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libcm/cmData.c

1964 wiersze
51 KiB
C
Czysty Wina Historia

#include "cmGlobal.h"
#include "cmRpt.h"
#include "cmErr.h"
#include "cmCtx.h"
#include "cmMem.h"
#include "cmMallocDebug.h"
#include "cmData.h"
cmDtRC_t _cmDataErrNo = kOkDtRC;
cmData_t cmDataNull = { kInvalidDtId,0,NULL,NULL,0 };
typedef struct
{
cmDataFmtId_t tid;
unsigned cnt;
} cmDataSerialHdr_t;
void _cmDataSetError( unsigned err )
{
_cmDataErrNo = err;
}
void _cmDataFreeArray( cmData_t* p )
{
if(cmIsFlag(p->flags,kDynPtrDtFl))
{
cmMemFree(p->u.vp);
p->u.vp = NULL;
p->flags = cmClrFlag(p->flags,kDynPtrDtFl);
}
p->tid = kInvalidDtId;
p->cnt = 0;
}
void _cmDataFree( cmData_t* p )
{
if( cmDataIsStruct(p) )
{
cmData_t* cp = p->u.child;
for(; cp!=NULL; cp=cp->sibling)
_cmDataFree(cp);
}
_cmDataFreeArray(p);
if( cmIsFlag(p->flags,kDynObjDtFl) )
cmMemFree(p);
}
cmData_t* _cmDataAllocNode( cmData_t* parent, cmDataFmtId_t tid )
{
cmData_t* p = cmMemAllocZ(cmData_t,1);
p->tid = tid;
p->flags = kDynObjDtFl;
p->parent = parent;
if( parent != NULL )
return cmDataAppendChild(parent,p);
return p;
}
unsigned _cmDataByteCount( const cmData_t* p )
{
unsigned n = sizeof(cmDataSerialHdr_t);
switch( p->tid )
{
case kInvalidDtId: return 0;
case kNullDtId: return n;
case kUCharDtId: return n + sizeof(unsigned char);
case kCharDtId: return n + sizeof(char);
case kUShortDtId: return n + sizeof(unsigned short);
case kShortDtId: return n + sizeof(short);
case kUIntDtId: return n + sizeof(unsigned int);
case kIntDtId: return n + sizeof(int);
case kULongDtId: return n + sizeof(unsigned long);
case kLongDtId: return n + sizeof(long);
case kFloatDtId: return n + sizeof(float);
case kDoubleDtId: return n + sizeof(double);
case kStrDtId: return n + (p->u.z ==NULL ? 0 : strlen(p->u.z) + 1);
case kConstStrDtId: return n + (p->u.cz==NULL ? 0 : strlen(p->u.cz) + 1);
case kUCharPtrDtId: return n + p->cnt * sizeof(unsigned char);
case kCharPtrDtId: return n + p->cnt * sizeof(char);
case kUShortPtrDtId: return n + p->cnt * sizeof(unsigned short);
case kShortPtrDtId: return n + p->cnt * sizeof(short);
case kUIntPtrDtId: return n + p->cnt * sizeof(unsigned int);
case kIntPtrDtId: return n + p->cnt * sizeof(int);
case kULongPtrDtId: return n + p->cnt * sizeof(unsigned long);
case kLongPtrDtId: return n + p->cnt * sizeof(long);
case kFloatPtrDtId: return n + p->cnt * sizeof(float);
case kDoublePtrDtId: return n + p->cnt * sizeof(double);
case kVoidPtrDtId: return n + p->cnt * sizeof(char);
default:
return n;
}
assert(0);
return 0;
}
bool cmDataIsValue( const cmData_t* p )
{ return kMinValDtId <= p->tid && p->tid <= kMaxValDtId; }
bool cmDataIsPtr( const cmData_t* p )
{ return kMinPtrDtId <= p->tid && p->tid <= kMaxPtrDtId; }
bool cmDataIsStruct( const cmData_t* p )
{ return kMinStructDtId <= p->tid && p->tid <= kMaxStructDtId; }
char cmDataChar( const cmData_t* p ) { assert(p->tid==kCharDtId); return p->u.c; }
unsigned char cmDataUChar( const cmData_t* p ) { assert(p->tid==kUCharDtId); return p->u.uc; }
short cmDataShort( const cmData_t* p ) { assert(p->tid==kShortDtId); return p->u.s; }
unsigned short cmDataUShort( const cmData_t* p ) { assert(p->tid==kUShortDtId); return p->u.us; }
int cmDataInt( const cmData_t* p ) { assert(p->tid==kIntDtId); return p->u.i; }
unsigned int cmDataUInt( const cmData_t* p ) { assert(p->tid==kUIntDtId); return p->u.ui; }
long cmDataLong( const cmData_t* p ) { assert(p->tid==kLongDtId); return p->u.l; }
unsigned long cmDataULong( const cmData_t* p ) { assert(p->tid==kULongDtId); return p->u.ul; }
float cmDataFloat( const cmData_t* p ) { assert(p->tid==kFloatDtId); return p->u.f; }
double cmDataDouble( const cmData_t* p ) { assert(p->tid==kDoubleDtId); return p->u.d; }
cmChar_t* cmDataStr( const cmData_t* p ) { assert(p->tid==kStrDtId); return p->u.z; }
const cmChar_t* cmDataConstStr( const cmData_t* p ) { assert(p->tid==kConstStrDtId); return p->u.cz; }
void* cmDataVoidPtr( const cmData_t* p ) { assert(p->tid==kVoidPtrDtId); return p->u.vp; }
char* cmDataCharPtr( const cmData_t* p ) { assert(p->tid==kCharPtrDtId); return p->u.cp; }
unsigned char* cmDataUCharPtr( const cmData_t* p ) { assert(p->tid==kUCharPtrDtId); return p->u.ucp; }
short* cmDataShortPtr( const cmData_t* p ) { assert(p->tid==kShortPtrDtId); return p->u.sp; }
unsigned short* cmDataUShortPtr( const cmData_t* p ) { assert(p->tid==kUShortPtrDtId); return p->u.usp; }
int* cmDataIntPtr( const cmData_t* p ) { assert(p->tid==kIntPtrDtId); return p->u.ip; }
unsigned int* cmDataUIntPtr( const cmData_t* p ) { assert(p->tid==kUIntPtrDtId); return p->u.uip; }
long* cmDataLongPtr( const cmData_t* p ) { assert(p->tid==kLongPtrDtId); return p->u.lp; }
unsigned long* cmDataULongPtr( const cmData_t* p ) { assert(p->tid==kULongPtrDtId); return p->u.ulp; }
float* cmDataFloatPtr( const cmData_t* p ) { assert(p->tid==kFloatPtrDtId); return p->u.fp; }
double* cmDataDoublePtr( const cmData_t* p ) { assert(p->tid==kDoublePtrDtId); return p->u.dp; }
unsigned char cmDataGetUChar( const cmData_t* p )
{
unsigned char v = kInvalidDtUChar;
switch( p->tid )
{
case kUCharDtId: v = p->u.uc; break;
case kCharDtId: v = (unsigned char)p->u.c; break;
case kUShortDtId: v = (unsigned char)p->u.us; break;
case kShortDtId: v = (unsigned char)p->u.s; break;
case kUIntDtId: v = (unsigned char)p->u.ui; break;
case kIntDtId: v = (unsigned char)p->u.i; break;
case kULongDtId: v = (unsigned char)p->u.ul; break;
case kLongDtId: v = (unsigned char)p->u.l; break;
case kFloatDtId: v = (unsigned char)p->u.f; break;
case kDoubleDtId: v = (unsigned char)p->u.d; break;
default:
_cmDataSetError(kCvtErrDtRC);
}
return v;
}
char cmDataGetChar( const cmData_t* p )
{
char v = kInvalidDtChar;
switch( p->tid )
{
case kUCharDtId: v = (char)p->u.uc; break;
case kCharDtId: v = p->u.c; break;
case kUShortDtId: v = (char)p->u.us; break;
case kShortDtId: v = (char)p->u.s; break;
case kUIntDtId: v = (char)p->u.ui; break;
case kIntDtId: v = (char)p->u.i; break;
case kULongDtId: v = (char)p->u.ul; break;
case kLongDtId: v = (char)p->u.l; break;
case kFloatDtId: v = (char)p->u.f; break;
case kDoubleDtId: v = (char)p->u.d; break;
default:
_cmDataSetError(kCvtErrDtRC);
}
return v;
}
short cmDataGetShort( const cmData_t* p )
{
short v = kInvalidDtShort;
switch( p->tid )
{
case kUCharDtId: v = (short)p->u.uc; break;
case kCharDtId: v = (short)p->u.c; break;
case kUShortDtId: v = (short)p->u.us; break;
case kShortDtId: v = p->u.s; break;
case kUIntDtId: v = (short)p->u.ui; break;
case kIntDtId: v = (short)p->u.i; break;
case kULongDtId: v = (short)p->u.ul; break;
case kLongDtId: v = (short)p->u.l; break;
