---
src/gallium/drivers/r600/compute_memory_pool.c | 147 +++++++------------------
src/gallium/drivers/r600/compute_memory_pool.h | 10 +-
2 files changed, 46 insertions(+), 111 deletions(-)
diff --git a/src/gallium/drivers/r600/compute_memory_pool.c
b/src/gallium/drivers/r600/compute_memory_pool.c
index 6409b34..518ea65 100644
--- a/src/gallium/drivers/r600/compute_memory_pool.c
+++ b/src/gallium/drivers/r600/compute_memory_pool.c
@@ -57,6 +57,12 @@ struct compute_memory_pool* compute_memory_pool_new(
COMPUTE_DBG(rscreen, "* compute_memory_pool_new()\n");
pool->screen = rscreen;
+ pool->item_list = (struct list_head *)
+ CALLOC(sizeof(struct list_head), 1);
+ pool->unallocated_list = (struct list_head *)
+ CALLOC(sizeof(struct list_head), 1);
+ list_inithead(pool->item_list);
+ list_inithead(pool->unallocated_list);
return pool;
}
@@ -107,7 +113,7 @@ int64_t compute_memory_prealloc_chunk(
COMPUTE_DBG(pool->screen, "* compute_memory_prealloc_chunk() size_in_dw
= %ld\n",
size_in_dw);
- for (item = pool->item_list; item; item = item->next) {
+ LIST_FOR_EACH_ENTRY(item, pool->item_list, link) {
if (last_end + size_in_dw <= item->start_in_dw) {
return last_end;
}
@@ -125,31 +131,37 @@ int64_t compute_memory_prealloc_chunk(
/**
* Search for the chunk where we can link our new chunk after it.
*/
-struct compute_memory_item* compute_memory_postalloc_chunk(
+struct list_head *compute_memory_postalloc_chunk(
struct compute_memory_pool* pool,
int64_t start_in_dw)
{
- struct compute_memory_item* item;
+ struct compute_memory_item *item;
+ struct compute_memory_item *next;
+ struct list_head *next_link;
COMPUTE_DBG(pool->screen, "* compute_memory_postalloc_chunck()
start_in_dw = %ld\n",
start_in_dw);
/* Check if we can insert it in the front of the list */
- if (pool->item_list && pool->item_list->start_in_dw > start_in_dw) {
- return NULL;
+ item = LIST_ENTRY(struct compute_memory_item, pool->item_list->next,
link);
+ if (LIST_IS_EMPTY(pool->item_list) || item->start_in_dw > start_in_dw) {
+ return pool->item_list;
}
- for (item = pool->item_list; item; item = item->next) {
- if (item->next) {
+ LIST_FOR_EACH_ENTRY(item, pool->item_list, link) {
+ next_link = item->link.next;
+
+ if (next_link != pool->item_list) {
+ next = container_of(next_link, item, link);
if (item->start_in_dw < start_in_dw
- && item->next->start_in_dw > start_in_dw) {
- return item;
+ && next->start_in_dw > start_in_dw) {
+ return &item->link;
}
}
else {
/* end of chain */
assert(item->start_in_dw < start_in_dw);
- return item;
+ return &item->link;
}
}
@@ -212,7 +224,6 @@ void compute_memory_shadow(struct compute_memory_pool* pool,
chunk.id = 0;
chunk.start_in_dw = 0;
chunk.size_in_dw = pool->size_in_dw;
- chunk.prev = chunk.next = NULL;
compute_memory_transfer(pool, pipe, device_to_host, &chunk,
pool->shadow, 0, pool->size_in_dw*4);
}
@@ -233,22 +244,20 @@ int compute_memory_finalize_pending(struct
compute_memory_pool* pool,
COMPUTE_DBG(pool->screen, "* compute_memory_finalize_pending()\n");
- for (item = pool->item_list; item; item = item->next) {
+ LIST_FOR_EACH_ENTRY(item, pool->item_list, link) {
COMPUTE_DBG(pool->screen, " + list: offset = %i id = %i size =
%i "
"(%i bytes)\n",item->start_in_dw, item->id,
item->size_in_dw, item->size_in_dw * 4);
}
/* Calculate the total allocated size */
- for (item = pool->item_list; item; item = next) {
- next = item->next;
+ LIST_FOR_EACH_ENTRY(item, pool->item_list, link) {
allocated += align(item->size_in_dw, ITEM_ALIGNMENT);
}
