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radv: make use of shared vector helper.

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This removes the vector code from radv in favour of sharing
code with anv.

Acked-by: Jason Ekstrand <jason@jlekstrand.net>
Signed-off-by: Dave Airlie <airlied@redhat.com>
This commit is contained in:
Dave Airlie
2016-10-14 12:59:55 +10:00
parent 8df014c01a
commit f5daaba0fd
3 changed files with 8 additions and 135 deletions
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53
src/amd/vulkan/radv_private.h
View File

@@ -238,59 +238,6 @@ void radv_abortfv(const char *format, va_list va) radv_noreturn;
return; \ return; \
} while (0) } while (0)
/**
* A dynamically growable, circular buffer. Elements are added at head and
* removed from tail. head and tail are free-running uint32_t indices and we
* only compute the modulo with size when accessing the array. This way,
* number of bytes in the queue is always head - tail, even in case of
* wraparound.
*/
struct radv_vector {
uint32_t head;
uint32_t tail;
uint32_t element_size;
uint32_t size;
void *data;
};
int radv_vector_init(struct radv_vector *queue, uint32_t element_size, uint32_t size);
void *radv_vector_add(struct radv_vector *queue);
void *radv_vector_remove(struct radv_vector *queue);
static inline int
radv_vector_length(struct radv_vector *queue)
{
return (queue->head - queue->tail) / queue->element_size;
}
static inline void *
radv_vector_head(struct radv_vector *vector)
{
assert(vector->tail < vector->head);
return (void *)((char *)vector->data +
((vector->head - vector->element_size) &
(vector->size - 1)));
}
static inline void *
radv_vector_tail(struct radv_vector *vector)
{
return (void *)((char *)vector->data + (vector->tail & (vector->size - 1)));
}
static inline void
radv_vector_finish(struct radv_vector *queue)
{
free(queue->data);
}
#define radv_vector_foreach(elem, queue) \
static_assert(__builtin_types_compatible_p(__typeof__(queue), struct radv_vector *), ""); \
for (uint32_t __radv_vector_offset = (queue)->tail; \
elem = (queue)->data + (__radv_vector_offset & ((queue)->size - 1)), __radv_vector_offset < (queue)->head; \
__radv_vector_offset += (queue)->element_size)
void *radv_resolve_entrypoint(uint32_t index); void *radv_resolve_entrypoint(uint32_t index);
void *radv_lookup_entrypoint(const char *name); void *radv_lookup_entrypoint(const char *name);

74
src/amd/vulkan/radv_util.c
View File

@@ -128,77 +128,3 @@ __vk_errorf(VkResult error, const char *file, int line, const char *format, ...)
return error; return error;
} }
int
radv_vector_init(struct radv_vector *vector, uint32_t element_size, uint32_t size)
{
assert(util_is_power_of_two(size));
assert(element_size < size && util_is_power_of_two(element_size));
vector->head = 0;
vector->tail = 0;
vector->element_size = element_size;
vector->size = size;
vector->data = malloc(size);
return vector->data != NULL;
}
void *
radv_vector_add(struct radv_vector *vector)
{
uint32_t offset, size, split, src_tail, dst_tail;
void *data;
if (vector->head - vector->tail == vector->size) {
size = vector->size * 2;
data = malloc(size);
if (data == NULL)
return NULL;
src_tail = vector->tail & (vector->size - 1);
dst_tail = vector->tail & (size - 1);
if (src_tail == 0) {
/* Since we know that the vector is full, this means that it's
* linear from start to end so we can do one copy.
*/
memcpy(data + dst_tail, vector->data, vector->size);
} else {
/* In this case, the vector is split into two pieces and we have
* to do two copies. We have to be careful to make sure each
* piece goes to the right locations. Thanks to the change in
* size, it may or may not still wrap around.
*/
split = align_u32(vector->tail, vector->size);
assert(vector->tail <= split && split < vector->head);
memcpy(data + dst_tail, vector->data + src_tail,
split - vector->tail);
memcpy(data + (split & (size - 1)), vector->data,
vector->head - split);
}
free(vector->data);
vector->data = data;
vector->size = size;
}
assert(vector->head - vector->tail < vector->size);
offset = vector->head & (vector->size - 1);
vector->head += vector->element_size;
return vector->data + offset;
}
void *
radv_vector_remove(struct radv_vector *vector)
{
uint32_t offset;
if (vector->head == vector->tail)
return NULL;
assert(vector->head - vector->tail <= vector->size);
offset = vector->tail & (vector->size - 1);
vector->tail += vector->element_size;
return vector->data + offset;
}

