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dawn / dawn / fd1b5a893d822c79d1038e688f6e0113c1d3d631 / . / src / tint / transform / multiplanar_external_texture.cc
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// Copyright 2021 The Tint Authors.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#include "src/tint/transform/multiplanar_external_texture.h"
#include <string>
#include <vector>
#include "src/tint/ast/function.h"
#include "src/tint/program_builder.h"
#include "src/tint/sem/call.h"
#include "src/tint/sem/function.h"
#include "src/tint/sem/variable.h"
TINT_INSTANTIATE_TYPEINFO(tint::transform::MultiplanarExternalTexture);
TINT_INSTANTIATE_TYPEINFO(tint::transform::MultiplanarExternalTexture::NewBindingPoints);
using namespace tint::number_suffixes; // NOLINT
namespace tint::transform {
namespace {
/// This struct stores symbols for new bindings created as a result of transforming a
/// texture_external instance.
struct NewBindingSymbols {
Symbol params;
Symbol plane_0;
Symbol plane_1;
};
} // namespace
/// State holds the current transform state
struct MultiplanarExternalTexture::State {
/// The clone context.
CloneContext& ctx;
/// ProgramBuilder for the context
ProgramBuilder& b;
/// Destination binding locations for the expanded texture_external provided
/// as input into the transform.
const NewBindingPoints* new_binding_points;
/// Symbol for the GammaTransferParams
Symbol gamma_transfer_struct_sym;
/// Symbol for the ExternalTextureParams struct
Symbol params_struct_sym;
/// Symbol for the textureLoadExternal functions
utils::Hashmap<const sem::CallTarget*, Symbol, 2> texture_load_external_fns;
/// Symbol for the textureSampleExternal function
Symbol texture_sample_external_sym;
/// Symbol for the textureSampleExternalDEPRECATED function
Symbol texture_sample_external_deprecated_sym;
/// Symbol for the gammaCorrection function
Symbol gamma_correction_sym;
/// Storage for new bindings that have been created corresponding to an original
/// texture_external binding.
std::unordered_map<const sem::Variable*, NewBindingSymbols> new_binding_symbols;
/// Constructor
/// @param context the clone
/// @param newBindingPoints the input destination binding locations for the
/// expanded texture_external
State(CloneContext& context, const NewBindingPoints* newBindingPoints)
: ctx(context), b(*context.dst), new_binding_points(newBindingPoints) {}
/// Processes the module
void Process() {
auto& sem = ctx.src->Sem();
// For each texture_external binding, we replace it with a texture_2d<f32> binding and
// create two additional bindings (one texture_2d<f32> to represent the secondary plane and
// one uniform buffer for the ExternalTextureParams struct).
for (auto* global : ctx.src->AST().GlobalVariables()) {
auto* sem_var = sem.Get<sem::GlobalVariable>(global);
if (!sem_var->Type()->UnwrapRef()->Is<sem::ExternalTexture>()) {
continue;
}
// If the attributes are empty, then this must be a texture_external passed as a
// function parameter. These variables are transformed elsewhere.
if (global->attributes.IsEmpty()) {
continue;
}
// If we find a texture_external binding, we know we must emit the ExternalTextureParams
// struct.
if (!params_struct_sym.IsValid()) {
createExtTexParamsStructs();
}
// The binding points for the newly introduced bindings must have been provided to this
// transform. We fetch the new binding points by providing the original texture_external
// binding points into the passed map.
BindingPoint bp = sem_var->BindingPoint();
BindingsMap::const_iterator it = new_binding_points->bindings_map.find(bp);
if (it == new_binding_points->bindings_map.end()) {
b.Diagnostics().add_error(
diag::System::Transform,
"missing new binding points for texture_external at binding {" +
std::to_string(bp.group) + "," + std::to_string(bp.binding) + "}");
continue;
}
BindingPoints bps = it->second;
// Symbols for the newly created bindings must be saved so they can be passed as
// parameters later. These are placed in a map and keyed by the source symbol associated
// with the texture_external binding that corresponds with the new destination bindings.
