runtime/stack_map.cc - SHIFTPHONES/android_art - Gitiles

 /*
  * Copyright (C) 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.
  */

 #include "stack_map.h"

 namespace art {

 constexpr uint32_t StackMap::kNoDexRegisterMapSmallEncoding;
 constexpr uint32_t StackMap::kNoInlineInfoSmallEncoding;
 constexpr uint32_t StackMap::kNoDexRegisterMap;
 constexpr uint32_t StackMap::kNoInlineInfo;

 uint32_t StackMap::GetDexPc(const CodeInfo& info) const {
   return info.HasSmallDexPc()
       ? region_.LoadUnaligned<kSmallEncoding>(info.ComputeStackMapDexPcOffset())
       : region_.LoadUnaligned<kLargeEncoding>(info.ComputeStackMapDexPcOffset());
 }

 void StackMap::SetDexPc(const CodeInfo& info, uint32_t dex_pc) {
   DCHECK(!info.HasSmallDexPc() || IsUint<kBitsForSmallEncoding>(dex_pc)) << dex_pc;
   info.HasSmallDexPc()
       ? region_.StoreUnaligned<kSmallEncoding>(info.ComputeStackMapDexPcOffset(), dex_pc)
       : region_.StoreUnaligned<kLargeEncoding>(info.ComputeStackMapDexPcOffset(), dex_pc);
 }

 uint32_t StackMap::GetNativePcOffset(const CodeInfo& info) const {
   return info.HasSmallNativePc()
       ? region_.LoadUnaligned<kSmallEncoding>(info.ComputeStackMapNativePcOffset())
       : region_.LoadUnaligned<kLargeEncoding>(info.ComputeStackMapNativePcOffset());
 }

 void StackMap::SetNativePcOffset(const CodeInfo& info, uint32_t native_pc_offset) {
   DCHECK(!info.HasSmallNativePc()
          || IsUint<kBitsForSmallEncoding>(native_pc_offset)) << native_pc_offset;
   uint32_t entry = info.ComputeStackMapNativePcOffset();
   info.HasSmallNativePc()
       ? region_.StoreUnaligned<kSmallEncoding>(entry, native_pc_offset)
       : region_.StoreUnaligned<kLargeEncoding>(entry, native_pc_offset);
 }

 uint32_t StackMap::GetDexRegisterMapOffset(const CodeInfo& info) const {
   if (info.HasSmallDexRegisterMap()) {
     uint8_t value = region_.LoadUnaligned<kSmallEncoding>(
         info.ComputeStackMapDexRegisterMapOffset());
     if (value == kNoDexRegisterMapSmallEncoding) {
       return kNoDexRegisterMap;
     } else {
       return value;
     }
   } else {
     return region_.LoadUnaligned<kLargeEncoding>(info.ComputeStackMapDexRegisterMapOffset());
   }
 }

 void StackMap::SetDexRegisterMapOffset(const CodeInfo& info, uint32_t offset) {
   DCHECK(!info.HasSmallDexRegisterMap()
          || (IsUint<kBitsForSmallEncoding>(offset)
              || (offset == kNoDexRegisterMap))) << offset;
   size_t dex_register_map_entry = info.ComputeStackMapDexRegisterMapOffset();
   info.HasSmallDexRegisterMap()
       ? region_.StoreUnaligned<kSmallEncoding>(dex_register_map_entry, offset)
       : region_.StoreUnaligned<kLargeEncoding>(dex_register_map_entry, offset);
 }

 uint32_t StackMap::GetInlineDescriptorOffset(const CodeInfo& info) const {
   if (!info.HasInlineInfo()) return kNoInlineInfo;
   if (info.HasSmallInlineInfo()) {
     uint8_t value = region_.LoadUnaligned<kSmallEncoding>(
         info.ComputeStackMapInlineInfoOffset());
     if (value == kNoInlineInfoSmallEncoding) {
       return kNoInlineInfo;
     } else {
       return value;
     }
   } else {
     return region_.LoadUnaligned<kLargeEncoding>(info.ComputeStackMapInlineInfoOffset());
   }
 }

 void StackMap::SetInlineDescriptorOffset(const CodeInfo& info, uint32_t offset) {
   DCHECK(info.HasInlineInfo());
   DCHECK(!info.HasSmallInlineInfo()
          || (IsUint<kBitsForSmallEncoding>(offset)
              || (offset == kNoInlineInfo))) << offset;
   size_t inline_entry = info.ComputeStackMapInlineInfoOffset();
   info.HasSmallInlineInfo()
       ? region_.StoreUnaligned<kSmallEncoding>(inline_entry, offset)
       : region_.StoreUnaligned<kLargeEncoding>(inline_entry, offset);
 }

