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/*
    This file is part of cpp-ethereum.

    cpp-ethereum 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.

    cpp-ethereum 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 cpp-ethereum.  If not, see <http://www.gnu.org/licenses/>.
*/
/** @file MemTrie.cpp
 * @author Gav Wood <i@gavwood.com>
 * @date 2014
 */

#include "MemTrie.h"

#include <libdevcrypto/TrieCommon.h>
#include <libdevcrypto/SHA3.h>
#include <libethcore/CommonEth.h>
using namespace std;
using namespace dev;
using namespace dev::eth;

namespace dev
{

#define ENABLE_DEBUG_PRINT 0

/*/
#define APPEND_CHILD appendData
/*/
#define APPEND_CHILD appendRaw
/**/

class MemTrieNode
{
public:
    MemTrieNode() {}
    virtual ~MemTrieNode() {}

    virtual std::string const& at(bytesConstRef _key) const = 0;
    virtual MemTrieNode* insert(bytesConstRef _key, std::string const& _value) = 0;
    virtual MemTrieNode* remove(bytesConstRef _key) = 0;
    void putRLP(RLPStream& _parentStream) const;

#if ENABLE_DEBUG_PRINT
    void debugPrint(std::string const& _indent = "") const { std::cerr << std::hex << hash256() << ":" << std::dec << std::endl; debugPrintBody(_indent); }
#endif

    /// 256-bit hash of the node - this is a SHA-3/256 hash of the RLP of the node.
    h256 hash256() const { RLPStream s; makeRLP(s); return dev::sha3(s.out()); }
    bytes rlp() const { RLPStream s; makeRLP(s); return s.out(); }
    void mark() { m_hash256 = h256(); }

protected:
    virtual void makeRLP(RLPStream& _intoStream) const = 0;

#if ENABLE_DEBUG_PRINT
    virtual void debugPrintBody(std::string const& _indent = "") const = 0;
#endif

    static MemTrieNode* newBranch(bytesConstRef _k1, std::string const& _v1, bytesConstRef _k2, std::string const& _v2);

private:
    mutable h256 m_hash256;
};

static const std::string c_nullString;

class TrieExtNode: public MemTrieNode
{
public:
    TrieExtNode(bytesConstRef _bytes): m_ext(_bytes.begin(), _bytes.end()) {}

    bytes m_ext;
};

class TrieBranchNode: public MemTrieNode
{
public:
    TrieBranchNode(std::string const& _value): m_value(_value)
    {
        memset(m_nodes.data(), 0, sizeof(MemTrieNode*) * 16);
    }

    TrieBranchNode(byte _i1, MemTrieNode* _n1, std::string const& _value = std::string()): m_value(_value)
    {
        memset(m_nodes.data(), 0, sizeof(MemTrieNode*) * 16);
        m_nodes[_i1] = _n1;
    }

    TrieBranchNode(byte _i1, MemTrieNode* _n1, byte _i2, MemTrieNode* _n2)
    {
        memset(m_nodes.data(), 0, sizeof(MemTrieNode*) * 16);
        m_nodes[_i1] = _n1;
        m_nodes[_i2] = _n2;
    }

    virtual ~TrieBranchNode()
    {
        for (auto i: m_nodes)
            delete i;
    }

#if ENABLE_DEBUG_PRINT
    virtual void debugPrintBody(std::string const& _indent) const
    {

        if (m_value.size())
            std::cerr << _indent << "@: " << m_value << std::endl;
        for (auto i = 0; i < 16; ++i)
            if (m_nodes[i])
            {
                std::cerr << _indent << std::hex << i << ": " << std::dec;
                m_nodes[i]->debugPrint(_indent + "  ");
            }
    }
#endif

    virtual std::string const& at(bytesConstRef _key) const override;
    virtual MemTrieNode* insert(bytesConstRef _key, std::string const& _value) override;
    virtual MemTrieNode* remove(bytesConstRef _key) override;
    virtual void makeRLP(RLPStream& _parentStream) const override;

private:
    /// @returns (byte)-1 when no active branches, 16 when multiple active and the index of the active branch otherwise.
    byte activeBranch() const;

    MemTrieNode* rejig();

    std::array<MemTrieNode*, 16> m_nodes;
    std::string m_value;
};

class TrieLeafNode: public TrieExtNode
{
public:
    TrieLeafNode(bytesConstRef _key, std::string const& _value): TrieExtNode(_key), m_value(_value) {}

