mirror of
https://github.com/KhronosGroup/SPIRV-Cross.git
synced 2024-11-08 21:30:05 +00:00
317144a59c
We had a bug where error conditions in DoWhileLoop emit path would not detect that statements were being emitted due to the masking behavior which happens when force_recompile is true. Fix this. Also, refactor force_recompile into member functions so we can properly break on any situation where this is set, without having to rely on watchpoints in debuggers.
548 lines
15 KiB
C++
548 lines
15 KiB
C++
/*
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* Copyright 2015-2019 Arm Limited
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#include "spirv_cpp.hpp"
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using namespace spv;
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using namespace SPIRV_CROSS_NAMESPACE;
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using namespace std;
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void CompilerCPP::emit_buffer_block(const SPIRVariable &var)
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{
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add_resource_name(var.self);
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auto &type = get<SPIRType>(var.basetype);
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auto instance_name = to_name(var.self);
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uint32_t descriptor_set = ir.meta[var.self].decoration.set;
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uint32_t binding = ir.meta[var.self].decoration.binding;
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emit_block_struct(type);
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auto buffer_name = to_name(type.self);
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statement("internal::Resource<", buffer_name, type_to_array_glsl(type), "> ", instance_name, "__;");
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statement_no_indent("#define ", instance_name, " __res->", instance_name, "__.get()");
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resource_registrations.push_back(
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join("s.register_resource(", instance_name, "__", ", ", descriptor_set, ", ", binding, ");"));
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statement("");
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}
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void CompilerCPP::emit_interface_block(const SPIRVariable &var)
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{
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add_resource_name(var.self);
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auto &type = get<SPIRType>(var.basetype);
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const char *qual = var.storage == StorageClassInput ? "StageInput" : "StageOutput";
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const char *lowerqual = var.storage == StorageClassInput ? "stage_input" : "stage_output";
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auto instance_name = to_name(var.self);
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uint32_t location = ir.meta[var.self].decoration.location;
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string buffer_name;
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auto flags = ir.meta[type.self].decoration.decoration_flags;
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if (flags.get(DecorationBlock))
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{
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emit_block_struct(type);
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buffer_name = to_name(type.self);
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}
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else
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buffer_name = type_to_glsl(type);
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statement("internal::", qual, "<", buffer_name, type_to_array_glsl(type), "> ", instance_name, "__;");
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statement_no_indent("#define ", instance_name, " __res->", instance_name, "__.get()");
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resource_registrations.push_back(join("s.register_", lowerqual, "(", instance_name, "__", ", ", location, ");"));
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statement("");
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}
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void CompilerCPP::emit_shared(const SPIRVariable &var)
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{
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add_resource_name(var.self);
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auto instance_name = to_name(var.self);
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statement(CompilerGLSL::variable_decl(var), ";");
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statement_no_indent("#define ", instance_name, " __res->", instance_name);
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}
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void CompilerCPP::emit_uniform(const SPIRVariable &var)
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{
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add_resource_name(var.self);
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auto &type = get<SPIRType>(var.basetype);
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auto instance_name = to_name(var.self);
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uint32_t descriptor_set = ir.meta[var.self].decoration.set;
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uint32_t binding = ir.meta[var.self].decoration.binding;
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uint32_t location = ir.meta[var.self].decoration.location;
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string type_name = type_to_glsl(type);
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remap_variable_type_name(type, instance_name, type_name);
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if (type.basetype == SPIRType::Image || type.basetype == SPIRType::SampledImage ||
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type.basetype == SPIRType::AtomicCounter)
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{
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statement("internal::Resource<", type_name, type_to_array_glsl(type), "> ", instance_name, "__;");
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statement_no_indent("#define ", instance_name, " __res->", instance_name, "__.get()");
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resource_registrations.push_back(
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join("s.register_resource(", instance_name, "__", ", ", descriptor_set, ", ", binding, ");"));
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}
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else
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{
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statement("internal::UniformConstant<", type_name, type_to_array_glsl(type), "> ", instance_name, "__;");
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statement_no_indent("#define ", instance_name, " __res->", instance_name, "__.get()");
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resource_registrations.push_back(
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join("s.register_uniform_constant(", instance_name, "__", ", ", location, ");"));
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}
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statement("");
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}
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void CompilerCPP::emit_push_constant_block(const SPIRVariable &var)
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{
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add_resource_name(var.self);
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auto &type = get<SPIRType>(var.basetype);
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auto &flags = ir.meta[var.self].decoration.decoration_flags;
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if (flags.get(DecorationBinding) || flags.get(DecorationDescriptorSet))
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SPIRV_CROSS_THROW("Push constant blocks cannot be compiled to GLSL with Binding or Set syntax. "
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"Remap to location with reflection API first or disable these decorations.");
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emit_block_struct(type);
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auto buffer_name = to_name(type.self);
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auto instance_name = to_name(var.self);
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statement("internal::PushConstant<", buffer_name, type_to_array_glsl(type), "> ", instance_name, ";");
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statement_no_indent("#define ", instance_name, " __res->", instance_name, ".get()");
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resource_registrations.push_back(join("s.register_push_constant(", instance_name, "__", ");"));
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statement("");
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}
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void CompilerCPP::emit_block_struct(SPIRType &type)
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{
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// C++ can't do interface blocks, so we fake it by emitting a separate struct.
