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|
/*
* Copyright © 2016 Intel Corporation
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice (including the next
* paragraph) shall be included in all copies or substantial portions of the
* Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
* IN THE SOFTWARE.
*/
#include "anv_meta.h"
#include "nir/nir_builder.h"
static VkFormat
vk_format_for_size(int bs)
{
/* The choice of UNORM and UINT formats is very intentional here. Most of
* the time, we want to use a UINT format to avoid any rounding error in
* the blit. For stencil blits, R8_UINT is required by the hardware.
* (It's the only format allowed in conjunction with W-tiling.) Also we
* intentionally use the 4-channel formats whenever we can. This is so
* that, when we do a RGB <-> RGBX copy, the two formats will line up even
* though one of them is 3/4 the size of the other. The choice of UNORM
* vs. UINT is also very intentional because Haswell doesn't handle 8 or
* 16-bit RGB UINT formats at all so we have to use UNORM there.
* Fortunately, the only time we should ever use two different formats in
* the table below is for RGB -> RGBA blits and so we will never have any
* UNORM/UINT mismatch.
*/
switch (bs) {
case 1: return VK_FORMAT_R8_UINT;
case 2: return VK_FORMAT_R8G8_UINT;
case 3: return VK_FORMAT_R8G8B8_UNORM;
case 4: return VK_FORMAT_R8G8B8A8_UNORM;
case 6: return VK_FORMAT_R16G16B16_UNORM;
case 8: return VK_FORMAT_R16G16B16A16_UNORM;
case 12: return VK_FORMAT_R32G32B32_UINT;
case 16: return VK_FORMAT_R32G32B32A32_UINT;
default:
unreachable("Invalid format block size");
}
}
static void
create_iview(struct anv_cmd_buffer *cmd_buffer,
struct anv_meta_blit2d_surf *surf,
struct anv_meta_blit2d_rect *rect,
VkImageUsageFlags usage,
VkImage *img,
struct anv_image_view *iview)
{
struct isl_tile_info tile_info;
isl_tiling_get_info(&cmd_buffer->device->isl_dev,
surf->tiling, surf->bs, &tile_info);
const unsigned tile_width_px = tile_info.width > surf->bs ?
tile_info.width / surf->bs : 1;
uint32_t *rect_y = (usage == VK_IMAGE_USAGE_SAMPLED_BIT) ?
&rect->src_y : &rect->dst_y;
uint32_t *rect_x = (usage == VK_IMAGE_USAGE_SAMPLED_BIT) ?
&rect->src_x : &rect->dst_x;
/* Define the shared state among all created image views */
const VkImageCreateInfo image_info = {
.sType = VK_STRUCTURE_TYPE_IMAGE_CREATE_INFO,
.imageType = VK_IMAGE_TYPE_2D,
.format = vk_format_for_size(surf->bs),
.extent = {
.width = rect->width + (*rect_x) % tile_width_px,
.height = rect->height + (*rect_y) % tile_info.height,
.depth = 1,
},
.mipLevels = 1,
.arrayLayers = 1,
.samples = 1,
.tiling = surf->tiling == ISL_TILING_LINEAR ?
VK_IMAGE_TILING_LINEAR : VK_IMAGE_TILING_OPTIMAL,
.usage = usage,
};
/* Create the VkImage that is bound to the surface's memory. */
anv_image_create(anv_device_to_handle(cmd_buffer->device),
&(struct anv_image_create_info) {
.vk_info = &image_info,
.isl_tiling_flags = 1 << surf->tiling,
.stride = surf->pitch,
}, &cmd_buffer->pool->alloc, img);
/* We could use a vk call to bind memory, but that would require
* creating a dummy memory object etc. so there's really no point.
*/
anv_image_from_handle(*img)->bo = surf->bo;
anv_image_from_handle(*img)->offset = surf->base_offset;
/* Create a VkImageView that starts at the tile aligned offset closest
* to the provided x/y offset into the surface.
