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gtk/gsk/gpu/gskgpuframe.c
Benjamin Otte 71161b6352 gpu: Split cache and device 
This is for 3 reasons:

1. Separation of concerns
   The device is meant to manage the Vulkan/GL device and check stuff
   like image sizes.
   Caching is not part of that.

2. Refcounting
   Images etc want to reference the device, but the cache wants to
   reference images. If the cache is the device, that's a refcycle.

3. Flexibility
   It's now easier to implement >1 cache, say one per depth or one per
   color state.
2024-07-03 19:55:15 +02:00

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#include "config.h"
#include "gskgpuframeprivate.h"
#include "gskgpubufferprivate.h"
#include "gskgpucacheprivate.h"
#include "gskgpudeviceprivate.h"
#include "gskgpudownloadopprivate.h"
#include "gskgpuimageprivate.h"
#include "gskgpunodeprocessorprivate.h"
#include "gskgpuopprivate.h"
#include "gskgpurendererprivate.h"
#include "gskgpurenderpassopprivate.h"
#include "gskgpuuploadopprivate.h"
#include "gskdebugprivate.h"
#include "gskrendererprivate.h"
#include "gdk/gdkdmabufdownloaderprivate.h"
#include "gdk/gdktexturedownloaderprivate.h"
#define DEFAULT_VERTEX_BUFFER_SIZE 128 * 1024
/* GL_MAX_UNIFORM_BLOCK_SIZE is at 16384 */
#define DEFAULT_STORAGE_BUFFER_SIZE 16 * 1024 * 64
#define GDK_ARRAY_NAME gsk_gpu_ops
#define GDK_ARRAY_TYPE_NAME GskGpuOps
#define GDK_ARRAY_ELEMENT_TYPE guchar
#define GDK_ARRAY_BY_VALUE 1
#include "gdk/gdkarrayimpl.c"
typedef struct _GskGpuFramePrivate GskGpuFramePrivate;
struct _GskGpuFramePrivate
{
GskGpuRenderer *renderer;
GskGpuDevice *device;
GskGpuOptimizations optimizations;
gint64 timestamp;
GskGpuOps ops;
GskGpuOp *first_op;
GskGpuOp *last_op;
GskGpuBuffer *vertex_buffer;
guchar *vertex_buffer_data;
gsize vertex_buffer_used;
GskGpuBuffer *storage_buffer;
guchar *storage_buffer_data;
gsize storage_buffer_used;
};
G_DEFINE_TYPE_WITH_PRIVATE (GskGpuFrame, gsk_gpu_frame, G_TYPE_OBJECT)
static void
gsk_gpu_frame_default_setup (GskGpuFrame *self)
{
}
static void
gsk_gpu_frame_default_cleanup (GskGpuFrame *self)
{
GskGpuFramePrivate *priv = gsk_gpu_frame_get_instance_private (self);
GskGpuOp *op;
gsize i;
for (i = 0; i < gsk_gpu_ops_get_size (&priv->ops); i += op->op_class->size)
{
op = (GskGpuOp *) gsk_gpu_ops_index (&priv->ops, i);
gsk_gpu_op_finish (op);
}
gsk_gpu_ops_set_size (&priv->ops, 0);
priv->last_op = NULL;
}
static void
gsk_gpu_frame_cleanup (GskGpuFrame *self)
{
GSK_GPU_FRAME_GET_CLASS (self)->cleanup (self);
}
static GskGpuImage *
gsk_gpu_frame_default_upload_texture (GskGpuFrame *self,
gboolean with_mipmap,
GdkTexture *texture)
{
GskGpuImage *image;
image = gsk_gpu_upload_texture_op_try (self, with_mipmap, texture);
if (image)
g_object_ref (image);
return image;
}
static void
gsk_gpu_frame_dispose (GObject *object)
{
GskGpuFrame *self = GSK_GPU_FRAME (object);
gsk_gpu_frame_cleanup (self);
G_OBJECT_CLASS (gsk_gpu_frame_parent_class)->dispose (object);
}
static void
gsk_gpu_frame_finalize (GObject *object)
{
GskGpuFrame *self = GSK_GPU_FRAME (object);
GskGpuFramePrivate *priv = gsk_gpu_frame_get_instance_private (self);
gsk_gpu_ops_clear (&priv->ops);
g_clear_object (&priv->vertex_buffer);
g_clear_object (&priv->storage_buffer);
g_object_unref (priv->device);
G_OBJECT_CLASS (gsk_gpu_frame_parent_class)->finalize (object);
