bgfx/3rdparty/spirv-cross/spirv_cross_parsed_ir.cpp

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/*
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* Copyright 2018-2020 Arm Limited
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*
* 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 "spirv_cross_parsed_ir.hpp"
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#include <algorithm>
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#include <assert.h>
using namespace std;
using namespace spv;
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namespace SPIRV_CROSS_NAMESPACE
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{
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ParsedIR::ParsedIR()
{
// If we move ParsedIR, we need to make sure the pointer stays fixed since the child Variant objects consume a pointer to this group,
// so need an extra pointer here.
pool_group.reset(new ObjectPoolGroup);
pool_group->pools[TypeType].reset(new ObjectPool<SPIRType>);
pool_group->pools[TypeVariable].reset(new ObjectPool<SPIRVariable>);
pool_group->pools[TypeConstant].reset(new ObjectPool<SPIRConstant>);
pool_group->pools[TypeFunction].reset(new ObjectPool<SPIRFunction>);
pool_group->pools[TypeFunctionPrototype].reset(new ObjectPool<SPIRFunctionPrototype>);
pool_group->pools[TypeBlock].reset(new ObjectPool<SPIRBlock>);
pool_group->pools[TypeExtension].reset(new ObjectPool<SPIRExtension>);
pool_group->pools[TypeExpression].reset(new ObjectPool<SPIRExpression>);
pool_group->pools[TypeConstantOp].reset(new ObjectPool<SPIRConstantOp>);
pool_group->pools[TypeCombinedImageSampler].reset(new ObjectPool<SPIRCombinedImageSampler>);
pool_group->pools[TypeAccessChain].reset(new ObjectPool<SPIRAccessChain>);
pool_group->pools[TypeUndef].reset(new ObjectPool<SPIRUndef>);
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pool_group->pools[TypeString].reset(new ObjectPool<SPIRString>);
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}
// Should have been default-implemented, but need this on MSVC 2013.
ParsedIR::ParsedIR(ParsedIR &&other) SPIRV_CROSS_NOEXCEPT
{
*this = move(other);
}
ParsedIR &ParsedIR::operator=(ParsedIR &&other) SPIRV_CROSS_NOEXCEPT
{
if (this != &other)
{
pool_group = move(other.pool_group);
spirv = move(other.spirv);
meta = move(other.meta);
for (int i = 0; i < TypeCount; i++)
ids_for_type[i] = move(other.ids_for_type[i]);
ids_for_constant_or_type = move(other.ids_for_constant_or_type);
ids_for_constant_or_variable = move(other.ids_for_constant_or_variable);
declared_capabilities = move(other.declared_capabilities);
declared_extensions = move(other.declared_extensions);
block_meta = move(other.block_meta);
continue_block_to_loop_header = move(other.continue_block_to_loop_header);
entry_points = move(other.entry_points);
ids = move(other.ids);
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addressing_model = other.addressing_model;
memory_model = other.memory_model;
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default_entry_point = other.default_entry_point;
source = other.source;
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loop_iteration_depth_hard = other.loop_iteration_depth_hard;
loop_iteration_depth_soft = other.loop_iteration_depth_soft;
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}
return *this;
}
ParsedIR::ParsedIR(const ParsedIR &other)
: ParsedIR()
{
*this = other;
}
ParsedIR &ParsedIR::operator=(const ParsedIR &other)
{
if (this != &other)
{
spirv = other.spirv;
meta = other.meta;
for (int i = 0; i < TypeCount; i++)
ids_for_type[i] = other.ids_for_type[i];
ids_for_constant_or_type = other.ids_for_constant_or_type;
ids_for_constant_or_variable = other.ids_for_constant_or_variable;
declared_capabilities = other.declared_capabilities;
declared_extensions = other.declared_extensions;
block_meta = other.block_meta;
continue_block_to_loop_header = other.continue_block_to_loop_header;
entry_points = other.entry_points;
default_entry_point = other.default_entry_point;
source = other.source;
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loop_iteration_depth_hard = other.loop_iteration_depth_hard;
loop_iteration_depth_soft = other.loop_iteration_depth_soft;
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addressing_model = other.addressing_model;
memory_model = other.memory_model;
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// Very deliberate copying of IDs. There is no default copy constructor, nor a simple default constructor.
