273 lines
12 KiB
C
273 lines
12 KiB
C
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/* Copyright Olga Veksler, Ramin Zabih, Vladimir Kolmogorov, and Daniel Scharstein
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* Send any questions to schar@middlebury.edu
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*/
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#ifndef __MRF_H__
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#define __MRF_H__
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#include <stdio.h>
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class EnergyFunction;
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class MRF
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{
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public:
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// *********** CONSTRUCTORS/DESTRUCTOR
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// Constructor. After you call this, you must call setData and setSmoothness
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// Use this constructor for 2D grid graphs of size width by height Standard 4-connected
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// neighborhood system is assumed. Labels are in the range 0,1,...nLabels - 1
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// Width is in the range 0,1,...width-1 and height is in the range 0,1,...height-1
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// Input parameter eng specifies the data and smoothness parts of the energy
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// For 2D grids, since 4 connected neighborhood structure is assumed, this
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// fully specifies the energy
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MRF(int width, int height, int nLabels, EnergyFunction *eng);
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// Use this constructor for a general neighborhood system. Pixels are in the range
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// 0,1,..nPixels-1, and labels are in the range 0,1,...,nLabels-1
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// Input parameter eng specifies the data and smoothness parts of the energy
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// after this constructor you need to call setNeighbors() to specify the neighborhood system
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MRF(int nPixels, int nLabels, EnergyFunction *eng);
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virtual ~MRF() { }
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// Returns true if energy function has been specified, returns false otherwise
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// By default, it always returns true. Can be modified by the supplier of
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// optimization algorithm
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virtual int isValid(){return true;};
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// *********** EVALUATING THE ENERGY
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typedef int Label;
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typedef float EnergyVal; /* The total energy of a labeling */
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typedef float CostVal; /* costs of individual terms of the energy */
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EnergyVal totalEnergy(); /* returns energy of current labeling */
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virtual EnergyVal dataEnergy() = 0; /* returns the data part of the energy */
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virtual EnergyVal smoothnessEnergy() = 0; /* returns the smoothness part of the energy */
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//Functional representation for data costs
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typedef CostVal (*DataCostFn)(int pix, Label l);
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// Functional representation for the general cost function type
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typedef CostVal (*SmoothCostGeneralFn)(int pix1, int pix2, Label l1, Label l2);
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// For general smoothness functions, some implementations try to cache all function values in an array
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// for efficiency. To prevent this, call the following function before calling initialize():
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void dontCacheSmoothnessCosts() {m_allocateArrayForSmoothnessCostFn = false;}
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// Use this function only for non-grid graphs. Sets pix1 and pix2 to be neighbors
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// with the specified weight. Can be called ONLY once for each pair of pixels
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// That is if pixel1 and pixel2 are neihbors, call either setNeighbors(pixel1,pixel2,weight)
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// or setNeighbors(pixel2,pixel1,weight), but NOT BOTH
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virtual void setNeighbors(int pix1, int pix2, CostVal weight)= 0;
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void initialize();
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// Runs optimization for nIterations. Input parameter time returns the time it took to
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// perform nIterations of optimization
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void optimize(int nIterations, float& time);
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virtual void optimizeAlg(int nIterations)=0;
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// *********** ACCESS TO SOLUTION
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// Returns pointer to array of size nPixels. Client may then read/write solution (but not deallocate array).
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virtual Label* getAnswerPtr()= 0;
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// returns the label of the input pixel
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virtual Label getLabel(int pixel)= 0;
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// sets label of a pixel
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virtual void setLabel(int pixel,Label label)= 0;
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// sets all the labels to zero
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virtual void clearAnswer() = 0;
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// use this function to pass any parameters to optimization algorithm.
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// The first argument is the number of passed, parameters and
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// the second argument is the pointer to the array of parameters
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virtual void setParameters(int numParam, void *param) = 0;
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// This function returns lower bound computed by the algorithm (if any)
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// By default, it returns 0.
