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/*
* The Cheat - The legendary universal game trainer for Mac OS X.
* http://www.brokenzipper.com/trac/wiki/TheCheat
*
* Copyright (c) 2003-2011, Charles McGarvey et al.
*
* Distributable under the terms and conditions of the 2-clause BSD
* license; see the file COPYING for the legal text of the license.
*/
#import "Searching.h"
/*
* WARNING! BEWARE! WATCH OUT!
*
* This source code file makes use of goto jump statements. If goto statements
* are disagreeable to you, you may want to skip over this file or you face the
* possibility that you will be changed in a very deep and personal way.
*
* You have been warned.
*/
/* Here are some handy functions used in this file. */
void ReportSearchProgress( ThreadedTask *task, unsigned iteration, unsigned regions, int *progress )
{
int newProgress = (iteration * 100) / regions;
if ( newProgress > *progress ) {
*progress = newProgress;
[task reportProgress:newProgress];
}
}
/*
* This is a real gem. I have no idea where I got this, but it is a wicked
* fast string searching algorithm. Hope it's not patented...
*/
#define ASIZE 256
void *bmsearch( char *pat, int m, char *text, int n ) {
int i,j,k,skip[ASIZE];if(m==0)return 0;
for(k=0;k<ASIZE;k++)skip[k]=m;
for(k=0;k<m-1;k++)skip[(int)pat[k]]=m-k-1;
for(k=m-1;k<n;k+=skip[(int)text[k]&(ASIZE-1)]){
for(j=m-1,i=k;j>=0&&text[i]==pat[j];j--)i--;
if(j==-1)return(text+i+1);}
return NULL;
}
#pragma mark -
#pragma mark Search Functions
int SearchIteration( ThreadedTask *task, unsigned iteration )
{
SearchContext *context = [task context];
VMRegion region;
unsigned hitsPerRegion = 0;
mach_vm_size_t size;
void *ptr, *top;
TCAddress offset;
region = VMNextRegionWithAttributes( context->process, context->lastRegion, VMREGION_READABLE | VMREGION_WRITABLE );
if ( VMRegionIsNotNull( region ) ) {
if ( context->bufferSize < VMRegionSize( region ) ) {
char *buf = realloc( context->buffer, VMRegionSize( region ) );
if ( buf ) {
context->buffer = buf;
context->bufferSize = VMRegionSize( region );
}
else {
goto FAILURE;
}
}
if ( !VMRegionBytes( region, context->buffer, &size ) ) {
goto FAILURE;
}
ptr = context->buffer;
top = context->buffer + VMRegionSize( region );
offset = VMRegionAddress( region ) - (TCAddress)context->buffer;
while ( ptr < top ) {
char firstValue[context->value->_size];
memcpy(firstValue, ptr, context->value->_size);
if (context->value->_isEmulated)
{
if (context->value->_type == TCFloat)
{
CFSwappedFloat32 firstSwappedFloat = CFConvertFloat32HostToSwapped(*((float *)firstValue));
memcpy(firstValue, &firstSwappedFloat, context->value->_size);
}
else if (context->value->_type == TCDouble)
{
CFSwappedFloat64 firstSwappedDouble = CFConvertDoubleHostToSwapped(*((double *)firstValue));
memcpy(firstValue, &firstSwappedDouble, context->value->_size);
}
}
if ( context->compareFunc(firstValue,context->value->_value) ) {
if ( context->numberOfResults >= TCArrayElementCount(context->addresses) ) {
TCArrayResize( context->addresses, TCArrayElementCount(context->addresses) + TC_BUFFER_SIZE / sizeof(TCAddress) );
context->addressPtr = (TCAddress *)TCArrayBytes(context->addresses) + context->numberOfResults;
}
if ( context->numberOfResults >= TCArrayElementCount(context->values) ) {
TCArrayResize( context->values, TCArrayElementCount(context->values) + TC_BUFFER_SIZE / TCArrayElementSize(context->values) );
