// Copyright (c) 2012, the Dart project authors. Please see the AUTHORS file // for details. All rights reserved. Use of this source code is governed by a // BSD-style license that can be found in the LICENSE file. #ifndef RUNTIME_VM_CODE_DESCRIPTORS_H_ #define RUNTIME_VM_CODE_DESCRIPTORS_H_ #include "vm/datastream.h" #include "vm/globals.h" #include "vm/growable_array.h" #include "vm/log.h" #include "vm/object.h" #include "vm/runtime_entry.h" namespace dart { static const intptr_t kInvalidTryIndex = -1; class DescriptorList : public ZoneAllocated { public: explicit DescriptorList(intptr_t initial_capacity) : encoded_data_(initial_capacity), prev_pc_offset(0), prev_deopt_id(0), prev_token_pos(0) {} ~DescriptorList() {} void AddDescriptor(RawPcDescriptors::Kind kind, intptr_t pc_offset, intptr_t deopt_id, TokenPosition token_pos, intptr_t try_index); RawPcDescriptors* FinalizePcDescriptors(uword entry_point); private: GrowableArray encoded_data_; intptr_t prev_pc_offset; intptr_t prev_deopt_id; intptr_t prev_token_pos; DISALLOW_COPY_AND_ASSIGN(DescriptorList); }; class StackMapTableBuilder : public ZoneAllocated { public: StackMapTableBuilder() : stack_map_(StackMap::ZoneHandle()), list_(GrowableObjectArray::ZoneHandle( GrowableObjectArray::New(Heap::kOld))) {} ~StackMapTableBuilder() {} void AddEntry(intptr_t pc_offset, BitmapBuilder* bitmap, intptr_t register_bit_count); bool Verify(); RawArray* FinalizeStackMaps(const Code& code); private: intptr_t Length() const { return list_.Length(); } RawStackMap* MapAt(intptr_t index) const; StackMap& stack_map_; GrowableObjectArray& list_; DISALLOW_COPY_AND_ASSIGN(StackMapTableBuilder); }; class ExceptionHandlerList : public ZoneAllocated { public: struct HandlerDesc { intptr_t outer_try_index; // Try block in which this try block is nested. intptr_t pc_offset; // Handler PC offset value. TokenPosition token_pos; // Token position of handler. bool is_generated; // False if this is directly from Dart code. const Array* handler_types; // Catch clause guards. bool needs_stacktrace; }; ExceptionHandlerList() : list_() {} intptr_t Length() const { return list_.length(); } void AddPlaceHolder() { struct HandlerDesc data; data.outer_try_index = -1; data.pc_offset = ExceptionHandlers::kInvalidPcOffset; data.token_pos = TokenPosition::kNoSource; data.is_generated = true; data.handler_types = NULL; data.needs_stacktrace = false; list_.Add(data); } void AddHandler(intptr_t try_index, intptr_t outer_try_index, intptr_t pc_offset, TokenPosition token_pos, bool is_generated, const Array& handler_types, bool needs_stacktrace) { ASSERT(try_index >= 0); while (Length() <= try_index) { AddPlaceHolder(); } list_[try_index].outer_try_index = outer_try_index; ASSERT(list_[try_index].pc_offset == ExceptionHandlers::kInvalidPcOffset); list_[try_index].pc_offset = pc_offset; list_[try_index].token_pos = token_pos; list_[try_index].is_generated = is_generated; ASSERT(handler_types.IsZoneHandle()); list_[try_index].handler_types = &handler_types; list_[try_index].needs_stacktrace |= needs_stacktrace; } // Called by rethrows, to mark their enclosing handlers. void SetNeedsStackTrace(intptr_t try_index) { // Rethrows can be generated outside a try by the compiler. if (try_index == kInvalidTryIndex) { return; } ASSERT(try_index >= 0); while (Length() <= try_index) { AddPlaceHolder(); } list_[try_index].needs_stacktrace = true; } static bool ContainsDynamic(const Array& array) { for (intptr_t i = 0; i < array.Length(); i++) { if (array.At(i) == Type::DynamicType()) { return true; } } return false; } RawExceptionHandlers* FinalizeExceptionHandlers(uword entry_point) const; private: GrowableArray list_; DISALLOW_COPY_AND_ASSIGN(ExceptionHandlerList); }; #if !defined(DART_PRECOMPILED_RUNTIME) // Used to construct CatchEntryMoves for the AOT mode of compilation. class CatchEntryMovesMapBuilder : public ZoneAllocated { public: CatchEntryMovesMapBuilder(); void NewMapping(intptr_t pc_offset); void Append(const CatchEntryMove& move); void EndMapping(); RawTypedData* FinalizeCatchEntryMovesMap(); private: class TrieNode; Zone* zone_; TrieNode* root_; intptr_t current_pc_offset_; GrowableArray moves_; uint8_t* buffer_; WriteStream stream_; DISALLOW_COPY_AND_ASSIGN(CatchEntryMovesMapBuilder); }; #endif // !defined(DART_PRECOMPILED_RUNTIME) // A CodeSourceMap maps from pc offsets to a stack of inlined functions and // their positions. This is encoded as a little bytecode that pushes and pops // functions and changes the top function's position as the PC advances. // Decoding happens by running this bytecode until we reach the desired PC. // // The implementation keeps track of two sets of state: one written to the byte // stream and one that is buffered. On the JIT, this buffering effectively gives // us a peephole optimization that merges adjacent advance PC bytecodes. On AOT, // this allows to skip encoding our position until we reach a PC where we might // throw. class CodeSourceMapBuilder : public ZoneAllocated { public: CodeSourceMapBuilder( bool stack_traces_only, const GrowableArray& caller_inline_id, const GrowableArray& inline_id_to_token_pos, const GrowableArray& inline_id_to_function); // The position at which a function implicitly starts, for both the root and // after a push bytecode. We use the classifying position kDartCodePrologue // since it is the most common. static const TokenPosition kInitialPosition; static const uint8_t kChangePosition = 0; static const uint8_t kAdvancePC = 1; static const uint8_t kPushFunction = 2; static const uint8_t kPopFunction = 3; static const uint8_t kNullCheck = 4; void StartInliningInterval(int32_t pc_offset, intptr_t inline_id); void BeginCodeSourceRange(int32_t pc_offset); void EndCodeSourceRange(int32_t pc_offset, TokenPosition pos); void NoteDescriptor(RawPcDescriptors::Kind kind, int32_t pc_offset, TokenPosition pos); void NoteNullCheck(int32_t pc_offset, TokenPosition pos, intptr_t name_index); RawArray* InliningIdToFunction(); RawCodeSourceMap* Finalize(); private: intptr_t GetFunctionId(intptr_t inline_id); void BufferChangePosition(TokenPosition pos) { buffered_token_pos_stack_.Last() = pos; } void WriteChangePosition(TokenPosition pos); void BufferAdvancePC(int32_t distance) { buffered_pc_offset_ += distance; } void WriteAdvancePC(int32_t distance) { stream_.Write(kAdvancePC); stream_.Write(distance); written_pc_offset_ += distance; } void BufferPush(intptr_t inline_id) { buffered_inline_id_stack_.Add(inline_id); buffered_token_pos_stack_.Add(kInitialPosition); } void WritePush(intptr_t inline_id) { stream_.Write(kPushFunction); stream_.Write(GetFunctionId(inline_id)); written_inline_id_stack_.Add(inline_id); written_token_pos_stack_.Add(kInitialPosition); } void BufferPop() { buffered_inline_id_stack_.RemoveLast(); buffered_token_pos_stack_.RemoveLast(); } void WritePop() { stream_.Write(kPopFunction); written_inline_id_stack_.RemoveLast(); written_token_pos_stack_.RemoveLast(); } void WriteNullCheck(int32_t name_index) { stream_.Write(kNullCheck); stream_.Write(name_index); } void FlushBuffer(); void FlushBufferStack(); void FlushBufferPosition(); void FlushBufferPC(); bool IsOnBufferedStack(intptr_t inline_id) { for (intptr_t i = 0; i < buffered_inline_id_stack_.length(); i++) { if (buffered_inline_id_stack_[i] == inline_id) return true; } return false; } intptr_t buffered_pc_offset_; GrowableArray buffered_inline_id_stack_; GrowableArray buffered_token_pos_stack_; intptr_t written_pc_offset_; GrowableArray written_inline_id_stack_; GrowableArray written_token_pos_stack_; const GrowableArray& caller_inline_id_; const GrowableArray& inline_id_to_token_pos_; const GrowableArray& inline_id_to_function_; const GrowableObjectArray& inlined_functions_; uint8_t* buffer_; WriteStream stream_; const bool stack_traces_only_; DISALLOW_COPY_AND_ASSIGN(CodeSourceMapBuilder); }; class CodeSourceMapReader : public ValueObject { public: CodeSourceMapReader(const CodeSourceMap& map, const Array& functions, const Function& root) : map_(map), functions_(functions), root_(root) {} void GetInlinedFunctionsAt(int32_t pc_offset, GrowableArray* function_stack, GrowableArray* token_positions); NOT_IN_PRODUCT(void PrintJSONInlineIntervals(JSONObject* jsobj)); void DumpInlineIntervals(uword start); void DumpSourcePositions(uword start); intptr_t GetNullCheckNameIndexAt(int32_t pc_offset); private: const CodeSourceMap& map_; const Array& functions_; const Function& root_; DISALLOW_COPY_AND_ASSIGN(CodeSourceMapReader); }; } // namespace dart #endif // RUNTIME_VM_CODE_DESCRIPTORS_H_