}
static void
gsk_gpu_frame_class_init (GskGpuFrameClass *klass)
{
GObjectClass *object_class = G_OBJECT_CLASS (klass);
klass->setup = gsk_gpu_frame_default_setup;
klass->cleanup = gsk_gpu_frame_default_cleanup;
klass->upload_texture = gsk_gpu_frame_default_upload_texture;
object_class->dispose = gsk_gpu_frame_dispose;
object_class->finalize = gsk_gpu_frame_finalize;
}
static void
gsk_gpu_frame_init (GskGpuFrame *self)
{
GskGpuFramePrivate *priv = gsk_gpu_frame_get_instance_private (self);
gsk_gpu_ops_init (&priv->ops);
}
void
gsk_gpu_frame_setup (GskGpuFrame *self,
GskGpuRenderer *renderer,
GskGpuDevice *device,
GskGpuOptimizations optimizations)
{
GskGpuFramePrivate *priv = gsk_gpu_frame_get_instance_private (self);
/* no reference, the renderer owns us */
priv->renderer = renderer;
priv->device = g_object_ref (device);
priv->optimizations = optimizations;
GSK_GPU_FRAME_GET_CLASS (self)->setup (self);
}
GskGpuDevice *
gsk_gpu_frame_get_device (GskGpuFrame *self)
{
GskGpuFramePrivate *priv = gsk_gpu_frame_get_instance_private (self);
return priv->device;
}
GdkDrawContext *
gsk_gpu_frame_get_context (GskGpuFrame *self)
{
GskGpuFramePrivate *priv = gsk_gpu_frame_get_instance_private (self);
return gsk_gpu_renderer_get_context (priv->renderer);
}
gint64
gsk_gpu_frame_get_timestamp (GskGpuFrame *self)
{
GskGpuFramePrivate *priv = gsk_gpu_frame_get_instance_private (self);
return priv->timestamp;
}
gboolean
gsk_gpu_frame_should_optimize (GskGpuFrame *self,
GskGpuOptimizations optimization)
{
GskGpuFramePrivate *priv = gsk_gpu_frame_get_instance_private (self);
return (priv->optimizations & optimization) == optimization;
}
static void
gsk_gpu_frame_verbose_print (GskGpuFrame *self,
const char *heading)
{
GskGpuFramePrivate *priv = gsk_gpu_frame_get_instance_private (self);
if (GSK_RENDERER_DEBUG_CHECK (GSK_RENDERER (priv->renderer), VERBOSE))
{
GskGpuOp *op;
guint indent = 1;
GString *string = g_string_new (heading);
g_string_append (string, ":\n");
for (op = priv->first_op; op; op = op->next)
{
if (op->op_class->stage == GSK_GPU_STAGE_END_PASS)
indent--;
gsk_gpu_op_print (op, self, string, indent);
if (op->op_class->stage == GSK_GPU_STAGE_BEGIN_PASS)
indent++;
}
gdk_debug_message ("%s", string->str);
g_string_free (string, TRUE);
}
}
static void
gsk_gpu_frame_seal_ops (GskGpuFrame *self)
{
GskGpuFramePrivate *priv = gsk_gpu_frame_get_instance_private (self);
GskGpuOp *last, *op;
gsize i;
priv->first_op = (GskGpuOp *) gsk_gpu_ops_index (&priv->ops, 0);
last = priv->first_op;
for (i = last->op_class->size; i < gsk_gpu_ops_get_size (&priv->ops); i += op->op_class->size)
{
op = (GskGpuOp *) gsk_gpu_ops_index (&priv->ops, i);
last->next = op;
last = op;
}
}
typedef struct
{
struct {
GskGpuOp *first;
GskGpuOp *last;
} upload, command;
} SortData;
static GskGpuOp *
gsk_gpu_frame_sort_render_pass (GskGpuFrame *self,
GskGpuOp *op,
SortData *sort_data)
{
SortData subpasses = { { NULL, NULL }, { NULL, NULL } };
SortData pass = { { NULL, NULL }, { NULL, NULL } };
if (op->op_class->stage == GSK_GPU_STAGE_BEGIN_PASS)
{
pass.command.first = op;
pass.command.last = op;
op = op->next;
}
while (op)
{
switch (op->op_class->stage)
{
case GSK_GPU_STAGE_UPLOAD:
if (pass.upload.first == NULL)
pass.upload.first = op;
else
pass.upload.last->next = op;
pass.upload.last = op;
