slang_rs_export_foreach.cpp - platform/frameworks/compile/slang - Git at Google

 /*
  * Copyright 2011-2012, 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.
  */

 #include "slang_rs_export_foreach.h"

 #include <string>

 #include "clang/AST/ASTContext.h"
 #include "clang/AST/Attr.h"
 #include "clang/AST/Decl.h"
 #include "clang/AST/TypeLoc.h"

 #include "llvm/IR/DerivedTypes.h"

 #include "slang_assert.h"
 #include "slang_rs_context.h"
 #include "slang_rs_export_type.h"
 #include "slang_version.h"

 namespace slang {

 // This function takes care of additional validation and construction of
 // parameters related to forEach_* reflection.
 bool RSExportForEach::validateAndConstructParams(
     RSContext *Context, const clang::FunctionDecl *FD) {
   slangAssert(Context && FD);
   bool valid = true;

   numParams = FD->getNumParams();

   if (Context->getTargetAPI() < SLANG_JB_TARGET_API) {
     // Before JellyBean, we allowed only one kernel per file.  It must be called "root".
     if (!isRootRSFunc(FD)) {
       Context->ReportError(FD->getLocation(),
                            "Non-root compute kernel %0() is "
                            "not supported in SDK levels %1-%2")
           << FD->getName() << SLANG_MINIMUM_TARGET_API
           << (SLANG_JB_TARGET_API - 1);
       return false;
     }
   }

   mResultType = FD->getReturnType().getCanonicalType();
   // Compute kernel functions are defined differently when the
   // "__attribute__((kernel))" is set.
   if (FD->hasAttr<clang::KernelAttr>()) {
     valid |= validateAndConstructKernelParams(Context, FD);
   } else {
     valid |= validateAndConstructOldStyleParams(Context, FD);
   }

   valid |= setSignatureMetadata(Context, FD);
   return valid;
 }

 bool RSExportForEach::validateAndConstructOldStyleParams(
     RSContext *Context, const clang::FunctionDecl *FD) {
   slangAssert(Context && FD);
   // If numParams is 0, we already marked this as a graphics root().
   slangAssert(numParams > 0);

   bool valid = true;

   // Compute kernel functions of this style are required to return a void type.
   clang::ASTContext &C = Context->getASTContext();
   if (mResultType != C.VoidTy) {
     Context->ReportError(FD->getLocation(),
                          "Compute kernel %0() is required to return a "
                          "void type")
         << FD->getName();
     valid = false;
   }

   // Validate remaining parameter types
   // TODO(all): Add support for LOD/face when we have them

   size_t IndexOfFirstIterator = numParams;
   valid |= validateIterationParameters(Context, FD, &IndexOfFirstIterator);

   // Validate the non-iterator parameters, which should all be found before the
   // first iterator.
   for (size_t i = 0; i < IndexOfFirstIterator; i++) {
     const clang::ParmVarDecl *PVD = FD->getParamDecl(i);
     clang::QualType QT = PVD->getType().getCanonicalType();

     if (!QT->isPointerType()) {
       Context->ReportError(PVD->getLocation(),
                            "Compute kernel %0() cannot have non-pointer "
                            "parameters besides 'x' and 'y'. Parameter '%1' is "
                            "of type: '%2'")
           << FD->getName() << PVD->getName() << PVD->getType().getAsString();
       valid = false;
       continue;
     }

     // The only non-const pointer should be out.
     if (!QT->getPointeeType().isConstQualified()) {
       if (mOut == NULL) {
         mOut = PVD;
       } else {
         Context->ReportError(PVD->getLocation(),
                              "Compute kernel %0() can only have one non-const "
                              "pointer parameter. Parameters '%1' and '%2' are "
                              "both non-const.")
             << FD->getName() << mOut->getName() << PVD->getName();
         valid = false;
       }
     } else {
       if (mIns.empty() && mOut == NULL) {
         mIns.push_back(PVD);
       } else if (mUsrData == NULL) {
         mUsrData = PVD;
       } else {
         Context->ReportError(
             PVD->getLocation(),
             "Unexpected parameter '%0' for compute kernel %1()")
             << PVD->getName() << FD->getName();
         valid = false;
       }
     }
   }

   if (mIns.empty() && !mOut) {
     Context->ReportError(FD->getLocation(),
                          "Compute kernel %0() must have at least one "
                          "parameter for in or out")
         << FD->getName();
     valid = false;
   }

   return valid;
 }

 bool RSExportForEach::validateAndConstructKernelParams(
     RSContext *Context, const clang::FunctionDecl *FD) {
   slangAssert(Context && FD);
   bool valid = true;
   clang::ASTContext &C = Context->getASTContext();

   if (Context->getTargetAPI() < SLANG_JB_MR1_TARGET_API) {
     Context->ReportError(FD->getLocation(),
                          "Compute kernel %0() targeting SDK levels "
                          "%1-%2 may not use pass-by-value with "
                          "__attribute__((kernel))")
         << FD->getName() << SLANG_MINIMUM_TARGET_API
         << (SLANG_JB_MR1_TARGET_API - 1);
     return false;
   }

