First, here is where I got the idea from:
There was once an app I wrote that used lots of little blobs of memory, each allocated with malloc(). It worked correctly but was slow. I replaced the many calls to malloc with just one, and then sliced up that large block within my app. It was much much faster.
I was profiling my application, and I got a unexpectedly nice performance boost when I reduced the number of malloc calls. I am still allocating the same amount of memory, though.
So, I would like to do what this guy did, but I am unsure what's the best way to do it.
// static global variables static void * memoryForStruct1 = malloc(sizeof(Struct1) * 10000); int struct1Index = 0; ... // somewhere, I need memory, fast: Struct1* data = memoryForStruct1[struct1Index++]; ... // done with data: --struct1Index;
- I have to make sure I don't exceed 10000
- I have to release the memory in the same order I occupied. (Not a major issue in my case, since I am using recursion, but I would like to avoid it if possible).
Inspired from Mihai Maruseac:
First, I create a linked list of
int that basically tells me which memory indexes are free. I then added a property to my struct called
int memoryIndex which helps me return the memory occupied in any order. And Luckily, I am sure my memory needs would never exceed 5 MB at any given time, so I can safely allocate that much memory. Solved.