| /* |
| * Copyright (c) 1997, 2013, Oracle and/or its affiliates. All rights reserved. |
| * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. |
| * |
| * This code is free software; you can redistribute it and/or modify it |
| * under the terms of the GNU General Public License version 2 only, as |
| * published by the Free Software Foundation. |
| * |
| * This code is distributed in the hope that it will be useful, but WITHOUT |
| * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or |
| * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License |
| * version 2 for more details (a copy is included in the LICENSE file that |
| * accompanied this code). |
| * |
| * You should have received a copy of the GNU General Public License version |
| * 2 along with this work; if not, write to the Free Software Foundation, |
| * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. |
| * |
| * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA |
| * or visit www.oracle.com if you need additional information or have any |
| * questions. |
| * |
| */ |
| |
| #ifndef SHARE_VM_OPTO_PARSE_HPP |
| #define SHARE_VM_OPTO_PARSE_HPP |
| |
| #include "ci/ciMethodData.hpp" |
| #include "ci/ciTypeFlow.hpp" |
| #include "compiler/methodLiveness.hpp" |
| #include "libadt/vectset.hpp" |
| #include "oops/generateOopMap.hpp" |
| #include "opto/graphKit.hpp" |
| #include "opto/subnode.hpp" |
| |
| class BytecodeParseHistogram; |
| class InlineTree; |
| class Parse; |
| class SwitchRange; |
| |
| |
| //------------------------------InlineTree------------------------------------- |
| class InlineTree : public ResourceObj { |
| friend class VMStructs; |
| |
| Compile* C; // cache |
| JVMState* _caller_jvms; // state of caller |
| ciMethod* _method; // method being called by the caller_jvms |
| InlineTree* _caller_tree; |
| uint _count_inline_bcs; // Accumulated count of inlined bytecodes |
| // Call-site count / interpreter invocation count, scaled recursively. |
| // Always between 0.0 and 1.0. Represents the percentage of the method's |
| // total execution time used at this call site. |
| const float _site_invoke_ratio; |
| const int _max_inline_level; // the maximum inline level for this sub-tree (may be adjusted) |
| float compute_callee_frequency( int caller_bci ) const; |
| |
| GrowableArray<InlineTree*> _subtrees; |
| |
| void print_impl(outputStream* stj, int indent) const PRODUCT_RETURN; |
| const char* _msg; |
| protected: |
| InlineTree(Compile* C, |
| const InlineTree* caller_tree, |
| ciMethod* callee_method, |
| JVMState* caller_jvms, |
| int caller_bci, |
| float site_invoke_ratio, |
| int max_inline_level); |
| InlineTree *build_inline_tree_for_callee(ciMethod* callee_method, |
| JVMState* caller_jvms, |
| int caller_bci); |
| bool try_to_inline(ciMethod* callee_method, |
| ciMethod* caller_method, |
| int caller_bci, |
| JVMState* jvms, |
| ciCallProfile& profile, |
| WarmCallInfo* wci_result, |
| bool& should_delay); |
| bool should_inline(ciMethod* callee_method, |
| ciMethod* caller_method, |
| int caller_bci, |
| ciCallProfile& profile, |
| WarmCallInfo* wci_result); |
| bool should_not_inline(ciMethod* callee_method, |
| ciMethod* caller_method, |
| JVMState* jvms, |
| WarmCallInfo* wci_result); |
| void print_inlining(ciMethod* callee_method, int caller_bci, |
| bool success) const; |
| |
| InlineTree* caller_tree() const { return _caller_tree; } |
| InlineTree* callee_at(int bci, ciMethod* m) const; |
| int inline_level() const { return stack_depth(); } |
| int stack_depth() const { return _caller_jvms ? _caller_jvms->depth() : 0; } |
| const char* msg() const { return _msg; } |
| void set_msg(const char* msg) { _msg = msg; } |