case kFloatDtId: v = (short)p->u.f; break;
case kDoubleDtId: v = (short)p->u.d; break;
default:
_cmDataSetError(kCvtErrDtRC);
}
return v;
}
unsigned short cmDataGetUShort( const cmData_t* p )
{
unsigned short v = kInvalidDtUShort;
switch( p->tid )
{
case kUCharDtId: v = (unsigned short)p->u.uc; break;
case kCharDtId: v = (unsigned short)p->u.c; break;
case kUShortDtId: v = p->u.us; break;
case kShortDtId: v = (unsigned short)p->u.s; break;
case kUIntDtId: v = (unsigned short)p->u.ui; break;
case kIntDtId: v = (unsigned short)p->u.i; break;
case kULongDtId: v = (unsigned short)p->u.ul; break;
case kLongDtId: v = (unsigned short)p->u.l; break;
case kFloatDtId: v = (unsigned short)p->u.f; break;
case kDoubleDtId: v = (unsigned short)p->u.d; break;
default:
_cmDataSetError(kCvtErrDtRC);
}
return v;
}
int cmDataGetInt( const cmData_t* p )
{
int v = kInvalidDtInt;
switch( p->tid )
{
case kUCharDtId: v = (int)p->u.uc; break;
case kCharDtId: v = (int)p->u.c; break;
case kUShortDtId: v = (int)p->u.us; break;
case kShortDtId: v = (int)p->u.s; break;
case kUIntDtId: v = (int)p->u.ui; break;
case kIntDtId: v = p->u.i; break;
case kULongDtId: v = (int)p->u.ul; break;
case kLongDtId: v = (int)p->u.l; break;
case kFloatDtId: v = (int)p->u.f; break;
case kDoubleDtId: v = (int)p->u.d; break;
default:
_cmDataSetError(kCvtErrDtRC);
}
return v;
}
unsigned int cmDataGetUInt( const cmData_t* p )
{
unsigned int v = kInvalidDtUInt;
switch( p->tid )
{
case kUCharDtId: v = (unsigned int)p->u.uc; break;
case kCharDtId: v = (unsigned int)p->u.c; break;
case kUShortDtId: v = (unsigned int)p->u.us; break;
case kShortDtId: v = (unsigned int)p->u.s; break;
case kUIntDtId: v = p->u.ui; break;
case kIntDtId: v = (unsigned int)p->u.i; break;
case kULongDtId: v = (unsigned int)p->u.ul; break;
case kLongDtId: v = (unsigned int)p->u.l; break;
case kFloatDtId: v = (unsigned int)p->u.f; break;
case kDoubleDtId: v = (unsigned int)p->u.d; break;
default:
_cmDataSetError(kCvtErrDtRC);
}
return v;
}
long cmDataGetLong( const cmData_t* p )
{
long v = kInvalidDtLong;
switch( p->tid )
{
case kUCharDtId: v = (long)p->u.uc; break;
case kCharDtId: v = (long)p->u.c; break;
case kUShortDtId: v = (long)p->u.us; break;
case kShortDtId: v = (long)p->u.s; break;
case kUIntDtId: v = (long)p->u.ui; break;
case kIntDtId: v = (long)p->u.i; break;
case kULongDtId: v = (long)p->u.ul; break;
case kLongDtId: v = p->u.l; break;
case kFloatDtId: v = (long)p->u.f; break;
case kDoubleDtId: v = (long)p->u.d; break;
default:
_cmDataSetError(kCvtErrDtRC);
}
return v;
}
unsigned long cmDataGetULong( const cmData_t* p )
{
unsigned long v = kInvalidDtULong;
switch( p->tid )
{
case kUCharDtId: v = (unsigned long)p->u.uc; break;
case kCharDtId: v = (unsigned long)p->u.c; break;
case kUShortDtId: v = (unsigned long)p->u.us; break;
case kShortDtId: v = (unsigned long)p->u.s; break;
case kUIntDtId: v = (unsigned long)p->u.ui; break;
case kIntDtId: v = (unsigned long)p->u.i; break;
case kULongDtId: v = p->u.ul; break;
case kLongDtId: v = (unsigned long)p->u.l; break;
case kFloatDtId: v = (unsigned long)p->u.f; break;
case kDoubleDtId: v = (unsigned long)p->u.d; break;
default:
_cmDataSetError(kCvtErrDtRC);
}
return v;
}
float cmDataGetFloat( const cmData_t* p )
{
float v = FLT_MAX;
switch( p->tid )
{
case kUCharDtId: v = (float)p->u.uc; break;
case kCharDtId: v = (float)p->u.c; break;
case kUShortDtId: v = (float)p->u.us; break;
case kShortDtId: v = (float)p->u.s; break;
case kUIntDtId: v = (float)p->u.ui; break;
case kIntDtId: v = (float)p->u.i; break;
case kULongDtId: v = (float)p->u.ul; break;
case kLongDtId: v = (float)p->u.l; break;
case kFloatDtId: v = p->u.f; break;
case kDoubleDtId: v = (float)p->u.d; break;
default:
_cmDataSetError(kCvtErrDtRC);
}
return v;
}
double cmDataGetDouble( const cmData_t* p )
{
double v = DBL_MAX;
switch( p->tid )
{
case kUCharDtId: v = (double)p->u.uc; break;
case kCharDtId: v = (double)p->u.c; break;
case kUShortDtId: v = (double)p->u.us; break;
case kShortDtId: v = (double)p->u.s; break;
case kUIntDtId: v = (double)p->u.ui; break;
case kIntDtId: v = (double)p->u.i; break;
case kULongDtId: v = (double)p->u.ul; break;
case kLongDtId: v = (double)p->u.l; break;
case kFloatDtId: v = (double)p->u.f; break;
case kDoubleDtId: v = p->u.d; break;
default:
_cmDataSetError(kCvtErrDtRC);
}
return v;
}
cmChar_t* cmDataGetStr( const cmData_t* p )
{
assert( p->tid == kStrDtId || p->tid == kConstStrDtId);
return (p->tid == kStrDtId || p->tid == kConstStrDtId) ? p->u.z : NULL;
}
const cmChar_t* cmDataGetConstStr( const cmData_t* p )
{
assert( p->tid == kStrDtId || p->tid == kConstStrDtId);
return (p->tid == kStrDtId || p->tid == kConstStrDtId) ? p->u.cz : NULL;
}
void* cmDataGetVoidPtr( const cmData_t* p )
{
assert( kMinPtrDtId <= p->tid && p->tid <= kMaxPtrDtId );
return ( kMinPtrDtId <= p->tid && p->tid <= kMaxPtrDtId ) ? p->u.vp : NULL;
}
char* cmDataGetCharPtr( const cmData_t* p )
{
assert( p->tid == kCharPtrDtId || p->tid == kUCharPtrDtId );
return (p->tid == kCharPtrDtId || p->tid == kUCharPtrDtId) ? p->u.cp : NULL;
}
unsigned char* cmDataGetUCharPtr( const cmData_t* p )
{
assert( p->tid == kCharPtrDtId || p->tid == kUCharPtrDtId );
return (p->tid == kCharPtrDtId || p->tid == kUCharPtrDtId) ? p->u.ucp : NULL;
}
short* cmDataGetShortPtr( const cmData_t* p )
{
assert( p->tid == kShortPtrDtId || p->tid == kUShortPtrDtId );
return (p->tid == kShortPtrDtId || p->tid == kUShortPtrDtId ) ? p->u.sp : NULL;
}
unsigned short* cmDataGetUShortPtr( const cmData_t* p )
{
assert( p->tid == kShortPtrDtId || p->tid == kUShortPtrDtId );
return (p->tid == kShortPtrDtId || p->tid == kUShortPtrDtId ) ? p->u.usp : NULL;
}
int* cmDataGetIntPtr( const cmData_t* p )
{
assert( p->tid == kIntPtrDtId || p->tid == kUIntPtrDtId );
return (p->tid == kIntPtrDtId || p->tid == kUIntPtrDtId ) ? p->u.ip : NULL;
}
unsigned int* cmDataGetUIntPtr( const cmData_t* p )
{
assert( p->tid == kIntPtrDtId || p->tid == kUIntPtrDtId );
return (p->tid == kIntPtrDtId || p->tid == kUIntPtrDtId ) ? p->u.uip : NULL;
}
long* cmDataGetLongPtr( const cmData_t* p )
{
assert( p->tid == kLongPtrDtId || p->tid == kULongPtrDtId );
return (p->tid == kLongPtrDtId || p->tid == kULongPtrDtId ) ? p->u.lp : NULL;
}
unsigned long* cmDataGetULongPtr( const cmData_t* p )
{
assert( p->tid == kLongPtrDtId || p->tid == kULongPtrDtId );
return (p->tid == kLongPtrDtId || p->tid == kULongPtrDtId ) ? p->u.ulp : NULL;
}
float* cmDataGetFloatPtr( const cmData_t* p )
{ return p->tid == kFloatPtrDtId ? p->u.fp : NULL; }
double* cmDataGetDoublePtr( const cmData_t* p )
{ return p->tid == kDoublePtrDtId ? p->u.dp : NULL; }
// Set the value of an existing data object.