 uint32_t StackMap::GetRegisterMask(const CodeInfo& info) const {
   return region_.LoadUnaligned<kLargeEncoding>(info.ComputeStackMapRegisterMaskOffset());
 }

 void StackMap::SetRegisterMask(const CodeInfo& info, uint32_t mask) {
   region_.StoreUnaligned<kLargeEncoding>(info.ComputeStackMapRegisterMaskOffset(), mask);
 }

 size_t StackMap::ComputeStackMapSize(size_t stack_mask_size,
                                      bool has_inline_info,
                                      bool is_small_inline_info,
                                      bool is_small_dex_map,
                                      bool is_small_dex_pc,
                                      bool is_small_native_pc) {
   return StackMap::kFixedSize
       + stack_mask_size
       + (has_inline_info ? NumberOfBytesForEntry(is_small_inline_info) : 0)
       + NumberOfBytesForEntry(is_small_dex_map)
       + NumberOfBytesForEntry(is_small_dex_pc)
       + NumberOfBytesForEntry(is_small_native_pc);
 }

 size_t StackMap::ComputeStackMapSize(size_t stack_mask_size,
                                      size_t inline_info_size,
                                      size_t dex_register_map_size,
                                      size_t dex_pc_max,
                                      size_t native_pc_max) {
   return ComputeStackMapSize(
       stack_mask_size,
       inline_info_size != 0,
       // + 1 to also encode kNoInlineInfo.
       IsUint<kBitsForSmallEncoding>(inline_info_size + dex_register_map_size + 1),
       // + 1 to also encode kNoDexRegisterMap.
       IsUint<kBitsForSmallEncoding>(dex_register_map_size + 1),
       IsUint<kBitsForSmallEncoding>(dex_pc_max),
       IsUint<kBitsForSmallEncoding>(native_pc_max));
 }

 MemoryRegion StackMap::GetStackMask(const CodeInfo& info) const {
   return region_.Subregion(info.ComputeStackMapStackMaskOffset(), info.GetStackMaskSize());
 }

 void CodeInfo::DumpStackMapHeader(std::ostream& os, size_t stack_map_num) const {
   StackMap stack_map = GetStackMapAt(stack_map_num);
   os << "    StackMap " << stack_map_num
      << std::hex
      << " (dex_pc=0x" << stack_map.GetDexPc(*this)
      << ", native_pc_offset=0x" << stack_map.GetNativePcOffset(*this)
      << ", dex_register_map_offset=0x" << stack_map.GetDexRegisterMapOffset(*this)
      << ", inline_info_offset=0x" << stack_map.GetInlineDescriptorOffset(*this)
      << ", register_mask=0x" << stack_map.GetRegisterMask(*this)
      << std::dec
      << ", stack_mask=0b";
   MemoryRegion stack_mask = stack_map.GetStackMask(*this);
   for (size_t i = 0, e = stack_mask.size_in_bits(); i < e; ++i) {
     os << stack_mask.LoadBit(e - i - 1);
   }
   os << ")\n";
 };

 void CodeInfo::Dump(std::ostream& os, uint16_t number_of_dex_registers) const {
   uint32_t code_info_size = GetOverallSize();
   size_t number_of_stack_maps = GetNumberOfStackMaps();
   os << "  Optimized CodeInfo (size=" << code_info_size
      << ", number_of_dex_registers=" << number_of_dex_registers
      << ", number_of_stack_maps=" << number_of_stack_maps
      << ", has_inline_info=" << HasInlineInfo()
      << ", has_small_inline_info=" << HasSmallInlineInfo()
      << ", has_small_dex_register_map=" << HasSmallDexRegisterMap()
      << ", has_small_dex_pc=" << HasSmallDexPc()
      << ", has_small_native_pc=" << HasSmallNativePc()
      << ")\n";

   // Display stack maps along with Dex register maps.
   for (size_t i = 0; i < number_of_stack_maps; ++i) {
     StackMap stack_map = GetStackMapAt(i);
     DumpStackMapHeader(os, i);
     if (stack_map.HasDexRegisterMap(*this)) {
       DexRegisterMap dex_register_map = GetDexRegisterMapOf(stack_map, number_of_dex_registers);
       // TODO: Display the bit mask of live Dex registers.
       for (size_t j = 0; j < number_of_dex_registers; ++j) {
         if (dex_register_map.IsDexRegisterLive(j)) {
           DexRegisterLocation location =
               dex_register_map.GetLocationKindAndValue(j, number_of_dex_registers);
            os << "      " << "v" << j << ": "
               << DexRegisterLocation::PrettyDescriptor(location.GetInternalKind())
               << " (" << location.GetValue() << ")" << '\n';
         }
       }
     }
   }
   // TODO: Dump the stack map's inline information.
 }