   // Denote that we are indeed a pass-by-value kernel.
   mIsKernelStyle = true;
   mHasReturnType = (mResultType != C.VoidTy);

   if (mResultType->isPointerType()) {
     Context->ReportError(
         FD->getTypeSpecStartLoc(),
         "Compute kernel %0() cannot return a pointer type: '%1'")
         << FD->getName() << mResultType.getAsString();
     valid = false;
   }

   // Validate remaining parameter types
   // TODO(all): Add support for LOD/face when we have them

   size_t IndexOfFirstIterator = numParams;
   valid |= validateIterationParameters(Context, FD, &IndexOfFirstIterator);

   // Validate the non-iterator parameters, which should all be found before the
   // first iterator.
   for (size_t i = 0; i < IndexOfFirstIterator; i++) {
     const clang::ParmVarDecl *PVD = FD->getParamDecl(i);

     /*
      * FIXME: Change this to a test against an actual API version when the
      *        multi-input feature is officially supported.
      */
     if (Context->getTargetAPI() == SLANG_DEVELOPMENT_TARGET_API || i == 0) {
       mIns.push_back(PVD);
     } else {
       Context->ReportError(PVD->getLocation(),
                            "Invalid parameter '%0' for compute kernel %1(). "
                            "Kernels targeting SDK levels %2-%3 may not use "
                            "multiple input parameters.") << PVD->getName() <<
                            FD->getName() << SLANG_MINIMUM_TARGET_API <<
                            SLANG_MAXIMUM_TARGET_API;
       valid = false;
     }
     clang::QualType QT = PVD->getType().getCanonicalType();
     if (QT->isPointerType()) {
       Context->ReportError(PVD->getLocation(),
                            "Compute kernel %0() cannot have "
                            "parameter '%1' of pointer type: '%2'")
           << FD->getName() << PVD->getName() << PVD->getType().getAsString();
       valid = false;
     }
   }

   // Check that we have at least one allocation to use for dimensions.
   if (valid && mIns.empty() && !mHasReturnType) {
     Context->ReportError(FD->getLocation(),
                          "Compute kernel %0() must have at least one "
                          "input parameter or a non-void return "
                          "type")
         << FD->getName();
     valid = false;
   }

   return valid;
 }

 // Search for the optional x and y parameters.  Returns true if valid.   Also
 // sets *IndexOfFirstIterator to the index of the first iterator parameter, or
 // FD->getNumParams() if none are found.
 bool RSExportForEach::validateIterationParameters(
     RSContext *Context, const clang::FunctionDecl *FD,
     size_t *IndexOfFirstIterator) {
   slangAssert(IndexOfFirstIterator != NULL);
   slangAssert(mX == NULL && mY == NULL);
   clang::ASTContext &C = Context->getASTContext();

   // Find the x and y parameters if present.
   size_t NumParams = FD->getNumParams();
   *IndexOfFirstIterator = NumParams;
   bool valid = true;
   for (size_t i = 0; i < NumParams; i++) {
     const clang::ParmVarDecl *PVD = FD->getParamDecl(i);
     llvm::StringRef ParamName = PVD->getName();
     if (ParamName.equals("x")) {
       slangAssert(mX == NULL);  // We won't be invoked if two 'x' are present.
       mX = PVD;
       if (mY != NULL) {
         Context->ReportError(PVD->getLocation(),
                              "In compute kernel %0(), parameter 'x' should "
                              "be defined before parameter 'y'")
             << FD->getName();
         valid = false;
       }
     } else if (ParamName.equals("y")) {
       slangAssert(mY == NULL);  // We won't be invoked if two 'y' are present.
       mY = PVD;
     } else {
       // It's neither x nor y.
       if (*IndexOfFirstIterator < NumParams) {
         Context->ReportError(PVD->getLocation(),
                              "In compute kernel %0(), parameter '%1' cannot "
                              "appear after the 'x' and 'y' parameters")
             << FD->getName() << ParamName;
         valid = false;
       }
       continue;
     }
     // Validate the data type of x and y.
     clang::QualType QT = PVD->getType().getCanonicalType();
     clang::QualType UT = QT.getUnqualifiedType();
     if (UT != C.UnsignedIntTy && UT != C.IntTy) {
       Context->ReportError(PVD->getLocation(),
                            "Parameter '%0' must be of type 'int' or "
                            "'unsigned int'. It is of type '%1'")
           << ParamName << PVD->getType().getAsString();
       valid = false;
     }
     // If this is the first time we find an iterator, save it.
     if (*IndexOfFirstIterator >= NumParams) {
       *IndexOfFirstIterator = i;
     }
   }
   // Check that x and y have the same type.
   if (mX != NULL and mY != NULL) {
     clang::QualType XType = mX->getType();
     clang::QualType YType = mY->getType();

     if (XType != YType) {
       Context->ReportError(mY->getLocation(),
                            "Parameter 'x' and 'y' must be of the same type. "
                            "'x' is of type '%0' while 'y' is of type '%1'")
           << XType.getAsString() << YType.getAsString();
       valid = false;
     }
   }
   return valid;
 }

 bool RSExportForEach::setSignatureMetadata(RSContext *Context,
                                            const clang::FunctionDecl *FD) {
   mSignatureMetadata = 0;
   bool valid = true;

   if (mIsKernelStyle) {
     slangAssert(mOut == NULL);
     slangAssert(mUsrData == NULL);
   } else {
     slangAssert(!mHasReturnType);
   }