context->valuePtr = TCArrayBytes(context->values) + context->numberOfResults * TCArrayElementSize(context->values);
}
*context->addressPtr = (TCAddress)ptr + offset;
memcpy( context->valuePtr, ptr, TCArrayElementSize( context->values ) );
context->numberOfResults++;
hitsPerRegion++;
context->addressPtr++;
context->valuePtr += TCArrayElementSize( context->values );
}
ptr += TCArrayElementSize( context->values );
}
FAILURE:;
if ( hitsPerRegion > 0 ) {
TCAddress addr = VMRegionAddress( region );
unsigned index = TCArrayElementCount( context->regions );
unsigned newsize = index + 1;
TCArrayResize( context->regions, newsize );
TCArrayResize( context->perRegion, newsize );
TCArraySetElementAtIndex( context->regions, index, &addr );
TCArraySetElementAtIndex( context->perRegion, index, &hitsPerRegion );
}
ReportSearchProgress( task, iteration, context->regionCount, &context->progress );
context->lastRegion = region;
return 1;
}
else {
free( context->buffer );
context->buffer = NULL;
TCArrayResize( context->addresses, context->numberOfResults );
TCArrayResize( context->values, context->numberOfResults );
return 0;
}
}
int SearchIterationAgain( ThreadedTask *task, unsigned iteration )
{
SearchContext *context = [task context];
VMRegion region;
unsigned hitsPerRegion = 0;
mach_vm_size_t size;
void *ptr;
unsigned i, top;
if ( iteration < TCArrayElementCount( context->lastRegions ) ) {
context->lastRegion = VMMakeRegion( context->process, *(context->lastRegionPtr), 0 );
region = VMNextRegionWithAttributes( context->process, context->lastRegion, VMREGION_READABLE | VMREGION_WRITABLE );
if ( VMRegionIsNotNull( region ) ) {
if ( context->bufferSize < VMRegionSize( region ) ) {
char *buf = realloc( context->buffer, VMRegionSize( region ) );
if ( buf ) {
context->buffer = buf;
context->bufferSize = VMRegionSize( region );
}
else {
goto FAILURE;
}
}
if ( !VMRegionBytes( region, context->buffer, &size ) ) {
goto FAILURE;
}
top = *context->lastPerRegionPtr;
for ( i = 0; i < top; i++ ) {
ptr = (void *)((TCAddress)context->buffer + *context->lastAddressPtr - VMRegionAddress(region));
char firstValue[context->value->_size];
memcpy(firstValue, ptr, context->value->_size);
if (context->value->_isEmulated)
{
if (context->value->_type == TCFloat)
{
CFSwappedFloat32 firstSwappedFloat = CFConvertFloat32HostToSwapped(*((float *)firstValue));
memcpy(firstValue, &firstSwappedFloat, context->value->_size);
}
else if (context->value->_type == TCDouble)
{
CFSwappedFloat64 firstSwappedDouble = CFConvertDoubleHostToSwapped(*((double *)firstValue));
memcpy(firstValue, &firstSwappedDouble, context->value->_size);
}
}
if (ptr >= context->buffer && context->compareFunc(firstValue,context->value->_value)) {
if ( context->numberOfResults >= TCArrayElementCount(context->addresses) ) {
TCArrayResize( context->addresses, TCArrayElementCount(context->addresses) + TC_BUFFER_SIZE / sizeof(TCAddress) );
context->addressPtr = (TCAddress *)TCArrayBytes(context->addresses) + context->numberOfResults;
}
if ( context->numberOfResults >= TCArrayElementCount(context->values) ) {
TCArrayResize( context->values, TCArrayElementCount(context->values) + TC_BUFFER_SIZE / TCArrayElementSize(context->values) );
context->valuePtr = TCArrayBytes(context->values) + context->numberOfResults * TCArrayElementSize(context->values);
}
*context->addressPtr = *context->lastAddressPtr;
