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|
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
use api::{ImageBufferKind, units::DeviceSize};
use crate::batch::{BatchKey, BatchKind, BrushBatchKind, BatchFeatures};
use crate::composite::{CompositeFeatures, CompositeSurfaceFormat};
use crate::device::{Device, Program, ShaderError};
use euclid::default::Transform3D;
use glyph_rasterizer::GlyphFormat;
use crate::renderer::{
desc,
BlendMode, DebugFlags, RendererError, WebRenderOptions,
TextureSampler, VertexArrayKind, ShaderPrecacheFlags,
};
use crate::profiler::{self, TransactionProfile, ns_to_ms};
use gleam::gl::GlType;
use time::precise_time_ns;
use std::cell::RefCell;
use std::rc::Rc;
use webrender_build::shader::{ShaderFeatures, ShaderFeatureFlags, get_shader_features};
/// Which extension version to use for texture external support.
#[derive(Clone, Copy, Debug, PartialEq)]
enum TextureExternalVersion {
// GL_OES_EGL_image_external_essl3 (Compatible with ESSL 3.0 and
// later shaders, but not supported on all GLES 3 devices.)
ESSL3,
// GL_OES_EGL_image_external (Compatible with ESSL 1.0 shaders)
ESSL1,
}
fn get_feature_string(kind: ImageBufferKind, texture_external_version: TextureExternalVersion) -> &'static str {
match (kind, texture_external_version) {
(ImageBufferKind::Texture2D, _) => "TEXTURE_2D",
(ImageBufferKind::TextureRect, _) => "TEXTURE_RECT",
(ImageBufferKind::TextureExternal, TextureExternalVersion::ESSL3) => "TEXTURE_EXTERNAL",
(ImageBufferKind::TextureExternal, TextureExternalVersion::ESSL1) => "TEXTURE_EXTERNAL_ESSL1",
}
}
fn has_platform_support(kind: ImageBufferKind, gl_type: &GlType) -> bool {
match (kind, gl_type) {
(ImageBufferKind::Texture2D, _) => true,
(ImageBufferKind::TextureRect, &GlType::Gles) => false,
(ImageBufferKind::TextureRect, &GlType::Gl) => true,
(ImageBufferKind::TextureExternal, &GlType::Gles) => true,
(ImageBufferKind::TextureExternal, &GlType::Gl) => false,
}
}
pub const IMAGE_BUFFER_KINDS: [ImageBufferKind; 3] = [
ImageBufferKind::Texture2D,
ImageBufferKind::TextureRect,
ImageBufferKind::TextureExternal,
];
const ADVANCED_BLEND_FEATURE: &str = "ADVANCED_BLEND";
const ALPHA_FEATURE: &str = "ALPHA_PASS";
const DEBUG_OVERDRAW_FEATURE: &str = "DEBUG_OVERDRAW";
const DITHERING_FEATURE: &str = "DITHERING";
const DUAL_SOURCE_FEATURE: &str = "DUAL_SOURCE_BLENDING";
const FAST_PATH_FEATURE: &str = "FAST_PATH";
pub(crate) enum ShaderKind {
Primitive,
Cache(VertexArrayKind),
ClipCache(VertexArrayKind),
Brush,
Text,
#[allow(dead_code)]
VectorStencil,
#[allow(dead_code)]
VectorCover,
#[allow(dead_code)]
Resolve,
Composite,
Clear,
Copy,
}
pub struct LazilyCompiledShader {
program: Option<Program>,
name: &'static str,
kind: ShaderKind,
cached_projection: Transform3D<f32>,
features: Vec<&'static str>,
}
impl LazilyCompiledShader {
pub(crate) fn new(
kind: ShaderKind,
name: &'static str,
unsorted_features: &[&'static str],
device: &mut Device,
precache_flags: ShaderPrecacheFlags,
shader_list: &ShaderFeatures,
profile: &mut TransactionProfile,
) -> Result<Self, ShaderError> {
let mut features = unsorted_features.to_vec();
features.sort();
// Ensure this shader config is in the available shader list so that we get
// alerted if the list gets out-of-date when shaders or features are added.
let config = features.join(",");
assert!(
shader_list.get(name).map_or(false, |f| f.contains(&config)),
"shader \"{}\" with features \"{}\" not in available shader list",
name,
config,
);
let mut shader = LazilyCompiledShader {
program: None,
name,
kind,
//Note: this isn't really the default state, but there is no chance
// an actual projection passed here would accidentally match.
