/*
* Copyright (C) 2014 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 ART_COMPILER_OPTIMIZING_STACK_MAP_STREAM_H_
#define ART_COMPILER_OPTIMIZING_STACK_MAP_STREAM_H_
#include "base/bit_vector.h"
#include "memory_region.h"
#include "stack_map.h"
#include "utils/allocation.h"
#include "utils/growable_array.h"
namespace art {
/**
* Collects and builds a CodeInfo for a method.
*/
template<typename T>
class StackMapStream : public ValueObject {
public:
explicit StackMapStream(ArenaAllocator* allocator)
: stack_maps_(allocator, 10),
dex_register_maps_(allocator, 10 * 4),
inline_infos_(allocator, 2),
stack_mask_max_(-1),
number_of_stack_maps_with_inline_info_(0) {}
// Compute bytes needed to encode a mask with the given maximum element.
static uint32_t StackMaskEncodingSize(int max_element) {
int number_of_bits = max_element + 1; // Need room for max element too.
return RoundUp(number_of_bits, kBitsPerByte) / kBitsPerByte;
}
// See runtime/stack_map.h to know what these fields contain.
struct StackMapEntry {
uint32_t dex_pc;
T native_pc;
uint32_t register_mask;
BitVector* sp_mask;
uint32_t num_dex_registers;
uint8_t inlining_depth;
size_t dex_register_maps_start_index;
size_t inline_infos_start_index;
};
struct DexRegisterEntry {
DexRegisterMap::LocationKind kind;
int32_t value;
};
struct InlineInfoEntry {
uint32_t method_index;
};
void AddStackMapEntry(uint32_t dex_pc,
T native_pc,
uint32_t register_mask,
BitVector* sp_mask,
uint32_t num_dex_registers,
uint8_t inlining_depth) {
StackMapEntry entry;
entry.dex_pc = dex_pc;
entry.native_pc = native_pc;
entry.register_mask = register_mask;
entry.sp_mask = sp_mask;
entry.num_dex_registers = num_dex_registers;
entry.inlining_depth = inlining_depth;
entry.dex_register_maps_start_index = dex_register_maps_.Size();
entry.inline_infos_start_index = inline_infos_.Size();
stack_maps_.Add(entry);
stack_mask_max_ = std::max(stack_mask_max_, sp_mask->GetHighestBitSet());
if (inlining_depth > 0) {
number_of_stack_maps_with_inline_info_++;
}
}
void AddDexRegisterEntry(DexRegisterMap::LocationKind kind, int32_t value) {
DexRegisterEntry entry;
entry.kind = kind;
entry.value = value;
dex_register_maps_.Add(entry);
}
void AddInlineInfoEntry(uint32_t method_index) {
InlineInfoEntry entry;
entry.method_index = method_index;
inline_infos_.Add(entry);
}
size_t ComputeNeededSize() const {
return CodeInfo<T>::kFixedSize
+ ComputeStackMapSize()
+ ComputeDexRegisterMapSize()
+ ComputeInlineInfoSize();
}
size_t ComputeStackMapSize() const {
return stack_maps_.Size() * (StackMap<T>::kFixedSize + StackMaskEncodingSize(stack_mask_max_));
}
size_t ComputeDexRegisterMapSize() const {
// We currently encode all dex register information per stack map.
return stack_maps_.Size() * DexRegisterMap::kFixedSize
// For each dex register entry.
+ (dex_register_maps_.Size() * DexRegisterMap::SingleEntrySize());
}
size_t ComputeInlineInfoSize() const {
return inline_infos_.Size() * InlineInfo::SingleEntrySize()
// For encoding the depth.
+ (number_of_stack_maps_with_inline_info_ * InlineInfo::kFixedSize);
}
size_t ComputeInlineInfoStart() const {
return ComputeDexRegisterMapStart() + ComputeDexRegisterMapSize();
}
size_t ComputeDexRegisterMapStart() const {
return CodeInfo<T>::kFixedSize + ComputeStackMapSize();
}
void FillIn(MemoryRegion region) {
CodeInfo<T> code_info(region);
size_t stack_mask_size = StackMaskEncodingSize(stack_mask_max_);
uint8_t* memory_start = region.start();
MemoryRegion dex_register_maps_region = region.Subregion(
ComputeDexRegisterMapStart(),
ComputeDexRegisterMapSize());
MemoryRegion inline_infos_region = region.Subregion(
ComputeInlineInfoStart(),
ComputeInlineInfoSize());
code_info.SetNumberOfStackMaps(stack_maps_.Size());
code_info.SetStackMaskSize(stack_mask_size);
uintptr_t next_dex_register_map_offset = 0;
uintptr_t next_inline_info_offset = 0;
for (size_t i = 0, e = stack_maps_.Size(); i < e; ++i) {
StackMap<T> stack_map = code_info.GetStackMapAt(i);
StackMapEntry entry = stack_maps_.Get(i);
stack_map.SetDexPc(entry.dex_pc);
stack_map.SetNativePc(entry.native_pc);
stack_map.SetRegisterMask(entry.register_mask);
stack_map.SetStackMask(*entry.sp_mask);
// Set the register map.
MemoryRegion region = dex_register_maps_region.Subregion(
next_dex_register_map_offset,
DexRegisterMap::kFixedSize + entry.num_dex_registers * DexRegisterMap::SingleEntrySize());
next_dex_register_map_offset += region.size();
DexRegisterMap dex_register_map(region);
stack_map.SetDexRegisterMapOffset(region.start() - memory_start);
for (size_t i = 0; i < entry.num_dex_registers; ++i) {
DexRegisterEntry register_entry =
dex_register_maps_.Get(i + entry.dex_register_maps_start_index);
dex_register_map.SetRegisterInfo(i, register_entry.kind, register_entry.value);
}
// Set the inlining info.
if (entry.inlining_depth != 0) {
MemoryRegion region = inline_infos_region.Subregion(
next_inline_info_offset,
InlineInfo::kFixedSize + entry.inlining_depth * InlineInfo::SingleEntrySize());
next_inline_info_offset += region.size();
InlineInfo inline_info(region);
stack_map.SetInlineDescriptorOffset(region.start() - memory_start);
inline_info.SetDepth(entry.inlining_depth);
for (size_t i = 0; i < entry.inlining_depth; ++i) {
InlineInfoEntry inline_entry = inline_infos_.Get(i + entry.inline_infos_start_index);
inline_info.SetMethodReferenceIndexAtDepth(i, inline_entry.method_index);
}
} else {
stack_map.SetInlineDescriptorOffset(InlineInfo::kNoInlineInfo);
}
}
}
private:
GrowableArray<StackMapEntry> stack_maps_;
GrowableArray<DexRegisterEntry> dex_register_maps_;
GrowableArray<InlineInfoEntry> inline_infos_;
int stack_mask_max_;
size_t number_of_stack_maps_with_inline_info_;
DISALLOW_COPY_AND_ASSIGN(StackMapStream);
};
} // namespace art
#endif // ART_COMPILER_OPTIMIZING_STACK_MAP_STREAM_H_