCHEMAS_HEXBINARY:{
const xmlChar *cur = value, *start;
xmlChar *base;
int total, i = 0;
if (cur == NULL)
goto return1;
if (normOnTheFly)
while IS_WSP_BLANK_CH(*cur) cur++;
start = cur;
while (((*cur >= '0') && (*cur <= '9')) ||
((*cur >= 'A') && (*cur <= 'F')) ||
((*cur >= 'a') && (*cur <= 'f'))) {
i++;
cur++;
}
if (normOnTheFly)
while IS_WSP_BLANK_CH(*cur) cur++;
if (*cur != 0)
goto return1;
if ((i % 2) != 0)
goto return1;
if (val != NULL) {
v = xmlSchemaNewValue(XML_SCHEMAS_HEXBINARY);
if (v == NULL)
goto error;
/*
* Copy only the normalized piece.
* CRITICAL TODO: Check this.
*/
cur = xmlStrndup(start, i);
if (cur == NULL) {
xmlSchemaTypeErrMemory(node, "allocating hexbin data");
xmlFree(v);
goto return1;
}
total = i / 2; /* number of octets */
base = (xmlChar *) cur;
while (i-- > 0) {
if (*base >= 'a')
*base = *base - ('a' - 'A');
base++;
}
v->value.hex.str = (xmlChar *) cur;
v->value.hex.total = total;
*val = v;
}
goto return0;
}
case XML_SCHEMAS_BASE64BINARY:{
/* ISSUE:
*
* Ignore all stray characters? (yes, currently)
* Worry about long lines? (no, currently)
*
* rfc2045.txt:
*
* "The encoded output stream must be represented in lines of
* no more than 76 characters each. All line breaks or other
* characters not found in Table 1 must be ignored by decoding
* software. In base64 data, characters other than those in
* Table 1, line breaks, and other white space probably
* indicate a transmission error, about which a warning
* message or even a message rejection might be appropriate
* under some circumstances." */
const xmlChar *cur = value;
xmlChar *base;
int total, i = 0, pad = 0;
if (cur == NULL)
goto return1;
for (; *cur; ++cur) {
int decc;
decc = _xmlSchemaBase64Decode(*cur);
if (decc < 0) ;
else if (decc < 64)
i++;
else
break;
}
for (; *cur; ++cur) {
int decc;
decc = _xmlSchemaBase64Decode(*cur);
if (decc < 0) ;
else if (decc < 64)
goto return1;
if (decc == 64)
pad++;
}
/* rfc2045.txt: "Special processing is performed if fewer than
* 24 bits are available at the end of the data being encoded.
* A full encoding quantum is always completed at the end of a
* body. When fewer than 24 input bits are available in an
* input group, zero bits are added (on the right) to form an
* integral number of 6-bit groups. Padding at the end of the
* data is performed using the "=" character. Since all
* base64 input is an integral number of octets, only the
* following cases can arise: (1) the final quantum of
* encoding input is an integral multiple of 24 bits; here,
* the final unit of encoded output will be an integral
* multiple ofindent: Standard input:701: Warning:old style
* assignment ambiguity in "=*". Assuming "= *" 4 characters
* with no "=" padding, (2) the final
* quantum of encoding input is exactly 8 bits; here, the
* final unit of encoded output will be two characters
* followed by two "=" padding characters, or (3) the final
* quantum of encoding input is exactly 16 bits; here, the
* final unit of encoded output will be three characters
* followed by one "=" padding character." */
total = 3 * (i / 4);
if (pad == 0) {
if (i % 4 != 0)
goto return1;
} else if (pad == 1) {
int decc;
if (i % 4 != 3)
goto return1;
for (decc = _xmlSchemaBase64Decode(*cur);
(decc < 0) || (decc > 63);
decc = _xmlSchemaBase64Decode(*cur))
--cur;
/* 16bits in 24bits means 2 pad bits: nnnnnn nnmmmm mmmm00*/
/* 00111100 -> 0x3c */
if (decc & ~0x3c)
goto return1;
total += 2;
} else if (pad == 2) {
int decc;
if (i % 4 != 2)
goto return1;
for (decc = _xmlSchemaBase64Decode(*cur);
(decc < 0) || (decc > 63);
decc = _xmlSchemaBase64Decode(*cur))
--cur;
/* 8bits in 12bits means 4 pad bits: nnnnnn nn0000 */
/* 00110000 -> 0x30 */
if (decc & ~0x30)
goto return1;
total += 1;
} else
goto return1;
if (val != NULL) {
v = xmlSchemaNewValue(XML_SCHEMAS_BASE64BINARY);
if (v == NULL)
goto error;
base =
(xmlChar *) xmlMallocAtomic((i + pad + 1) *
sizeof(xmlChar));
if (base == NULL) {
xmlSchemaTypeErrMemory(node, "allocating base64 data");
xmlFree(v);
goto return1;
}
v->value.base64.str = base;
for (cur = value; *cur; ++cur)
if (_xmlSchemaBase64Decode(*cur) >= 0) {
*base = *cur;
++base;
}
*base = 0;
v->value.base64.total = total;
*val = v;
}
goto return0;
}
case XML_SCHEMAS_INTEGER:
case XML_SCHEMAS_PINTEGER:
case XML_SCHEMAS_NPINTEGER:
case XML_SCHEMAS_NINTEGER:
case XML_SCHEMAS_NNINTEGER:{
const xmlChar *cur = value;
unsigned long lo, mi, hi;
int sign = 0;
if (cur == NULL)
goto return1;
if (normOnTheFly)
while IS_WSP_BLANK_CH(*cur) cur++;
if (*cur == '-') {
sign = 1;
cur++;
} else if (*cur == '+')
cur++;
ret = xmlSchemaParseUInt(&cur, &lo, &mi, &hi);
if (ret < 0)
goto return1;
if (normOnTheFly)
while IS_WSP_BLANK_CH(*cur) cur++;
if (*cur != 0)
goto return1;
if (type->builtInType == XML_SCHEMAS_NPINTEGER) {
if ((sign == 0) &&
((hi != 0) || (mi != 0) || (lo != 0)))
goto return1;
} else if (type->builtInType == XML_SCHEMAS_PINTEGER) {
if (sign == 1)
goto return1;
if ((hi == 0) && (mi == 0) && (lo == 0))
goto return1;
} else if (type->builtInType == XML_SCHEMAS_NINTEGER) {
if (sign == 0)
goto return1;
if ((hi == 0) && (mi == 0) && (lo == 0))
goto return1;
} else if (type->builtInType == XML_SCHEMAS_NNINTEGER) {
if ((sign == 1) &&
((hi != 0) || (mi != 0) || (lo != 0)))
goto return1;
}
if (val != NULL) {
v = xmlSchemaNewValue(type->builtInType);
if (v != NULL) {
if (ret == 0)
ret++;
v->value.decimal.lo = lo;
v->value.decimal.mi = mi;
v->value.decimal.hi = hi;
v->value.decimal.sign = sign;
v->value.decimal.frac = 0;
v->value.decimal.total = ret;
*val = v;
}
}
goto return0;
}
case XML_SCHEMAS_LONG:
case XML_SCHEMAS_BYTE:
case XML_SCHEMAS_SHORT:
case XML_SCHEMAS_INT:{
const xmlChar *cur = value;
unsigned long lo, mi, hi;
int sign = 0;
if (cur == NULL)
goto return1;
if (*cur == '-') {
sign = 1;
cur++;
} else if (*cur == '+')
cur++;
ret = xmlSchemaParseUInt(&cur, &lo, &mi, &hi);
if (ret < 0)
goto return1;
if (*cur != 0)
goto return1;
if (type->builtInType == XML_SCHEMAS_LONG) {
if (hi >= 922) {
if (hi > 922)
goto return1;
if (mi >= 33720368) {
if (mi > 33720368)
goto return1;
if ((sign == 0) && (lo > 54775807))
goto return1;
if ((sign == 1) && (lo > 54775808))
goto return1;
}
}
} else if (type->builtInType == XML_SCHEMAS_INT) {
if (hi != 0)
goto return1;
if (mi >= 21) {
if (mi > 21)
goto return1;
if ((sign == 0) && (lo > 47483647))
goto return1;
if ((sign == 1) && (lo > 47483648))
goto return1;
}
} else if (type->builtInType == XML_SCHEMAS_SHORT) {
if ((mi != 0) || (hi != 0))
goto return1;
if ((sign == 1) && (lo > 32768))
goto return1;
if ((sign == 0) && (lo > 32767))
goto return1;
} else if (type->builtInType == XML_SCHEMAS_BYTE) {
if ((mi != 0) || (hi != 0))
goto return1;
if ((sign == 1) && (lo > 128))
goto return1;
if ((sign == 0) && (lo > 127))
goto return1;
}
if (val != NULL) {
v = xmlSchemaNewValue(type->builtInType);
if (v != NULL) {
v->value.decimal.lo = lo;
v->value.decimal.mi = mi;
v->value.decimal.hi = hi;
v->value.decimal.sign = sign;
v->value.decimal.frac = 0;
v->value.decimal.total = ret;
*val = v;
}
}
goto return0;
}
case XML_SCHEMAS_UINT:
case XML_SCHEMAS_ULONG:
case XML_SCHEMAS_USHORT:
case XML_SCHEMAS_UBYTE:{
const xmlChar *cur = value;
unsigned long lo, mi, hi;
if (cur == NULL)
goto return1;
ret = xmlSchemaParseUInt(&cur, &lo, &mi, &hi);
if (ret < 0)
goto return1;
if (*cur != 0)
goto return1;
if (type->builtInType == XML_SCHEMAS_ULONG) {
if (hi >= 1844) {
if (hi > 1844)
goto return1;
if (mi >= 67440737) {
if (mi > 67440737)
goto return1;
if (lo > 9551615)
goto return1;
}
}
} else if (type->builtInType == XML_SCHEMAS_UINT) {
if (hi != 0)
goto return1;
if (mi >= 42) {
if (mi > 42)
goto return1;
if (lo > 94967295)
goto return1;
}
} else if (type->builtInType == XML_SCHEMAS_USHORT) {
if ((mi != 0) || (hi != 0))
goto return1;
if (lo > 65535)
goto return1;
} else if (type->builtInType == XML_SCHEMAS_UBYTE) {
if ((mi != 0) || (hi != 0))
goto return1;
if (lo > 255)
goto return1;
}
if (val != NULL) {
v = xmlSchemaNewValue(type->builtInType);
if (v != NULL) {
v->value.decimal.lo = lo;
v->value.decimal.mi = mi;
v->value.decimal.hi = hi;
v->value.decimal.sign = 0;
v->value.decimal.frac = 0;
v->value.decimal.total = ret;
*val = v;
}
}
goto return0;
}
}
done:
if (norm != NULL)
xmlFree(norm);
return (ret);
return3:
if (norm != NULL)
xmlFree(norm);
return (3);
return1:
if (norm != NULL)
xmlFree(norm);
return (1);
return0:
if (norm != NULL)
xmlFree(norm);
return (0);
error:
if (norm != NULL)
xmlFree(norm);
return (-1);
}
/**
* xmlSchemaValPredefTypeNode:
* @type: the predefined type
* @value: the value to check
* @val: the return computed value
* @node: the node containing the value
*
* Check that a value conforms to the lexical space of the predefined type.
* if true a value is computed and returned in @val.
*
* Returns 0 if this validates, a positive error code number otherwise
* and -1 in case of internal or API error.
*/
int
xmlSchemaValPredefTypeNode(xmlSchemaTypePtr type, const xmlChar *value,
xmlSchemaValPtr *val, xmlNodePtr node) {
return(xmlSchemaValAtomicType(type, value, val, node, 0,
XML_SCHEMA_WHITESPACE_UNKNOWN, 1, 1, 0));
}
/**
* xmlSchemaValPredefTypeNodeNoNorm:
* @type: the predefined type
* @value: the value to check
* @val: the return computed value
* @node: the node containing the value
*
* Check that a value conforms to the lexical space of the predefined type.
* if true a value is computed and returned in @val.
* This one does apply any normalization to the value.
*
* Returns 0 if this validates, a positive error code number otherwise
* and -1 in case of internal or API error.
