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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 ConstantOptimiser.cpp
 * @author Christian <c@ethdev.com>
 * @date 2015
 */

#pragma once

#include <libevmasm/Exceptions.h>

#include <liblangutil/EVMVersion.h>

#include <libdevcore/Assertions.h>
#include <libdevcore/CommonData.h>
#include <libdevcore/CommonIO.h>

#include <vector>

namespace dev
{
namespace eth
{

class AssemblyItem;
using AssemblyItems = std::vector<AssemblyItem>;
class Assembly;

/**
 * Abstract base class for one way to change how constants are represented in the code.
 */
class ConstantOptimisationMethod
{
public:
    /// Tries to optimised how constants are represented in the source code and modifies
    /// @a _assembly and its @a _items.
    /// @returns zero if no optimisations could be performed.
    static unsigned optimiseConstants(
        bool _isCreation,
        size_t _runs,
        solidity::EVMVersion _evmVersion,
        Assembly& _assembly,
        AssemblyItems& _items
    );

    struct Params
    {
        bool isCreation; ///< Whether this is called during contract creation or runtime.
        size_t runs; ///< Estimated number of calls per opcode oven the lifetime of the contract.
        size_t multiplicity; ///< Number of times the constant appears in the code.
        solidity::EVMVersion evmVersion; ///< Version of the EVM
    };

    explicit ConstantOptimisationMethod(Params const& _params, u256 const& _value):
        m_params(_params), m_value(_value) {}
    virtual ~ConstantOptimisationMethod() = default;
    virtual bigint gasNeeded() const = 0;
    /// Executes the method, potentially appending to the assembly and returns a vector of
    /// assembly items the constant should be relpaced with in one sweep.
    /// If the vector is empty, the constants will not be deleted.
    virtual AssemblyItems execute(Assembly& _assembly) const = 0;

protected:
    /// @returns the run gas for the given items ignoring special gas costs
    static bigint simpleRunGas(AssemblyItems const& _items);
    /// @returns the gas needed to store the given data literally
    bigint dataGas(bytes const& _data) const;
    /// @returns the gas needed to store the value literally
    bigint dataGas() const { return dataGas(toCompactBigEndian(m_value, 1)); }
    static size_t bytesRequired(AssemblyItems const& _items);
    /// @returns the combined estimated gas usage taking @a m_params into account.
    bigint combineGas(
        bigint const& _runGas,
        bigint const& _repeatedDataGas,
        bigint const& _uniqueDataGas
    ) const
    {
        // _runGas is not multiplied by _multiplicity because the runs are "per opcode"
        return m_params.runs * _runGas + m_params.multiplicity * _repeatedDataGas + _uniqueDataGas;
    }

    /// Replaces all constants i by the code given in @a _replacement[i].
    static void replaceConstants(AssemblyItems& _items, std::map<u256, AssemblyItems> const& _replacements);

    Params m_params;
    u256 const& m_value;
};

/**
 * Optimisation method that pushes the constant to the stack literally. This is the default method,
 * i.e. executing it does not alter the Assembly.
 */
class LiteralMethod: public ConstantOptimisationMethod
{
public:
    explicit LiteralMethod(Params const& _params, u256 const& _value):
        ConstantOptimisationMethod(_params, _value) {}
    bigint gasNeeded() const override;
    AssemblyItems execute(Assembly&) const override { return AssemblyItems{}; }
};

/**
 * Method that stores the data in the .data section of the code and copies it to the stack.
 */
class CodeCopyMethod: public ConstantOptimisationMethod
{
public:
    explicit CodeCopyMethod(Params const& _params, u256 const& _value);
    bigint gasNeeded() const override;
    AssemblyItems execute(Assembly& _assembly) const override;

protected:
    static AssemblyItems const& copyRoutine();
};

/**
 * Method that tries to compute the constant.
 */
class ComputeMethod: public ConstantOptimisationMethod
{
public:
    explicit ComputeMethod(Params const& _params, u256 const& _value):
        ConstantOptimisationMethod(_params, _value)
    {
        m_routine = findRepresentation(m_value);
        assertThrow(
            checkRepresentation(m_value, m_routine),
            OptimizerException,
            "Invalid constant expression created."
        );
    }

    bigint gasNeeded() const override { return gasNeeded(m_routine); }
    AssemblyItems execute(Assembly&) const override
    {
        return m_routine;
    }

protected:
    /// Tries to recursively find a way to compute @a _value.
    AssemblyItems findRepresentation(u256 const& _value);
    /// Recomputes the value from the calculated representation and checks for correctness.
    static bool checkRepresentation(u256 const& _value, AssemblyItems const& _routine);
    bigint gasNeeded(AssemblyItems const& _routine) const;

    /// Counter for the complexity of optimization, will stop when it reaches zero.
    size_t m_maxSteps = 10000;
    AssemblyItems m_routine;
};

}
}