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/*
    This file is part of solidity.

    solidity is free software: you can redistribute it and/or modify
    it under the terms of the GNU General Public License as published by
    the Free Software Foundation, either version 3 of the License, or
    (at your option) any later version.

    solidity 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 for more details.

    You should have received a copy of the GNU General Public License
    along with solidity.  If not, see <http://www.gnu.org/licenses/>.
*/
/**
 * @file PeepholeOptimiser.cpp
 * Performs local optimising code changes to assembly.
 */

#include "PeepholeOptimiser.h"

#include <libevmasm/AssemblyItem.h>
#include <libevmasm/SemanticInformation.h>

using namespace std;
using namespace dev::eth;
using namespace dev;

// TODO: Extend this to use the tools from ExpressionClasses.cpp

namespace
{

struct OptimiserState
{
    AssemblyItems const& items;
    size_t i;
    std::back_insert_iterator<AssemblyItems> out;
};

template <class Method, size_t Arguments>
struct ApplyRule
{
};
template <class Method>
struct ApplyRule<Method, 3>
{
    static bool applyRule(AssemblyItems::const_iterator _in, std::back_insert_iterator<AssemblyItems> _out)
    {
        return Method::applySimple(_in[0], _in[1], _in[2], _out);
    }
};
template <class Method>
struct ApplyRule<Method, 2>
{
    static bool applyRule(AssemblyItems::const_iterator _in, std::back_insert_iterator<AssemblyItems> _out)
    {
        return Method::applySimple(_in[0], _in[1], _out);
    }
};
template <class Method>
struct ApplyRule<Method, 1>
{
    static bool applyRule(AssemblyItems::const_iterator _in, std::back_insert_iterator<AssemblyItems> _out)
    {
        return Method::applySimple(_in[0], _out);
    }
};

template <class Method, size_t WindowSize>
struct SimplePeepholeOptimizerMethod
{
    static bool apply(OptimiserState& _state)
    {
        if (
            _state.i + WindowSize <= _state.items.size() &&
            ApplyRule<Method, WindowSize>::applyRule(_state.items.begin() + _state.i, _state.out)
        )
        {
            _state.i += WindowSize;
            return true;
        }
        else
            return false;
    }
};

struct Identity: SimplePeepholeOptimizerMethod<Identity, 1>
{
    static bool applySimple(AssemblyItem const& _item, std::back_insert_iterator<AssemblyItems> _out)
    {
        *_out = _item;
        return true;
    }
};

struct PushPop: SimplePeepholeOptimizerMethod<PushPop, 2>
{
    static bool applySimple(AssemblyItem const& _push, AssemblyItem const& _pop, std::back_insert_iterator<AssemblyItems>)
    {
        auto t = _push.type();
        return _pop == Instruction::POP && (
            SemanticInformation::isDupInstruction(_push) ||
            t == Push || t == PushString || t == PushTag || t == PushSub ||
            t == PushSubSize || t == PushProgramSize || t == PushData || t == PushLibraryAddress
        );
    }
};

struct OpPop: SimplePeepholeOptimizerMethod<OpPop, 2>
{
    static bool applySimple(
        AssemblyItem const& _op,
        AssemblyItem const& _pop,
        std::back_insert_iterator<AssemblyItems> _out
    )
    {
        if (_pop == Instruction::POP && _op.type() == Operation)
        {
            Instruction instr = _op.instruction();
            if (instructionInfo(instr).ret == 1 && !instructionInfo(instr).sideEffects)
            {
                for (int j = 0; j < instructionInfo(instr).args; j++)
                    *_out = {Instruction::POP, _op.location()};
                return true;
            }
        }
        return false;
    }
};

struct DoubleSwap: SimplePeepholeOptimizerMethod<DoubleSwap, 2>
{
    static size_t applySimple(AssemblyItem const& _s1, AssemblyItem const& _s2, std::back_insert_iterator<AssemblyItems>)
    {
        return _s1 == _s2 && SemanticInformation::isSwapInstruction(_s1);
    }
};