*/
int
xmlSchemaValPredefTypeNodeNoNorm(xmlSchemaTypePtr type, const xmlChar *value,
xmlSchemaValPtr *val, xmlNodePtr node) {
return(xmlSchemaValAtomicType(type, value, val, node, 1,
XML_SCHEMA_WHITESPACE_UNKNOWN, 1, 0, 1));
}
/**
* xmlSchemaValidatePredefinedType:
* @type: the predefined type
* @value: the value to check
* @val: the return computed value
*
* Check that a value conforms to the lexical space of the predefined type.
* if true a value is computed and returned in @val.
*
* Returns 0 if this validates, a positive error code number otherwise
* and -1 in case of internal or API error.
*/
int
xmlSchemaValidatePredefinedType(xmlSchemaTypePtr type, const xmlChar *value,
xmlSchemaValPtr *val) {
return(xmlSchemaValPredefTypeNode(type, value, val, NULL));
}
/**
* xmlSchemaCompareDecimals:
* @x: a first decimal value
* @y: a second decimal value
*
* Compare 2 decimals
*
* Returns -1 if x < y, 0 if x == y, 1 if x > y and -2 in case of error
*/
static int
xmlSchemaCompareDecimals(xmlSchemaValPtr x, xmlSchemaValPtr y)
{
xmlSchemaValPtr swp;
int order = 1, integx, integy, dlen;
unsigned long hi, mi, lo;
/*
* First test: If x is -ve and not zero
*/
if ((x->value.decimal.sign) &&
((x->value.decimal.lo != 0) ||
(x->value.decimal.mi != 0) ||
(x->value.decimal.hi != 0))) {
/*
* Then if y is -ve and not zero reverse the compare
*/
if ((y->value.decimal.sign) &&
((y->value.decimal.lo != 0) ||
(y->value.decimal.mi != 0) ||
(y->value.decimal.hi != 0)))
order = -1;
/*
* Otherwise (y >= 0) we have the answer
*/
else
return (-1);
/*
* If x is not -ve and y is -ve we have the answer
*/
} else if ((y->value.decimal.sign) &&
((y->value.decimal.lo != 0) ||
(y->value.decimal.mi != 0) ||
(y->value.decimal.hi != 0))) {
return (1);
}
/*
* If it's not simply determined by a difference in sign,
* then we need to compare the actual values of the two nums.
* To do this, we start by looking at the integral parts.
* If the number of integral digits differ, then we have our
* answer.
*/
integx = x->value.decimal.total - x->value.decimal.frac;
integy = y->value.decimal.total - y->value.decimal.frac;
/*
* NOTE: We changed the "total" for values like "0.1"
* (or "-0.1" or ".1") to be 1, which was 2 previously.
* Therefore the special case, when such values are
* compared with 0, needs to be handled separately;
* otherwise a zero would be recognized incorrectly as
* greater than those values. This has the nice side effect
* that we gain an overall optimized comparison with zeroes.
* Note that a "0" has a "total" of 1 already.
*/
if (integx == 1) {
if (x->value.decimal.lo == 0) {
if (integy != 1)
return -order;
else if (y->value.decimal.lo != 0)
return -order;
else
return(0);
}
}
if (integy == 1) {
if (y->value.decimal.lo == 0) {
if (integx != 1)
return order;
else if (x->value.decimal.lo != 0)
return order;
else
return(0);
}
}
if (integx > integy)
return order;
else if (integy > integx)
return -order;
/*
* If the number of integral digits is the same for both numbers,
* then things get a little more complicated. We need to "normalize"
* the numbers in order to properly compare them. To do this, we
* look at the total length of each number (length => number of
* significant digits), and divide the "shorter" by 10 (decreasing
* the length) until they are of equal length.
*/
dlen = x->value.decimal.total - y->value.decimal.total;
if (dlen < 0) { /* y has more digits than x */
swp = x;
hi = y->value.decimal.hi;
mi = y->value.decimal.mi;
lo = y->value.decimal.lo;
dlen = -dlen;
order = -order;
} else { /* x has more digits than y */
swp = y;
hi = x->value.decimal.hi;
mi = x->value.decimal.mi;
lo = x->value.decimal.lo;
}
while (dlen > 8) { /* in effect, right shift by 10**8 */
lo = mi;
mi = hi;
hi = 0;
dlen -= 8;
}
while (dlen > 0) {
unsigned long rem1, rem2;
rem1 = (hi % 10) * 100000000L;
hi = hi / 10;
rem2 = (mi % 10) * 100000000L;
mi = (mi + rem1) / 10;
lo = (lo + rem2) / 10;
dlen--;
}
if (hi > swp->value.decimal.hi) {
return order;
} else if (hi == swp->value.decimal.hi) {
if (mi > swp->value.decimal.mi) {
return order;
} else if (mi == swp->value.decimal.mi) {
if (lo > swp->value.decimal.lo) {
return order;
} else if (lo == swp->value.decimal.lo) {
if (x->value.decimal.total == y->value.decimal.total) {
return 0;
} else {
return order;
}
}
}
}
return -order;
}
/**
* xmlSchemaCompareDurations:
* @x: a first duration value
* @y: a second duration value
*
* Compare 2 durations
*
* Returns -1 if x < y, 0 if x == y, 1 if x > y, 2 if x <> y, and -2 in
* case of error
*/
static int
xmlSchemaCompareDurations(xmlSchemaValPtr x, xmlSchemaValPtr y)
{
long carry, mon, day;
double sec;
int invert = 1;
long xmon, xday, myear, minday, maxday;
static const long dayRange [2][12] = {
{ 0, 28, 59, 89, 120, 150, 181, 212, 242, 273, 303, 334, },
{ 0, 31, 62, 92, 123, 153, 184, 215, 245, 276, 306, 337} };
if ((x == NULL) || (y == NULL))
return -2;
/* months */
mon = x->value.dur.mon - y->value.dur.mon;
/* seconds */
sec = x->value.dur.sec - y->value.dur.sec;
carry = (long)(sec / SECS_PER_DAY);
sec -= ((double)carry) * SECS_PER_DAY;
/* days */
day = x->value.dur.day - y->value.dur.day + carry;
/* easy test */
if (mon == 0) {
if (day == 0)
if (sec == 0.0)
return 0;
else if (sec < 0.0)
return -1;
else
return 1;
else if (day < 0)
return -1;
else
return 1;
}
if (mon > 0) {
if ((day >= 0) && (sec >= 0.0))
return 1;
else {
xmon = mon;
xday = -day;
}
} else if ((day <= 0) && (sec <= 0.0)) {
return -1;
} else {
invert = -1;
xmon = -mon;
xday = day;
}
myear = xmon / 12;
if (myear == 0) {
minday = 0;
maxday = 0;
} else {
maxday = 366 * ((myear + 3) / 4) +
365 * ((myear - 1) % 4);
minday = maxday - 1;
}
xmon = xmon % 12;
minday += dayRange[0][xmon];
maxday += dayRange[1][xmon];
if ((maxday == minday) && (maxday == xday))
return(0); /* can this really happen ? */
if (maxday < xday)
return(-invert);
if (minday > xday)
return(invert);
/* indeterminate */
return 2;
}
/*
* macros for adding date/times and durations
*/
#define FQUOTIENT(a,b) (floor(((double)a/(double)b)))
#define MODULO(a,b) (a - FQUOTIENT(a,b) * b)
#define FQUOTIENT_RANGE(a,low,high) (FQUOTIENT((a-low),(high-low)))
#define MODULO_RANGE(a,low,high) ((MODULO((a-low),(high-low)))+low)
/**
* xmlSchemaDupVal:
* @v: the #xmlSchemaValPtr value to duplicate
*
* Makes a copy of @v. The calling program is responsible for freeing
* the returned value.
*
* returns a pointer to a duplicated #xmlSchemaValPtr or NULL if error.
*/
static xmlSchemaValPtr
xmlSchemaDupVal (xmlSchemaValPtr v)
{
xmlSchemaValPtr ret = xmlSchemaNewValue(v->type);
if (ret == NULL)
return NULL;
memcpy(ret, v, sizeof(xmlSchemaVal));
ret->next = NULL;
return ret;
}
/**
* xmlSchemaCopyValue:
* @val: the precomputed value to be copied
*
* Copies the precomputed value. This duplicates any string within.
*
* Returns the copy or NULL if a copy for a data-type is not implemented.
*/
xmlSchemaValPtr
xmlSchemaCopyValue(xmlSchemaValPtr val)
{
xmlSchemaValPtr ret = NULL, prev = NULL, cur;
/*
* Copy the string values.
*/
while (val != NULL) {
switch (val->type) {
case XML_SCHEMAS_ANYTYPE:
case XML_SCHEMAS_IDREFS:
case XML_SCHEMAS_ENTITIES:
case XML_SCHEMAS_NMTOKENS:
xmlSchemaFreeValue(ret);
return (NULL);
case XML_SCHEMAS_ANYSIMPLETYPE:
case XML_SCHEMAS_STRING:
case XML_SCHEMAS_NORMSTRING:
case XML_SCHEMAS_TOKEN:
case XML_SCHEMAS_LANGUAGE:
case XML_SCHEMAS_NAME:
case XML_SCHEMAS_NCNAME:
case XML_SCHEMAS_ID:
case XML_SCHEMAS_IDREF:
case XML_SCHEMAS_ENTITY:
case XML_SCHEMAS_NMTOKEN:
case XML_SCHEMAS_ANYURI:
cur = xmlSchemaDupVal(val);
if (val->value.str != NULL)
cur->value.str = xmlStrdup(BAD_CAST val->value.str);
break;
case XML_SCHEMAS_QNAME:
case XML_SCHEMAS_NOTATION:
cur = xmlSchemaDupVal(val);
if (val->value.qname.name != NULL)
cur->value.qname.name =
xmlStrdup(BAD_CAST val->value.qname.name);
if (val->value.qname.uri != NULL)
cur->value.qname.uri =
xmlStrdup(BAD_CAST val->value.qname.uri);
break;
case XML_SCHEMAS_HEXBINARY:
cur = xmlSchemaDupVal(val);
if (val->value.hex.str != NULL)
cur->value.hex.str = xmlStrdup(BAD_CAST val->value.hex.str);
break;
case XML_SCHEMAS_BASE64BINARY:
cur = xmlSchemaDupVal(val);
if (val->value.base64.str != NULL)
cur->value.base64.str =
xmlStrdup(BAD_CAST val->value.base64.str);
break;
default:
cur = xmlSchemaDupVal(val);
break;
}
if (ret == NULL)
ret = cur;
else
prev->next = cur;
prev = cur;
val = val->next;
}
return (ret);
}
/**
* _xmlSchemaDateAdd:
* @dt: an #xmlSchemaValPtr
* @dur: an #xmlSchemaValPtr of type #XS_DURATION
*
* Compute a new date/time from @dt and @dur. This function assumes @dt
* is either #XML_SCHEMAS_DATETIME, #XML_SCHEMAS_DATE, #XML_SCHEMAS_GYEARMONTH,
* or #XML_SCHEMAS_GYEAR. The returned #xmlSchemaVal is the same type as
* @dt. The calling program is responsible for freeing the returned value.
*
* Returns a pointer to a new #xmlSchemaVal or NULL if error.