| public: |
| static const char* check_can_parse(ciMethod* callee); |
| |
| static InlineTree* build_inline_tree_root(); |
| static InlineTree* find_subtree_from_root(InlineTree* root, JVMState* jvms, ciMethod* callee); |
| |
| // For temporary (stack-allocated, stateless) ilts: |
| InlineTree(Compile* c, ciMethod* callee_method, JVMState* caller_jvms, float site_invoke_ratio, int max_inline_level); |
| |
| // InlineTree enum |
| enum InlineStyle { |
| Inline_do_not_inline = 0, // |
| Inline_cha_is_monomorphic = 1, // |
| Inline_type_profile_monomorphic = 2 // |
| }; |
| |
| // See if it is OK to inline. |
| // The receiver is the inline tree for the caller. |
| // |
| // The result is a temperature indication. If it is hot or cold, |
| // inlining is immediate or undesirable. Otherwise, the info block |
| // returned is newly allocated and may be enqueued. |
| // |
| // If the method is inlinable, a new inline subtree is created on the fly, |
| // and may be accessed by find_subtree_from_root. |
| // The call_method is the dest_method for a special or static invocation. |
| // The call_method is an optimized virtual method candidate otherwise. |
| WarmCallInfo* ok_to_inline(ciMethod *call_method, JVMState* caller_jvms, ciCallProfile& profile, WarmCallInfo* wci, bool& should_delay); |
| |
| // Information about inlined method |
| JVMState* caller_jvms() const { return _caller_jvms; } |
| ciMethod *method() const { return _method; } |
| int caller_bci() const { return _caller_jvms ? _caller_jvms->bci() : InvocationEntryBci; } |
| uint count_inline_bcs() const { return _count_inline_bcs; } |
| float site_invoke_ratio() const { return _site_invoke_ratio; }; |
| |
| #ifndef PRODUCT |
| private: |
| uint _count_inlines; // Count of inlined methods |
| public: |
| // Debug information collected during parse |
| uint count_inlines() const { return _count_inlines; }; |
| #endif |
| GrowableArray<InlineTree*> subtrees() { return _subtrees; } |
| |
| void print_value_on(outputStream* st) const PRODUCT_RETURN; |
| |
| bool _forced_inline; // Inlining was forced by CompilerOracle, ciReplay or annotation |
| bool forced_inline() const { return _forced_inline; } |
| // Count number of nodes in this subtree |
| int count() const; |
| // Dump inlining replay data to the stream. |
| void dump_replay_data(outputStream* out); |
| }; |
| |
| |
| //----------------------------------------------------------------------------- |
| //------------------------------Parse------------------------------------------ |
| // Parse bytecodes, build a Graph |
| class Parse : public GraphKit { |
| public: |
| // Per-block information needed by the parser: |
| class Block { |
| private: |
| ciTypeFlow::Block* _flow; |
| int _pred_count; // how many predecessors in CFG? |
| int _preds_parsed; // how many of these have been parsed? |
| uint _count; // how many times executed? Currently only set by _goto's |
| bool _is_parsed; // has this block been parsed yet? |
| bool _is_handler; // is this block an exception handler? |
| bool _has_merged_backedge; // does this block have merged backedge? |
| SafePointNode* _start_map; // all values flowing into this block |
| MethodLivenessResult _live_locals; // lazily initialized liveness bitmap |
| |
| int _num_successors; // Includes only normal control flow. |
| int _all_successors; // Include exception paths also. |
| Block** _successors; |
| |
| // Use init_node/init_graph to initialize Blocks. |
| // Block() : _live_locals((uintptr_t*)NULL,0) { ShouldNotReachHere(); } |
| Block() : _live_locals(NULL,0) { ShouldNotReachHere(); } |
| |
| public: |
| |
| // Set up the block data structure itself. |
