winamp/Src/nde/Field.cpp

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2024-09-24 14:54:57 +02:00
/* ---------------------------------------------------------------------------
Nullsoft Database Engine
--------------------
codename: Near Death Experience
--------------------------------------------------------------------------- */
/* ---------------------------------------------------------------------------
Field Class
--------------------------------------------------------------------------- */
#include "field.h"
#include "vfs.h"
#include "table.h"
#include "nde.h"
#include "dbutils.h"
#ifdef WIN32
#include <malloc.h>
#elif defined(__APPLE__)
#include <alloca.h>
#endif
//---------------------------------------------------------------------------
void PUT_BINARY(uint8_t *dest, const uint8_t *src, size_t size, size_t pos)
{
if (src && dest && size > 0)
memcpy(dest+pos, src, size);
}
//---------------------------------------------------------------------------
void GET_BINARY(uint8_t *dest, const uint8_t *src, size_t size, size_t pos)
{
if (dest && src && size > 0)
memcpy(dest, src+pos, size);
}
//---------------------------------------------------------------------------
void PUT_FLOAT(float f, uint8_t *data, size_t pos)
{
unsigned int y = *(const unsigned int *)&f;
data[pos]=(unsigned char)(y&255); data[pos+1]=(unsigned char)((y>>8)&255); data[pos+2]=(unsigned char)((y>>16)&255); data[pos+3]=(unsigned char)((y>>24)&255);
}
//---------------------------------------------------------------------------
float GET_FLOAT(const uint8_t *data, size_t pos)
{
int a = data[pos]|(data[pos+1]<<8)|(data[pos+2]<<16)|(data[pos+3]<<24);
float f = *(const float *)&a;
return f;
}
//---------------------------------------------------------------------------
Field::Field(int FieldPos)
{
InitField();
Pos = FieldPos;
}
//---------------------------------------------------------------------------
void Field::InitField(void)
{
Type = FIELD_UNKNOWN;
Pos = 0;
ID = 0;
MaxSizeOnDisk = 0;
}
//---------------------------------------------------------------------------
Field::Field()
{
InitField();
}
//---------------------------------------------------------------------------
Field::~Field()
{
}
//---------------------------------------------------------------------------
Field *Field::ReadField(Table *pTable, int pos, uint32_t *next_position)
{
return ReadField(pTable, pos, false, next_position);
}
//---------------------------------------------------------------------------
Field *Field::ReadField(Table *pTable, int pos, bool Quick, uint32_t *next_position)
{
VFILE *HTable = pTable->Handle;
int newPos = pos;
int rType = FIELD_REDIRECTOR;
unsigned char oType;
if (!Vflock(HTable, false))
return 0;
while (rType == FIELD_REDIRECTOR)
{
Vfseek(HTable, Pos, SEEK_SET);
if (Vfread(&ID, sizeof(ID), HTable) != 1 ||
Vfread(&oType, sizeof(oType), HTable) != 1)
{
Vfunlock(HTable, false);
return NULL;
}
if (oType == FIELD_REDIRECTOR)
{
if (Vfread(&newPos, sizeof(newPos), HTable) != 1)
{
Vfunlock(HTable, false);
return NULL;
}
Pos = newPos;
}
rType = oType;
}
if (Quick)
Vfseek(HTable, sizeof(MaxSizeOnDisk), SEEK_CUR);
else
{
if (Vfread(&MaxSizeOnDisk, sizeof(MaxSizeOnDisk), HTable) != 1)
{
Vfunlock(HTable, false);
return NULL;
}
}
uint32_t NextFieldPos = 0;
if (Vfread(&NextFieldPos, sizeof(NextFieldPos), HTable) != 1)
{
Vfunlock(HTable, false);
return NULL;
}
if (next_position) *next_position = NextFieldPos;
if (Quick)
{
Vfunlock(HTable, false);
return this;
}
uint32_t PreviousFieldPos = 0;