memcpy( context->valuePtr, ptr, TCArrayElementSize( context->values ) );
context->numberOfResults++;
hitsPerRegion++;
context->addressPtr++;
context->valuePtr += TCArrayElementSize( context->values );
}
context->lastAddressPtr++;
}
}
FAILURE:;
context->lastRegionPtr++;
context->lastPerRegionPtr++;
if ( hitsPerRegion > 0 ) {
TCAddress addr = VMRegionAddress( region );
unsigned index = TCArrayElementCount( context->regions );
unsigned newsize = index + 1;
TCArrayResize( context->regions, newsize );
TCArrayResize( context->perRegion, newsize );
TCArraySetElementAtIndex( context->regions, index, &addr );
TCArraySetElementAtIndex( context->perRegion, index, &hitsPerRegion );
}
ReportSearchProgress( task, iteration, context->regionCount, &context->progress );
context->lastRegion = region;
return 1;
}
else {
free( context->buffer );
context->buffer = NULL;
TCArrayResize( context->addresses, context->numberOfResults );
TCArrayResize( context->values, context->numberOfResults );
return 0;
}
}
int SearchIterationLastValue( ThreadedTask *task, unsigned iteration )
{
SearchContext *context = [task context];
VMRegion region;
unsigned hitsPerRegion = 0;
mach_vm_size_t size;
void *ptr;
unsigned i, top;
if ( iteration < TCArrayElementCount( context->lastRegions ) ) {
context->lastRegion = VMMakeRegion( context->process, *(context->lastRegionPtr), 0 );
region = VMNextRegionWithAttributes( context->process, context->lastRegion, VMREGION_READABLE | VMREGION_WRITABLE );
if ( VMRegionIsNotNull( region ) ) {
if ( context->bufferSize < VMRegionSize( region ) ) {
char *buf = realloc( context->buffer, VMRegionSize( region ) );
if ( buf ) {
context->buffer = buf;
context->bufferSize = VMRegionSize( region );
}
else {
goto FAILURE;
}
}
if ( !VMRegionBytes( region, context->buffer, &size ) ) {
goto FAILURE;
}
top = *context->lastPerRegionPtr;
for ( i = 0; i < top; i++ ) {
ptr = (void *)((TCAddress)context->buffer + *context->lastAddressPtr - VMRegionAddress(region));
if ( ptr >= context->buffer && context->compareFunc(ptr,context->lastValuePtr) ) {
if ( context->numberOfResults >= TCArrayElementCount(context->addresses) ) {
TCArrayResize( context->addresses, TCArrayElementCount(context->addresses) + TC_BUFFER_SIZE / sizeof(TCAddress) );
context->addressPtr = (TCAddress *)TCArrayBytes(context->addresses) + context->numberOfResults;
}
if ( context->numberOfResults >= TCArrayElementCount(context->values) ) {
TCArrayResize( context->values, TCArrayElementCount(context->values) + TC_BUFFER_SIZE / TCArrayElementSize(context->values) );
context->valuePtr = TCArrayBytes(context->values) + context->numberOfResults * TCArrayElementSize(context->values);
}
*context->addressPtr = *context->lastAddressPtr;
memcpy( context->valuePtr, ptr, TCArrayElementSize(context->values) );
context->numberOfResults++;
hitsPerRegion++;
context->addressPtr++;
context->valuePtr += TCArrayElementSize(context->values);
}
context->lastAddressPtr++;
context->lastValuePtr += TCArrayElementSize(context->values);
}
}
FAILURE:;
context->lastRegionPtr++;
context->lastPerRegionPtr++;
if ( hitsPerRegion > 0 ) {
TCAddress addr = VMRegionAddress( region );
unsigned index = TCArrayElementCount( context->regions );
unsigned newsize = index + 1;
TCArrayResize( context->regions, newsize );
TCArrayResize( context->perRegion, newsize );
TCArraySetElementAtIndex( context->regions, index, &addr );