| void init_node(Parse* outer, int po); |
| // Set up the block's relations to other blocks. |
| void init_graph(Parse* outer); |
| |
| ciTypeFlow::Block* flow() const { return _flow; } |
| int pred_count() const { return _pred_count; } |
| int preds_parsed() const { return _preds_parsed; } |
| bool is_parsed() const { return _is_parsed; } |
| bool is_handler() const { return _is_handler; } |
| void set_count( uint x ) { _count = x; } |
| uint count() const { return _count; } |
| |
| SafePointNode* start_map() const { assert(is_merged(),""); return _start_map; } |
| void set_start_map(SafePointNode* m) { assert(!is_merged(), ""); _start_map = m; } |
| |
| // True after any predecessor flows control into this block |
| bool is_merged() const { return _start_map != NULL; } |
| |
| #ifdef ASSERT |
| // True after backedge predecessor flows control into this block |
| bool has_merged_backedge() const { return _has_merged_backedge; } |
| void mark_merged_backedge(Block* pred) { |
| assert(is_SEL_head(), "should be loop head"); |
| if (pred != NULL && is_SEL_backedge(pred)) { |
| assert(is_parsed(), "block should be parsed before merging backedges"); |
| _has_merged_backedge = true; |
| } |
| } |
| #endif |
| |
| // True when all non-exception predecessors have been parsed. |
| bool is_ready() const { return preds_parsed() == pred_count(); } |
| |
| int num_successors() const { return _num_successors; } |
| int all_successors() const { return _all_successors; } |
| Block* successor_at(int i) const { |
| assert((uint)i < (uint)all_successors(), ""); |
| return _successors[i]; |
| } |
| Block* successor_for_bci(int bci); |
| |
| int start() const { return flow()->start(); } |
| int limit() const { return flow()->limit(); } |
| int rpo() const { return flow()->rpo(); } |
| int start_sp() const { return flow()->stack_size(); } |
| |
| bool is_loop_head() const { return flow()->is_loop_head(); } |
| bool is_SEL_head() const { return flow()->is_single_entry_loop_head(); } |
| bool is_SEL_backedge(Block* pred) const{ return is_SEL_head() && pred->rpo() >= rpo(); } |
| bool is_invariant_local(uint i) const { |
| const JVMState* jvms = start_map()->jvms(); |
| if (!jvms->is_loc(i) || flow()->outer()->has_irreducible_entry()) return false; |
| return flow()->is_invariant_local(i - jvms->locoff()); |
| } |
| bool can_elide_SEL_phi(uint i) const { assert(is_SEL_head(),""); return is_invariant_local(i); } |
| |
| const Type* peek(int off=0) const { return stack_type_at(start_sp() - (off+1)); } |
| |
| const Type* stack_type_at(int i) const; |
| const Type* local_type_at(int i) const; |
| static const Type* get_type(ciType* t) { return Type::get_typeflow_type(t); } |
| |
| bool has_trap_at(int bci) const { return flow()->has_trap() && flow()->trap_bci() == bci; } |
| |
| // Call this just before parsing a block. |
| void mark_parsed() { |
| assert(!_is_parsed, "must parse each block exactly once"); |
| _is_parsed = true; |
| } |
| |
| // Return the phi/region input index for the "current" pred, |
| // and bump the pred number. For historical reasons these index |
| // numbers are handed out in descending order. The last index is |
| // always PhiNode::Input (i.e., 1). The value returned is known |
| // as a "path number" because it distinguishes by which path we are |
| // entering the block. |
| int next_path_num() { |
| assert(preds_parsed() < pred_count(), "too many preds?"); |
| return pred_count() - _preds_parsed++; |
| } |
| |
| // Add a previously unaccounted predecessor to this block. |
| // This operates by increasing the size of the block's region |
| // and all its phi nodes (if any). The value returned is a |
| // path number ("pnum"). |