cached_projection: Transform3D::identity(),
features,
};
if precache_flags.intersects(ShaderPrecacheFlags::ASYNC_COMPILE | ShaderPrecacheFlags::FULL_COMPILE) {
let t0 = precise_time_ns();
shader.get_internal(device, precache_flags, profile)?;
let t1 = precise_time_ns();
debug!("[C: {:.1} ms ] Precache {} {:?}",
(t1 - t0) as f64 / 1000000.0,
name,
unsorted_features
);
}
Ok(shader)
}
pub fn bind(
&mut self,
device: &mut Device,
projection: &Transform3D<f32>,
texture_size: Option<DeviceSize>,
renderer_errors: &mut Vec<RendererError>,
profile: &mut TransactionProfile,
) {
let update_projection = self.cached_projection != *projection;
let program = match self.get_internal(device, ShaderPrecacheFlags::FULL_COMPILE, profile) {
Ok(program) => program,
Err(e) => {
renderer_errors.push(RendererError::from(e));
return;
}
};
device.bind_program(program);
if let Some(texture_size) = texture_size {
device.set_shader_texture_size(program, texture_size);
}
if update_projection {
device.set_uniforms(program, projection);
// thanks NLL for this (`program` technically borrows `self`)
self.cached_projection = *projection;
}
}
fn get_internal(
&mut self,
device: &mut Device,
precache_flags: ShaderPrecacheFlags,
profile: &mut TransactionProfile,
) -> Result<&mut Program, ShaderError> {
if self.program.is_none() {
let start_time = precise_time_ns();
let program = match self.kind {
ShaderKind::Primitive | ShaderKind::Brush | ShaderKind::Text | ShaderKind::Resolve | ShaderKind::Clear | ShaderKind::Copy => {
create_prim_shader(
self.name,
device,
&self.features,
)
}
ShaderKind::Cache(..) => {
create_prim_shader(
self.name,
device,
&self.features,
)
}
ShaderKind::VectorStencil => {
create_prim_shader(
self.name,
device,
&self.features,
)
}
ShaderKind::VectorCover => {
create_prim_shader(
self.name,
device,
&self.features,
)
}
ShaderKind::Composite => {
create_prim_shader(
self.name,
device,
&self.features,
)
}
ShaderKind::ClipCache(..) => {
create_clip_shader(
self.name,
device,
&self.features,
)
}
};
self.program = Some(program?);
let end_time = precise_time_ns();
profile.add(profiler::SHADER_BUILD_TIME, ns_to_ms(end_time - start_time));
}
let program = self.program.as_mut().unwrap();
if precache_flags.contains(ShaderPrecacheFlags::FULL_COMPILE) && !program.is_initialized() {
let start_time = precise_time_ns();
let vertex_format = match self.kind {
ShaderKind::Primitive |
ShaderKind::Brush |
ShaderKind::Text => VertexArrayKind::Primitive,
ShaderKind::Cache(format) => format,
ShaderKind::VectorStencil => VertexArrayKind::VectorStencil,
ShaderKind::VectorCover => VertexArrayKind::VectorCover,
ShaderKind::ClipCache(format) => format,
ShaderKind::Resolve => VertexArrayKind::Resolve,
ShaderKind::Composite => VertexArrayKind::Composite,
ShaderKind::Clear => VertexArrayKind::Clear,
ShaderKind::Copy => VertexArrayKind::Copy,
};
let vertex_descriptor = match vertex_format {
VertexArrayKind::Primitive => &desc::PRIM_INSTANCES,
VertexArrayKind::LineDecoration => &desc::LINE,
VertexArrayKind::FastLinearGradient => &desc::FAST_LINEAR_GRADIENT,
VertexArrayKind::LinearGradient => &desc::LINEAR_GRADIENT,
VertexArrayKind::RadialGradient => &desc::RADIAL_GRADIENT,
VertexArrayKind::ConicGradient => &desc::CONIC_GRADIENT,
VertexArrayKind::Blur => &desc::BLUR,
VertexArrayKind::ClipImage => &desc::CLIP_IMAGE,
VertexArrayKind::ClipRect => &desc::CLIP_RECT,
VertexArrayKind::ClipBoxShadow => &desc::CLIP_BOX_SHADOW,
VertexArrayKind::VectorStencil => &desc::VECTOR_STENCIL,
VertexArrayKind::VectorCover => &desc::VECTOR_COVER,
VertexArrayKind::Border => &desc::BORDER,
VertexArrayKind::Scale => &desc::SCALE,
VertexArrayKind::Resolve => &desc::RESOLVE,
VertexArrayKind::SvgFilter => &desc::SVG_FILTER,
VertexArrayKind::Composite => &desc::COMPOSITE,
VertexArrayKind::Clear => &desc::CLEAR,
VertexArrayKind::Copy => &desc::COPY,
};
device.link_program(program, vertex_descriptor)?;
device.bind_program(program);
match self.kind {
ShaderKind::ClipCache(..) => {
device.bind_shader_samplers(
&program,
&[
("sColor0", TextureSampler::Color0),
("sTransformPalette", TextureSampler::TransformPalette),
("sRenderTasks", TextureSampler::RenderTasks),
("sGpuCache", TextureSampler::GpuCache),
("sPrimitiveHeadersF", TextureSampler::PrimitiveHeadersF),
("sPrimitiveHeadersI", TextureSampler::PrimitiveHeadersI),
("sGpuBuffer", TextureSampler::GpuBuffer),
],
);
}
_ => {
device.bind_shader_samplers(
&program,
&[
("sColor0", TextureSampler::Color0),
("sColor1", TextureSampler::Color1),
("sColor2", TextureSampler::Color2),
("sDither", TextureSampler::Dither),
("sTransformPalette", TextureSampler::TransformPalette),
("sRenderTasks", TextureSampler::RenderTasks),
("sGpuCache", TextureSampler::GpuCache),
("sPrimitiveHeadersF", TextureSampler::PrimitiveHeadersF),
("sPrimitiveHeadersI", TextureSampler::PrimitiveHeadersI),
("sClipMask", TextureSampler::ClipMask),
("sGpuBuffer", TextureSampler::GpuBuffer),
],
);
}
}
let end_time = precise_time_ns();
profile.add(profiler::SHADER_BUILD_TIME, ns_to_ms(end_time - start_time));
}
Ok(program)
}
fn deinit(self, device: &mut Device) {
if let Some(program) = self.program {
device.delete_program(program);
}
}
}
// A brush shader supports two modes:
// opaque:
// Used for completely opaque primitives,
// or inside segments of partially
// opaque primitives. Assumes no need
// for clip masks, AA etc.
