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apache / openoffice / bab44dcac0296df22024f3f10e7997de78ed4094 / . / AOO410 / main / slideshow / source / engine / expressionnodefactory.cxx
blob: e9739daad79568014fcd4304a1f035df6014588b [file] [log] [blame]
/**************************************************************
*
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*
*************************************************************/
// MARKER(update_precomp.py): autogen include statement, do not remove
#include "precompiled_slideshow.hxx"
// must be first
#include <canvas/debug.hxx>
#include <expressionnodefactory.hxx>
#include <canvas/verbosetrace.hxx>
#include <basegfx/matrix/b2dhommatrix.hxx>
#include <basegfx/point/b2dpoint.hxx>
#include <functional>
#include <algorithm>
/* Implementation of ExpressionNodeFactory class */
namespace slideshow
{
namespace internal
{
namespace
{
class ConstantValueExpression : public ExpressionNode
{
public:
ConstantValueExpression( double rValue ) :
maValue( rValue )
{
}
virtual double operator()( double /*t*/ ) const
{
return maValue;
}
virtual bool isConstant() const
{
return true;
}
private:
double maValue;
};
class TValueExpression : public ExpressionNode
{
public:
TValueExpression()
{
}
virtual double operator()( double t ) const
{
return t;
}
virtual bool isConstant() const
{
return false;
}
};
/** Base class for following binary functions (*+-/)
Does not pay off to have all this as a template, since
we'd have to hold the functor as a member (+33% object
size).
*/
class BinaryExpressionBase : public ExpressionNode
{
public:
BinaryExpressionBase( const ExpressionNodeSharedPtr& rFirstArg,
const ExpressionNodeSharedPtr& rSecondArg ) :
mpFirstArg( rFirstArg ),
mpSecondArg( rSecondArg )
{
}
virtual bool isConstant() const
{
return
mpFirstArg->isConstant() &&
mpSecondArg->isConstant();
}
protected:
ExpressionNodeSharedPtr mpFirstArg;
ExpressionNodeSharedPtr mpSecondArg;
};
class PlusExpression : public BinaryExpressionBase
{
public:
PlusExpression( const ExpressionNodeSharedPtr& rFirstArg,
const ExpressionNodeSharedPtr& rSecondArg ) :
BinaryExpressionBase( rFirstArg, rSecondArg )
{
}
virtual double operator()( double t ) const
{
return (*mpFirstArg)(t) + (*mpSecondArg)(t);
}
};
class MinusExpression : public BinaryExpressionBase
{
public:
MinusExpression( const ExpressionNodeSharedPtr& rFirstArg,
const ExpressionNodeSharedPtr& rSecondArg ) :
BinaryExpressionBase( rFirstArg, rSecondArg )
{
}
virtual double operator()( double t ) const
{
return (*mpFirstArg)(t) - (*mpSecondArg)(t);
}
};
class MultipliesExpression : public BinaryExpressionBase
{
public:
MultipliesExpression( const ExpressionNodeSharedPtr& rFirstArg,
const ExpressionNodeSharedPtr& rSecondArg ) :
BinaryExpressionBase( rFirstArg, rSecondArg )
{
}
virtual double operator()( double t ) const
{
return (*mpFirstArg)(t) * (*mpSecondArg)(t);
}
};
class DividesExpression : public BinaryExpressionBase
{
public:
DividesExpression( const ExpressionNodeSharedPtr& rFirstArg,
const ExpressionNodeSharedPtr& rSecondArg ) :
BinaryExpressionBase( rFirstArg, rSecondArg )
{
}
virtual double operator()( double t ) const
{
return (*mpFirstArg)(t) / (*mpSecondArg)(t);
}
};
class ComposedExpression : public BinaryExpressionBase
{
public:
ComposedExpression( const ExpressionNodeSharedPtr& rFirstArg,
const ExpressionNodeSharedPtr& rSecondArg ) :
BinaryExpressionBase( rFirstArg, rSecondArg )
{
}
virtual double operator()( double t ) const
{
return (*mpFirstArg)( (*mpSecondArg)(t) );
}
};
class MinExpression : public BinaryExpressionBase
{
public:
MinExpression( const ExpressionNodeSharedPtr& rFirstArg,
const ExpressionNodeSharedPtr& rSecondArg ) :
BinaryExpressionBase( rFirstArg, rSecondArg )
{
}
virtual double operator()( double t ) const
{
return ::std::min( (*mpFirstArg)(t), (*mpSecondArg)(t) );
}
};
class MaxExpression : public BinaryExpressionBase
{
public:
MaxExpression( const ExpressionNodeSharedPtr& rFirstArg,
const ExpressionNodeSharedPtr& rSecondArg ) :
BinaryExpressionBase( rFirstArg, rSecondArg )
{
}
virtual double operator()( double t ) const
{
return ::std::max( (*mpFirstArg)(t), (*mpSecondArg)(t) );
}
};
}
ExpressionNodeSharedPtr ExpressionNodeFactory::createConstantValueExpression( double rConstantValue )
{
return ExpressionNodeSharedPtr( new ConstantValueExpression(rConstantValue) );
}
ExpressionNodeSharedPtr ExpressionNodeFactory::createValueTExpression()
{
return ExpressionNodeSharedPtr( new TValueExpression() );
}
ExpressionNodeSharedPtr ExpressionNodeFactory::createPlusExpression( const ExpressionNodeSharedPtr& rLHS,
const ExpressionNodeSharedPtr& rRHS )
{
return ExpressionNodeSharedPtr( new PlusExpression(rLHS, rRHS) );
}
ExpressionNodeSharedPtr ExpressionNodeFactory::createMinusExpression( const ExpressionNodeSharedPtr& rLHS,
const ExpressionNodeSharedPtr& rRHS )
{
return ExpressionNodeSharedPtr( new MinusExpression(rLHS, rRHS) );
}
ExpressionNodeSharedPtr ExpressionNodeFactory::createMultipliesExpression( const ExpressionNodeSharedPtr& rLHS,
const ExpressionNodeSharedPtr& rRHS )
{
return ExpressionNodeSharedPtr( new MultipliesExpression(rLHS, rRHS) );
}
ExpressionNodeSharedPtr ExpressionNodeFactory::createDividesExpression( const ExpressionNodeSharedPtr& rLHS,
const ExpressionNodeSharedPtr& rRHS )
{
return ExpressionNodeSharedPtr( new DividesExpression(rLHS, rRHS) );
}
ExpressionNodeSharedPtr ExpressionNodeFactory::createComposedExpression ( const ExpressionNodeSharedPtr& rOuterFunction,
const ExpressionNodeSharedPtr& rInnerFunction )
{
return ExpressionNodeSharedPtr( new ComposedExpression(rOuterFunction, rInnerFunction) );
}
ExpressionNodeSharedPtr ExpressionNodeFactory::createMinExpression ( const ExpressionNodeSharedPtr& rOuterFunction,
const ExpressionNodeSharedPtr& rInnerFunction )
{
return ExpressionNodeSharedPtr( new MinExpression(rOuterFunction, rInnerFunction) );
}
ExpressionNodeSharedPtr ExpressionNodeFactory::createMaxExpression ( const ExpressionNodeSharedPtr& rOuterFunction,
const ExpressionNodeSharedPtr& rInnerFunction )
{
return ExpressionNodeSharedPtr( new MaxExpression(rOuterFunction, rInnerFunction) );
}
}
}