aosp12/frameworks/compile/libbcc/lib/RSUtils.h

/*
 * Copyright 2015, 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 BCC_RS_UTILS_H
#define BCC_RS_UTILS_H

#include "rsDefines.h"

#include <llvm/IR/Type.h>
#include <llvm/IR/DerivedTypes.h>
#include <llvm/ADT/StringRef.h>

#include <string>

namespace {

static inline llvm::StringRef getUnsuffixedStructName(const llvm::StructType *T) {
#ifdef _DEBUG
  // Bug: 22926131
  // When building with assertions enabled, LLVM cannot read the name of a
  // literal (anonymous) structure, because they shouldn't actually ever have
  // a name. Unfortunately, due to past definitions of RenderScript object
  // types as anonymous structures typedef-ed to their proper typename,
  // we had been relying on accessing this information. LLVM bitcode retains
  // the typedef-ed name for such anonymous structures. There is a
  // corresponding (safe) fix to the RenderScript headers to actually name
  // these types the same as their typedef name to simplify things. That
  // fixes this issue going forward, but it won't allow us to compile legacy
  // code properly. In that case, we just have non-assert builds ignore the
  // fact that anonymous structures shouldn't have their name read, and do it
  // anyway. Note that RSCompilerDriver.cpp checks the compiler version
  // number (from llvm-rs-cc) to ensure that we are only ever building modern
  // code when we have assertions enabled. Legacy code can only be compiled
  // correctly with a non-asserting compiler.
  //
  // Note that the whole reason for looking at the "unsuffixed" name of the
  // type is because LLVM suffixes duplicate typedefs of the same anonymous
  // structure. In the new case, where all of the RS object types have a
  // proper name, they won't have a dotted suffix at all. We still need
  // to look at the old unsuffixed version to handle legacy code properly.
  if (T->isLiteral()) {
    return "";
  }
#endif

  // Get just the object type name with no suffix.
  size_t LastDot = T->getName().rfind('.');
  if (LastDot == strlen("struct")) {
    // If we get back to just the "struct" part, we know that we had a
    // raw typename (i.e. struct.rs_element with no ".[0-9]+" suffix on it.
    // In that case, we will want to create our slice such that it contains
    // the entire name.
    LastDot = T->getName().size();
  }
  return T->getStructName().slice(0, LastDot);
}

const char kAllocationTypeName[] = "struct.rs_allocation";
const char kElementTypeName[]    = "struct.rs_element";
const char kSamplerTypeName[]    = "struct.rs_sampler";
const char kScriptTypeName[]     = "struct.rs_script";
const char kTypeTypeName[]       = "struct.rs_type";

// Returns the RsDataType for a given input LLVM type.
// This is only used to distinguish the associated RS object types (i.e.
// rs_allocation, rs_element, rs_sampler, rs_script, and rs_type).
// All other types are reported back as RS_TYPE_NONE, since no special
// handling would be necessary.
static inline enum RsDataType getRsDataTypeForType(const llvm::Type *T) {
  if (T->isStructTy()) {
    const llvm::StringRef StructName = getUnsuffixedStructName(llvm::dyn_cast<const llvm::StructType>(T));
    if (StructName.equals(kAllocationTypeName)) {
      return RS_TYPE_ALLOCATION;
    } else if (StructName.equals(kElementTypeName)) {
      return RS_TYPE_ELEMENT;
    } else if (StructName.equals(kSamplerTypeName)) {
      return RS_TYPE_SAMPLER;
    } else if (StructName.equals(kScriptTypeName)) {
      return RS_TYPE_SCRIPT;
    } else if (StructName.equals(kTypeTypeName)) {
      return RS_TYPE_TYPE;
    }
  }
  return RS_TYPE_NONE;
}

// Returns true if the input type is one of our RenderScript object types
// (allocation, element, sampler, script, type) and false if it is not.
static inline bool isRsObjectType(const llvm::Type *T) {
  return getRsDataTypeForType(T) != RS_TYPE_NONE;
}

}  // end namespace

// When we have a general reduction kernel with no combiner function,
// we will synthesize a combiner function from the accumulator
// function.  Given the accumulator function name, what should be the
// name of the combiner function?
static inline std::string nameReduceCombinerFromAccumulator(llvm::StringRef accumName) {
  return std::string(accumName) + ".combiner";
}

#endif // BCC_RS_UTILS_H
init from android-12.1.0_r8 2023-01-09 17:11:35 +08:00			`/*`
			`* Copyright 2015, 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 BCC_RS_UTILS_H`
			`#define BCC_RS_UTILS_H`