*/
static xmlSchemaValPtr
_xmlSchemaDateAdd (xmlSchemaValPtr dt, xmlSchemaValPtr dur)
{
xmlSchemaValPtr ret, tmp;
long carry, tempdays, temp;
xmlSchemaValDatePtr r, d;
xmlSchemaValDurationPtr u;
if ((dt == NULL) || (dur == NULL))
return NULL;
ret = xmlSchemaNewValue(dt->type);
if (ret == NULL)
return NULL;
/* make a copy so we don't alter the original value */
tmp = xmlSchemaDupVal(dt);
if (tmp == NULL) {
xmlSchemaFreeValue(ret);
return NULL;
}
r = &(ret->value.date);
d = &(tmp->value.date);
u = &(dur->value.dur);
/* normalization */
if (d->mon == 0)
d->mon = 1;
/* normalize for time zone offset */
u->sec -= (d->tzo * 60);
d->tzo = 0;
/* normalization */
if (d->day == 0)
d->day = 1;
/* month */
carry = d->mon + u->mon;
r->mon = (unsigned int) MODULO_RANGE(carry, 1, 13);
carry = (long) FQUOTIENT_RANGE(carry, 1, 13);
/* year (may be modified later) */
r->year = d->year + carry;
if (r->year == 0) {
if (d->year > 0)
r->year--;
else
r->year++;
}
/* time zone */
r->tzo = d->tzo;
r->tz_flag = d->tz_flag;
/* seconds */
r->sec = d->sec + u->sec;
carry = (long) FQUOTIENT((long)r->sec, 60);
if (r->sec != 0.0) {
r->sec = MODULO(r->sec, 60.0);
}
/* minute */
carry += d->min;
r->min = (unsigned int) MODULO(carry, 60);
carry = (long) FQUOTIENT(carry, 60);
/* hours */
carry += d->hour;
r->hour = (unsigned int) MODULO(carry, 24);
carry = (long)FQUOTIENT(carry, 24);
/*
* days
* Note we use tempdays because the temporary values may need more
* than 5 bits
*/
if ((VALID_YEAR(r->year)) && (VALID_MONTH(r->mon)) &&
(d->day > MAX_DAYINMONTH(r->year, r->mon)))
tempdays = MAX_DAYINMONTH(r->year, r->mon);
else if (d->day < 1)
tempdays = 1;
else
tempdays = d->day;
tempdays += u->day + carry;
while (1) {
if (tempdays < 1) {
long tmon = (long) MODULO_RANGE((int)r->mon-1, 1, 13);
long tyr = r->year + (long)FQUOTIENT_RANGE((int)r->mon-1, 1, 13);
if (tyr == 0)
tyr--;
/*
* Coverity detected an overrun in daysInMonth
* of size 12 at position 12 with index variable "((r)->mon - 1)"
*/
if (tmon < 1)
tmon = 1;
if (tmon > 12)
tmon = 12;
tempdays += MAX_DAYINMONTH(tyr, tmon);
carry = -1;
} else if (VALID_YEAR(r->year) && VALID_MONTH(r->mon) &&
tempdays > (long) MAX_DAYINMONTH(r->year, r->mon)) {
tempdays = tempdays - MAX_DAYINMONTH(r->year, r->mon);
carry = 1;
} else
break;
temp = r->mon + carry;
r->mon = (unsigned int) MODULO_RANGE(temp, 1, 13);
r->year = r->year + (unsigned int) FQUOTIENT_RANGE(temp, 1, 13);
if (r->year == 0) {
if (temp < 1)
r->year--;
else
r->year++;
}
}
r->day = tempdays;
/*
* adjust the date/time type to the date values
*/
if (ret->type != XML_SCHEMAS_DATETIME) {
if ((r->hour) || (r->min) || (r->sec))
ret->type = XML_SCHEMAS_DATETIME;
else if (ret->type != XML_SCHEMAS_DATE) {
if ((r->mon != 1) && (r->day != 1))
ret->type = XML_SCHEMAS_DATE;
else if ((ret->type != XML_SCHEMAS_GYEARMONTH) && (r->mon != 1))
ret->type = XML_SCHEMAS_GYEARMONTH;
}
}
xmlSchemaFreeValue(tmp);
return ret;
}
/**
* xmlSchemaDateNormalize:
* @dt: an #xmlSchemaValPtr of a date/time type value.
* @offset: number of seconds to adjust @dt by.
*
* Normalize @dt to GMT time. The @offset parameter is subtracted from
* the return value is a time-zone offset is present on @dt.
*
* Returns a normalized copy of @dt or NULL if error.
*/
static xmlSchemaValPtr
xmlSchemaDateNormalize (xmlSchemaValPtr dt, double offset)
{
xmlSchemaValPtr dur, ret;
if (dt == NULL)
return NULL;
if (((dt->type != XML_SCHEMAS_TIME) &&
(dt->type != XML_SCHEMAS_DATETIME) &&
(dt->type != XML_SCHEMAS_DATE)) || (dt->value.date.tzo == 0))
return xmlSchemaDupVal(dt);
dur = xmlSchemaNewValue(XML_SCHEMAS_DURATION);
if (dur == NULL)
return NULL;
dur->value.date.sec -= offset;
ret = _xmlSchemaDateAdd(dt, dur);
if (ret == NULL)
return NULL;
xmlSchemaFreeValue(dur);
/* ret->value.date.tzo = 0; */
return ret;
}
/**
* _xmlSchemaDateCastYMToDays:
* @dt: an #xmlSchemaValPtr
*
* Convert mon and year of @dt to total number of days. Take the
* number of years since (or before) 1 AD and add the number of leap
* years. This is a function because negative
* years must be handled a little differently and there is no zero year.
*
* Returns number of days.
*/
static long
_xmlSchemaDateCastYMToDays (const xmlSchemaValPtr dt)
{
long ret;
int mon;
mon = dt->value.date.mon;
if (mon <= 0) mon = 1; /* normalization */
if (dt->value.date.year <= 0)
ret = (dt->value.date.year * 365) +
(((dt->value.date.year+1)/4)-((dt->value.date.year+1)/100)+
((dt->value.date.year+1)/400)) +
DAY_IN_YEAR(0, mon, dt->value.date.year);
else
ret = ((dt->value.date.year-1) * 365) +
(((dt->value.date.year-1)/4)-((dt->value.date.year-1)/100)+
((dt->value.date.year-1)/400)) +
DAY_IN_YEAR(0, mon, dt->value.date.year);
return ret;
}
/**
* TIME_TO_NUMBER:
* @dt: an #xmlSchemaValPtr
*
* Calculates the number of seconds in the time portion of @dt.
*
* Returns seconds.
*/
#define TIME_TO_NUMBER(dt) \
((double)((dt->value.date.hour * SECS_PER_HOUR) + \
(dt->value.date.min * SECS_PER_MIN) + \
(dt->value.date.tzo * SECS_PER_MIN)) + \
dt->value.date.sec)
/**
* xmlSchemaCompareDates:
* @x: a first date/time value
* @y: a second date/time value
*
* Compare 2 date/times
*
* Returns -1 if x < y, 0 if x == y, 1 if x > y, 2 if x <> y, and -2 in
* case of error
*/
static int
xmlSchemaCompareDates (xmlSchemaValPtr x, xmlSchemaValPtr y)
{
unsigned char xmask, ymask, xor_mask, and_mask;
xmlSchemaValPtr p1, p2, q1, q2;
long p1d, p2d, q1d, q2d;
if ((x == NULL) || (y == NULL))
return -2;
if (x->value.date.tz_flag) {
if (!y->value.date.tz_flag) {
p1 = xmlSchemaDateNormalize(x, 0);
p1d = _xmlSchemaDateCastYMToDays(p1) + p1->value.date.day;
/* normalize y + 14:00 */
q1 = xmlSchemaDateNormalize(y, (14 * SECS_PER_HOUR));
q1d = _xmlSchemaDateCastYMToDays(q1) + q1->value.date.day;
if (p1d < q1d) {
xmlSchemaFreeValue(p1);
xmlSchemaFreeValue(q1);
return -1;
} else if (p1d == q1d) {
double sec;
sec = TIME_TO_NUMBER(p1) - TIME_TO_NUMBER(q1);
if (sec < 0.0) {
xmlSchemaFreeValue(p1);
xmlSchemaFreeValue(q1);
return -1;
} else {
int ret = 0;
/* normalize y - 14:00 */
q2 = xmlSchemaDateNormalize(y, -(14 * SECS_PER_HOUR));
q2d = _xmlSchemaDateCastYMToDays(q2) + q2->value.date.day;
if (p1d > q2d)
ret = 1;
else if (p1d == q2d) {
sec = TIME_TO_NUMBER(p1) - TIME_TO_NUMBER(q2);
if (sec > 0.0)
ret = 1;
else
ret = 2; /* indeterminate */
}
xmlSchemaFreeValue(p1);
xmlSchemaFreeValue(q1);
xmlSchemaFreeValue(q2);
if (ret != 0)
return(ret);
}
} else {
xmlSchemaFreeValue(p1);
xmlSchemaFreeValue(q1);
}
}
} else if (y->value.date.tz_flag) {
q1 = xmlSchemaDateNormalize(y, 0);
q1d = _xmlSchemaDateCastYMToDays(q1) + q1->value.date.day;
/* normalize x - 14:00 */
p1 = xmlSchemaDateNormalize(x, -(14 * SECS_PER_HOUR));
p1d = _xmlSchemaDateCastYMToDays(p1) + p1->value.date.day;
if (p1d < q1d) {
xmlSchemaFreeValue(p1);
xmlSchemaFreeValue(q1);
return -1;
} else if (p1d == q1d) {
double sec;
sec = TIME_TO_NUMBER(p1) - TIME_TO_NUMBER(q1);
if (sec < 0.0) {
xmlSchemaFreeValue(p1);
xmlSchemaFreeValue(q1);
return -1;
} else {
int ret = 0;
/* normalize x + 14:00 */
p2 = xmlSchemaDateNormalize(x, (14 * SECS_PER_HOUR));
p2d = _xmlSchemaDateCastYMToDays(p2) + p2->value.date.day;
if (p2d > q1d) {
ret = 1;
} else if (p2d == q1d) {
sec = TIME_TO_NUMBER(p2) - TIME_TO_NUMBER(q1);
if (sec > 0.0)
ret = 1;
else
ret = 2; /* indeterminate */
}
xmlSchemaFreeValue(p1);
xmlSchemaFreeValue(q1);
xmlSchemaFreeValue(p2);
if (ret != 0)
return(ret);
}
} else {
xmlSchemaFreeValue(p1);
xmlSchemaFreeValue(q1);
}
}
/*
* if the same type then calculate the difference
*/
if (x->type == y->type) {
int ret = 0;
q1 = xmlSchemaDateNormalize(y, 0);
q1d = _xmlSchemaDateCastYMToDays(q1) + q1->value.date.day;
p1 = xmlSchemaDateNormalize(x, 0);
p1d = _xmlSchemaDateCastYMToDays(p1) + p1->value.date.day;
if (p1d < q1d) {
ret = -1;
} else if (p1d > q1d) {
ret = 1;
} else {
double sec;
sec = TIME_TO_NUMBER(p1) - TIME_TO_NUMBER(q1);
if (sec < 0.0)
ret = -1;
else if (sec > 0.0)
ret = 1;
}
xmlSchemaFreeValue(p1);
xmlSchemaFreeValue(q1);
return(ret);
}
switch (x->type) {
case XML_SCHEMAS_DATETIME:
xmask = 0xf;
break;
case XML_SCHEMAS_DATE:
xmask = 0x7;
break;
case XML_SCHEMAS_GYEAR:
xmask = 0x1;
break;
case XML_SCHEMAS_GMONTH:
xmask = 0x2;
break;
case XML_SCHEMAS_GDAY:
xmask = 0x3;
break;
case XML_SCHEMAS_GYEARMONTH:
xmask = 0x3;
break;
case XML_SCHEMAS_GMONTHDAY:
xmask = 0x6;
break;
case XML_SCHEMAS_TIME:
xmask = 0x8;
break;
default:
xmask = 0;
break;
}
switch (y->type) {
case XML_SCHEMAS_DATETIME:
ymask = 0xf;
break;
case XML_SCHEMAS_DATE:
ymask = 0x7;
break;
case XML_SCHEMAS_GYEAR:
ymask = 0x1;
break;
case XML_SCHEMAS_GMONTH:
ymask = 0x2;
break;
case XML_SCHEMAS_GDAY:
ymask = 0x3;
break;
case XML_SCHEMAS_GYEARMONTH:
ymask = 0x3;
break;
case XML_SCHEMAS_GMONTHDAY:
ymask = 0x6;
break;
case XML_SCHEMAS_TIME:
ymask = 0x8;
break;
default:
ymask = 0;
break;
}
xor_mask = xmask ^ ymask; /* mark type differences */
and_mask = xmask & ymask; /* mark field specification */
/* year */
if (xor_mask & 1)
return 2; /* indeterminate */
else if (and_mask & 1) {
if (x->value.date.year < y->value.date.year)
return -1;
else if (x->value.date.year > y->value.date.year)
return 1;
}
/* month */
if (xor_mask & 2)
return 2; /* indeterminate */
else if (and_mask & 2) {
if (x->value.date.mon < y->value.date.mon)
return -1;
else if (x->value.date.mon > y->value.date.mon)
return 1;
}
/* day */
if (xor_mask & 4)
return 2; /* indeterminate */
else if (and_mask & 4) {
if (x->value.date.day < y->value.date.day)
return -1;
else if (x->value.date.day > y->value.date.day)
return 1;
}
/* time */
if (xor_mask & 8)
return 2; /* indeterminate */
else if (and_mask & 8) {
if (x->value.date.hour < y->value.date.hour)
return -1;
else if (x->value.date.hour > y->value.date.hour)
return 1;
else if (x->value.date.min < y->value.date.min)
return -1;
else if (x->value.date.min > y->value.date.min)
return 1;
else if (x->value.date.sec < y->value.date.sec)
return -1;
else if (x->value.date.sec > y->value.date.sec)
return 1;
}
return 0;
}
/**
* xmlSchemaComparePreserveReplaceStrings:
* @x: a first string value
* @y: a second string value
* @invert: inverts the result if x < y or x > y.