   // Set up the bitwise metadata encoding for runtime argument passing.
   // TODO: If this bit field is re-used from C++ code, define the values in a header.
   const bool HasOut = mOut || mHasReturnType;
   mSignatureMetadata |= (hasIns() ?       0x01 : 0);
   mSignatureMetadata |= (HasOut ?         0x02 : 0);
   mSignatureMetadata |= (mUsrData ?       0x04 : 0);
   mSignatureMetadata |= (mX ?             0x08 : 0);
   mSignatureMetadata |= (mY ?             0x10 : 0);
   mSignatureMetadata |= (mIsKernelStyle ? 0x20 : 0);  // pass-by-value

   if (Context->getTargetAPI() < SLANG_ICS_TARGET_API) {
     // APIs before ICS cannot skip between parameters. It is ok, however, for
     // them to omit further parameters (i.e. skipping X is ok if you skip Y).
     if (mSignatureMetadata != 0x1f &&  // In, Out, UsrData, X, Y
         mSignatureMetadata != 0x0f &&  // In, Out, UsrData, X
         mSignatureMetadata != 0x07 &&  // In, Out, UsrData
         mSignatureMetadata != 0x03 &&  // In, Out
         mSignatureMetadata != 0x01) {  // In
       Context->ReportError(FD->getLocation(),
                            "Compute kernel %0() targeting SDK levels "
                            "%1-%2 may not skip parameters")
           << FD->getName() << SLANG_MINIMUM_TARGET_API
           << (SLANG_ICS_TARGET_API - 1);
       valid = false;
     }
   }
   return valid;
 }

 RSExportForEach *RSExportForEach::Create(RSContext *Context,
                                          const clang::FunctionDecl *FD) {
   slangAssert(Context && FD);
   llvm::StringRef Name = FD->getName();
   RSExportForEach *FE;

   slangAssert(!Name.empty() && "Function must have a name");

   FE = new RSExportForEach(Context, Name);

   if (!FE->validateAndConstructParams(Context, FD)) {
     return NULL;
   }

   clang::ASTContext &Ctx = Context->getASTContext();

   std::string Id = CreateDummyName("helper_foreach_param", FE->getName());

   // Extract the usrData parameter (if we have one)
   if (FE->mUsrData) {
     const clang::ParmVarDecl *PVD = FE->mUsrData;
     clang::QualType QT = PVD->getType().getCanonicalType();
     slangAssert(QT->isPointerType() &&
                 QT->getPointeeType().isConstQualified());

     const clang::ASTContext &C = Context->getASTContext();
     if (QT->getPointeeType().getCanonicalType().getUnqualifiedType() ==
         C.VoidTy) {
       // In the case of using const void*, we can't reflect an appopriate
       // Java type, so we fall back to just reflecting the ain/aout parameters
       FE->mUsrData = NULL;
     } else {
       clang::RecordDecl *RD =
           clang::RecordDecl::Create(Ctx, clang::TTK_Struct,
                                     Ctx.getTranslationUnitDecl(),
                                     clang::SourceLocation(),
                                     clang::SourceLocation(),
                                     &Ctx.Idents.get(Id));

       clang::FieldDecl *FD =
           clang::FieldDecl::Create(Ctx,
                                    RD,
                                    clang::SourceLocation(),
                                    clang::SourceLocation(),
                                    PVD->getIdentifier(),
                                    QT->getPointeeType(),
                                    NULL,
                                    /* BitWidth = */ NULL,
                                    /* Mutable = */ false,
                                    /* HasInit = */ clang::ICIS_NoInit);
       RD->addDecl(FD);
       RD->completeDefinition();

       // Create an export type iff we have a valid usrData type
       clang::QualType T = Ctx.getTagDeclType(RD);
       slangAssert(!T.isNull());

       RSExportType *ET = RSExportType::Create(Context, T.getTypePtr());

       if (ET == NULL) {
         fprintf(stderr, "Failed to export the function %s. There's at least "
                         "one parameter whose type is not supported by the "
                         "reflection\n", FE->getName().c_str());
         return NULL;
       }

       slangAssert((ET->getClass() == RSExportType::ExportClassRecord) &&
                   "Parameter packet must be a record");