TCArraySetElementAtIndex( context->perRegion, index, &hitsPerRegion );
}
ReportSearchProgress( task, iteration, context->regionCount, &context->progress );
context->lastRegion = region;
return 1;
}
else {
free( context->buffer );
context->buffer = NULL;
TCArrayResize( context->addresses, context->numberOfResults );
TCArrayResize( context->values, context->numberOfResults );
return 0;
}
}
int SearchStringIteration( ThreadedTask *task, unsigned iteration )
{
SearchContext *context = [task context];
VMRegion region;
unsigned hitsPerRegion = 0;
mach_vm_size_t size;
void *ptr, *top, *hit;
TCAddress offset;
region = VMNextRegionWithAttributes( context->process, context->lastRegion, VMREGION_READABLE | VMREGION_WRITABLE );
if ( VMRegionIsNotNull( region ) ) {
if ( context->bufferSize < VMRegionSize(region) ) {
char *buf = realloc( context->buffer, VMRegionSize( region ) );
if ( buf ) {
context->buffer = buf;
context->bufferSize = VMRegionSize(region);
}
else {
goto FAILURE;
}
}
if ( !VMRegionBytes( region, context->buffer, &size ) ) {
goto FAILURE;
}
ptr = context->buffer;
top = context->buffer + VMRegionSize( region );
offset = VMRegionAddress( region ) - (TCAddress)context->buffer;
do {
hit = bmsearch( context->value->_value, context->value->_size, ptr, top - ptr );
if ( hit ) {
if ( context->numberOfResults >= TCArrayElementCount(context->addresses) ) {
TCArrayResize( context->addresses, TCArrayElementCount(context->addresses) + TC_BUFFER_SIZE / sizeof(TCAddress) );
context->addressPtr = (TCAddress *)TCArrayBytes(context->addresses) + context->numberOfResults;
}
if ( context->numberOfResults >= TCArrayElementCount(context->values) ) {
TCArrayResize( context->values, TCArrayElementCount(context->values) + TC_BUFFER_SIZE / TCArrayElementSize(context->values) );
context->valuePtr = TCArrayBytes(context->values) + context->numberOfResults * TCArrayElementSize(context->values);
}
*context->addressPtr = (TCAddress)hit + offset;
memcpy( context->valuePtr, hit, context->value->_size );
context->addressPtr++;
context->valuePtr += context->value->_size;
context->numberOfResults++;
hitsPerRegion++;
}
ptr = hit + 1;
}
while ( hit );
FAILURE:;
if ( hitsPerRegion > 0 ) {
TCAddress addr = VMRegionAddress( region );
unsigned index = TCArrayElementCount( context->regions );
unsigned newsize = index + 1;
TCArrayResize( context->regions, newsize );
TCArrayResize( context->perRegion, newsize );
TCArraySetElementAtIndex( context->regions, index, &addr );
TCArraySetElementAtIndex( context->perRegion, index, &hitsPerRegion );
}
ReportSearchProgress( task, iteration, context->regionCount, &context->progress );
context->lastRegion = region;
return 1;
}
else {
free( context->buffer );
context->buffer = NULL;
TCArrayResize( context->addresses, context->numberOfResults );
TCArrayResize( context->values, context->numberOfResults );
return 0;
}
}
int SearchStringIterationAgain( ThreadedTask *task, unsigned iteration )
{
SearchContext *context = [task context];
VMRegion region;
unsigned hitsPerRegion = 0;
mach_vm_size_t size;
void *ptr;
unsigned i, top;
if ( iteration < TCArrayElementCount( context->lastRegions ) ) {
context->lastRegion = VMMakeRegion( context->process, *(context->lastRegionPtr), 0 );
region = VMNextRegionWithAttributes( context->process, context->lastRegion, VMREGION_READABLE | VMREGION_WRITABLE );
if ( VMRegionIsNotNull( region ) ) {