*
* Compare 2 string for their normalized values.
* @x is a string with whitespace of "preserve", @y is
* a string with a whitespace of "replace". I.e. @x could
* be an "xsd:string" and @y an "xsd:normalizedString".
*
* Returns -1 if x < y, 0 if x == y, 1 if x > y, and -2 in
* case of error
*/
static int
xmlSchemaComparePreserveReplaceStrings(const xmlChar *x,
const xmlChar *y,
int invert)
{
int tmp;
while ((*x != 0) && (*y != 0)) {
if (IS_WSP_REPLACE_CH(*y)) {
if (! IS_WSP_SPACE_CH(*x)) {
if ((*x - 0x20) < 0) {
if (invert)
return(1);
else
return(-1);
} else {
if (invert)
return(-1);
else
return(1);
}
}
} else {
tmp = *x - *y;
if (tmp < 0) {
if (invert)
return(1);
else
return(-1);
}
if (tmp > 0) {
if (invert)
return(-1);
else
return(1);
}
}
x++;
y++;
}
if (*x != 0) {
if (invert)
return(-1);
else
return(1);
}
if (*y != 0) {
if (invert)
return(1);
else
return(-1);
}
return(0);
}
/**
* xmlSchemaComparePreserveCollapseStrings:
* @x: a first string value
* @y: a second string value
*
* Compare 2 string for their normalized values.
* @x is a string with whitespace of "preserve", @y is
* a string with a whitespace of "collapse". I.e. @x could
* be an "xsd:string" and @y an "xsd:normalizedString".
*
* Returns -1 if x < y, 0 if x == y, 1 if x > y, and -2 in
* case of error
*/
static int
xmlSchemaComparePreserveCollapseStrings(const xmlChar *x,
const xmlChar *y,
int invert)
{
int tmp;
/*
* Skip leading blank chars of the collapsed string.
*/
while IS_WSP_BLANK_CH(*y)
y++;
while ((*x != 0) && (*y != 0)) {
if IS_WSP_BLANK_CH(*y) {
if (! IS_WSP_SPACE_CH(*x)) {
/*
* The yv character would have been replaced to 0x20.
*/
if ((*x - 0x20) < 0) {
if (invert)
return(1);
else
return(-1);
} else {
if (invert)
return(-1);
else
return(1);
}
}
x++;
y++;
/*
* Skip contiguous blank chars of the collapsed string.
*/
while IS_WSP_BLANK_CH(*y)
y++;
} else {
tmp = *x++ - *y++;
if (tmp < 0) {
if (invert)
return(1);
else
return(-1);
}
if (tmp > 0) {
if (invert)
return(-1);
else
return(1);
}
}
}
if (*x != 0) {
if (invert)
return(-1);
else
return(1);
}
if (*y != 0) {
/*
* Skip trailing blank chars of the collapsed string.
*/
while IS_WSP_BLANK_CH(*y)
y++;
if (*y != 0) {
if (invert)
return(1);
else
return(-1);
}
}
return(0);
}
/**
* xmlSchemaComparePreserveCollapseStrings:
* @x: a first string value
* @y: a second string value
*
* Compare 2 string for their normalized values.
* @x is a string with whitespace of "preserve", @y is
* a string with a whitespace of "collapse". I.e. @x could
* be an "xsd:string" and @y an "xsd:normalizedString".
*
* Returns -1 if x < y, 0 if x == y, 1 if x > y, and -2 in
* case of error
*/
static int
xmlSchemaCompareReplaceCollapseStrings(const xmlChar *x,
const xmlChar *y,
int invert)
{
int tmp;
/*
* Skip leading blank chars of the collapsed string.
*/
while IS_WSP_BLANK_CH(*y)
y++;
while ((*x != 0) && (*y != 0)) {
if IS_WSP_BLANK_CH(*y) {
if (! IS_WSP_BLANK_CH(*x)) {
/*
* The yv character would have been replaced to 0x20.
*/
if ((*x - 0x20) < 0) {
if (invert)
return(1);
else
return(-1);
} else {
if (invert)
return(-1);
else
return(1);
}
}
x++;
y++;
/*
* Skip contiguous blank chars of the collapsed string.
*/
while IS_WSP_BLANK_CH(*y)
y++;
} else {
if IS_WSP_BLANK_CH(*x) {
/*
* The xv character would have been replaced to 0x20.
*/
if ((0x20 - *y) < 0) {
if (invert)
return(1);
else
return(-1);
} else {
if (invert)
return(-1);
else
return(1);
}
}
tmp = *x++ - *y++;
if (tmp < 0)
return(-1);
if (tmp > 0)
return(1);
}
}
if (*x != 0) {
if (invert)
return(-1);
else
return(1);
}
if (*y != 0) {
/*
* Skip trailing blank chars of the collapsed string.
*/
while IS_WSP_BLANK_CH(*y)
y++;
if (*y != 0) {
if (invert)
return(1);
else
return(-1);
}
}
return(0);
}
/**
* xmlSchemaCompareReplacedStrings:
* @x: a first string value
* @y: a second string value
*
* Compare 2 string for their normalized values.
*
* Returns -1 if x < y, 0 if x == y, 1 if x > y, and -2 in
* case of error
*/
static int
xmlSchemaCompareReplacedStrings(const xmlChar *x,
const xmlChar *y)
{
int tmp;
while ((*x != 0) && (*y != 0)) {
if IS_WSP_BLANK_CH(*y) {
if (! IS_WSP_BLANK_CH(*x)) {
if ((*x - 0x20) < 0)
return(-1);
else
return(1);
}
} else {
if IS_WSP_BLANK_CH(*x) {
if ((0x20 - *y) < 0)
return(-1);
else
return(1);
}
tmp = *x - *y;
if (tmp < 0)
return(-1);
if (tmp > 0)
return(1);
}
x++;
y++;
}
if (*x != 0)
return(1);
if (*y != 0)
return(-1);
return(0);
}
/**
* xmlSchemaCompareNormStrings:
* @x: a first string value
* @y: a second string value
*
* Compare 2 string for their normalized values.
*
* Returns -1 if x < y, 0 if x == y, 1 if x > y, and -2 in
* case of error
*/
static int
xmlSchemaCompareNormStrings(const xmlChar *x,
const xmlChar *y) {
int tmp;
while (IS_BLANK_CH(*x)) x++;
while (IS_BLANK_CH(*y)) y++;
while ((*x != 0) && (*y != 0)) {
if (IS_BLANK_CH(*x)) {
if (!IS_BLANK_CH(*y)) {
tmp = *x - *y;
return(tmp);
}
while (IS_BLANK_CH(*x)) x++;
while (IS_BLANK_CH(*y)) y++;
} else {
tmp = *x++ - *y++;
if (tmp < 0)
return(-1);
if (tmp > 0)
return(1);
}
}
if (*x != 0) {
while (IS_BLANK_CH(*x)) x++;
if (*x != 0)
return(1);
}
if (*y != 0) {
while (IS_BLANK_CH(*y)) y++;
if (*y != 0)
return(-1);
}
return(0);
}
/**
* xmlSchemaCompareFloats:
* @x: a first float or double value
* @y: a second float or double value
*
* Compare 2 values
*
* Returns -1 if x < y, 0 if x == y, 1 if x > y, 2 if x <> y, and -2 in
* case of error
*/
static int
xmlSchemaCompareFloats(xmlSchemaValPtr x, xmlSchemaValPtr y) {
double d1, d2;
if ((x == NULL) || (y == NULL))
return(-2);
/*
* Cast everything to doubles.
*/
if (x->type == XML_SCHEMAS_DOUBLE)
d1 = x->value.d;
else if (x->type == XML_SCHEMAS_FLOAT)
d1 = x->value.f;
else
return(-2);
if (y->type == XML_SCHEMAS_DOUBLE)
d2 = y->value.d;
else if (y->type == XML_SCHEMAS_FLOAT)
d2 = y->value.f;
else
return(-2);
/*
* Check for special cases.
*/
if (xmlXPathIsNaN(d1)) {
if (xmlXPathIsNaN(d2))
return(0);
return(1);
}
if (xmlXPathIsNaN(d2))
return(-1);
if (d1 == xmlXPathPINF) {
if (d2 == xmlXPathPINF)
return(0);
return(1);
}
if (d2 == xmlXPathPINF)
return(-1);
if (d1 == xmlXPathNINF) {
if (d2 == xmlXPathNINF)
return(0);
return(-1);
}
if (d2 == xmlXPathNINF)
return(1);
/*
* basic tests, the last one we should have equality, but
* portability is more important than speed and handling
* NaN or Inf in a portable way is always a challenge, so ...
*/
if (d1 < d2)
return(-1);
if (d1 > d2)
return(1);
if (d1 == d2)
return(0);
return(2);
}
/**
* xmlSchemaCompareValues:
* @x: a first value
* @xvalue: the first value as a string (optional)
* @xwtsp: the whitespace type
* @y: a second value
* @xvalue: the second value as a string (optional)
* @ywtsp: the whitespace type
*
* Compare 2 values
*
* Returns -1 if x < y, 0 if x == y, 1 if x > y, 2 if x <> y, 3 if not
* comparable and -2 in case of error
*/
static int
xmlSchemaCompareValuesInternal(xmlSchemaValType xtype,
xmlSchemaValPtr x,
const xmlChar *xvalue,
xmlSchemaWhitespaceValueType xws,
xmlSchemaValType ytype,
xmlSchemaValPtr y,
const xmlChar *yvalue,
xmlSchemaWhitespaceValueType yws)
{
switch (xtype) {
case XML_SCHEMAS_UNKNOWN:
case XML_SCHEMAS_ANYTYPE:
return(-2);
case XML_SCHEMAS_INTEGER:
case XML_SCHEMAS_NPINTEGER:
case XML_SCHEMAS_NINTEGER:
case XML_SCHEMAS_NNINTEGER:
case XML_SCHEMAS_PINTEGER:
case XML_SCHEMAS_INT:
case XML_SCHEMAS_UINT:
case XML_SCHEMAS_LONG:
case XML_SCHEMAS_ULONG:
case XML_SCHEMAS_SHORT:
case XML_SCHEMAS_USHORT:
case XML_SCHEMAS_BYTE:
case XML_SCHEMAS_UBYTE:
case XML_SCHEMAS_DECIMAL:
if ((x == NULL) || (y == NULL))
return(-2);
if (ytype == xtype)
return(xmlSchemaCompareDecimals(x, y));
if ((ytype == XML_SCHEMAS_DECIMAL) ||
(ytype == XML_SCHEMAS_INTEGER) ||
(ytype == XML_SCHEMAS_NPINTEGER) ||
(ytype == XML_SCHEMAS_NINTEGER) ||
(ytype == XML_SCHEMAS_NNINTEGER) ||
(ytype == XML_SCHEMAS_PINTEGER) ||
(ytype == XML_SCHEMAS_INT) ||
(ytype == XML_SCHEMAS_UINT) ||
(ytype == XML_SCHEMAS_LONG) ||
(ytype == XML_SCHEMAS_ULONG) ||
(ytype == XML_SCHEMAS_SHORT) ||
(ytype == XML_SCHEMAS_USHORT) ||
(ytype == XML_SCHEMAS_BYTE) ||
(ytype == XML_SCHEMAS_UBYTE))
return(xmlSchemaCompareDecimals(x, y));
return(-2);
case XML_SCHEMAS_DURATION:
if ((x == NULL) || (y == NULL))
return(-2);
if (ytype == XML_SCHEMAS_DURATION)
return(xmlSchemaCompareDurations(x, y));
return(-2);
case XML_SCHEMAS_TIME:
case XML_SCHEMAS_GDAY:
case XML_SCHEMAS_GMONTH:
case XML_SCHEMAS_GMONTHDAY:
case XML_SCHEMAS_GYEAR:
case XML_SCHEMAS_GYEARMONTH:
case XML_SCHEMAS_DATE:
case XML_SCHEMAS_DATETIME:
if ((x == NULL) || (y == NULL))
return(-2);
if ((ytype == XML_SCHEMAS_DATETIME) ||
(ytype == XML_SCHEMAS_TIME) ||
(ytype == XML_SCHEMAS_GDAY) ||
(ytype == XML_SCHEMAS_GMONTH) ||
(ytype == XML_SCHEMAS_GMONTHDAY) ||
(ytype == XML_SCHEMAS_GYEAR) ||
(ytype == XML_SCHEMAS_DATE) ||
(ytype == XML_SCHEMAS_GYEARMONTH))
return (xmlSchemaCompareDates(x, y));
return (-2);
/*
* Note that we will support comparison of string types against
* anySimpleType as well.