// alpha:
// Used for brush primitives in the alpha
// pass. Assumes that AA should be applied
// along the primitive edge, and also that
// clip mask is present.
struct BrushShader {
opaque: LazilyCompiledShader,
alpha: LazilyCompiledShader,
advanced_blend: Option<LazilyCompiledShader>,
dual_source: Option<LazilyCompiledShader>,
debug_overdraw: LazilyCompiledShader,
}
impl BrushShader {
fn new(
name: &'static str,
device: &mut Device,
features: &[&'static str],
precache_flags: ShaderPrecacheFlags,
shader_list: &ShaderFeatures,
use_advanced_blend: bool,
use_dual_source: bool,
profile: &mut TransactionProfile,
) -> Result<Self, ShaderError> {
let opaque_features = features.to_vec();
let opaque = LazilyCompiledShader::new(
ShaderKind::Brush,
name,
&opaque_features,
device,
precache_flags,
&shader_list,
profile,
)?;
let mut alpha_features = opaque_features.to_vec();
alpha_features.push(ALPHA_FEATURE);
let alpha = LazilyCompiledShader::new(
ShaderKind::Brush,
name,
&alpha_features,
device,
precache_flags,
&shader_list,
profile,
)?;
let advanced_blend = if use_advanced_blend {
let mut advanced_blend_features = alpha_features.to_vec();
advanced_blend_features.push(ADVANCED_BLEND_FEATURE);
let shader = LazilyCompiledShader::new(
ShaderKind::Brush,
name,
&advanced_blend_features,
device,
precache_flags,
&shader_list,
profile,
)?;
Some(shader)
} else {
None
};
let dual_source = if use_dual_source {
let mut dual_source_features = alpha_features.to_vec();
dual_source_features.push(DUAL_SOURCE_FEATURE);
let shader = LazilyCompiledShader::new(
ShaderKind::Brush,
name,
&dual_source_features,
device,
precache_flags,
&shader_list,
profile,
)?;
Some(shader)
} else {
None
};
let mut debug_overdraw_features = features.to_vec();
debug_overdraw_features.push(DEBUG_OVERDRAW_FEATURE);
let debug_overdraw = LazilyCompiledShader::new(
ShaderKind::Brush,
name,
&debug_overdraw_features,
device,
precache_flags,
&shader_list,
profile,
)?;
Ok(BrushShader {
opaque,
alpha,
advanced_blend,
dual_source,
debug_overdraw,
})
}
fn get(&mut self, blend_mode: BlendMode, features: BatchFeatures, debug_flags: DebugFlags)
-> &mut LazilyCompiledShader {
match blend_mode {
_ if debug_flags.contains(DebugFlags::SHOW_OVERDRAW) => &mut self.debug_overdraw,
BlendMode::None => &mut self.opaque,
BlendMode::Alpha |
BlendMode::PremultipliedAlpha |
BlendMode::PremultipliedDestOut |
BlendMode::SubpixelWithBgColor |
BlendMode::Screen |
BlendMode::PlusLighter |
BlendMode::Exclusion => {
if features.contains(BatchFeatures::ALPHA_PASS) {
&mut self.alpha
} else {
&mut self.opaque
}
}
BlendMode::Advanced(_) => {
self.advanced_blend
.as_mut()
.expect("bug: no advanced blend shader loaded")
}
BlendMode::SubpixelDualSource |
BlendMode::MultiplyDualSource => {
self.dual_source
.as_mut()
.expect("bug: no dual source shader loaded")
}
}
}
fn deinit(self, device: &mut Device) {
self.opaque.deinit(device);
self.alpha.deinit(device);
if let Some(advanced_blend) = self.advanced_blend {
advanced_blend.deinit(device);
}
if let Some(dual_source) = self.dual_source {
dual_source.deinit(device);
}
self.debug_overdraw.deinit(device);
}
}
pub struct TextShader {
simple: LazilyCompiledShader,
glyph_transform: LazilyCompiledShader,
debug_overdraw: LazilyCompiledShader,
}
impl TextShader {
fn new(
name: &'static str,
device: &mut Device,
features: &[&'static str],
precache_flags: ShaderPrecacheFlags,
shader_list: &ShaderFeatures,
profile: &mut TransactionProfile,
) -> Result<Self, ShaderError> {
let mut simple_features = features.to_vec();
simple_features.push("ALPHA_PASS");
simple_features.push("TEXTURE_2D");
let simple = LazilyCompiledShader::new(
ShaderKind::Text,
name,
&simple_features,
device,
precache_flags,
&shader_list,
profile,
)?;
let mut glyph_transform_features = features.to_vec();
glyph_transform_features.push("GLYPH_TRANSFORM");
glyph_transform_features.push("ALPHA_PASS");
glyph_transform_features.push("TEXTURE_2D");
let glyph_transform = LazilyCompiledShader::new(