op = op->next;
break;
case GSK_GPU_STAGE_COMMAND:
case GSK_GPU_STAGE_SHADER:
if (pass.command.first == NULL)
pass.command.first = op;
else
pass.command.last->next = op;
pass.command.last = op;
op = op->next;
break;
case GSK_GPU_STAGE_PASS:
if (subpasses.command.first == NULL)
subpasses.command.first = op;
else
subpasses.command.last->next = op;
subpasses.command.last = op;
op = op->next;
break;
case GSK_GPU_STAGE_BEGIN_PASS:
/* append subpass to existing subpasses */
op = gsk_gpu_frame_sort_render_pass (self, op, &subpasses);
break;
case GSK_GPU_STAGE_END_PASS:
pass.command.last->next = op;
pass.command.last = op;
op = op->next;
goto out;
default:
g_assert_not_reached ();
break;
}
}
out:
/* append to the sort data, first the subpasses, then the current pass */
if (subpasses.upload.first)
{
if (sort_data->upload.first != NULL)
sort_data->upload.last->next = subpasses.upload.first;
else
sort_data->upload.first = subpasses.upload.first;
sort_data->upload.last = subpasses.upload.last;
}
if (pass.upload.first)
{
if (sort_data->upload.first != NULL)
sort_data->upload.last->next = pass.upload.first;
else
sort_data->upload.first = pass.upload.first;
sort_data->upload.last = pass.upload.last;
}
if (subpasses.command.first)
{
if (sort_data->command.first != NULL)
sort_data->command.last->next = subpasses.command.first;
else
sort_data->command.first = subpasses.command.first;
sort_data->command.last = subpasses.command.last;
}
if (pass.command.first)
{
if (sort_data->command.first != NULL)
sort_data->command.last->next = pass.command.first;
else
sort_data->command.first = pass.command.first;
sort_data->command.last = pass.command.last;
}
return op;
}
static void
gsk_gpu_frame_sort_ops (GskGpuFrame *self)
{
GskGpuFramePrivate *priv = gsk_gpu_frame_get_instance_private (self);
SortData sort_data = { { NULL, }, };
GskGpuOp *op;
op = priv->first_op;
while (op)
{
op = gsk_gpu_frame_sort_render_pass (self, op, &sort_data);
}
if (sort_data.upload.first)
{
sort_data.upload.last->next = sort_data.command.first;
priv->first_op = sort_data.upload.first;
}
else
priv->first_op = sort_data.command.first;
if (sort_data.command.last)
sort_data.command.last->next = NULL;
priv->last_op = NULL;
}
gpointer
gsk_gpu_frame_alloc_op (GskGpuFrame *self,
gsize size)
{
GskGpuFramePrivate *priv = gsk_gpu_frame_get_instance_private (self);
gsize pos;
pos = gsk_gpu_ops_get_size (&priv->ops);
gsk_gpu_ops_splice (&priv->ops,
pos,
0, FALSE,
NULL,
size);
priv->last_op = (GskGpuOp *) gsk_gpu_ops_index (&priv->ops, pos);
return priv->last_op;
}
GskGpuOp *
gsk_gpu_frame_get_last_op (GskGpuFrame *self)
{
GskGpuFramePrivate *priv = gsk_gpu_frame_get_instance_private (self);
return priv->last_op;
}
GskGpuImage *
gsk_gpu_frame_upload_texture (GskGpuFrame *self,
gboolean with_mipmap,
GdkTexture *texture)
{
GskGpuFramePrivate *priv = gsk_gpu_frame_get_instance_private (self);
GskGpuImage *image;
image = GSK_GPU_FRAME_GET_CLASS (self)->upload_texture (self, with_mipmap, texture);
if (image)
gsk_gpu_cache_cache_texture_image (gsk_gpu_device_get_cache (priv->device), texture, priv->timestamp, image);
return image;
}
GskGpuDescriptors *
gsk_gpu_frame_create_descriptors (GskGpuFrame *self)
{
return GSK_GPU_FRAME_GET_CLASS (self)->create_descriptors (self);
}
static GskGpuBuffer *
gsk_gpu_frame_create_vertex_buffer (GskGpuFrame *self,