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// However, these structs are not allowed to alias anything, so remove it before
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// emitting the struct.
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//
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// The type we have here needs to be resolved to the non-pointer type so we can remove aliases.
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auto &self = get<SPIRType>(type.self);
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self.type_alias = 0;
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emit_struct(self);
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}
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void CompilerCPP::emit_resources()
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{
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for (auto &id : ir.ids)
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{
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if (id.get_type() == TypeConstant)
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{
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auto &c = id.get<SPIRConstant>();
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bool needs_declaration = c.specialization || c.is_used_as_lut;
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if (needs_declaration)
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{
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if (!options.vulkan_semantics && c.specialization)
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{
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c.specialization_constant_macro_name =
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constant_value_macro_name(get_decoration(c.self, DecorationSpecId));
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}
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emit_constant(c);
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}
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}
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else if (id.get_type() == TypeConstantOp)
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{
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emit_specialization_constant_op(id.get<SPIRConstantOp>());
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}
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}
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// Output all basic struct types which are not Block or BufferBlock as these are declared inplace
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// when such variables are instantiated.
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for (auto &id : ir.ids)
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{
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if (id.get_type() == TypeType)
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{
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auto &type = id.get<SPIRType>();
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if (type.basetype == SPIRType::Struct && type.array.empty() && !type.pointer &&
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(!ir.meta[type.self].decoration.decoration_flags.get(DecorationBlock) &&
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!ir.meta[type.self].decoration.decoration_flags.get(DecorationBufferBlock)))
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{
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emit_struct(type);
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}
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}
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}
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statement("struct Resources : ", resource_type);
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begin_scope();
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// Output UBOs and SSBOs
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for (auto &id : ir.ids)
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{
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if (id.get_type() == TypeVariable)
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{
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auto &var = id.get<SPIRVariable>();
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auto &type = get<SPIRType>(var.basetype);
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if (var.storage != StorageClassFunction && type.pointer && type.storage == StorageClassUniform &&
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!is_hidden_variable(var) &&
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(ir.meta[type.self].decoration.decoration_flags.get(DecorationBlock) ||
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ir.meta[type.self].decoration.decoration_flags.get(DecorationBufferBlock)))
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{
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emit_buffer_block(var);
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}
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}
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}
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// Output push constant blocks
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for (auto &id : ir.ids)
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{
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if (id.get_type() == TypeVariable)
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{
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auto &var = id.get<SPIRVariable>();
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auto &type = get<SPIRType>(var.basetype);
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if (!is_hidden_variable(var) && var.storage != StorageClassFunction && type.pointer &&
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type.storage == StorageClassPushConstant)
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{
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emit_push_constant_block(var);
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}
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}
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}
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// Output in/out interfaces.
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for (auto &id : ir.ids)
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{
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if (id.get_type() == TypeVariable)
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{
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auto &var = id.get<SPIRVariable>();
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auto &type = get<SPIRType>(var.basetype);
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if (var.storage != StorageClassFunction && !is_hidden_variable(var) && type.pointer &&
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(var.storage == StorageClassInput || var.storage == StorageClassOutput) &&
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interface_variable_exists_in_entry_point(var.self))
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{
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emit_interface_block(var);
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}
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}
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}
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// Output Uniform Constants (values, samplers, images, etc).
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for (auto &id : ir.ids)
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{
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if (id.get_type() == TypeVariable)
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{
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auto &var = id.get<SPIRVariable>();
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auto &type = get<SPIRType>(var.basetype);
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if (var.storage != StorageClassFunction && !is_hidden_variable(var) && type.pointer &&
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(type.storage == StorageClassUniformConstant || type.storage == StorageClassAtomicCounter))
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{
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emit_uniform(var);
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}
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}
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}
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// Global variables.
