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https://github.com/yuzu-emu/sirit.git
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Add ellipsis overloads for instructions ending in vectors
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ee4ce61e62
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4b1c1d1e38
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@ -9,8 +9,8 @@
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#include <cstdint>
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#include <memory>
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#include <optional>
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#include <set>
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#include <string>
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#include <unordered_set>
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#include <variant>
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#include <vector>
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#include <spirv/unified1/spirv.hpp11>
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@ -52,10 +52,23 @@ public:
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void AddEntryPoint(spv::ExecutionModel execution_model, Id entry_point, const std::string& name,
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const std::vector<Id>& interfaces = {});
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/// Adds an entry point.
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template <typename... Ts>
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void AddEntryPoint(spv::ExecutionModel execution_model, Id entry_point, const std::string& name,
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Ts&&... interfaces) {
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AddEntryPoint(execution_model, entry_point, name, {interfaces...});
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}
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/// Declare an execution mode for an entry point.
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void AddExecutionMode(Id entry_point, spv::ExecutionMode mode,
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const std::vector<Literal>& literals = {});
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/// Declare an execution mode for an entry point.
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template <typename... Ts>
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void AddExecutionMode(Id entry_point, spv::ExecutionMode mode, Ts&&... literals) {
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AddExecutionMode(entry_point, mode, {literals...});
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}
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/**
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* Adds an instruction to module's code
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* @param op Instruction to insert into code. Types and constants must not
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@ -111,6 +124,12 @@ public:
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/// Returns type struct.
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Id OpTypeStruct(const std::vector<Id>& members = {});
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/// Returns type struct.
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template <typename... Ts>
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Id OpTypeStruct(Ts&&... members) {
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return OpTypeStruct({members...});
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}
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/// Returns type opaque.
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Id OpTypeOpaque(const std::string& name);
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@ -120,6 +139,12 @@ public:
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/// Returns type function.
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Id OpTypeFunction(Id return_type, const std::vector<Id>& arguments = {});
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/// Returns type function.
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template <typename... Ts>
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Id OpTypeFunction(Id return_type, Ts&&... arguments) {
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return OpTypeFunction(return_type, {arguments...});
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}
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/// Returns type event.
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Id OpTypeEvent();
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@ -149,6 +174,12 @@ public:
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/// Returns a numeric scalar constant.
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Id ConstantComposite(Id result_type, const std::vector<Id>& constituents);
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/// Returns a numeric scalar constant.
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template <typename... Ts>
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Id ConstantComposite(Id result_type, Ts&&... constituents) {
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return ConstantComposite(result_type, {constituents...});
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}
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/// Returns a sampler constant.
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Id ConstantSampler(Id result_type, spv::SamplerAddressingMode addressing_mode, bool normalized,
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spv::SamplerFilterMode filter_mode);
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@ -167,12 +198,25 @@ public:
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/// Call a function.
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Id OpFunctionCall(Id result_type, Id function, const std::vector<Id>& arguments = {});
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/// Call a function.
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template <typename... Ts>
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Id OpFunctionCall(Id result_type, Id function, Ts&&... arguments) {
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return OpFunctionCall(result_type, function, {arguments...});
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}
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// Flow
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/// Declare a structured loop.
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Id OpLoopMerge(Id merge_block, Id continue_target, spv::LoopControlMask loop_control,
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const std::vector<Id>& literals = {});
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/// Declare a structured loop.
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template <typename... Ts>
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Id OpLoopMerge(Id merge_block, Id continue_target, spv::LoopControlMask loop_control,
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Ts&&... literals) {
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return OpLoopMerge(merge_block, continue_target, loop_control, {literals...});
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}
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/// Declare a structured selection.
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Id OpSelectionMerge(Id merge_block, spv::SelectionControlMask selection_control);
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@ -232,29 +276,63 @@ public:
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/// Store through a pointer.
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Id OpStore(Id pointer, Id object, std::optional<spv::MemoryAccessMask> memory_access = {});
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/// Create a pointer into a composite object that can be used with OpLoad
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/// and OpStore.
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/// Create a pointer into a composite object that can be used with OpLoad and OpStore.
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Id OpAccessChain(Id result_type, Id base, const std::vector<Id>& indexes = {});
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/// Create a pointer into a composite object that can be used with OpLoad and OpStore.
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template <typename... Ts>
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Id OpAccessChain(Id result_type, Id base, Ts&&... indexes) {
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return OpAccessChain(result_type, base, {indexes...});
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}
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/// Make a copy of a composite object, while modifying one part of it.
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Id OpCompositeInsert(Id result_type, Id object, Id composite,
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const std::vector<Literal>& indexes = {});
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/// Make a copy of a composite object, while modifying one part of it.
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template <typename... Ts>
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Id OpCompositeInsert(Id result_type, Id object, Id composite, Ts&&... indexes) {
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return OpCompositeInsert(result_type, object, composite, {indexes...});
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}
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/// Extract a part of a composite object.
