B3MoveConstants.cpp [plain text]

/*
 * Copyright (C) 2015-2016 Apple Inc. All rights reserved.
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 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
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 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
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 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 *
 * THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY
 * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL APPLE INC. OR
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#include "config.h"
#include "B3MoveConstants.h"

#if ENABLE(B3_JIT)

#include "B3BasicBlockInlines.h"
#include "B3Dominators.h"
#include "B3InsertionSetInlines.h"
#include "B3MemoryValue.h"
#include "B3PhaseScope.h"
#include "B3ProcedureInlines.h"
#include "B3ValueInlines.h"
#include "B3ValueKeyInlines.h"
#include <wtf/HashMap.h>
#include <wtf/Vector.h>

namespace JSC { namespace B3 {

namespace {

class MoveConstants {
public:
    MoveConstants(Procedure& proc)
        : m_proc(proc)
        , m_insertionSet(proc)
    {
    }

    void run()
    {
        hoistConstants(
            [&] (const ValueKey& key) -> bool {
                return key.opcode() == ConstFloat || key.opcode() == ConstDouble;
            });
        
        lowerFPConstants();
        
        hoistConstants(
            [&] (const ValueKey& key) -> bool {
                return key.opcode() == Const32 || key.opcode() == Const64;
            });
    }

private:
    template<typename Filter>
    void hoistConstants(const Filter& filter)
    {
        Dominators& dominators = m_proc.dominators();
        HashMap<ValueKey, Value*> valueForConstant;
        IndexMap<BasicBlock, Vector<Value*>> materializations(m_proc.size());

        // We determine where things get materialized based on where they are used.
        for (BasicBlock* block : m_proc) {
            for (Value* value : *block) {
                for (Value*& child : value->children()) {
                    ValueKey key = child->key();
                    if (!filter(key))
                        continue;

                    auto result = valueForConstant.add(key, child);
                    if (result.isNewEntry) {
                        // Assume that this block is where we want to materialize the value.
                        child->owner = block;
                        continue;
                    }

                    // Make 'value' use the canonical constant rather than the one it was using.
                    child = result.iterator->value;

                    // Determine the least common dominator. That's the lowest place in the CFG where
                    // we could materialize the constant while still having only one materialization
                    // in the resulting code.
                    while (!dominators.dominates(child->owner, block))
                        child->owner = dominators.idom(child->owner);
                }
            }
        }

        // Make sure that each basic block knows what to materialize. This also refines the
        // materialization block based on execution frequency. It finds the minimum block frequency
        // of all of its dominators, and selects the closest block amongst those that are tied for
        // lowest frequency.
        for (auto& entry : valueForConstant) {
            Value* value = entry.value;
            for (BasicBlock* block = value->owner; block; block = dominators.idom(block)) {
                if (block->frequency() < value->owner->frequency())
                    value->owner = block;
            }
            materializations[value->owner].append(value);
        }

        // Get rid of Value's that are fast constants but aren't canonical. Also remove the canonical
        // ones from the CFG, since we're going to reinsert them elsewhere.
        for (BasicBlock* block : m_proc) {
            for (Value*& value : *block) {
                ValueKey key = value->key();
                if (!filter(key))
                    continue;

                if (valueForConstant.get(key) == value)
                    value = m_proc.add<Value>(Nop, value->origin());
                else
                    value->replaceWithNopIgnoringType();
            }
        }

        // Now make sure that we move constants to where they are supposed to go. Again, we do this
        // based on uses.
        for (BasicBlock* block : m_proc) {
            for (unsigned valueIndex = 0; valueIndex < block->size(); ++valueIndex) {
                Value* value = block->at(valueIndex);
                for (Value* child : value->children()) {
                    ValueKey key = child->key();
                    if (!filter(key))
                        continue;

                    // If we encounter a fast constant, then it must be canonical, since we already
                    // got rid of the non-canonical ones.
                    ASSERT(valueForConstant.get(key) == child);

                    if (child->owner != block) {
                        // This constant isn't our problem. It's going to be materialized in another
                        // block.
                        continue;
                    }
                    
                    // We're supposed to materialize this constant in this block, and we haven't
                    // done it yet.
                    m_insertionSet.insertValue(valueIndex, child);
                    child->owner = nullptr;
                }
            }

            // We may have some constants that need to be materialized right at the end of this
            // block.
            for (Value* value : materializations[block]) {
                if (!value->owner) {
                    // It's already materialized in this block.
                    continue;
                }

                m_insertionSet.insertValue(block->size() - 1, value);
            }
            m_insertionSet.execute(block);
        }
    }

    void lowerFPConstants()
    {
        for (Value* value : m_proc.values()) {
            ValueKey key = value->key();
            if (goesInTable(key))
                m_constTable.add(key, m_constTable.size());
        }
        
        m_dataSection = static_cast<int64_t*>(m_proc.addDataSection(m_constTable.size() * sizeof(int64_t)));
        for (auto& entry : m_constTable)
            m_dataSection[entry.value] = entry.key.value();

        IndexSet<Value> offLimits;
        for (BasicBlock* block : m_proc) {
            for (unsigned valueIndex = 0; valueIndex < block->size(); ++valueIndex) {
                StackmapValue* value = block->at(valueIndex)->as<StackmapValue>();
                if (!value)
                    continue;

                for (unsigned childIndex = 0; childIndex < value->numChildren(); ++childIndex) {
                    if (!value->constrainedChild(childIndex).rep().isAny())
                        continue;
                    
                    Value*& child = value->child(childIndex);
                    ValueKey key = child->key();
                    if (!goesInTable(key))
                        continue;

                    child = m_insertionSet.insertValue(
                        valueIndex, key.materialize(m_proc, value->origin()));
                    offLimits.add(child);
                }
            }

            m_insertionSet.execute(block);
        }

        for (BasicBlock* block : m_proc) {
            for (unsigned valueIndex = 0; valueIndex < block->size(); ++valueIndex) {
                Value* value = block->at(valueIndex);
                ValueKey key = value->key();
                if (!goesInTable(key))
                    continue;
                if (offLimits.contains(value))
                    continue;

                Value* tableBase = m_insertionSet.insertIntConstant(
                    valueIndex, value->origin(), pointerType(),
                    bitwise_cast<intptr_t>(m_dataSection));
                Value* result = m_insertionSet.insert<MemoryValue>(
                    valueIndex, Load, value->type(), value->origin(), tableBase,
                    sizeof(int64_t) * m_constTable.get(key));
                value->replaceWithIdentity(result);
            }

            m_insertionSet.execute(block);
        }
    }

    bool goesInTable(const ValueKey& key)
    {
        return (key.opcode() == ConstDouble && key != doubleZero())
            || (key.opcode() == ConstFloat && key != floatZero());
    }

    static ValueKey doubleZero()
    {
        return ValueKey(ConstDouble, Double, 0.0);
    }

    static ValueKey floatZero()
    {
        return ValueKey(ConstFloat, Double, 0.0);
    }

    Procedure& m_proc;
    Vector<Value*> m_toRemove;
    HashMap<ValueKey, unsigned> m_constTable;
    int64_t* m_dataSection;
    HashMap<ValueKey, Value*> m_constants;
    InsertionSet m_insertionSet;
};

} // anonymous namespace

void moveConstants(Procedure& proc)
{
    PhaseScope phaseScope(proc, "moveConstants");
    MoveConstants moveConstants(proc);
    moveConstants.run();
}

} } // namespace JSC::B3

#endif // ENABLE(B3_JIT)