if ( context->bufferSize < VMRegionSize( region ) ) {
char *buf = realloc( context->buffer, VMRegionSize( region ) );
if ( buf ) {
context->buffer = buf;
context->bufferSize = VMRegionSize( region );
}
else {
goto FAILURE;
}
}
if ( !VMRegionBytes( region, context->buffer, &size ) ) {
goto FAILURE;
}
top = *context->lastPerRegionPtr;
for ( i = 0; i < top; i++ ) {
ptr = (void *)((TCAddress)context->buffer + *context->lastAddressPtr - VMRegionAddress(region));
if ( ptr >= context->buffer && memcmp( ptr, context->value->_value, MIN(TCArrayElementSize(context->values),(TCAddress)context->buffer+VMRegionAddress(region)-(TCAddress)ptr) ) == 0 ) {
if ( context->numberOfResults >= TCArrayElementCount(context->addresses) ) {
TCArrayResize( context->addresses, TCArrayElementCount(context->addresses) + TC_BUFFER_SIZE / sizeof(TCAddress) );
context->addressPtr = (TCAddress *)TCArrayBytes(context->addresses) + context->numberOfResults;
}
if ( context->numberOfResults >= TCArrayElementCount(context->values) ) {
TCArrayResize( context->values, TCArrayElementCount(context->values) + TC_BUFFER_SIZE / TCArrayElementSize(context->values) );
context->valuePtr = TCArrayBytes(context->values) + context->numberOfResults * TCArrayElementSize(context->values);
}
*context->addressPtr = *context->lastAddressPtr;
memcpy( context->valuePtr, ptr, TCArrayElementSize( context->values ) );
context->addressPtr++;
context->valuePtr += TCArrayElementSize( context->values );
context->numberOfResults++;
hitsPerRegion++;
}
context->lastAddressPtr++;
}
}
FAILURE:;
context->lastRegionPtr++;
context->lastPerRegionPtr++;
if ( hitsPerRegion > 0 ) {
TCAddress addr = VMRegionAddress( region );
unsigned index = TCArrayElementCount( context->regions );
unsigned newsize = index + 1;
TCArrayResize( context->regions, newsize );
TCArrayResize( context->perRegion, newsize );
TCArraySetElementAtIndex( context->regions, index, &addr );
TCArraySetElementAtIndex( context->perRegion, index, &hitsPerRegion );
}
ReportSearchProgress( task, iteration, context->regionCount, &context->progress );
context->lastRegion = region;
return 1;
}
else {
free( context->buffer );
context->buffer = NULL;
TCArrayResize( context->addresses, context->numberOfResults );
TCArrayResize( context->values, context->numberOfResults );
return 0;
}
}
int SearchStringIterationLastValue( ThreadedTask *task, unsigned iteration )
{
SearchContext *context = [task context];
VMRegion region;
unsigned hitsPerRegion = 0;
mach_vm_size_t size;
void *ptr;
unsigned i, top;
if ( iteration < TCArrayElementCount( context->lastRegions ) ) {
context->lastRegion = VMMakeRegion( context->process, *(context->lastRegionPtr), 0 );
region = VMNextRegionWithAttributes( context->process, context->lastRegion, VMREGION_READABLE | VMREGION_WRITABLE );
if ( VMRegionIsNotNull( region ) ) {
if ( context->bufferSize < VMRegionSize( region ) ) {
char *buf = realloc( context->buffer, VMRegionSize( region ) );
if ( buf ) {
context->buffer = buf;
context->bufferSize = VMRegionSize( region );
}
else {
goto FAILURE;
}
}
if ( !VMRegionBytes( region, context->buffer, &size ) ) {
goto FAILURE;
}
top = *context->lastPerRegionPtr;
for ( i = 0; i < top; i++ ) {
ptr = (void *)((TCAddress)context->buffer + *context->lastAddressPtr - VMRegionAddress(region));
if ( ptr >= context->buffer && memcmp( ptr, context->lastValuePtr, MIN(TCArrayElementSize(context->values),(TCAddress)context->buffer+VMRegionAddress(region)-(TCAddress)ptr) ) == 0 ) {