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Id OpCompositeExtract(Id result_type, Id composite, const std::vector<Literal>& indexes = {});
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/// Construct a new composite object from a set of constituent objects that
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/// will fully form it.
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/// Extract a part of a composite object.
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template <typename... Ts>
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Id OpCompositeExtract(Id result_type, Id composite, Ts&&... indexes) {
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return OpCompositeExtract(result_type, composite, {indexes...});
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}
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/// Construct a new composite object from a set of constituent objects that will fully form it.
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Id OpCompositeConstruct(Id result_type, const std::vector<Id>& ids);
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/// Construct a new composite object from a set of constituent objects that will fully form it.
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template <typename... Ts>
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Id OpCompositeConstruct(Id result_type, Ts&&... ids) {
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return OpCompositeConstruct(result_type, {ids...});
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}
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// Annotation
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/// Add a decoration to target.
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Id Decorate(Id target, spv::Decoration decoration, const std::vector<Literal>& literals = {});
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/// Add a decoration to target.
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template <typename... Ts>
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Id Decorate(Id target, spv::Decoration decoration, Ts&&... literals) {
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return Decorate(target, decoration, {literals...});
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}
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Id MemberDecorate(Id structure_type, Literal member, spv::Decoration decoration,
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const std::vector<Literal>& literals = {});
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template <typename... Ts>
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Id MemberDecorate(Id structure_type, Literal member, spv::Decoration decoration,
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Ts&&... literals) {
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return MemberDecorate(structure_type, member, decoration, {literals...});
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}
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// Misc
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/// Make an intermediate object whose value is undefined.
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@ -437,6 +515,11 @@ public:
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Id OpExtInst(Id result_type, Id set, std::uint32_t instruction,
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const std::vector<Id>& operands);
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template <typename... Ts>
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Id OpExtInst(Id result_type, Id set, std::uint32_t instruction, Ts&&... operands) {
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return OpExtInst(result_type, set, instruction, {operands...});
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}
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/// Result is x if x >= 0; otherwise result is -x.
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Id OpFAbs(Id result_type, Id x);
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@ -595,14 +678,13 @@ private:
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Id GetGLSLstd450();
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const std::uint32_t version;
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std::uint32_t version{};
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std::uint32_t bound{1};
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std::set<std::string> extensions;
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std::set<spv::Capability> capabilities;
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std::unordered_set<std::string> extensions;
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std::unordered_set<spv::Capability> capabilities;
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std::unordered_set<std::unique_ptr<Op>> ext_inst_import;
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std::unique_ptr<Op> glsl_std_450;
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std::set<std::unique_ptr<Op>> ext_inst_import;
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spv::AddressingModel addressing_model{spv::AddressingModel::Logical};
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spv::MemoryModel memory_model{spv::MemoryModel::GLSL450};
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@ -22,17 +22,17 @@ Id Module::OpExtInst(Id result_type, Id set, u32 instruction, const std::vector<
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#define DEFINE_UNARY(funcname, opcode) \
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Id Module::funcname(Id result_type, Id operand) { \
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return OpExtInst(result_type, GetGLSLstd450(), opcode, {operand}); \
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return OpExtInst(result_type, GetGLSLstd450(), opcode, operand); \
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}
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#define DEFINE_BINARY(funcname, opcode) \
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Id Module::funcname(Id result_type, Id operand_1, Id operand_2) { \
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return OpExtInst(result_type, GetGLSLstd450(), opcode, {operand_1, operand_2}); \
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return OpExtInst(result_type, GetGLSLstd450(), opcode, operand_1, operand_2); \
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}
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#define DEFINE_TRINARY(funcname, opcode) \
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Id Module::funcname(Id result_type, Id operand_1, Id operand_2, Id operand_3) { \
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return OpExtInst(result_type, GetGLSLstd450(), opcode, {operand_1, operand_2, operand_3}); \
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return OpExtInst(result_type, GetGLSLstd450(), opcode, operand_1, operand_2, operand_3); \
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}
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DEFINE_UNARY(OpFAbs, GLSLstd450FAbs)
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@ -4,9 +4,9 @@
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* Lesser General Public License version 3 or any later version.