       FE->mParamPacketType = static_cast<RSExportRecordType *>(ET);
     }
   }

   if (FE->hasIns()) {

     for (InIter BI = FE->mIns.begin(), EI = FE->mIns.end(); BI != EI; BI++) {
       const clang::Type *T = (*BI)->getType().getCanonicalType().getTypePtr();
       RSExportType *InExportType = RSExportType::Create(Context, T);

       if (FE->mIsKernelStyle) {
         slangAssert(InExportType != NULL);
       }

       FE->mInTypes.push_back(InExportType);
     }
   }

   if (FE->mIsKernelStyle && FE->mHasReturnType) {
     const clang::Type *T = FE->mResultType.getTypePtr();
     FE->mOutType = RSExportType::Create(Context, T);
     slangAssert(FE->mOutType);
   } else if (FE->mOut) {
     const clang::Type *T = FE->mOut->getType().getCanonicalType().getTypePtr();
     FE->mOutType = RSExportType::Create(Context, T);
   }

   return FE;
 }

 RSExportForEach *RSExportForEach::CreateDummyRoot(RSContext *Context) {
   slangAssert(Context);
   llvm::StringRef Name = "root";
   RSExportForEach *FE = new RSExportForEach(Context, Name);
   FE->mDummyRoot = true;
   return FE;
 }

 bool RSExportForEach::isGraphicsRootRSFunc(unsigned int targetAPI,
                                            const clang::FunctionDecl *FD) {
   if (FD->hasAttr<clang::KernelAttr>()) {
     return false;
   }

   if (!isRootRSFunc(FD)) {
     return false;
   }

   if (FD->getNumParams() == 0) {
     // Graphics root function
     return true;
   }

   // Check for legacy graphics root function (with single parameter).
   if ((targetAPI < SLANG_ICS_TARGET_API) && (FD->getNumParams() == 1)) {
     const clang::QualType &IntType = FD->getASTContext().IntTy;
     if (FD->getReturnType().getCanonicalType() == IntType) {
       return true;
     }
   }

   return false;
 }

 bool RSExportForEach::isRSForEachFunc(unsigned int targetAPI,
                                       slang::RSContext* Context,
                                       const clang::FunctionDecl *FD) {
   slangAssert(Context && FD);
   bool hasKernelAttr = FD->hasAttr<clang::KernelAttr>();

   if (FD->getStorageClass() == clang::SC_Static) {
     if (hasKernelAttr) {
       Context->ReportError(FD->getLocation(),
                            "Invalid use of attribute kernel with "
                            "static function declaration: %0")
           << FD->getName();
     }
     return false;
   }

   // Anything tagged as a kernel is definitely used with ForEach.
   if (hasKernelAttr) {
     return true;
   }

   if (isGraphicsRootRSFunc(targetAPI, FD)) {
     return false;
   }

   // Check if first parameter is a pointer (which is required for ForEach).
   unsigned int numParams = FD->getNumParams();

   if (numParams > 0) {
     const clang::ParmVarDecl *PVD = FD->getParamDecl(0);
     clang::QualType QT = PVD->getType().getCanonicalType();

     if (QT->isPointerType()) {
       return true;
     }

     // Any non-graphics root() is automatically a ForEach candidate.
     // At this point, however, we know that it is not going to be a valid
     // compute root() function (due to not having a pointer parameter). We
     // still want to return true here, so that we can issue appropriate
     // diagnostics.
     if (isRootRSFunc(FD)) {
       return true;
     }
   }

   return false;
 }

 bool
 RSExportForEach::validateSpecialFuncDecl(unsigned int targetAPI,
                                          slang::RSContext *Context,
                                          clang::FunctionDecl const *FD) {
   slangAssert(Context && FD);
   bool valid = true;
   const clang::ASTContext &C = FD->getASTContext();
   const clang::QualType &IntType = FD->getASTContext().IntTy;

   if (isGraphicsRootRSFunc(targetAPI, FD)) {
     if ((targetAPI < SLANG_ICS_TARGET_API) && (FD->getNumParams() == 1)) {
       // Legacy graphics root function
       const clang::ParmVarDecl *PVD = FD->getParamDecl(0);
       clang::QualType QT = PVD->getType().getCanonicalType();
       if (QT != IntType) {
         Context->ReportError(PVD->getLocation(),
                              "invalid parameter type for legacy "
                              "graphics root() function: %0")
             << PVD->getType();
         valid = false;
       }
     }

     // Graphics root function, so verify that it returns an int
     if (FD->getReturnType().getCanonicalType() != IntType) {
       Context->ReportError(FD->getLocation(),
                            "root() is required to return "
                            "an int for graphics usage");
       valid = false;
     }
   } else if (isInitRSFunc(FD) || isDtorRSFunc(FD)) {
     if (FD->getNumParams() != 0) {
       Context->ReportError(FD->getLocation(),
                            "%0(void) is required to have no "
                            "parameters")
           << FD->getName();
       valid = false;
     }

     if (FD->getReturnType().getCanonicalType() != C.VoidTy) {
       Context->ReportError(FD->getLocation(),
                            "%0(void) is required to have a void "
                            "return type")
           << FD->getName();
       valid = false;
     }
   } else {
     slangAssert(false && "must be called on root, init or .rs.dtor function!");
   }

   return valid;
 }

 }  // namespace slang
	/*
	* Copyright 2011-2012, 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.
	*/

