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path: root/src/std/scoped_allocator.c
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#include "../../include/std/scoped_allocator.h"
#include "../../include/std/alloc.h"
#include "../../include/std/thread.h"
#include "../../include/std/log.h"
#include <assert.h>

#define ALLOC_NODE_SIZE 4096

int scoped_allocator_node_init(ScopedAllocatorNode *self) {
    self->data = NULL;
    self->size = 0;
    self->next = NULL;
    return am_malloc(ALLOC_NODE_SIZE, (void**)&self->data);
}

void scoped_allocator_node_deinit(ScopedAllocatorNode *self) {
    am_free(self->data);
    self->data = NULL;
    self->size = 0;
    if(self->next) {
        scoped_allocator_node_deinit(self->next);
        am_free(self->next);
        self->next = NULL;
    }
}

int scoped_allocator_init(ScopedAllocator *self) {
    return_if_error(scoped_allocator_node_init(&self->head));
    self->current = &self->head;
    return_if_error(buffer_init(&self->mems, NULL));
    return buffer_init(&self->mutexes, NULL);
}

static void buffer_deinit(Buffer *self) {
    am_free(self->data);
    self->data = NULL;
    self->size = 0;
    self->capacity = 0;
}

static void scoped_allocator_deinit_buffers(ScopedAllocator *self) {
    void **mem;
    void **mems_end;
    mem = buffer_begin(&self->mems);
    mems_end = buffer_end(&self->mems);
    while(mem != mems_end) {
        am_free(*mem);
        ++mem;
    }
    buffer_deinit(&self->mems);
}

static void scoped_allocator_deinit_mutexes(ScopedAllocator *self) {
    amal_mutex **mutex;
    amal_mutex **mutexes_end;
    mutex = buffer_begin(&self->mutexes);
    mutexes_end = buffer_end(&self->mutexes);
    while(mutex != mutexes_end) {
        amal_mutex_deinit(*mutex);
        ++mutex;
    }
    buffer_deinit(&self->mutexes);
}

void scoped_allocator_deinit(ScopedAllocator *self) {
    self->current = NULL;
    scoped_allocator_deinit_buffers(self);
    scoped_allocator_deinit_mutexes(self);
    scoped_allocator_node_deinit(&self->head);
}

static CHECK_RESULT int scoped_allocator_ensure_capacity_for(ScopedAllocator *self, usize size) {
    void *new_node;
    new_node = NULL;
    
    if(self->current->size + size > ALLOC_NODE_SIZE) {
        return_if_error(am_malloc(sizeof(ScopedAllocatorNode), &new_node));
        cleanup_if_error(scoped_allocator_node_init(new_node));
        self->current->next = new_node;
        self->current = new_node;
    }
    return ALLOC_OK;

    cleanup:
    if(new_node)
        am_free(new_node);
    return ALLOC_FAIL;
}

static void* align_ptr_ceil(void *ptr, uintptr_t alignment) {
    uintptr_t ptrval;
    ptrval = (uintptr_t)ptr;
    return (void*)((ptrval + alignment + 1) & ~(alignment - 1));
}

static usize align_ptr_ceil_offset(void *ptr, uintptr_t alignment) {
    return (uintptr_t)align_ptr_ceil(ptr, alignment) - (uintptr_t)ptr;
}

#define SCOPED_ALLOC_ALIGNMENT 8

int scoped_allocator_alloc(ScopedAllocator *self, usize size, void **mem) {
    ScopedAllocatorNode *current;
    usize alloc_size;
    assert(self->current);
    current = self->current;

    if(size >= ALLOC_NODE_SIZE) {
        amal_log_error("scoped_allocator_alloc: tried to alloc memory of size %lu. Max allowed alloc size is %lu", size, ALLOC_NODE_SIZE);
        return -1;
    }

    alloc_size = size + align_ptr_ceil_offset(self->current->data + self->current->size, SCOPED_ALLOC_ALIGNMENT);
    return_if_error(scoped_allocator_ensure_capacity_for(self, alloc_size));
    /* Reallocated (new node created) */
    if(self->current != current) {
        *mem = self->current->data;
        self->current->size += size;
    } else {
        *mem = align_ptr_ceil(self->current->data + self->current->size, SCOPED_ALLOC_ALIGNMENT);
        self->current->size += alloc_size;
    }
    return 0;
}

int scoped_allocator_add_mem(ScopedAllocator *self, usize *result_index) {
    void *null_data;
    null_data = NULL;
    *result_index = buffer_get_size(&self->mems, sizeof(void*));
    return buffer_append(&self->mems, &null_data, sizeof(void*));
}

int scoped_allocator_create_mutex(ScopedAllocator *self, amal_mutex **mutex) {
    *mutex = NULL;
    return_if_error(scoped_allocator_alloc(self, sizeof(amal_mutex), (void**)mutex));
    amal_mutex_init(*mutex);
    return buffer_append(&self->mutexes, mutex, sizeof(amal_mutex*));
}