// Construct object first so we have the correct allocator set-up, then we can copy object into our new pool group.
ids.clear();
ids.reserve(other.ids.size());
for (size_t i = 0; i < other.ids.size(); i++)
{
ids.emplace_back(pool_group.get());
ids.back() = other.ids[i];
}
}
return *this;
}
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void ParsedIR::set_id_bounds(uint32_t bounds)
{
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ids.reserve(bounds);
while (ids.size() < bounds)
ids.emplace_back(pool_group.get());
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block_meta.resize(bounds);
}
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// Roll our own versions of these functions to avoid potential locale shenanigans.
static bool is_alpha(char c)
{
return (c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z');
}
static bool is_alphanumeric(char c)
{
return is_alpha(c) || (c >= '0' && c <= '9');
}
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static string ensure_valid_identifier(const string &name, bool member)
{
// Functions in glslangValidator are mangled with name(<mangled> stuff.
// Normally, we would never see '(' in any legal identifiers, so just strip them out.
auto str = name.substr(0, name.find('('));
for (uint32_t i = 0; i < str.size(); i++)
{
auto &c = str[i];
if (member)
{
// _m<num> variables are reserved by the internal implementation,
// otherwise, make sure the name is a valid identifier.
if (i == 0)
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c = is_alpha(c) ? c : '_';
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else if (i == 2 && str[0] == '_' && str[1] == 'm')
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c = is_alpha(c) ? c : '_';
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else
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c = is_alphanumeric(c) ? c : '_';
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}
else
{
// _<num> variables are reserved by the internal implementation,
// otherwise, make sure the name is a valid identifier.
if (i == 0 || (str[0] == '_' && i == 1))
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c = is_alpha(c) ? c : '_';
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else
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c = is_alphanumeric(c) ? c : '_';
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}
}
return str;
}
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const string &ParsedIR::get_name(ID id) const
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{
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auto *m = find_meta(id);
if (m)
return m->decoration.alias;
else
return empty_string;
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}
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const string &ParsedIR::get_member_name(TypeID id, uint32_t index) const
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{
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auto *m = find_meta(id);
if (m)
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{
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if (index >= m->members.size())
return empty_string;
return m->members[index].alias;
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}
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else
return empty_string;
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}
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void ParsedIR::set_name(ID id, const string &name)
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{
auto &str = meta[id].decoration.alias;
str.clear();
if (name.empty())
return;
// Reserved for temporaries.
if (name[0] == '_' && name.size() >= 2 && isdigit(name[1]))
return;
str = ensure_valid_identifier(name, false);
}
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void ParsedIR::set_member_name(TypeID id, uint32_t index, const string &name)
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{
meta[id].members.resize(max(meta[id].members.size(), size_t(index) + 1));
auto &str = meta[id].members[index].alias;
str.clear();
if (name.empty())
return;
// Reserved for unnamed members.