	#include "slang_rs_export_foreach.h"

	#include <string>

	#include "clang/AST/ASTContext.h"
	#include "clang/AST/Attr.h"
	#include "clang/AST/Decl.h"
	#include "clang/AST/TypeLoc.h"

	#include "llvm/IR/DerivedTypes.h"

	#include "slang_assert.h"
	#include "slang_rs_context.h"
	#include "slang_rs_export_type.h"
	#include "slang_version.h"

	namespace slang {

	// This function takes care of additional validation and construction of
	// parameters related to forEach_* reflection.
	bool RSExportForEach::validateAndConstructParams(
	RSContext Context, const clang::FunctionDecl FD) {
	slangAssert(Context && FD);
	bool valid = true;

	numParams = FD->getNumParams();

	if (Context->getTargetAPI() < SLANG_JB_TARGET_API) {
	// Before JellyBean, we allowed only one kernel per file. It must be called "root".
	if (!isRootRSFunc(FD)) {
	Context->ReportError(FD->getLocation(),
	"Non-root compute kernel %0() is "
	"not supported in SDK levels %1-%2")
	<< FD->getName() << SLANG_MINIMUM_TARGET_API
	<< (SLANG_JB_TARGET_API - 1);
	return false;
	}
	}

	mResultType = FD->getReturnType().getCanonicalType();
	// Compute kernel functions are defined differently when the
	// "__attribute__((kernel))" is set.
	if (FD->hasAttr<clang::KernelAttr>()) {
	valid \|= validateAndConstructKernelParams(Context, FD);
	} else {
	valid \|= validateAndConstructOldStyleParams(Context, FD);
	}

	valid \|= setSignatureMetadata(Context, FD);
	return valid;
	}

	bool RSExportForEach::validateAndConstructOldStyleParams(
	RSContext Context, const clang::FunctionDecl FD) {
	slangAssert(Context && FD);
	// If numParams is 0, we already marked this as a graphics root().
	slangAssert(numParams > 0);

	bool valid = true;

	// Compute kernel functions of this style are required to return a void type.
	clang::ASTContext &C = Context->getASTContext();
	if (mResultType != C.VoidTy) {
	Context->ReportError(FD->getLocation(),
	"Compute kernel %0() is required to return a "
	"void type")
	<< FD->getName();
	valid = false;
	}

	// Validate remaining parameter types
	// TODO(all): Add support for LOD/face when we have them

	size_t IndexOfFirstIterator = numParams;
	valid \|= validateIterationParameters(Context, FD, &IndexOfFirstIterator);

	// Validate the non-iterator parameters, which should all be found before the
	// first iterator.
	for (size_t i = 0; i < IndexOfFirstIterator; i++) {
	const clang::ParmVarDecl *PVD = FD->getParamDecl(i);
	clang::QualType QT = PVD->getType().getCanonicalType();

	if (!QT->isPointerType()) {
	Context->ReportError(PVD->getLocation(),
	"Compute kernel %0() cannot have non-pointer "
	"parameters besides 'x' and 'y'. Parameter '%1' is "
	"of type: '%2'")
	<< FD->getName() << PVD->getName() << PVD->getType().getAsString();
	valid = false;
	continue;
	}

	// The only non-const pointer should be out.
	if (!QT->getPointeeType().isConstQualified()) {
	if (mOut == NULL) {
	mOut = PVD;
	} else {
	Context->ReportError(PVD->getLocation(),
	"Compute kernel %0() can only have one non-const "
	"pointer parameter. Parameters '%1' and '%2' are "
	"both non-const.")
	<< FD->getName() << mOut->getName() << PVD->getName();
	valid = false;
	}
	} else {
	if (mIns.empty() && mOut == NULL) {
	mIns.push_back(PVD);
	} else if (mUsrData == NULL) {
	mUsrData = PVD;
	} else {
	Context->ReportError(
	PVD->getLocation(),
	"Unexpected parameter '%0' for compute kernel %1()")
	<< PVD->getName() << FD->getName();
	valid = false;
	}
	}
	}

	if (mIns.empty() && !mOut) {
	Context->ReportError(FD->getLocation(),
	"Compute kernel %0() must have at least one "
	"parameter for in or out")
	<< FD->getName();
	valid = false;
	}

	return valid;
	}

	bool RSExportForEach::validateAndConstructKernelParams(
	RSContext Context, const clang::FunctionDecl FD) {
	slangAssert(Context && FD);
	bool valid = true;
	clang::ASTContext &C = Context->getASTContext();

	if (Context->getTargetAPI() < SLANG_JB_MR1_TARGET_API) {
	Context->ReportError(FD->getLocation(),
	"Compute kernel %0() targeting SDK levels "
	"%1-%2 may not use pass-by-value with "
	"__attribute__((kernel))")
	<< FD->getName() << SLANG_MINIMUM_TARGET_API
	<< (SLANG_JB_MR1_TARGET_API - 1);
	return false;
	}

