Changed dp calculation

This commit is contained in:
Raphael Maenle 2018-01-20 09:40:03 +01:00
parent 1c85bee091
commit 7a3b33455d
13 changed files with 57 additions and 259 deletions

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@ -10,7 +10,6 @@ set(SOURCE_FILES
functions/solve/structure.cpp
functions/AbstractionLayers/AbstraktionLayer_Base.h
functions/AbstractionLayers/Layer1/AbstractionLayer_1.cpp
functions/AbstractionLayers/LayerHistogram/AbstractionLayer_Histogram.cpp
functions/AbstractionLayers/DestructionPower/DestructionPower.cpp
header/solve.h
header/input.h

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@ -1,7 +1,3 @@
//
// Created by mpapa on 05.12.2017.
//
#include "DestructionPower.h"
//TODO! Add more layers here!
@ -39,6 +35,8 @@ bool DestructionPower::RemoveConstraintOnPosition(const coor constraintCoordinat
//gets destruction power from left and from top if possible and normalizes
void DestructionPower::DestructionOfSurrounding(const coor constraintCoordinate) {
for(int i = 0; i < m_constraintMatrix[constraintCoordinate.col][constraintCoordinate.row].DestructionArray.size(); ++i)
m_constraintMatrix[constraintCoordinate.col][constraintCoordinate.row].DestructionArray.pop_back();
for (int i = 0; i < DESTRUCTION_COUNT; ++i) {
m_constraintMatrix[constraintCoordinate.col][constraintCoordinate.row].DestructionArray.push_back(0);

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@ -1,10 +1,6 @@
//
// Created by mpapa on 05.12.2017.
//
#pragma once
//TODO!! increase Destructioncount
#define DESTRUCTION_COUNT 2
#define DESTRUCTION_COUNT 1
#include "DestructionPower_Properties.h"
#include "../AbstraktionLayer_Base.h"

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@ -1,6 +1,3 @@
//
// Created by mpapa on 05.12.2017.
//
#pragma once
#define DESTRUCTION_INIT 0.5

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@ -46,6 +46,8 @@ bool AbstractionLayer_1::PreProcessing(coor mySize, const vector<Part*>* partAr
//it through qualityVector and removes all that do not trigger PlaceOfPartGood
bool AbstractionLayer_1::EvaluateQuality (const coor constraintCoordinate, qualityVector& qVector)
{
if(constraintCoordinate.row==23 && constraintCoordinate.col==35)
cout << "in" << endl;
//evaluateQuality = evaluateProbabilaty
for(int i = 0;i<qVector.size();i++)
{
@ -69,6 +71,20 @@ bool AbstractionLayer_1::RemoveConstraintOnPosition(const coor constraintCoordin
m_constraintMatrix[constraintCoordinate.col+1][constraintCoordinate.row+1].m_connections=0b11111111;
}
int AbstractionLayer_1::RemoveSimilar(qualityVector& qVector,uint8_t& constraints)
{
//
for(int i=0;i<qVector.size();)
{
if(qVector[i].second->m_a1.m_connections==constraints)
qVector.erase(qVector.begin()+i);
else
i++;
}
}
void AbstractionLayer_1::CreateRandomPuzzle()
{
std::minstd_rand simple_rand;
@ -182,7 +198,11 @@ bool AbstractionLayer_1::PlaceOfPartGood(coor myCoor, uint8_t& myPart)
|| ((((negativePart & 0b00000011) == 0b00000011) || ((myPart & 0b00000011) == 0b00000011)) && (((myPart & 0b00000011) != 0b00000000) && (negativePart & 0b00000011) != 0b00000000))
|| (((negativePart & 0b00000011) == 0b00000000) && ((myPart & 0b00000011) == 0b00000000)) )
)
{
if(myCoor.row==18 && myCoor.col==35)
cout << "gud: " << std::bitset<8>(myPart) << endl;
return true;
}
return false;
}