cmData_t* cmDataSetNull( cmData_t* p )
{
_cmDataFreeArray(p);
p->tid = kNullDtId;
return p;
}
cmData_t* cmDataSetChar( cmData_t* p, char v )
{
_cmDataFreeArray(p);
p->tid = kCharDtId;
p->u.c = v;
return p;
}
cmData_t* cmDataSetUChar( cmData_t* p, unsigned char v )
{
_cmDataFreeArray(p);
p->tid = kUCharDtId;
p->u.uc = v;
return p;
}
cmData_t* cmDataSetShort( cmData_t* p, short v )
{
_cmDataFreeArray(p);
p->tid = kShortDtId;
p->u.s = v;
return p;
}
cmData_t* cmDataSetUShort( cmData_t* p, unsigned short v )
{
_cmDataFreeArray(p);
p->tid = kUShortDtId;
p->u.us = v;
return p;
}
cmData_t* cmDataSetInt( cmData_t* p, int v )
{
_cmDataFreeArray(p);
p->tid = kCharDtId;
p->u.c = v;
return p;
}
cmData_t* cmDataSetUInt( cmData_t* p, unsigned int v )
{
_cmDataFreeArray(p);
p->tid = kUIntDtId;
p->u.ui = v;
return p;
}
cmData_t* cmDataSetLong( cmData_t* p, long v )
{
_cmDataFreeArray(p);
p->tid = kLongDtId;
p->u.l = v;
return p;
}
cmData_t* cmDataSetULong( cmData_t* p, unsigned long v )
{
_cmDataFreeArray(p);
p->tid = kULongDtId;
p->u.ul = v;
return p;
}
cmData_t* cmDataSetFloat( cmData_t* p, float v )
{
_cmDataFreeArray(p);
p->tid = kFloatDtId;
p->u.f = v;
return p;
}
cmData_t* cmDataSetDouble( cmData_t* p, double v )
{
_cmDataFreeArray(p);
p->tid = kDoubleDtId;
p->u.d = v;
return p;
}
cmData_t* cmDataSetStr( cmData_t* p, cmChar_t* s )
{
_cmDataFreeArray(p);
p->tid = kStrDtId;
p->u.z = s;
return p;
}
cmData_t* cmDataSetConstStr( cmData_t* p, const cmChar_t* s )
{
_cmDataFreeArray(p);
p->tid = kConstStrDtId;
p->u.cz = s;
return p;
}
// Set the value of an existing data object to an external array.
// The array is not copied.
cmData_t* cmDataSetVoidPtr( cmData_t* p, void* vp, unsigned cnt )
{
cmDataSetCharPtr(p,(char*)vp,cnt);
p->tid = kVoidPtrDtId;
return p;
}
cmData_t* cmDataSetCharPtr( cmData_t* p, char* vp, unsigned cnt )
{
_cmDataFreeArray(p);
p->tid = kCharPtrDtId;
p->u.cp = vp;
p->cnt = cnt;
return p;
}
cmData_t* cmDataSetUCharPtr( cmData_t* p, unsigned char* vp, unsigned cnt )
{
_cmDataFreeArray(p);
p->tid = kUCharPtrDtId;
p->u.ucp = vp;
p->cnt = cnt;
return p;
}
cmData_t* cmDataSetShortPtr( cmData_t* p, short* vp, unsigned cnt )
{
_cmDataFreeArray(p);
p->tid = kShortPtrDtId;
p->u.sp = vp;
p->cnt = cnt;
return p;
}
cmData_t* cmDataSetUShortPtr( cmData_t* p, unsigned short* vp, unsigned cnt )
{
_cmDataFreeArray(p);
p->tid = kUShortPtrDtId;
p->u.usp = vp;
p->cnt = cnt;
return p;
}
cmData_t* cmDataSetIntPtr( cmData_t* p, int* vp, unsigned cnt )
{
_cmDataFreeArray(p);
p->tid = kCharPtrDtId;
p->u.ip = vp;
p->cnt = cnt;
return p;
}
cmData_t* cmDataSetUIntPtr( cmData_t* p, unsigned int* vp, unsigned cnt )
{
_cmDataFreeArray(p);
p->tid = kUIntPtrDtId;
p->u.uip = vp;
p->cnt = cnt;
return p;
}
cmData_t* cmDataSetLongPtr( cmData_t* p, long* vp, unsigned cnt )
{
_cmDataFreeArray(p);
p->tid = kLongPtrDtId;
p->u.lp = vp;
p->cnt = cnt;
return p;
}
cmData_t* cmDataSetULongPtr( cmData_t* p, unsigned long* vp, unsigned cnt )
{
_cmDataFreeArray(p);
p->tid = kULongPtrDtId;
p->u.ulp = vp;
p->cnt = cnt;
return p;
}
cmData_t* cmDataSetFloatPtr( cmData_t* p, float* vp, unsigned cnt )
{
_cmDataFreeArray(p);
p->tid = kFloatPtrDtId;
p->u.fp = vp;
p->cnt = cnt;
return p;
}
cmData_t* cmDataSetDoublePtr( cmData_t* p, double* vp, unsigned cnt )
{
_cmDataFreeArray(p);
p->tid = kDoublePtrDtId;
p->u.dp = vp;
p->cnt = cnt;
return p;
}
// Set the value of an existing array based data object.
// Allocate the internal array and copy the array into it.