#if ENABLE_DEBUG_PRINT
    virtual void debugPrintBody(std::string const& _indent) const
    {
        assert(m_value.size());
        std::cerr << _indent;
        if (m_ext.size())
            std::cerr << toHex(m_ext, 1) << ": ";
        else
            std::cerr << "@: ";
        std::cerr << m_value << std::endl;
    }
#endif

    virtual std::string const& at(bytesConstRef _key) const override { return contains(_key) ? m_value : c_nullString; }
    virtual MemTrieNode* insert(bytesConstRef _key, std::string const& _value) override;
    virtual MemTrieNode* remove(bytesConstRef _key) override;
    virtual void makeRLP(RLPStream& _parentStream) const override;

private:
    bool contains(bytesConstRef _key) const { return _key.size() == m_ext.size() && !memcmp(_key.data(), m_ext.data(), _key.size()); }

    std::string m_value;
};

class TrieInfixNode: public TrieExtNode
{
public:
    TrieInfixNode(bytesConstRef _key, MemTrieNode* _next): TrieExtNode(_key), m_next(_next) {}
    virtual ~TrieInfixNode() { delete m_next; }

#if ENABLE_DEBUG_PRINT
    virtual void debugPrintBody(std::string const& _indent) const
    {
        std::cerr << _indent << toHex(m_ext, 1) << ": ";
        m_next->debugPrint(_indent + "  ");
    }
#endif

    virtual std::string const& at(bytesConstRef _key) const override { assert(m_next); return contains(_key) ? m_next->at(_key.cropped(m_ext.size())) : c_nullString; }
    virtual MemTrieNode* insert(bytesConstRef _key, std::string const& _value) override;
    virtual MemTrieNode* remove(bytesConstRef _key) override;
    virtual void makeRLP(RLPStream& _parentStream) const override;

private:
    bool contains(bytesConstRef _key) const { return _key.size() >= m_ext.size() && !memcmp(_key.data(), m_ext.data(), m_ext.size()); }

    MemTrieNode* m_next;
};

void MemTrieNode::putRLP(RLPStream& _parentStream) const
{
    RLPStream s;
    makeRLP(s);
    if (s.out().size() < 32)
        _parentStream.APPEND_CHILD(s.out());
    else
        _parentStream << dev::sha3(s.out());
}

void TrieBranchNode::makeRLP(RLPStream& _intoStream) const
{
    _intoStream.appendList(17);
    for (auto i: m_nodes)
        if (i)
            i->putRLP(_intoStream);
        else
            _intoStream << "";
    _intoStream << m_value;
}

void TrieLeafNode::makeRLP(RLPStream& _intoStream) const
{
    _intoStream.appendList(2) << hexPrefixEncode(m_ext, true) << m_value;
}

void TrieInfixNode::makeRLP(RLPStream& _intoStream) const
{
    assert(m_next);
    _intoStream.appendList(2);
    _intoStream << hexPrefixEncode(m_ext, false);
    m_next->putRLP(_intoStream);
}

MemTrieNode* MemTrieNode::newBranch(bytesConstRef _k1, std::string const& _v1, bytesConstRef _k2, std::string const& _v2)
{
    unsigned prefix = commonPrefix(_k1, _k2);

    MemTrieNode* ret;
    if (_k1.size() == prefix)
        ret = new TrieBranchNode(_k2[prefix], new TrieLeafNode(_k2.cropped(prefix + 1), _v2), _v1);
    else if (_k2.size() == prefix)
        ret = new TrieBranchNode(_k1[prefix], new TrieLeafNode(_k1.cropped(prefix + 1), _v1), _v2);
    else // both continue after split
        ret = new TrieBranchNode(_k1[prefix], new TrieLeafNode(_k1.cropped(prefix + 1), _v1), _k2[prefix], new TrieLeafNode(_k2.cropped(prefix + 1), _v2));

    if (prefix)
        // have shared prefix - split.
        ret = new TrieInfixNode(_k1.cropped(0, prefix), ret);

    return ret;
}

std::string const& TrieBranchNode::at(bytesConstRef _key) const
{
    if (_key.empty())
        return m_value;
    else if (m_nodes[_key[0]] != nullptr)
        return m_nodes[_key[0]]->at(_key.cropped(1));
    return c_nullString;
}

MemTrieNode* TrieBranchNode::insert(bytesConstRef _key, std::string const& _value)
{
    assert(_value.size());
    mark();
    if (_key.empty())
        m_value = _value;
    else
        if (!m_nodes[_key[0]])
            m_nodes[_key[0]] = new TrieLeafNode(_key.cropped(1), _value);
        else
            m_nodes[_key[0]] = m_nodes[_key[0]]->insert(_key.cropped(1), _value);
    return this;
}

MemTrieNode* TrieBranchNode::remove(bytesConstRef _key)
{
    if (_key.empty())
        if (m_value.size())
        {
            m_value.clear();
            return rejig();
        }
        else {}
    else if (m_nodes[_key[0]] != nullptr)
    {
        m_nodes[_key[0]] = m_nodes[_key[0]]->remove(_key.cropped(1));
        return rejig();
    }
    return this;
}