*/
case XML_SCHEMAS_ANYSIMPLETYPE:
case XML_SCHEMAS_STRING:
case XML_SCHEMAS_NORMSTRING:
case XML_SCHEMAS_TOKEN:
case XML_SCHEMAS_LANGUAGE:
case XML_SCHEMAS_NMTOKEN:
case XML_SCHEMAS_NAME:
case XML_SCHEMAS_NCNAME:
case XML_SCHEMAS_ID:
case XML_SCHEMAS_IDREF:
case XML_SCHEMAS_ENTITY:
case XML_SCHEMAS_ANYURI:
{
const xmlChar *xv, *yv;
if (x == NULL)
xv = xvalue;
else
xv = x->value.str;
if (y == NULL)
yv = yvalue;
else
yv = y->value.str;
/*
* TODO: Compare those against QName.
*/
if (ytype == XML_SCHEMAS_QNAME) {
TODO
if (y == NULL)
return(-2);
return (-2);
}
if ((ytype == XML_SCHEMAS_ANYSIMPLETYPE) ||
(ytype == XML_SCHEMAS_STRING) ||
(ytype == XML_SCHEMAS_NORMSTRING) ||
(ytype == XML_SCHEMAS_TOKEN) ||
(ytype == XML_SCHEMAS_LANGUAGE) ||
(ytype == XML_SCHEMAS_NMTOKEN) ||
(ytype == XML_SCHEMAS_NAME) ||
(ytype == XML_SCHEMAS_NCNAME) ||
(ytype == XML_SCHEMAS_ID) ||
(ytype == XML_SCHEMAS_IDREF) ||
(ytype == XML_SCHEMAS_ENTITY) ||
(ytype == XML_SCHEMAS_ANYURI)) {
if (xws == XML_SCHEMA_WHITESPACE_PRESERVE) {
if (yws == XML_SCHEMA_WHITESPACE_PRESERVE) {
/* TODO: What about x < y or x > y. */
if (xmlStrEqual(xv, yv))
return (0);
else
return (2);
} else if (yws == XML_SCHEMA_WHITESPACE_REPLACE)
return (xmlSchemaComparePreserveReplaceStrings(xv, yv, 0));
else if (yws == XML_SCHEMA_WHITESPACE_COLLAPSE)
return (xmlSchemaComparePreserveCollapseStrings(xv, yv, 0));
} else if (xws == XML_SCHEMA_WHITESPACE_REPLACE) {
if (yws == XML_SCHEMA_WHITESPACE_PRESERVE)
return (xmlSchemaComparePreserveReplaceStrings(yv, xv, 1));
if (yws == XML_SCHEMA_WHITESPACE_REPLACE)
return (xmlSchemaCompareReplacedStrings(xv, yv));
if (yws == XML_SCHEMA_WHITESPACE_COLLAPSE)
return (xmlSchemaCompareReplaceCollapseStrings(xv, yv, 0));
} else if (xws == XML_SCHEMA_WHITESPACE_COLLAPSE) {
if (yws == XML_SCHEMA_WHITESPACE_PRESERVE)
return (xmlSchemaComparePreserveCollapseStrings(yv, xv, 1));
if (yws == XML_SCHEMA_WHITESPACE_REPLACE)
return (xmlSchemaCompareReplaceCollapseStrings(yv, xv, 1));
if (yws == XML_SCHEMA_WHITESPACE_COLLAPSE)
return (xmlSchemaCompareNormStrings(xv, yv));
} else
return (-2);
}
return (-2);
}
case XML_SCHEMAS_QNAME:
case XML_SCHEMAS_NOTATION:
if ((x == NULL) || (y == NULL))
return(-2);
if ((ytype == XML_SCHEMAS_QNAME) ||
(ytype == XML_SCHEMAS_NOTATION)) {
if ((xmlStrEqual(x->value.qname.name, y->value.qname.name)) &&
(xmlStrEqual(x->value.qname.uri, y->value.qname.uri)))
return(0);
return(2);
}
return (-2);
case XML_SCHEMAS_FLOAT:
case XML_SCHEMAS_DOUBLE:
if ((x == NULL) || (y == NULL))
return(-2);
if ((ytype == XML_SCHEMAS_FLOAT) ||
(ytype == XML_SCHEMAS_DOUBLE))
return (xmlSchemaCompareFloats(x, y));
return (-2);
case XML_SCHEMAS_BOOLEAN:
if ((x == NULL) || (y == NULL))
return(-2);
if (ytype == XML_SCHEMAS_BOOLEAN) {
if (x->value.b == y->value.b)
return(0);
if (x->value.b == 0)
return(-1);
return(1);
}
return (-2);
case XML_SCHEMAS_HEXBINARY:
if ((x == NULL) || (y == NULL))
return(-2);
if (ytype == XML_SCHEMAS_HEXBINARY) {
if (x->value.hex.total == y->value.hex.total) {
int ret = xmlStrcmp(x->value.hex.str, y->value.hex.str);
if (ret > 0)
return(1);
else if (ret == 0)
return(0);
}
else if (x->value.hex.total > y->value.hex.total)
return(1);
return(-1);
}
return (-2);
case XML_SCHEMAS_BASE64BINARY:
if ((x == NULL) || (y == NULL))
return(-2);
if (ytype == XML_SCHEMAS_BASE64BINARY) {
if (x->value.base64.total == y->value.base64.total) {
int ret = xmlStrcmp(x->value.base64.str,
y->value.base64.str);
if (ret > 0)
return(1);
else if (ret == 0)
return(0);
else
return(-1);
}
else if (x->value.base64.total > y->value.base64.total)
return(1);
else
return(-1);
}
return (-2);
case XML_SCHEMAS_IDREFS:
case XML_SCHEMAS_ENTITIES:
case XML_SCHEMAS_NMTOKENS:
TODO
break;
}
return -2;
}
/**
* xmlSchemaCompareValues:
* @x: a first value
* @y: a second value
*
* Compare 2 values
*
* Returns -1 if x < y, 0 if x == y, 1 if x > y, 2 if x <> y, and -2 in
* case of error
*/
int
xmlSchemaCompareValues(xmlSchemaValPtr x, xmlSchemaValPtr y) {
xmlSchemaWhitespaceValueType xws, yws;
if ((x == NULL) || (y == NULL))
return(-2);
if (x->type == XML_SCHEMAS_STRING)
xws = XML_SCHEMA_WHITESPACE_PRESERVE;
else if (x->type == XML_SCHEMAS_NORMSTRING)
xws = XML_SCHEMA_WHITESPACE_REPLACE;
else
xws = XML_SCHEMA_WHITESPACE_COLLAPSE;
if (y->type == XML_SCHEMAS_STRING)
yws = XML_SCHEMA_WHITESPACE_PRESERVE;
else if (y->type == XML_SCHEMAS_NORMSTRING)
yws = XML_SCHEMA_WHITESPACE_REPLACE;
else
yws = XML_SCHEMA_WHITESPACE_COLLAPSE;
return(xmlSchemaCompareValuesInternal(x->type, x, NULL, xws, y->type,
y, NULL, yws));
}
/**
* xmlSchemaCompareValuesWhtsp:
* @x: a first value
* @xws: the whitespace value of x
* @y: a second value
* @yws: the whitespace value of y
*
* Compare 2 values
*
* Returns -1 if x < y, 0 if x == y, 1 if x > y, 2 if x <> y, and -2 in
* case of error
*/
int
xmlSchemaCompareValuesWhtsp(xmlSchemaValPtr x,
xmlSchemaWhitespaceValueType xws,
xmlSchemaValPtr y,
xmlSchemaWhitespaceValueType yws)
{
if ((x == NULL) || (y == NULL))
return(-2);
return(xmlSchemaCompareValuesInternal(x->type, x, NULL, xws, y->type,
y, NULL, yws));
}
/**
* xmlSchemaCompareValuesWhtspExt:
* @x: a first value
* @xws: the whitespace value of x
* @y: a second value
* @yws: the whitespace value of y
*
* Compare 2 values
*
* Returns -1 if x < y, 0 if x == y, 1 if x > y, 2 if x <> y, and -2 in
* case of error
*/
static int
xmlSchemaCompareValuesWhtspExt(xmlSchemaValType xtype,
xmlSchemaValPtr x,
const xmlChar *xvalue,
xmlSchemaWhitespaceValueType xws,
xmlSchemaValType ytype,
xmlSchemaValPtr y,
const xmlChar *yvalue,
xmlSchemaWhitespaceValueType yws)
{
return(xmlSchemaCompareValuesInternal(xtype, x, xvalue, xws, ytype, y,
yvalue, yws));
}
/**
* xmlSchemaNormLen:
* @value: a string
*
* Computes the UTF8 length of the normalized value of the string
*
* Returns the length or -1 in case of error.
*/
static int
xmlSchemaNormLen(const xmlChar *value) {
const xmlChar *utf;
int ret = 0;
if (value == NULL)
return(-1);
utf = value;
while (IS_BLANK_CH(*utf)) utf++;
while (*utf != 0) {
if (utf[0] & 0x80) {
if ((utf[1] & 0xc0) != 0x80)
return(-1);
if ((utf[0] & 0xe0) == 0xe0) {
if ((utf[2] & 0xc0) != 0x80)
return(-1);
if ((utf[0] & 0xf0) == 0xf0) {
if ((utf[0] & 0xf8) != 0xf0 || (utf[3] & 0xc0) != 0x80)
return(-1);
utf += 4;
} else {
utf += 3;
}
} else {
utf += 2;
}
} else if (IS_BLANK_CH(*utf)) {
while (IS_BLANK_CH(*utf)) utf++;
if (*utf == 0)
break;
} else {
utf++;
}
ret++;
}
return(ret);
}
/**
* xmlSchemaGetFacetValueAsULong:
* @facet: an schemas type facet
*
* Extract the value of a facet
*
* Returns the value as a long
*/
unsigned long
xmlSchemaGetFacetValueAsULong(xmlSchemaFacetPtr facet)
{
/*
* TODO: Check if this is a decimal.
*/
if (facet == NULL)
return 0;
return ((unsigned long) facet->val->value.decimal.lo);
}
/**
* xmlSchemaValidateListSimpleTypeFacet:
* @facet: the facet to check
* @value: the lexical repr of the value to validate
* @actualLen: the number of list items
* @expectedLen: the resulting expected number of list items
*
* Checks the value of a list simple type against a facet.
*
* Returns 0 if the value is valid, a positive error code
* number otherwise and -1 in case of an internal error.