if ( context->numberOfResults >= TCArrayElementCount(context->addresses) ) {
TCArrayResize( context->addresses, TCArrayElementCount(context->addresses) + TC_BUFFER_SIZE / sizeof(TCAddress) );
context->addressPtr = (TCAddress *)TCArrayBytes(context->addresses) + context->numberOfResults;
}
if ( context->numberOfResults >= TCArrayElementCount(context->values) ) {
TCArrayResize( context->values, TCArrayElementCount(context->values) + TC_BUFFER_SIZE / TCArrayElementSize(context->values) );
context->valuePtr = TCArrayBytes(context->values) + context->numberOfResults * TCArrayElementSize(context->values);
}
*context->addressPtr = *context->lastAddressPtr;
memcpy( context->valuePtr, ptr, TCArrayElementSize(context->values) );
context->addressPtr++;
context->valuePtr += TCArrayElementSize(context->values);
context->numberOfResults++;
hitsPerRegion++;
}
context->lastAddressPtr++;
context->lastValuePtr += TCArrayElementSize(context->lastValues);
}
}
FAILURE:;
context->lastRegionPtr++;
context->lastPerRegionPtr++;
if ( hitsPerRegion > 0 ) {
TCAddress addr = VMRegionAddress( region );
unsigned index = TCArrayElementCount( context->regions );
unsigned newsize = index + 1;
TCArrayResize( context->regions, newsize );
TCArrayResize( context->perRegion, newsize );
TCArraySetElementAtIndex( context->regions, index, &addr );
TCArraySetElementAtIndex( context->perRegion, index, &hitsPerRegion );
}
ReportSearchProgress( task, iteration, context->regionCount, &context->progress );
context->lastRegion = region;
return 1;
}
else {
free( context->buffer );
context->buffer = NULL;
TCArrayResize( context->addresses, context->numberOfResults );
TCArrayResize( context->values, context->numberOfResults );
return 0;
}
}
#pragma mark -
#pragma mark Comparison Functions
BOOL EqualCiv5 (void const *first, void const *second) {
return abs(*(SInt32*) first - *(SInt32*) second) < 100;
}
BOOL EqualInt64( void const *first, void const *second ) {
return *(SInt64 *)first == *(SInt64 *)second;
}
BOOL EqualInt32( void const *first, void const *second ) {
return *(SInt32 *)first == *(SInt32 *)second;
}
BOOL EqualInt16( void const *first, void const *second ) {
return *(SInt16 *)first == *(SInt16 *)second;
}
BOOL EqualInt8( void const *first, void const *second ) {
return *(SInt8 *)first == *(SInt8 *)second;
}
BOOL EqualUInt64( void const *first, void const *second ) {
return *(UInt64 *)first == *(UInt64 *)second;
}
BOOL EqualUInt32( void const *first, void const *second ) {
return *(UInt32 *)first == *(UInt32 *)second;
}
BOOL EqualUInt16( void const *first, void const *second ) {
return *(UInt16 *)first == *(UInt16 *)second;
}
BOOL EqualUInt8( void const *first, void const *second ) {
return *(UInt8 *)first == *(UInt8 *)second;
}
BOOL EqualFloat( void const *first, void const *second ) {
return TC_EPSILON > ABS( *(float *)first - *(float *)second );
}
BOOL EqualDouble( void const *first, void const *second ) {
return TC_EPSILON > ABS( *(double *)first - *(double *)second );
}
BOOL NotEqualCiv5 (void const *first, void const *second) {
return abs(*(SInt32*) first - *(SInt32*) second) > 100;
}
BOOL NotEqualInt64( void const *first, void const *second ) {
return *(SInt64 *)first != *(SInt64 *)second;
}
BOOL NotEqualInt32( void const *first, void const *second ) {
return *(SInt32 *)first != *(SInt32 *)second;
}