if (name[0] == '_' && name.size() >= 3 && name[1] == 'm' && isdigit(name[2]))
return;
str = ensure_valid_identifier(name, true);
}
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void ParsedIR::set_decoration_string(ID id, Decoration decoration, const string &argument)
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{
auto &dec = meta[id].decoration;
dec.decoration_flags.set(decoration);
switch (decoration)
{
case DecorationHlslSemanticGOOGLE:
dec.hlsl_semantic = argument;
break;
default:
break;
}
}
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void ParsedIR::set_decoration(ID id, Decoration decoration, uint32_t argument)
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{
auto &dec = meta[id].decoration;
dec.decoration_flags.set(decoration);
switch (decoration)
{
case DecorationBuiltIn:
dec.builtin = true;
dec.builtin_type = static_cast<BuiltIn>(argument);
break;
case DecorationLocation:
dec.location = argument;
break;
case DecorationComponent:
dec.component = argument;
break;
case DecorationOffset:
dec.offset = argument;
break;
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case DecorationXfbBuffer:
dec.xfb_buffer = argument;
break;
case DecorationXfbStride:
dec.xfb_stride = argument;
break;
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case DecorationArrayStride:
dec.array_stride = argument;
break;
case DecorationMatrixStride:
dec.matrix_stride = argument;
break;
case DecorationBinding:
dec.binding = argument;
break;
case DecorationDescriptorSet:
dec.set = argument;
break;
case DecorationInputAttachmentIndex:
dec.input_attachment = argument;
break;
case DecorationSpecId:
dec.spec_id = argument;
break;
case DecorationIndex:
dec.index = argument;
break;
case DecorationHlslCounterBufferGOOGLE:
meta[id].hlsl_magic_counter_buffer = argument;
meta[argument].hlsl_is_magic_counter_buffer = true;
break;
case DecorationFPRoundingMode:
dec.fp_rounding_mode = static_cast<FPRoundingMode>(argument);
break;
default:
break;
}
}
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void ParsedIR::set_member_decoration(TypeID id, uint32_t index, Decoration decoration, uint32_t argument)
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{
meta[id].members.resize(max(meta[id].members.size(), size_t(index) + 1));
auto &dec = meta[id].members[index];
dec.decoration_flags.set(decoration);
switch (decoration)
{
case DecorationBuiltIn:
dec.builtin = true;
dec.builtin_type = static_cast<BuiltIn>(argument);
break;
case DecorationLocation:
dec.location = argument;
break;
case DecorationComponent:
dec.component = argument;
break;
case DecorationBinding:
dec.binding = argument;
break;
case DecorationOffset:
dec.offset = argument;
break;
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case DecorationXfbBuffer:
dec.xfb_buffer = argument;
break;
case DecorationXfbStride:
dec.xfb_stride = argument;
break;
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case DecorationSpecId:
dec.spec_id = argument;
break;
case DecorationMatrixStride:
dec.matrix_stride = argument;
break;
case DecorationIndex:
dec.index = argument;
break;
default:
break;
}
}
// Recursively marks any constants referenced by the specified constant instruction as being used
// as an array length. The id must be a constant instruction (SPIRConstant or SPIRConstantOp).
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void ParsedIR::mark_used_as_array_length(ID id)
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{
switch (ids[id].get_type())
{
case TypeConstant:
get<SPIRConstant>(id).is_used_as_array_length = true;
break;
case TypeConstantOp:
{
auto &cop = get<SPIRConstantOp>(id);
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if (cop.opcode == OpCompositeExtract)
mark_used_as_array_length(cop.arguments[0]);
else if (cop.opcode == OpCompositeInsert)
{
mark_used_as_array_length(cop.arguments[0]);
mark_used_as_array_length(cop.arguments[1]);
}
else
for (uint32_t arg_id : cop.arguments)
mark_used_as_array_length(arg_id);
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break;
}
case TypeUndef:
break;
default:
assert(0);
}
}
Bitset ParsedIR::get_buffer_block_flags(const SPIRVariable &var) const
{
auto &type = get<SPIRType>(var.basetype);
assert(type.basetype == SPIRType::Struct);
// Some flags like non-writable, non-readable are actually found
// as member decorations. If all members have a decoration set, propagate
// the decoration up as a regular variable decoration.