/* Calculate the total unallocated size of the items that
* will be promoted to the pool */
- for (item = pool->unallocated_list; item; item = next) {
- next = item->next;
+ LIST_FOR_EACH_ENTRY(item, pool->unallocated_list, link) {
if (item->status & ITEM_FOR_PROMOTING)
unallocated += align(item->size_in_dw, ITEM_ALIGNMENT);
}
@@ -278,9 +287,7 @@ int compute_memory_finalize_pending(struct
compute_memory_pool* pool,
/* Loop through all the unallocated items, check if they are marked
* for promoting, allocate space for them and add them to the
item_list. */
- for (item = pool->unallocated_list; item; item = next) {
- next = item->next;
-
+ LIST_FOR_EACH_ENTRY_SAFE(item, next, pool->unallocated_list, link) {
if (item->status & ITEM_FOR_PROMOTING) {
err = compute_memory_promote_item(pool, item, pipe,
allocated);
item->status ^= ITEM_FOR_PROMOTING;
@@ -305,6 +312,7 @@ int compute_memory_promote_item(struct compute_memory_pool
*pool,
struct pipe_resource *src = (struct pipe_resource *)item->real_buffer;
struct pipe_box box;
+ struct list_head *pos;
int64_t start_in_dw;
int err = 0;
@@ -334,40 +342,12 @@ int compute_memory_promote_item(struct
compute_memory_pool *pool,
item->size_in_dw, item->size_in_dw * 4);
/* Remove the item from the unallocated list */
- if (item->prev == NULL)
- pool->unallocated_list = item->next;
- else
- item->prev->next = item->next;
-
- if (item->next != NULL)
- item->next->prev = item->prev;
+ list_del(&item->link);
+ /* Add it back to the item_list */
+ pos = compute_memory_postalloc_chunk(pool, start_in_dw);
+ list_add(&item->link, pos);
item->start_in_dw = start_in_dw;
- item->next = NULL;
- item->prev = NULL;
-
- if (pool->item_list) {
- struct compute_memory_item *pos;
-
- pos = compute_memory_postalloc_chunk(pool, start_in_dw);
- if (pos) {
- item->prev = pos;
- item->next = pos->next;
- pos->next = item;
- if (item->next) {
- item->next->prev = item;
- }
- } else {
- /* Add item to the front of the list */
- item->next = pool->item_list;
- item->prev = pool->item_list->prev;
- pool->item_list->prev = item;
- pool->item_list = item;
- }
- }
- else {
- pool->item_list = item;
- }
u_box_1d(0, item->size_in_dw * 4, &box);
@@ -396,26 +376,10 @@ void compute_memory_demote_item(struct
compute_memory_pool *pool,
struct pipe_box box;
/* First, we remove the item from the item_list */
- if (item->prev == NULL)
- pool->item_list = item->next;
- else
- item->prev->next = item->next;
-
- if (item->next != NULL)
- item->next->prev = item->prev;
-
-
- /* Now we add it to the beginning of the unallocated list
- * NOTE: we could also add it to the end, but this is easier */
- item->next = NULL;
- item->prev = NULL;
- if (pool->unallocated_list) {
- item->next = pool->unallocated_list;
- item->next->prev = item;
- pool->unallocated_list = item;
- }
- else
- pool->unallocated_list = item;
+ list_del(&item->link);
+
+ /* Now we add it to the unallocated list */
+ list_addtail(&item->link, pool->unallocated_list);
/* We check if the intermediate buffer exists, and if it
* doesn't, we create it again */
@@ -446,20 +410,10 @@ void compute_memory_free(struct compute_memory_pool*
pool, int64_t id)
COMPUTE_DBG(pool->screen, "* compute_memory_free() id + %ld \n", id);
- for (item = pool->item_list; item; item = next) {
- next = item->next;
+ LIST_FOR_EACH_ENTRY_SAFE(item, next, pool->item_list, link) {
if (item->id == id) {
- if (item->prev) {
- item->prev->next = item->next;
- }
- else {
- pool->item_list = item->next;
- }
-
- if (item->next) {
- item->next->prev = item->prev;
- }
