eliot/game/navigation.cpp

254 lines
5.6 KiB
C++

/*******************************************************************
* Eliot
* Copyright (C) 2009-2012 Olivier Teulière
* Authors: Olivier Teulière <ipkiss @@ gmail.com>
*
* This program 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 2 of the License, or
* (at your option) any later version.
*
* This program 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 this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*****************************************************************************/
#include <boost/foreach.hpp>
#include <sstream>
#include "navigation.h"
#include "turn.h"
#include "command.h"
#include "game_exception.h"
#include "debug.h"
#include "encoding.h"
INIT_LOGGER(game, Navigation);
Navigation::Navigation()
: m_currTurn(0)
{
// Start with an empty turn
m_allTurns.push_back(new Turn);
}
Navigation::~Navigation()
{
BOOST_FOREACH(Turn *c, m_allTurns)
{
delete c;
}
}
void Navigation::newTurn()
{
LOG_INFO("New turn");
lastTurn();
m_allTurns.push_back(new Turn);
++m_currTurn;
}
void Navigation::addAndExecute(Command *iCmd)
{
if (!isLastTurn())
throw GameException("Cannot add a command to an old turn");
m_allTurns[m_currTurn]->addAndExecute(iCmd);
}
unsigned int Navigation::getCurrTurn() const
{
return m_currTurn;
}
unsigned int Navigation::getNbTurns() const
{
return m_allTurns.size();
}
bool Navigation::isFirstTurn() const
{
return m_currTurn == 0 &&
m_allTurns[m_currTurn]->isPartiallyExecuted() &&
(!m_allTurns[m_currTurn]->hasNonAutoExecCmd() ||
!m_allTurns[m_currTurn]->isFullyExecuted());
}
bool Navigation::isLastTurn() const
{
return m_currTurn == m_allTurns.size() - 1 &&
m_allTurns[m_currTurn]->isFullyExecuted();
}
void Navigation::prevTurn()
{
if (isFirstTurn())
return;
LOG_DEBUG("Navigating to the previous turn");
Turn *turn = m_allTurns[m_currTurn];
if (turn->isFullyExecuted() && turn->hasNonAutoExecCmd())
{
ASSERT(isLastTurn(), "Unexpected turn state");
turn->partialUndo();
return;
}
ASSERT(m_currTurn > 0, "Trying to go before the first turn");
ASSERT(turn->isPartiallyExecuted(), "Unexpected turn state");
turn->undo();
--m_currTurn;
m_allTurns[m_currTurn]->partialUndo();
}
void Navigation::nextTurn()
{
if (isLastTurn())
return;
LOG_DEBUG("Navigating to the next turn");
Turn *turn = m_allTurns[m_currTurn];
ASSERT(turn->isPartiallyExecuted(), "Unexpected turn state");
if (m_currTurn + 1 < m_allTurns.size())
{
// Finish executing the current turn (if needed)
turn->execute();
++m_currTurn;
m_allTurns[m_currTurn]->partialExecute();
}
else
{
ASSERT(!turn->isFullyExecuted(), "Unexpected turn state");
turn->execute();
}
}
void Navigation::firstTurn()
{
LOG_DEBUG("Navigating to the first turn");
while (!isFirstTurn())
{
prevTurn();
}
}
void Navigation::lastTurn()
{
LOG_DEBUG("Navigating to the last turn");
while (!isLastTurn())
{
nextTurn();
}
}
void Navigation::clearFuture()
{
LOG_INFO("Erasing all the future turns");
// Replay the auto-execution turns (i.e. turns where only the AI was involved).
// This is needed for a correct handling of free games
while (!isLastTurn() && m_allTurns[m_currTurn]->isHumanIndependent())
{
LOG_DEBUG("Replaying a human independent turn");
nextTurn();
}
// When there is no future, don't do anything
if (isLastTurn())
return;
// Destroy future turns
while (m_allTurns.size() > m_currTurn + 1)
{
delete m_allTurns.back();
m_allTurns.pop_back();
}
Turn *turn = m_allTurns[m_currTurn];
// Destroy non executed commands for the current turn
ASSERT(turn->isPartiallyExecuted(), "Invalid state");
turn->dropNonExecutedCommands();
// Sanity checks
ASSERT(isLastTurn(),
"After removing the next turns, we should be at the last turn");
ASSERT(turn->isFullyExecuted(), "Invalid final state");
}
void Navigation::dropFrom(const Command &iCmd)
{
ASSERT(isLastTurn(), "Only possible in the last turn");
m_allTurns.back()->dropFrom(iCmd);
}
void Navigation::dropCommand(const Command &iCmd)
{
m_allTurns[m_currTurn]->dropCommand(iCmd);
}
void Navigation::insertCommand(Command *iCmd)
{
m_allTurns[m_currTurn]->insertCommand(iCmd);
}
void Navigation::replaceCommand(const Command &iOldCmd,
Command *iNewCmd)
{
m_allTurns[m_currTurn]->replaceCommand(iOldCmd, iNewCmd);
}
const vector<Turn *> & Navigation::getTurns() const
{
return m_allTurns;
}
const Turn & Navigation::getCurrentTurn() const
{
return *m_allTurns[m_currTurn];
}
void Navigation::print() const
{
#ifdef USE_LOGGING
LOG_DEBUG("=== Commands history ===");
LOG_DEBUG("Current position at turn " << m_currTurn);
int index = 0;
ostringstream oss;
BOOST_FOREACH(const Turn *c, m_allTurns)
{
oss << endl << "Turn " << index << ":" << lfw(c->toString());
++index;
}
LOG_DEBUG(oss.str());
#endif
}