zdray/thirdparty/ShaderCompiler/glslang/MachineIndependent/iomapper.h

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//
// Copyright (C) 2016 LunarG, Inc.
//
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions
// are met:
//
// Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
//
// Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following
// disclaimer in the documentation and/or other materials provided
// with the distribution.
//
// Neither the name of 3Dlabs Inc. Ltd. nor the names of its
// contributors may be used to endorse or promote products derived
// from this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
// FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
// COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
// INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
// BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
// LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
// CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
// LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
// ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
// POSSIBILITY OF SUCH DAMAGE.
//
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#if !defined(GLSLANG_WEB) && !defined(GLSLANG_ANGLE)
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#ifndef _IOMAPPER_INCLUDED
#define _IOMAPPER_INCLUDED
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#include <cstdint>
#include "LiveTraverser.h"
#include <unordered_map>
#include <unordered_set>
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//
// A reflection database and its interface, consistent with the OpenGL API reflection queries.
//
class TInfoSink;
namespace glslang {
class TIntermediate;
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struct TVarEntryInfo {
long long id;
TIntermSymbol* symbol;
bool live;
int newBinding;
int newSet;
int newLocation;
int newComponent;
int newIndex;
EShLanguage stage;
struct TOrderById {
inline bool operator()(const TVarEntryInfo& l, const TVarEntryInfo& r) { return l.id < r.id; }
};
struct TOrderByPriority {
// ordering:
// 1) has both binding and set
// 2) has binding but no set
// 3) has no binding but set
// 4) has no binding and no set
inline bool operator()(const TVarEntryInfo& l, const TVarEntryInfo& r) {
const TQualifier& lq = l.symbol->getQualifier();
const TQualifier& rq = r.symbol->getQualifier();
// simple rules:
// has binding gives 2 points
// has set gives 1 point
// who has the most points is more important.
int lPoints = (lq.hasBinding() ? 2 : 0) + (lq.hasSet() ? 1 : 0);
int rPoints = (rq.hasBinding() ? 2 : 0) + (rq.hasSet() ? 1 : 0);
if (lPoints == rPoints)
return l.id < r.id;
return lPoints > rPoints;
}
};
struct TOrderByPriorityAndLive {
// ordering:
// 1) do live variables first
// 2) has both binding and set
// 3) has binding but no set
// 4) has no binding but set
// 5) has no binding and no set
inline bool operator()(const TVarEntryInfo& l, const TVarEntryInfo& r) {
const TQualifier& lq = l.symbol->getQualifier();
const TQualifier& rq = r.symbol->getQualifier();
// simple rules:
// has binding gives 2 points
// has set gives 1 point
// who has the most points is more important.
int lPoints = (lq.hasBinding() ? 2 : 0) + (lq.hasSet() ? 1 : 0);
int rPoints = (rq.hasBinding() ? 2 : 0) + (rq.hasSet() ? 1 : 0);
if (l.live != r.live)
return l.live > r.live;
if (lPoints != rPoints)
return lPoints > rPoints;
return l.id < r.id;
}
};
};
// Base class for shared TIoMapResolver services, used by several derivations.