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bool emitted = false;
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for (auto global : global_variables)
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{
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auto &var = get<SPIRVariable>(global);
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if (var.storage == StorageClassWorkgroup)
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{
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emit_shared(var);
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emitted = true;
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}
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}
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if (emitted)
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statement("");
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declare_undefined_values();
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statement("inline void init(spirv_cross_shader& s)");
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begin_scope();
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statement(resource_type, "::init(s);");
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for (auto ® : resource_registrations)
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statement(reg);
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end_scope();
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resource_registrations.clear();
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end_scope_decl();
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statement("");
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statement("Resources* __res;");
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if (get_entry_point().model == ExecutionModelGLCompute)
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statement("ComputePrivateResources __priv_res;");
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statement("");
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// Emit regular globals which are allocated per invocation.
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emitted = false;
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for (auto global : global_variables)
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{
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auto &var = get<SPIRVariable>(global);
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if (var.storage == StorageClassPrivate)
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{
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if (var.storage == StorageClassWorkgroup)
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emit_shared(var);
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else
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statement(CompilerGLSL::variable_decl(var), ";");
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emitted = true;
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}
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}
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if (emitted)
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statement("");
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}
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string CompilerCPP::compile()
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{
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// Do not deal with ES-isms like precision, older extensions and such.
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options.es = false;
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options.version = 450;
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backend.float_literal_suffix = true;
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backend.double_literal_suffix = false;
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backend.long_long_literal_suffix = true;
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backend.uint32_t_literal_suffix = true;
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backend.basic_int_type = "int32_t";
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backend.basic_uint_type = "uint32_t";
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backend.swizzle_is_function = true;
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backend.shared_is_implied = true;
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backend.flexible_member_array_supported = false;
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backend.explicit_struct_type = true;
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backend.use_initializer_list = true;
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build_function_control_flow_graphs_and_analyze();
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update_active_builtins();
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uint32_t pass_count = 0;
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do
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{
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if (pass_count >= 3)
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SPIRV_CROSS_THROW("Over 3 compilation loops detected. Must be a bug!");
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resource_registrations.clear();
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reset();
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// Move constructor for this type is broken on GCC 4.9 ...
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buffer = unique_ptr<ostringstream>(new ostringstream());
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emit_header();
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emit_resources();
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emit_function(get<SPIRFunction>(ir.default_entry_point), Bitset());
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pass_count++;
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} while (is_forcing_recompilation());
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// Match opening scope of emit_header().
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end_scope_decl();
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// namespace
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end_scope();
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// Emit C entry points
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emit_c_linkage();
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// Entry point in CPP is always main() for the time being.
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get_entry_point().name = "main";
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return buffer->str();
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}
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void CompilerCPP::emit_c_linkage()
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{
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statement("");
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statement("spirv_cross_shader_t *spirv_cross_construct(void)");
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begin_scope();
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statement("return new ", impl_type, "();");
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end_scope();
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statement("");
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statement("void spirv_cross_destruct(spirv_cross_shader_t *shader)");
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begin_scope();
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statement("delete static_cast<", impl_type, "*>(shader);");
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end_scope();
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statement("");
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statement("void spirv_cross_invoke(spirv_cross_shader_t *shader)");
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begin_scope();
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statement("static_cast<", impl_type, "*>(shader)->invoke();");
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end_scope();
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statement("");
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statement("static const struct spirv_cross_interface vtable =");
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begin_scope();
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statement("spirv_cross_construct,");
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statement("spirv_cross_destruct,");
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statement("spirv_cross_invoke,");
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end_scope_decl();
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statement("");
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statement("const struct spirv_cross_interface *",
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interface_name.empty() ? string("spirv_cross_get_interface") : interface_name, "(void)");
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begin_scope();
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statement("return &vtable;");
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end_scope();
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}
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void CompilerCPP::emit_function_prototype(SPIRFunction &func, const Bitset &)
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{
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if (func.self != ir.default_entry_point)
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add_function_overload(func);
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local_variable_names = resource_names;
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string decl;
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auto &type = get<SPIRType>(func.return_type);
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decl += "inline ";
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decl += type_to_glsl(type);
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decl += " ";
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if (func.self == ir.default_entry_point)
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{
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decl += "main";
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processing_entry_point = true;
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}
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else
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decl += to_name(func.self);
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decl += "(";
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for (auto &arg : func.arguments)
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{
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add_local_variable_name(arg.id);
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decl += argument_decl(arg);
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if (&arg != &func.arguments.back())
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decl += ", ";
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// Hold a pointer to the parameter so we can invalidate the readonly field if needed.
