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android / platform / frameworks / compile / slang / 21c94c9 / . / slang_rs_export_type.h
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/*
* Copyright 2010-2012, The Android Open Source Project
*
* 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.
*/
#ifndef _FRAMEWORKS_COMPILE_SLANG_SLANG_RS_EXPORT_TYPE_H_ // NOLINT
#define _FRAMEWORKS_COMPILE_SLANG_SLANG_RS_EXPORT_TYPE_H_
#include <list>
#include <set>
#include <string>
#include <sstream>
#include "clang/AST/Decl.h"
#include "clang/AST/Type.h"
#include "llvm/ADT/SmallPtrSet.h"
#include "llvm/ADT/StringMap.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/Support/ManagedStatic.h"
#include "slang_rs_exportable.h"
inline const clang::Type* GetCanonicalType(const clang::Type* T) {
if (T == nullptr) {
return nullptr;
}
return T->getCanonicalTypeInternal().getTypePtr();
}
inline const clang::Type* GetCanonicalType(clang::QualType QT) {
return GetCanonicalType(QT.getTypePtr());
}
inline const clang::Type* GetExtVectorElementType(const clang::ExtVectorType *T) {
if (T == nullptr) {
return nullptr;
}
return GetCanonicalType(T->getElementType());
}
inline const clang::Type* GetPointeeType(const clang::PointerType *T) {
if (T == nullptr) {
return nullptr;
}
return GetCanonicalType(T->getPointeeType());
}
inline const clang::Type* GetConstantArrayElementType(const clang::ConstantArrayType *T) {
if (T == nullptr) {
return nullptr;
}
return GetCanonicalType(T->getElementType());
}
namespace llvm {
class Type;
} // namespace llvm
namespace slang {
class RSContext;
// Broad grouping of the data types
enum DataTypeCategory {
PrimitiveDataType,
MatrixDataType,
ObjectDataType
};
// From graphics/java/android/renderscript/Element.java: Element.DataType
/* NOTE: The values of the enums are found compiled in the bit code (i.e. as
* values, not symbolic. When adding new types, you must add them to the end.
* If removing types, you can't re-use the integer value.
*
* TODO: but if you do this, you won't be able to keep using First* & Last*
* for validation.
*
* IMPORTANT: This enum should correspond one-for-one to the entries found in the
* gReflectionsTypes table (except for the two negative numbers). Don't edit one without
* the other.
*/
enum DataType {
DataTypeIsStruct = -2,
DataTypeUnknown = -1,
DataTypeFloat16 = 0,
DataTypeFloat32 = 1,
DataTypeFloat64 = 2,
DataTypeSigned8 = 3,
DataTypeSigned16 = 4,
DataTypeSigned32 = 5,
DataTypeSigned64 = 6,
DataTypeUnsigned8 = 7,
DataTypeUnsigned16 = 8,
DataTypeUnsigned32 = 9,
DataTypeUnsigned64 = 10,
DataTypeBoolean = 11,
DataTypeUnsigned565 = 12,
DataTypeUnsigned5551 = 13,
DataTypeUnsigned4444 = 14,
DataTypeRSMatrix2x2 = 15,
DataTypeRSMatrix3x3 = 16,
DataTypeRSMatrix4x4 = 17,
DataTypeRSElement = 18,
DataTypeRSType = 19,
DataTypeRSAllocation = 20,
DataTypeRSSampler = 21,
DataTypeRSScript = 22,
DataTypeRSMesh = 23,
DataTypeRSPath = 24,
DataTypeRSProgramFragment = 25,
DataTypeRSProgramVertex = 26,
DataTypeRSProgramRaster = 27,
DataTypeRSProgramStore = 28,
DataTypeRSFont = 29,
// This should always be last and correspond to the size of the gReflectionTypes table.