// NewBindingSymbols new_binding_syms;
auto& syms = new_binding_symbols[sem_var];
syms.plane_0 = ctx.Clone(global->symbol);
syms.plane_1 = b.Symbols().New("ext_tex_plane_1");
b.GlobalVar(syms.plane_1, b.ty.sampled_texture(ast::TextureDimension::k2d, b.ty.f32()),
b.Group(AInt(bps.plane_1.group)), b.Binding(AInt(bps.plane_1.binding)));
syms.params = b.Symbols().New("ext_tex_params");
b.GlobalVar(syms.params, b.ty.type_name("ExternalTextureParams"),
ast::AddressSpace::kUniform, b.Group(AInt(bps.params.group)),
b.Binding(AInt(bps.params.binding)));
// Replace the original texture_external binding with a texture_2d<f32> binding.
auto cloned_attributes = ctx.Clone(global->attributes);
const ast::Expression* cloned_initializer = ctx.Clone(global->initializer);
auto* replacement =
b.Var(syms.plane_0, b.ty.sampled_texture(ast::TextureDimension::k2d, b.ty.f32()),
cloned_initializer, cloned_attributes);
ctx.Replace(global, replacement);
}
// We must update all the texture_external parameters for user declared functions.
for (auto* fn : ctx.src->AST().Functions()) {
for (const ast::Variable* param : fn->params) {
if (auto* sem_var = sem.Get(param)) {
if (!sem_var->Type()->UnwrapRef()->Is<sem::ExternalTexture>()) {
continue;
}
// If we find a texture_external, we must ensure the ExternalTextureParams
// struct exists.
if (!params_struct_sym.IsValid()) {
createExtTexParamsStructs();
}
// When a texture_external is found, we insert all components the
// texture_external into the parameter list. We must also place the new symbols
// into the transform state so they can be used when transforming function
// calls.
auto& syms = new_binding_symbols[sem_var];
syms.plane_0 = ctx.Clone(param->symbol);
syms.plane_1 = b.Symbols().New("ext_tex_plane_1");
syms.params = b.Symbols().New("ext_tex_params");
auto tex2d_f32 = [&] {
return b.ty.sampled_texture(ast::TextureDimension::k2d, b.ty.f32());
};
ctx.Replace(param, b.Param(syms.plane_0, tex2d_f32()));
ctx.InsertAfter(fn->params, param, b.Param(syms.plane_1, tex2d_f32()));
ctx.InsertAfter(fn->params, param,
b.Param(syms.params, b.ty.type_name(params_struct_sym)));
}
}
}
// Transform the external texture builtin calls into calls to the external texture
// functions.
ctx.ReplaceAll([&](const ast::CallExpression* expr) -> const ast::CallExpression* {
auto* call = sem.Get(expr)->UnwrapMaterialize()->As<sem::Call>();
auto* builtin = call->Target()->As<sem::Builtin>();
if (builtin && !builtin->Parameters().IsEmpty() &&
builtin->Parameters()[0]->Type()->Is<sem::ExternalTexture>() &&
builtin->Type() != sem::BuiltinType::kTextureDimensions) {
if (auto* var_user = sem.Get<sem::VariableUser>(expr->args[0])) {
auto it = new_binding_symbols.find(var_user->Variable());
if (it == new_binding_symbols.end()) {
// If valid new binding locations were not provided earlier, we would have
// been unable to create these symbols. An error message was emitted
// earlier, so just return early to avoid internal compiler errors and
// retain a clean error message.
return nullptr;
}
auto& syms = it->second;
switch (builtin->Type()) {
case sem::BuiltinType::kTextureLoad:
return createTextureLoad(call, syms);
case sem::BuiltinType::kTextureSampleLevel:
return createTextureSampleLevel(expr, syms);
case sem::BuiltinType::kTextureSampleBaseClampToEdge:
return createTextureSampleBaseClampToEdge(expr, syms);
default:
break;
}
}
} else if (call->Target()->Is<sem::Function>()) {
// The call expression may be to a user-defined function that contains a
// texture_external parameter. These need to be expanded out to multiple plane
// textures and the texture parameters structure.