*/
uint32_t img_o = 0;
isl_surf_get_image_intratile_offset_el_xy(&cmd_buffer->device->isl_dev,
&anv_image_from_handle(*img)->
color_surface.isl,
*rect_x, *rect_y,
&img_o, rect_x, rect_y);
anv_image_view_init(iview, cmd_buffer->device,
&(VkImageViewCreateInfo) {
.sType = VK_STRUCTURE_TYPE_IMAGE_VIEW_CREATE_INFO,
.image = *img,
.viewType = VK_IMAGE_VIEW_TYPE_2D,
.format = image_info.format,
.subresourceRange = {
.aspectMask = VK_IMAGE_ASPECT_COLOR_BIT,
.baseMipLevel = 0,
.levelCount = 1,
.baseArrayLayer = 0,
.layerCount = 1
},
}, cmd_buffer, img_o, usage);
}
struct blit2d_src_temps {
VkImage image;
struct anv_image_view iview;
VkDescriptorPool desc_pool;
VkDescriptorSet set;
};
static void
blit2d_bind_src(struct anv_cmd_buffer *cmd_buffer,
struct anv_meta_blit2d_surf *src,
struct anv_meta_blit2d_rect *rect,
struct blit2d_src_temps *tmp)
{
struct anv_device *device = cmd_buffer->device;
VkDevice vk_device = anv_device_to_handle(cmd_buffer->device);
create_iview(cmd_buffer, src, rect, VK_IMAGE_USAGE_SAMPLED_BIT,
&tmp->image, &tmp->iview);
anv_CreateDescriptorPool(vk_device,
&(const VkDescriptorPoolCreateInfo) {
.sType = VK_STRUCTURE_TYPE_DESCRIPTOR_POOL_CREATE_INFO,
.pNext = NULL,
.flags = 0,
.maxSets = 1,
.poolSizeCount = 1,
.pPoolSizes = (VkDescriptorPoolSize[]) {
{
.type = VK_DESCRIPTOR_TYPE_SAMPLED_IMAGE,
.descriptorCount = 1
},
}
}, &cmd_buffer->pool->alloc, &tmp->desc_pool);
anv_AllocateDescriptorSets(vk_device,
&(VkDescriptorSetAllocateInfo) {
.sType = VK_STRUCTURE_TYPE_DESCRIPTOR_SET_ALLOCATE_INFO,
.descriptorPool = tmp->desc_pool,
.descriptorSetCount = 1,
.pSetLayouts = &device->meta_state.blit2d.img_ds_layout
}, &tmp->set);
anv_UpdateDescriptorSets(vk_device,
1, /* writeCount */
(VkWriteDescriptorSet[]) {
{
.sType = VK_STRUCTURE_TYPE_WRITE_DESCRIPTOR_SET,
.dstSet = tmp->set,
.dstBinding = 0,
.dstArrayElement = 0,
.descriptorCount = 1,
.descriptorType = VK_DESCRIPTOR_TYPE_SAMPLED_IMAGE,
.pImageInfo = (VkDescriptorImageInfo[]) {
{
.sampler = NULL,
.imageView = anv_image_view_to_handle(&tmp->iview),
.imageLayout = VK_IMAGE_LAYOUT_GENERAL,
},
}
}
}, 0, NULL);
anv_CmdBindDescriptorSets(anv_cmd_buffer_to_handle(cmd_buffer),
VK_PIPELINE_BIND_POINT_GRAPHICS,
device->meta_state.blit2d.img_p_layout, 0, 1,
&tmp->set, 0, NULL);
}
static void
blit2d_unbind_src(struct anv_cmd_buffer *cmd_buffer,
struct blit2d_src_temps *tmp)
{
anv_DestroyDescriptorPool(anv_device_to_handle(cmd_buffer->device),
tmp->desc_pool, &cmd_buffer->pool->alloc);
anv_DestroyImage(anv_device_to_handle(cmd_buffer->device),
tmp->image, &cmd_buffer->pool->alloc);
}
void
anv_meta_end_blit2d(struct anv_cmd_buffer *cmd_buffer,
struct anv_meta_saved_state *save)
{
anv_meta_restore(save, cmd_buffer);
}
void
anv_meta_begin_blit2d(struct anv_cmd_buffer *cmd_buffer,
struct anv_meta_saved_state *save)
{
anv_meta_save(save, cmd_buffer,
(1 << VK_DYNAMIC_STATE_VIEWPORT));
}
void
anv_meta_blit2d(struct anv_cmd_buffer *cmd_buffer,
struct anv_meta_blit2d_surf *src,
struct anv_meta_blit2d_surf *dst,
unsigned num_rects,
struct anv_meta_blit2d_rect *rects)
{
struct anv_device *device = cmd_buffer->device;
