khanat-code-old/code/nel/tools/logic/logic_editor_dll/Condition.cpp
2016-01-24 17:08:32 +01:00

413 lines
9.6 KiB
C++

// Condition.cpp: implementation of the CCondition class.
//
//////////////////////////////////////////////////////////////////////
#include "stdafx.h"
#include "logic_editor.h"
#include "condition.h"
#include "nel/logic/logic_condition.h"
#include <vector>
#ifdef _DEBUG
#undef THIS_FILE
static char THIS_FILE[]=__FILE__;
#define new DEBUG_NEW
#endif
using namespace std;
using namespace NLLOGIC;
//////////////////////////////////////////////////////////////////////
// CConditionNode implementation
//////////////////////////////////////////////////////////////////////
CConditionNode::CConditionNode(const CConditionNode &node)
{
this->m_dComparand = node.m_dComparand;
this->m_pParentNode = node.m_pParentNode;
this->m_sConditionName = node.m_sConditionName;
this->m_sOperator = node.m_sOperator;
this->m_sVariableName = node.m_sVariableName;
this->m_type = node.m_type;
// copy sub condition node tree
CConditionNode *pNode, *newNode;
POSITION pos = node.m_ctSubTree.GetHeadPosition();
while (pos != NULL)
{
pNode = m_ctSubTree.GetNext( pos );
if (pNode != NULL)
{
newNode = new CConditionNode( *pNode );
this->m_ctSubTree.AddTail( newNode );
newNode->m_pParentNode = this;
}
}
}
CConditionNode::~CConditionNode()
{
CConditionNode *pNode = NULL;
// delete all sub nodes
POSITION pos = m_ctSubTree.GetHeadPosition();
while (pos != NULL)
{
pNode = m_ctSubTree.GetNext( pos );
if (pNode != NULL)
{
delete pNode;
pNode = NULL;
}
}
}
const CString & CConditionNode::getNodeAsString() const
{
m_sNodeString.Empty();
if (m_type == NOT)
m_sNodeString = "NOT";
else if (m_type == TERMINATOR)
m_sNodeString = "term";
else if (m_type == SUB_CONDITION)
m_sNodeString = m_sConditionName;
else // comparison
{
m_sNodeString.Format("%s %s %g",LPCTSTR(m_sVariableName),LPCTSTR(m_sOperator), m_dComparand );
}
return m_sNodeString;
}
void CConditionNode::changeConditionName( const CString &old, const CString &newName)
{
CConditionNode *pNode = NULL;
POSITION pos = m_ctSubTree.GetHeadPosition();
while (pos != NULL)
{
pNode = m_ctSubTree.GetNext( pos );
if (pNode != NULL)
{
pNode->changeConditionName(old, newName);
}
}
//
if ( m_sConditionName == old)
m_sConditionName = newName;
}
void CConditionNode::conditionDeleted( const CString &name)
{
CConditionNode *pNode = NULL;
POSITION oldpos;
POSITION pos = m_ctSubTree.GetHeadPosition();
while (pos != NULL)
{
oldpos = pos;
pNode = m_ctSubTree.GetNext( pos );
if (pNode != NULL)
{
if ( pNode->m_sConditionName != name)
pNode->conditionDeleted(name);
else
{
this->m_ctSubTree.RemoveAt( oldpos );
delete pNode;
pNode = NULL;
}
}
}
}
//////////////////////////////////////////////////////////////////////
// CCondition implementation
//////////////////////////////////////////////////////////////////////
CCondition::CCondition()
{
}
CCondition::CCondition( const CCondition &cond)
{
this->m_sName = cond.m_sName;
// copy sub condition node tree
CConditionNode *pNode, *newNode;
POSITION pos = cond.m_ctConditionTree.GetHeadPosition();
while (pos != NULL)
{
pNode = m_ctConditionTree.GetNext( pos );
if (pNode != NULL)
{
newNode = new CConditionNode( *pNode );
this->m_ctConditionTree.AddTail( newNode );
}
}
}
CCondition::~CCondition()
{
CConditionNode *pNode = NULL;
// delete all sub nodes
POSITION pos = m_ctConditionTree.GetHeadPosition();
while (pos != NULL)
{
pNode = m_ctConditionTree.GetNext( pos );
if (pNode != NULL)
{
delete pNode;
pNode = NULL;
}
}
}
void CCondition::changeConditionName( CString old, const CString &newName) const
{
CConditionNode *pNode = NULL;
POSITION pos = m_ctConditionTree.GetHeadPosition();
while (pos != NULL)
{
pNode = m_ctConditionTree.GetNext( pos );
if (pNode != NULL)
{
pNode->changeConditionName( old, newName);
}
}
}
void CCondition::conditionDeleted( CString name)
{
CConditionNode *pNode = NULL;
POSITION oldpos;
POSITION pos = m_ctConditionTree.GetHeadPosition();
while (pos != NULL)
{
oldpos = pos;
pNode = m_ctConditionTree.GetNext( pos );
if (pNode != NULL)
{
if ( pNode->m_sConditionName != name)
pNode->conditionDeleted(name);
else
{
this->m_ctConditionTree.RemoveAt( oldpos );
delete pNode;
pNode = NULL;
}
}
}
}
//-----------------------------------------------------
// cConditionNodeToCLogicConditionNode (Editor --> Service)
//
//-----------------------------------------------------
void cConditionNodeToCLogicConditionNode(CConditionNode * conditionNode, CLogicConditionNode * logicConditionNode )
{
// if this node is a terminator node
if( conditionNode->m_type == CConditionNode::TERMINATOR )
{