cmData_t* cmDataSetStrAlloc( cmData_t* p, const cmChar_t* s )
{
if( cmIsFlag(p->flags,kDynPtrDtFl) )
cmMemResizeStr(p->u.z,s);
else
{
_cmDataFreeArray(p);
p->u.z = cmMemAllocStr(s);
}
p->tid = kStrDtId;
p->flags = cmSetFlag(p->flags,kDynPtrDtFl);
return p;
}
cmData_t* cmDataSetConstStrAlloc( cmData_t* p, const cmChar_t* s )
{ return cmDataSetStrAlloc(p,s); }
cmData_t* cmDataSetVoidAllocPtr( cmData_t* p, const void* vp, unsigned cnt )
{ return cmDataSetCharAllocPtr(p,(char*)vp,cnt); }
cmData_t* cmDataSetCharAllocPtr( cmData_t* p, const char* vp, unsigned cnt )
{
if( cmIsFlag(p->flags,kDynPtrDtFl) )
p->u.cp = cmMemResize(char, p->u.cp, cnt );
else
{
_cmDataFreeArray(p);
p->u.cp = cmMemAlloc(char, cnt );
}
memcpy(p->u.cp,vp,sizeof(char)*cnt);
p->tid = kCharPtrDtId;
p->flags = cmSetFlag(p->flags,kDynPtrDtFl);
p->cnt = cnt;
return p;
}
cmData_t* cmDataSetUCharAllocPtr( cmData_t* p, const unsigned char* vp, unsigned cnt )
{
if( cmIsFlag(p->flags,kDynPtrDtFl) )
p->u.ucp = cmMemResize(unsigned char, p->u.ucp, cnt );
else
{
_cmDataFreeArray(p);
p->u.ucp = cmMemAlloc(unsigned char, cnt );
}
memcpy(p->u.ucp,vp,sizeof(unsigned char)*cnt);
p->tid = kUCharPtrDtId;
p->flags = cmSetFlag(p->flags,kDynPtrDtFl);
p->cnt = cnt;
return p;
}
cmData_t* cmDataSetShortAllocPtr( cmData_t* p, const short* vp, unsigned cnt )
{
if( cmIsFlag(p->flags,kDynPtrDtFl) )
p->u.sp = cmMemResize(short, p->u.sp, cnt );
else
{
_cmDataFreeArray(p);
p->u.sp = cmMemAlloc(short, cnt );
}
memcpy(p->u.sp,vp,sizeof(short)*cnt);
p->tid = kShortPtrDtId;
p->flags = cmSetFlag(p->flags,kDynPtrDtFl);
p->cnt = cnt;
return p;
}
cmData_t* cmDataSetUShortAllocPtr( cmData_t* p, const unsigned short* vp, unsigned cnt )
{
if( cmIsFlag(p->flags,kDynPtrDtFl) )
p->u.usp = cmMemResize(unsigned short, p->u.usp, cnt );
else
{
_cmDataFreeArray(p);
p->u.usp = cmMemAlloc(unsigned short, cnt );
}
memcpy(p->u.usp,vp,sizeof(unsigned short)*cnt);
p->tid = kUShortPtrDtId;
p->flags = cmSetFlag(p->flags,kDynPtrDtFl);
p->cnt = cnt;
return p;
}
cmData_t* cmDataSetIntAllocPtr( cmData_t* p, const int* vp, unsigned cnt )
{
if( cmIsFlag(p->flags,kDynPtrDtFl) )
p->u.ip = cmMemResize(int, p->u.ip, cnt );
else
{
_cmDataFreeArray(p);
p->u.ip = cmMemAlloc(int, cnt );
}
memcpy(p->u.ip,vp,sizeof(int)*cnt);
p->tid = kIntPtrDtId;
p->flags = cmSetFlag(p->flags,kDynPtrDtFl);
p->cnt = cnt;
return p;
}
cmData_t* cmDataSetUIntAllocPtr( cmData_t* p, const unsigned int* vp, unsigned cnt )
{
if( cmIsFlag(p->flags,kDynPtrDtFl) )
p->u.uip = cmMemResize(unsigned int, p->u.uip, cnt );
else
{
_cmDataFreeArray(p);
p->u.uip = cmMemAlloc(unsigned int, cnt );
}
memcpy(p->u.uip,vp,sizeof(unsigned int)*cnt);
p->tid = kUIntPtrDtId;
p->flags = cmSetFlag(p->flags,kDynPtrDtFl);
p->cnt = cnt;
return p;
}
cmData_t* cmDataSetLongAllocPtr( cmData_t* p, const long* vp, unsigned cnt )
{
if( cmIsFlag(p->flags,kDynPtrDtFl) )
p->u.lp = cmMemResize(long, p->u.lp, cnt );
else
{
_cmDataFreeArray(p);
p->u.lp = cmMemAlloc(long, cnt );
}
memcpy(p->u.lp,vp,sizeof(long)*cnt);
p->tid = kLongPtrDtId;
p->flags = cmSetFlag(p->flags,kDynPtrDtFl);
p->cnt = cnt;
return p;
}
cmData_t* cmDataSetULongAllocPtr( cmData_t* p, const unsigned long* vp, unsigned cnt )
{
if( cmIsFlag(p->flags,kDynPtrDtFl) )
p->u.ulp = cmMemResize(unsigned long, p->u.ulp, cnt );
else
{
_cmDataFreeArray(p);
p->u.ulp = cmMemAlloc(unsigned long, cnt );
}
memcpy(p->u.ulp,vp,sizeof(unsigned long)*cnt);
p->tid = kULongPtrDtId;
p->flags = cmSetFlag(p->flags,kDynPtrDtFl);
p->cnt = cnt;
return p;
}
cmData_t* cmDataSetFloatAllocPtr( cmData_t* p, const float* vp, unsigned cnt )
{
if( cmIsFlag(p->flags,kDynPtrDtFl) )
p->u.fp = cmMemResize(float, p->u.fp, cnt );
else
{
_cmDataFreeArray(p);
p->u.fp = cmMemAlloc(float, cnt );
}
memcpy(p->u.fp,vp,sizeof(float)*cnt);
p->tid = kFloatPtrDtId;
p->flags = cmSetFlag(p->flags,kDynPtrDtFl);
p->cnt = cnt;
return p;
}
cmData_t* cmDataSetDoubleAllocPtr( cmData_t* p, const double* vp, unsigned cnt )
{
if( cmIsFlag(p->flags,kDynPtrDtFl) )
p->u.dp = cmMemResize(double, p->u.dp, cnt );
else
{
_cmDataFreeArray(p);
p->u.dp = cmMemAlloc(double, cnt );
}
memcpy(p->u.dp,vp,sizeof(double)*cnt);
p->tid = kDoublePtrDtId;
p->flags = cmSetFlag(p->flags,kDynPtrDtFl);
p->cnt = cnt;
return p;
}
// Dynamically allocate a data object and set it's value.
cmData_t* cmDataAllocNull( cmData_t* parent )
{ return _cmDataAllocNode(parent,kNullDtId); }
cmData_t* cmDataAllocChar( cmData_t* parent, char v )
{
cmData_t* p = _cmDataAllocNode(parent,kCharDtId);
cmDataSetChar(p,v);
return p;
}
cmData_t* cmDataAllocUChar( cmData_t* parent, unsigned char v )
{
cmData_t* p = _cmDataAllocNode(parent,kUCharDtId);
cmDataSetUChar(p,v);
return p;
}
cmData_t* cmDataAllocShort( cmData_t* parent, short v )
{
cmData_t* p = _cmDataAllocNode(parent,kShortDtId);
cmDataSetShort(p,v);
return p;
}
cmData_t* cmDataAllocUShort( cmData_t* parent, unsigned short v )
{
cmData_t* p = _cmDataAllocNode(parent,kUShortDtId);
cmDataSetUShort(p,v);
return p;
}
cmData_t* cmDataAllocInt( cmData_t* parent, int v )
{
cmData_t* p = _cmDataAllocNode(parent,kIntDtId);
cmDataSetInt(p,v);
return p;
}
cmData_t* cmDataAllocUInt( cmData_t* parent, unsigned int v )
{
cmData_t* p = _cmDataAllocNode(parent,kUIntDtId);
cmDataSetUInt(p,v);
return p;
}
cmData_t* cmDataAllocLong( cmData_t* parent, long v )
{
cmData_t* p = _cmDataAllocNode(parent,kLongDtId);
cmDataSetLong(p,v);
return p;
}
cmData_t* cmDataAllocULong( cmData_t* parent, unsigned long v )
{
cmData_t* p = _cmDataAllocNode(parent,kULongDtId);
cmDataSetULong(p,v);
return p;
}
cmData_t* cmDataAllocFloat( cmData_t* parent, float v )
{
cmData_t* p = _cmDataAllocNode(parent,kFloatDtId);
cmDataSetFloat(p,v);
return p;
}
cmData_t* cmDataAllocDouble( cmData_t* parent, double v )
{
cmData_t* p = _cmDataAllocNode(parent,kDoubleDtId);
cmDataSetDouble(p,v);
return p;
}
// Dynamically allocate a data object and set its array value to an external
// array. The data is not copied.