	// Denote that we are indeed a pass-by-value kernel.
	mIsKernelStyle = true;
	mHasReturnType = (mResultType != C.VoidTy);

	if (mResultType->isPointerType()) {
	Context->ReportError(
	FD->getTypeSpecStartLoc(),
	"Compute kernel %0() cannot return a pointer type: '%1'")
	<< FD->getName() << mResultType.getAsString();
	valid = false;
	}

	// Validate remaining parameter types
	// TODO(all): Add support for LOD/face when we have them

	size_t IndexOfFirstIterator = numParams;
	valid \|= validateIterationParameters(Context, FD, &IndexOfFirstIterator);

	// Validate the non-iterator parameters, which should all be found before the
	// first iterator.
	for (size_t i = 0; i < IndexOfFirstIterator; i++) {
	const clang::ParmVarDecl *PVD = FD->getParamDecl(i);

	/*
	* FIXME: Change this to a test against an actual API version when the
	* multi-input feature is officially supported.
	*/
	if (Context->getTargetAPI() == SLANG_DEVELOPMENT_TARGET_API \|\| i == 0) {
	mIns.push_back(PVD);
	} else {
	Context->ReportError(PVD->getLocation(),
	"Invalid parameter '%0' for compute kernel %1(). "
	"Kernels targeting SDK levels %2-%3 may not use "
	"multiple input parameters.") << PVD->getName() <<
	FD->getName() << SLANG_MINIMUM_TARGET_API <<
	SLANG_MAXIMUM_TARGET_API;
	valid = false;
	}
	clang::QualType QT = PVD->getType().getCanonicalType();
	if (QT->isPointerType()) {
	Context->ReportError(PVD->getLocation(),
	"Compute kernel %0() cannot have "
	"parameter '%1' of pointer type: '%2'")
	<< FD->getName() << PVD->getName() << PVD->getType().getAsString();
	valid = false;
	}
	}

	// Check that we have at least one allocation to use for dimensions.
	if (valid && mIns.empty() && !mHasReturnType) {
	Context->ReportError(FD->getLocation(),
	"Compute kernel %0() must have at least one "
	"input parameter or a non-void return "
	"type")
	<< FD->getName();
	valid = false;
	}

	return valid;
	}

	// Search for the optional x and y parameters. Returns true if valid. Also
	// sets *IndexOfFirstIterator to the index of the first iterator parameter, or
	// FD->getNumParams() if none are found.
	bool RSExportForEach::validateIterationParameters(
	RSContext Context, const clang::FunctionDecl FD,
	size_t *IndexOfFirstIterator) {
	slangAssert(IndexOfFirstIterator != NULL);
	slangAssert(mX == NULL && mY == NULL);
	clang::ASTContext &C = Context->getASTContext();

	// Find the x and y parameters if present.
	size_t NumParams = FD->getNumParams();
	*IndexOfFirstIterator = NumParams;
	bool valid = true;
	for (size_t i = 0; i < NumParams; i++) {
	const clang::ParmVarDecl *PVD = FD->getParamDecl(i);
	llvm::StringRef ParamName = PVD->getName();
	if (ParamName.equals("x")) {
	slangAssert(mX == NULL); // We won't be invoked if two 'x' are present.
	mX = PVD;
	if (mY != NULL) {
	Context->ReportError(PVD->getLocation(),
	"In compute kernel %0(), parameter 'x' should "
	"be defined before parameter 'y'")
	<< FD->getName();
	valid = false;
	}
	} else if (ParamName.equals("y")) {
	slangAssert(mY == NULL); // We won't be invoked if two 'y' are present.
	mY = PVD;
	} else {
	// It's neither x nor y.
	if (*IndexOfFirstIterator < NumParams) {
	Context->ReportError(PVD->getLocation(),
	"In compute kernel %0(), parameter '%1' cannot "
	"appear after the 'x' and 'y' parameters")
	<< FD->getName() << ParamName;
	valid = false;
	}
	continue;
	}
	// Validate the data type of x and y.
	clang::QualType QT = PVD->getType().getCanonicalType();
	clang::QualType UT = QT.getUnqualifiedType();
	if (UT != C.UnsignedIntTy && UT != C.IntTy) {
	Context->ReportError(PVD->getLocation(),
	"Parameter '%0' must be of type 'int' or "
	"'unsigned int'. It is of type '%1'")
	<< ParamName << PVD->getType().getAsString();
	valid = false;
	}
	// If this is the first time we find an iterator, save it.
	if (*IndexOfFirstIterator >= NumParams) {
	*IndexOfFirstIterator = i;
	}
	}
	// Check that x and y have the same type.
	if (mX != NULL and mY != NULL) {
	clang::QualType XType = mX->getType();
	clang::QualType YType = mY->getType();

	if (XType != YType) {
	Context->ReportError(mY->getLocation(),
	"Parameter 'x' and 'y' must be of the same type. "
	"'x' is of type '%0' while 'y' is of type '%1'")
	<< XType.getAsString() << YType.getAsString();
	valid = false;
	}
	}
	return valid;
	}

	bool RSExportForEach::setSignatureMetadata(RSContext *Context,
	const clang::FunctionDecl *FD) {
	mSignatureMetadata = 0;
	bool valid = true;

	if (mIsKernelStyle) {
	slangAssert(mOut == NULL);
	slangAssert(mUsrData == NULL);
	} else {
	slangAssert(!mHasReturnType);
	}

