this makes no sense... allocation functions allocate the requested number of bytes, or return an error code. Also you should not be mixing allocators as you suggest in the last paragraph . To make this question answerable, include a stackoverflow.com/help/minimal-reproducible-example

also make sure you have enabled as many compiler diagnostics as possible, and you aren't ignoring any messages (e.g. missing function declarations)

@M.M Check the pictures, you can see there is only one byte inside

Your debugger screenshot shows that it points to a whole string, the first character of which is an ASCII '.'. Your debugger doesn't know if a char* is supposed to be pointing to a whole string, or if your program is using it like an int* that points to a single int instead of an array, for example. So it shows that scalar interpretation.

@PeterCordes exactly, and in Visual Studio debugger there is just one string... Actually it is used like an int if I've understand what this function does

Yes, one string of many bytes, like ".....//../......./` etc. That's more than 1 byte.

I can tell you that no because if I delete the comments for the WaveGetPixel_3 function it will make an new access violation again on the first line of it: pix = src[0]; Which src[0] is "unreadable"

The debugger doesn't know how big a buffer the pointers point to, so it doesn't know how much to display. So you can't tell from the debugger output how much memory was allocated. @PeterCordes is right. He usually is. Listen to him. Your problem isn't what you believe it to be.

@AviBerger Ok ok but if it's fine I 'vve absolutely no idea on whats the problem is so

Ok I think I've found something, I can't saw that in the 5 first iteration of the loop but after 10 iteration it seems that I've an error in my traduction from asm for these two lines: lpWaveObject->lpDIBitsSource = lpWaveObject->lpDIBitsSource + dwPtrSource; lpWaveObject->lpDIBitsRender = lpWaveObject->lpDIBitsRender + dwPtrDest;

The code in your question doesn't include src[0], or anything [0] at all, so I assume that's some other code you're talking about. src[0] is the first byte, same as *src: that would succeed whether the allocation was only 1 byte or not. Unless src points somewhere other than the start of your buffer, in which case yes, of course it could be pointing to an unmapped page. A common error is for a loop bound to be wrong, resulting in reading so far past the end of an array that you get into the next page and it's not mapped. Use a debugger to see where your pointers point when it faults

@PeterCordes Yes this part is inside the WaveGetPixel_3 function I've not included here because I've access moemory violation two times before that so

Possibly a side issue, but I suspect that the assembly code is working with copies of the lpWaveObject->lpDIBitsSource and lpWaveObject->lpDIBitsRender values as the original values are needed to eventually free the memory and may be needed by the calling routine for other uses as well.

@AviBerger original values are null, it does but I've also tried this but exact same error so

I mean the values of the pointers themselves, not what they are pointing to. Those values are obtained from GlobalAlloc and, when obtained, not null (unless the allocation fails). The allocated buffer contents, on the other hand, are initially cleared to zero by specifying GPTR. Are you scrupulously watching when you are modifying the pointers themselves (which makes me nervous here) vs. what the pointers point to?

@AviBerger Yes, I've something like this in the init function: GetDIBits(hdcCompat, hBmp, 0, lpWaveObject->dwBmpHeight, (LPVOID)lpWaveObject->lpDIBitsSource, &lpWaveObject->stBmpInfo, DIB_RGB_COLORS);

Ok so I've fixed the problem with these two lines like this and Src and Rdr are unsigned char *: Src = lpWaveObject->lpDIBitsSource + 3; Rdr = lpWaveObject->lpDIBitsRender + 3; But even I've the good values this time I've still the same access memory error again on the same place

mov edi,[ebx].dwWaveByteWidth / mov eax,edi / sub eax,[ebx].dwWaveByteWidth should be setting EAX to zero (loading a value, then subtracting the same value from a copy of the first load result), so that doesn't make sense in the asm. Your C is equivalent for that case where the subtraction result is zero, but in general remember this is a byte offset, asm scale factor is 1, but in C you're using it as an element count so it'll scale by 4 (sizeof(int)). If the byte offset might not be a multiple of 4, you want char* and memcpy, otherwise you could do esi[ offset / sizeof(*esi) ]

@PeterCordes Honeslty, I claircly don't understand why the algo is like this in the asm... it does it for PoswX an PoswY and you're right the result is 0 for every loop as I can confirm it in my debugger butwhat I'm not sure is even it does 0 maybe there is a trick or something that I'ven't translate correclty who cause the access violation

@PeterCordes Do I need to use this for each time esi [offset] is set in the code ?

By "this" you mean dividing by the element size? Normally you'd write C to use element indexing instead of byte indexing. If the asm uses [esi + eax*4], that corresponds to C esi_pointer[ index_eax ]. If it uses the index unscaled, that's *(int*)((char*)esi + byte_offset) (and if it's not guaranteed to be aligned, you should use memcpy instead of casting to int* and dereferencing.)

From the pastebin in one of your earlier questions with the original asm source (pastebin.com/USkftJ5r), mov edi,[ebx].dwWaveByteWidth is outside a loop that does add edi, 4. The mov/sub stuff is inside the loop, so it will produce non-zero results, unlike this very weird version you showed where it looked like the first load would always run right before the mov/sub. I was curious whether the original asm was really low quality, but no, it even has some comments.

@PeterCordes In x64dbg I can see that the result s 0 every time in the loop, just because dwWaveByteWidth have always the same value(I don't debug further than init process so my be later in the execution you're right)

It's zero on the first iteration. If you set a breakpoint there and continue to the next iteration, it'll be non-zero because edi has been incremented past the initial [ebx].dwWaveByteWidth value.

@PeterCordes I speak about after the first call for this function not iteration because after 100 iterations edi is incremented yes but I always see esi=0 in final

@PeterCordes Ok I see What you mean by [esi + eax*4-1*4] in an other function "WaveSpread" but I've translate like this: esi[nWidth + 1] So I think i'ts ok

@hedabed -1*4 in the asm should be -1 in the C, not +1. But yes, asm with scaled indexed translates directly to C array indexing.