struct TDefaultIoResolverBase : public glslang::TIoMapResolver {
public:
TDefaultIoResolverBase(const TIntermediate& intermediate);
typedef std::vector<int> TSlotSet;
typedef std::unordered_map<int, TSlotSet> TSlotSetMap;
// grow the reflection stage by stage
void notifyBinding(EShLanguage, TVarEntryInfo& /*ent*/) override {}
void notifyInOut(EShLanguage, TVarEntryInfo& /*ent*/) override {}
void beginNotifications(EShLanguage) override {}
void endNotifications(EShLanguage) override {}
void beginResolve(EShLanguage) override {}
void endResolve(EShLanguage) override {}
void beginCollect(EShLanguage) override {}
void endCollect(EShLanguage) override {}
void reserverResourceSlot(TVarEntryInfo& /*ent*/, TInfoSink& /*infoSink*/) override {}
void reserverStorageSlot(TVarEntryInfo& /*ent*/, TInfoSink& /*infoSink*/) override {}
int getBaseBinding(EShLanguage stage, TResourceType res, unsigned int set) const;
const std::vector<std::string>& getResourceSetBinding(EShLanguage stage) const;
virtual TResourceType getResourceType(const glslang::TType& type) = 0;
bool doAutoBindingMapping() const;
bool doAutoLocationMapping() const;
TSlotSet::iterator findSlot(int set, int slot);
bool checkEmpty(int set, int slot);
bool validateInOut(EShLanguage /*stage*/, TVarEntryInfo& /*ent*/) override { return true; }
int reserveSlot(int set, int slot, int size = 1);
int getFreeSlot(int set, int base, int size = 1);
int resolveSet(EShLanguage /*stage*/, TVarEntryInfo& ent) override;
int resolveUniformLocation(EShLanguage /*stage*/, TVarEntryInfo& ent) override;
int resolveInOutLocation(EShLanguage stage, TVarEntryInfo& ent) override;
int resolveInOutComponent(EShLanguage /*stage*/, TVarEntryInfo& ent) override;
int resolveInOutIndex(EShLanguage /*stage*/, TVarEntryInfo& ent) override;
void addStage(EShLanguage stage, TIntermediate& stageIntermediate) override {
if (stage < EShLangCount) {
stageMask[stage] = true;
stageIntermediates[stage] = &stageIntermediate;
}
}
uint32_t computeTypeLocationSize(const TType& type, EShLanguage stage);
TSlotSetMap slots;
bool hasError = false;
protected:
TDefaultIoResolverBase(TDefaultIoResolverBase&);
TDefaultIoResolverBase& operator=(TDefaultIoResolverBase&);
const TIntermediate& intermediate;
int nextUniformLocation;
int nextInputLocation;
int nextOutputLocation;
bool stageMask[EShLangCount + 1];
const TIntermediate* stageIntermediates[EShLangCount];
// Return descriptor set specific base if there is one, and the generic base otherwise.
int selectBaseBinding(int base, int descriptorSetBase) const {
return descriptorSetBase != -1 ? descriptorSetBase : base;
}
static int getLayoutSet(const glslang::TType& type) {
if (type.getQualifier().hasSet())
return type.getQualifier().layoutSet;
else
return 0;
}
static bool isSamplerType(const glslang::TType& type) {
return type.getBasicType() == glslang::EbtSampler && type.getSampler().isPureSampler();
}
static bool isTextureType(const glslang::TType& type) {
return (type.getBasicType() == glslang::EbtSampler &&
(type.getSampler().isTexture() || type.getSampler().isSubpass()));
}
static bool isUboType(const glslang::TType& type) {
return type.getQualifier().storage == EvqUniform;
}
static bool isImageType(const glslang::TType& type) {
return type.getBasicType() == glslang::EbtSampler && type.getSampler().isImage();
}
static bool isSsboType(const glslang::TType& type) {
return type.getQualifier().storage == EvqBuffer;
}
// Return true if this is a SRV (shader resource view) type:
static bool isSrvType(const glslang::TType& type) {
return isTextureType(type) || type.getQualifier().storage == EvqBuffer;
}
// Return true if this is a UAV (unordered access view) type:
static bool isUavType(const glslang::TType& type) {
if (type.getQualifier().isReadOnly())
return false;
return (type.getBasicType() == glslang::EbtSampler && type.getSampler().isImage()) ||
(type.getQualifier().storage == EvqBuffer);
}
};
// Default I/O resolver for OpenGL
struct TDefaultGlslIoResolver : public TDefaultIoResolverBase {
public:
typedef std::map<TString, int> TVarSlotMap; // <resourceName, location/binding>
typedef std::map<int, TVarSlotMap> TSlotMap; // <resourceKey, TVarSlotMap>
TDefaultGlslIoResolver(const TIntermediate& intermediate);
bool validateBinding(EShLanguage /*stage*/, TVarEntryInfo& /*ent*/) override { return true; }
TResourceType getResourceType(const glslang::TType& type) override;
int resolveInOutLocation(EShLanguage stage, TVarEntryInfo& ent) override;
int resolveUniformLocation(EShLanguage /*stage*/, TVarEntryInfo& ent) override;
int resolveBinding(EShLanguage /*stage*/, TVarEntryInfo& ent) override;
void beginResolve(EShLanguage /*stage*/) override;
void endResolve(EShLanguage stage) override;
void beginCollect(EShLanguage) override;
void endCollect(EShLanguage) override;
void reserverStorageSlot(TVarEntryInfo& ent, TInfoSink& infoSink) override;
void reserverResourceSlot(TVarEntryInfo& ent, TInfoSink& infoSink) override;
// in/out symbol and uniform symbol are stored in the same resourceSlotMap, the storage key is used to identify each type of symbol.
