gtk/gsk/gpu/gskgpushaderop.c
Benjamin Otte d2229e2aed gpu: Add GskVulkanPipelineLayout
This allows having different layouts sothat we can support immutable
samplers, whcih are required for multiplane and YUV formats.

We don't use them yet.
2024-01-07 07:22:51 +01:00

173 lines
5.3 KiB
C

#include "config.h"
#include "gskgpushaderopprivate.h"
#include "gskgpuframeprivate.h"
#include "gskgldescriptorsprivate.h"
#include "gskgldeviceprivate.h"
#include "gskglframeprivate.h"
#include "gskglimageprivate.h"
#ifdef GDK_RENDERING_VULKAN
#include "gskvulkandescriptorsprivate.h"
#include "gskvulkandeviceprivate.h"
#endif
/* maximum number of ops to merge into one call
* If this number is too high, the command may take too long
* causing the driver to kill us.
*/
#define MAX_MERGE_OPS (10 * 1000)
void
gsk_gpu_shader_op_finish (GskGpuOp *op)
{
GskGpuShaderOp *self = (GskGpuShaderOp *) op;
g_clear_object (&self->desc);
}
#ifdef GDK_RENDERING_VULKAN
GskGpuOp *
gsk_gpu_shader_op_vk_command_n (GskGpuOp *op,
GskGpuFrame *frame,
VkRenderPass render_pass,
VkFormat format,
VkCommandBuffer command_buffer,
gsize instance_scale)
{
GskGpuShaderOp *self = (GskGpuShaderOp *) op;
GskGpuShaderOpClass *shader_op_class = (GskGpuShaderOpClass *) op->op_class;
GskGpuOp *next;
gsize i, n;
if (gsk_gpu_frame_should_optimize (frame, GSK_GPU_OPTIMIZE_MERGE))
n = MAX_MERGE_OPS;
else
n = 1;
i = 1;
for (next = op->next; next && i < n; next = next->next)
{
GskGpuShaderOp *next_shader = (GskGpuShaderOp *) next;
if (next->op_class != op->op_class ||
next_shader->vertex_offset != self->vertex_offset + i * shader_op_class->vertex_size)
break;
i++;
}
vkCmdBindPipeline (command_buffer,
VK_PIPELINE_BIND_POINT_GRAPHICS,
gsk_vulkan_device_get_vk_pipeline (GSK_VULKAN_DEVICE (gsk_gpu_frame_get_device (frame)),
gsk_vulkan_frame_get_pipeline_layout (GSK_VULKAN_FRAME (frame)),
shader_op_class,
self->clip,
format,
render_pass));
vkCmdDraw (command_buffer,
6 * instance_scale, i,
0, self->vertex_offset / shader_op_class->vertex_size);
return next;
}
GskGpuOp *
gsk_gpu_shader_op_vk_command (GskGpuOp *op,
GskGpuFrame *frame,
VkRenderPass render_pass,
VkFormat format,
VkCommandBuffer command_buffer)
{
return gsk_gpu_shader_op_vk_command_n (op, frame, render_pass, format, command_buffer, 1);
}
#endif
GskGpuOp *
gsk_gpu_shader_op_gl_command_n (GskGpuOp *op,
GskGpuFrame *frame,
gsize flip_y,
gsize instance_scale)
{
GskGpuShaderOp *self = (GskGpuShaderOp *) op;
GskGpuShaderOpClass *shader_op_class = (GskGpuShaderOpClass *) op->op_class;
GskGpuOp *next;
gsize i, n;
gsk_gl_frame_use_program (GSK_GL_FRAME (frame),
shader_op_class,
self->clip);
if (self->desc)
gsk_gl_descriptors_use (GSK_GL_DESCRIPTORS (self->desc));
if (gsk_gpu_frame_should_optimize (frame, GSK_GPU_OPTIMIZE_MERGE))
n = MAX_MERGE_OPS;
else
n = 1;
i = 1;
for (next = op->next; next && i < n; next = next->next)
{
GskGpuShaderOp *next_shader = (GskGpuShaderOp *) next;
if (next->op_class != op->op_class ||
next_shader->desc != self->desc ||
next_shader->vertex_offset != self->vertex_offset + i * shader_op_class->vertex_size)
break;
i++;
}
if (gsk_gpu_frame_should_optimize (frame, GSK_GPU_OPTIMIZE_GL_BASE_INSTANCE))
{
glDrawArraysInstancedBaseInstance (GL_TRIANGLES,
0,
6 * instance_scale,
i,
self->vertex_offset / shader_op_class->vertex_size);
}
else
{
shader_op_class->setup_vao (self->vertex_offset);
glDrawArraysInstanced (GL_TRIANGLES,
0,
6 * instance_scale,
i);
}
return next;
}
GskGpuOp *
gsk_gpu_shader_op_gl_command (GskGpuOp *op,
GskGpuFrame *frame,
gsize flip_y)
{
return gsk_gpu_shader_op_gl_command_n (op, frame, flip_y, 1);
}
GskGpuShaderOp *
gsk_gpu_shader_op_alloc (GskGpuFrame *frame,
const GskGpuShaderOpClass *op_class,
GskGpuShaderClip clip,
GskGpuDescriptors *desc,
gpointer out_vertex_data)
{
GskGpuShaderOp *self;
self = (GskGpuShaderOp *) gsk_gpu_op_alloc (frame, &op_class->parent_class);
self->clip = clip;
if (desc)
self->desc = g_object_ref (desc);
else
self->desc = NULL;
self->vertex_offset = gsk_gpu_frame_reserve_vertex_data (frame, op_class->vertex_size);
*((gpointer *) out_vertex_data) = gsk_gpu_frame_get_vertex_data (frame, self->vertex_offset);
return self;
}