alvinalexander.com | career | drupal | java | mac | mysql | perl | scala | uml | unix  

Java example source code file (c1_ValueMap.cpp)

This example Java source code file (c1_ValueMap.cpp) is included in the alvinalexander.com "Java Source Code Warehouse" project. The intent of this project is to help you "Learn Java by Example" TM.

Learn more about this Java project at its project page.

Java - Java tags/keywords

blockbegin, blocklist, generic_kill_value, globalvaluenumbering, instruction, invalid, loopinvariantcodemotion, not_product, null, shortloopoptimizer, t_array, trace_value_numbering, value, valuemapentry

The c1_ValueMap.cpp Java example source code

/*
 * Copyright (c) 1999, 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.
 *
 */

#include "precompiled.hpp"
#include "c1/c1_Canonicalizer.hpp"
#include "c1/c1_IR.hpp"
#include "c1/c1_ValueMap.hpp"
#include "c1/c1_ValueStack.hpp"
#include "utilities/bitMap.inline.hpp"

#ifndef PRODUCT

  int ValueMap::_number_of_finds = 0;
  int ValueMap::_number_of_hits = 0;
  int ValueMap::_number_of_kills = 0;

  #define TRACE_VALUE_NUMBERING(code) if (PrintValueNumbering) { code; }

#else

  #define TRACE_VALUE_NUMBERING(code)

#endif


ValueMap::ValueMap()
  : _nesting(0)
  , _entries(ValueMapInitialSize, NULL)
  , _killed_values()
  , _entry_count(0)
{
  NOT_PRODUCT(reset_statistics());
}


ValueMap::ValueMap(ValueMap* old)
  : _nesting(old->_nesting + 1)
  , _entries(old->_entries.length())
  , _killed_values()
  , _entry_count(old->_entry_count)
{
  for (int i = size() - 1; i >= 0; i--) {
    _entries.at_put(i, old->entry_at(i));
  }
  _killed_values.set_from(&old->_killed_values);
}


void ValueMap::increase_table_size() {
  int old_size = size();
  int new_size = old_size * 2 + 1;

  ValueMapEntryList worklist(8);
  ValueMapEntryArray new_entries(new_size, NULL);
  int new_entry_count = 0;

  TRACE_VALUE_NUMBERING(tty->print_cr("increasing table size from %d to %d", old_size, new_size));

  for (int i = old_size - 1; i >= 0; i--) {
    ValueMapEntry* entry;
    for (entry = entry_at(i); entry != NULL; entry = entry->next()) {
      if (!is_killed(entry->value())) {
        worklist.push(entry);
      }
    }

    while (!worklist.is_empty()) {
      entry = worklist.pop();
      int new_index = entry_index(entry->hash(), new_size);

      if (entry->nesting() != nesting() && new_entries.at(new_index) != entry->next()) {
        // changing entries with a lower nesting than the current nesting of the table
        // is not allowed because then the same entry is contained in multiple value maps.
        // clone entry when next-pointer must be changed
        entry = new ValueMapEntry(entry->hash(), entry->value(), entry->nesting(), NULL);
      }
      entry->set_next(new_entries.at(new_index));
      new_entries.at_put(new_index, entry);
      new_entry_count++;
    }
  }

  _entries = new_entries;
  _entry_count = new_entry_count;
}


Value ValueMap::find_insert(Value x) {
  const intx hash = x->hash();
  if (hash != 0) {
    // 0 hash means: exclude from value numbering
    NOT_PRODUCT(_number_of_finds++);

    for (ValueMapEntry* entry = entry_at(entry_index(hash, size())); entry != NULL; entry = entry->next()) {
      if (entry->hash() == hash) {
        Value f = entry->value();

        if (!is_killed(f) && f->is_equal(x)) {
          NOT_PRODUCT(_number_of_hits++);
          TRACE_VALUE_NUMBERING(tty->print_cr("Value Numbering: %s %c%d equal to %c%d  (size %d, entries %d, nesting-diff %d)", x->name(), x->type()->tchar(), x->id(), f->type()->tchar(), f->id(), size(), entry_count(), nesting() - entry->nesting()));

          if (entry->nesting() != nesting() && f->as_Constant() == NULL) {
            // non-constant values of of another block must be pinned,
            // otherwise it is possible that they are not evaluated
            f->pin(Instruction::PinGlobalValueNumbering);
          }
          assert(x->type()->tag() == f->type()->tag(), "should have same type");

          return f;