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@ -49,6 +49,8 @@ public:
bool EvaluateQuality ( coor constraintCoordinate, qualityVector& qVector)override;
bool SetConstraintOnPosition( coor constraintCoordinate, AbstractionLayer_1_Properties constraint)override;
bool RemoveConstraintOnPosition( coor constraintCoordinate)override;
int RemoveSimilar(qualityVector&,uint8_t&);
bool PlaceOfPartGood(coor myCoor, uint8_t& myPart);
void shift(uint8_t& Part, int shifts);
void setEdgeZero();

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@ -1,158 +0,0 @@
//
// Created by Niko on 1/11/2018.
//
#include "../../../header.h"
#include "AbstractionLayer_Histogram.h"
using namespace cv;
Mat HistogramComparer::readImages(int count)
{
char name[100];
Mat corr;
Mat ref_gray;
sprintf(name, PATH, count);
Mat src = imread(name, 1);
if (!src.data)
{
cerr << "Problem loading image!!!" << endl;
return src;
}
if(DISPLAY)imshow("src",src);
Mat im_color;
cvtColor(src, im_color, COLOR_BGR2HSV);
return im_color;
}
bool AbstractionLayer_Histogram::PreProcessing(coor mySize, const vector<Part*>* partArray){
HistogramComparer localImage;
cout << "Abstraction 2 Preprocessing... " << flush;
const vector<Part*>& ref_partArray = *partArray;
analyseParts analyse(mySize.row*mySize.col);
Part buf;
int iterator=0;
if(!analyse.getImages())
{
cerr << "Error occured in getImages!" << endl;
return false;
}
else // hier werden alle vier verschiedenen Rotationsarten 'gleichzeitig' abgespeichert
//TODO rows and cols
for(int i = 0; i < mySize.row*mySize.col; i++)
{
Mat src_img1 = localImage.readImages(i);
Mat hsv_img1;
/// Convert to HSV
cvtColor(src_img1, hsv_img1, COLOR_BGR2HSV);
/// Using 50 bins for hue and 60 for saturation
int h_bins = 50;
int s_bins = 60;
int histSize[] = {h_bins, s_bins};
// hue varies from 0 to 179, saturation from 0 to 255
float h_ranges[] = {0, 180};
float s_ranges[] = {0, 256};
const float *ranges[] = {h_ranges, s_ranges};
// Use the o-th and 1-st channels
int channels[] = {0, 1};
/// Histograms
MatND hist_img1;
/// Calculate the histograms for the HSV images
calcHist(&hsv_img1, 1, channels, Mat(), hist_img1, 2, histSize, ranges, true, false);
// normalize(hist_img1, hist_img1, 0, 1, NORM_MINMAX, -1, Mat());
ref_partArray[iterator]->m_Histogram.image=hsv_img1;
iterator++;
}
InitialiseConstraintMatrixSize(mySize.col, mySize.row); //col row switched in this function
cout << "Done!" << endl;
return true;
}
bool AbstractionLayer_Histogram::EvaluateQuality (const coor constraintCoordinate, qualityVector& qVector){
//evaluateQuality = evaluateProbabilaty
for(int i = 0;i < qVector.size();i++)
{
if(PlaceOfPartGood(constraintCoordinate, qVector[i].second->m_Histogram.image))
{
qVector[i].first=1;
continue;
}
qVector[i].first=0;
}
}
bool AbstractionLayer_Histogram::PlaceOfPartGood(coor myCoor, Mat& myPart)
{
HistogramComparer localComparer;
//sets coordinates to correct position for layer
if( myCoor.row == 0 && myCoor.col == 0){return true;}
else if(myCoor.col == 0 && myCoor.row >0){
if(localComparer.CompareHistogram(m_constraintMatrix[myCoor.col][myCoor.row-1].image, myPart)){
return true;
}
else return false;
}
else if( myCoor.row == 0 && myCoor.col >0){
if(localComparer.CompareHistogram(m_constraintMatrix[myCoor.col-1][myCoor.row].image, myPart)){
return true;
}
else return false;
}
else if (myCoor.col > 0 && myCoor.row >0){
if( localComparer.CompareHistogram(m_constraintMatrix[myCoor.col][myCoor.row-1].image, myPart) &&
localComparer.CompareHistogram(m_constraintMatrix[myCoor.col-1][myCoor.row].image, myPart)){
return true;
}
else return false;
}else return false;
}
bool HistogramComparer::CompareHistogram(Mat hist_img1,Mat hist_img2)
{
// Correlation
double Correlation = compareHist(hist_img1, hist_img2, CV_COMP_CORREL);
if(Correlation > 0.95 ){
return true;
}
else
return false;
}
bool AbstractionLayer_Histogram::SetConstraintOnPosition(const coor constraintCoordinate, const AbstractionLayer_Histogram_Properties constraint)
{
m_constraintMatrix[constraintCoordinate.col][constraintCoordinate.row].image=constraint.image;
//m_constraintMatrix[constraintCoordinate.col+1][constraintCoordinate.row+1].m_connections=constraint.m_connections;
}
bool AbstractionLayer_Histogram::RemoveConstraintOnPosition(const coor constraintCoordinate)
{
Mat dummy(1,1,0);
m_constraintMatrix[constraintCoordinate.col][constraintCoordinate.row].image = dummy;
}

