PuzzleSolver/Source/functions/solve/puzzleExtension.cpp

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//
// Created by Raphael Maenle on 21/12/2017.
//
#include "../../header/solve.h"
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#include "../../header/input.h"
void Puzzle::printPuzzle()
{
cout << "a1: " << endl;
a1.printConstraintMatrix();
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}
void Puzzle::printBox()
{
int i=0;
for(auto it:myBox)
{
cout << "Part " << i++ << ":" << endl;
it.print(); cout << endl;
}
}
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//puts a puzzlepiece back into its box
void Puzzle::putIntoBox()
{
Part tmpPart;
int id = 0;
for(int i=0;i<this->getSizeAsCoor().col;i++)
{
for(int j=0;j<this->getSizeAsCoor().row;j++)
{
tmpPart.m_a1=this->a1.m_constraintMatrix[i+1][j+1];
//sets part id
tmpPart.SetPartID(id++);
// adds all 4 rotations to Box
for(int rotations=0;rotations<4;rotations++)
{
tmpPart.m_a1.shift(1);
//TODO! add all other layerswith their rotaionvariance here
myBox.emplace_back(tmpPart);
}
}
}
}
//shuffles the existing box in Puzzle
void Puzzle::shuffle()
{
random_shuffle(myBox.begin(),myBox.end());
}
//deletes all constraints from all abstractionlayers
void Puzzle::removeConstrains(coor removeCoordinates)
{
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this->a1.RemoveConstraintOnPosition(removeCoordinates);
}
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void Puzzle::setConstraints(coor setConstraints, Part* constraintPiece)
{
//dp
this->dp.m_constraintMatrix[setConstraints.col][setConstraints.row].DestructionArray.clear();
for(auto it:this->tmp_destructionArray)
this->dp.m_constraintMatrix[setConstraints.col][setConstraints.row].DestructionArray.emplace_back(it);
//a1
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this->a1.SetConstraintOnPosition(setConstraints,constraintPiece->m_a1);
}
void Puzzle::createRandomPuzzle()
{
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a1.CreateRandomPuzzle();
}
void Puzzle::createp_box()
{
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for(int i=0;i<cols*rows*4;i++)
p_myBox.push_back(&myBox[i]);
}
//creates a box of puzzlepieces with nothing other than puzzle piece id and correct nr of pieces
void Puzzle::createBox(){
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for(int i=0;i<cols*rows;i++)
{
Part temp;
temp.SetPartID(i);
for(uint8_t j=0;j<4;j++)
{
temp.SetNumOfRotations(j);
myBox.push_back(temp);
}
}
}
bool Puzzle::allSet() {
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for(auto it:myBox)
if(!it.set)
return false;
return true;
}
void Puzzle::clearMat()
{
for(unsigned int i=0;i<cols;i++)
{
for(unsigned int j=0;j<rows;j++)
{
this->removeConstrains({i,j});
}
}
}
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Mat Puzzle::readImage(int fileIndex, const char* inputDir){
char indexstr[12];
sprintf(indexstr,"%d.jpg",fileIndex);
char * inputstr = (char *) malloc(1 + strlen(inputDir)+ strlen(indexstr) );
strcpy(inputstr, inputDir);
strcat(inputstr,indexstr);
//cout<<inputstr<<endl;
Mat source = imread(inputstr,1);
return source;
}
Mat Puzzle::resultImage( vector<LogEntry>& log){
int Y_size = 1200; // chose this to fit your monitor!
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int separator = 1;
int partHeight = 90;
int partWidth;
auto imageH = int(round(partHeight* cols));
if(imageH > Y_size){
imageH = Y_size;
}
partHeight = int(round(imageH / cols));
partWidth= partHeight;
int imageW = int(round( partWidth*rows));
int temp = imageW;
imageW = imageH;
imageH = temp;
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cout<<"imageW "<<imageW <<endl<<"imageH " <<imageH<<endl<<endl;
cout<<"partW "<<partWidth <<endl<<"partH " <<partHeight<<endl<<endl;
Mat result(imageH,imageW,CV_8UC3);
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char name[100];
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for (auto it:log)
{
if (it.myCoor.col == 12 && it.myCoor.row == 0)
{
;
// imshow("result",result);
// waitKey(0);
}
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cout << log.size() << endl;
cout << log[0].PieceCollector.size() << endl;
cout << it.PieceCollector[0].second->GetPartID() << endl;
int imageNumber = it.PieceCollector[0].second->GetPartID();
//cout<<"imageIndex: "<< imageNumber << endl;
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sprintf(name, PATH, imageNumber);
Mat img = imread(name, 1);
if (it.myCoor.col == 12 && it.myCoor.row == 0)
{
//imshow("img",img);
//waitKey(0);
;
}
int angle = ((int)it.PieceCollector[0].second->GetNumOfRotations())*-90;
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Point2f center;
center.x = img.cols/2;
center.y = img.rows/2;
Mat RotMatrix = getRotationMatrix2D(center,angle,1);
warpAffine(img,img,RotMatrix, img.size());
// imshow("readImg",img); // you can comment with Ctrl + / did you know? :D
// waitKey(0);
auto ROI_X = int(round(it.myCoor.col*partWidth));
auto ROI_Y = int(round(it.myCoor.row*partHeight));
// cout<<"ROI X: "<< ROI_X<<endl;
// cout<<"ROI Y: "<< ROI_Y<<endl;
Rect ROI(ROI_X,ROI_Y , partWidth-separator, partHeight-separator); // j is the x coordinate not i!!
Mat temp; resize(img,temp, Size(ROI.width, ROI.height));
temp.copyTo(result(ROI));
// imshow("result",result);
// waitKey(0);
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}
imshow("result",result);
waitKey(0);
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return result;
}