VkDevice vk_device = anv_device_to_handle(cmd_buffer->device);
VkImageUsageFlags dst_usage = VK_IMAGE_USAGE_COLOR_ATTACHMENT_BIT;
for (unsigned r = 0; r < num_rects; ++r) {
struct blit2d_src_temps src_temps;
blit2d_bind_src(cmd_buffer, src, &rects[r], &src_temps);
VkImage dst_img;
struct anv_image_view dst_iview;
create_iview(cmd_buffer, dst, &rects[r], dst_usage, &dst_img, &dst_iview);
struct blit_vb_data {
float pos[2];
float tex_coord[3];
} *vb_data;
unsigned vb_size = sizeof(struct anv_vue_header) + 3 * sizeof(*vb_data);
struct anv_state vb_state =
anv_cmd_buffer_alloc_dynamic_state(cmd_buffer, vb_size, 16);
memset(vb_state.map, 0, sizeof(struct anv_vue_header));
vb_data = vb_state.map + sizeof(struct anv_vue_header);
vb_data[0] = (struct blit_vb_data) {
.pos = {
rects[r].dst_x + rects[r].width,
rects[r].dst_y + rects[r].height,
},
.tex_coord = {
rects[r].src_x + rects[r].width,
rects[r].src_y + rects[r].height,
src->pitch,
},
};
vb_data[1] = (struct blit_vb_data) {
.pos = {
rects[r].dst_x,
rects[r].dst_y + rects[r].height,
},
.tex_coord = {
rects[r].src_x,
rects[r].src_y + rects[r].height,
src->pitch,
},
};
vb_data[2] = (struct blit_vb_data) {
.pos = {
rects[r].dst_x,
rects[r].dst_y,
},
.tex_coord = {
rects[r].src_x,
rects[r].src_y,
src->pitch,
},
};
anv_state_clflush(vb_state);
struct anv_buffer vertex_buffer = {
.device = device,
.size = vb_size,
.bo = &device->dynamic_state_block_pool.bo,
.offset = vb_state.offset,
};
anv_CmdBindVertexBuffers(anv_cmd_buffer_to_handle(cmd_buffer), 0, 2,
(VkBuffer[]) {
anv_buffer_to_handle(&vertex_buffer),
anv_buffer_to_handle(&vertex_buffer)
},
(VkDeviceSize[]) {
0,
sizeof(struct anv_vue_header),
});
VkFramebuffer fb;
anv_CreateFramebuffer(vk_device,
&(VkFramebufferCreateInfo) {
.sType = VK_STRUCTURE_TYPE_FRAMEBUFFER_CREATE_INFO,
.attachmentCount = 1,
.pAttachments = (VkImageView[]) {
anv_image_view_to_handle(&dst_iview),
},
.width = dst_iview.extent.width,
.height = dst_iview.extent.height,
.layers = 1
}, &cmd_buffer->pool->alloc, &fb);
ANV_CALL(CmdBeginRenderPass)(anv_cmd_buffer_to_handle(cmd_buffer),
&(VkRenderPassBeginInfo) {
.sType = VK_STRUCTURE_TYPE_RENDER_PASS_BEGIN_INFO,
.renderPass = device->meta_state.blit2d.render_pass,
.framebuffer = fb,
.renderArea = {
.offset = { rects[r].dst_x, rects[r].dst_y, },
.extent = { rects[r].width, rects[r].height },
},
.clearValueCount = 0,
.pClearValues = NULL,
}, VK_SUBPASS_CONTENTS_INLINE);
VkPipeline pipeline = device->meta_state.blit2d.pipeline_2d_src;
if (cmd_buffer->state.pipeline != anv_pipeline_from_handle(pipeline)) {
anv_CmdBindPipeline(anv_cmd_buffer_to_handle(cmd_buffer),
VK_PIPELINE_BIND_POINT_GRAPHICS, pipeline);
}
anv_CmdSetViewport(anv_cmd_buffer_to_handle(cmd_buffer), 0, 1,
&(VkViewport) {
.x = 0.0f,
.y = 0.0f,
.width = dst_iview.extent.width,
.height = dst_iview.extent.height,
.minDepth = 0.0f,
.maxDepth = 1.0f,
});
ANV_CALL(CmdDraw)(anv_cmd_buffer_to_handle(cmd_buffer), 3, 1, 0, 0);
ANV_CALL(CmdEndRenderPass)(anv_cmd_buffer_to_handle(cmd_buffer));
/* At the point where we emit the draw call, all data from the
* descriptor sets, etc. has been used. We are free to delete it.