DataTypeMax
};
typedef struct {
DataTypeCategory category;
const char * rs_type;
const char * rs_short_type;
uint32_t size_in_bits;
const char * c_name;
const char * java_name;
const char * rs_c_vector_prefix;
const char * rs_java_vector_prefix;
bool java_promotion;
} RSReflectionType;
typedef struct RSReflectionTypeData_rec {
const RSReflectionType *type;
uint32_t vecSize;
bool isPointer;
uint32_t arraySize;
// Subelements
//std::vector<const struct RSReflectionTypeData_rec *> fields;
//std::vector< std::string > fieldNames;
//std::vector< uint32_t> fieldOffsetBytes;
} RSReflectionTypeData;
// Make a name for types that are too complicated to create the real names.
std::string CreateDummyName(const char *type, const std::string &name);
inline bool IsDummyName(const llvm::StringRef &Name) {
return Name.startswith("<");
}
class RSExportType : public RSExportable {
friend class RSExportElement;
public:
typedef enum {
ExportClassPrimitive,
ExportClassPointer,
ExportClassVector,
ExportClassMatrix,
ExportClassConstantArray,
ExportClassRecord
} ExportClass;
void convertToRTD(RSReflectionTypeData *rtd) const;
private:
ExportClass mClass;
std::string mName;
// Cache the result after calling convertToLLVMType() at the first time
mutable llvm::Type *mLLVMType;
protected:
RSExportType(RSContext *Context,
ExportClass Class,
const llvm::StringRef &Name);
// Let's make it private since there're some prerequisites to call this
// function.
//
// @T was normalized by calling RSExportType::NormalizeType().
// @TypeName was retrieve from RSExportType::GetTypeName() before calling
// this.
//
static RSExportType *Create(RSContext *Context,
const clang::Type *T,
const llvm::StringRef &TypeName);
static llvm::StringRef GetTypeName(const clang::Type *T);
// This function convert the RSExportType to LLVM type. Actually, it should be
// "convert Clang type to LLVM type." However, clang doesn't make this API
// (lib/CodeGen/CodeGenTypes.h) public, we need to do by ourselves.
//
// Once we can get LLVM type, we can use LLVM to get alignment information,
// allocation size of a given type and structure layout that LLVM used
// (all of these information are target dependent) without dealing with these
// by ourselves.
virtual llvm::Type *convertToLLVMType() const = 0;
// Record type may recursively reference its type definition. We need a
// temporary type setup before the type construction gets done.
inline void setAbstractLLVMType(llvm::Type *LLVMType) const {
mLLVMType = LLVMType;
}
virtual ~RSExportType();
public:
// This function additionally verifies that the Type T is exportable.
// If it is not, this function returns false. Otherwise it returns true.
static bool NormalizeType(const clang::Type *&T,
llvm::StringRef &TypeName,
RSContext *Context,
const clang::VarDecl *VD);
// This function checks whether the specified type can be handled by RS/FS.
// If it cannot, this function returns false. Otherwise it returns true.
// Filterscript has additional restrictions on supported types.
static bool ValidateType(slang::RSContext *Context, clang::ASTContext &C,
clang::QualType QT, clang::NamedDecl *ND,
clang::SourceLocation Loc, unsigned int TargetAPI,
bool IsFilterscript, bool IsExtern);
// This function ensures that the VarDecl can be properly handled by RS.
// If it cannot, this function returns false. Otherwise it returns true.
// Filterscript has additional restrictions on supported types.
static bool ValidateVarDecl(slang::RSContext *Context, clang::VarDecl *VD,
unsigned int TargetAPI, bool IsFilterscript);
// @T may not be normalized
static RSExportType *Create(RSContext *Context, const clang::Type *T);
static RSExportType *CreateFromDecl(RSContext *Context,
const clang::VarDecl *VD);
static const clang::Type *GetTypeOfDecl(const clang::DeclaratorDecl *DD);
inline ExportClass getClass() const { return mClass; }
virtual unsigned getSize() const { return 1; }
inline llvm::Type *getLLVMType() const {
if (mLLVMType == nullptr)
mLLVMType = convertToLLVMType();
return mLLVMType;
}
// Return the maximum number of bytes that may be written when this type is stored.
virtual size_t getStoreSize() const;
// Return the distance in bytes between successive elements of this type; it includes padding.
virtual size_t getAllocSize() const;
inline const std::string &getName() const { return mName; }
virtual std::string getElementName() const {
// Base case is actually an invalid C/Java identifier.
return "@@INVALID@@";
}
virtual bool keep();
virtual bool equals(const RSExportable *E) const;
}; // RSExportType
// Primitive types
class RSExportPrimitiveType : public RSExportType {
friend class RSExportType;
friend class RSExportElement;
private:
DataType mType;
bool mNormalized;
typedef llvm::StringMap<DataType> RSSpecificTypeMapTy;
static llvm::ManagedStatic<RSSpecificTypeMapTy> RSSpecificTypeMap;
static const size_t SizeOfDataTypeInBits[];
// @T was normalized by calling RSExportType::NormalizeType() before calling
// this.