| int add_new_path(); |
| |
| // Initialize me by recording the parser's map. My own map must be NULL. |
| void record_state(Parse* outer); |
| }; |
| |
| #ifndef PRODUCT |
| // BytecodeParseHistogram collects number of bytecodes parsed, nodes constructed, and transformations. |
| class BytecodeParseHistogram : public ResourceObj { |
| private: |
| enum BPHType { |
| BPH_transforms, |
| BPH_values |
| }; |
| static bool _initialized; |
| static uint _bytecodes_parsed [Bytecodes::number_of_codes]; |
| static uint _nodes_constructed[Bytecodes::number_of_codes]; |
| static uint _nodes_transformed[Bytecodes::number_of_codes]; |
| static uint _new_values [Bytecodes::number_of_codes]; |
| |
| Bytecodes::Code _initial_bytecode; |
| int _initial_node_count; |
| int _initial_transforms; |
| int _initial_values; |
| |
| Parse *_parser; |
| Compile *_compiler; |
| |
| // Initialization |
| static void reset(); |
| |
| // Return info being collected, select with global flag 'BytecodeParseInfo' |
| int current_count(BPHType info_selector); |
| |
| public: |
| BytecodeParseHistogram(Parse *p, Compile *c); |
| static bool initialized(); |
| |
| // Record info when starting to parse one bytecode |
| void set_initial_state( Bytecodes::Code bc ); |
| // Record results of parsing one bytecode |
| void record_change(); |
| |
| // Profile printing |
| static void print(float cutoff = 0.01F); // cutoff in percent |
| }; |
| |
| public: |
| // Record work done during parsing |
| BytecodeParseHistogram* _parse_histogram; |
| void set_parse_histogram(BytecodeParseHistogram *bph) { _parse_histogram = bph; } |
| BytecodeParseHistogram* parse_histogram() { return _parse_histogram; } |
| #endif |
| |
| private: |
| friend class Block; |
| |
| // Variables which characterize this compilation as a whole: |
| |
| JVMState* _caller; // JVMS which carries incoming args & state. |
| float _expected_uses; // expected number of calls to this code |
| float _prof_factor; // discount applied to my profile counts |
| int _depth; // Inline tree depth, for debug printouts |
| const TypeFunc*_tf; // My kind of function type |
| int _entry_bci; // the osr bci or InvocationEntryBci |
| |
| ciTypeFlow* _flow; // Results of previous flow pass. |
| Block* _blocks; // Array of basic-block structs. |
| int _block_count; // Number of elements in _blocks. |
| |
| GraphKit _exits; // Record all normal returns and throws here. |
| bool _wrote_final; // Did we write a final field? |
| bool _wrote_volatile; // Did we write a volatile field? |
| bool _wrote_stable; // Did we write a @Stable field? |
| bool _wrote_fields; // Did we write any field? |
| bool _count_invocations; // update and test invocation counter |
| bool _method_data_update; // update method data oop |
| Node* _alloc_with_final; // An allocation node with final field |
| |
| // Variables which track Java semantics during bytecode parsing: |
| |
| Block* _block; // block currently getting parsed |
| ciBytecodeStream _iter; // stream of this method's bytecodes |
| |
| int _blocks_merged; // Progress meter: state merges from BB preds |
| int _blocks_parsed; // Progress meter: BBs actually parsed |
| |
| const FastLockNode* _synch_lock; // FastLockNode for synchronized method |
| |
| #ifndef PRODUCT |
| int _max_switch_depth; // Debugging SwitchRanges. |
| int _est_switch_depth; // Debugging SwitchRanges. |
| #endif |
| |
| bool _first_return; // true if return is the first to be parsed |
| bool _replaced_nodes_for_exceptions; // needs processing of replaced nodes in exception paths? |
| uint _new_idx; // any node with _idx above were new during this parsing. Used to trim the replaced nodes list. |
| |