        }
      }
    }

    // x not found, so insert it
    if (entry_count() >= size_threshold()) {
      increase_table_size();
    }
    int idx = entry_index(hash, size());
    _entries.at_put(idx, new ValueMapEntry(hash, x, nesting(), entry_at(idx)));
    _entry_count++;

    TRACE_VALUE_NUMBERING(tty->print_cr("Value Numbering: insert %s %c%d  (size %d, entries %d, nesting %d)", x->name(), x->type()->tchar(), x->id(), size(), entry_count(), nesting()));
  }

  return x;
}


#define GENERIC_KILL_VALUE(must_kill_implementation)                                     \
  NOT_PRODUCT(_number_of_kills++);                                                       \
                                                                                         \
  for (int i = size() - 1; i >= 0; i--) {                                                \
    ValueMapEntry* prev_entry = NULL;                                                    \
    for (ValueMapEntry* entry = entry_at(i); entry != NULL; entry = entry->next()) {     \
      Value value = entry->value();                                                      \
                                                                                         \
      must_kill_implementation(must_kill, entry, value)                                  \
                                                                                         \
      if (must_kill) {                                                                   \
        kill_value(value);                                                               \
                                                                                         \
        if (prev_entry == NULL) {                                                        \
          _entries.at_put(i, entry->next());                                             \
          _entry_count--;                                                                \
        } else if (prev_entry->nesting() == nesting()) {                                 \
          prev_entry->set_next(entry->next());                                           \
          _entry_count--;                                                                \
        } else {                                                                         \
          prev_entry = entry;                                                            \
        }                                                                                \
                                                                                         \
        TRACE_VALUE_NUMBERING(tty->print_cr("Value Numbering: killed %s %c%d  (size %d, entries %d, nesting-diff %d)", value->name(), value->type()->tchar(), value->id(), size(), entry_count(), nesting() - entry->nesting()));   \
      } else {                                                                           \
        prev_entry = entry;                                                              \
      }                                                                                  \
    }                                                                                    \
  }                                                                                      \

#define MUST_KILL_MEMORY(must_kill, entry, value)                                        \
  bool must_kill = value->as_LoadField() != NULL || value->as_LoadIndexed() != NULL;

#define MUST_KILL_ARRAY(must_kill, entry, value)                                         \
  bool must_kill = value->as_LoadIndexed() != NULL                                       \
                   && value->type()->tag() == type->tag();

#define MUST_KILL_FIELD(must_kill, entry, value)                                         \
  /* ciField's are not unique; must compare their contents */                            \
  LoadField* lf = value->as_LoadField();                                                 \
  bool must_kill = lf != NULL                                                            \
                   && lf->field()->holder() == field->holder()                           \
                   && (all_offsets || lf->field()->offset() == field->offset());


void ValueMap::kill_memory() {
  GENERIC_KILL_VALUE(MUST_KILL_MEMORY);
}

void ValueMap::kill_array(ValueType* type) {
  GENERIC_KILL_VALUE(MUST_KILL_ARRAY);
}

void ValueMap::kill_field(ciField* field, bool all_offsets) {
  GENERIC_KILL_VALUE(MUST_KILL_FIELD);
}

void ValueMap::kill_map(ValueMap* map) {
  assert(is_global_value_numbering(), "only for global value numbering");
  _killed_values.set_union(&map->_killed_values);
}

void ValueMap::kill_all() {
  assert(is_local_value_numbering(), "only for local value numbering");
  for (int i = size() - 1; i >= 0; i--) {
    _entries.at_put(i, NULL);
  }
  _entry_count = 0;
}


#ifndef PRODUCT

void ValueMap::print() {
  tty->print_cr("(size %d, entries %d, nesting %d)", size(), entry_count(), nesting());

  int entries = 0;
  for (int i = 0; i < size(); i++) {
    if (entry_at(i) != NULL) {
      tty->print("  %2d: ", i);
      for (ValueMapEntry* entry = entry_at(i); entry != NULL; entry = entry->next()) {
        Value value = entry->value();
        tty->print("%s %c%d (%s%d) -> ", value->name(), value->type()->tchar(), value->id(), is_killed(value) ? "x" : "", entry->nesting());
        entries++;
      }
      tty->print_cr("NULL");
    }
  }