	// Set up the bitwise metadata encoding for runtime argument passing.
	// TODO: If this bit field is re-used from C++ code, define the values in a header.
	const bool HasOut = mOut \|\| mHasReturnType;
	mSignatureMetadata \|= (hasIns() ? 0x01 : 0);
	mSignatureMetadata \|= (HasOut ? 0x02 : 0);
	mSignatureMetadata \|= (mUsrData ? 0x04 : 0);
	mSignatureMetadata \|= (mX ? 0x08 : 0);
	mSignatureMetadata \|= (mY ? 0x10 : 0);
	mSignatureMetadata \|= (mIsKernelStyle ? 0x20 : 0); // pass-by-value

	if (Context->getTargetAPI() < SLANG_ICS_TARGET_API) {
	// APIs before ICS cannot skip between parameters. It is ok, however, for
	// them to omit further parameters (i.e. skipping X is ok if you skip Y).
	if (mSignatureMetadata != 0x1f && // In, Out, UsrData, X, Y
	mSignatureMetadata != 0x0f && // In, Out, UsrData, X
	mSignatureMetadata != 0x07 && // In, Out, UsrData
	mSignatureMetadata != 0x03 && // In, Out
	mSignatureMetadata != 0x01) { // In
	Context->ReportError(FD->getLocation(),
	"Compute kernel %0() targeting SDK levels "
	"%1-%2 may not skip parameters")
	<< FD->getName() << SLANG_MINIMUM_TARGET_API
	<< (SLANG_ICS_TARGET_API - 1);
	valid = false;
	}
	}
	return valid;
	}

	RSExportForEach RSExportForEach::Create(RSContext Context,
	const clang::FunctionDecl *FD) {
	slangAssert(Context && FD);
	llvm::StringRef Name = FD->getName();
	RSExportForEach *FE;

	slangAssert(!Name.empty() && "Function must have a name");

	FE = new RSExportForEach(Context, Name);

	if (!FE->validateAndConstructParams(Context, FD)) {
	return NULL;
	}

	clang::ASTContext &Ctx = Context->getASTContext();

	std::string Id = CreateDummyName("helper_foreach_param", FE->getName());

	// Extract the usrData parameter (if we have one)
	if (FE->mUsrData) {
	const clang::ParmVarDecl *PVD = FE->mUsrData;
	clang::QualType QT = PVD->getType().getCanonicalType();
	slangAssert(QT->isPointerType() &&
	QT->getPointeeType().isConstQualified());

	const clang::ASTContext &C = Context->getASTContext();
	if (QT->getPointeeType().getCanonicalType().getUnqualifiedType() ==
	C.VoidTy) {
	// In the case of using const void*, we can't reflect an appopriate
	// Java type, so we fall back to just reflecting the ain/aout parameters
	FE->mUsrData = NULL;
	} else {
	clang::RecordDecl *RD =
	clang::RecordDecl::Create(Ctx, clang::TTK_Struct,
	Ctx.getTranslationUnitDecl(),
	clang::SourceLocation(),
	clang::SourceLocation(),
	&Ctx.Idents.get(Id));

	clang::FieldDecl *FD =
	clang::FieldDecl::Create(Ctx,
	RD,
	clang::SourceLocation(),
	clang::SourceLocation(),
	PVD->getIdentifier(),
	QT->getPointeeType(),
	NULL,
	/* BitWidth = */ NULL,
	/* Mutable = */ false,
	/* HasInit = */ clang::ICIS_NoInit);
	RD->addDecl(FD);
	RD->completeDefinition();

	// Create an export type iff we have a valid usrData type
	clang::QualType T = Ctx.getTagDeclType(RD);
	slangAssert(!T.isNull());

	RSExportType *ET = RSExportType::Create(Context, T.getTypePtr());

	if (ET == NULL) {
	fprintf(stderr, "Failed to export the function %s. There's at least "
	"one parameter whose type is not supported by the "
	"reflection\n", FE->getName().c_str());
	return NULL;
	}

	slangAssert((ET->getClass() == RSExportType::ExportClassRecord) &&
	"Parameter packet must be a record");