cmData_t* cmDataAllocStr( cmData_t* parent, cmChar_t* str )
{
cmData_t* p = _cmDataAllocNode(parent,kStrDtId);
cmDataSetStr(p,str);
return p;
}
cmData_t* cmDataAllocConstStr( cmData_t* parent, const cmChar_t* str )
{
cmData_t* p = _cmDataAllocNode(parent,kConstStrDtId);
cmDataSetConstStr(p,str);
return p;
}
cmData_t* cmDataAllocCharPtr( cmData_t* parent, char* v, unsigned cnt )
{
cmData_t* p = _cmDataAllocNode(parent,kCharPtrDtId);
cmDataSetCharPtr(p,(char*)v,cnt);
return p;
}
cmData_t* cmDataAllocUCharPtr( cmData_t* parent, unsigned char* v, unsigned cnt )
{
cmData_t* p = _cmDataAllocNode(parent,kUCharPtrDtId);
cmDataSetUCharPtr(p,(unsigned char*)v,cnt);
return p;
}
cmData_t* cmDataAllocShortPtr( cmData_t* parent, short* v, unsigned cnt )
{
cmData_t* p = _cmDataAllocNode(parent,kShortPtrDtId);
cmDataSetShortPtr(p,(short*)v,cnt);
return p;
}
cmData_t* cmDataAllocUShortPtr( cmData_t* parent, unsigned short* v, unsigned cnt )
{
cmData_t* p = _cmDataAllocNode(parent,kUShortPtrDtId);
cmDataSetUShortPtr(p,(unsigned short*)v,cnt);
return p;
}
cmData_t* cmDataAllocIntPtr( cmData_t* parent, int* v, unsigned cnt )
{
cmData_t* p = _cmDataAllocNode(parent,kIntPtrDtId);
cmDataSetIntPtr(p,(int*)v,cnt);
return p;
}
cmData_t* cmDataAllocUIntPtr( cmData_t* parent, unsigned int* v, unsigned cnt )
{
cmData_t* p = _cmDataAllocNode(parent,kUIntPtrDtId);
cmDataSetUIntPtr(p,(unsigned int*)v,cnt);
return p;
}
cmData_t* cmDataAllocLongPtr( cmData_t* parent, long* v, unsigned cnt )
{
cmData_t* p = _cmDataAllocNode(parent,kLongPtrDtId);
cmDataSetLongPtr(p,(long*)v,cnt);
return p;
}
cmData_t* cmDataAllocULongPtr( cmData_t* parent, unsigned long* v, unsigned cnt )
{
cmData_t* p = _cmDataAllocNode(parent,kULongPtrDtId);
cmDataSetULongPtr(p,(unsigned long*)v,cnt);
return p;
}
cmData_t* cmDataAllocFloatPtr( cmData_t* parent, float* v, unsigned cnt )
{
cmData_t* p = _cmDataAllocNode(parent,kFloatPtrDtId);
cmDataSetFloatPtr(p,(float*)v,cnt);
return p;
}
cmData_t* cmDataAllocDoublePtr( cmData_t* parent, double* v, unsigned cnt )
{
cmData_t* p = _cmDataAllocNode(parent,kDoublePtrDtId);
cmDataSetDoublePtr(p,(double*)v,cnt);
return p;
}
cmData_t* cmDataAllocVoidPtr( cmData_t* parent, void* v, unsigned cnt )
{
cmData_t* p = _cmDataAllocNode(parent,kVoidPtrDtId);
cmDataSetCharPtr(p,(char*)v,cnt);
p->tid = kVoidPtrDtId;
return p;
}
// Dynamically allocate a data object and its array value.
// v[cnt] is copied into the allocated array.
cmData_t* cmDataStrAlloc( cmData_t* parent, cmChar_t* str )
{
cmData_t* p = _cmDataAllocNode(parent,kStrDtId);
cmDataSetStrAlloc(p,str);
return p;
}
cmData_t* cmDataConstStrAlloc( cmData_t* parent, const cmChar_t* str )
{
cmData_t* p = _cmDataAllocNode(parent,kConstStrDtId);
cmDataSetConstStrAlloc(p,str);
return p;
}
cmData_t* cmDataCharAllocPtr( cmData_t* parent, const char* v, unsigned cnt )
{
cmData_t* p = _cmDataAllocNode(parent,kCharPtrDtId);
cmDataSetCharAllocPtr(p, v, cnt );
return p;
}
cmData_t* cmDataUCharAllocPtr( cmData_t* parent, const unsigned char* v, unsigned cnt )
{
cmData_t* p = _cmDataAllocNode(parent,kUCharPtrDtId);
cmDataSetUCharAllocPtr(p, v, cnt );
return p;
}
cmData_t* cmDataShortAllocPtr( cmData_t* parent, const short* v, unsigned cnt )
{
cmData_t* p = _cmDataAllocNode(parent,kShortPtrDtId);
cmDataSetShortAllocPtr(p, v, cnt );
return p;
}
cmData_t* cmDataUShortAllocPtr( cmData_t* parent, const unsigned short* v, unsigned cnt )
{
cmData_t* p = _cmDataAllocNode(parent,kUShortPtrDtId);
cmDataSetUShortAllocPtr(p, v, cnt );
return p;
}
cmData_t* cmDataIntAllocPtr( cmData_t* parent, const int* v, unsigned cnt )
{
cmData_t* p = _cmDataAllocNode(parent,kIntPtrDtId);
cmDataSetIntAllocPtr(p, v, cnt );
return p;
}
cmData_t* cmDataUIntAllocPtr( cmData_t* parent, const unsigned int* v, unsigned cnt )
{
cmData_t* p = _cmDataAllocNode(parent,kUIntPtrDtId);
cmDataSetUIntAllocPtr(p, v, cnt );
return p;
}
cmData_t* cmDataLongAllocPtr( cmData_t* parent, const long* v, unsigned cnt )
{
cmData_t* p = _cmDataAllocNode(parent,kLongPtrDtId);
cmDataSetLongAllocPtr(p, v, cnt );
return p;
}
cmData_t* cmDataULongAllocPtr( cmData_t* parent, const unsigned long* v, unsigned cnt )
{
cmData_t* p = _cmDataAllocNode(parent,kULongPtrDtId);
cmDataSetULongAllocPtr(p, v, cnt );
return p;
}
cmData_t* cmDataFloatAllocPtr( cmData_t* parent, const float* v, unsigned cnt )
{
cmData_t* p = _cmDataAllocNode(parent,kFloatPtrDtId);
cmDataSetFloatAllocPtr(p, v, cnt );
return p;
}
cmData_t* cmDataDoubleAllocPtr( cmData_t* parent, const double* v, unsigned cnt )
{
cmData_t* p = _cmDataAllocNode(parent,kDoublePtrDtId);
cmDataSetDoubleAllocPtr(p, v, cnt );
return p;
}
cmData_t* cmDataVoidAllocPtr( cmData_t* parent, const void* v, unsigned cnt )
{
cmData_t* p = _cmDataAllocNode(parent,kVoidPtrDtId);
cmDataSetCharAllocPtr(p, (const char*)v, cnt );
p->tid = kVoidPtrDtId;
return p;
}
void cmDataFree( cmData_t* p )
{
_cmDataFree(p);
}
cmData_t* cmDataUnlink( cmData_t* p )
{
if( p->parent == NULL )
return p;
assert( cmDataIsStruct(p->parent) );
cmData_t* cp = p->u.child;
cmData_t* pp = NULL;
for(; cp!=NULL; cp=cp->sibling)
if( cp == p )
{
if( pp == NULL )
p->parent->u.child = p->sibling;
else
pp->sibling = cp->sibling;
}
return p;
}
void cmDataUnlinkAndFree( cmData_t* p )
{
cmDataUnlink(p);
cmDataFree(p);
}
cmData_t* _cmDataDupl( const cmData_t* p, cmData_t* parent )
{
cmData_t* rp = NULL;
switch( p->tid )
{
case kNullDtId: rp = cmDataAllocNull(parent); break;
case kUCharDtId: rp = cmDataAllocUChar(parent,p->u.uc); break;
case kCharDtId: rp = cmDataAllocChar(parent,p->u.c); break;
case kUShortDtId: rp = cmDataAllocShort(parent,p->u.us); break;
case kShortDtId: rp = cmDataAllocUShort(parent,p->u.s); break;
case kUIntDtId: rp = cmDataAllocUInt(parent,p->u.i); break;
case kIntDtId: rp = cmDataAllocInt(parent,p->u.ui); break;
case kULongDtId: rp = cmDataAllocULong(parent,p->u.ul); break;
case kLongDtId: rp = cmDataAllocLong(parent,p->u.l); break;
case kFloatDtId: rp = cmDataAllocFloat(parent,p->u.f); break;