*/
blit2d_unbind_src(cmd_buffer, &src_temps);
anv_DestroyFramebuffer(vk_device, fb, &cmd_buffer->pool->alloc);
anv_DestroyImage(vk_device, dst_img, &cmd_buffer->pool->alloc);
}
}
static nir_shader *
build_nir_vertex_shader(void)
{
const struct glsl_type *vec4 = glsl_vec4_type();
nir_builder b;
nir_builder_init_simple_shader(&b, NULL, MESA_SHADER_VERTEX, NULL);
b.shader->info.name = ralloc_strdup(b.shader, "meta_blit_vs");
nir_variable *pos_in = nir_variable_create(b.shader, nir_var_shader_in,
vec4, "a_pos");
pos_in->data.location = VERT_ATTRIB_GENERIC0;
nir_variable *pos_out = nir_variable_create(b.shader, nir_var_shader_out,
vec4, "gl_Position");
pos_out->data.location = VARYING_SLOT_POS;
nir_copy_var(&b, pos_out, pos_in);
nir_variable *tex_pos_in = nir_variable_create(b.shader, nir_var_shader_in,
vec4, "a_tex_pos");
tex_pos_in->data.location = VERT_ATTRIB_GENERIC1;
nir_variable *tex_pos_out = nir_variable_create(b.shader, nir_var_shader_out,
vec4, "v_tex_pos");
tex_pos_out->data.location = VARYING_SLOT_VAR0;
tex_pos_out->data.interpolation = INTERP_QUALIFIER_SMOOTH;
nir_copy_var(&b, tex_pos_out, tex_pos_in);
return b.shader;
}
typedef nir_ssa_def* (*texel_fetch_build_func)(struct nir_builder *,
struct anv_device *,
nir_ssa_def *, nir_ssa_def *);
static nir_ssa_def *
build_nir_texel_fetch(struct nir_builder *b, struct anv_device *device,
nir_ssa_def *tex_pos, nir_ssa_def *tex_pitch)
{
const struct glsl_type *sampler_type =
glsl_sampler_type(GLSL_SAMPLER_DIM_2D, false, false, GLSL_TYPE_FLOAT);
nir_variable *sampler = nir_variable_create(b->shader, nir_var_uniform,
sampler_type, "s_tex");
sampler->data.descriptor_set = 0;
sampler->data.binding = 0;
nir_tex_instr *tex = nir_tex_instr_create(b->shader, 2);
tex->sampler_dim = GLSL_SAMPLER_DIM_2D;
tex->op = nir_texop_txf;
tex->src[0].src_type = nir_tex_src_coord;
tex->src[0].src = nir_src_for_ssa(tex_pos);
tex->src[1].src_type = nir_tex_src_lod;
tex->src[1].src = nir_src_for_ssa(nir_imm_int(b, 0));
tex->dest_type = nir_type_float; /* TODO */
tex->is_array = false;
tex->coord_components = 2;
tex->texture = nir_deref_var_create(tex, sampler);
tex->sampler = NULL;
nir_ssa_dest_init(&tex->instr, &tex->dest, 4, 32, "tex");
nir_builder_instr_insert(b, &tex->instr);
return &tex->dest.ssa;
}
static nir_shader *
build_nir_copy_fragment_shader(struct anv_device *device,
texel_fetch_build_func txf_func)
{
const struct glsl_type *vec4 = glsl_vec4_type();
const struct glsl_type *vec3 = glsl_vector_type(GLSL_TYPE_FLOAT, 3);
nir_builder b;
nir_builder_init_simple_shader(&b, NULL, MESA_SHADER_FRAGMENT, NULL);
b.shader->info.name = ralloc_strdup(b.shader, "meta_blit2d_fs");
nir_variable *tex_pos_in = nir_variable_create(b.shader, nir_var_shader_in,
vec3, "v_tex_pos");
tex_pos_in->data.location = VARYING_SLOT_VAR0;
nir_variable *color_out = nir_variable_create(b.shader, nir_var_shader_out,
vec4, "f_color");
color_out->data.location = FRAG_RESULT_DATA0;
