193 lines
8.1 KiB
C
193 lines
8.1 KiB
C
#ifndef CIG_H
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#define CIG_H
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#include <stddef.h>
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#include <stdint.h>
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#include <stdio.h>
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#include <stdlib.h>
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typedef union any_align { char c; int i; long l; long long ll; float f; double d; void *p; } any_align_t;
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#define MAX_ALIGN ((size_t) sizeof(any_align_t))
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#define KB (1024)
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#define MB (KB * KB)
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#define GB (KB * KB * KB)
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#define OFFSET(STRUCT, FIELD) ((size_t) (&((STRUCT*) NULL)->FIELD))
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#define PTR_FROM_FIELD_PTR(STRUCT, FIELD, PTR) ((STRUCT *) (((char *) PTR) - OFFSET(STRUCT, FIELD)))
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// Contains all operations an allocator can do. Similar interface to sdtlibs
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// malloc, realloc and free.
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typedef struct allocator_vtbl {
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void *(*alloc)(void *this, size_t bytes);
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void *(*resize)(void *this, void *old_ptr, size_t bytes);
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void (*reset)(void *this);
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} allocator_vtbl_t;
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// An instance of an allocator.
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typedef struct allocator {
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// pointer to the behind-the-scenes data that an allocator may store.
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void *this;
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// pointer to the method implementations of an allocator.
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const allocator_vtbl_t *vtbl;
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} allocator_t;
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void *allocator_alloc_func(allocator_t this, size_t bytes, const char *file, int line);
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void *allocator_resize_func(allocator_t this, void *old_ptr, size_t bytes, const char *file, int line);
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void allocator_reset(allocator_t this);
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#define allocator_alloc(this, bytes) allocator_alloc_func(this, bytes, __FILE__, __LINE__)
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#define allocator_resize(this, old_ptr, bytes) allocator_resize_func(this, old_ptr, bytes, __FILE__, __LINE__)
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// std_allocator ///////////////////////////////////////////////////////////////
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allocator_t forever_allocator();
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// buffer_allocator ////////////////////////////////////////////////////////////
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typedef struct buffer_allocator {
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size_t size, capacity;
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uint8_t *data;
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} buffer_allocator_t;
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#define buffer_allocator_create(CAPACITY) \
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((buffer_allocator_t){ \
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.size = 0, .capacity = CAPACITY, .data = (uint8_t[CAPACITY]){0}})
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allocator_t buffer_allocator(buffer_allocator_t *this);
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// borrow_allocator ////////////////////////////////////////////////////////////
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typedef struct linked_allocation_node {
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struct linked_allocation_node *next;
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struct linked_allocation_node *prev;
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any_align_t data[];
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} linked_allocation_node_t;
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typedef struct borrow_allocator {
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linked_allocation_node_t *head;
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} borrow_allocator_t;
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#define borrow_allocator_create() ((borrow_allocator_t){.head=NULL})
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allocator_t borrow_allocator(borrow_allocator_t *this);
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// Some text that can be used as an identifier (no, not by you), so that I can
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// use a variable that won't collide with yours inside macros.
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#define UNIQUE __macro_internal_34bba35b8b9b20a75f9881e3795630e25d36e620d9c9741e2e9141ba82ec6ef6__
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// Can be used to mimic rust borrow semantics. with_borrow(foos_allocator) {
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// foo(foos_allocator); }. If a function should return ownership assume that
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// my_allocator was passed in by an outer function void *bar;
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// with_borrow(foos_allocator) {bar = foo(foos_allocator, my_allocator); } Using
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// the return a keyword in the statement following this macro will cause a
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// guaranteed memory leak.
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// TODO: simplify!
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#define with_borrow(NAME) \
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for (allocator_t NAME = \
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borrow_allocator(&borrow_allocator_create()); \
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!((borrow_allocator_t *)NAME.this)->head; \
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((borrow_allocator_t *)NAME.this)->head = \
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(allocator_reset(NAME), \
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(linked_allocation_node_t *)1)) \
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for (int UNIQUE = 0; UNIQUE < 1; UNIQUE++)
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// dynamic arrays //////////////////////////////////////////////////////////////
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typedef struct dyn_array_header {
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size_t size, capacity, itemsize;
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allocator_t allocator;
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uint8_t bytes[];
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} dyn_array_header_t;
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typedef struct dyn_array_create_func_args {
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allocator_t allocator;
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size_t itemsize;
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size_t initial_capacity;
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const char *file;
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int line;
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} dyn_array_create_func_args_t;
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void *dyn_array_create_func(dyn_array_create_func_args_t args);
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#define dyn_array_create(ALLOCATOR, TYPE, ...) \
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((TYPE *)dyn_array_create_func( \
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(dyn_array_create_func_args_t){.allocator = ALLOCATOR, \
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.itemsize = sizeof(TYPE), \
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.file = __FILE__, \
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.line = __LINE__, \
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__VA_ARGS__}))
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// Always reassign the array. if multiple variables reference the same growing
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// array, then you should be using pointer pointers.