  _killed_values.print();
  assert(entry_count() == entries, "entry_count incorrect");
}

void ValueMap::reset_statistics() {
  _number_of_finds = 0;
  _number_of_hits = 0;
  _number_of_kills = 0;
}

void ValueMap::print_statistics() {
  float hit_rate = 0;
  if (_number_of_finds != 0) {
    hit_rate = (float)_number_of_hits / _number_of_finds;
  }

  tty->print_cr("finds:%3d  hits:%3d   kills:%3d  hit rate: %1.4f", _number_of_finds, _number_of_hits, _number_of_kills, hit_rate);
}

#endif



class ShortLoopOptimizer : public ValueNumberingVisitor {
 private:
  GlobalValueNumbering* _gvn;
  BlockList             _loop_blocks;
  bool                  _too_complicated_loop;
  bool                  _has_field_store[T_ARRAY + 1];
  bool                  _has_indexed_store[T_ARRAY + 1];

  // simplified access to methods of GlobalValueNumbering
  ValueMap* current_map()                        { return _gvn->current_map(); }
  ValueMap* value_map_of(BlockBegin* block)      { return _gvn->value_map_of(block); }

  // implementation for abstract methods of ValueNumberingVisitor
  void      kill_memory()                                 { _too_complicated_loop = true; }
  void      kill_field(ciField* field, bool all_offsets)  {
    current_map()->kill_field(field, all_offsets);
    assert(field->type()->basic_type() >= 0 && field->type()->basic_type() <= T_ARRAY, "Invalid type");
    _has_field_store[field->type()->basic_type()] = true;
  }
  void      kill_array(ValueType* type)                   {
    current_map()->kill_array(type);
    BasicType basic_type = as_BasicType(type); assert(basic_type >= 0 && basic_type <= T_ARRAY, "Invalid type");
    _has_indexed_store[basic_type] = true;
  }

 public:
  ShortLoopOptimizer(GlobalValueNumbering* gvn)
    : _gvn(gvn)
    , _loop_blocks(ValueMapMaxLoopSize)
    , _too_complicated_loop(false)
  {
    for (int i=0; i<= T_ARRAY; i++){
      _has_field_store[i] = false;
      _has_indexed_store[i] = false;
    }
  }

  bool has_field_store(BasicType type) {
    assert(type >= 0 && type <= T_ARRAY, "Invalid type");
    return _has_field_store[type];
  }

  bool has_indexed_store(BasicType type) {
    assert(type >= 0 && type <= T_ARRAY, "Invalid type");
    return _has_indexed_store[type];
  }

  bool process(BlockBegin* loop_header);
};

class LoopInvariantCodeMotion : public StackObj  {
 private:
  GlobalValueNumbering* _gvn;
  ShortLoopOptimizer*   _short_loop_optimizer;
  Instruction*          _insertion_point;
  ValueStack *          _state;
  bool                  _insert_is_pred;

  void set_invariant(Value v) const    { _gvn->set_processed(v); }
  bool is_invariant(Value v) const     { return _gvn->is_processed(v); }

  void process_block(BlockBegin* block);

 public:
  LoopInvariantCodeMotion(ShortLoopOptimizer *slo, GlobalValueNumbering* gvn, BlockBegin* loop_header, BlockList* loop_blocks);
};

LoopInvariantCodeMotion::LoopInvariantCodeMotion(ShortLoopOptimizer *slo, GlobalValueNumbering* gvn, BlockBegin* loop_header, BlockList* loop_blocks)
  : _gvn(gvn), _short_loop_optimizer(slo) {

  TRACE_VALUE_NUMBERING(tty->print_cr("using loop invariant code motion loop_header = %d", loop_header->block_id()));
  TRACE_VALUE_NUMBERING(tty->print_cr("** loop invariant code motion for short loop B%d", loop_header->block_id()));

  BlockBegin* insertion_block = loop_header->dominator();
  if (insertion_block->number_of_preds() == 0) {
    return;  // only the entry block does not have a predecessor
  }

  assert(insertion_block->end()->as_Base() == NULL, "cannot insert into entry block");
  _insertion_point = insertion_block->end()->prev();
  _insert_is_pred = loop_header->is_predecessor(insertion_block);

  BlockEnd *block_end = insertion_block->end();
  _state = block_end->state_before();

  if (!_state) {
    // If, TableSwitch and LookupSwitch always have state_before when
    // loop invariant code motion happens..
    assert(block_end->as_Goto(), "Block has to be goto");
    _state = block_end->state();
  }

  // the loop_blocks are filled by going backward from the loop header, so this processing order is best
  assert(loop_blocks->at(0) == loop_header, "loop header must be first loop block");
  process_block(loop_header);
  for (int i = loop_blocks->length() - 1; i >= 1; i--) {
    process_block(loop_blocks->at(i));
  }
}

void LoopInvariantCodeMotion::process_block(BlockBegin* block) {
  TRACE_VALUE_NUMBERING(tty->print_cr("processing block B%d", block->block_id()));