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Bitset base_flags;
auto *m = find_meta(var.self);
if (m)
base_flags = m->decoration.decoration_flags;
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if (type.member_types.empty())
return base_flags;
Bitset all_members_flags = get_member_decoration_bitset(type.self, 0);
for (uint32_t i = 1; i < uint32_t(type.member_types.size()); i++)
all_members_flags.merge_and(get_member_decoration_bitset(type.self, i));
base_flags.merge_or(all_members_flags);
return base_flags;
}
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const Bitset &ParsedIR::get_member_decoration_bitset(TypeID id, uint32_t index) const
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{
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auto *m = find_meta(id);
if (m)
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{
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if (index >= m->members.size())
return cleared_bitset;
return m->members[index].decoration_flags;
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}
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else
return cleared_bitset;
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}
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bool ParsedIR::has_decoration(ID id, Decoration decoration) const
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{
return get_decoration_bitset(id).get(decoration);
}
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uint32_t ParsedIR::get_decoration(ID id, Decoration decoration) const
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{
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auto *m = find_meta(id);
if (!m)
return 0;
auto &dec = m->decoration;
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if (!dec.decoration_flags.get(decoration))
return 0;
switch (decoration)
{
case DecorationBuiltIn:
return dec.builtin_type;
case DecorationLocation:
return dec.location;
case DecorationComponent:
return dec.component;
case DecorationOffset:
return dec.offset;
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case DecorationXfbBuffer:
return dec.xfb_buffer;
case DecorationXfbStride:
return dec.xfb_stride;
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case DecorationBinding:
return dec.binding;
case DecorationDescriptorSet:
return dec.set;
case DecorationInputAttachmentIndex:
return dec.input_attachment;
case DecorationSpecId:
return dec.spec_id;
case DecorationArrayStride:
return dec.array_stride;
case DecorationMatrixStride:
return dec.matrix_stride;
case DecorationIndex:
return dec.index;
case DecorationFPRoundingMode:
return dec.fp_rounding_mode;
default:
return 1;
}
}
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const string &ParsedIR::get_decoration_string(ID id, Decoration decoration) const
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{
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auto *m = find_meta(id);
if (!m)
return empty_string;
auto &dec = m->decoration;
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if (!dec.decoration_flags.get(decoration))
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return empty_string;
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switch (decoration)
{
case DecorationHlslSemanticGOOGLE:
return dec.hlsl_semantic;
default:
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return empty_string;
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}
}
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void ParsedIR::unset_decoration(ID id, Decoration decoration)
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{
auto &dec = meta[id].decoration;
dec.decoration_flags.clear(decoration);
switch (decoration)
{
case DecorationBuiltIn:
dec.builtin = false;
break;
case DecorationLocation:
dec.location = 0;
break;
case DecorationComponent:
dec.component = 0;
break;
case DecorationOffset:
dec.offset = 0;
break;
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case DecorationXfbBuffer:
dec.xfb_buffer = 0;
break;
case DecorationXfbStride:
dec.xfb_stride = 0;
break;
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case DecorationBinding:
dec.binding = 0;
break;
case DecorationDescriptorSet:
dec.set = 0;
break;
case DecorationInputAttachmentIndex:
dec.input_attachment = 0;
break;
case DecorationSpecId:
dec.spec_id = 0;
break;
case DecorationHlslSemanticGOOGLE:
dec.hlsl_semantic.clear();
break;
case DecorationFPRoundingMode:
dec.fp_rounding_mode = FPRoundingModeMax;
break;
case DecorationHlslCounterBufferGOOGLE:
{
auto &counter = meta[id].hlsl_magic_counter_buffer;
if (counter)
{
meta[counter].hlsl_is_magic_counter_buffer = false;
counter = 0;
}
break;
}
default:
break;