ShaderKind::Text,
name,
&glyph_transform_features,
device,
precache_flags,
&shader_list,
profile,
)?;
let mut debug_overdraw_features = features.to_vec();
debug_overdraw_features.push("DEBUG_OVERDRAW");
debug_overdraw_features.push("TEXTURE_2D");
let debug_overdraw = LazilyCompiledShader::new(
ShaderKind::Text,
name,
&debug_overdraw_features,
device,
precache_flags,
&shader_list,
profile,
)?;
Ok(TextShader { simple, glyph_transform, debug_overdraw })
}
pub fn get(
&mut self,
glyph_format: GlyphFormat,
debug_flags: DebugFlags,
) -> &mut LazilyCompiledShader {
match glyph_format {
_ if debug_flags.contains(DebugFlags::SHOW_OVERDRAW) => &mut self.debug_overdraw,
GlyphFormat::Alpha |
GlyphFormat::Subpixel |
GlyphFormat::Bitmap |
GlyphFormat::ColorBitmap => &mut self.simple,
GlyphFormat::TransformedAlpha |
GlyphFormat::TransformedSubpixel => &mut self.glyph_transform,
}
}
fn deinit(self, device: &mut Device) {
self.simple.deinit(device);
self.glyph_transform.deinit(device);
self.debug_overdraw.deinit(device);
}
}
fn create_prim_shader(
name: &'static str,
device: &mut Device,
features: &[&'static str],
) -> Result<Program, ShaderError> {
debug!("PrimShader {}", name);
device.create_program(name, features)
}
fn create_clip_shader(
name: &'static str,
device: &mut Device,
features: &[&'static str],
) -> Result<Program, ShaderError> {
debug!("ClipShader {}", name);
device.create_program(name, features)
}
// NB: If you add a new shader here, make sure to deinitialize it
// in `Shaders::deinit()` below.
pub struct Shaders {
// These are "cache shaders". These shaders are used to
// draw intermediate results to cache targets. The results
// of these shaders are then used by the primitive shaders.
pub cs_blur_a8: LazilyCompiledShader,
pub cs_blur_rgba8: LazilyCompiledShader,
pub cs_border_segment: LazilyCompiledShader,
pub cs_border_solid: LazilyCompiledShader,
pub cs_scale: Vec<Option<LazilyCompiledShader>>,
pub cs_line_decoration: LazilyCompiledShader,
pub cs_fast_linear_gradient: LazilyCompiledShader,
pub cs_linear_gradient: LazilyCompiledShader,
pub cs_radial_gradient: LazilyCompiledShader,
pub cs_conic_gradient: LazilyCompiledShader,
pub cs_svg_filter: LazilyCompiledShader,
// Brush shaders
brush_solid: BrushShader,
brush_image: Vec<Option<BrushShader>>,
brush_fast_image: Vec<Option<BrushShader>>,
brush_blend: BrushShader,
brush_mix_blend: BrushShader,
brush_yuv_image: Vec<Option<BrushShader>>,
brush_linear_gradient: BrushShader,
brush_opacity: BrushShader,
brush_opacity_aa: BrushShader,
/// These are "cache clip shaders". These shaders are used to
/// draw clip instances into the cached clip mask. The results
/// of these shaders are also used by the primitive shaders.
pub cs_clip_rectangle_slow: LazilyCompiledShader,
pub cs_clip_rectangle_fast: LazilyCompiledShader,
pub cs_clip_box_shadow: LazilyCompiledShader,
pub cs_clip_image: LazilyCompiledShader,
// The are "primitive shaders". These shaders draw and blend
// final results on screen. They are aware of tile boundaries.
// Most draw directly to the framebuffer, but some use inputs
// from the cache shaders to draw. Specifically, the box
// shadow primitive shader stretches the box shadow cache
// output, and the cache_image shader blits the results of
// a cache shader (e.g. blur) to the screen.
pub ps_text_run: TextShader,
pub ps_text_run_dual_source: Option<TextShader>,
ps_split_composite: LazilyCompiledShader,
pub ps_clear: LazilyCompiledShader,
pub ps_copy: LazilyCompiledShader,
// Composite shaders. These are very simple shaders used to composite
// picture cache tiles into the framebuffer on platforms that do not have an
// OS Compositor (or we cannot use it). Such an OS Compositor (such as
// DirectComposite or CoreAnimation) handles the composition of the picture
// cache tiles at a lower level (e.g. in DWM for Windows); in that case we
// directly hand the picture cache surfaces over to the OS Compositor, and
// our own Composite shaders below never run.