  Instruction* prev = block;
  Instruction* cur = block->next();

  while (cur != NULL) {

    // determine if cur instruction is loop invariant
    // only selected instruction types are processed here
    bool cur_invariant = false;

    if (cur->as_Constant() != NULL) {
      cur_invariant = !cur->can_trap();
    } else if (cur->as_ArithmeticOp() != NULL || cur->as_LogicOp() != NULL || cur->as_ShiftOp() != NULL) {
      assert(cur->as_Op2() != NULL, "must be Op2");
      Op2* op2 = (Op2*)cur;
      cur_invariant = !op2->can_trap() && is_invariant(op2->x()) && is_invariant(op2->y());
    } else if (cur->as_LoadField() != NULL) {
      LoadField* lf = (LoadField*)cur;
      // deoptimizes on NullPointerException
      cur_invariant = !lf->needs_patching() && !lf->field()->is_volatile() && !_short_loop_optimizer->has_field_store(lf->field()->type()->basic_type()) && is_invariant(lf->obj()) && _insert_is_pred;
    } else if (cur->as_ArrayLength() != NULL) {
      ArrayLength *length = cur->as_ArrayLength();
      cur_invariant = is_invariant(length->array());
    } else if (cur->as_LoadIndexed() != NULL) {
      LoadIndexed *li = (LoadIndexed *)cur->as_LoadIndexed();
      cur_invariant = !_short_loop_optimizer->has_indexed_store(as_BasicType(cur->type())) && is_invariant(li->array()) && is_invariant(li->index()) && _insert_is_pred;
    }

    if (cur_invariant) {
      // perform value numbering and mark instruction as loop-invariant
      _gvn->substitute(cur);

      if (cur->as_Constant() == NULL) {
        // ensure that code for non-constant instructions is always generated
        cur->pin();
      }

      // remove cur instruction from loop block and append it to block before loop
      Instruction* next = cur->next();
      Instruction* in = _insertion_point->next();
      _insertion_point = _insertion_point->set_next(cur);
      cur->set_next(in);

      //  Deoptimize on exception
      cur->set_flag(Instruction::DeoptimizeOnException, true);

      //  Clear exception handlers
      cur->set_exception_handlers(NULL);

      TRACE_VALUE_NUMBERING(tty->print_cr("Instruction %c%d is loop invariant", cur->type()->tchar(), cur->id()));

      if (cur->state_before() != NULL) {
        cur->set_state_before(_state->copy());
      }
      if (cur->exception_state() != NULL) {
        cur->set_exception_state(_state->copy());
      }

      cur = prev->set_next(next);

    } else {
      prev = cur;
      cur = cur->next();
    }
  }
}

bool ShortLoopOptimizer::process(BlockBegin* loop_header) {
  TRACE_VALUE_NUMBERING(tty->print_cr("** loop header block"));

  _too_complicated_loop = false;
  _loop_blocks.clear();
  _loop_blocks.append(loop_header);

  for (int i = 0; i < _loop_blocks.length(); i++) {
    BlockBegin* block = _loop_blocks.at(i);
    TRACE_VALUE_NUMBERING(tty->print_cr("processing loop block B%d", block->block_id()));

    if (block->is_set(BlockBegin::exception_entry_flag)) {
      // this would be too complicated
      return false;
    }

    // add predecessors to worklist
    for (int j = block->number_of_preds() - 1; j >= 0; j--) {
      BlockBegin* pred = block->pred_at(j);

      if (pred->is_set(BlockBegin::osr_entry_flag)) {
        return false;
      }

      ValueMap* pred_map = value_map_of(pred);
      if (pred_map != NULL) {
        current_map()->kill_map(pred_map);
      } else if (!_loop_blocks.contains(pred)) {
        if (_loop_blocks.length() >= ValueMapMaxLoopSize) {
          return false;
        }
        _loop_blocks.append(pred);
      }
    }

    // use the instruction visitor for killing values
    for (Value instr = block->next(); instr != NULL; instr = instr->next()) {
      instr->visit(this);
      if (_too_complicated_loop) {
        return false;
      }
    }
  }

  bool optimistic = this->_gvn->compilation()->is_optimistic();

  if (UseLoopInvariantCodeMotion && optimistic) {
    LoopInvariantCodeMotion code_motion(this, _gvn, loop_header, &_loop_blocks);
  }