BOOL NotEqualInt16( void const *first, void const *second ) {
return *(SInt16 *)first != *(SInt16 *)second;
}
BOOL NotEqualInt8( void const *first, void const *second ) {
return *(SInt8 *)first != *(SInt8 *)second;
}
BOOL NotEqualUInt64( void const *first, void const *second ) {
return *(UInt64 *)first != *(UInt64 *)second;
}
BOOL NotEqualUInt32( void const *first, void const *second ) {
return *(UInt32 *)first != *(UInt32 *)second;
}
BOOL NotEqualUInt16( void const *first, void const *second ) {
return *(UInt16 *)first != *(UInt16 *)second;
}
BOOL NotEqualUInt8( void const *first, void const *second ) {
return *(UInt8 *)first != *(UInt8 *)second;
}
BOOL NotEqualFloat( void const *first, void const *second ) {
return TC_EPSILON <= ABS( *(float *)first - *(float *)second );
}
BOOL NotEqualDouble( void const *first, void const *second ) {
return TC_EPSILON <= ABS( *(double *)first - *(double *)second );
}
BOOL LessThanCiv5 (void const *first, void const *second) {
return *(SInt32 *)first < *(SInt32 *)second;
}
BOOL LessThanInt64( void const *first, void const *second ) {
return *(SInt64 *)first < *(SInt64 *)second;
}
BOOL LessThanInt32( void const *first, void const *second ) {
return *(SInt32 *)first < *(SInt32 *)second;
}
BOOL LessThanInt16( void const *first, void const *second ) {
return *(SInt16 *)first < *(SInt16 *)second;
}
BOOL LessThanInt8( void const *first, void const *second ) {
return *(SInt8 *)first < *(SInt8 *)second;
}
BOOL LessThanUInt64( void const *first, void const *second ) {
return *(UInt64 *)first < *(UInt64 *)second;
}
BOOL LessThanUInt32( void const *first, void const *second ) {
return *(UInt32 *)first < *(UInt32 *)second;
}
BOOL LessThanUInt16( void const *first, void const *second ) {
return *(UInt16 *)first < *(UInt16 *)second;
}
BOOL LessThanUInt8( void const *first, void const *second ) {
return *(UInt8 *)first < *(UInt8 *)second;
}
BOOL LessThanFloat( void const *first, void const *second ) {
return *(float *)first < *(float *)second;
}
BOOL LessThanDouble( void const *first, void const *second ) {
return *(double *)first < *(double *)second;
}
BOOL GreaterThanCiv5( void const *first, void const *second ) {
return *(SInt32 *)first > *(SInt32 *)second;
}
BOOL GreaterThanInt64( void const *first, void const *second ) {
return *(SInt64 *)first > *(SInt64 *)second;
}
BOOL GreaterThanInt32( void const *first, void const *second ) {
return *(SInt32 *)first > *(SInt32 *)second;
}
BOOL GreaterThanInt16( void const *first, void const *second ) {
return *(SInt16 *)first > *(SInt16 *)second;
}
BOOL GreaterThanInt8( void const *first, void const *second ) {
return *(SInt8 *)first > *(SInt8 *)second;
}
BOOL GreaterThanUInt64( void const *first, void const *second ) {
return *(UInt64 *)first > *(UInt64 *)second;
}
BOOL GreaterThanUInt32( void const *first, void const *second ) {
return *(UInt32 *)first > *(UInt32 *)second;
}
BOOL GreaterThanUInt16( void const *first, void const *second ) {
return *(UInt16 *)first > *(UInt16 *)second;
}
BOOL GreaterThanUInt8( void const *first, void const *second ) {
return *(UInt8 *)first > *(UInt8 *)second;
}
BOOL GreaterThanFloat( void const *first, void const *second ) {
return *(float *)first > *(float *)second;
}
BOOL GreaterThanDouble( void const *first, void const *second ) {
return *(double *)first > *(double *)second;
}
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