| public: |
| // Constructor |
| Parse(JVMState* caller, ciMethod* parse_method, float expected_uses); |
| |
| virtual Parse* is_Parse() const { return (Parse*)this; } |
| |
| // Accessors. |
| JVMState* caller() const { return _caller; } |
| float expected_uses() const { return _expected_uses; } |
| float prof_factor() const { return _prof_factor; } |
| int depth() const { return _depth; } |
| const TypeFunc* tf() const { return _tf; } |
| // entry_bci() -- see osr_bci, etc. |
| |
| ciTypeFlow* flow() const { return _flow; } |
| // blocks() -- see rpo_at, start_block, etc. |
| int block_count() const { return _block_count; } |
| |
| GraphKit& exits() { return _exits; } |
| bool wrote_final() const { return _wrote_final; } |
| void set_wrote_final(bool z) { _wrote_final = z; } |
| bool wrote_volatile() const { return _wrote_volatile; } |
| void set_wrote_volatile(bool z) { _wrote_volatile = z; } |
| bool wrote_stable() const { return _wrote_stable; } |
| void set_wrote_stable(bool z) { _wrote_stable = z; } |
| bool wrote_fields() const { return _wrote_fields; } |
| void set_wrote_fields(bool z) { _wrote_fields = z; } |
| bool count_invocations() const { return _count_invocations; } |
| bool method_data_update() const { return _method_data_update; } |
| Node* alloc_with_final() const { return _alloc_with_final; } |
| void set_alloc_with_final(Node* n) { |
| assert((_alloc_with_final == NULL) || (_alloc_with_final == n), "different init objects?"); |
| _alloc_with_final = n; |
| } |
| |
| Block* block() const { return _block; } |
| ciBytecodeStream& iter() { return _iter; } |
| Bytecodes::Code bc() const { return _iter.cur_bc(); } |
| |
| void set_block(Block* b) { _block = b; } |
| |
| // Derived accessors: |
| bool is_normal_parse() const { return _entry_bci == InvocationEntryBci; } |
| bool is_osr_parse() const { return _entry_bci != InvocationEntryBci; } |
| int osr_bci() const { assert(is_osr_parse(),""); return _entry_bci; } |
| |
| void set_parse_bci(int bci); |
| |
| // Must this parse be aborted? |
| bool failing() { return C->failing(); } |
| |
| Block* rpo_at(int rpo) { |
| assert(0 <= rpo && rpo < _block_count, "oob"); |
| return &_blocks[rpo]; |
| } |
| Block* start_block() { |
| return rpo_at(flow()->start_block()->rpo()); |
| } |
| // Can return NULL if the flow pass did not complete a block. |
| Block* successor_for_bci(int bci) { |
| return block()->successor_for_bci(bci); |
| } |
| |
| private: |
| // Create a JVMS & map for the initial state of this method. |
| SafePointNode* create_entry_map(); |
| |
| // OSR helpers |
| Node *fetch_interpreter_state(int index, BasicType bt, Node *local_addrs, Node *local_addrs_base); |
| Node* check_interpreter_type(Node* l, const Type* type, SafePointNode* &bad_type_exit); |
| void load_interpreter_state(Node* osr_buf); |
| |
| // Functions for managing basic blocks: |
| void init_blocks(); |
| void load_state_from(Block* b); |
| void store_state_to(Block* b) { b->record_state(this); } |
| |
| // Parse all the basic blocks. |
| void do_all_blocks(); |
| |
| // Parse the current basic block |
| void do_one_block(); |
| |
| // Raise an error if we get a bad ciTypeFlow CFG. |
| void handle_missing_successor(int bci); |
| |
| // first actions (before BCI 0) |
| void do_method_entry(); |
| |
| // implementation of monitorenter/monitorexit |
| void do_monitor_enter(); |
| void do_monitor_exit(); |
| |
| // Eagerly create phie throughout the state, to cope with back edges. |
| void ensure_phis_everywhere(); |
| |
| // Merge the current mapping into the basic block starting at bci |
| void merge( int target_bci); |
| // Same as plain merge, except that it allocates a new path number. |