for (auto* arg : expr->args) {
if (auto* var_user = sem.Get<sem::VariableUser>(arg)) {
// Check if a parameter is a texture_external by trying to find
// it in the transform state.
auto it = new_binding_symbols.find(var_user->Variable());
if (it != new_binding_symbols.end()) {
auto& syms = it->second;
// When we find a texture_external, we must unpack it into its
// components.
ctx.Replace(arg, b.Expr(syms.plane_0));
ctx.InsertAfter(expr->args, arg, b.Expr(syms.plane_1));
ctx.InsertAfter(expr->args, arg, b.Expr(syms.params));
}
}
}
}
return nullptr;
});
}
/// Creates the parameter structs associated with the transform.
void createExtTexParamsStructs() {
// Create GammaTransferParams struct.
utils::Vector gamma_transfer_member_list{
b.Member("G", b.ty.f32()), b.Member("A", b.ty.f32()), b.Member("B", b.ty.f32()),
b.Member("C", b.ty.f32()), b.Member("D", b.ty.f32()), b.Member("E", b.ty.f32()),
b.Member("F", b.ty.f32()), b.Member("padding", b.ty.u32())};
gamma_transfer_struct_sym = b.Symbols().New("GammaTransferParams");
b.Structure(gamma_transfer_struct_sym, gamma_transfer_member_list);
// Create ExternalTextureParams struct.
utils::Vector ext_tex_params_member_list{
b.Member("numPlanes", b.ty.u32()),
b.Member("doYuvToRgbConversionOnly", b.ty.u32()),
b.Member("yuvToRgbConversionMatrix", b.ty.mat3x4(b.ty.f32())),
b.Member("gammaDecodeParams", b.ty.type_name("GammaTransferParams")),
b.Member("gammaEncodeParams", b.ty.type_name("GammaTransferParams")),
b.Member("gamutConversionMatrix", b.ty.mat3x3(b.ty.f32()))};
params_struct_sym = b.Symbols().New("ExternalTextureParams");
b.Structure(params_struct_sym, ext_tex_params_member_list);
}
/// Creates the gammaCorrection function if needed and returns a call
/// expression to it.
void createGammaCorrectionFn() {
gamma_correction_sym = b.Symbols().New("gammaCorrection");
b.Func(
gamma_correction_sym,
utils::Vector{
b.Param("v", b.ty.vec3<f32>()),
b.Param("params", b.ty.type_name(gamma_transfer_struct_sym)),
},
b.ty.vec3<f32>(),
utils::Vector{
// let cond = abs(v) < vec3(params.D);
b.Decl(b.Let("cond", b.LessThan(b.Call("abs", "v"),
b.vec3<f32>(b.MemberAccessor("params", "D"))))),
// let t = sign(v) * ((params.C * abs(v)) + params.F);
b.Decl(b.Let("t",
b.Mul(b.Call("sign", "v"),
b.Add(b.Mul(b.MemberAccessor("params", "C"), b.Call("abs", "v")),
b.MemberAccessor("params", "F"))))),
// let f = (sign(v) * pow(((params.A * abs(v)) + params.B),
// vec3(params.G))) + params.E;
b.Decl(b.Let("f", b.Mul(b.Call("sign", "v"),
b.Add(b.Call("pow",
b.Add(b.Mul(b.MemberAccessor("params", "A"),
b.Call("abs", "v")),
b.MemberAccessor("params", "B")),
b.vec3<f32>(b.MemberAccessor("params", "G"))),
b.MemberAccessor("params", "E"))))),
// return select(f, t, cond);
b.Return(b.Call("select", "f", "t", "cond")),
});
}
/// Constructs a StatementList containing all the statements making up the body of the texture
/// builtin function.