  TRACE_VALUE_NUMBERING(tty->print_cr("** loop successfully optimized"));
  return true;
}


GlobalValueNumbering::GlobalValueNumbering(IR* ir)
  : _current_map(NULL)
  , _value_maps(ir->linear_scan_order()->length(), NULL)
  , _compilation(ir->compilation())
{
  TRACE_VALUE_NUMBERING(tty->print_cr("****** start of global value numbering"));

  ShortLoopOptimizer short_loop_optimizer(this);

  BlockList* blocks = ir->linear_scan_order();
  int num_blocks = blocks->length();

  BlockBegin* start_block = blocks->at(0);
  assert(start_block == ir->start() && start_block->number_of_preds() == 0 && start_block->dominator() == NULL, "must be start block");
  assert(start_block->next()->as_Base() != NULL && start_block->next()->next() == NULL, "start block must not have instructions");

  // method parameters are not linked in instructions list, so process them separateley
  for_each_state_value(start_block->state(), value,
     assert(value->as_Local() != NULL, "only method parameters allowed");
     set_processed(value);
  );

  // initial, empty value map with nesting 0
  set_value_map_of(start_block, new ValueMap());

  for (int i = 1; i < num_blocks; i++) {
    BlockBegin* block = blocks->at(i);
    TRACE_VALUE_NUMBERING(tty->print_cr("**** processing block B%d", block->block_id()));

    int num_preds = block->number_of_preds();
    assert(num_preds > 0, "block must have predecessors");

    BlockBegin* dominator = block->dominator();
    assert(dominator != NULL, "dominator must exist");
    assert(value_map_of(dominator) != NULL, "value map of dominator must exist");

    // create new value map with increased nesting
    _current_map = new ValueMap(value_map_of(dominator));

    if (num_preds == 1 && !block->is_set(BlockBegin::exception_entry_flag)) {
      assert(dominator == block->pred_at(0), "dominator must be equal to predecessor");
      // nothing to do here

    } else if (block->is_set(BlockBegin::linear_scan_loop_header_flag)) {
      // block has incoming backward branches -> try to optimize short loops
      if (!short_loop_optimizer.process(block)) {
        // loop is too complicated, so kill all memory loads because there might be
        // stores to them in the loop
        current_map()->kill_memory();
      }

    } else {
      // only incoming forward branches that are already processed
      for (int j = 0; j < num_preds; j++) {
        BlockBegin* pred = block->pred_at(j);
        ValueMap* pred_map = value_map_of(pred);

        if (pred_map != NULL) {
          // propagate killed values of the predecessor to this block
          current_map()->kill_map(value_map_of(pred));
        } else {
          // kill all memory loads because predecessor not yet processed
          // (this can happen with non-natural loops and OSR-compiles)
          current_map()->kill_memory();
        }
      }
    }

    // phi functions are not linked in instructions list, so process them separateley
    for_each_phi_fun(block, phi,
      set_processed(phi);
    );

    TRACE_VALUE_NUMBERING(tty->print("value map before processing block: "); current_map()->print());

    // visit all instructions of this block
    for (Value instr = block->next(); instr != NULL; instr = instr->next()) {
      // check if instruction kills any values
      instr->visit(this);
      // perform actual value numbering
      substitute(instr);
    }

    // remember value map for successors
    set_value_map_of(block, current_map());
  }

  if (_has_substitutions) {
    SubstitutionResolver resolver(ir);
  }

  TRACE_VALUE_NUMBERING(tty->print("****** end of global value numbering. "); ValueMap::print_statistics());
}

void GlobalValueNumbering::substitute(Instruction* instr) {
  assert(!instr->has_subst(), "substitution already set");
  Value subst = current_map()->find_insert(instr);
  if (subst != instr) {
    assert(!subst->has_subst(), "can't have a substitution");

    TRACE_VALUE_NUMBERING(tty->print_cr("substitution for %d set to %d", instr->id(), subst->id()));
    instr->set_subst(subst);
    _has_substitutions = true;
  }
  set_processed(instr);
}

Other Java examples (source code examples)

Here is a short list of links related to this Java c1_ValueMap.cpp source code file:

... this post is sponsored by my books ...

#1 New Release!

FP Best Seller

 

new blog posts

 

Copyright 1998-2024 Alvin Alexander, alvinalexander.com
All Rights Reserved.

A percentage of advertising revenue from
pages under the /java/jwarehouse URI on this website is
paid back to open source projects.