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virtual double lowerBound(){return((double) 0);};
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// Returns 0 if the energy is not suitable for current optimization algorithm
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// Returns 1 if the energy is suitable for current optimization algorithm
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// Returns 2 if current optimizaiton algorithm does not check the energy
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virtual char checkEnergy();
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typedef enum
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{
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FUNCTION,
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ARRAY,
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THREE_PARAM,
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NONE
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} InputType;
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protected:
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int m_width, m_height; // width and height of a grid,if graph is a grid
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int m_nPixels; // number of pixels, for both grid and non-grid graphs
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int m_nLabels; // number of labels, for both grid and non-grid graphs
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bool m_grid_graph; // true if the graph is a 2D grid
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bool m_varWeights; // true if weights are spatially varying. To be used only with 2D grids
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bool m_initialized; // true if array m_V is allocated memory.
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EnergyFunction *m_e;
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InputType m_dataType;
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InputType m_smoothType;
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// *********** SET THE DATA COSTS
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// Following 2 functions set the data costs
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virtual void setData(DataCostFn dcost)=0;
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virtual void setData(CostVal* data)=0;
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// *********** SET THE SMOOTHNESS COSTS
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// following 3 functions set the smoothness costs
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// there are 2 ways to represent the smoothness costs, one with array, one with function
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// In addition, for 2D grid graphs spacially varying weights can be specified by 2 arrays
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// Smoothness cost depends on labels V(l1,l2) for all edges (except for a multiplier - see setCues() ).
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// V must be symmetric: V(l1,l2) = V(l2,l1)
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// V must be an array of size nLabels*nLabels. It is NOT copied into internal memory
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virtual void setSmoothness(CostVal* V)=0;
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// General smoothness cost can be specified by passing pointer to a function
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virtual void setSmoothness(SmoothCostGeneralFn cost)=0;
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// To prevent implementations from caching all general smoothness costs values, the flag below
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// can be set to false by calling dontCacheSmoothnessCosts() before calling initialize():
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bool m_allocateArrayForSmoothnessCostFn;
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// Use if the smoothness is V(l1,l2) = lambda * min ( |l1-l2|^m_smoothExp, m_smoothMax )
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// Can also add optional spatially varying weights for 2D grid graphs using setCues()
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virtual void setSmoothness(int smoothExp,CostVal smoothMax, CostVal lambda)=0;
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// You are not required to call setCues, in which case there is no multiplier.
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// Function below cannot be called for general cost function.
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// This function can be only used for a 2D grid graph
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// hCue and vCue must be arrays of size width*height in row major order.
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// They are NOT copied into internal memory.
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// hCue(x,y) holds the variable weight for edge between pixels (x+1,y) and (x,y)
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// vCue(x,y) holds the variable weight for edge between pixels (x,y+1) and (x,y)
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virtual void setCues(CostVal* hCue, CostVal* vCue)=0;
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virtual void initializeAlg()=0; // called by initialize()
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void commonInitialization(EnergyFunction *e);
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void checkArray(CostVal *V);
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};
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// *********** This class is for data costs
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// Data costs can be specified eithe by an array or by a pointer to a function
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// If specified by an array, use constructor DataCost(cost) where
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// cost is the array of type CostVal. The cost of pixel p and label l is
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// stored at cost[p*nLabels+l] where nLabels is the number of labels
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// If data costs are to be specified by a function, pass
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// a pointer to a function
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// CostVal costFn(int pix, Label lab)
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// which returns the
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// data cost of pixel pix to be assigned label lab
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class DataCost
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{
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friend class MRF;
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public:
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typedef MRF::CostVal CostVal;
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typedef MRF::DataCostFn DataCostFn;
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DataCost(CostVal *cost){m_costArray = cost;m_type = MRF::ARRAY; };
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DataCost(DataCostFn costFn){m_costFn = costFn;m_type = MRF::FUNCTION;};
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private:
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MRF::CostVal *m_costArray;
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MRF::DataCostFn m_costFn;
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MRF::InputType m_type;
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};
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// ***************** This class represents smoothness costs
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// If the smoothness is V(l1,l2) = lambda * min ( |l1-l2|^m_smoothExp, m_smoothMax )
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// use constructor SmoothnessCost(smoothExp,smoothMax,lambda)
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// If, in addition, there are spacially varying weights use constructor
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// SmoothnessCost(smoothExp,smoothMax,lambda,hWeights,vWeights)
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// hWeights and vWeights can be only used for a 2D grid graph
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// hWeights and vWeights must be arrays of size width*height in row major order.