/// @param call_type determines which function body to generate
/// @returns a statement list that makes of the body of the chosen function
auto buildTextureBuiltinBody(sem::BuiltinType call_type) {
utils::Vector<const ast::Statement*, 16> stmts;
const ast::CallExpression* single_plane_call = nullptr;
const ast::CallExpression* plane_0_call = nullptr;
const ast::CallExpression* plane_1_call = nullptr;
switch (call_type) {
case sem::BuiltinType::kTextureSampleLevel:
// TODO(crbug.com/tint/1671): DEPRECATED
// textureSampleLevel(plane0, smp, coord, 0.0);
single_plane_call = b.Call("textureSampleLevel", "plane0", "smp", "coord", 0_a);
// textureSampleLevel(plane0, smp, coord, 0.0);
plane_0_call = b.Call("textureSampleLevel", "plane0", "smp", "coord", 0_a);
// textureSampleLevel(plane1, smp, coord, 0.0);
plane_1_call = b.Call("textureSampleLevel", "plane1", "smp", "coord", 0_a);
break;
case sem::BuiltinType::kTextureSampleBaseClampToEdge:
stmts.Push(b.Decl(b.Let(
"plane0_dims",
b.Construct(b.ty.vec2<f32>(), b.Call("textureDimensions", "plane0", 0_a)))));
stmts.Push(
b.Decl(b.Let("plane0_half_texel", b.Div(b.vec2<f32>(0.5_a), "plane0_dims"))));
stmts.Push(
b.Decl(b.Let("plane0_clamped", b.Call("clamp", "coord", "plane0_half_texel",
b.Sub(1_a, "plane0_half_texel")))));
stmts.Push(b.Decl(b.Let(
"plane1_dims",
b.Construct(b.ty.vec2<f32>(), b.Call("textureDimensions", "plane1", 0_a)))));
stmts.Push(
b.Decl(b.Let("plane1_half_texel", b.Div(b.vec2<f32>(0.5_a), "plane1_dims"))));
stmts.Push(
b.Decl(b.Let("plane1_clamped", b.Call("clamp", "coord", "plane1_half_texel",
b.Sub(1_a, "plane1_half_texel")))));
// textureSampleLevel(plane0, smp, plane0_clamped, 0.0);
single_plane_call =
b.Call("textureSampleLevel", "plane0", "smp", "plane0_clamped", 0_a);
// textureSampleLevel(plane0, smp, plane0_clamped, 0.0);
plane_0_call = b.Call("textureSampleLevel", "plane0", "smp", "plane0_clamped", 0_a);
// textureSampleLevel(plane1, smp, plane1_clamped, 0.0);
plane_1_call = b.Call("textureSampleLevel", "plane1", "smp", "plane1_clamped", 0_a);
break;
case sem::BuiltinType::kTextureLoad:
// textureLoad(plane0, coord, 0);
single_plane_call = b.Call("textureLoad", "plane0", "coord", 0_a);
// textureLoad(plane0, coord, 0);
plane_0_call = b.Call("textureLoad", "plane0", "coord", 0_a);
// textureLoad(plane1, coord, 0);
plane_1_call = b.Call("textureLoad", "plane1", "coord", 0_a);
break;
default:
TINT_ICE(Transform, b.Diagnostics()) << "unhandled builtin: " << call_type;
}
// var color: vec3<f32>;
stmts.Push(b.Decl(b.Var("color", b.ty.vec3(b.ty.f32()))));
// if ((params.numPlanes == 1u))
stmts.Push(
b.If(b.Equal(b.MemberAccessor("params", "numPlanes"), b.Expr(1_a)),
b.Block(
// color = textureLoad(plane0, coord, 0).rgb;
b.Assign("color", b.MemberAccessor(single_plane_call, "rgb"))),
b.Else(b.Block(
// color = vec4<f32>(plane_0_call.r, plane_1_call.rg, 1.0) *
// params.yuvToRgbConversionMatrix;
b.Assign("color",
b.Mul(b.vec4<f32>(b.MemberAccessor(plane_0_call, "r"),
b.MemberAccessor(plane_1_call, "rg"), 1_a),
b.MemberAccessor("params", "yuvToRgbConversionMatrix")))))));
// if (params.doYuvToRgbConversionOnly == 0u)
stmts.Push(
b.If(b.Equal(b.MemberAccessor("params", "doYuvToRgbConversionOnly"), b.Expr(0_a)),
b.Block(
// color = gammaConversion(color, gammaDecodeParams);
b.Assign("color", b.Call("gammaCorrection", "color",
b.MemberAccessor("params", "gammaDecodeParams"))),
// color = (params.gamutConversionMatrix * color);
b.Assign("color",
b.Mul(b.MemberAccessor("params", "gamutConversionMatrix"), "color")),
// color = gammaConversion(color, gammaEncodeParams);
b.Assign("color", b.Call("gammaCorrection", "color",
b.MemberAccessor("params", "gammaEncodeParams"))))));
// return vec4<f32>(color, 1.f);
stmts.Push(b.Return(b.vec4<f32>("color", 1_a)));
return stmts;
}
/// Creates the textureSampleExternal function if needed and returns a call expression to it.