 }  // namespace art
	/*
	* Copyright (C) 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.
	*/

	#include "stack_map.h"

	namespace art {

	constexpr uint32_t StackMap::kNoDexRegisterMapSmallEncoding;
	constexpr uint32_t StackMap::kNoInlineInfoSmallEncoding;
	constexpr uint32_t StackMap::kNoDexRegisterMap;
	constexpr uint32_t StackMap::kNoInlineInfo;

	uint32_t StackMap::GetDexPc(const CodeInfo& info) const {
	return info.HasSmallDexPc()
	? region_.LoadUnaligned<kSmallEncoding>(info.ComputeStackMapDexPcOffset())
	: region_.LoadUnaligned<kLargeEncoding>(info.ComputeStackMapDexPcOffset());
	}

	void StackMap::SetDexPc(const CodeInfo& info, uint32_t dex_pc) {
	DCHECK(!info.HasSmallDexPc() \|\| IsUint<kBitsForSmallEncoding>(dex_pc)) << dex_pc;
	info.HasSmallDexPc()
	? region_.StoreUnaligned<kSmallEncoding>(info.ComputeStackMapDexPcOffset(), dex_pc)
	: region_.StoreUnaligned<kLargeEncoding>(info.ComputeStackMapDexPcOffset(), dex_pc);
	}

	uint32_t StackMap::GetNativePcOffset(const CodeInfo& info) const {
	return info.HasSmallNativePc()
	? region_.LoadUnaligned<kSmallEncoding>(info.ComputeStackMapNativePcOffset())
	: region_.LoadUnaligned<kLargeEncoding>(info.ComputeStackMapNativePcOffset());
	}

	void StackMap::SetNativePcOffset(const CodeInfo& info, uint32_t native_pc_offset) {
	DCHECK(!info.HasSmallNativePc()
	\|\| IsUint<kBitsForSmallEncoding>(native_pc_offset)) << native_pc_offset;
	uint32_t entry = info.ComputeStackMapNativePcOffset();
	info.HasSmallNativePc()
	? region_.StoreUnaligned<kSmallEncoding>(entry, native_pc_offset)
	: region_.StoreUnaligned<kLargeEncoding>(entry, native_pc_offset);
	}

	uint32_t StackMap::GetDexRegisterMapOffset(const CodeInfo& info) const {
	if (info.HasSmallDexRegisterMap()) {
	uint8_t value = region_.LoadUnaligned<kSmallEncoding>(
	info.ComputeStackMapDexRegisterMapOffset());
	if (value == kNoDexRegisterMapSmallEncoding) {
	return kNoDexRegisterMap;
	} else {
	return value;
	}
	} else {
	return region_.LoadUnaligned<kLargeEncoding>(info.ComputeStackMapDexRegisterMapOffset());
	}
	}

	void StackMap::SetDexRegisterMapOffset(const CodeInfo& info, uint32_t offset) {
	DCHECK(!info.HasSmallDexRegisterMap()
	\|\| (IsUint<kBitsForSmallEncoding>(offset)
	\|\| (offset == kNoDexRegisterMap))) << offset;
	size_t dex_register_map_entry = info.ComputeStackMapDexRegisterMapOffset();
	info.HasSmallDexRegisterMap()
	? region_.StoreUnaligned<kSmallEncoding>(dex_register_map_entry, offset)
	: region_.StoreUnaligned<kLargeEncoding>(dex_register_map_entry, offset);
	}

	uint32_t StackMap::GetInlineDescriptorOffset(const CodeInfo& info) const {
	if (!info.HasInlineInfo()) return kNoInlineInfo;
	if (info.HasSmallInlineInfo()) {
	uint8_t value = region_.LoadUnaligned<kSmallEncoding>(
	info.ComputeStackMapInlineInfoOffset());
	if (value == kNoInlineInfoSmallEncoding) {
	return kNoInlineInfo;
	} else {
	return value;
	}
	} else {
	return region_.LoadUnaligned<kLargeEncoding>(info.ComputeStackMapInlineInfoOffset());
	}
	}

	void StackMap::SetInlineDescriptorOffset(const CodeInfo& info, uint32_t offset) {
	DCHECK(info.HasInlineInfo());
	DCHECK(!info.HasSmallInlineInfo()
	\|\| (IsUint<kBitsForSmallEncoding>(offset)
	\|\| (offset == kNoInlineInfo))) << offset;
	size_t inline_entry = info.ComputeStackMapInlineInfoOffset();
	info.HasSmallInlineInfo()
	? region_.StoreUnaligned<kSmallEncoding>(inline_entry, offset)
	: region_.StoreUnaligned<kLargeEncoding>(inline_entry, offset);
	}