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@ -1,40 +0,0 @@
//
// Created by Niko on 1/11/2018.
//
#ifndef MPK_PUZZLE_ABSTRACTIONLAYER_HISTOGRAM_H
#define MPK_PUZZLE_ABSTRACTIONLAYER_HISTOGRAM_H
#define DISPLAY false
#define PATH "..\\..\\..\\pieces\\%04d.jpg"
#include "opencv2/highgui/highgui.hpp"
#include "opencv2/imgproc/imgproc.hpp"
#include "AbstractionLayer_Histogram_Properties.h"
#include "../AbstraktionLayer_Base.h"
using namespace std;
using namespace cv;
class AbstractionLayer_Histogram : public AbstractionLayer_Base<AbstractionLayer_Histogram_Properties>
{
public:
bool PreProcessing(coor mySize, const vector<Part*>* partArray) override ;
bool EvaluateQuality ( coor constraintCoordinate, qualityVector& qVector)override;
bool RemoveConstraintOnPosition( coor constraintCoordinate)override;
bool PlaceOfPartGood(coor myCoor, Mat& myPart);
bool SetConstraintOnPosition( coor constraintCoordinate, AbstractionLayer_Histogram_Properties constraint)override;
qualityVector returnInBox(vector<Part>& PuzzleBox);
void printConstraintMatrix();
private:
};
class HistogramComparer{
public:
Mat readImages(int);
bool CompareHistogram(Mat Part, Mat RefPart);
private:
};
#endif //MPK_PUZZLE_ABSTRACTIONLAYER_HISTOGRAM_H

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@ -1,29 +0,0 @@
//
// Created by Niko on 1/11/2018.
//
#ifndef MPK_PUZZLE_ABSTRACTIONLAYER_HISTOGRAM_PROPERTIES_H
#define MPK_PUZZLE_ABSTRACTIONLAYER_HISTOGRAM_PROPERTIES_H
#include <stdint.h>
#include "opencv2/highgui/highgui.hpp"
#include "opencv2/imgproc/imgproc.hpp"
using namespace cv;
class AbstractionLayer_Histogram_Properties
{
public:
AbstractionLayer_Histogram_Properties() : Correlation(-1){}
double getCorrelation(){return Correlation;}
Mat getmHistogram(){return m_Histogram;}
private:
double Correlation;
Mat m_Histogram;
Mat image;
friend class AbstractionLayer_Histogram;
};
#endif //MPK_PUZZLE_ABSTRACTIONLAYER_HISTOGRAM_PROPERTIES_H