// To composite external (RGB) surfaces we need various permutations of
// shaders with WR_FEATURE flags on or off based on the type of image
// buffer we're sourcing from (see IMAGE_BUFFER_KINDS).
pub composite_rgba: Vec<Option<LazilyCompiledShader>>,
// A faster set of rgba composite shaders that do not support UV clamping
// or color modulation.
pub composite_rgba_fast_path: Vec<Option<LazilyCompiledShader>>,
// The same set of composite shaders but with WR_FEATURE_YUV added.
pub composite_yuv: Vec<Option<LazilyCompiledShader>>,
}
impl Shaders {
pub fn new(
device: &mut Device,
gl_type: GlType,
options: &WebRenderOptions,
) -> Result<Self, ShaderError> {
// We have to pass a profile around a bunch but we aren't recording the initialization
// so use a dummy one.
let profile = &mut TransactionProfile::new();
let use_dual_source_blending =
device.get_capabilities().supports_dual_source_blending &&
options.allow_dual_source_blending;
let use_advanced_blend_equation =
device.get_capabilities().supports_advanced_blend_equation &&
options.allow_advanced_blend_equation;
let texture_external_version = if device.get_capabilities().supports_image_external_essl3 {
TextureExternalVersion::ESSL3
} else {
TextureExternalVersion::ESSL1
};
let mut shader_flags = match gl_type {
GlType::Gl => ShaderFeatureFlags::GL,
GlType::Gles => {
let texture_external_flag = match texture_external_version {
TextureExternalVersion::ESSL3 => ShaderFeatureFlags::TEXTURE_EXTERNAL,
TextureExternalVersion::ESSL1 => ShaderFeatureFlags::TEXTURE_EXTERNAL_ESSL1,
};
ShaderFeatureFlags::GLES | texture_external_flag
}
};
shader_flags.set(ShaderFeatureFlags::ADVANCED_BLEND_EQUATION, use_advanced_blend_equation);
shader_flags.set(ShaderFeatureFlags::DUAL_SOURCE_BLENDING, use_dual_source_blending);
shader_flags.set(ShaderFeatureFlags::DITHERING, options.enable_dithering);
let shader_list = get_shader_features(shader_flags);
let brush_solid = BrushShader::new(
"brush_solid",
device,
&[],
options.precache_flags,
&shader_list,
false /* advanced blend */,
false /* dual source */,
profile,
)?;
let brush_blend = BrushShader::new(
"brush_blend",
device,
&[],
options.precache_flags,
&shader_list,
false /* advanced blend */,
false /* dual source */,
profile,
)?;
let brush_mix_blend = BrushShader::new(
"brush_mix_blend",
device,
&[],
options.precache_flags,
&shader_list,
false /* advanced blend */,
false /* dual source */,
profile,
)?;
let brush_linear_gradient = BrushShader::new(
"brush_linear_gradient",
device,
if options.enable_dithering {
&[DITHERING_FEATURE]
} else {
&[]
},
options.precache_flags,
&shader_list,
false /* advanced blend */,
false /* dual source */,
profile,
)?;
let brush_opacity_aa = BrushShader::new(
"brush_opacity",
device,
&["ANTIALIASING"],
options.precache_flags,
&shader_list,
false /* advanced blend */,
false /* dual source */,
profile,
)?;
let brush_opacity = BrushShader::new(
"brush_opacity",
device,
&[],
options.precache_flags,
&shader_list,
false /* advanced blend */,
false /* dual source */,
profile,
)?;
let cs_blur_a8 = LazilyCompiledShader::new(
ShaderKind::Cache(VertexArrayKind::Blur),
"cs_blur",
&["ALPHA_TARGET"],
device,
options.precache_flags,
&shader_list,
profile,
)?;
let cs_blur_rgba8 = LazilyCompiledShader::new(
ShaderKind::Cache(VertexArrayKind::Blur),
"cs_blur",
&["COLOR_TARGET"],
device,
options.precache_flags,
&shader_list,
profile,
)?;
let cs_svg_filter = LazilyCompiledShader::new(
ShaderKind::Cache(VertexArrayKind::SvgFilter),
"cs_svg_filter",
&[],
device,
options.precache_flags,
&shader_list,
profile,
)?;
let cs_clip_rectangle_slow = LazilyCompiledShader::new(
ShaderKind::ClipCache(VertexArrayKind::ClipRect),
"cs_clip_rectangle",
&[],
device,
options.precache_flags,
&shader_list,
profile,
)?;
let cs_clip_rectangle_fast = LazilyCompiledShader::new(
ShaderKind::ClipCache(VertexArrayKind::ClipRect),
"cs_clip_rectangle",
&[FAST_PATH_FEATURE],
device,
options.precache_flags,
&shader_list,
profile,
)?;
let cs_clip_box_shadow = LazilyCompiledShader::new(
ShaderKind::ClipCache(VertexArrayKind::ClipBoxShadow),
"cs_clip_box_shadow",
&["TEXTURE_2D"],
device,
options.precache_flags,
&shader_list,
profile,
)?;
let cs_clip_image = LazilyCompiledShader::new(
ShaderKind::ClipCache(VertexArrayKind::ClipImage),
"cs_clip_image",
&["TEXTURE_2D"],
device,
options.precache_flags,
&shader_list,
profile,
)?;
let mut cs_scale = Vec::new();
let scale_shader_num = IMAGE_BUFFER_KINDS.len();
// PrimitiveShader is not clonable. Use push() to initialize the vec.