	FE->mParamPacketType = static_cast<RSExportRecordType *>(ET);
	}
	}

	if (FE->hasIns()) {

	for (InIter BI = FE->mIns.begin(), EI = FE->mIns.end(); BI != EI; BI++) {
	const clang::Type T = (BI)->getType().getCanonicalType().getTypePtr();
	RSExportType *InExportType = RSExportType::Create(Context, T);

	if (FE->mIsKernelStyle) {
	slangAssert(InExportType != NULL);
	}

	FE->mInTypes.push_back(InExportType);
	}
	}

	if (FE->mIsKernelStyle && FE->mHasReturnType) {
	const clang::Type *T = FE->mResultType.getTypePtr();
	FE->mOutType = RSExportType::Create(Context, T);
	slangAssert(FE->mOutType);
	} else if (FE->mOut) {
	const clang::Type *T = FE->mOut->getType().getCanonicalType().getTypePtr();
	FE->mOutType = RSExportType::Create(Context, T);
	}

	return FE;
	}

	RSExportForEach RSExportForEach::CreateDummyRoot(RSContext Context) {
	slangAssert(Context);
	llvm::StringRef Name = "root";
	RSExportForEach *FE = new RSExportForEach(Context, Name);
	FE->mDummyRoot = true;
	return FE;
	}

	bool RSExportForEach::isGraphicsRootRSFunc(unsigned int targetAPI,
	const clang::FunctionDecl *FD) {
	if (FD->hasAttr<clang::KernelAttr>()) {
	return false;
	}

	if (!isRootRSFunc(FD)) {
	return false;
	}

	if (FD->getNumParams() == 0) {
	// Graphics root function
	return true;
	}

	// Check for legacy graphics root function (with single parameter).
	if ((targetAPI < SLANG_ICS_TARGET_API) && (FD->getNumParams() == 1)) {
	const clang::QualType &IntType = FD->getASTContext().IntTy;
	if (FD->getReturnType().getCanonicalType() == IntType) {
	return true;
	}
	}

	return false;
	}

	bool RSExportForEach::isRSForEachFunc(unsigned int targetAPI,
	slang::RSContext* Context,
	const clang::FunctionDecl *FD) {
	slangAssert(Context && FD);
	bool hasKernelAttr = FD->hasAttr<clang::KernelAttr>();

	if (FD->getStorageClass() == clang::SC_Static) {
	if (hasKernelAttr) {
	Context->ReportError(FD->getLocation(),
	"Invalid use of attribute kernel with "
	"static function declaration: %0")
	<< FD->getName();
	}
	return false;
	}

	// Anything tagged as a kernel is definitely used with ForEach.
	if (hasKernelAttr) {
	return true;
	}

	if (isGraphicsRootRSFunc(targetAPI, FD)) {
	return false;
	}

	// Check if first parameter is a pointer (which is required for ForEach).
	unsigned int numParams = FD->getNumParams();

	if (numParams > 0) {
	const clang::ParmVarDecl *PVD = FD->getParamDecl(0);
	clang::QualType QT = PVD->getType().getCanonicalType();

	if (QT->isPointerType()) {
	return true;
	}

	// Any non-graphics root() is automatically a ForEach candidate.
	// At this point, however, we know that it is not going to be a valid
	// compute root() function (due to not having a pointer parameter). We
	// still want to return true here, so that we can issue appropriate
	// diagnostics.
	if (isRootRSFunc(FD)) {
	return true;
	}
	}

	return false;
	}

	bool
	RSExportForEach::validateSpecialFuncDecl(unsigned int targetAPI,
	slang::RSContext *Context,
	clang::FunctionDecl const *FD) {
	slangAssert(Context && FD);
	bool valid = true;
	const clang::ASTContext &C = FD->getASTContext();
	const clang::QualType &IntType = FD->getASTContext().IntTy;

	if (isGraphicsRootRSFunc(targetAPI, FD)) {
	if ((targetAPI < SLANG_ICS_TARGET_API) && (FD->getNumParams() == 1)) {
	// Legacy graphics root function
	const clang::ParmVarDecl *PVD = FD->getParamDecl(0);
	clang::QualType QT = PVD->getType().getCanonicalType();
	if (QT != IntType) {
	Context->ReportError(PVD->getLocation(),
	"invalid parameter type for legacy "
	"graphics root() function: %0")
	<< PVD->getType();
	valid = false;
	}
	}

	// Graphics root function, so verify that it returns an int
	if (FD->getReturnType().getCanonicalType() != IntType) {
	Context->ReportError(FD->getLocation(),
	"root() is required to return "
	"an int for graphics usage");
	valid = false;
	}
	} else if (isInitRSFunc(FD) \|\| isDtorRSFunc(FD)) {
	if (FD->getNumParams() != 0) {
	Context->ReportError(FD->getLocation(),
	"%0(void) is required to have no "
	"parameters")
	<< FD->getName();
	valid = false;
	}

	if (FD->getReturnType().getCanonicalType() != C.VoidTy) {
	Context->ReportError(FD->getLocation(),
	"%0(void) is required to have a void "
	"return type")
	<< FD->getName();
	valid = false;
	}
	} else {
	slangAssert(false && "must be called on root, init or .rs.dtor function!");
	}

	return valid;
	}

	} // namespace slang