}
}
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bool ParsedIR::has_member_decoration(TypeID id, uint32_t index, Decoration decoration) const
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{
return get_member_decoration_bitset(id, index).get(decoration);
}
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uint32_t ParsedIR::get_member_decoration(TypeID id, uint32_t index, Decoration decoration) const
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{
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auto *m = find_meta(id);
if (!m)
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return 0;
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if (index >= m->members.size())
return 0;
auto &dec = m->members[index];
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if (!dec.decoration_flags.get(decoration))
return 0;
switch (decoration)
{
case DecorationBuiltIn:
return dec.builtin_type;
case DecorationLocation:
return dec.location;
case DecorationComponent:
return dec.component;
case DecorationBinding:
return dec.binding;
case DecorationOffset:
return dec.offset;
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case DecorationXfbBuffer:
return dec.xfb_buffer;
case DecorationXfbStride:
return dec.xfb_stride;
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case DecorationSpecId:
return dec.spec_id;
case DecorationIndex:
return dec.index;
default:
return 1;
}
}
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const Bitset &ParsedIR::get_decoration_bitset(ID id) const
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{
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auto *m = find_meta(id);
if (m)
{
auto &dec = m->decoration;
return dec.decoration_flags;
}
else
return cleared_bitset;
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}
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void ParsedIR::set_member_decoration_string(TypeID id, uint32_t index, Decoration decoration, const string &argument)
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{
meta[id].members.resize(max(meta[id].members.size(), size_t(index) + 1));
auto &dec = meta[id].members[index];
dec.decoration_flags.set(decoration);
switch (decoration)
{
case DecorationHlslSemanticGOOGLE:
dec.hlsl_semantic = argument;
break;
default:
break;
}
}
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const string &ParsedIR::get_member_decoration_string(TypeID id, uint32_t index, Decoration decoration) const
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{
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auto *m = find_meta(id);
if (m)
{
if (!has_member_decoration(id, index, decoration))
return empty_string;
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auto &dec = m->members[index];
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switch (decoration)
{
case DecorationHlslSemanticGOOGLE:
return dec.hlsl_semantic;
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default:
return empty_string;
}
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}
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else
return empty_string;
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}
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void ParsedIR::unset_member_decoration(TypeID id, uint32_t index, Decoration decoration)
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{
auto &m = meta[id];
if (index >= m.members.size())
return;
auto &dec = m.members[index];
dec.decoration_flags.clear(decoration);
switch (decoration)
{
case DecorationBuiltIn:
dec.builtin = false;
break;
case DecorationLocation:
dec.location = 0;
break;
case DecorationComponent:
dec.component = 0;
break;
case DecorationOffset:
dec.offset = 0;
break;
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case DecorationXfbBuffer:
dec.xfb_buffer = 0;
break;
case DecorationXfbStride:
dec.xfb_stride = 0;
break;
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case DecorationSpecId:
dec.spec_id = 0;
break;
case DecorationHlslSemanticGOOGLE:
dec.hlsl_semantic.clear();
break;
default:
break;
}
}
uint32_t ParsedIR::increase_bound_by(uint32_t incr_amount)
{
auto curr_bound = ids.size();
auto new_bound = curr_bound + incr_amount;
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ids.reserve(ids.size() + incr_amount);
for (uint32_t i = 0; i < incr_amount; i++)
ids.emplace_back(pool_group.get());
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block_meta.resize(new_bound);
return uint32_t(curr_bound);
}
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void ParsedIR::remove_typed_id(Types type, ID id)
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{
auto &type_ids = ids_for_type[type];