// @TypeName was retrieved from RSExportType::GetTypeName() before calling
// this
static RSExportPrimitiveType *Create(RSContext *Context,
const clang::Type *T,
const llvm::StringRef &TypeName,
bool Normalized = false);
protected:
RSExportPrimitiveType(RSContext *Context,
// for derived class to set their type class
ExportClass Class,
const llvm::StringRef &Name,
DataType DT,
bool Normalized)
: RSExportType(Context, Class, Name),
mType(DT),
mNormalized(Normalized) {
}
virtual llvm::Type *convertToLLVMType() const;
static DataType GetDataType(RSContext *Context, const clang::Type *T);
public:
// T is normalized by calling RSExportType::NormalizeType() before
// calling this
static bool IsPrimitiveType(const clang::Type *T);
// @T may not be normalized
static RSExportPrimitiveType *Create(RSContext *Context,
const clang::Type *T);
static DataType GetRSSpecificType(const llvm::StringRef &TypeName);
static DataType GetRSSpecificType(const clang::Type *T);
static bool IsRSMatrixType(DataType DT);
static bool IsRSObjectType(DataType DT);
static bool IsRSObjectType(const clang::Type *T) {
return IsRSObjectType(GetRSSpecificType(T));
}
// Determines whether T is [an array of] struct that contains at least one
// RS object type within it.
static bool IsStructureTypeWithRSObject(const clang::Type *T);
static size_t GetSizeInBits(const RSExportPrimitiveType *EPT);
inline DataType getType() const { return mType; }
inline bool isRSObjectType() const {
return IsRSObjectType(mType);
}
virtual bool equals(const RSExportable *E) const;
static RSReflectionType *getRSReflectionType(DataType DT);
static RSReflectionType *getRSReflectionType(
const RSExportPrimitiveType *EPT) {
return getRSReflectionType(EPT->getType());
}
virtual unsigned getSize() const { return (GetSizeInBits(this) >> 3); }
std::string getElementName() const {
return getRSReflectionType(this)->rs_short_type;
}
}; // RSExportPrimitiveType
class RSExportPointerType : public RSExportType {
friend class RSExportType;
friend class RSExportFunc;
private:
const RSExportType *mPointeeType;
RSExportPointerType(RSContext *Context,
const llvm::StringRef &Name,
const RSExportType *PointeeType)
: RSExportType(Context, ExportClassPointer, Name),
mPointeeType(PointeeType) {
}
// @PT was normalized by calling RSExportType::NormalizeType() before calling
// this.
static RSExportPointerType *Create(RSContext *Context,
const clang::PointerType *PT,
const llvm::StringRef &TypeName);
virtual llvm::Type *convertToLLVMType() const;
public:
virtual bool keep();
inline const RSExportType *getPointeeType() const { return mPointeeType; }
virtual bool equals(const RSExportable *E) const;
}; // RSExportPointerType
class RSExportVectorType : public RSExportPrimitiveType {
friend class RSExportType;
friend class RSExportElement;
private:
unsigned mNumElement; // number of element
RSExportVectorType(RSContext *Context,
const llvm::StringRef &Name,
DataType DT,
bool Normalized,
unsigned NumElement)
: RSExportPrimitiveType(Context, ExportClassVector, Name,
DT, Normalized),
mNumElement(NumElement) {
}
// @EVT was normalized by calling RSExportType::NormalizeType() before
// calling this.
static RSExportVectorType *Create(RSContext *Context,
const clang::ExtVectorType *EVT,
const llvm::StringRef &TypeName,
bool Normalized = false);
virtual llvm::Type *convertToLLVMType() const;
public:
static llvm::StringRef GetTypeName(const clang::ExtVectorType *EVT);
inline unsigned getNumElement() const { return mNumElement; }
std::string getElementName() const {
std::stringstream Name;
Name << RSExportPrimitiveType::getRSReflectionType(this)->rs_short_type
<< "_" << getNumElement();
return Name.str();
}
virtual bool equals(const RSExportable *E) const;
};
// Only *square* *float* matrix is supported by now.
