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#include "linuxUI.h"
#include <iostream>
using namespace std;
std::vector<HEAPRECORD> HeapRecords;
HANDLE HeapCreate(DWORD flOptions, SIZE_T dwInitialSize, SIZE_T dwMaximumSize)
{
HANDLE hHeap = NULL;
HEAPRECORD hHeapRecord;
hHeapRecord.dwMaximumSize = dwMaximumSize;
// hHeap = malloc(dwInitialSize);
if (hHeap == NULL)
return NULL;
hHeapRecord.dwSize = dwInitialSize;
hHeapRecord.hHeap = hHeap;
hHeapRecord.dwAllocatedSizeOffset = 0;
hHeapRecord.HeapID = HeapRecords.size()+1;
HeapRecords.push_back(hHeapRecord);
return hHeap;
}
LPVOID HeapAlloc(HANDLE hHeap, DWORD dwFlags, SIZE_T dwBytes)
{
// if (hHeap == NULL)
// {
// printf("Alloc**********NULL HEAP***************\n");
LPVOID p = malloc(dwBytes);
return p;
// }
// auto it = std::find_if(HeapRecords.begin(), HeapRecords.end(), [&hHeap](HEAPRECORD &Record) { return Record.hHeap == hHeap; });
// if (it == HeapRecords.end())
// return NULL;
// if ((*it).dwAllocatedSizeOffset + dwBytes > (*it).dwSize)
// {
// if ((*it).dwMaximumSize != 0)
// if((*it).dwAllocatedSizeOffset + dwBytes > (*it).dwMaximumSize)
// return NULL;
// (*it).hHeap = realloc((*it).hHeap, (*it).dwAllocatedSizeOffset + dwBytes);
// hHeap = (*it).hHeap;
// }
// /// HEAP_ZERO_MEMORY is set by default
// DWORD flags = MAP_ANONYMOUS;
// // if ( !((dwFlags & HEAP_ZERO_MEMORY) == HEAP_ZERO_MEMORY) )
// // flags = MAP_ANONYMOUS | MAP_UNINITIALIZED;
// /* Use for setting a meamory chunck with some value
// * void * memset ( void * ptr, int value, size_t num );
// */
// LPVOID p = mmap(hHeap + (*it).dwAllocatedSizeOffset, dwBytes, PROT_EXEC, flags, -1, 0);
// if (p == NULL)
// return NULL;
// (*it).dwAllocatedSizeOffset += dwBytes;
// HEAPCHUNCK chunck;
// chunck.Chunck = p;
// chunck.dwSize = dwBytes;
// (*it).Element.push_back(chunck);
// return p;
}
BOOL HeapFree(HANDLE hHeap, DWORD dwFlags, LPVOID lpMem)
{
/// if NULL free()
// if (hHeap == NULL)
// {
// printf("free*********NULL HEAP***************\n");
free(lpMem);
return TRUE;
// }
// auto heap_it = std::find_if(HeapRecords.begin(), HeapRecords.end(), [&hHeap](HEAPRECORD &Record) { return Record.hHeap == hHeap; });
// if (heap_it == HeapRecords.end())
// return FALSE;
// auto chunck_it = std::find_if((*heap_it).Element.begin(), (*heap_it).Element.end(), [&lpMem](HEAPCHUNCK &Chunck) { return Chunck.Chunck == lpMem; });
// if (chunck_it == (*heap_it).Element.end())
// return FALSE;
// int result = munmap((*chunck_it).Chunck, (*chunck_it).dwSize);
// if (result == 0)
// {
// (*heap_it).Element.erase(chunck_it);
// return TRUE;
// }
// else
// return FALSE;
}
HICON LoadImage(HINSTANCE hinst, LPCTSTR lpszName, UINT uType, int cxDesired,
int cyDesired, UINT fuLoad)
{
HICON pixbuf;
GError *error = NULL;
pixbuf = gdk_pixbuf_new_from_file(lpszName, &error);
if(!pixbuf) {
fprintf(stderr, "%s\n", error->message);
g_error_free(error);
}
return pixbuf;
}
void RECT_to_GDRECT(const RECT *rc, GDRECT *gdrc)
{
gdrc->x = rc->left;
gdrc->y = rc->top;
gdrc->width = rc->right - rc->left;
gdrc->height = rc->bottom - rc->top;
}
void OutputDebugString(char* str)
{
}
double GetTickCount(void)
{
// timespec now;
// clock_gettime()
// if (clock_gettime(CLOCK_MONOTONIC, &now))
// return 0;
return 10.2;//now.tv_sec * 1000.0 + now.tv_nsec / 1000000.0;
}
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