PuzzleSolver/Source/functions/AbstractionLayers/Layer1/AbstractionLayer_1.cpp

//
// Created by mpapa on 05.12.2017.
//

#include "AbstractionLayer_1.h"
#include "../../../header.h"

#include <iostream>
#include <bitset>

void AbstractionLayer_1::PreProcessing(coor mySize,  const vector<Part*>* partArray)
{
    InitialiseConstraintMatrixSize(mySize.row+2, mySize.col+2);
    setEdgeZero();
}

//it through qualityVector and removes all that do not trigger PlaceOfPartGood
bool AbstractionLayer_1::EvaluateQuality (const coor constraintCoordinate, qualityVector& qVector)
{
    for(auto it = qVector.begin(); it != qVector.end(); it++)
    {
        if(PlaceOfPartGood(constraintCoordinate, it->first->m_test1.m_connections))
            continue;
        qVector.erase(it++);
    }
}

bool AbstractionLayer_1::SetConstraintOnPosition(const coor constraintCoordinate, const AbstractionLayer_1_Properties constraint)
{
    m_constraintMatrix[constraintCoordinate.col][constraintCoordinate.row].m_connections=constraint.m_connections;
}

bool AbstractionLayer_1::RemoveConstraintOnPosition(const coor constraintCoordinate)
{
    m_constraintMatrix[constraintCoordinate.col][constraintCoordinate.row].m_connections=0b11111111;
}

bool AbstractionLayer_1::CreateRandomPuzzle()
{
    std::minstd_rand simple_rand;
    simple_rand.seed((unsigned int)"dumbo");

    for(int col = 1; col < m_constraintMatrix.size()-1; col++){
        for(int row = 1; row < (m_constraintMatrix[col].size() - 1);)
        {
            //create random piece
            uint8_t tempPiece = 0b00000000;
            if(simple_rand()%2)
                tempPiece|=0b01000000;
            else
                tempPiece|=0b10000000;

            if(simple_rand()%2)
                tempPiece|=0b00010000;
            else
                tempPiece|=0b00100000;

            if(simple_rand()%2)
                tempPiece|=0b00000100;
            else
                tempPiece|=0b00001000;

            if(simple_rand()%2)
                tempPiece|=0b00000001;
            else
                tempPiece|=0b00000010;

            //set edges and corners to 00
            if(row==1)
                tempPiece and_eq (uint8_t)0b00111111;
            if(row==m_constraintMatrix[col].size())
                tempPiece and_eq (uint8_t)0b11110011;
            if(col==1)
                tempPiece and_eq (uint8_t)0b11111100;
            if(col==m_constraintMatrix.size()-1)
                tempPiece and_eq (uint8_t)0b11001111;

            //set piece if piece good
            std::cout << "tempPiece = " << std::bitset<8>(tempPiece)  << std::endl;
            if(PlaceOfPartGood(coor(col,row),tempPiece))
            {
                m_constraintMatrix[col][row].m_connections = tempPiece;
                printConstraintMatrix();
                row++;
            }
        }
    }

}


//puts all pieces of the current constraint matrix into a puzzlebox
qualityVector AbstractionLayer_1::returnInBox(vector<Part>& PuzzleBox)
{
    if(!(PuzzleBox.size()))
        for(int i = 0; i< (m_constraintMatrix.size()-2)*(m_constraintMatrix[0].size()-2);i++)
            PuzzleBox.emplace_back(Part());

    int i=0;
    for(int col=1;col<m_constraintMatrix.size()-1;col++)
        for(int row=1;row<m_constraintMatrix[col].size()-1;row++)
            PuzzleBox[i++].m_test1.m_connections=m_constraintMatrix[col][row].m_connections;

}

void AbstractionLayer_1::printConstraintMatrix() {
    for (auto it1:m_constraintMatrix) {
        for (auto it2:it1)
            std::cout << std::bitset<8>(it2.m_connections) << " ";
        std::cout << std::endl;
    }
}
void AbstractionLayer_1::setEdgeZero()
{
    for(int col = 0; col < m_constraintMatrix.size(); col++)
        for(int row = 0; row < m_constraintMatrix[col].size(); row++)
            if(col == 0 || col == (m_constraintMatrix.size() - 1) || row == 0 || row == (m_constraintMatrix[col].size() - 1))
                m_constraintMatrix[col][row].m_connections=0b00000000;
}