case kDoubleDtId: rp = cmDataAllocDouble(parent,p->u.d); break;
case kStrDtId: rp = cmDataStrAlloc(parent,p->u.z); break;
case kConstStrDtId: rp = cmDataConstStrAlloc(parent,p->u.cz); break;
case kUCharPtrDtId: rp = cmDataUCharAllocPtr(parent,p->u.ucp,p->cnt); break;
case kCharPtrDtId: rp = cmDataCharAllocPtr(parent,p->u.cp,p->cnt); break;
case kUShortPtrDtId: rp = cmDataUShortAllocPtr(parent,p->u.usp,p->cnt); break;
case kShortPtrDtId: rp = cmDataShortAllocPtr(parent,p->u.sp,p->cnt); break;
case kUIntPtrDtId: rp = cmDataUIntAllocPtr(parent,p->u.uip,p->cnt); break;
case kIntPtrDtId: rp = cmDataIntAllocPtr(parent,p->u.ip,p->cnt); break;
case kULongPtrDtId: rp = cmDataULongAllocPtr(parent,p->u.ulp,p->cnt); break;
case kLongPtrDtId: rp = cmDataLongAllocPtr(parent,p->u.lp,p->cnt); break;
case kFloatPtrDtId: rp = cmDataFloatAllocPtr(parent,p->u.fp,p->cnt); break;
case kDoublePtrDtId: rp = cmDataDoubleAllocPtr(parent,p->u.dp,p->cnt); break;
case kVoidPtrDtId: rp = cmDataVoidAllocPtr(parent,p->u.vp,p->cnt); break;
case kListDtId:
case kPairDtId:
case kRecordDtId:
{
rp = _cmDataAllocNode(parent,p->tid);
cmData_t* cp = p->u.child;
for(; cp!=NULL; cp=cp->sibling)
cmDataAppendChild(rp,_cmDataDupl(cp,rp));
}
break;
default:
assert(0);
}
return rp;
}
cmData_t* cmDataDupl( const cmData_t* p )
{ return _cmDataDupl(p,NULL); }
cmData_t* cmDataReplace( cmData_t* dst, cmData_t* src )
{
if( dst->parent == NULL )
{
cmDataUnlinkAndFree(dst);
src->parent = NULL;
return src;
}
cmData_t* parent = dst->parent;
cmData_t* cp = parent->u.child;
cmData_t* pp = NULL;
unsigned i = 0;
unsigned n = cmDataChildCount(parent);
// locate dst's right sibling
for(i=0; i<n; ++i,cp=cp->sibling)
{
if( cp == dst )
{
// link in 'src' in place of 'dst'
src->sibling = dst->sibling;
// free dst
cmDataUnlinkAndFree(dst);
// update the sibling link to
if( pp == NULL )
parent->u.child = src;
else
pp->sibling = src;
src->parent = parent;
break;
}
pp = cp;
}
return src;
}
unsigned cmDataChildCount( const cmData_t* p )
{
if( !cmDataIsStruct(p) )
return 0;
unsigned n = 0;
const cmData_t* cp = p->u.child;
for(; cp!=NULL; cp=cp->sibling)
++n;
return n;
}
cmData_t* cmDataChild( cmData_t* p, unsigned index )
{
if( !cmDataIsStruct(p) )
return NULL;
unsigned n = 0;
cmData_t* cp = p->u.child;
for(; cp!=NULL; cp=cp->sibling)
{
if( n == index )
break;
++n;
}
return cp;
}
cmData_t* cmDataPrependChild(cmData_t* parent, cmData_t* p )
{
assert( cmDataIsStruct(p) );
p->u.child = parent->u.child;
parent->u.child = p;
return p;
}
cmData_t* cmDataAppendChild( cmData_t* parent, cmData_t* p )
{
assert( cmDataIsStruct(parent) );
assert( parent->tid != kRecordDtId || (parent->tid == kRecordDtId && p->tid==kPairDtId));
cmData_t* cp = parent->u.child;
if( cp == NULL )
parent->u.child = p;
else
{
for(; cp!=NULL; cp=cp->sibling)
if( cp->sibling == NULL )
{
cp->sibling = p;
break;
}
}
p->sibling = NULL;
return p;
}
cmData_t* cmDataInsertChild( cmData_t* parent, unsigned index, cmData_t* p )
{
if( !cmDataIsStruct(parent) )
return NULL;
unsigned n = 0;
cmData_t* cp = parent->u.child;
cmData_t* pp = NULL;
for(; cp!=NULL; cp=cp->sibling)
{
if( n == index )
{
if( pp == NULL )
{
parent->u.child = p;
p->sibling = NULL;
}
else
{
p->sibling = pp->sibling;
pp->sibling = p;
}
break;
}
++n;
}
return p;
}
//----------------------------------------------------------------------------
bool _cmDataPairIsValid( const cmData_t* p )
{
assert( p->tid == kPairDtId );
const cmData_t* cp = p->u.child;
bool fl = cp->u.child == NULL || cp->u.child->sibling == NULL || cp->u.child->sibling->sibling!=NULL;
return !fl;
}
// Get the key/value of a pair
cmData_t* cmDataPairKey( cmData_t* p )
{
assert( _cmDataPairIsValid(p) );
return p->u.child;
}
unsigned cmDataPairKeyId( cmData_t* p )
{
assert( _cmDataPairIsValid(p) );
return cmDataGetUInt(p->u.child);
}
const cmChar_t* cmDataPairKeyLabel( cmData_t* p )
{
assert( _cmDataPairIsValid(p) );
return cmDataGetConstStr(p->u.child);
}
cmData_t* cmDataPairValue( cmData_t* p )
{
assert( _cmDataPairIsValid(p) );
return p->u.child->sibling;
}
// Set the key or value of an existing pair node.
cmData_t* cmDataPairSetValue( cmData_t* p, cmData_t* value )
{
assert( _cmDataPairIsValid(p) );
cmDataReplace( cmDataPairValue(p), value );
return p;
}
cmData_t* cmDataPairSetKey( cmData_t* p, cmData_t* key )
{
assert( _cmDataPairIsValid(p) );
cmDataReplace( cmDataPairValue(p), key );
return p;
}
cmData_t* cmDataPairSetKeyId( cmData_t* p, unsigned id )
{
assert( _cmDataPairIsValid(p) );
cmDataSetUInt(p->u.child,id);
return p;
}
cmData_t* cmDataPairSetKeyLabel( cmData_t* p, const cmChar_t* label )
{
assert( _cmDataPairIsValid(p) );
cmDataSetConstStrAlloc(p->u.child,label);
return p;
}
cmData_t* cmDataMakePair( cmData_t* parent, cmData_t* p, cmData_t* key, cmData_t* value )
{
_cmDataFree(p);
p->tid = kPairDtId;
p->parent = parent;
p->flags = 0;
p->u.child = NULL;
return p;
}
// Dynamically allocate a pair node
cmData_t* cmDataAllocPair( cmData_t* parent, const cmData_t* key, const cmData_t* value )
{
cmData_t* p = _cmDataAllocNode(parent,kPairDtId);
cmData_t* kp = cmDataDupl(key);
cmData_t* vp = cmDataDupl(value);
cmDataPrependChild(p,vp);
cmDataPrependChild(p,kp);
return p;
}
cmData_t* cmDataAllocPairId(cmData_t* parent, unsigned keyId, cmData_t* value )
{
cmData_t* p = _cmDataAllocNode(parent,kPairDtId);
cmDataAllocUInt(p,keyId);
cmDataAppendChild(p,value);
return p;
}
cmData_t* cmDataAllocPairLabel( cmData_t* parent, const cmChar_t *label, cmData_t* value )
{
cmData_t* p = _cmDataAllocNode(parent,kPairDtId);
cmDataConstStrAlloc(p,label);
cmDataAppendChild(p,value);
return p;
}
//----------------------------------------------------------------------------
unsigned cmDataListCount(const cmData_t* p )
{ return cmDataChildCount(p); }
cmData_t* cmDataListEle( cmData_t* p, unsigned index )
{ return cmDataChild(p,index); }
cmData_t* cmDataListMake( cmData_t* parent, cmData_t* p )
{
_cmDataFree(p);