// We use stage and storage qualifier to construct a storage key. it can help us identify the same storage resource used in different stage.
// if a resource is a program resource and we don't need know it usage stage, we can use same stage to build storage key.
// Note: both stage and type must less then 0xffff.
int buildStorageKey(EShLanguage stage, TStorageQualifier type) {
assert(static_cast<uint32_t>(stage) <= 0x0000ffff && static_cast<uint32_t>(type) <= 0x0000ffff);
return (stage << 16) | type;
}
protected:
// Use for mark pre stage, to get more interface symbol information.
EShLanguage preStage;
// Use for mark current shader stage for resolver
EShLanguage currentStage;
// Slot map for storage resource(location of uniform and interface symbol) It's a program share slot
TSlotMap resourceSlotMap;
// Slot map for other resource(image, ubo, ssbo), It's a program share slot.
TSlotMap storageSlotMap;
};
typedef std::map<TString, TVarEntryInfo> TVarLiveMap;
// override function "operator=", if a vector<const _Kty, _Ty> being sort,
// when use vc++, the sort function will call :
// pair& operator=(const pair<_Other1, _Other2>& _Right)
// {
// first = _Right.first;
// second = _Right.second;
// return (*this);
// }
// that will make a const type handing on left.
// override this function can avoid a compiler error.
// In the future, if the vc++ compiler can handle such a situation,
// this part of the code will be removed.
struct TVarLivePair : std::pair<const TString, TVarEntryInfo> {
TVarLivePair(const std::pair<const TString, TVarEntryInfo>& _Right) : pair(_Right.first, _Right.second) {}
TVarLivePair& operator=(const TVarLivePair& _Right) {
const_cast<TString&>(first) = _Right.first;
second = _Right.second;
return (*this);
}
TVarLivePair(const TVarLivePair& src) : pair(src) { }
};
typedef std::vector<TVarLivePair> TVarLiveVector;
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// I/O mapper
class TIoMapper {
public:
TIoMapper() {}
virtual ~TIoMapper() {}
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// grow the reflection stage by stage
bool virtual addStage(EShLanguage, TIntermediate&, TInfoSink&, TIoMapResolver*);
bool virtual doMap(TIoMapResolver*, TInfoSink&) { return true; }
};
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// I/O mapper for OpenGL
class TGlslIoMapper : public TIoMapper {
public:
TGlslIoMapper() {
memset(inVarMaps, 0, sizeof(TVarLiveMap*) * (EShLangCount + 1));
memset(outVarMaps, 0, sizeof(TVarLiveMap*) * (EShLangCount + 1));
memset(uniformVarMap, 0, sizeof(TVarLiveMap*) * (EShLangCount + 1));
memset(intermediates, 0, sizeof(TIntermediate*) * (EShLangCount + 1));
profile = ENoProfile;
version = 0;
}
virtual ~TGlslIoMapper() {
for (size_t stage = 0; stage < EShLangCount; stage++) {
if (inVarMaps[stage] != nullptr) {
delete inVarMaps[stage];
inVarMaps[stage] = nullptr;
}
if (outVarMaps[stage] != nullptr) {
delete outVarMaps[stage];
outVarMaps[stage] = nullptr;
}
if (uniformVarMap[stage] != nullptr) {
delete uniformVarMap[stage];
uniformVarMap[stage] = nullptr;
}
if (intermediates[stage] != nullptr)
intermediates[stage] = nullptr;
}
}
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// grow the reflection stage by stage
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bool addStage(EShLanguage, TIntermediate&, TInfoSink&, TIoMapResolver*) override;
bool doMap(TIoMapResolver*, TInfoSink&) override;
TVarLiveMap *inVarMaps[EShLangCount], *outVarMaps[EShLangCount],
*uniformVarMap[EShLangCount];
TIntermediate* intermediates[EShLangCount];
bool hadError = false;
EProfile profile;
int version;
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};
} // end namespace glslang
#endif // _IOMAPPER_INCLUDED
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#endif // !GLSLANG_WEB && !GLSLANG_ANGLE