nir_ssa_def *pos_int = nir_f2i(&b, nir_load_var(&b, tex_pos_in));
unsigned swiz[4] = { 0, 1 };
nir_ssa_def *tex_pos = nir_swizzle(&b, pos_int, swiz, 2, false);
nir_ssa_def *tex_pitch = nir_channel(&b, pos_int, 2);
nir_ssa_def *color = txf_func(&b, device, tex_pos, tex_pitch);
nir_store_var(&b, color_out, color, 0xf);
return b.shader;
}
void
anv_device_finish_meta_blit2d_state(struct anv_device *device)
{
if (device->meta_state.blit2d.render_pass) {
anv_DestroyRenderPass(anv_device_to_handle(device),
device->meta_state.blit2d.render_pass,
&device->meta_state.alloc);
}
if (device->meta_state.blit2d.pipeline_2d_src) {
anv_DestroyPipeline(anv_device_to_handle(device),
device->meta_state.blit2d.pipeline_2d_src,
&device->meta_state.alloc);
}
if (device->meta_state.blit2d.img_p_layout) {
anv_DestroyPipelineLayout(anv_device_to_handle(device),
device->meta_state.blit2d.img_p_layout,
&device->meta_state.alloc);
}
if (device->meta_state.blit2d.img_ds_layout) {
anv_DestroyDescriptorSetLayout(anv_device_to_handle(device),
device->meta_state.blit2d.img_ds_layout,
&device->meta_state.alloc);
}
if (device->meta_state.blit2d.buf_p_layout) {
anv_DestroyPipelineLayout(anv_device_to_handle(device),
device->meta_state.blit2d.buf_p_layout,
&device->meta_state.alloc);
}
if (device->meta_state.blit2d.buf_ds_layout) {
anv_DestroyDescriptorSetLayout(anv_device_to_handle(device),
device->meta_state.blit2d.buf_ds_layout,
&device->meta_state.alloc);
}
}
VkResult
anv_device_init_meta_blit2d_state(struct anv_device *device)
{
VkResult result;
zero(device->meta_state.blit2d);
result = anv_CreateRenderPass(anv_device_to_handle(device),
&(VkRenderPassCreateInfo) {
.sType = VK_STRUCTURE_TYPE_RENDER_PASS_CREATE_INFO,
.attachmentCount = 1,
.pAttachments = &(VkAttachmentDescription) {
.format = VK_FORMAT_UNDEFINED, /* Our shaders don't care */
.loadOp = VK_ATTACHMENT_LOAD_OP_LOAD,
.storeOp = VK_ATTACHMENT_STORE_OP_STORE,
.initialLayout = VK_IMAGE_LAYOUT_GENERAL,
.finalLayout = VK_IMAGE_LAYOUT_GENERAL,
},
.subpassCount = 1,
.pSubpasses = &(VkSubpassDescription) {
.pipelineBindPoint = VK_PIPELINE_BIND_POINT_GRAPHICS,
.inputAttachmentCount = 0,
.colorAttachmentCount = 1,
.pColorAttachments = &(VkAttachmentReference) {
.attachment = 0,
.layout = VK_IMAGE_LAYOUT_GENERAL,
},
.pResolveAttachments = NULL,
.pDepthStencilAttachment = &(VkAttachmentReference) {
.attachment = VK_ATTACHMENT_UNUSED,
.layout = VK_IMAGE_LAYOUT_GENERAL,
},
.preserveAttachmentCount = 1,
.pPreserveAttachments = (uint32_t[]) { 0 },
},
.dependencyCount = 0,
}, &device->meta_state.alloc, &device->meta_state.blit2d.render_pass);
if (result != VK_SUCCESS)
goto fail;
result = anv_CreateDescriptorSetLayout(anv_device_to_handle(device),
&(VkDescriptorSetLayoutCreateInfo) {
.sType = VK_STRUCTURE_TYPE_DESCRIPTOR_SET_LAYOUT_CREATE_INFO,
.bindingCount = 1,
.pBindings = (VkDescriptorSetLayoutBinding[]) {
{
.binding = 0,
.descriptorType = VK_DESCRIPTOR_TYPE_SAMPLED_IMAGE,
.descriptorCount = 1,