//checks if the myPart in its current orientation is legal in position m, n
bool AbstractionLayer_1::PlaceOfPartGood(coor myCoor, uint8_t& myPart)
{

    uint8_t negativePart=0b00000000;

    negativePart or_eq (m_constraintMatrix[myCoor.col][myCoor.row+1].m_connections & 0b11000000);
    negativePart or_eq (m_constraintMatrix[myCoor.col-1][myCoor.row].m_connections & 0b00110000);
    negativePart or_eq (m_constraintMatrix[myCoor.col][myCoor.row-1].m_connections & 0b00001100);
    negativePart or_eq (m_constraintMatrix[myCoor.col+1][myCoor.row].m_connections & 0b00000011);
    shift(negativePart,2);
    std::cout << "negativePart = " << std::bitset<8>(negativePart)  << std::endl;
    if  (
            (    ((((negativePart & 0b11000000) ^ (myPart & 0b11000000))  != 0b00000000) && (((myPart & 0b11000000) != 0b00000000) && (negativePart & 0b11000000) != 0b00000000))
                 || ((((negativePart & 0b11000000) == 0b11000000) || ((myPart &  0b11000000) == 0b11000000))  && (((myPart & 0b11000000) != 0b00000000) && (negativePart & 0b11000000) != 0b00000000))
                 ||  (((negativePart & 0b11000000) == 0b00000000) && ((myPart &  0b11000000) == 0b00000000))  )
            &&
            (    ((((negativePart & 0b00110000) ^ (myPart & 0b00110000))  != 0b00000000) && (((myPart & 0b00110000) != 0b00000000) && (negativePart & 0b00110000) != 0b00000000))
                 || ((((negativePart & 0b00110000) == 0b00110000) || ((myPart &  0b00110000) == 0b00110000))  && (((myPart & 0b00110000) != 0b00000000) && (negativePart & 0b00110000) != 0b00000000))
                 ||  (((negativePart & 0b00110000) == 0b00000000) && ((myPart &  0b00110000) == 0b00000000))  )
            &&
            (    ((((negativePart & 0b00001100) ^  (myPart & 0b00001100))  != 0b00000000) && (((myPart & 0b00001100) != 0b00000000) && (negativePart & 0b00001100) != 0b00000000))
                 || ((((negativePart & 0b00001100) == 0b00001100) || ((myPart &  0b00001100) == 0b00001100))  && (((myPart & 0b00001100) != 0b00000000) && (negativePart & 0b00001100) != 0b00000000))
                 ||  (((negativePart & 0b00001100) == 0b00000000) && ((myPart &  0b00001100) == 0b00000000))  )
            &&
            (    ((((negativePart & 0b00000011) ^  (myPart & 0b00000011))  != 0b00000000)&& (((myPart & 0b00000011) != 0b00000000) && (negativePart & 0b00000011) != 0b00000000))
                 || ((((negativePart & 0b00000011) == 0b00000011) || ((myPart &  0b00000011) == 0b00000011))  && (((myPart & 0b00000011) != 0b00000000) && (negativePart & 0b00000011) != 0b00000000))
                 ||  (((negativePart & 0b00000011) == 0b00000000) && ((myPart &  0b00000011) == 0b00000000))  )
            )
        return true;
    return false;

}

void AbstractionLayer_1::shift(uint8_t& Part, int shifts)
{
    Part = Part >> (shifts*2) | Part << sizeof(uint8_t)*8 - (shifts*2);
}
Merge branch 'TeamCGPU_TestWithBaseLayer' into Team_CMU_MergeBase 2017-12-18 21:24:21 +01:00			`//`
			`// Created by mpapa on 05.12.2017.`
			`//`

			`#include "AbstractionLayer_1.h"`
redid some of the includes and changed way statics are saved 2017-12-21 12:20:57 +01:00			`#include "../../../header.h"`

Merge branch 'TeamCGPU_TestWithBaseLayer' into Team_CMU_MergeBase 2017-12-18 21:24:21 +01:00			`#include <iostream>`
added printpuzzle fucntions 2017-12-22 23:27:50 +01:00			`#include <bitset>`
Merge branch 'TeamCGPU_TestWithBaseLayer' into Team_CMU_MergeBase 2017-12-18 21:24:21 +01:00
beforemerge 2017-12-22 22:55:55 +01:00			`void AbstractionLayer_1::PreProcessing(coor mySize, const vector<Part> partArray)`
Merge branch 'TeamCGPU_TestWithBaseLayer' into Team_CMU_MergeBase 2017-12-18 21:24:21 +01:00			`{`
beforemerge 2017-12-22 22:55:55 +01:00			`InitialiseConstraintMatrixSize(mySize.row+2, mySize.col+2);`
Merge branch 'TeamCGPU_TestWithBaseLayer' into Team_CMU_MergeBase 2017-12-18 21:24:21 +01:00			`setEdgeZero();`
			`}`