MemTrieNode* TrieBranchNode::rejig()
{
    mark();
    byte n = activeBranch();

    if (n == (byte)-1 && m_value.size())
    {
        // switch to leaf
        auto r = new TrieLeafNode(bytesConstRef(), m_value);
        delete this;
        return r;
    }
    else if (n < 16 && m_value.empty())
    {
        // only branching to n...
        if (auto b = dynamic_cast<TrieBranchNode*>(m_nodes[n]))
        {
            // switch to infix
            m_nodes[n] = nullptr;
            delete this;
            return new TrieInfixNode(bytesConstRef(&n, 1), b);
        }
        else
        {
            auto x = dynamic_cast<TrieExtNode*>(m_nodes[n]);
            assert(x);
            // include in child
            pushFront(x->m_ext, n);
            m_nodes[n] = nullptr;
            delete this;
            return x;
        }
    }

    return this;
}

byte TrieBranchNode::activeBranch() const
{
    byte n = (byte)-1;
    for (int i = 0; i < 16; ++i)
        if (m_nodes[i] != nullptr)
        {
            if (n == (byte)-1)
                n = (byte)i;
            else
                return 16;
        }
    return n;
}

MemTrieNode* TrieInfixNode::insert(bytesConstRef _key, std::string const& _value)
{
    assert(_value.size());
    mark();
    if (contains(_key))
    {
        m_next = m_next->insert(_key.cropped(m_ext.size()), _value);
        return this;
    }
    else
    {
        unsigned prefix = commonPrefix(_key, m_ext);
        if (prefix)
        {
            // one infix becomes two infixes, then insert into the second
            // instead of pop_front()...
            trimFront(m_ext, prefix);

            return new TrieInfixNode(_key.cropped(0, prefix), insert(_key.cropped(prefix), _value));
        }
        else
        {
            // split here.
            auto f = m_ext[0];
            trimFront(m_ext, 1);
            MemTrieNode* n = m_ext.empty() ? m_next : this;
            if (n != this)
            {
                m_next = nullptr;
                delete this;
            }
            TrieBranchNode* ret = new TrieBranchNode(f, n);
            ret->insert(_key, _value);
            return ret;
        }
    }
}

MemTrieNode* TrieInfixNode::remove(bytesConstRef _key)
{
    if (contains(_key))
    {
        mark();
        m_next = m_next->remove(_key.cropped(m_ext.size()));
        if (auto p = dynamic_cast<TrieExtNode*>(m_next))
        {
            // merge with child...
            m_ext.reserve(m_ext.size() + p->m_ext.size());
            for (auto i: p->m_ext)
                m_ext.push_back(i);
            p->m_ext = m_ext;
            p->mark();
            m_next = nullptr;
            delete this;
            return p;
        }
        if (!m_next)
        {
            delete this;
            return nullptr;
        }
    }
    return this;
}

MemTrieNode* TrieLeafNode::insert(bytesConstRef _key, std::string const& _value)
{
    assert(_value.size());
    mark();
    if (contains(_key))
    {
        m_value = _value;
        return this;
    }
    else
    {
        // create new trie.
        auto n = MemTrieNode::newBranch(_key, _value, bytesConstRef(&m_ext), m_value);
        delete this;
        return n;
    }
}

MemTrieNode* TrieLeafNode::remove(bytesConstRef _key)
{
    if (contains(_key))
    {
        delete this;
        return nullptr;
    }
    return this;
}

MemTrie::~MemTrie()
{
    delete m_root;
}

h256 MemTrie::hash256() const
{
    return m_root ? m_root->hash256() : sha3(dev::rlp(bytesConstRef()));
}

bytes MemTrie::rlp() const
{
    return m_root ? m_root->rlp() : dev::rlp(bytesConstRef());
}

void MemTrie::debugPrint()
{
#if ENABLE_DEBUG_PRINT
    if (m_root)
        m_root->debugPrint();
#endif
}

std::string const& MemTrie::at(std::string const& _key) const
{
    if (!m_root)
        return c_nullString;
    auto h = asNibbles(_key);
    return m_root->at(bytesConstRef(&h));
}

void MemTrie::insert(std::string const& _key, std::string const& _value)
{
    if (_value.empty())
        remove(_key);
    auto h = asNibbles(_key);
    m_root = m_root ? m_root->insert(&h, _value) : new TrieLeafNode(bytesConstRef(&h), _value);
}

void MemTrie::remove(std::string const& _key)
{
    if (m_root)
    {
        auto h = asNibbles(_key);
        m_root = m_root->remove(&h);
    }
}

}