for _ in 0 .. scale_shader_num {
cs_scale.push(None);
}
for image_buffer_kind in &IMAGE_BUFFER_KINDS {
if has_platform_support(*image_buffer_kind, &gl_type) {
let feature_string = get_feature_string(
*image_buffer_kind,
texture_external_version,
);
let mut features = Vec::new();
if feature_string != "" {
features.push(feature_string);
}
let shader = LazilyCompiledShader::new(
ShaderKind::Cache(VertexArrayKind::Scale),
"cs_scale",
&features,
device,
options.precache_flags,
&shader_list,
profile,
)?;
let index = Self::get_compositing_shader_index(
*image_buffer_kind,
);
cs_scale[index] = Some(shader);
}
}
// TODO(gw): The split composite + text shader are special cases - the only
// shaders used during normal scene rendering that aren't a brush
// shader. Perhaps we can unify these in future?
let ps_text_run = TextShader::new("ps_text_run",
device,
&[],
options.precache_flags,
&shader_list,
profile,
)?;
let ps_text_run_dual_source = if use_dual_source_blending {
let dual_source_features = vec![DUAL_SOURCE_FEATURE];
Some(TextShader::new("ps_text_run",
device,
&dual_source_features,
options.precache_flags,
&shader_list,
profile,
)?)
} else {
None
};
let ps_split_composite = LazilyCompiledShader::new(
ShaderKind::Primitive,
"ps_split_composite",
&[],
device,
options.precache_flags,
&shader_list,
profile,
)?;
let ps_clear = LazilyCompiledShader::new(
ShaderKind::Clear,
"ps_clear",
&[],
device,
options.precache_flags,
&shader_list,
profile,
)?;
let ps_copy = LazilyCompiledShader::new(
ShaderKind::Copy,
"ps_copy",
&[],
device,
options.precache_flags,
&shader_list,
profile,
)?;
// All image configuration.
let mut image_features = Vec::new();
let mut brush_image = Vec::new();
let mut brush_fast_image = Vec::new();
// PrimitiveShader is not clonable. Use push() to initialize the vec.
for _ in 0 .. IMAGE_BUFFER_KINDS.len() {
brush_image.push(None);
brush_fast_image.push(None);
}
for buffer_kind in 0 .. IMAGE_BUFFER_KINDS.len() {
if !has_platform_support(IMAGE_BUFFER_KINDS[buffer_kind], &gl_type)
// Brush shaders are not ESSL1 compatible
|| (IMAGE_BUFFER_KINDS[buffer_kind] == ImageBufferKind::TextureExternal
&& texture_external_version == TextureExternalVersion::ESSL1)
{
continue;
}
let feature_string = get_feature_string(
IMAGE_BUFFER_KINDS[buffer_kind],
texture_external_version,
);
if feature_string != "" {
image_features.push(feature_string);
}
brush_fast_image[buffer_kind] = Some(BrushShader::new(
"brush_image",
device,
&image_features,
options.precache_flags,
&shader_list,
use_advanced_blend_equation,
use_dual_source_blending,
profile,
)?);
image_features.push("REPETITION");
image_features.push("ANTIALIASING");
brush_image[buffer_kind] = Some(BrushShader::new(
"brush_image",
device,
&image_features,
options.precache_flags,
&shader_list,
use_advanced_blend_equation,
use_dual_source_blending,
profile,
)?);
image_features.clear();
}
// All yuv_image configuration.
let mut yuv_features = Vec::new();
let mut rgba_features = Vec::new();
let mut fast_path_features = Vec::new();
let yuv_shader_num = IMAGE_BUFFER_KINDS.len();
let mut brush_yuv_image = Vec::new();
let mut composite_yuv = Vec::new();
let mut composite_rgba = Vec::new();
let mut composite_rgba_fast_path = Vec::new();
// PrimitiveShader is not clonable. Use push() to initialize the vec.