/// TODO(crbug.com/tint/1671): DEPRECATED: Replaced with createTextureSampleBaseClampToEdge().
/// @param expr the call expression being transformed
/// @param syms the expanded symbols to be used in the new call
/// @returns a call expression to textureSampleExternal
const ast::CallExpression* createTextureSampleLevel(const ast::CallExpression* expr,
NewBindingSymbols syms) {
const ast::Expression* plane_0_binding_param = ctx.Clone(expr->args[0]);
if (expr->args.Length() != 3) {
TINT_ICE(Transform, b.Diagnostics()) << "expected textureSampleLevel call with a "
"texture_external to have 3 parameters, found "
<< expr->args.Length() << " parameters";
}
// TextureSampleExternal calls the gammaCorrection function, so ensure it
// exists.
if (!gamma_correction_sym.IsValid()) {
createGammaCorrectionFn();
}
if (!texture_sample_external_sym.IsValid()) {
texture_sample_external_sym = b.Symbols().New("textureSampleExternal");
// Emit the textureSampleExternal function.
b.Func(
texture_sample_external_sym,
utils::Vector{
b.Param("plane0", b.ty.sampled_texture(ast::TextureDimension::k2d, b.ty.f32())),
b.Param("plane1", b.ty.sampled_texture(ast::TextureDimension::k2d, b.ty.f32())),
b.Param("smp", b.ty.sampler(ast::SamplerKind::kSampler)),
b.Param("coord", b.ty.vec2(b.ty.f32())),
b.Param("params", b.ty.type_name(params_struct_sym)),
},
b.ty.vec4(b.ty.f32()),
buildTextureBuiltinBody(sem::BuiltinType::kTextureSampleLevel));
}
const ast::IdentifierExpression* exp = b.Expr(texture_sample_external_sym);
return b.Call(exp, utils::Vector{
plane_0_binding_param,
b.Expr(syms.plane_1),
ctx.Clone(expr->args[1]),
ctx.Clone(expr->args[2]),
b.Expr(syms.params),
});
}
/// Creates the textureSampleExternal function if needed and returns a call expression to it.
/// @param expr the call expression being transformed
/// @param syms the expanded symbols to be used in the new call
/// @returns a call expression to textureSampleExternal
const ast::CallExpression* createTextureSampleBaseClampToEdge(const ast::CallExpression* expr,
NewBindingSymbols syms) {
const ast::Expression* plane_0_binding_param = ctx.Clone(expr->args[0]);
if (expr->args.Length() != 3) {
TINT_ICE(Transform, b.Diagnostics())
<< "expected textureSampleBaseClampToEdge call with a "
"texture_external to have 3 parameters, found "
<< expr->args.Length() << " parameters";
}
// TextureSampleExternal calls the gammaCorrection function, so ensure it
// exists.
if (!gamma_correction_sym.IsValid()) {
createGammaCorrectionFn();
}
if (!texture_sample_external_sym.IsValid()) {
texture_sample_external_sym = b.Symbols().New("textureSampleExternal");
// Emit the textureSampleExternal function.