*/
int
xmlSchemaValidateListSimpleTypeFacet(xmlSchemaFacetPtr facet,
const xmlChar *value,
unsigned long actualLen,
unsigned long *expectedLen)
{
if (facet == NULL)
return(-1);
/*
* TODO: Check if this will work with large numbers.
* (compare value.decimal.mi and value.decimal.hi as well?).
*/
if (facet->type == XML_SCHEMA_FACET_LENGTH) {
if (actualLen != facet->val->value.decimal.lo) {
if (expectedLen != NULL)
*expectedLen = facet->val->value.decimal.lo;
return (XML_SCHEMAV_CVC_LENGTH_VALID);
}
} else if (facet->type == XML_SCHEMA_FACET_MINLENGTH) {
if (actualLen < facet->val->value.decimal.lo) {
if (expectedLen != NULL)
*expectedLen = facet->val->value.decimal.lo;
return (XML_SCHEMAV_CVC_MINLENGTH_VALID);
}
} else if (facet->type == XML_SCHEMA_FACET_MAXLENGTH) {
if (actualLen > facet->val->value.decimal.lo) {
if (expectedLen != NULL)
*expectedLen = facet->val->value.decimal.lo;
return (XML_SCHEMAV_CVC_MAXLENGTH_VALID);
}
} else
/*
* NOTE: That we can pass NULL as xmlSchemaValPtr to
* xmlSchemaValidateFacet, since the remaining facet types
* are: XML_SCHEMA_FACET_PATTERN, XML_SCHEMA_FACET_ENUMERATION.
*/
return(xmlSchemaValidateFacet(NULL, facet, value, NULL));
return (0);
}
/**
* xmlSchemaValidateLengthFacet:
* @type: the built-in type
* @facet: the facet to check
* @value: the lexical repr. of the value to be validated
* @val: the precomputed value
* @ws: the whitespace type of the value
* @length: the actual length of the value
*
* Checka a value against a "length", "minLength" and "maxLength"
* facet; sets @length to the computed length of @value.
*
* Returns 0 if the value is valid, a positive error code
* otherwise and -1 in case of an internal or API error.
*/
static int
xmlSchemaValidateLengthFacetInternal(xmlSchemaFacetPtr facet,
xmlSchemaValType valType,
const xmlChar *value,
xmlSchemaValPtr val,
unsigned long *length,
xmlSchemaWhitespaceValueType ws)
{
unsigned int len = 0;
if ((length == NULL) || (facet == NULL))
return (-1);
*length = 0;
if ((facet->type != XML_SCHEMA_FACET_LENGTH) &&
(facet->type != XML_SCHEMA_FACET_MAXLENGTH) &&
(facet->type != XML_SCHEMA_FACET_MINLENGTH))
return (-1);
/*
* TODO: length, maxLength and minLength must be of type
* nonNegativeInteger only. Check if decimal is used somehow.
*/
if ((facet->val == NULL) ||
((facet->val->type != XML_SCHEMAS_DECIMAL) &&
(facet->val->type != XML_SCHEMAS_NNINTEGER)) ||
(facet->val->value.decimal.frac != 0)) {
return(-1);
}
if ((val != NULL) && (val->type == XML_SCHEMAS_HEXBINARY))
len = val->value.hex.total;
else if ((val != NULL) && (val->type == XML_SCHEMAS_BASE64BINARY))
len = val->value.base64.total;
else {
switch (valType) {
case XML_SCHEMAS_STRING:
case XML_SCHEMAS_NORMSTRING:
if (ws == XML_SCHEMA_WHITESPACE_UNKNOWN) {
/*
* This is to ensure API compatibility with the old
* xmlSchemaValidateLengthFacet(). Anyway, this was and
* is not the correct handling.
* TODO: Get rid of this case somehow.
*/
if (valType == XML_SCHEMAS_STRING)
len = xmlUTF8Strlen(value);
else
len = xmlSchemaNormLen(value);
} else if (value != NULL) {
if (ws == XML_SCHEMA_WHITESPACE_COLLAPSE)
len = xmlSchemaNormLen(value);
else
/*
* Should be OK for "preserve" as well.
*/
len = xmlUTF8Strlen(value);
}
break;
case XML_SCHEMAS_IDREF:
case XML_SCHEMAS_TOKEN:
case XML_SCHEMAS_LANGUAGE:
case XML_SCHEMAS_NMTOKEN:
case XML_SCHEMAS_NAME:
case XML_SCHEMAS_NCNAME:
case XML_SCHEMAS_ID:
/*
* FIXME: What exactly to do with anyURI?
*/
case XML_SCHEMAS_ANYURI:
if (value != NULL)
len = xmlSchemaNormLen(value);
break;
case XML_SCHEMAS_QNAME:
case XML_SCHEMAS_NOTATION:
/*
* For QName and NOTATION, those facets are
* deprecated and should be ignored.
*/
return (0);
default:
TODO
}
}
*length = (unsigned long) len;
/*
* TODO: Return the whole expected value, i.e. "lo", "mi" and "hi".
*/
if (facet->type == XML_SCHEMA_FACET_LENGTH) {
if (len != facet->val->value.decimal.lo)
return(XML_SCHEMAV_CVC_LENGTH_VALID);
} else if (facet->type == XML_SCHEMA_FACET_MINLENGTH) {
if (len < facet->val->value.decimal.lo)
return(XML_SCHEMAV_CVC_MINLENGTH_VALID);
} else {
if (len > facet->val->value.decimal.lo)
return(XML_SCHEMAV_CVC_MAXLENGTH_VALID);
}
return (0);
}
/**
* xmlSchemaValidateLengthFacet:
* @type: the built-in type
* @facet: the facet to check
* @value: the lexical repr. of the value to be validated
* @val: the precomputed value
* @length: the actual length of the value
*
* Checka a value against a "length", "minLength" and "maxLength"
* facet; sets @length to the computed length of @value.
*
* Returns 0 if the value is valid, a positive error code
* otherwise and -1 in case of an internal or API error.
*/
int
xmlSchemaValidateLengthFacet(xmlSchemaTypePtr type,
xmlSchemaFacetPtr facet,
const xmlChar *value,
xmlSchemaValPtr val,
unsigned long *length)
{
if (type == NULL)
return(-1);
return (xmlSchemaValidateLengthFacetInternal(facet,
type->builtInType, value, val, length,
XML_SCHEMA_WHITESPACE_UNKNOWN));
}
/**
* xmlSchemaValidateLengthFacetWhtsp:
* @facet: the facet to check
* @valType: the built-in type
* @value: the lexical repr. of the value to be validated
* @val: the precomputed value
* @ws: the whitespace type of the value
* @length: the actual length of the value
*
* Checka a value against a "length", "minLength" and "maxLength"
* facet; sets @length to the computed length of @value.
*
* Returns 0 if the value is valid, a positive error code
* otherwise and -1 in case of an internal or API error.
*/
int
xmlSchemaValidateLengthFacetWhtsp(xmlSchemaFacetPtr facet,
xmlSchemaValType valType,
const xmlChar *value,
xmlSchemaValPtr val,
unsigned long *length,
xmlSchemaWhitespaceValueType ws)
{
return (xmlSchemaValidateLengthFacetInternal(facet, valType, value, val,
length, ws));
}
/**
* xmlSchemaValidateFacetInternal:
* @facet: the facet to check
* @fws: the whitespace type of the facet's value
* @valType: the built-in type of the value
* @value: the lexical repr of the value to validate
* @val: the precomputed value
* @ws: the whitespace type of the value
*
* Check a value against a facet condition
*
* Returns 0 if the element is schemas valid, a positive error code
* number otherwise and -1 in case of internal or API error.
*/
static int
xmlSchemaValidateFacetInternal(xmlSchemaFacetPtr facet,
xmlSchemaWhitespaceValueType fws,
xmlSchemaValType valType,
const xmlChar *value,
xmlSchemaValPtr val,
xmlSchemaWhitespaceValueType ws)
{
int ret;
int stringType;
if (facet == NULL)
return(-1);
switch (facet->type) {
case XML_SCHEMA_FACET_PATTERN:
/*
* NOTE that for patterns, the @value needs to be the normalized
* value, *not* the lexical initial value or the canonical value.
*/
if (value == NULL)
return(-1);
/*
* If string-derived type, regexp must be tested on the value space of
* the datatype.
* See https://www.w3.org/TR/xmlschema-2/#rf-pattern
*/
stringType = val && ((val->type >= XML_SCHEMAS_STRING && val->type <= XML_SCHEMAS_NORMSTRING)
|| (val->type >= XML_SCHEMAS_TOKEN && val->type <= XML_SCHEMAS_NCNAME));
ret = xmlRegexpExec(facet->regexp,
(stringType && val->value.str) ? val->value.str : value);
if (ret == 1)
return(0);
if (ret == 0)
return(XML_SCHEMAV_CVC_PATTERN_VALID);
return(ret);
case XML_SCHEMA_FACET_MAXEXCLUSIVE:
ret = xmlSchemaCompareValues(val, facet->val);
if (ret == -2)
return(-1);
if (ret == -1)
return(0);
return(XML_SCHEMAV_CVC_MAXEXCLUSIVE_VALID);
case XML_SCHEMA_FACET_MAXINCLUSIVE:
ret = xmlSchemaCompareValues(val, facet->val);
if (ret == -2)
return(-1);
if ((ret == -1) || (ret == 0))
return(0);
return(XML_SCHEMAV_CVC_MAXINCLUSIVE_VALID);
case XML_SCHEMA_FACET_MINEXCLUSIVE:
ret = xmlSchemaCompareValues(val, facet->val);
if (ret == -2)
return(-1);
if (ret == 1)
return(0);
return(XML_SCHEMAV_CVC_MINEXCLUSIVE_VALID);
case XML_SCHEMA_FACET_MININCLUSIVE:
ret = xmlSchemaCompareValues(val, facet->val);
if (ret == -2)
return(-1);
if ((ret == 1) || (ret == 0))
return(0);
return(XML_SCHEMAV_CVC_MININCLUSIVE_VALID);
case XML_SCHEMA_FACET_WHITESPACE:
/* TODO whitespaces */
/*
* NOTE: Whitespace should be handled to normalize
* the value to be validated against a the facets;
* not to normalize the value in-between.
*/
return(0);
case XML_SCHEMA_FACET_ENUMERATION:
if (ws == XML_SCHEMA_WHITESPACE_UNKNOWN) {
/*
* This is to ensure API compatibility with the old
* xmlSchemaValidateFacet().
* TODO: Get rid of this case.
*/
if ((facet->value != NULL) &&
(xmlStrEqual(facet->value, value)))
return(0);
} else {
ret = xmlSchemaCompareValuesWhtspExt(facet->val->type,
facet->val, facet->value, fws, valType, val,
value, ws);
if (ret == -2)
return(-1);
if (ret == 0)
return(0);
}
return(XML_SCHEMAV_CVC_ENUMERATION_VALID);
case XML_SCHEMA_FACET_LENGTH:
/*
* SPEC (1.3) "if {primitive type definition} is QName or NOTATION,
* then any {value} is facet-valid."
*/
if ((valType == XML_SCHEMAS_QNAME) ||
(valType == XML_SCHEMAS_NOTATION))
return (0);
/* Falls through. */
case XML_SCHEMA_FACET_MAXLENGTH:
case XML_SCHEMA_FACET_MINLENGTH: {
unsigned int len = 0;
if ((valType == XML_SCHEMAS_QNAME) ||
(valType == XML_SCHEMAS_NOTATION))
return (0);
/*
* TODO: length, maxLength and minLength must be of type
* nonNegativeInteger only. Check if decimal is used somehow.
*/
if ((facet->val == NULL) ||
((facet->val->type != XML_SCHEMAS_DECIMAL) &&
(facet->val->type != XML_SCHEMAS_NNINTEGER)) ||
(facet->val->value.decimal.frac != 0)) {
return(-1);
}
if ((val != NULL) && (val->type == XML_SCHEMAS_HEXBINARY))
len = val->value.hex.total;
else if ((val != NULL) && (val->type == XML_SCHEMAS_BASE64BINARY))
len = val->value.base64.total;
else {
switch (valType) {
case XML_SCHEMAS_STRING:
case XML_SCHEMAS_NORMSTRING:
if (ws == XML_SCHEMA_WHITESPACE_UNKNOWN) {
/*
* This is to ensure API compatibility with the old
* xmlSchemaValidateFacet(). Anyway, this was and
* is not the correct handling.