p->parent = parent;
p->tid = kListDtId;
p->flags = 0;
p->u.child = NULL;
return p;
}
cmData_t* cmDataListAlloc( cmData_t* parent)
{ return _cmDataAllocNode(parent,kListDtId); }
cmDtRC_t _cmDataParseArgV( cmData_t* parent, va_list vl, cmData_t** vpp )
{
cmDtRC_t rc = kOkDtRC;
cmData_t* vp = NULL;
unsigned tid = va_arg(vl,unsigned);
switch(tid)
{
case kInvalidDtId: rc = kEolDtRC; break;
case kNullDtId: vp = cmDataAllocNull(parent); break;
case kUCharDtId: vp = cmDataAllocUChar( parent,va_arg(vl,int)); break;
case kCharDtId: vp = cmDataAllocChar( parent,va_arg(vl,int)); break;
case kUShortDtId: vp = cmDataAllocUShort( parent,va_arg(vl,int)); break;
case kShortDtId: vp = cmDataAllocShort( parent,va_arg(vl,int)); break;
case kUIntDtId: vp = cmDataAllocUInt( parent,va_arg(vl,unsigned int)); break;
case kIntDtId: vp = cmDataAllocInt( parent,va_arg(vl,int)); break;
case kULongDtId: vp = cmDataAllocULong( parent,va_arg(vl,unsigned long)); break;
case kLongDtId: vp = cmDataAllocLong( parent,va_arg(vl,long)); break;
case kFloatDtId: vp = cmDataAllocFloat( parent,va_arg(vl,double)); break;
case kDoubleDtId: vp = cmDataAllocDouble( parent,va_arg(vl,double)); break;
case kStrDtId: vp = cmDataStrAlloc( parent,va_arg(vl,cmChar_t*)); break;
case kConstStrDtId: vp = cmDataConstStrAlloc( parent,va_arg(vl,const cmChar_t*)); break;
case kUCharPtrDtId:
{
unsigned char* p = va_arg(vl,unsigned char*);
vp = cmDataUCharAllocPtr(parent, p, va_arg(vl,unsigned));
}
break;
case kCharPtrDtId:
{
char* p = va_arg(vl,char*);
vp = cmDataCharAllocPtr(parent, p, va_arg(vl,unsigned));
}
break;
case kUShortPtrDtId:
{
unsigned short* p = va_arg(vl,unsigned short*);
vp = cmDataUShortAllocPtr(parent, p, va_arg(vl,unsigned));
}
break;
case kShortPtrDtId:
{
short* p = va_arg(vl,short*);
vp = cmDataShortAllocPtr(parent, p, va_arg(vl,unsigned));
}
break;
case kUIntPtrDtId:
{
unsigned int* p = va_arg(vl,unsigned int*);
vp = cmDataUIntAllocPtr(parent, p, va_arg(vl,unsigned));
}
break;
case kIntPtrDtId:
{
int * p = va_arg(vl,int*);
vp = cmDataIntAllocPtr(parent, p, va_arg(vl,unsigned));
}
break;
case kULongPtrDtId:
{
unsigned long* p = va_arg(vl,unsigned long*);
vp = cmDataULongAllocPtr(parent, p, va_arg(vl,unsigned));
}
break;
case kLongPtrDtId:
{
long* p = va_arg(vl,long*);
vp = cmDataLongAllocPtr(parent, p, va_arg(vl,unsigned));
}
break;
case kFloatPtrDtId:
{
float* p = va_arg(vl,float*);
vp = cmDataFloatAllocPtr(parent, p, va_arg(vl,unsigned));
}
break;
case kDoublePtrDtId:
{
double* p = va_arg(vl,double*);
vp = cmDataDoubleAllocPtr(parent,p, va_arg(vl,unsigned));
}
break;
case kVoidPtrDtId:
{
void* p = va_arg(vl,void*);
vp = cmDataVoidAllocPtr(parent, p, va_arg(vl,unsigned));
}
break;
case kListDtId:
case kPairDtId:
case kRecordDtId:
vp = _cmDataAllocNode(parent,tid);
break;
default:
_cmDataSetError(kVarArgErrDtRC);
break;
}
*vpp = vp;
return rc;
}
cmData_t* _cmDataListParseV(cmData_t* parent, va_list vl )
{
cmData_t* p = NULL;
bool contFl = true;
while( contFl )
{
cmData_t* vp;
cmDtRC_t rc = _cmDataParseArgV(parent, vl, &vp);
if(rc != kOkDtRC || cmDataAppendChild(parent,vp)==NULL )
contFl = false;
}
return p;
}
cmData_t* cmDataListAllocV(cmData_t* parent, va_list vl )
{
cmData_t* p = cmDataListAlloc(parent);
_cmDataListParseV(p, vl );
return p;
}
cmData_t* cmDataListAllocA(cmData_t* parent, ... )
{
va_list vl;
va_start(vl,parent);
cmData_t* p = cmDataListAllocV(parent,vl);
va_end(vl);
return p;
}
cmData_t* cmDataListAppendEle( cmData_t* p, cmData_t* ele )
{
assert(p->tid == kListDtId);
return cmDataAppendChild(p,ele);
}
cmData_t* cmDataListAppendEleN(cmData_t* p, cmData_t* ele[], unsigned n )
{
assert(p->tid == kListDtId);
cmData_t* rp = NULL;
unsigned i;
for(i=0; i<n; ++i)
{
cmData_t* ep = cmDataAppendChild(p,ele[i]);
if( rp == NULL )
rp = ep;
}
return rp;
}
cmDtRC_t cmDataListAppendV( cmData_t* p, va_list vl )
{
if( _cmDataListParseV(p, vl ) == NULL )
return _cmDataErrNo;
return kOkDtRC;
}
cmDtRC_t cmDataListAppend( cmData_t* p, ... )
{
va_list vl;
va_start(vl,p);
cmDtRC_t rc = cmDataListAppendV(p,vl);
va_end(vl);
return rc;
}
cmData_t* cmDataListInsertEle( cmData_t* p, unsigned index, cmData_t* ele )
{ return cmDataInsertChild(p,index,ele); }
cmData_t* cmDataListInsertEleN(cmData_t* p, unsigned index, cmData_t* ele[], unsigned n )
{
unsigned i;
for(i=0; i<n; ++i)
cmDataListInsertEle(p,index+i,ele[i]);
return p;
}
//----------------------------------------------------------------------------
unsigned cmDataRecdCount( const cmData_t* p )
{
assert( p->tid == kRecordDtId );
return cmDataChildCount(p);
}
cmData_t* cmDataRecdEle( cmData_t* p, unsigned index )
{
assert( p->tid == kRecordDtId );
cmData_t* cp = cmDataChild(p,index);
assert( p->tid == kPairDtId );
return cp;
}
cmData_t* cmDataRecdValueFromIndex( cmData_t* p, unsigned index )
{
assert( p->tid == kRecordDtId );
cmData_t* cp = cmDataChild(p,index);
assert( p->tid == kPairDtId );
return cmDataPairValue(cp);
}
cmData_t* cmDataRecdValueFromId( cmData_t* p, unsigned id )
{
assert( p->tid == kRecordDtId );
cmData_t* cp = p->u.child;
for(; cp!=NULL; cp=cp->sibling)
if( cmDataPairKeyId(cp) == id )
break;
assert( cp!=NULL && cp->tid==kPairDtId );
return cmDataPairValue(cp);
}
cmData_t* cmDataRecdValueFromLabel( cmData_t* p, const cmChar_t* label )
{
assert( p->tid == kRecordDtId );
cmData_t* cp = p->u.child;
for(; cp!=NULL; cp=cp->sibling)
{
const cmChar_t* lp = cmDataPairKeyLabel(cp);
if( lp!=NULL && strcmp(lp,label)==0 )
break;
}
assert( cp!=NULL && cp->tid==kPairDtId );
return cmDataPairValue(cp);
}
cmData_t* cmDataRecdKey( cmData_t* p, unsigned index )
{
assert( p->tid == kRecordDtId );
cmData_t* cp = cmDataChild(p,index);
assert( p->tid == kPairDtId );
return cmDataPairKey(cp);
}
unsigned cmDataRecdKeyId( cmData_t* p, unsigned index )
{
cmData_t* kp = cmDataRecdKey(p,index);
return cmDataGetUInt(kp);
}
const cmChar_t* cmDataRecdKeyLabel( cmData_t* p, unsigned index )
{
cmData_t* kp = cmDataRecdKey(p,index);
return cmDataGetConstStr(kp);
