eliot/game/turn.cpp

298 lines
6.9 KiB
C++

/*******************************************************************
* Eliot
* Copyright (C) 2008-2012 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 <typeinfo>
#include "turn.h"
#include "command.h"
#include "player.h"
#include "debug.h"
INIT_LOGGER(game, Turn);
Turn::Turn()
: m_firstNotExecuted(0)
{
}
Turn::~Turn()
{
BOOST_FOREACH(Command *cmd, m_commands)
{
delete cmd;
}
}
void Turn::addAndExecute(Command *iCmd)
{
ASSERT(isFullyExecuted(), "Adding a command to a partially executed turn");
m_commands.push_back(iCmd);
iCmd->execute();
++m_firstNotExecuted;
}
void Turn::execute()
{
execTo(m_commands.size());
ASSERT(isFullyExecuted(), "Bug in execute()");
}
void Turn::undo()
{
undoTo(0);
ASSERT(isNotAtAllExecuted(), "Bug in undo()");
}
void Turn::partialExecute()
{
execTo(findIndexFirstNaec());
ASSERT(isPartiallyExecuted(), "Bug in partialExecute()");
}
void Turn::partialUndo()
{
// Lazy implementation :)
undo();
partialExecute();
}
void Turn::dropNonExecutedCommands()
{
if (!isFullyExecuted())
dropFrom(m_firstNotExecuted);
}
void Turn::dropFrom(const Command &iCmd)
{
// Find the command index
unsigned idx = findIndex(iCmd);
ASSERT(idx != m_commands.size(), "Cannot find command to drop");
dropFrom(idx);
}
void Turn::dropCommand(const Command &iCmd)
{
ASSERT(iCmd.isInsertable(), "Only insertable commands can be dropped");
ASSERT(iCmd.isAutoExecutable(), "Non auto-executable commands cannot be dropped");
// Find the command index
unsigned idx = findIndex(iCmd);
ASSERT(idx != m_commands.size(), "Cannot find command to drop");
LOG_DEBUG("Dropping single command");
// Undo commands after the interesting one (included)
unsigned tmpIdx = undoTo(idx);
ASSERT(!iCmd.isExecuted(), "Logic error");
// Drop the command
delete m_commands[idx];
m_commands.erase(m_commands.begin() + idx);
// We have deleted one command, so the index should be decreased
--tmpIdx;
// Re-execute the commands
execTo(tmpIdx);
}
void Turn::insertCommand(Command *iCmd)
{
ASSERT(iCmd->isInsertable(), "Only insertable commands can be inserted");
ASSERT(iCmd->isAutoExecutable(), "Non auto-executable commands cannot be inserted");
// Find the insertion index
unsigned idx = findIndexFirstNaec();
LOG_DEBUG("Inserting command");
// Undo commands after the interesting one (included)
unsigned tmpIdx = undoTo(idx);
// Insert the command (possibly at the end, if there is no NAEC)
if (idx == m_commands.size())
m_commands.push_back(iCmd);
else
m_commands.insert(m_commands.begin() + idx, iCmd);
// We have inserted one command, so the index should be increased
++tmpIdx;
// Re-execute the commands
execTo(tmpIdx);
}
void Turn::replaceCommand(const Command &iOldCmd,
Command *iNewCmd)
{
ASSERT(string(typeid(iOldCmd).name()) == string(typeid(*iNewCmd).name()),
"The commands should be of the same type (" +
string(typeid(iOldCmd).name()) + " vs. " +
string(typeid(*iNewCmd).name()));
unsigned idx = findIndex(iOldCmd);
ASSERT(idx != m_commands.size(), "Cannot find command");
// Undo commands after the interesting one (included)
unsigned tmpIdx = undoTo(idx);
ASSERT(!iOldCmd.isExecuted(), "Logic error");
// Replace the command
delete m_commands[idx];
m_commands[idx] = iNewCmd;
// Re-execute the commands
execTo(tmpIdx);
}
bool Turn::isFullyExecuted() const
{
return m_firstNotExecuted == m_commands.size();
}
bool Turn::isPartiallyExecuted() const
{
if (isFullyExecuted())
return true;
return !m_commands[m_firstNotExecuted]->isAutoExecutable();
}
bool Turn::isNotAtAllExecuted() const
{
return m_firstNotExecuted == 0;
}
bool Turn::hasNonAutoExecCmd() const
{
return findIndexFirstNaec() != m_commands.size();
}
bool Turn::isHumanIndependent() const
{
BOOST_FOREACH(Command *cmd, m_commands)
{
if (!cmd->isHumanIndependent())
return false;
}
return true;
}
unsigned Turn::findIndex(const Command &iCmd) const
{
for (unsigned i = 0; i < m_commands.size(); ++i)
{
if (m_commands[i] == &iCmd)
return i;
}
return m_commands.size();
}
unsigned Turn::findIndexFirstNaec() const
{
for (unsigned i = 0; i < m_commands.size(); ++i)
{
if (!m_commands[i]->isAutoExecutable())
return i;
}
return m_commands.size();
}
unsigned Turn::execTo(unsigned iNewFirstNotExec)
{
ASSERT(iNewFirstNotExec <= m_commands.size(), "Invalid index");
unsigned oldVal = m_firstNotExecuted;
while (m_firstNotExecuted < iNewFirstNotExec)
{
Command *cmd = m_commands[m_firstNotExecuted];
ASSERT(!cmd->isExecuted(), "Bug with m_firstNotExecuted");
cmd->execute();
++m_firstNotExecuted;
}
return oldVal;
}
unsigned Turn::undoTo(unsigned iNewFirstNotExec)
{
unsigned oldVal = m_firstNotExecuted;
while (m_firstNotExecuted > iNewFirstNotExec)
{
--m_firstNotExecuted;
Command *cmd = m_commands[m_firstNotExecuted];
ASSERT(cmd->isExecuted(), "Bug with m_firstNotExecuted");
cmd->undo();
}
return oldVal;
}
void Turn::dropFrom(unsigned iFirstToDrop)
{
ASSERT(iFirstToDrop < m_commands.size(), "Invalid index");
LOG_DEBUG("Deleting turn commands, starting from index " << iFirstToDrop);
undoTo(iFirstToDrop);
while (m_commands.size() > iFirstToDrop)
{
delete m_commands.back();
m_commands.pop_back();
}
ASSERT(m_firstNotExecuted <= m_commands.size(), "Invalid state");
}
wstring Turn::toString() const
{
wostringstream oss;
BOOST_FOREACH(Command *cmd, m_commands)
{
oss << endl << L" "
<< (cmd->isExecuted() ? L"| " : L" " )
<< (cmd->isAutoExecutable() ? L"* " : L" ")
<< (cmd->isHumanIndependent() ? L" " : L"H ")
<< cmd->toString();
}
return oss.str();
}