struct DoublePush: SimplePeepholeOptimizerMethod<DoublePush, 2>
{
    static bool applySimple(AssemblyItem const& _push1, AssemblyItem const& _push2, std::back_insert_iterator<AssemblyItems> _out)
    {
        if (_push1.type() == Push && _push2.type() == Push && _push1.data() == _push2.data())
        {
            *_out = _push1;
            *_out = {Instruction::DUP1, _push2.location()};
            return true;
        }
        else
            return false;
    }
};

struct JumpToNext: SimplePeepholeOptimizerMethod<JumpToNext, 3>
{
    static size_t applySimple(
        AssemblyItem const& _pushTag,
        AssemblyItem const& _jump,
        AssemblyItem const& _tag,
        std::back_insert_iterator<AssemblyItems> _out
    )
    {
        if (
            _pushTag.type() == PushTag &&
            (_jump == Instruction::JUMP || _jump == Instruction::JUMPI) &&
            _tag.type() == Tag &&
            _pushTag.data() == _tag.data()
        )
        {
            if (_jump == Instruction::JUMPI)
                *_out = AssemblyItem(Instruction::POP, _jump.location());
            *_out = _tag;
            return true;
        }
        else
            return false;
    }
};

struct TagConjunctions: SimplePeepholeOptimizerMethod<TagConjunctions, 3>
{
    static bool applySimple(
        AssemblyItem const& _pushTag,
        AssemblyItem const& _pushConstant,
        AssemblyItem const& _and,
        std::back_insert_iterator<AssemblyItems> _out
    )
    {
        if (
            _pushTag.type() == PushTag &&
            _and == Instruction::AND &&
            _pushConstant.type() == Push &&
            (_pushConstant.data() & u256(0xFFFFFFFF)) == u256(0xFFFFFFFF)
        )
        {
            *_out = _pushTag;
            return true;
        }
        else
            return false;
    }
};

/// Removes everything after a JUMP (or similar) until the next JUMPDEST.
struct UnreachableCode
{
    static bool apply(OptimiserState& _state)
    {
        auto it = _state.items.begin() + _state.i;
        auto end = _state.items.end();
        if (it == end)
            return false;
        if (
            it[0] != Instruction::JUMP &&
            it[0] != Instruction::RETURN &&
            it[0] != Instruction::STOP &&
            it[0] != Instruction::INVALID &&
            it[0] != Instruction::SELFDESTRUCT &&
            it[0] != Instruction::REVERT
        )
            return false;

        size_t i = 1;
        while (it + i != end && it[i].type() != Tag)
            i++;
        if (i > 1)
        {
            *_state.out = it[0];
            _state.i += i;
            return true;
        }
        else
            return false;
    }
};

void applyMethods(OptimiserState&)
{
    assertThrow(false, OptimizerException, "Peephole optimizer failed to apply identity.");
}

template <typename Method, typename... OtherMethods>
void applyMethods(OptimiserState& _state, Method, OtherMethods... _other)
{
    if (!Method::apply(_state))
        applyMethods(_state, _other...);
}

size_t numberOfPops(AssemblyItems const& _items)
{
    return std::count(_items.begin(), _items.end(), Instruction::POP);
}

}

bool PeepholeOptimiser::optimise()
{
    OptimiserState state {m_items, 0, std::back_inserter(m_optimisedItems)};
    while (state.i < m_items.size())
        applyMethods(state, PushPop(), OpPop(), DoublePush(), DoubleSwap(), JumpToNext(), UnreachableCode(), TagConjunctions(), Identity());
    if (m_optimisedItems.size() < m_items.size() || (
        m_optimisedItems.size() == m_items.size() && (
            eth::bytesRequired(m_optimisedItems, 3) < eth::bytesRequired(m_items, 3) ||
            numberOfPops(m_optimisedItems) > numberOfPops(m_items)
        )
    ))
    {
        m_items = std::move(m_optimisedItems);
        return true;
    }
    else
        return false;
}