* TODO: Get rid of this case somehow.
*/
if (valType == XML_SCHEMAS_STRING)
len = xmlUTF8Strlen(value);
else
len = xmlSchemaNormLen(value);
} else if (value != NULL) {
if (ws == XML_SCHEMA_WHITESPACE_COLLAPSE)
len = xmlSchemaNormLen(value);
else
/*
* Should be OK for "preserve" as well.
*/
len = xmlUTF8Strlen(value);
}
break;
case XML_SCHEMAS_IDREF:
case XML_SCHEMAS_TOKEN:
case XML_SCHEMAS_LANGUAGE:
case XML_SCHEMAS_NMTOKEN:
case XML_SCHEMAS_NAME:
case XML_SCHEMAS_NCNAME:
case XML_SCHEMAS_ID:
case XML_SCHEMAS_ANYURI:
if (value != NULL)
len = xmlSchemaNormLen(value);
break;
default:
TODO
}
}
if (facet->type == XML_SCHEMA_FACET_LENGTH) {
if (len != facet->val->value.decimal.lo)
return(XML_SCHEMAV_CVC_LENGTH_VALID);
} else if (facet->type == XML_SCHEMA_FACET_MINLENGTH) {
if (len < facet->val->value.decimal.lo)
return(XML_SCHEMAV_CVC_MINLENGTH_VALID);
} else {
if (len > facet->val->value.decimal.lo)
return(XML_SCHEMAV_CVC_MAXLENGTH_VALID);
}
break;
}
case XML_SCHEMA_FACET_TOTALDIGITS:
case XML_SCHEMA_FACET_FRACTIONDIGITS:
if ((facet->val == NULL) ||
((facet->val->type != XML_SCHEMAS_PINTEGER) &&
(facet->val->type != XML_SCHEMAS_NNINTEGER)) ||
(facet->val->value.decimal.frac != 0)) {
return(-1);
}
if ((val == NULL) ||
((val->type != XML_SCHEMAS_DECIMAL) &&
(val->type != XML_SCHEMAS_INTEGER) &&
(val->type != XML_SCHEMAS_NPINTEGER) &&
(val->type != XML_SCHEMAS_NINTEGER) &&
(val->type != XML_SCHEMAS_NNINTEGER) &&
(val->type != XML_SCHEMAS_PINTEGER) &&
(val->type != XML_SCHEMAS_INT) &&
(val->type != XML_SCHEMAS_UINT) &&
(val->type != XML_SCHEMAS_LONG) &&
(val->type != XML_SCHEMAS_ULONG) &&
(val->type != XML_SCHEMAS_SHORT) &&
(val->type != XML_SCHEMAS_USHORT) &&
(val->type != XML_SCHEMAS_BYTE) &&
(val->type != XML_SCHEMAS_UBYTE))) {
return(-1);
}
if (facet->type == XML_SCHEMA_FACET_TOTALDIGITS) {
if (val->value.decimal.total > facet->val->value.decimal.lo)
return(XML_SCHEMAV_CVC_TOTALDIGITS_VALID);
} else if (facet->type == XML_SCHEMA_FACET_FRACTIONDIGITS) {
if (val->value.decimal.frac > facet->val->value.decimal.lo)
return(XML_SCHEMAV_CVC_FRACTIONDIGITS_VALID);
}
break;
default:
TODO
}
return(0);
}
/**
* xmlSchemaValidateFacet:
* @base: the base type
* @facet: the facet to check
* @value: the lexical repr of the value to validate
* @val: the precomputed value
*
* Check a value against a facet condition
*
* Returns 0 if the element is schemas valid, a positive error code
* number otherwise and -1 in case of internal or API error.
*/
int
xmlSchemaValidateFacet(xmlSchemaTypePtr base,
xmlSchemaFacetPtr facet,
const xmlChar *value,
xmlSchemaValPtr val)
{
/*
* This tries to ensure API compatibility regarding the old
* xmlSchemaValidateFacet() and the new xmlSchemaValidateFacetInternal() and
* xmlSchemaValidateFacetWhtsp().
*/
if (val != NULL)
return(xmlSchemaValidateFacetInternal(facet,
XML_SCHEMA_WHITESPACE_UNKNOWN, val->type, value, val,
XML_SCHEMA_WHITESPACE_UNKNOWN));
else if (base != NULL)
return(xmlSchemaValidateFacetInternal(facet,
XML_SCHEMA_WHITESPACE_UNKNOWN, base->builtInType, value, val,
XML_SCHEMA_WHITESPACE_UNKNOWN));
return(-1);
}
/**
* xmlSchemaValidateFacetWhtsp:
* @facet: the facet to check
* @fws: the whitespace type of the facet's value
* @valType: the built-in type of the value
* @value: the lexical (or normalized for pattern) repr of the value to validate
* @val: the precomputed value
* @ws: the whitespace type of the value
*
* Check a value against a facet condition. This takes value normalization
* according to the specified whitespace types into account.
* Note that @value needs to be the *normalized* value if the facet
* is of type "pattern".
*
* Returns 0 if the element is schemas valid, a positive error code
* number otherwise and -1 in case of internal or API error.
*/
int
xmlSchemaValidateFacetWhtsp(xmlSchemaFacetPtr facet,
xmlSchemaWhitespaceValueType fws,
xmlSchemaValType valType,
const xmlChar *value,
xmlSchemaValPtr val,
xmlSchemaWhitespaceValueType ws)
{
return(xmlSchemaValidateFacetInternal(facet, fws, valType,
value, val, ws));
}
#if 0
#ifndef DBL_DIG
#define DBL_DIG 16
#endif
#ifndef DBL_EPSILON
#define DBL_EPSILON 1E-9
#endif
#define INTEGER_DIGITS DBL_DIG
#define FRACTION_DIGITS (DBL_DIG + 1)
#define EXPONENT_DIGITS (3 + 2)
/**
* xmlXPathFormatNumber:
* @number: number to format
* @buffer: output buffer
* @buffersize: size of output buffer
*
* Convert the number into a string representation.
*/
static void
xmlSchemaFormatFloat(double number, char buffer[], int buffersize)
{
switch (xmlXPathIsInf(number)) {
case 1:
if (buffersize > (int)sizeof("INF"))
snprintf(buffer, buffersize, "INF");
break;
case -1:
if (buffersize > (int)sizeof("-INF"))
snprintf(buffer, buffersize, "-INF");
break;
default:
if (xmlXPathIsNaN(number)) {
if (buffersize > (int)sizeof("NaN"))
snprintf(buffer, buffersize, "NaN");
} else if (number == 0) {
snprintf(buffer, buffersize, "0.0E0");
} else {
/* 3 is sign, decimal point, and terminating zero */
char work[DBL_DIG + EXPONENT_DIGITS + 3];
int integer_place, fraction_place;
char *ptr;
char *after_fraction;
double absolute_value;
int size;
absolute_value = fabs(number);
/*
* Result is in work, and after_fraction points
* just past the fractional part.
* Use scientific notation
*/
integer_place = DBL_DIG + EXPONENT_DIGITS + 1;
fraction_place = DBL_DIG - 1;
snprintf(work, sizeof(work),"%*.*e",
integer_place, fraction_place, number);
after_fraction = strchr(work + DBL_DIG, 'e');
/* Remove fractional trailing zeroes */
ptr = after_fraction;
while (*(--ptr) == '0')
;
if (*ptr != '.')
ptr++;
while ((*ptr++ = *after_fraction++) != 0);
/* Finally copy result back to caller */
size = strlen(work) + 1;
if (size > buffersize) {
work[buffersize - 1] = 0;
size = buffersize;
}
memmove(buffer, work, size);
}
break;
}
}
#endif
/**
* xmlSchemaGetCanonValue:
* @val: the precomputed value
* @retValue: the returned value
*
* Get the canonical lexical representation of the value.
* The caller has to FREE the returned retValue.
*
* WARNING: Some value types are not supported yet, resulting
* in a @retValue of "???".
*
* TODO: XML Schema 1.0 does not define canonical representations
* for: duration, gYearMonth, gYear, gMonthDay, gMonth, gDay,
* anyURI, QName, NOTATION. This will be fixed in XML Schema 1.1.
*
*
* Returns 0 if the value could be built, 1 if the value type is
* not supported yet and -1 in case of API errors.
*/
int
xmlSchemaGetCanonValue(xmlSchemaValPtr val, const xmlChar **retValue)
{
if ((retValue == NULL) || (val == NULL))
return (-1);
*retValue = NULL;
switch (val->type) {
case XML_SCHEMAS_STRING:
if (val->value.str == NULL)
*retValue = BAD_CAST xmlStrdup(BAD_CAST "");
else
*retValue =
BAD_CAST xmlStrdup((const xmlChar *) val->value.str);
break;
case XML_SCHEMAS_NORMSTRING:
if (val->value.str == NULL)
*retValue = BAD_CAST xmlStrdup(BAD_CAST "");
else {
*retValue = xmlSchemaWhiteSpaceReplace(
(const xmlChar *) val->value.str);
if ((*retValue) == NULL)
*retValue = BAD_CAST xmlStrdup(
(const xmlChar *) val->value.str);
}
break;
case XML_SCHEMAS_TOKEN:
case XML_SCHEMAS_LANGUAGE:
case XML_SCHEMAS_NMTOKEN:
case XML_SCHEMAS_NAME:
case XML_SCHEMAS_NCNAME:
case XML_SCHEMAS_ID:
case XML_SCHEMAS_IDREF:
case XML_SCHEMAS_ENTITY:
case XML_SCHEMAS_NOTATION: /* Unclear */
case XML_SCHEMAS_ANYURI: /* Unclear */
if (val->value.str == NULL)
return (-1);
*retValue =
BAD_CAST xmlSchemaCollapseString(BAD_CAST val->value.str);
if (*retValue == NULL)
*retValue =
BAD_CAST xmlStrdup((const xmlChar *) val->value.str);
break;
case XML_SCHEMAS_QNAME:
/* TODO: Unclear in XML Schema 1.0. */
if (val->value.qname.uri == NULL) {
*retValue = BAD_CAST xmlStrdup(BAD_CAST val->value.qname.name);
return (0);
} else {
*retValue = BAD_CAST xmlStrdup(BAD_CAST "{");
*retValue = BAD_CAST xmlStrcat((xmlChar *) (*retValue),
BAD_CAST val->value.qname.uri);
*retValue = BAD_CAST xmlStrcat((xmlChar *) (*retValue),
BAD_CAST "}");
*retValue = BAD_CAST xmlStrcat((xmlChar *) (*retValue),
BAD_CAST val->value.qname.uri);
}
break;
case XML_SCHEMAS_DECIMAL:
/*
* TODO: Lookout for a more simple implementation.
*/
if ((val->value.decimal.total == 1) &&
(val->value.decimal.lo == 0)) {
*retValue = xmlStrdup(BAD_CAST "0.0");
} else {
xmlSchemaValDecimal dec = val->value.decimal;
int bufsize;
char *buf = NULL, *offs;
/* Add room for the decimal point as well. */
bufsize = dec.total + 2;
if (dec.sign)
bufsize++;
/* Add room for leading/trailing zero. */
if ((dec.frac == 0) || (dec.frac == dec.total))
bufsize++;
buf = xmlMalloc(bufsize);
if (buf == NULL)
return(-1);
offs = buf;
if (dec.sign)
*offs++ = '-';
if (dec.frac == dec.total) {
*offs++ = '0';
*offs++ = '.';
}
if (dec.hi != 0)
snprintf(offs, bufsize - (offs - buf),
"%lu%lu%lu", dec.hi, dec.mi, dec.lo);
else if (dec.mi != 0)
snprintf(offs, bufsize - (offs - buf),
"%lu%lu", dec.mi, dec.lo);
else
snprintf(offs, bufsize - (offs - buf),
"%lu", dec.lo);
if (dec.frac != 0) {
if (dec.frac != dec.total) {
int diff = dec.total - dec.frac;
/*
* Insert the decimal point.