}
cmData_t* cmRecdMake( cmData_t* parent, cmData_t* p )
{
_cmDataFree(p);
p->parent = parent;
p->tid = kRecordDtId;
p->flags = 0;
p->u.child = NULL;
return p;
}
cmData_t* cmRecdAlloc(cmData_t* parent)
{ return _cmDataAllocNode(parent,kRecordDtId); }
cmData_t* cmRecdAppendPair( cmData_t* p, cmData_t* pair )
{
assert( p!=NULL && p->tid==kRecordDtId);
cmDataAppendChild(p,pair);
return p;
}
cmDtRC_t _cmDataRecdParseV(cmData_t* parent, unsigned idFl, va_list vl )
{
assert( parent != NULL && parent->tid == kRecordDtId );
bool contFl = true;
cmDtRC_t rc = kOkDtRC;
// for each record field
while( contFl )
{
cmData_t* vp = NULL;
unsigned id = cmInvalidId;
const cmChar_t* label = NULL;
// parse the field idenfier
if( idFl )
id = va_arg(vl,unsigned); // numeric field identifier
else
label = va_arg(vl,const char*); // text field label identifier
// validate the field identifier
if( id==kInvalidDtId || label==NULL )
break;
// parse the field data
if((rc =_cmDataParseArgV( NULL, vl, &vp )) != kOkDtRC )
{
contFl = false;
}
else
{
// create the field pair
if( idFl )
cmDataAllocPairId(parent,id,vp);
else
cmDataAllocPairLabel(parent,label,vp);
}
}
return rc;
}
cmData_t* cmDataRecdAllocLabelV( cmData_t* parent, va_list vl )
{
cmData_t* p = cmRecdAlloc(parent);
cmDtRC_t rc = _cmDataRecdParseV(p, false, vl );
if( rc != kOkDtRC )
{
cmDataFree(p);
p = NULL;
}
return p;
}
cmData_t* cmDataRecdAllocLabelA( cmData_t* parent, ... )
{
va_list vl;
va_start(vl,parent);
cmData_t* p = cmDataRecdAllocLabelV(parent,vl);
va_end(vl);
return p;
}
cmData_t* cmDataRecdAllocIdV( cmData_t* parent, va_list vl )
{
cmData_t* p = cmRecdAlloc(parent);
cmDtRC_t rc = _cmDataRecdParseV(p, true, vl );
if( rc != kOkDtRC )
{
cmDataFree(p);
p = NULL;
}
return p;
}
cmData_t* cmDataRecdAllocIdA( cmData_t* parent, ... )
{
va_list vl;
va_start(vl,parent);
cmData_t* p = cmDataRecdAllocIdV(parent,vl);
va_end(vl);
return p;
}
//----------------------------------------------------------------------------
unsigned cmDataSerializeByteCount( const cmData_t* p )
{
unsigned bn = 0;
// if this data type has a child then calculate it's size
if( kMinStructDtId <= p->tid && p->tid <= kMaxStructDtId && p->u.child != NULL )
bn = cmDataSerializeByteCount(p->u.child);
// if this data type has siblings get their type
cmData_t* dp = p->u.child;
for(; dp != NULL; dp=dp->sibling )
bn += cmDataSerializeByteCount(dp->sibling);
//
return _cmDataByteCount(p) + bn;
}
cmDtRC_t cmDataSerialize( const cmData_t* p, void* buf, unsigned bufByteCnt )
{
return kOkDtRC;
}
cmDtRC_t cmDataDeserialize( const void* buf, unsigned bufByteCnt, cmData_t** pp )
{
return kOkDtRC;
}
#define parr(rpt,fmt,arr,n) do{int i=0; cmRptPrintf(rpt,"[ "); for(;i<n;++i) cmRptPrintf(rpt,fmt,arr[i]); cmRptPrintf(rpt," ]"); }while(0)
void _cmDataPrintIndent( cmRpt_t* rpt, unsigned indent )
{
unsigned j=0;
for(; j<indent; ++j)
cmRptPrintf(rpt," ");
}
void _cmDataPrint( const cmData_t* p, cmRpt_t* rpt, unsigned indent )
{
cmData_t* cp;
//_cmDataPrintIndent(rpt,indent);
switch(p->tid)
{
case kNullDtId: cmRptPrintf(rpt,"<null>"); break;
case kUCharDtId: cmRptPrintf(rpt,"%c ",cmDataGetUChar(p)); break;
case kCharDtId: cmRptPrintf(rpt,"%c ",cmDataGetChar(p)); break;
case kUShortDtId: cmRptPrintf(rpt,"%i ",cmDataGetUShort(p)); break;
case kShortDtId: cmRptPrintf(rpt,"%i ",cmDataGetShort(p)); break;
case kUIntDtId: cmRptPrintf(rpt,"%i ",cmDataGetUInt(p)); break;
case kIntDtId: cmRptPrintf(rpt,"%i ",cmDataGetInt(p)); break;
case kULongDtId: cmRptPrintf(rpt,"%i ",cmDataGetULong(p)); break;
case kLongDtId: cmRptPrintf(rpt,"%i ",cmDataGetLong(p)); break;
case kFloatDtId: cmRptPrintf(rpt,"%f ",cmDataGetFloat(p)); break;
case kDoubleDtId: cmRptPrintf(rpt,"%f ",cmDataGetDouble(p)); break;
case kStrDtId: cmRptPrintf(rpt,"%s ",cmDataGetStr(p)); break;
case kConstStrDtId: cmRptPrintf(rpt,"%s ",cmDataGetConstStr(p)); break;
case kUCharPtrDtId: parr(rpt,"%c ",cmDataGetUCharPtr(p), p->cnt); break;
case kCharPtrDtId: parr(rpt,"%c ",cmDataGetCharPtr(p), p->cnt); break;
case kUShortPtrDtId: parr(rpt,"%i ",cmDataGetUShortPtr(p),p->cnt); break;
case kShortPtrDtId: parr(rpt,"%i ",cmDataGetShortPtr(p), p->cnt); break;
case kUIntPtrDtId: parr(rpt,"%i ",cmDataGetUIntPtr(p), p->cnt); break;
case kIntPtrDtId: parr(rpt,"%i ",cmDataGetIntPtr(p), p->cnt); break;
case kULongPtrDtId: parr(rpt,"%i ",cmDataGetULongPtr(p), p->cnt); break;
case kLongPtrDtId: parr(rpt,"%i ",cmDataGetLongPtr(p), p->cnt); break;
case kFloatPtrDtId: parr(rpt,"%f ",cmDataGetFloatPtr(p), p->cnt); break;
case kDoublePtrDtId: parr(rpt,"%f ",cmDataGetDoublePtr(p),p->cnt); break;
case kVoidPtrDtId: cmRptPrintf(rpt,"<void:%i>",p->cnt); break;
case kPairDtId:
_cmDataPrint(p->u.child,rpt,indent);
cmRptPrintf(rpt," : ");
_cmDataPrint(p->u.child->sibling,rpt,indent);
cmRptPrintf(rpt,"\n");
break;
case kListDtId:
cmRptPrintf(rpt,"(\n");
indent += 2;
cp = p->u.child;
for(; cp!=NULL; cp=cp->sibling)
{
_cmDataPrintIndent(rpt,indent);
_cmDataPrint(cp,rpt,indent);
cmRptPrintf(rpt,"\n");
}
indent -= 2;
_cmDataPrintIndent(rpt,indent);
cmRptPrintf(rpt,")\n");
break;
case kRecordDtId:
cmRptPrintf(rpt,"{\n");
indent += 2;
cp = p->u.child;
for(; cp!=NULL; cp=cp->sibling)
{
_cmDataPrintIndent(rpt,indent);
_cmDataPrint(cp,rpt, indent);
}
indent -= 2;
_cmDataPrintIndent(rpt,indent);
cmRptPrintf(rpt,"}\n");
break;
default:
break;
}
}
void cmDataPrint( const cmData_t* p, cmRpt_t* rpt )
{ _cmDataPrint(p,rpt,0); }
void cmDataTest( cmCtx_t* ctx )
{
float farr[] = { 1.23, 45.6, 7.89 };
cmData_t* d0 = cmDataRecdAllocLabelA(NULL,
"name",kConstStrDtId,"This is a string.",
"id", kUIntDtId, 21,
"real",kFloatDtId, 1.23,
"arr", kFloatPtrDtId, farr, 3,
NULL);
cmDataPrint(d0,&ctx->rpt);
cmDataFree(d0);
cmData_t* d1 = cmDataListAllocA(NULL,
kUIntDtId, 53,
kStrDtId, "Blah blah",
kFloatPtrDtId, farr, 3,
kInvalidDtId );
cmDataPrint(d1,&ctx->rpt);
cmDataFree(d1);
cmRptPrintf(&ctx->rpt,"Done!.\n");
}
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