| void merge_new_path( int target_bci); |
| // Merge the current mapping into an exception handler. |
| void merge_exception(int target_bci); |
| // Helper: Merge the current mapping into the given basic block |
| void merge_common(Block* target, int pnum); |
| // Helper functions for merging individual cells. |
| PhiNode *ensure_phi( int idx, bool nocreate = false); |
| PhiNode *ensure_memory_phi(int idx, bool nocreate = false); |
| // Helper to merge the current memory state into the given basic block |
| void merge_memory_edges(MergeMemNode* n, int pnum, bool nophi); |
| |
| // Parse this bytecode, and alter the Parsers JVM->Node mapping |
| void do_one_bytecode(); |
| |
| // helper function to generate array store check |
| void array_store_check(); |
| // Helper function to generate array load |
| void array_load(BasicType etype); |
| // Helper function to generate array store |
| void array_store(BasicType etype); |
| // Helper function to compute array addressing |
| Node* array_addressing(BasicType type, int vals, const Type* *result2=NULL); |
| |
| void rtm_deopt(); |
| |
| // Pass current map to exits |
| void return_current(Node* value); |
| |
| // Register finalizers on return from Object.<init> |
| void call_register_finalizer(); |
| |
| // Insert a compiler safepoint into the graph |
| void add_safepoint(); |
| |
| // Insert a compiler safepoint into the graph, if there is a back-branch. |
| void maybe_add_safepoint(int target_bci) { |
| if (UseLoopSafepoints && target_bci <= bci()) { |
| add_safepoint(); |
| } |
| } |
| |
| // Note: Intrinsic generation routines may be found in library_call.cpp. |
| |
| // Helper function to setup Ideal Call nodes |
| void do_call(); |
| |
| // Helper function to uncommon-trap or bailout for non-compilable call-sites |
| bool can_not_compile_call_site(ciMethod *dest_method, ciInstanceKlass *klass); |
| |
| // Helper function to setup for type-profile based inlining |
| bool prepare_type_profile_inline(ciInstanceKlass* prof_klass, ciMethod* prof_method); |
| |
| // Helper functions for type checking bytecodes: |
| void do_checkcast(); |
| void do_instanceof(); |
| |
| // Helper functions for shifting & arithmetic |
| void modf(); |
| void modd(); |
| void l2f(); |
| |
| void do_irem(); |
| |
| // implementation of _get* and _put* bytecodes |
| void do_getstatic() { do_field_access(true, false); } |
| void do_getfield () { do_field_access(true, true); } |
| void do_putstatic() { do_field_access(false, false); } |
| void do_putfield () { do_field_access(false, true); } |
| |
| // common code for making initial checks and forming addresses |
| void do_field_access(bool is_get, bool is_field); |
| bool static_field_ok_in_clinit(ciField *field, ciMethod *method); |
| |
| // common code for actually performing the load or store |
| void do_get_xxx(Node* obj, ciField* field, bool is_field); |
| void do_put_xxx(Node* obj, ciField* field, bool is_field); |
| |
| // loading from a constant field or the constant pool |
| // returns false if push failed (non-perm field constants only, not ldcs) |
| bool push_constant(ciConstant con, bool require_constant = false, bool is_autobox_cache = false, const Type* basic_type = NULL); |
| |
| // implementation of object creation bytecodes |
| void emit_guard_for_new(ciInstanceKlass* klass); |
| void do_new(); |
| void do_newarray(BasicType elemtype); |
| void do_anewarray(); |
| void do_multianewarray(); |
| Node* expand_multianewarray(ciArrayKlass* array_klass, Node* *lengths, int ndimensions, int nargs); |
| |
| // implementation of jsr/ret |
| void do_jsr(); |
| void do_ret(); |
| |
| float dynamic_branch_prediction(float &cnt, BoolTest::mask btest, Node* test); |