gsize size)
{
return GSK_GPU_FRAME_GET_CLASS (self)->create_vertex_buffer (self, size);
}
static GskGpuBuffer *
gsk_gpu_frame_create_storage_buffer (GskGpuFrame *self,
gsize size)
{
return GSK_GPU_FRAME_GET_CLASS (self)->create_storage_buffer (self, size);
}
static inline gsize
round_up (gsize number, gsize divisor)
{
return (number + divisor - 1) / divisor * divisor;
}
gsize
gsk_gpu_frame_reserve_vertex_data (GskGpuFrame *self,
gsize size)
{
GskGpuFramePrivate *priv = gsk_gpu_frame_get_instance_private (self);
gsize size_needed;
if (priv->vertex_buffer == NULL)
priv->vertex_buffer = gsk_gpu_frame_create_vertex_buffer (self, DEFAULT_VERTEX_BUFFER_SIZE);
size_needed = round_up (priv->vertex_buffer_used, size) + size;
if (gsk_gpu_buffer_get_size (priv->vertex_buffer) < size_needed)
{
gsize old_size = gsk_gpu_buffer_get_size (priv->vertex_buffer);
GskGpuBuffer *new_buffer = gsk_gpu_frame_create_vertex_buffer (self, old_size * 2);
guchar *new_data = gsk_gpu_buffer_map (new_buffer);
if (priv->vertex_buffer_data)
{
memcpy (new_data, priv->vertex_buffer_data, old_size);
gsk_gpu_buffer_unmap (priv->vertex_buffer, old_size);
}
g_object_unref (priv->vertex_buffer);
priv->vertex_buffer = new_buffer;
priv->vertex_buffer_data = new_data;
}
priv->vertex_buffer_used = size_needed;
return size_needed - size;
}
guchar *
gsk_gpu_frame_get_vertex_data (GskGpuFrame *self,
gsize offset)
{
GskGpuFramePrivate *priv = gsk_gpu_frame_get_instance_private (self);
if (priv->vertex_buffer_data == NULL)
priv->vertex_buffer_data = gsk_gpu_buffer_map (priv->vertex_buffer);
return priv->vertex_buffer_data + offset;
}
static void
gsk_gpu_frame_ensure_storage_buffer (GskGpuFrame *self)
{
GskGpuFramePrivate *priv = gsk_gpu_frame_get_instance_private (self);
if (priv->storage_buffer_data != NULL)
return;
if (priv->storage_buffer == NULL)
priv->storage_buffer = gsk_gpu_frame_create_storage_buffer (self, DEFAULT_STORAGE_BUFFER_SIZE);
priv->storage_buffer_data = gsk_gpu_buffer_map (priv->storage_buffer);
}
GskGpuBuffer *
gsk_gpu_frame_write_storage_buffer (GskGpuFrame *self,
const guchar *data,
gsize size,
gsize *out_offset)
{
GskGpuFramePrivate *priv = gsk_gpu_frame_get_instance_private (self);
gsize offset;
gsk_gpu_frame_ensure_storage_buffer (self);
offset = priv->storage_buffer_used;
if (offset + size > gsk_gpu_buffer_get_size (priv->storage_buffer))
{
g_assert (offset > 0);
gsk_gpu_buffer_unmap (priv->storage_buffer, 0);
g_clear_object (&priv->storage_buffer);
priv->storage_buffer_data = 0;
priv->storage_buffer_used = 0;
gsk_gpu_frame_ensure_storage_buffer (self);
offset = priv->storage_buffer_used;
}
if (size)
{
memcpy (priv->storage_buffer_data + offset, data, size);
priv->storage_buffer_used += size;
}
*out_offset = offset;
return priv->storage_buffer;
}
gboolean
gsk_gpu_frame_is_busy (GskGpuFrame *self)
{
return GSK_GPU_FRAME_GET_CLASS (self)->is_busy (self);
}
void
gsk_gpu_frame_wait (GskGpuFrame *self)
{
GSK_GPU_FRAME_GET_CLASS (self)->wait (self);
}
static void
copy_texture (gpointer user_data,
GdkTexture *texture)
{
GdkTexture **target = (GdkTexture **) user_data;
*target = g_object_ref (texture);
}
static void
gsk_gpu_frame_record_rect (GskGpuFrame *self,
GskGpuImage *target,
const cairo_rectangle_int_t *clip,
GskRenderNode *node,
const graphene_rect_t *viewport)
{
gsk_gpu_render_pass_begin_op (self,