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@ -66,7 +66,6 @@ void Puzzle::shuffle()
void Puzzle::removeConstrains(coor removeCoordinates)
{
this->a1.RemoveConstraintOnPosition(removeCoordinates);
this->a3.RemoveConstraintOnPosition(removeCoordinates);
//TODO!! Add other layer remove here
}
void Puzzle::setConstraints(coor setConstraints, Part* constraintPiece)
@ -78,12 +77,17 @@ void Puzzle::setConstraints(coor setConstraints, Part* constraintPiece)
//a1
this->a1.SetConstraintOnPosition(setConstraints,constraintPiece->m_a1);
//a3
this->a3.SetConstraintOnPosition(setConstraints,constraintPiece->m_Histogram);
//TODO!! Add other layer remove here
}
int Puzzle::removeSimilar(qualityVector& qVector, Part& myPart)
{
//a1
uint8_t tmpConnections=myPart.m_a1.getConnections();
a1.RemoveSimilar(qVector,tmpConnections);
}
void Puzzle::createRandomPuzzle()
{
a1.CreateRandomPuzzle();
@ -156,8 +160,6 @@ Mat Puzzle::resultImage( vector<LogEntry>& log){
imageW = imageH;
imageH = temp;
cout<<"imageW "<<imageW <<endl<<"imageH " <<imageH<<endl<<endl;
cout<<"partW "<<partWidth <<endl<<"partH " <<partHeight<<endl<<endl;
Mat result(imageH,imageW,CV_8UC3);
char name[100];
@ -169,8 +171,6 @@ Mat Puzzle::resultImage( vector<LogEntry>& log){
// imshow("result",result);
// waitKey(0);
}
cout << log.size() << endl;
cout << log[0].PieceCollector.size() << endl;
cout << it.PieceCollector[0].second->GetPartID() << endl;

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@ -44,11 +44,15 @@ void createNextLogElement(vector<LogEntry>& log, Puzzle& puzzleMat)
log.emplace_back(LogEntry(coor(0, 0)));
log.back().myCoor = calculateNextCoor(log, puzzleMat);
puzzleMat.dp.DestructionOfSurrounding(log.back().myCoor);//calculate dp from surrounding
cout << "-----------------------" << endl;
cout << "destr-array:" << endl;
for(auto it:puzzleMat.dp.m_constraintMatrix[log.back().myCoor.col][log.back().myCoor.row].DestructionArray)
cout << it << endl;
//get all not set pieces
for(auto it:puzzleMat.p_myBox)
if(!it->set)
log.back().PieceCollector.emplace_back(pair<float,Part*>(0,it));
solve(log,puzzleMat);
solve(log,puzzleMat);
}
@ -72,7 +76,8 @@ coor calculateNextCoor(vector<LogEntry>& log, Puzzle& puzzleMat)
void solve(vector<LogEntry>& log,Puzzle& puzzleMat)
{
log.back().abstractionLevel = puzzleMat.dp.getNextAbstractionLayer(log.back().myCoor,log.back().abstractionLevel); //sets in abstractionLevel
//status(log,p_Box,puzzleMat);
cout << "ab: " << log.back().abstractionLevel << endl;
//status(log,p_Box,puzzleMat);
//TODO!! Add more layers here
switch(log.back().abstractionLevel)
{
@ -80,7 +85,7 @@ void solve(vector<LogEntry>& log,Puzzle& puzzleMat)
puzzleMat.a1.EvaluateQuality(log.back().myCoor, log.back().PieceCollector);
break;
case 1://histogram
puzzleMat.a3.EvaluateQuality(log.back().myCoor,log.back().PieceCollector);
return;
break;
case -1://random
setsolution(log,puzzleMat);
@ -88,7 +93,6 @@ void solve(vector<LogEntry>& log,Puzzle& puzzleMat)
default:
break;
}
float worth = capLogElements(log);
calculateTrueDestructionPower(log,puzzleMat, worth);
CalculateNewCombinedQuality(log, log.back().PieceCollector, puzzleMat.combinedQualityVector);
@ -110,11 +114,16 @@ void setsolution(vector<LogEntry>& log, Puzzle& puzzleMat)
//tell log entry that it is set
log.back().Set();
puzzleMat.setConstraints(log.back().myCoor,log.back().PieceCollector.begin()->second);
//cout << "set:" << log.back().myCoor.col << "," << log.back().myCoor.row << endl;
cout << "set:" << log.back().myCoor.col << "," << log.back().myCoor.row << endl;
cout << "ID: " << log.back().PieceCollector[0].second->GetPartID() << endl;
cout << "log:" << endl;
for(auto it:log.back().PieceCollector)
cout << std::bitset<8>(it.second->m_a1.getConnections()) << "|" << it.second->GetPartID() << endl;
}
bool backtrack(vector<LogEntry>& log, Puzzle& puzzleMat)
{
cout << "backtracking" ;
if(log.empty())
{
cout << "Puzzle not solveable!" << endl;
@ -124,10 +133,16 @@ bool backtrack(vector<LogEntry>& log, Puzzle& puzzleMat)
//if more pieces possible, tset piece as not logged
if((log.back().PieceCollector.size())>1)
{
cout << " next piece" << endl;
for(int i=0;i<puzzleMat.p_myBox.size();i++)
if(puzzleMat.p_myBox[i]->GetPartID()==log.back().PieceCollector.begin()->second->GetPartID())//sets all with partid
puzzleMat.p_myBox[i]->set=false;
log.back().PieceCollector.erase(log.back().PieceCollector.begin());
Part myPart = *log.back().PieceCollector[0].second;//tmpsaves bad part
log.back().PieceCollector.erase(log.back().PieceCollector.begin());//removes bad part from log
puzzleMat.removeSimilar(log.back().PieceCollector,myPart); //removes all pieces from log that are similar to bad part
//TODO remove this when further layers are added!!!
if(log.back().PieceCollector.size()==1)
log.back().decreaseRandomed();
@ -139,6 +154,7 @@ bool backtrack(vector<LogEntry>& log, Puzzle& puzzleMat)
//else remove log element and backtrack once more
else
{
cout << " no more pieces" << endl;
puzzleMat.removeConstrains(log.back().myCoor); //this should remove constraints from all layers
if((log.back().PieceCollector.size()))
for(int i=0;i<puzzleMat.p_myBox.size();i++)
@ -153,7 +169,6 @@ bool backtrack(vector<LogEntry>& log, Puzzle& puzzleMat)
//this is addon stuff that should later all be extracted into a sererate cpp as it is not core dispatcher functionality
void calculateTrueDestructionPower(vector<LogEntry>& log, Puzzle& puzzleMat, float Layerworth) {
float destructionPower = sqrt(
Layerworth * puzzleMat.dp.m_constraintMatrix[0][0].SpeedTable[log.back().abstractionLevel]);
@ -170,6 +185,7 @@ void calculateTrueDestructionPower(vector<LogEntry>& log, Puzzle& puzzleMat, flo
// PART RAUER_WEIDINGER
float capLogElements(vector<LogEntry>& log)
{
// Till Now only ground structure -> incorrect variable ans vector names
double limit = 0.6;
double diff = 0;