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// They are NOT copied into internal memory.
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// hWeights(x,y) holds the variable weight for edge between pixels (x+1,y) and (x,y)
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// vWeights(x,y) holds the variable weight for edge between pixels (x,y+1) and (x,y)
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// If the smoothness costs are specified by input array V of type CostVal and
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// size nLabels*nLabels, use consructor SmoothnessCost(V).
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// If in addition, there are
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// are spacially varying weights use constructor SmoothnessCost(V,hWeights,vWeights)
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// Note that array V must be of size nLabels*nLabels, and be symmetric.
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// That is V[i*nLabels+j] = V[j*nLabels+i]
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// Finally, if the smoothness term is specified by a general function, use
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// constructor SmoothnessCost(costFn)
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class SmoothnessCost
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{
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friend class MRF;
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public:
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typedef MRF::CostVal CostVal;
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// Can be used for 2D grids and for general graphs
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// In case if used for 2D grids, the smoothness term WILL NOT be spacially varying
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SmoothnessCost(int smoothExp,CostVal smoothMax,CostVal lambda)
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{m_type=MRF::THREE_PARAM;m_smoothMax = smoothMax;m_smoothExp = smoothExp;m_lambda=lambda;m_varWeights=false;};
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// Can be used only for 2D grids
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// the smoothness term WILL BE be spacially varying
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SmoothnessCost(int smoothExp,CostVal smoothMax,CostVal lambda,CostVal *hWeights, CostVal *vWeights)
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{m_type=MRF::THREE_PARAM;m_smoothMax = smoothMax;m_smoothExp = smoothExp;m_lambda=lambda;
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m_varWeights = true;m_hWeights = hWeights; m_vWeights = vWeights;};
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// Can be used 2D grids and for general graphs
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// In case if used for 2D grids, the smoothness term WILL NOT be spacially varying
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SmoothnessCost(CostVal *V){m_V = V;m_type = MRF::ARRAY;m_varWeights=false;};
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// Can be used only for 2D grids
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// the smoothness term WILL BE be spacially varying
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SmoothnessCost(CostVal *V,CostVal *hWeights, CostVal *vWeights )
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{m_V = V;m_hWeights = hWeights; m_vWeights = vWeights; m_varWeights = true; m_type=MRF::ARRAY;};
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// Can be used 2D grids and for general graphs
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SmoothnessCost(MRF::SmoothCostGeneralFn costFn){m_costFn = costFn;m_type = MRF::FUNCTION;m_varWeights=false;};
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private:
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CostVal *m_V,*m_hWeights, *m_vWeights;
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MRF::SmoothCostGeneralFn m_costFn;
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MRF::InputType m_type;
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int m_smoothExp;
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CostVal m_smoothMax,m_lambda;
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bool m_varWeights;
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EnergyFunction *m_eng;
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};
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class EnergyFunction
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{
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public:
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EnergyFunction(DataCost *dataCost,SmoothnessCost *smoothCost)
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{m_dataCost = dataCost;m_smoothCost = smoothCost;};
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DataCost *m_dataCost;
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SmoothnessCost *m_smoothCost;
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};
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#endif /* __MRF_H__ */
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/*
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virtual EnergyVal dataEnergy() = 0;
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virtual EnergyVal smoothnessEnergy() = 0;
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virtual void setNeighbors(int pix1, int pix2, CostVal weight)= 0;
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virtual void optimizeAlg(int nIterations)=0;
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virtual Label* getAnswerPtr()= 0;
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virtual Label getLabel(int pixel)= 0;
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virtual void setLabel(int pixel,Label label)= 0;
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virtual void clearAnswer() = 0;
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virtual void setParameters(int numParam, void *param) = 0;
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virtual void setData(DataCostFn dcost)=0;
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virtual void setData(CostVal* data)=0;
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virtual void setSmoothness(CostVal* V)=0;
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virtual void setSmoothness(SmoothCostGeneralFn cost)=0;
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virtual void setCues(CostVal* hCue, CostVal* vCue)=0;
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virtual void setSmoothness(int smoothExp,CostVal smoothMax, CostVal lambda);
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virtual EnergyVal lowerBound(){return((EnergyVal) 0);};
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*/
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