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void *dyn_array_grow_func(void *this, size_t n_new_items, const char *file, int line);
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void dyn_array_shrink_func(void *this, size_t n_items_to_remove, const char *file, int line);
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#define dyn_array_grow(THIS, N_NEW_ITEMS) \
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dyn_array_grow_func(THIS, N_NEW_ITEMS, __FILE__, __LINE__)
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#define dyn_array_shrink(THIS, N_ITEMS_TO_REMOVE) \
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dyn_array_shrink_func(THIS, N_ITEMS_TO_REMOVE, __FILE__, __LINE__)
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#define dyn_array_reset(THIS) \
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do { \
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dyn_array_shrink(THIS, dyn_array_length(THIS)); \
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} while (0)
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typedef struct dyn_array_create_non_crashing_func_args {
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allocator_t allocator;
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size_t itemsize;
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size_t initial_capacity;
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const char *file;
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size_t line;
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} dyn_array_create_non_crashing_func_args_t;
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void *dyn_array_create_non_crashing_func(dyn_array_create_non_crashing_func_args_t args);
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// This version returns a NULL pointer instead of crashing if the allocator return NULL.
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// It is up to you to check that the pointer returned isn't NULL
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#define dyn_array_create_non_crashing(ALLOCATOR, TYPE, ...) \
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((TYPE *)dyn_array_create_non_crashing_func( \
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(dyn_array_create_non_crashing_func_args_t){.allocator = ALLOCATOR, \
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.itemsize = sizeof(TYPE), \
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.file = __FILE__, \
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.line = __LINE__, \
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__VA_ARGS__}))
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// TODO: remove the non-crashing versions. they crash...
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// This version returns a NULL pointer instead of crashing if the allocator return NULL.
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// It is up to you to check that the pointer returned isn't NULL
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// Always reassign the array. if multiple variables reference the same growing
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// array, then you should be using pointer pointers.
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void *dyn_array_grow_non_crashing_func(void *this, size_t n_new_items, const char *file, int line);
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#define dyn_array_grow_non_crashing(THIS, N_NEW_ITEMS) dyn_array_grow_non_crashing_func(THIS, N_NEW_ITEMS)
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size_t dyn_array_length(void *this);
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size_t dyn_array_capacity(void *this);
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#define dyn_array_append(THIS, VAL) do { \
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THIS = dyn_array_grow(THIS, 1); \
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THIS[dyn_array_length(THIS)-1] = VAL; \
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} while(0)
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#define dyn_array_pop(THIS) (dyn_array_shrink(THIS, 1), THIS[dyn_array_length(THIS)])
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#ifdef CIG_IMPL
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void *allocator_alloc_func(allocator_t this, size_t bytes, const char *file, int line) {
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void *ptr = this.vtbl->alloc(this.this, bytes);
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if (ptr == NULL) {
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fprintf(stderr, "%s:%d: alloc returned NULL\n", file, line);
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exit(1);
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}
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return ptr;
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}
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void *allocator_resize_func(allocator_t this, void *old_ptr, size_t bytes, const char *file, int line) {
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void *ptr = this.vtbl->resize(this.this, old_ptr, bytes);
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if (ptr == NULL) {
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fprintf(stderr, "%s:%d: alloc returned NULL\n", file, line);
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exit(1);
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}
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return ptr;
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}
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void allocator_reset(allocator_t this) {
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this.vtbl->reset(this.this);
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}
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// TODO: rename std_allocator.c to forever_allocator.c
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#include "std_allocator.c"
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#include "buffer_allocator.c"
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#include "borrow_allocator.c"
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#include "dyn_array.c"
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#endif // CIG_IMPL
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#endif // CIG_H
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