.stageFlags = VK_SHADER_STAGE_FRAGMENT_BIT,
.pImmutableSamplers = NULL
},
}
}, &device->meta_state.alloc, &device->meta_state.blit2d.img_ds_layout);
if (result != VK_SUCCESS)
goto fail;
result = anv_CreatePipelineLayout(anv_device_to_handle(device),
&(VkPipelineLayoutCreateInfo) {
.sType = VK_STRUCTURE_TYPE_PIPELINE_LAYOUT_CREATE_INFO,
.setLayoutCount = 1,
.pSetLayouts = &device->meta_state.blit2d.img_ds_layout,
},
&device->meta_state.alloc, &device->meta_state.blit2d.img_p_layout);
if (result != VK_SUCCESS)
goto fail;
result = anv_CreateDescriptorSetLayout(anv_device_to_handle(device),
&(VkDescriptorSetLayoutCreateInfo) {
.sType = VK_STRUCTURE_TYPE_DESCRIPTOR_SET_LAYOUT_CREATE_INFO,
.bindingCount = 1,
.pBindings = (VkDescriptorSetLayoutBinding[]) {
{
.binding = 0,
.descriptorType = VK_DESCRIPTOR_TYPE_UNIFORM_TEXEL_BUFFER,
.descriptorCount = 1,
.stageFlags = VK_SHADER_STAGE_FRAGMENT_BIT,
.pImmutableSamplers = NULL
},
}
}, &device->meta_state.alloc, &device->meta_state.blit2d.buf_ds_layout);
if (result != VK_SUCCESS)
goto fail;
result = anv_CreatePipelineLayout(anv_device_to_handle(device),
&(VkPipelineLayoutCreateInfo) {
.sType = VK_STRUCTURE_TYPE_PIPELINE_LAYOUT_CREATE_INFO,
.setLayoutCount = 1,
.pSetLayouts = &device->meta_state.blit2d.buf_ds_layout,
},
&device->meta_state.alloc, &device->meta_state.blit2d.buf_p_layout);
if (result != VK_SUCCESS)
goto fail;
/* We don't use a vertex shader for blitting, but instead build and pass
* the VUEs directly to the rasterization backend. However, we do need
* to provide GLSL source for the vertex shader so that the compiler
* does not dead-code our inputs.
*/
struct anv_shader_module vs = {
.nir = build_nir_vertex_shader(),
};
struct anv_shader_module fs_2d = {
.nir = build_nir_copy_fragment_shader(device, build_nir_texel_fetch),
};
VkPipelineVertexInputStateCreateInfo vi_create_info = {
.sType = VK_STRUCTURE_TYPE_PIPELINE_VERTEX_INPUT_STATE_CREATE_INFO,
.vertexBindingDescriptionCount = 2,
.pVertexBindingDescriptions = (VkVertexInputBindingDescription[]) {
{
.binding = 0,
.stride = 0,
.inputRate = VK_VERTEX_INPUT_RATE_INSTANCE
},
{
.binding = 1,
.stride = 5 * sizeof(float),
.inputRate = VK_VERTEX_INPUT_RATE_VERTEX
},
},
.vertexAttributeDescriptionCount = 3,
.pVertexAttributeDescriptions = (VkVertexInputAttributeDescription[]) {
{
/* VUE Header */
.location = 0,
.binding = 0,
.format = VK_FORMAT_R32G32B32A32_UINT,
.offset = 0
},
{
/* Position */
.location = 1,
.binding = 1,
.format = VK_FORMAT_R32G32_SFLOAT,
.offset = 0
},
{
/* Texture Coordinate */
.location = 2,
.binding = 1,
.format = VK_FORMAT_R32G32B32_SFLOAT,
.offset = 8
}
}
};
VkPipelineShaderStageCreateInfo pipeline_shader_stages[] = {
{
.sType = VK_STRUCTURE_TYPE_PIPELINE_SHADER_STAGE_CREATE_INFO,
.stage = VK_SHADER_STAGE_VERTEX_BIT,
.module = anv_shader_module_to_handle(&vs),
.pName = "main",
.pSpecializationInfo = NULL
}, {
.sType = VK_STRUCTURE_TYPE_PIPELINE_SHADER_STAGE_CREATE_INFO,