type_ids.erase(remove(begin(type_ids), end(type_ids), id), end(type_ids));
}
void ParsedIR::reset_all_of_type(Types type)
{
for (auto &id : ids_for_type[type])
if (ids[id].get_type() == type)
ids[id].reset();
ids_for_type[type].clear();
}
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void ParsedIR::add_typed_id(Types type, ID id)
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{
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if (loop_iteration_depth_hard != 0)
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SPIRV_CROSS_THROW("Cannot add typed ID while looping over it.");
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if (loop_iteration_depth_soft != 0)
{
if (!ids[id].empty())
SPIRV_CROSS_THROW("Cannot override IDs when loop is soft locked.");
return;
}
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if (ids[id].empty() || ids[id].get_type() != type)
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{
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switch (type)
{
case TypeConstant:
ids_for_constant_or_variable.push_back(id);
ids_for_constant_or_type.push_back(id);
break;
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case TypeVariable:
ids_for_constant_or_variable.push_back(id);
break;
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case TypeType:
case TypeConstantOp:
ids_for_constant_or_type.push_back(id);
break;
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default:
break;
}
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}
if (ids[id].empty())
{
ids_for_type[type].push_back(id);
}
else if (ids[id].get_type() != type)
{
remove_typed_id(ids[id].get_type(), id);
ids_for_type[type].push_back(id);
}
}
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const Meta *ParsedIR::find_meta(ID id) const
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{
auto itr = meta.find(id);
if (itr != end(meta))
return &itr->second;
else
return nullptr;
}
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Meta *ParsedIR::find_meta(ID id)
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{
auto itr = meta.find(id);
if (itr != end(meta))
return &itr->second;
else
return nullptr;
}
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ParsedIR::LoopLock ParsedIR::create_loop_hard_lock() const
{
return ParsedIR::LoopLock(&loop_iteration_depth_hard);
}
ParsedIR::LoopLock ParsedIR::create_loop_soft_lock() const
{
return ParsedIR::LoopLock(&loop_iteration_depth_soft);
}
ParsedIR::LoopLock::~LoopLock()
{
if (lock)
(*lock)--;
}
ParsedIR::LoopLock::LoopLock(uint32_t *lock_)
: lock(lock_)
{
if (lock)
(*lock)++;
}
ParsedIR::LoopLock::LoopLock(LoopLock &&other) SPIRV_CROSS_NOEXCEPT
{
*this = move(other);
}
ParsedIR::LoopLock &ParsedIR::LoopLock::operator=(LoopLock &&other) SPIRV_CROSS_NOEXCEPT
{
if (lock)
(*lock)--;
lock = other.lock;
other.lock = nullptr;
return *this;
}
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void ParsedIR::make_constant_null(uint32_t id, uint32_t type, bool add_to_typed_id_set)
{
auto &constant_type = get<SPIRType>(type);
if (constant_type.pointer)
{
if (add_to_typed_id_set)
add_typed_id(TypeConstant, id);
auto &constant = variant_set<SPIRConstant>(ids[id], type);
constant.self = id;
constant.make_null(constant_type);
}
else if (!constant_type.array.empty())
{
assert(constant_type.parent_type);
uint32_t parent_id = increase_bound_by(1);
make_constant_null(parent_id, constant_type.parent_type, add_to_typed_id_set);
if (!constant_type.array_size_literal.back())
SPIRV_CROSS_THROW("Array size of OpConstantNull must be a literal.");
SmallVector<uint32_t> elements(constant_type.array.back());
for (uint32_t i = 0; i < constant_type.array.back(); i++)
elements[i] = parent_id;
if (add_to_typed_id_set)
add_typed_id(TypeConstant, id);
variant_set<SPIRConstant>(ids[id], type, elements.data(), uint32_t(elements.size()), false).self = id;
}
else if (!constant_type.member_types.empty())
{
uint32_t member_ids = increase_bound_by(uint32_t(constant_type.member_types.size()));
SmallVector<uint32_t> elements(constant_type.member_types.size());
for (uint32_t i = 0; i < constant_type.member_types.size(); i++)
{
make_constant_null(member_ids + i, constant_type.member_types[i], add_to_typed_id_set);
elements[i] = member_ids + i;
}
if (add_to_typed_id_set)
add_typed_id(TypeConstant, id);
variant_set<SPIRConstant>(ids[id], type, elements.data(), uint32_t(elements.size()), false).self = id;
}
else
{
if (add_to_typed_id_set)
add_typed_id(TypeConstant, id);
auto &constant = variant_set<SPIRConstant>(ids[id], type);
constant.self = id;
constant.make_null(constant_type);
}
}
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} // namespace SPIRV_CROSS_NAMESPACE