16
src/amd/vulkan/radv_wsi_wayland.c
View File

@@ -30,7 +30,7 @@
#include "vk_format.h" #include "vk_format.h"
#include <util/hash_table.h> #include <util/hash_table.h>
#include <util/u_vector.h>
#define MIN_NUM_IMAGES 2 #define MIN_NUM_IMAGES 2
struct wsi_wl_display { struct wsi_wl_display {
@@ -39,7 +39,7 @@ struct wsi_wl_display {
struct wl_drm * drm; struct wl_drm * drm;
/* Vector of VkFormats supported */ /* Vector of VkFormats supported */
struct radv_vector formats; struct u_vector formats;
uint32_t capabilities; uint32_t capabilities;
}; };
@@ -59,7 +59,7 @@ wsi_wl_display_add_vk_format(struct wsi_wl_display *display, VkFormat format)
{ {
/* Don't add a format that's already in the list */ /* Don't add a format that's already in the list */
VkFormat *f; VkFormat *f;
radv_vector_foreach(f, &display->formats) u_vector_foreach(f, &display->formats)
if (*f == format) if (*f == format)
return; return;
@@ -70,7 +70,7 @@ wsi_wl_display_add_vk_format(struct wsi_wl_display *display, VkFormat format)
if (!(props.optimalTilingFeatures & VK_FORMAT_FEATURE_COLOR_ATTACHMENT_BIT)) if (!(props.optimalTilingFeatures & VK_FORMAT_FEATURE_COLOR_ATTACHMENT_BIT))
return; return;
f = radv_vector_add(&display->formats); f = u_vector_add(&display->formats);
if (f) if (f)
*f = format; *f = format;
} }
@@ -228,7 +228,7 @@ static const struct wl_registry_listener registry_listener = {
static void static void
wsi_wl_display_destroy(struct wsi_wayland *wsi, struct wsi_wl_display *display) wsi_wl_display_destroy(struct wsi_wayland *wsi, struct wsi_wl_display *display)
{ {
radv_vector_finish(&display->formats); u_vector_finish(&display->formats);
if (display->drm) if (display->drm)
wl_drm_destroy(display->drm); wl_drm_destroy(display->drm);
radv_free(&wsi->physical_device->instance->alloc, display); radv_free(&wsi->physical_device->instance->alloc, display);
@@ -248,7 +248,7 @@ wsi_wl_display_create(struct wsi_wayland *wsi, struct wl_display *wl_display)
display->display = wl_display; display->display = wl_display;
display->physical_device = wsi->physical_device; display->physical_device = wsi->physical_device;
if (!radv_vector_init(&display->formats, sizeof(VkFormat), 8)) if (!u_vector_init(&display->formats, sizeof(VkFormat), 8))
goto fail; goto fail;
struct wl_registry *registry = wl_display_get_registry(wl_display); struct wl_registry *registry = wl_display_get_registry(wl_display);
@@ -381,7 +381,7 @@ wsi_wl_surface_get_formats(VkIcdSurfaceBase *icd_surface,
struct wsi_wl_display *display = struct wsi_wl_display *display =
wsi_wl_get_display(device, surface->display); wsi_wl_get_display(device, surface->display);
uint32_t count = radv_vector_length(&display->formats); uint32_t count = u_vector_length(&display->formats);
if (pSurfaceFormats == NULL) { if (pSurfaceFormats == NULL) {
*pSurfaceFormatCount = count; *pSurfaceFormatCount = count;
@@ -392,7 +392,7 @@ wsi_wl_surface_get_formats(VkIcdSurfaceBase *icd_surface,
*pSurfaceFormatCount = count; *pSurfaceFormatCount = count;
VkFormat *f; VkFormat *f;
radv_vector_foreach(f, &display->formats) { u_vector_foreach(f, &display->formats) {
*(pSurfaceFormats++) = (VkSurfaceFormatKHR) { *(pSurfaceFormats++) = (VkSurfaceFormatKHR) {
.format = *f, .format = *f,
/* TODO: We should get this from the compositor somehow */ /* TODO: We should get this from the compositor somehow */