for _ in 0 .. yuv_shader_num {
brush_yuv_image.push(None);
composite_yuv.push(None);
composite_rgba.push(None);
composite_rgba_fast_path.push(None);
}
for image_buffer_kind in &IMAGE_BUFFER_KINDS {
if has_platform_support(*image_buffer_kind, &gl_type) {
yuv_features.push("YUV");
fast_path_features.push("FAST_PATH");
let index = Self::get_compositing_shader_index(
*image_buffer_kind,
);
let feature_string = get_feature_string(
*image_buffer_kind,
texture_external_version,
);
if feature_string != "" {
yuv_features.push(feature_string);
rgba_features.push(feature_string);
fast_path_features.push(feature_string);
}
// YUV shaders are not compatible with ESSL1
if *image_buffer_kind != ImageBufferKind::TextureExternal ||
texture_external_version == TextureExternalVersion::ESSL3 {
let brush_shader = BrushShader::new(
"brush_yuv_image",
device,
&yuv_features,
options.precache_flags,
&shader_list,
false /* advanced blend */,
false /* dual source */,
profile,
)?;
brush_yuv_image[index] = Some(brush_shader);
let composite_yuv_shader = LazilyCompiledShader::new(
ShaderKind::Composite,
"composite",
&yuv_features,
device,
options.precache_flags,
&shader_list,
profile,
)?;
composite_yuv[index] = Some(composite_yuv_shader);
}
let composite_rgba_shader = LazilyCompiledShader::new(
ShaderKind::Composite,
"composite",
&rgba_features,
device,
options.precache_flags,
&shader_list,
profile,
)?;
let composite_rgba_fast_path_shader = LazilyCompiledShader::new(
ShaderKind::Composite,
"composite",
&fast_path_features,
device,
options.precache_flags,
&shader_list,
profile,
)?;
let index = Self::get_compositing_shader_index(
*image_buffer_kind,
);
composite_rgba[index] = Some(composite_rgba_shader);
composite_rgba_fast_path[index] = Some(composite_rgba_fast_path_shader);
yuv_features.clear();
rgba_features.clear();
fast_path_features.clear();
}
}
let cs_line_decoration = LazilyCompiledShader::new(
ShaderKind::Cache(VertexArrayKind::LineDecoration),
"cs_line_decoration",
&[],
device,
options.precache_flags,
&shader_list,
profile,
)?;
let cs_fast_linear_gradient = LazilyCompiledShader::new(
ShaderKind::Cache(VertexArrayKind::FastLinearGradient),
"cs_fast_linear_gradient",
&[],
device,
options.precache_flags,
&shader_list,
profile,
)?;
let cs_linear_gradient = LazilyCompiledShader::new(
ShaderKind::Cache(VertexArrayKind::LinearGradient),
"cs_linear_gradient",
&[],
device,
options.precache_flags,
&shader_list,
profile,
)?;
let cs_radial_gradient = LazilyCompiledShader::new(
ShaderKind::Cache(VertexArrayKind::RadialGradient),
"cs_radial_gradient",
&[],
device,
options.precache_flags,
&shader_list,
profile,
)?;
let cs_conic_gradient = LazilyCompiledShader::new(
ShaderKind::Cache(VertexArrayKind::ConicGradient),
"cs_conic_gradient",
&[],
device,
options.precache_flags,
&shader_list,
profile,
)?;
let cs_border_segment = LazilyCompiledShader::new(
ShaderKind::Cache(VertexArrayKind::Border),
"cs_border_segment",
&[],
device,
options.precache_flags,
&shader_list,
profile,
)?;
let cs_border_solid = LazilyCompiledShader::new(
ShaderKind::Cache(VertexArrayKind::Border),
"cs_border_solid",
&[],
device,
options.precache_flags,
&shader_list,
profile,
)?;
Ok(Shaders {
cs_blur_a8,
cs_blur_rgba8,
cs_border_segment,
cs_line_decoration,
cs_fast_linear_gradient,
cs_linear_gradient,
cs_radial_gradient,
cs_conic_gradient,
cs_border_solid,
cs_scale,
cs_svg_filter,
brush_solid,
brush_image,
brush_fast_image,
brush_blend,
brush_mix_blend,
brush_yuv_image,
brush_linear_gradient,
brush_opacity,
brush_opacity_aa,
cs_clip_rectangle_slow,
cs_clip_rectangle_fast,
cs_clip_box_shadow,
cs_clip_image,
ps_text_run,
ps_text_run_dual_source,
ps_split_composite,
ps_clear,
ps_copy,
composite_rgba,
composite_rgba_fast_path,
composite_yuv,
})
}
fn get_compositing_shader_index(buffer_kind: ImageBufferKind) -> usize {
buffer_kind as usize
}
pub fn get_composite_shader(
&mut self,
format: CompositeSurfaceFormat,
buffer_kind: ImageBufferKind,
features: CompositeFeatures,
) -> &mut LazilyCompiledShader {
match format {
CompositeSurfaceFormat::Rgba => {
if features.contains(CompositeFeatures::NO_UV_CLAMP)
&& features.contains(CompositeFeatures::NO_COLOR_MODULATION)
{
let shader_index = Self::get_compositing_shader_index(buffer_kind);
self.composite_rgba_fast_path[shader_index]
.as_mut()
.expect("bug: unsupported rgba fast path shader requested")
} else {
let shader_index = Self::get_compositing_shader_index(buffer_kind);
self.composite_rgba[shader_index]
.as_mut()
.expect("bug: unsupported rgba shader requested")
}
}
CompositeSurfaceFormat::Yuv => {
let shader_index = Self::get_compositing_shader_index(buffer_kind);
self.composite_yuv[shader_index]
.as_mut()
.expect("bug: unsupported yuv shader requested")
}
}
}
pub fn get_scale_shader(
&mut self,
buffer_kind: ImageBufferKind,
) -> &mut LazilyCompiledShader {
let shader_index = Self::get_compositing_shader_index(buffer_kind);
self.cs_scale[shader_index]
.as_mut()
.expect("bug: unsupported scale shader requested")
}
pub fn get(&
mut self,
key: &BatchKey,
mut features: BatchFeatures,
debug_flags: DebugFlags,
device: &Device,
) -> &mut LazilyCompiledShader {
match key.kind {
BatchKind::SplitComposite => {
&mut self.ps_split_composite
}
BatchKind::Brush(brush_kind) => {
// SWGL uses a native anti-aliasing implementation that bypasses the shader.