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*/
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#include <sirit/sirit.h>
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#include <cstdio>
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#include <cstdlib>
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#include <sirit/sirit.h>
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using u32 = uint32_t;
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@ -18,7 +18,7 @@ public:
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void Generate() {
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AddCapability(spv::Capability::Shader);
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SetMemoryModel(spv::AddressingModel::Logical, spv::MemoryModel::GLSL450);
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const auto t_void = Name(OpTypeVoid(), "void");
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const auto t_uint = Name(OpTypeInt(32, false), "uint");
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const auto t_float = Name(OpTypeFloat(32), "float");
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@ -26,45 +26,52 @@ public:
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const auto float4 = Name(OpTypeVector(t_float, 4), "float4");
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const auto in_float = Name(OpTypePointer(spv::StorageClass::Input, t_float), "in_float");
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const auto in_float4 = Name(OpTypePointer(spv::StorageClass::Input, float4), "in_float4");
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const auto out_float4 = Name(OpTypePointer(spv::StorageClass::Output, float4), "out_float4");
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const auto out_float4 =
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Name(OpTypePointer(spv::StorageClass::Output, float4), "out_float4");
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const auto gl_per_vertex = Name(OpTypeStruct(float4), "gl_PerVertex");
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const auto gl_per_vertex_ptr =
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Name(OpTypePointer(spv::StorageClass::Output, gl_per_vertex), "out_gl_PerVertex");
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const auto gl_per_vertex = Name(OpTypeStruct({float4}), "gl_PerVertex");
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const auto gl_per_vertex_ptr = Name(OpTypePointer(spv::StorageClass::Output, gl_per_vertex), "out_gl_PerVertex");
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const auto in_pos = Name(OpVariable(in_float4, spv::StorageClass::Input), "in_pos");
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const auto per_vertex = Name(OpVariable(gl_per_vertex_ptr, spv::StorageClass::Output), "per_vertex");
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const auto per_vertex =
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Name(OpVariable(gl_per_vertex_ptr, spv::StorageClass::Output), "per_vertex");
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Decorate(in_pos, spv::Decoration::Location, {0});
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Decorate(in_pos, spv::Decoration::Location, 0);
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Decorate(gl_per_vertex, spv::Decoration::Block);
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Decorate(gl_per_vertex, spv::Decoration::Block);
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MemberDecorate(gl_per_vertex, 0, spv::Decoration::BuiltIn, {static_cast<u32>(spv::BuiltIn::Position)});
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MemberDecorate(gl_per_vertex, 0, spv::Decoration::BuiltIn,
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static_cast<u32>(spv::BuiltIn::Position));
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AddGlobalVariable(in_pos);
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AddGlobalVariable(per_vertex);
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const auto main_func = Emit(Name(OpFunction(t_void, spv::FunctionControlMask::MaskNone, OpTypeFunction(t_void)), "main"));
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const auto main_func = Emit(
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Name(OpFunction(t_void, spv::FunctionControlMask::MaskNone, OpTypeFunction(t_void)),
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"main"));
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Emit(OpLabel());
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const auto ptr_pos_x = Emit(OpAccessChain(in_float, in_pos, {Constant(t_uint, 0u)}));
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const auto ptr_pos_y = Emit(OpAccessChain(in_float, in_pos, {Constant(t_uint, 1u)}));
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const auto ptr_pos_x = Emit(OpAccessChain(in_float, in_pos, Constant(t_uint, 0u)));
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const auto ptr_pos_y = Emit(OpAccessChain(in_float, in_pos, Constant(t_uint, 1u)));
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const auto pos_x = Emit(OpLoad(t_float, ptr_pos_x));
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const auto pos_y = Emit(OpLoad(t_float, ptr_pos_y));
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auto tmp_position = Emit(OpUndef(float4));
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Decorate(tmp_position, spv::Decoration::FPRoundingMode, {static_cast<u32>(spv::FPRoundingMode::RTE)});
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tmp_position = Emit(OpCompositeInsert(float4, pos_x, tmp_position, {0}));
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tmp_position = Emit(OpCompositeInsert(float4, pos_y, tmp_position, {1}));
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tmp_position = Emit(OpCompositeInsert(float4, Constant(t_float, 0.f), tmp_position, {2}));
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tmp_position = Emit(OpCompositeInsert(float4, Constant(t_float, 1.f), tmp_position, {3}));
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Decorate(tmp_position, spv::Decoration::FPRoundingMode,
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static_cast<u32>(spv::FPRoundingMode::RTE));
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tmp_position = Emit(OpCompositeInsert(float4, pos_x, tmp_position, 0));
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tmp_position = Emit(OpCompositeInsert(float4, pos_y, tmp_position, 1));
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tmp_position = Emit(OpCompositeInsert(float4, Constant(t_float, 0.f), tmp_position, 2));
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tmp_position = Emit(OpCompositeInsert(float4, Constant(t_float, 1.f), tmp_position, 3));
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const auto gl_position = Emit(OpAccessChain(out_float4, per_vertex, {Constant(t_uint, 0u)}));
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const auto gl_position = Emit(OpAccessChain(out_float4, per_vertex, Constant(t_uint, 0u)));
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Emit(OpStore(gl_position, tmp_position));
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Emit(OpReturn());
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Emit(OpFunctionEnd());
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AddEntryPoint(spv::ExecutionModel::Vertex, main_func, "main", {in_pos, per_vertex});
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AddEntryPoint(spv::ExecutionModel::Vertex, main_func, "main", in_pos, per_vertex);
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}
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};
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