+ list_del(&item->link);
if (item->real_buffer) {
res = (struct pipe_resource *)item->real_buffer;
@@ -473,20 +427,10 @@ void compute_memory_free(struct compute_memory_pool*
pool, int64_t id)
}
}
- for (item = pool->unallocated_list; item; item = next) {
- next = item->next;
+ LIST_FOR_EACH_ENTRY_SAFE(item, next, pool->unallocated_list, link) {
if (item->id == id) {
- if (item->prev) {
- item->prev->next = item->next;
- }
- else {
- pool->unallocated_list = item->next;
- }
-
- if (item->next) {
- item->next->prev = item->prev;
- }
+ list_del(&item->link);
if (item->real_buffer) {
res = (struct pipe_resource *)item->real_buffer;
@@ -513,7 +457,7 @@ struct compute_memory_item* compute_memory_alloc(
struct compute_memory_pool* pool,
int64_t size_in_dw)
{
- struct compute_memory_item *new_item = NULL, *last_item = NULL;
+ struct compute_memory_item *new_item = NULL;
COMPUTE_DBG(pool->screen, "* compute_memory_alloc() size_in_dw = %ld
(%ld bytes)\n",
size_in_dw, 4 * size_in_dw);
@@ -530,16 +474,7 @@ struct compute_memory_item* compute_memory_alloc(
new_item->real_buffer = (struct
r600_resource*)r600_compute_buffer_alloc_vram(
pool->screen,
size_in_dw * 4);
- if (pool->unallocated_list) {
- for (last_item = pool->unallocated_list; last_item->next;
- last_item = last_item->next);
-
- last_item->next = new_item;
- new_item->prev = last_item;
- }
- else {
- pool->unallocated_list = new_item;
- }
+ list_addtail(&new_item->link, pool->unallocated_list);
COMPUTE_DBG(pool->screen, " + Adding item %p id = %u size = %u (%u
bytes)\n",
new_item, new_item->id, new_item->size_in_dw,
diff --git a/src/gallium/drivers/r600/compute_memory_pool.h
b/src/gallium/drivers/r600/compute_memory_pool.h
index 0bb695c..259474a 100644
--- a/src/gallium/drivers/r600/compute_memory_pool.h
+++ b/src/gallium/drivers/r600/compute_memory_pool.h
@@ -47,8 +47,7 @@ struct compute_memory_item
struct compute_memory_pool* pool;
- struct compute_memory_item* prev;
- struct compute_memory_item* next;
+ struct list_head link;
};
struct compute_memory_pool
@@ -57,11 +56,12 @@ struct compute_memory_pool
int64_t size_in_dw; ///Size of the pool in dwords
struct r600_resource *bo; ///The pool buffer object resource
- struct compute_memory_item* item_list; ///Allocated memory chunks in
the buffer,they must be ordered by "start_in_dw"
- struct compute_memory_item* unallocated_list; ///Unallocated memory
chunks
struct r600_screen *screen;
uint32_t *shadow; ///host copy of the pool, used for defragmentation
+
+ struct list_head *item_list; ///Allocated memory chunks in the
buffer,they must be ordered by "start_in_dw"
+ struct list_head *unallocated_list; ///Unallocated memory chunks
};
@@ -75,7 +75,7 @@ void compute_memory_pool_delete(struct compute_memory_pool*
pool); ///Frees all
int64_t compute_memory_prealloc_chunk(struct compute_memory_pool* pool,
int64_t size_in_dw); ///searches for an empty space in the pool, return with
the pointer to the allocatable space in the pool, returns -1 on failure
-struct compute_memory_item* compute_memory_postalloc_chunk(struct
compute_memory_pool* pool, int64_t start_in_dw); ///search for the chunk where
we can link our new chunk after it
+struct list_head *compute_memory_postalloc_chunk(struct compute_memory_pool*
pool, int64_t start_in_dw); ///search for the chunk where we can link our new
chunk after it
int compute_memory_grow_pool(struct compute_memory_pool* pool, struct
pipe_context * pipe,
int new_size_in_dw);
--
2.0.0
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