// Don't consider it in that case when deciding whether or not to use
// an alpha-pass shader.
if device.get_capabilities().uses_native_antialiasing {
features.remove(BatchFeatures::ANTIALIASING);
}
let brush_shader = match brush_kind {
BrushBatchKind::Solid => {
&mut self.brush_solid
}
BrushBatchKind::Image(image_buffer_kind) => {
if features.contains(BatchFeatures::ANTIALIASING) ||
features.contains(BatchFeatures::REPETITION) {
self.brush_image[image_buffer_kind as usize]
.as_mut()
.expect("Unsupported image shader kind")
} else {
self.brush_fast_image[image_buffer_kind as usize]
.as_mut()
.expect("Unsupported image shader kind")
}
}
BrushBatchKind::Blend => {
&mut self.brush_blend
}
BrushBatchKind::MixBlend { .. } => {
&mut self.brush_mix_blend
}
BrushBatchKind::LinearGradient => {
// SWGL uses a native clip mask implementation that bypasses the shader.
// Don't consider it in that case when deciding whether or not to use
// an alpha-pass shader.
if device.get_capabilities().uses_native_clip_mask {
features.remove(BatchFeatures::CLIP_MASK);
}
// Gradient brushes can optimistically use the opaque shader even
// with a blend mode if they don't require any features.
if !features.intersects(
BatchFeatures::ANTIALIASING
| BatchFeatures::REPETITION
| BatchFeatures::CLIP_MASK,
) {
features.remove(BatchFeatures::ALPHA_PASS);
}
match brush_kind {
BrushBatchKind::LinearGradient => &mut self.brush_linear_gradient,
_ => panic!(),
}
}
BrushBatchKind::YuvImage(image_buffer_kind, ..) => {
let shader_index =
Self::get_compositing_shader_index(image_buffer_kind);
self.brush_yuv_image[shader_index]
.as_mut()
.expect("Unsupported YUV shader kind")
}
BrushBatchKind::Opacity => {
if features.contains(BatchFeatures::ANTIALIASING) {
&mut self.brush_opacity_aa
} else {
&mut self.brush_opacity
}
}
};
brush_shader.get(key.blend_mode, features, debug_flags)
}
BatchKind::TextRun(glyph_format) => {
let text_shader = match key.blend_mode {
BlendMode::SubpixelDualSource => self.ps_text_run_dual_source.as_mut().unwrap(),
_ => &mut self.ps_text_run,
};
text_shader.get(glyph_format, debug_flags)
}
}
}
pub fn deinit(self, device: &mut Device) {
for shader in self.cs_scale {
if let Some(shader) = shader {
shader.deinit(device);
}
}
self.cs_blur_a8.deinit(device);
self.cs_blur_rgba8.deinit(device);
self.cs_svg_filter.deinit(device);
self.brush_solid.deinit(device);
self.brush_blend.deinit(device);
self.brush_mix_blend.deinit(device);
self.brush_linear_gradient.deinit(device);
self.brush_opacity.deinit(device);
self.brush_opacity_aa.deinit(device);
self.cs_clip_rectangle_slow.deinit(device);
self.cs_clip_rectangle_fast.deinit(device);
self.cs_clip_box_shadow.deinit(device);
self.cs_clip_image.deinit(device);
self.ps_text_run.deinit(device);
if let Some(shader) = self.ps_text_run_dual_source {
shader.deinit(device);
}
for shader in self.brush_image {
if let Some(shader) = shader {
shader.deinit(device);
}
}
for shader in self.brush_fast_image {
if let Some(shader) = shader {
shader.deinit(device);
}
}
for shader in self.brush_yuv_image {
if let Some(shader) = shader {
shader.deinit(device);
}
}
self.cs_border_solid.deinit(device);
self.cs_fast_linear_gradient.deinit(device);
self.cs_linear_gradient.deinit(device);
self.cs_radial_gradient.deinit(device);
self.cs_conic_gradient.deinit(device);
self.cs_line_decoration.deinit(device);
self.cs_border_segment.deinit(device);
self.ps_split_composite.deinit(device);
self.ps_clear.deinit(device);
self.ps_copy.deinit(device);
for shader in self.composite_rgba {
if let Some(shader) = shader {
shader.deinit(device);
}
}
for shader in self.composite_rgba_fast_path {
if let Some(shader) = shader {
shader.deinit(device);
}
}
for shader in self.composite_yuv {
if let Some(shader) = shader {
shader.deinit(device);
}
}
}
}
pub type SharedShaders = Rc<RefCell<Shaders>>;
|