target,
clip,
GSK_RENDER_PASS_PRESENT);
gsk_gpu_node_processor_process (self,
target,
clip,
node,
viewport);
gsk_gpu_render_pass_end_op (self,
target,
GSK_RENDER_PASS_PRESENT);
}
static void
gsk_gpu_frame_record (GskGpuFrame *self,
gint64 timestamp,
GskGpuImage *target,
const cairo_region_t *clip,
GskRenderNode *node,
const graphene_rect_t *viewport,
GdkTexture **texture)
{
GskGpuFramePrivate *priv = gsk_gpu_frame_get_instance_private (self);
priv->timestamp = timestamp;
if (clip)
{
int i;
for (i = 0; i < cairo_region_num_rectangles (clip); i++)
{
cairo_rectangle_int_t rect;
cairo_region_get_rectangle (clip, i, &rect);
gsk_gpu_frame_record_rect (self, target, &rect, node, viewport);
}
}
else
{
gsk_gpu_frame_record_rect (self,
target,
&(cairo_rectangle_int_t) {
0, 0,
gsk_gpu_image_get_width (target),
gsk_gpu_image_get_height (target)
},
node,
viewport);
}
if (texture)
gsk_gpu_download_op (self, target, TRUE, copy_texture, texture);
}
static void
gsk_gpu_frame_submit (GskGpuFrame *self)
{
GskGpuFramePrivate *priv = gsk_gpu_frame_get_instance_private (self);
gsk_gpu_frame_seal_ops (self);
gsk_gpu_frame_verbose_print (self, "start of frame");
gsk_gpu_frame_sort_ops (self);
gsk_gpu_frame_verbose_print (self, "after sort");
if (priv->vertex_buffer)
{
gsk_gpu_buffer_unmap (priv->vertex_buffer, priv->vertex_buffer_used);
priv->vertex_buffer_data = NULL;
priv->vertex_buffer_used = 0;
}
if (priv->storage_buffer_data)
{
gsk_gpu_buffer_unmap (priv->storage_buffer, priv->storage_buffer_used);
priv->storage_buffer_data = NULL;
priv->storage_buffer_used = 0;
}
GSK_GPU_FRAME_GET_CLASS (self)->submit (self,
priv->vertex_buffer,
priv->first_op);
}
void
gsk_gpu_frame_render (GskGpuFrame *self,
gint64 timestamp,
GskGpuImage *target,
const cairo_region_t *region,
GskRenderNode *node,
const graphene_rect_t *viewport,
GdkTexture **texture)
{
gsk_gpu_frame_cleanup (self);
gsk_gpu_frame_record (self, timestamp, target, region, node, viewport, texture);
gsk_gpu_frame_submit (self);
}
typedef struct _Download Download;
struct _Download
{
GdkMemoryFormat format;
guchar *data;
gsize stride;
};
static void
do_download (gpointer user_data,
GdkTexture *texture)
{
Download *download = user_data;
GdkTextureDownloader downloader;
gdk_texture_downloader_init (&downloader, texture);
gdk_texture_downloader_set_format (&downloader, download->format);
gdk_texture_downloader_download_into (&downloader, download->data, download->stride);
gdk_texture_downloader_finish (&downloader);
g_free (download);
}
void
gsk_gpu_frame_download_texture (GskGpuFrame *self,
gint64 timestamp,
GdkTexture *texture,
GdkMemoryFormat format,
guchar *data,
gsize stride)
{
GskGpuFramePrivate *priv = gsk_gpu_frame_get_instance_private (self);
GskGpuImage *image;
image = gsk_gpu_cache_lookup_texture_image (gsk_gpu_device_get_cache (priv->device), texture, timestamp);
if (image == NULL)
image = gsk_gpu_frame_upload_texture (self, FALSE, texture);
if (image == NULL)
{
g_critical ("Could not upload texture");
return;
}
gsk_gpu_frame_cleanup (self);
priv->timestamp = timestamp;
gsk_gpu_download_op (self,
image,
FALSE,
do_download,
g_memdup (&(Download) {
.format = format,
.data = data,
.stride = stride
}, sizeof (Download)));
gsk_gpu_frame_submit (self);
g_object_unref (image);
}
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