logicConditionNode->Type = CLogicConditionNode::TERMINATOR;
}
else
// this node is a logic node
{
logicConditionNode->Type = CLogicConditionNode::LOGIC_NODE;
// part 1 : a logic block(not/comparison/subcondition)
switch( conditionNode->m_type )
{
case CConditionNode::NOT :
{
logicConditionNode->LogicBlock.Type = CLogicConditionLogicBlock::NOT;
}
break;
case CConditionNode::COMPARISON :
{
logicConditionNode->LogicBlock.Type = CLogicConditionLogicBlock::COMPARISON;
logicConditionNode->LogicBlock.ComparisonBlock.VariableName = string( (LPCSTR)conditionNode->m_sVariableName );
logicConditionNode->LogicBlock.ComparisonBlock.Operator = string( (LPCSTR)conditionNode->m_sOperator );
logicConditionNode->LogicBlock.ComparisonBlock.Comparand = (sint64)conditionNode->m_dComparand;
}
break;
case CConditionNode::SUB_CONDITION :
{
logicConditionNode->LogicBlock.Type = CLogicConditionLogicBlock::SUB_CONDITION;
logicConditionNode->LogicBlock.SubCondition = string( (LPCSTR)conditionNode->m_sConditionName );
}
break;
}
// part 2 : a condition sub tree
POSITION pos;
for( pos = conditionNode->m_ctSubTree.GetHeadPosition(); pos != NULL; )
{
CConditionNode * pConditionNode = conditionNode->m_ctSubTree.GetNext( pos );
CLogicConditionNode * logicConditionNodeTmp = new CLogicConditionNode();
cConditionNodeToCLogicConditionNode( pConditionNode, logicConditionNodeTmp );
logicConditionNode->addNode( logicConditionNodeTmp );
}
}
} // cConditionNodeToCLogicConditionNode //
//-----------------------------------------------------
// cConditionToCLogicCondition (Editor --> Service)
//
//-----------------------------------------------------
void cConditionToCLogicCondition( CCondition& condition, CLogicCondition& logicCondition )
{
// condition name
logicCondition.setName( string( (LPCSTR)condition.m_sName ) );
// nodes
POSITION pos;
for( pos = condition.m_ctConditionTree.GetHeadPosition(); pos != NULL; )
{
// get the node
CConditionNode * pConditionNode = condition.m_ctConditionTree.GetNext( pos );
// convert the node
CLogicConditionNode * logicConditionNode = new CLogicConditionNode();
cConditionNodeToCLogicConditionNode( pConditionNode, logicConditionNode );
// add the node
logicCondition.addNode( *logicConditionNode );
}
} // cConditionToCLogicCondition //
//-----------------------------------------------------
// cLogicConditionNodeToCConditionNode (Service --> Editor)
//
//-----------------------------------------------------
void cLogicConditionNodeToCConditionNode( const CLogicConditionNode * logicConditionNode, CConditionNode * node )
{
// terminator node
if(logicConditionNode->Type == CLogicConditionNode::TERMINATOR)
{
node->m_type = CConditionNode::TERMINATOR;
}
// logic block with condition sub tree
else
{
// part 1 : a logic block(not/comparison/subcondition)
switch( logicConditionNode->LogicBlock.Type )
{
case CLogicConditionLogicBlock::NOT :
{
node->m_type = CConditionNode::NOT;
};
break;
case CLogicConditionLogicBlock::COMPARISON :
{
node->m_type = CConditionNode::COMPARISON;
node->m_sVariableName = CString(logicConditionNode->LogicBlock.ComparisonBlock.VariableName.c_str());
node->m_sOperator = CString(logicConditionNode->LogicBlock.ComparisonBlock.Operator.c_str());
node->m_dComparand = (double)logicConditionNode->LogicBlock.ComparisonBlock.Comparand;
};
break;
case CLogicConditionLogicBlock::SUB_CONDITION :
{
node->m_type = CConditionNode::SUB_CONDITION;
node->m_sConditionName = CString(logicConditionNode->LogicBlock.SubCondition.c_str());
};
break;
default :
{
node->m_type = CConditionNode::TERMINATOR;
}
}
// part 2 : a condition sub tree
vector<CLogicConditionNode *>::const_iterator itNode;
for( itNode = logicConditionNode->_Nodes.begin(); itNode != logicConditionNode->_Nodes.end(); ++itNode )
{
CConditionNode * nodeTmp = new CConditionNode();
cLogicConditionNodeToCConditionNode( *itNode, nodeTmp );
nodeTmp->m_pParentNode = node;
node->m_ctSubTree.AddTail( nodeTmp );
}
}
} // cLogicConditionNodeToCConditionNode //
//-----------------------------------------------
// cLogicConditionToCCondition
//
//-----------------------------------------------
void cLogicConditionToCCondition( const CLogicCondition& logicCondition, CCondition& condition )
{
// condition name
condition.m_sName = CString( logicCondition.getName().c_str() );
// condition tree
vector<CLogicConditionNode>::const_iterator itNode;
for( itNode = logicCondition.Nodes.begin(); itNode != logicCondition.Nodes.end(); ++itNode )
{
// convert the node
CConditionNode * node = new CConditionNode();
cLogicConditionNodeToCConditionNode( &(*itNode), node );
// add the node
condition.m_ctConditionTree.AddTail( node );
}
} // cLogicConditionToCCondition //