.stage = VK_SHADER_STAGE_FRAGMENT_BIT,
.module = VK_NULL_HANDLE, /* TEMPLATE VALUE! FILL ME IN! */
.pName = "main",
.pSpecializationInfo = NULL
},
};
const VkGraphicsPipelineCreateInfo vk_pipeline_info = {
.sType = VK_STRUCTURE_TYPE_GRAPHICS_PIPELINE_CREATE_INFO,
.stageCount = ARRAY_SIZE(pipeline_shader_stages),
.pStages = pipeline_shader_stages,
.pVertexInputState = &vi_create_info,
.pInputAssemblyState = &(VkPipelineInputAssemblyStateCreateInfo) {
.sType = VK_STRUCTURE_TYPE_PIPELINE_INPUT_ASSEMBLY_STATE_CREATE_INFO,
.topology = VK_PRIMITIVE_TOPOLOGY_TRIANGLE_STRIP,
.primitiveRestartEnable = false,
},
.pViewportState = &(VkPipelineViewportStateCreateInfo) {
.sType = VK_STRUCTURE_TYPE_PIPELINE_VIEWPORT_STATE_CREATE_INFO,
.viewportCount = 1,
.scissorCount = 1,
},
.pRasterizationState = &(VkPipelineRasterizationStateCreateInfo) {
.sType = VK_STRUCTURE_TYPE_PIPELINE_RASTERIZATION_STATE_CREATE_INFO,
.rasterizerDiscardEnable = false,
.polygonMode = VK_POLYGON_MODE_FILL,
.cullMode = VK_CULL_MODE_NONE,
.frontFace = VK_FRONT_FACE_COUNTER_CLOCKWISE
},
.pMultisampleState = &(VkPipelineMultisampleStateCreateInfo) {
.sType = VK_STRUCTURE_TYPE_PIPELINE_MULTISAMPLE_STATE_CREATE_INFO,
.rasterizationSamples = 1,
.sampleShadingEnable = false,
.pSampleMask = (VkSampleMask[]) { UINT32_MAX },
},
.pColorBlendState = &(VkPipelineColorBlendStateCreateInfo) {
.sType = VK_STRUCTURE_TYPE_PIPELINE_COLOR_BLEND_STATE_CREATE_INFO,
.attachmentCount = 1,
.pAttachments = (VkPipelineColorBlendAttachmentState []) {
{ .colorWriteMask =
VK_COLOR_COMPONENT_A_BIT |
VK_COLOR_COMPONENT_R_BIT |
VK_COLOR_COMPONENT_G_BIT |
VK_COLOR_COMPONENT_B_BIT },
}
},
.pDynamicState = &(VkPipelineDynamicStateCreateInfo) {
.sType = VK_STRUCTURE_TYPE_PIPELINE_DYNAMIC_STATE_CREATE_INFO,
.dynamicStateCount = 9,
.pDynamicStates = (VkDynamicState[]) {
VK_DYNAMIC_STATE_VIEWPORT,
VK_DYNAMIC_STATE_SCISSOR,
VK_DYNAMIC_STATE_LINE_WIDTH,
VK_DYNAMIC_STATE_DEPTH_BIAS,
VK_DYNAMIC_STATE_BLEND_CONSTANTS,
VK_DYNAMIC_STATE_DEPTH_BOUNDS,
VK_DYNAMIC_STATE_STENCIL_COMPARE_MASK,
VK_DYNAMIC_STATE_STENCIL_WRITE_MASK,
VK_DYNAMIC_STATE_STENCIL_REFERENCE,
},
},
.flags = 0,
.layout = device->meta_state.blit2d.img_p_layout,
.renderPass = device->meta_state.blit2d.render_pass,
.subpass = 0,
};
const struct anv_graphics_pipeline_create_info anv_pipeline_info = {
.color_attachment_count = -1,
.use_repclear = false,
.disable_viewport = true,
.disable_scissor = true,
.disable_vs = true,
.use_rectlist = true
};
pipeline_shader_stages[1].module = anv_shader_module_to_handle(&fs_2d);
result = anv_graphics_pipeline_create(anv_device_to_handle(device),
VK_NULL_HANDLE,
&vk_pipeline_info, &anv_pipeline_info,
&device->meta_state.alloc, &device->meta_state.blit2d.pipeline_2d_src);
ralloc_free(vs.nir);
ralloc_free(fs_2d.nir);
if (result != VK_SUCCESS)
goto fail;
return VK_SUCCESS;
fail:
anv_device_finish_meta_blit2d_state(device);
return result;
}
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