//
// struct rs_matrix{2x2,3x3,4x4, ..., NxN} should be defined as the following
// form *exactly*:
// typedef struct {
// float m[{NxN}];
// } rs_matrixNxN;
//
// where mDim will be N.
class RSExportMatrixType : public RSExportType {
friend class RSExportType;
private:
unsigned mDim; // dimension
RSExportMatrixType(RSContext *Context,
const llvm::StringRef &Name,
unsigned Dim)
: RSExportType(Context, ExportClassMatrix, Name),
mDim(Dim) {
}
virtual llvm::Type *convertToLLVMType() const;
public:
// @RT was normalized by calling RSExportType::NormalizeType() before
// calling this.
static RSExportMatrixType *Create(RSContext *Context,
const clang::RecordType *RT,
const llvm::StringRef &TypeName,
unsigned Dim);
inline unsigned getDim() const { return mDim; }
virtual bool equals(const RSExportable *E) const;
};
class RSExportConstantArrayType : public RSExportType {
friend class RSExportType;
private:
const RSExportType *mElementType; // Array element type
unsigned mSize; // Array size
RSExportConstantArrayType(RSContext *Context,
const RSExportType *ElementType,
unsigned Size)
: RSExportType(Context, ExportClassConstantArray, "<ConstantArray>"),
mElementType(ElementType),
mSize(Size) {
}
// @CAT was normalized by calling RSExportType::NormalizeType() before
// calling this.
static RSExportConstantArrayType *Create(RSContext *Context,
const clang::ConstantArrayType *CAT);
virtual llvm::Type *convertToLLVMType() const;
public:
virtual unsigned getSize() const { return mSize; }
inline const RSExportType *getElementType() const { return mElementType; }
std::string getElementName() const {
return mElementType->getElementName();
}
virtual bool keep();
virtual bool equals(const RSExportable *E) const;
};
class RSExportRecordType : public RSExportType {
friend class RSExportType;
public:
class Field {
private:
const RSExportType *mType;
// Field name
std::string mName;
// Link to the struct that contain this field
const RSExportRecordType *mParent;
// Offset in the container
size_t mOffset;
public:
Field(const RSExportType *T,
const llvm::StringRef &Name,
const RSExportRecordType *Parent,
size_t Offset)
: mType(T),
mName(Name.data(), Name.size()),
mParent(Parent),
mOffset(Offset) {
}
inline const RSExportRecordType *getParent() const { return mParent; }
inline const RSExportType *getType() const { return mType; }
inline const std::string &getName() const { return mName; }
inline size_t getOffsetInParent() const { return mOffset; }
};
typedef std::list<const Field*>::const_iterator const_field_iterator;
inline const_field_iterator fields_begin() const {
return this->mFields.begin();
}
inline const_field_iterator fields_end() const {
return this->mFields.end();
}
private:
std::list<const Field*> mFields;
bool mIsPacked;
// Artificial export struct type is not exported by user (and thus it won't
// get reflected)
bool mIsArtificial;
size_t mStoreSize;
size_t mAllocSize;
RSExportRecordType(RSContext *Context,
const llvm::StringRef &Name,
bool IsPacked,
bool IsArtificial,
size_t StoreSize,
size_t AllocSize)
: RSExportType(Context, ExportClassRecord, Name),
mIsPacked(IsPacked),
mIsArtificial(IsArtificial),
mStoreSize(StoreSize),
mAllocSize(AllocSize) {
}
// @RT was normalized by calling RSExportType::NormalizeType() before calling
// this.
// @TypeName was retrieved from RSExportType::GetTypeName() before calling
// this.
static RSExportRecordType *Create(RSContext *Context,
const clang::RecordType *RT,
const llvm::StringRef &TypeName,
bool mIsArtificial = false);
virtual llvm::Type *convertToLLVMType() const;
public:
inline const std::list<const Field*>& getFields() const { return mFields; }
inline bool isPacked() const { return mIsPacked; }
inline bool isArtificial() const { return mIsArtificial; }
virtual size_t getStoreSize() const { return mStoreSize; }
virtual size_t getAllocSize() const { return mAllocSize; }
virtual std::string getElementName() const {
return "ScriptField_" + getName();
}
virtual bool keep();
virtual bool equals(const RSExportable *E) const;
~RSExportRecordType() {
for (std::list<const Field*>::iterator I = mFields.begin(),
E = mFields.end();
I != E;
I++)
if (*I != nullptr)
delete *I;
}
}; // RSExportRecordType
} // namespace slang
#endif // _FRAMEWORKS_COMPILE_SLANG_SLANG_RS_EXPORT_TYPE_H_ NOLINT