			`#include "rsDefines.h"`

			`#include <llvm/IR/Type.h>`
			`#include <llvm/IR/DerivedTypes.h>`
			`#include <llvm/ADT/StringRef.h>`

			`#include <string>`

			`namespace {`

			`static inline llvm::StringRef getUnsuffixedStructName(const llvm::StructType *T) {`
			`#ifdef _DEBUG`
			`// Bug: 22926131`
			`// When building with assertions enabled, LLVM cannot read the name of a`
			`// literal (anonymous) structure, because they shouldn't actually ever have`
			`// a name. Unfortunately, due to past definitions of RenderScript object`
			`// types as anonymous structures typedef-ed to their proper typename,`
			`// we had been relying on accessing this information. LLVM bitcode retains`
			`// the typedef-ed name for such anonymous structures. There is a`
			`// corresponding (safe) fix to the RenderScript headers to actually name`
			`// these types the same as their typedef name to simplify things. That`
			`// fixes this issue going forward, but it won't allow us to compile legacy`
			`// code properly. In that case, we just have non-assert builds ignore the`
			`// fact that anonymous structures shouldn't have their name read, and do it`
			`// anyway. Note that RSCompilerDriver.cpp checks the compiler version`
			`// number (from llvm-rs-cc) to ensure that we are only ever building modern`
			`// code when we have assertions enabled. Legacy code can only be compiled`
			`// correctly with a non-asserting compiler.`
			`//`
			`// Note that the whole reason for looking at the "unsuffixed" name of the`
			`// type is because LLVM suffixes duplicate typedefs of the same anonymous`
			`// structure. In the new case, where all of the RS object types have a`
			`// proper name, they won't have a dotted suffix at all. We still need`
			`// to look at the old unsuffixed version to handle legacy code properly.`
			`if (T->isLiteral()) {`
			`return "";`
			`}`
			`#endif`

			`// Get just the object type name with no suffix.`
			`size_t LastDot = T->getName().rfind('.');`
			`if (LastDot == strlen("struct")) {`
			`// If we get back to just the "struct" part, we know that we had a`
			`// raw typename (i.e. struct.rs_element with no ".[0-9]+" suffix on it.`
			`// In that case, we will want to create our slice such that it contains`
			`// the entire name.`
			`LastDot = T->getName().size();`
			`}`
			`return T->getStructName().slice(0, LastDot);`
			`}`

			`const char kAllocationTypeName[] = "struct.rs_allocation";`
			`const char kElementTypeName[] = "struct.rs_element";`
			`const char kSamplerTypeName[] = "struct.rs_sampler";`
			`const char kScriptTypeName[] = "struct.rs_script";`
			`const char kTypeTypeName[] = "struct.rs_type";`

			`// Returns the RsDataType for a given input LLVM type.`
			`// This is only used to distinguish the associated RS object types (i.e.`
			`// rs_allocation, rs_element, rs_sampler, rs_script, and rs_type).`
			`// All other types are reported back as RS_TYPE_NONE, since no special`
			`// handling would be necessary.`
			`static inline enum RsDataType getRsDataTypeForType(const llvm::Type *T) {`
			`if (T->isStructTy()) {`
			`const llvm::StringRef StructName = getUnsuffixedStructName(llvm::dyn_cast<const llvm::StructType>(T));`
			`if (StructName.equals(kAllocationTypeName)) {`
			`return RS_TYPE_ALLOCATION;`
			`} else if (StructName.equals(kElementTypeName)) {`
			`return RS_TYPE_ELEMENT;`
			`} else if (StructName.equals(kSamplerTypeName)) {`
			`return RS_TYPE_SAMPLER;`
			`} else if (StructName.equals(kScriptTypeName)) {`
			`return RS_TYPE_SCRIPT;`
			`} else if (StructName.equals(kTypeTypeName)) {`
			`return RS_TYPE_TYPE;`
			`}`
			`}`
			`return RS_TYPE_NONE;`
			`}`

			`// Returns true if the input type is one of our RenderScript object types`
			`// (allocation, element, sampler, script, type) and false if it is not.`
			`static inline bool isRsObjectType(const llvm::Type *T) {`
			`return getRsDataTypeForType(T) != RS_TYPE_NONE;`
			`}`

			`} // end namespace`

			`// When we have a general reduction kernel with no combiner function,`
			`// we will synthesize a combiner function from the accumulator`
			`// function. Given the accumulator function name, what should be the`
			`// name of the combiner function?`
			`static inline std::string nameReduceCombinerFromAccumulator(llvm::StringRef accumName) {`
			`return std::string(accumName) + ".combiner";`
			`}`

			`#endif // BCC_RS_UTILS_H`