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auto *var = maybe_get<SPIRVariable>(arg.id);
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if (var)
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var->parameter = &arg;
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}
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decl += ")";
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statement(decl);
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}
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string CompilerCPP::argument_decl(const SPIRFunction::Parameter &arg)
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{
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auto &type = expression_type(arg.id);
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bool constref = !type.pointer || arg.write_count == 0;
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auto &var = get<SPIRVariable>(arg.id);
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string base = type_to_glsl(type);
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string variable_name = to_name(var.self);
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remap_variable_type_name(type, variable_name, base);
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for (uint32_t i = 0; i < type.array.size(); i++)
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base = join("std::array<", base, ", ", to_array_size(type, i), ">");
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return join(constref ? "const " : "", base, " &", variable_name);
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}
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string CompilerCPP::variable_decl(const SPIRType &type, const string &name, uint32_t /* id */)
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{
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string base = type_to_glsl(type);
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remap_variable_type_name(type, name, base);
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bool runtime = false;
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for (uint32_t i = 0; i < type.array.size(); i++)
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{
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auto &array = type.array[i];
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if (!array && type.array_size_literal[i])
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{
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// Avoid using runtime arrays with std::array since this is undefined.
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// Runtime arrays cannot be passed around as values, so this is fine.
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runtime = true;
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}
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else
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base = join("std::array<", base, ", ", to_array_size(type, i), ">");
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}
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base += ' ';
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return base + name + (runtime ? "[1]" : "");
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}
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void CompilerCPP::emit_header()
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{
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auto &execution = get_entry_point();
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statement("// This C++ shader is autogenerated by spirv-cross.");
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statement("#include \"spirv_cross/internal_interface.hpp\"");
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statement("#include \"spirv_cross/external_interface.h\"");
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// Needed to properly implement GLSL-style arrays.
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statement("#include <array>");
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statement("#include <stdint.h>");
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statement("");
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statement("using namespace spirv_cross;");
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statement("using namespace glm;");
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statement("");
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statement("namespace Impl");
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begin_scope();
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switch (execution.model)
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{
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case ExecutionModelGeometry:
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case ExecutionModelTessellationControl:
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case ExecutionModelTessellationEvaluation:
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case ExecutionModelGLCompute:
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case ExecutionModelFragment:
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case ExecutionModelVertex:
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statement("struct Shader");
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begin_scope();
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break;
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default:
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SPIRV_CROSS_THROW("Unsupported execution model.");
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}
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switch (execution.model)
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{
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case ExecutionModelGeometry:
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impl_type = "GeometryShader<Impl::Shader, Impl::Shader::Resources>";
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resource_type = "GeometryResources";
|
|
break;
|
|
|
|
case ExecutionModelVertex:
|
|
impl_type = "VertexShader<Impl::Shader, Impl::Shader::Resources>";
|
|
resource_type = "VertexResources";
|
|
break;
|
|
|
|
case ExecutionModelFragment:
|
|
impl_type = "FragmentShader<Impl::Shader, Impl::Shader::Resources>";
|
|
resource_type = "FragmentResources";
|
|
break;
|
|
|
|
case ExecutionModelGLCompute:
|
|
impl_type = join("ComputeShader<Impl::Shader, Impl::Shader::Resources, ", execution.workgroup_size.x, ", ",
|
|
execution.workgroup_size.y, ", ", execution.workgroup_size.z, ">");
|
|
resource_type = "ComputeResources";
|
|
break;
|
|
|
|
case ExecutionModelTessellationControl:
|
|
impl_type = "TessControlShader<Impl::Shader, Impl::Shader::Resources>";
|
|
resource_type = "TessControlResources";
|
|
break;
|
|
|
|
case ExecutionModelTessellationEvaluation:
|
|
impl_type = "TessEvaluationShader<Impl::Shader, Impl::Shader::Resources>";
|
|
resource_type = "TessEvaluationResources";
|
|
break;
|
|
|
|
default:
|
|
SPIRV_CROSS_THROW("Unsupported execution model.");
|
|
}
|
|
}
|