| float branch_prediction(float &cnt, BoolTest::mask btest, int target_bci, Node* test); |
| bool seems_never_taken(float prob) const; |
| bool path_is_suitable_for_uncommon_trap(float prob) const; |
| bool seems_stable_comparison() const; |
| |
| void do_ifnull(BoolTest::mask btest, Node* c); |
| void do_if(BoolTest::mask btest, Node* c); |
| int repush_if_args(); |
| void adjust_map_after_if(BoolTest::mask btest, Node* c, float prob, |
| Block* path, Block* other_path); |
| void sharpen_type_after_if(BoolTest::mask btest, |
| Node* con, const Type* tcon, |
| Node* val, const Type* tval); |
| IfNode* jump_if_fork_int(Node* a, Node* b, BoolTest::mask mask); |
| Node* jump_if_join(Node* iffalse, Node* iftrue); |
| void jump_if_true_fork(IfNode *ifNode, int dest_bci_if_true, int prof_table_index); |
| void jump_if_false_fork(IfNode *ifNode, int dest_bci_if_false, int prof_table_index); |
| void jump_if_always_fork(int dest_bci_if_true, int prof_table_index); |
| |
| friend class SwitchRange; |
| void do_tableswitch(); |
| void do_lookupswitch(); |
| void jump_switch_ranges(Node* a, SwitchRange* lo, SwitchRange* hi, int depth = 0); |
| bool create_jump_tables(Node* a, SwitchRange* lo, SwitchRange* hi); |
| |
| void decrement_age(); |
| // helper functions for methodData style profiling |
| void test_counter_against_threshold(Node* cnt, int limit); |
| void increment_and_test_invocation_counter(int limit); |
| void test_for_osr_md_counter_at(ciMethodData* md, ciProfileData* data, ByteSize offset, int limit); |
| Node* method_data_addressing(ciMethodData* md, ciProfileData* data, ByteSize offset, Node* idx = NULL, uint stride = 0); |
| void increment_md_counter_at(ciMethodData* md, ciProfileData* data, ByteSize offset, Node* idx = NULL, uint stride = 0); |
| void set_md_flag_at(ciMethodData* md, ciProfileData* data, int flag_constant); |
| |
| void profile_method_entry(); |
| void profile_taken_branch(int target_bci, bool force_update = false); |
| void profile_not_taken_branch(bool force_update = false); |
| void profile_call(Node* receiver); |
| void profile_generic_call(); |
| void profile_receiver_type(Node* receiver); |
| void profile_ret(int target_bci); |
| void profile_null_checkcast(); |
| void profile_switch_case(int table_index); |
| |
| // helper function for call statistics |
| void count_compiled_calls(bool at_method_entry, bool is_inline) PRODUCT_RETURN; |
| |
| Node_Notes* make_node_notes(Node_Notes* caller_nn); |
| |
| // Helper functions for handling normal and abnormal exits. |
| void build_exits(); |
| |
| // Fix up all exceptional control flow exiting a single bytecode. |
| void do_exceptions(); |
| |
| // Fix up all exiting control flow at the end of the parse. |
| void do_exits(); |
| |
| // Add Catch/CatchProjs |
| // The call is either a Java call or the VM's rethrow stub |
| void catch_call_exceptions(ciExceptionHandlerStream&); |
| |
| // Handle all exceptions thrown by the inlined method. |
| // Also handles exceptions for individual bytecodes. |
| void catch_inline_exceptions(SafePointNode* ex_map); |
| |
| // Merge the given map into correct exceptional exit state. |
| // Assumes that there is no applicable local handler. |
| void throw_to_exit(SafePointNode* ex_map); |
| |
| // Use speculative type to optimize CmpP node |
| Node* optimize_cmp_with_klass(Node* c); |
| |
| public: |
| #ifndef PRODUCT |
| // Handle PrintOpto, etc. |
| void show_parse_info(); |
| void dump_map_adr_mem() const; |
| static void print_statistics(); // Print some performance counters |
| void dump(); |
| void dump_bci(int bci); |
| #endif |
| }; |
| |
| #endif // SHARE_VM_OPTO_PARSE_HPP |