	uint32_t StackMap::GetRegisterMask(const CodeInfo& info) const {
	return region_.LoadUnaligned<kLargeEncoding>(info.ComputeStackMapRegisterMaskOffset());
	}

	void StackMap::SetRegisterMask(const CodeInfo& info, uint32_t mask) {
	region_.StoreUnaligned<kLargeEncoding>(info.ComputeStackMapRegisterMaskOffset(), mask);
	}

	size_t StackMap::ComputeStackMapSize(size_t stack_mask_size,
	bool has_inline_info,
	bool is_small_inline_info,
	bool is_small_dex_map,
	bool is_small_dex_pc,
	bool is_small_native_pc) {
	return StackMap::kFixedSize
	+ stack_mask_size
	+ (has_inline_info ? NumberOfBytesForEntry(is_small_inline_info) : 0)
	+ NumberOfBytesForEntry(is_small_dex_map)
	+ NumberOfBytesForEntry(is_small_dex_pc)
	+ NumberOfBytesForEntry(is_small_native_pc);
	}

	size_t StackMap::ComputeStackMapSize(size_t stack_mask_size,
	size_t inline_info_size,
	size_t dex_register_map_size,
	size_t dex_pc_max,
	size_t native_pc_max) {
	return ComputeStackMapSize(
	stack_mask_size,
	inline_info_size != 0,
	// + 1 to also encode kNoInlineInfo.
	IsUint<kBitsForSmallEncoding>(inline_info_size + dex_register_map_size + 1),
	// + 1 to also encode kNoDexRegisterMap.
	IsUint<kBitsForSmallEncoding>(dex_register_map_size + 1),
	IsUint<kBitsForSmallEncoding>(dex_pc_max),
	IsUint<kBitsForSmallEncoding>(native_pc_max));
	}

	MemoryRegion StackMap::GetStackMask(const CodeInfo& info) const {
	return region_.Subregion(info.ComputeStackMapStackMaskOffset(), info.GetStackMaskSize());
	}

	void CodeInfo::DumpStackMapHeader(std::ostream& os, size_t stack_map_num) const {
	StackMap stack_map = GetStackMapAt(stack_map_num);
	os << " StackMap " << stack_map_num
	<< std::hex
	<< " (dex_pc=0x" << stack_map.GetDexPc(*this)
	<< ", native_pc_offset=0x" << stack_map.GetNativePcOffset(*this)
	<< ", dex_register_map_offset=0x" << stack_map.GetDexRegisterMapOffset(*this)
	<< ", inline_info_offset=0x" << stack_map.GetInlineDescriptorOffset(*this)
	<< ", register_mask=0x" << stack_map.GetRegisterMask(*this)
	<< std::dec
	<< ", stack_mask=0b";
	MemoryRegion stack_mask = stack_map.GetStackMask(*this);
	for (size_t i = 0, e = stack_mask.size_in_bits(); i < e; ++i) {
	os << stack_mask.LoadBit(e - i - 1);
	}
	os << ")\n";
	};

	void CodeInfo::Dump(std::ostream& os, uint16_t number_of_dex_registers) const {
	uint32_t code_info_size = GetOverallSize();
	size_t number_of_stack_maps = GetNumberOfStackMaps();
	os << " Optimized CodeInfo (size=" << code_info_size
	<< ", number_of_dex_registers=" << number_of_dex_registers
	<< ", number_of_stack_maps=" << number_of_stack_maps
	<< ", has_inline_info=" << HasInlineInfo()
	<< ", has_small_inline_info=" << HasSmallInlineInfo()
	<< ", has_small_dex_register_map=" << HasSmallDexRegisterMap()
	<< ", has_small_dex_pc=" << HasSmallDexPc()
	<< ", has_small_native_pc=" << HasSmallNativePc()
	<< ")\n";

	// Display stack maps along with Dex register maps.
	for (size_t i = 0; i < number_of_stack_maps; ++i) {
	StackMap stack_map = GetStackMapAt(i);
	DumpStackMapHeader(os, i);
	if (stack_map.HasDexRegisterMap(*this)) {
	DexRegisterMap dex_register_map = GetDexRegisterMapOf(stack_map, number_of_dex_registers);
	// TODO: Display the bit mask of live Dex registers.
	for (size_t j = 0; j < number_of_dex_registers; ++j) {
	if (dex_register_map.IsDexRegisterLive(j)) {
	DexRegisterLocation location =
	dex_register_map.GetLocationKindAndValue(j, number_of_dex_registers);
	os << " " << "v" << j << ": "
	<< DexRegisterLocation::PrettyDescriptor(location.GetInternalKind())
	<< " (" << location.GetValue() << ")" << '\n';
	}
	}
	}
	}
	// TODO: Dump the stack map's inline information.
	}

	} // namespace art