*/
memmove(offs + diff + 1, offs + diff, dec.frac +1);
offs[diff] = '.';
} else {
unsigned int i = 0;
/*
* Insert missing zeroes behind the decimal point.
*/
while (*(offs + i) != 0)
i++;
if (i < dec.total) {
memmove(offs + (dec.total - i), offs, i +1);
memset(offs, '0', dec.total - i);
}
}
} else {
/*
* Append decimal point and zero.
*/
offs = buf + bufsize - 1;
*offs-- = 0;
*offs-- = '0';
*offs-- = '.';
}
*retValue = BAD_CAST buf;
}
break;
case XML_SCHEMAS_INTEGER:
case XML_SCHEMAS_PINTEGER:
case XML_SCHEMAS_NPINTEGER:
case XML_SCHEMAS_NINTEGER:
case XML_SCHEMAS_NNINTEGER:
case XML_SCHEMAS_LONG:
case XML_SCHEMAS_BYTE:
case XML_SCHEMAS_SHORT:
case XML_SCHEMAS_INT:
case XML_SCHEMAS_UINT:
case XML_SCHEMAS_ULONG:
case XML_SCHEMAS_USHORT:
case XML_SCHEMAS_UBYTE:
if ((val->value.decimal.total == 1) &&
(val->value.decimal.lo == 0))
*retValue = xmlStrdup(BAD_CAST "0");
else {
xmlSchemaValDecimal dec = val->value.decimal;
int bufsize = dec.total + 1;
/* Add room for the decimal point as well. */
if (dec.sign)
bufsize++;
*retValue = xmlMalloc(bufsize);
if (*retValue == NULL)
return(-1);
if (dec.hi != 0) {
if (dec.sign)
snprintf((char *) *retValue, bufsize,
"-%lu%lu%lu", dec.hi, dec.mi, dec.lo);
else
snprintf((char *) *retValue, bufsize,
"%lu%lu%lu", dec.hi, dec.mi, dec.lo);
} else if (dec.mi != 0) {
if (dec.sign)
snprintf((char *) *retValue, bufsize,
"-%lu%lu", dec.mi, dec.lo);
else
snprintf((char *) *retValue, bufsize,
"%lu%lu", dec.mi, dec.lo);
} else {
if (dec.sign)
snprintf((char *) *retValue, bufsize, "-%lu", dec.lo);
else
snprintf((char *) *retValue, bufsize, "%lu", dec.lo);
}
}
break;
case XML_SCHEMAS_BOOLEAN:
if (val->value.b)
*retValue = BAD_CAST xmlStrdup(BAD_CAST "true");
else
*retValue = BAD_CAST xmlStrdup(BAD_CAST "false");
break;
case XML_SCHEMAS_DURATION: {
char buf[100];
unsigned long year;
unsigned long mon, day, hour = 0, min = 0;
double sec = 0, left;
/* TODO: Unclear in XML Schema 1.0 */
/*
* TODO: This results in a normalized output of the value
* - which is NOT conformant to the spec -
* since the exact values of each property are not
* recoverable. Think about extending the structure to
* provide a field for every property.
*/
year = (unsigned long) FQUOTIENT(labs(val->value.dur.mon), 12);
mon = labs(val->value.dur.mon) - 12 * year;
day = (unsigned long) FQUOTIENT(fabs(val->value.dur.sec), 86400);
left = fabs(val->value.dur.sec) - day * 86400;
if (left > 0) {
hour = (unsigned long) FQUOTIENT(left, 3600);
left = left - (hour * 3600);
if (left > 0) {
min = (unsigned long) FQUOTIENT(left, 60);
sec = left - (min * 60);
}
}
if ((val->value.dur.mon < 0) || (val->value.dur.sec < 0))
snprintf(buf, 100, "P%luY%luM%luDT%luH%luM%.14gS",
year, mon, day, hour, min, sec);
else
snprintf(buf, 100, "-P%luY%luM%luDT%luH%luM%.14gS",
year, mon, day, hour, min, sec);
*retValue = BAD_CAST xmlStrdup(BAD_CAST buf);
}
break;
case XML_SCHEMAS_GYEAR: {
char buf[30];
/* TODO: Unclear in XML Schema 1.0 */
/* TODO: What to do with the timezone? */
snprintf(buf, 30, "%04ld", val->value.date.year);
*retValue = BAD_CAST xmlStrdup(BAD_CAST buf);
}
break;
case XML_SCHEMAS_GMONTH: {
/* TODO: Unclear in XML Schema 1.0 */
/* TODO: What to do with the timezone? */
*retValue = xmlMalloc(6);
if (*retValue == NULL)
return(-1);
snprintf((char *) *retValue, 6, "--%02u",
val->value.date.mon);
}
break;
case XML_SCHEMAS_GDAY: {
/* TODO: Unclear in XML Schema 1.0 */
/* TODO: What to do with the timezone? */
*retValue = xmlMalloc(6);
if (*retValue == NULL)
return(-1);
snprintf((char *) *retValue, 6, "---%02u",
val->value.date.day);
}
break;
case XML_SCHEMAS_GMONTHDAY: {
/* TODO: Unclear in XML Schema 1.0 */
/* TODO: What to do with the timezone? */
*retValue = xmlMalloc(8);
if (*retValue == NULL)
return(-1);
snprintf((char *) *retValue, 8, "--%02u-%02u",
val->value.date.mon, val->value.date.day);
}
break;
case XML_SCHEMAS_GYEARMONTH: {
char buf[35];
/* TODO: Unclear in XML Schema 1.0 */
/* TODO: What to do with the timezone? */
if (val->value.date.year < 0)
snprintf(buf, 35, "-%04ld-%02u",
labs(val->value.date.year),
val->value.date.mon);
else
snprintf(buf, 35, "%04ld-%02u",
val->value.date.year, val->value.date.mon);
*retValue = BAD_CAST xmlStrdup(BAD_CAST buf);
}
break;
case XML_SCHEMAS_TIME:
{
char buf[30];
if (val->value.date.tz_flag) {
xmlSchemaValPtr norm;
norm = xmlSchemaDateNormalize(val, 0);
if (norm == NULL)
return (-1);
/*
* TODO: Check if "%.14g" is portable.
*/
snprintf(buf, 30,
"%02u:%02u:%02.14gZ",
norm->value.date.hour,
norm->value.date.min,
norm->value.date.sec);
xmlSchemaFreeValue(norm);
} else {
snprintf(buf, 30,
"%02u:%02u:%02.14g",
val->value.date.hour,
val->value.date.min,
val->value.date.sec);
}
*retValue = BAD_CAST xmlStrdup(BAD_CAST buf);
}
break;
case XML_SCHEMAS_DATE:
{
char buf[30];
if (val->value.date.tz_flag) {
xmlSchemaValPtr norm;
norm = xmlSchemaDateNormalize(val, 0);
if (norm == NULL)
return (-1);
/*
* TODO: Append the canonical value of the
* recoverable timezone and not "Z".
*/
snprintf(buf, 30,
"%04ld:%02u:%02uZ",
norm->value.date.year, norm->value.date.mon,
norm->value.date.day);
xmlSchemaFreeValue(norm);
} else {
snprintf(buf, 30,
"%04ld:%02u:%02u",
val->value.date.year, val->value.date.mon,
val->value.date.day);
}
*retValue = BAD_CAST xmlStrdup(BAD_CAST buf);
}
break;
case XML_SCHEMAS_DATETIME:
{
char buf[50];
if (val->value.date.tz_flag) {
xmlSchemaValPtr norm;
norm = xmlSchemaDateNormalize(val, 0);
if (norm == NULL)
return (-1);
/*
* TODO: Check if "%.14g" is portable.
*/
snprintf(buf, 50,
"%04ld:%02u:%02uT%02u:%02u:%02.14gZ",
norm->value.date.year, norm->value.date.mon,
norm->value.date.day, norm->value.date.hour,
norm->value.date.min, norm->value.date.sec);
xmlSchemaFreeValue(norm);
} else {
snprintf(buf, 50,
"%04ld:%02u:%02uT%02u:%02u:%02.14g",
val->value.date.year, val->value.date.mon,
val->value.date.day, val->value.date.hour,
val->value.date.min, val->value.date.sec);
}
*retValue = BAD_CAST xmlStrdup(BAD_CAST buf);
}
break;
case XML_SCHEMAS_HEXBINARY:
*retValue = BAD_CAST xmlStrdup(BAD_CAST val->value.hex.str);
break;
case XML_SCHEMAS_BASE64BINARY:
/*
* TODO: Is the following spec piece implemented?:
* SPEC: "Note: For some values the canonical form defined
* above does not conform to [RFC 2045], which requires breaking
* with linefeeds at appropriate intervals."
*/
*retValue = BAD_CAST xmlStrdup(BAD_CAST val->value.base64.str);
break;
case XML_SCHEMAS_FLOAT: {
char buf[30];
/*
* |m| < 16777216, -149 <= e <= 104.
* TODO: Handle, NaN, INF, -INF. The format is not
* yet conformant. The c type float does not cover
* the whole range.
*/
snprintf(buf, 30, "%01.14e", val->value.f);
*retValue = BAD_CAST xmlStrdup(BAD_CAST buf);
}
break;
case XML_SCHEMAS_DOUBLE: {
char buf[40];
/* |m| < 9007199254740992, -1075 <= e <= 970 */
/*
* TODO: Handle, NaN, INF, -INF. The format is not
* yet conformant. The c type float does not cover
* the whole range.
*/
snprintf(buf, 40, "%01.14e", val->value.d);
*retValue = BAD_CAST xmlStrdup(BAD_CAST buf);
}
break;
default:
*retValue = BAD_CAST xmlStrdup(BAD_CAST "???");
return (1);
}
if (*retValue == NULL)
return(-1);
return (0);
}
/**
* xmlSchemaGetCanonValueWhtsp:
* @val: the precomputed value
* @retValue: the returned value
* @ws: the whitespace type of the value
*
* Get the canonical representation of the value.
* The caller has to free the returned @retValue.
*
* Returns 0 if the value could be built, 1 if the value type is
* not supported yet and -1 in case of API errors.
*/
int
xmlSchemaGetCanonValueWhtsp(xmlSchemaValPtr val,
const xmlChar **retValue,
xmlSchemaWhitespaceValueType ws)
{
if ((retValue == NULL) || (val == NULL))
return (-1);
if ((ws == XML_SCHEMA_WHITESPACE_UNKNOWN) ||
(ws > XML_SCHEMA_WHITESPACE_COLLAPSE))
return (-1);
*retValue = NULL;
switch (val->type) {
case XML_SCHEMAS_STRING:
if (val->value.str == NULL)
*retValue = BAD_CAST xmlStrdup(BAD_CAST "");
else if (ws == XML_SCHEMA_WHITESPACE_COLLAPSE)
*retValue = xmlSchemaCollapseString(val->value.str);
else if (ws == XML_SCHEMA_WHITESPACE_REPLACE)
*retValue = xmlSchemaWhiteSpaceReplace(val->value.str);
if ((*retValue) == NULL)
*retValue = BAD_CAST xmlStrdup(val->value.str);
break;
case XML_SCHEMAS_NORMSTRING:
if (val->value.str == NULL)
*retValue = BAD_CAST xmlStrdup(BAD_CAST "");
else {
if (ws == XML_SCHEMA_WHITESPACE_COLLAPSE)
*retValue = xmlSchemaCollapseString(val->value.str);
else
*retValue = xmlSchemaWhiteSpaceReplace(val->value.str);
if ((*retValue) == NULL)
*retValue = BAD_CAST xmlStrdup(val->value.str);
}
break;
default:
return (xmlSchemaGetCanonValue(val, retValue));
}
return (0);
}
/**
* xmlSchemaGetValType:
* @val: a schemas value
*
* Accessor for the type of a value
*
* Returns the xmlSchemaValType of the value
*/
xmlSchemaValType
xmlSchemaGetValType(xmlSchemaValPtr val)
{
if (val == NULL)
return(XML_SCHEMAS_UNKNOWN);
return (val->type);
}
#define bottom_xmlschemastypes
#include "elfgcchack.h"
#endif /* LIBXML_SCHEMAS_ENABLED */