if (Vfread(&PreviousFieldPos, sizeof(PreviousFieldPos), HTable) != 1)
{
Vfunlock(HTable, false);
return NULL;
}
Field *O=NULL;
O = TranslateObject(oType, pTable);
if (O)
{
O->ID = ID;
O->Type = oType;
O->Pos = Pos;
O->MaxSizeOnDisk = MaxSizeOnDisk;
uint8_t *data = NULL;
if (HTable->cached && MaxSizeOnDisk > VFILE_INC)
{
pTable->IncErrorCount();
MaxSizeOnDisk = (uint32_t)GetDataSize();
O->MaxSizeOnDisk = MaxSizeOnDisk;
}
else if (HTable->cached)
{
data = HTable->data+HTable->ptr; // benski> uber-hack
Vfseek(HTable, MaxSizeOnDisk, SEEK_CUR);
}
else
{
data = (uint8_t *)_malloca(MaxSizeOnDisk);
Vfread(data, MaxSizeOnDisk, HTable);
}
if (data)
{
O->ReadTypedData(data, MaxSizeOnDisk);
if (!HTable->cached)
{
_freea(data);
}
}
Vfunlock(HTable, false);
return O;
}
Vfunlock(HTable, false);
return NULL;
}
//---------------------------------------------------------------------------
void Field::WriteField(Table *pTable, Field *previous_field, Field *next_field)
{
VFILE *HTable = pTable->Handle;
if (Pos == -1) return;
size_t data_size = GetDataSize();
if (HTable->cached && MaxSizeOnDisk > VFILE_INC) {
pTable->IncErrorCount();
MaxSizeOnDisk = (uint32_t)data_size;
}
if (Pos == 0 || (uint32_t)data_size > MaxSizeOnDisk)
{
MaxSizeOnDisk = (uint32_t)data_size;
uint32_t newPos = AllocNewPos(HTable);
if (Pos != 0)
{
unsigned char v = 0;
Vfseek(HTable, Pos, SEEK_SET);
Vfwrite(&v, sizeof(v), HTable);
v = FIELD_REDIRECTOR;
Vfwrite(&v, sizeof(v), HTable);
Vfwrite(&newPos, sizeof(newPos), HTable);
}
Pos = newPos;
if (previous_field)
{
//previous_field->NextFieldPos = Pos;
if (previous_field->Pos)
{
Vfseek(HTable, previous_field->Pos+sizeof(ID)+sizeof(MaxSizeOnDisk)+sizeof(Type), SEEK_SET);
Vfwrite(&Pos, sizeof(Pos), HTable);
}
}
if (next_field)
{
if (next_field->Pos)
{
Vfseek(HTable, next_field->Pos+sizeof(ID)+sizeof(uint32_t/*NextFieldPos*/)+sizeof(Type)+sizeof(MaxSizeOnDisk), SEEK_SET);
Vfwrite(&Pos, sizeof(Pos), HTable);
}
}
}
uint32_t PreviousFieldPos = 0, NextFieldPos = 0;
if (previous_field) PreviousFieldPos = previous_field->GetFieldPos(); else PreviousFieldPos = NULL;
if (next_field) NextFieldPos = next_field->GetFieldPos(); else NextFieldPos = NULL;
Vfseek(HTable, Pos, SEEK_SET);
Vfwrite(&ID, sizeof(ID), HTable);
Vfwrite(&Type, sizeof(Type), HTable);
Vfwrite(&MaxSizeOnDisk, sizeof(MaxSizeOnDisk), HTable);
Vfwrite(&NextFieldPos, sizeof(NextFieldPos), HTable);
Vfwrite(&PreviousFieldPos, sizeof(PreviousFieldPos), HTable);
uint8_t *data = (unsigned char*)_malloca(MaxSizeOnDisk);
WriteTypedData(data, MaxSizeOnDisk);
Vfwrite(data, MaxSizeOnDisk, HTable);
_freea(data);
}
//---------------------------------------------------------------------------
uint32_t Field::GetFieldPos(void)
{
return Pos;
}
//---------------------------------------------------------------------------
Field *Field::Clone(Table *pTable)
{
Field *clone = TranslateObject(Type, pTable);
size_t size = GetDataSize();
uint8_t *data = (unsigned char*)_malloca(size);
WriteTypedData(data, size);
clone->ReadTypedData(data, size);
if (data) _freea(data);
clone->Type = Type;
//clone->HTable = HTable;
clone->Pos = FIELD_CLONE;
clone->ID = ID;
//clone->NextFieldPos = 0;
clone->MaxSizeOnDisk=(uint32_t)size;
return clone;
}
//---------------------------------------------------------------------------
int Field::GetType() {
return Type;
}
size_t Field::GetTotalSize()
{
return GetDataSize() + sizeof(ID)+sizeof(Type)+sizeof(MaxSizeOnDisk)+sizeof(uint32_t/*NextFieldPos*/)+sizeof(uint32_t /*PreviousFieldPos*/);
}