b.Func(
texture_sample_external_sym,
utils::Vector{
b.Param("plane0", b.ty.sampled_texture(ast::TextureDimension::k2d, b.ty.f32())),
b.Param("plane1", b.ty.sampled_texture(ast::TextureDimension::k2d, b.ty.f32())),
b.Param("smp", b.ty.sampler(ast::SamplerKind::kSampler)),
b.Param("coord", b.ty.vec2(b.ty.f32())),
b.Param("params", b.ty.type_name(params_struct_sym)),
},
b.ty.vec4(b.ty.f32()),
buildTextureBuiltinBody(sem::BuiltinType::kTextureSampleBaseClampToEdge));
}
const ast::IdentifierExpression* exp = b.Expr(texture_sample_external_sym);
return b.Call(exp, utils::Vector{
plane_0_binding_param,
b.Expr(syms.plane_1),
ctx.Clone(expr->args[1]),
ctx.Clone(expr->args[2]),
b.Expr(syms.params),
});
}
/// Creates the textureLoadExternal function if needed and returns a call expression to it.
/// @param call the call expression being transformed
/// @param syms the expanded symbols to be used in the new call
/// @returns a call expression to textureLoadExternal
const ast::CallExpression* createTextureLoad(const sem::Call* call, NewBindingSymbols syms) {
if (call->Arguments().Length() != 2) {
TINT_ICE(Transform, b.Diagnostics())
<< "expected textureLoad call with a texture_external to have 2 arguments, found "
<< call->Arguments().Length() << " arguments";
}
auto& args = call->Arguments();
// TextureLoadExternal calls the gammaCorrection function, so ensure it exists.
if (!gamma_correction_sym.IsValid()) {
createGammaCorrectionFn();
}
auto texture_load_external_sym = texture_load_external_fns.GetOrCreate(call->Target(), [&] {
auto& sig = call->Target()->Signature();
auto* coord_ty = sig.Parameter(sem::ParameterUsage::kCoords)->Type();
auto name = b.Symbols().New("textureLoadExternal");
// Emit the textureLoadExternal() function.
b.Func(
name,
utils::Vector{
b.Param("plane0", b.ty.sampled_texture(ast::TextureDimension::k2d, b.ty.f32())),
b.Param("plane1", b.ty.sampled_texture(ast::TextureDimension::k2d, b.ty.f32())),
b.Param("coord", CreateASTTypeFor(ctx, coord_ty)),
b.Param("params", b.ty.type_name(params_struct_sym)),
},
b.ty.vec4(b.ty.f32()), //
buildTextureBuiltinBody(sem::BuiltinType::kTextureLoad));
return name;
});
auto plane_0_binding_arg = ctx.Clone(args[0]->Declaration());
return b.Call(texture_load_external_sym, plane_0_binding_arg, syms.plane_1,
ctx.Clone(args[1]->Declaration()), syms.params);
}
};
MultiplanarExternalTexture::NewBindingPoints::NewBindingPoints(BindingsMap inputBindingsMap)
: bindings_map(std::move(inputBindingsMap)) {}
MultiplanarExternalTexture::NewBindingPoints::~NewBindingPoints() = default;
MultiplanarExternalTexture::MultiplanarExternalTexture() = default;
MultiplanarExternalTexture::~MultiplanarExternalTexture() = default;
bool MultiplanarExternalTexture::ShouldRun(const Program* program, const DataMap&) const {
for (auto* node : program->ASTNodes().Objects()) {
if (auto* ty = node->As<ast::Type>()) {
if (program->Sem().Get<sem::ExternalTexture>(ty)) {
return true;
}
}
}
return false;
}
// Within this transform, an instance of a texture_external binding is unpacked into two
// texture_2d<f32> bindings representing two possible planes of a single texture and a uniform
// buffer binding representing a struct of parameters. Calls to texture builtins that contain a
// texture_external parameter will be transformed into a newly generated version of the function,
// which can perform the desired operation on a single RGBA plane or on separate Y and UV planes.
void MultiplanarExternalTexture::Run(CloneContext& ctx, const DataMap& inputs, DataMap&) const {
auto* new_binding_points = inputs.Get<NewBindingPoints>();
if (!new_binding_points) {
ctx.dst->Diagnostics().add_error(
diag::System::Transform,
"missing new binding point data for " + std::string(TypeInfo().name));
return;
}
State state(ctx, new_binding_points);
state.Process();
ctx.Clone();
}
} // namespace tint::transform