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@ -8,7 +8,6 @@
#include "../functions/AbstractionLayers/Layer1/AbstractionLayer_1_Properties.h"
#include "../functions/AbstractionLayers/DestructionPower/DestructionPower_Properties.h"
#include "../functions/AbstractionLayers/LayerHistogram/AbstractionLayer_Histogram_Properties.h"
class LayerContainer;
@ -43,7 +42,6 @@ public:
bool set;
AbstractionLayer_1_Properties m_a1;
AbstractionLayer_Histogram_Properties m_Histogram;
private:
int32_t m_partID;
uint8_t m_numOfRotations;

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@ -9,7 +9,6 @@
#include "../functions/AbstractionLayers/Layer1/AbstractionLayer_1.h"
#include "../functions/AbstractionLayers/DestructionPower/DestructionPower.h"
#include "../functions/AbstractionLayers/LayerHistogram/AbstractionLayer_Histogram.h"
using namespace std;
@ -47,7 +46,6 @@ public:
createBox(); createp_box();
dp.PreProcessing({cols,rows}, nullptr);
a1.PreProcessing({cols,rows}, &p_myBox);
a3.PreProcessing({cols,rows},&p_myBox);
return true;
}
@ -55,10 +53,11 @@ public:
DestructionPower dp;
AbstractionLayer_1 a1;
AbstractionLayer_Histogram a3;
void removeConstrains(coor removeCoordinates);
void setConstraints(coor setConstraints, Part *constraintPiece);
int removeSimilar(qualityVector&, Part&);
void printPuzzle();
void printBox();
Mat resultImage(vector<LogEntry>&);