Added some comments to MagicMemory
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@ -6,49 +6,61 @@
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#include "magic_memory.h"
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magic_memory_context_t *magic_memory_begin(void) {
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magic_memory_context_t *new_mm = (magic_memory_context_t *) malloc(sizeof(magic_memory_context_t));
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mm_ctx magic_memory_begin(void) {
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/**
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* Creates a new MagicMemory context to be used with MagicMemory functions.
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*/
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if (new_mm == NULL) {
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mm_ctx new_mm_ctx = (magic_memory_context_t *) malloc(sizeof(magic_memory_context_t));
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if (new_mm_ctx == NULL) {
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return NULL;
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}
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new_mm->ptr = NULL;
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new_mm->next = NULL;
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new_mm_ctx->ptr = NULL;
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new_mm_ctx->next = NULL; // This is always will be NULL in order to keep the code simple
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return new_mm;
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return new_mm_ctx;
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}
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void *magic_malloc(magic_memory_context_t *magic_memory, size_t size) {
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void *magic_malloc(mm_ctx context, size_t size) {
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/**
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* Same as simple malloc, but the pointer is also added to the context.
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* MagicMemory keeps track of all pointers to allocated blocks in a context so they will never be lost.
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*/
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magic_memory_context_t *mm = (magic_memory_context_t *) malloc(sizeof(magic_memory_context_t));
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magic_memory_context_t *new_ctx_link = (magic_memory_context_t *) malloc(sizeof(magic_memory_context_t));
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if (mm == NULL) {
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if (new_ctx_link == NULL) {
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return NULL;
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}
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void *new_ptr = malloc(size);
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if (new_ptr == NULL) {
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free(mm);
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free(new_ctx_link);
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return NULL;
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}
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mm->ptr = new_ptr;
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mm->next = NULL;
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new_ctx_link->ptr = new_ptr;
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new_ctx_link->next = NULL;
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magic_memory_context_t *p = magic_memory;
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magic_memory_context_t *p = context;
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while (p->next != NULL) {
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p = p->next;
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}
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p->next = mm;
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p->next = new_ctx_link;
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return new_ptr;
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}
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void magic_free(magic_memory_context_t *magic_memory, void *ptr) {
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void magic_free(mm_ctx context, void *ptr) {
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/**
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* Same as free() but it marks the memory block as already freed in the context.
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* So the magic_cleanup() won't double-free.
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*/
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magic_memory_context_t *p = magic_memory;
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magic_memory_context_t *p = context;
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while (p != NULL) {
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if (p->ptr == ptr) {
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free(p->ptr);
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@ -57,12 +69,18 @@ void magic_free(magic_memory_context_t *magic_memory, void *ptr) {
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p = p->next;
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}
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// That link of the chain won't be freed up in order to keep the code simple and fast
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}
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void magic_cleanup(magic_memory_context_t *magic_memory) {
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void magic_cleanup(mm_ctx context) {
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/**
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* Free up the context, including all memory blocks in the context as well.
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* This should be called after the context (and the memory blocks in the context) no longer needed.
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*/
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magic_memory_context_t *p = magic_memory;
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magic_memory_context_t *p = context;
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while (p != NULL) {
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if (p->ptr != NULL) {
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@ -5,6 +5,21 @@
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#ifndef CAFF_PREVIEWER_MAGIC_MEMORY_H
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#define CAFF_PREVIEWER_MAGIC_MEMORY_H
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/**
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* MagicMemory is a super-simple helper library to help fighting with common memory management mistakes in C.
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* In C you have to allocate and free every memory block manually. While this giving a great freedom which might be
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* highly d desirable in certain use cases, most of the time all it does is causing headaches (double free, memory leak, etc.)
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*
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* The goal of MagicMemory is to provide a safety net for developers by trying to dodge the most common issues.
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* By keeping certain conventions, MagicMemory can help writing more reliable code.
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*
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* MagicMemory keeps track of all memory blocks allocated. And provides a simple way to free up all those allocated
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* memory block at once. This way the developer does not have to manually call free avoiding both double free and
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* the abscence of a free. The storage structure for the allocations is called a context. The context must be provided
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* for each MagicMemory function call.
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* -- Marcsello
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*/
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#include <stddef.h>
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typedef struct magic_memory_context_t {
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@ -12,10 +27,12 @@ typedef struct magic_memory_context_t {
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void *ptr;
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} magic_memory_context_t;
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magic_memory_context_t* magic_memory_begin(void);
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void* magic_malloc(magic_memory_context_t* magic_memory, size_t size);
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typedef magic_memory_context_t* mm_ctx;
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void magic_free(magic_memory_context_t* magic_memory, void* ptr);
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void magic_cleanup(magic_memory_context_t* magic_memory);
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mm_ctx magic_memory_begin(void);
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void* magic_malloc(mm_ctx context, size_t size);
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void magic_free(mm_ctx context, void* ptr);
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void magic_cleanup(mm_ctx context);
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#endif //CAFF_PREVIEWER_MAGIC_MEMORY_H
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