implemented #1 layer everything with the excemtion of image recogniation in preprocessing should be fully implemented. Can now begin deleting all legacy code. 2017-12-20 17:35:52 +01:00			`//it through qualityVector and removes all that do not trigger PlaceOfPartGood`
added destructionPower as abstractionLayer 2017-12-20 22:05:04 +01:00			`bool AbstractionLayer_1::EvaluateQuality (const coor constraintCoordinate, qualityVector& qVector)`
Merge branch 'TeamCGPU_TestWithBaseLayer' into Team_CMU_MergeBase 2017-12-18 21:24:21 +01:00			`{`
Fixed compiler errors with ring initialisation and qVector + MakeFile included 2017-12-20 22:02:09 +01:00			`for(auto it = qVector.begin(); it != qVector.end(); it++)`
unfinished merge, problems with randomgenerator random generator in class needs to return a randomized puzzlebox 2017-12-18 22:50:03 +01:00			`{`
improved random generator, made information call from Part more direct todo: add indexing to puzzlepieces and all four rotation into puzzlebox (or maybe only log?). this needs to be done for random algorithm and for realPuzzle 2017-12-21 13:07:01 +01:00			`if(PlaceOfPartGood(constraintCoordinate, it->first->m_test1.m_connections))`
implemented #1 layer everything with the excemtion of image recogniation in preprocessing should be fully implemented. Can now begin deleting all legacy code. 2017-12-20 17:35:52 +01:00			`continue;`
Fixed compiler errors with ring initialisation and qVector + MakeFile included 2017-12-20 22:02:09 +01:00			`qVector.erase(it++);`
unfinished merge, problems with randomgenerator random generator in class needs to return a randomized puzzlebox 2017-12-18 22:50:03 +01:00			`}`
Merge branch 'TeamCGPU_TestWithBaseLayer' into Team_CMU_MergeBase 2017-12-18 21:24:21 +01:00			`}`

			`bool AbstractionLayer_1::SetConstraintOnPosition(const coor constraintCoordinate, const AbstractionLayer_1_Properties constraint)`
			`{`
implemented #1 layer everything with the excemtion of image recogniation in preprocessing should be fully implemented. Can now begin deleting all legacy code. 2017-12-20 17:35:52 +01:00			`m_constraintMatrix[constraintCoordinate.col][constraintCoordinate.row].m_connections=constraint.m_connections;`
Merge branch 'TeamCGPU_TestWithBaseLayer' into Team_CMU_MergeBase 2017-12-18 21:24:21 +01:00			`}`

			`bool AbstractionLayer_1::RemoveConstraintOnPosition(const coor constraintCoordinate)`
			`{`
implemented #1 layer everything with the excemtion of image recogniation in preprocessing should be fully implemented. Can now begin deleting all legacy code. 2017-12-20 17:35:52 +01:00			`m_constraintMatrix[constraintCoordinate.col][constraintCoordinate.row].m_connections=0b11111111;`
Merge branch 'TeamCGPU_TestWithBaseLayer' into Team_CMU_MergeBase 2017-12-18 21:24:21 +01:00			`}`

			`bool AbstractionLayer_1::CreateRandomPuzzle()`
			`{`
Segmentation error fixed 2017-12-22 22:47:14 +01:00			`std::minstd_rand simple_rand;`
implemented #1 layer everything with the excemtion of image recogniation in preprocessing should be fully implemented. Can now begin deleting all legacy code. 2017-12-20 17:35:52 +01:00			`simple_rand.seed((unsigned int)"dumbo");`

Segmentation error fixed 2017-12-22 22:47:14 +01:00			`for(int col = 1; col < m_constraintMatrix.size()-1; col++){`
			`for(int row = 1; row < (m_constraintMatrix[col].size() - 1);)`
Merge branch 'TeamCGPU_TestWithBaseLayer' into Team_CMU_MergeBase 2017-12-18 21:24:21 +01:00			`{`
Removed lots of slack, edited map functions into dispatcher, puzzleMat missing Removed overconstructed logic, changed vector to map. PuzzleMat object not defined yet, for implementation, make the functions that have already been called through it. 2017-12-20 18:23:39 +01:00			`//create random piece`
Merge branch 'TeamCGPU_TestWithBaseLayer' into Team_CMU_MergeBase 2017-12-18 21:24:21 +01:00			`uint8_t tempPiece = 0b00000000;`
implemented #1 layer everything with the excemtion of image recogniation in preprocessing should be fully implemented. Can now begin deleting all legacy code. 2017-12-20 17:35:52 +01:00			`if(simple_rand()%2)`
Merge branch 'TeamCGPU_TestWithBaseLayer' into Team_CMU_MergeBase 2017-12-18 21:24:21 +01:00			`tempPiece\|=0b01000000;`
			`else`
			`tempPiece\|=0b10000000;`

implemented #1 layer everything with the excemtion of image recogniation in preprocessing should be fully implemented. Can now begin deleting all legacy code. 2017-12-20 17:35:52 +01:00			`if(simple_rand()%2)`
unfinished merge, problems with randomgenerator random generator in class needs to return a randomized puzzlebox 2017-12-18 22:50:03 +01:00			`tempPiece\|=0b00010000;`
			`else`
			`tempPiece\|=0b00100000;`
Merge branch 'TeamCGPU_TestWithBaseLayer' into Team_CMU_MergeBase 2017-12-18 21:24:21 +01:00
implemented #1 layer everything with the excemtion of image recogniation in preprocessing should be fully implemented. Can now begin deleting all legacy code. 2017-12-20 17:35:52 +01:00			`if(simple_rand()%2)`
Merge branch 'TeamCGPU_TestWithBaseLayer' into Team_CMU_MergeBase 2017-12-18 21:24:21 +01:00			`tempPiece\|=0b00000100;`
			`else`
			`tempPiece\|=0b00001000;`

implemented #1 layer everything with the excemtion of image recogniation in preprocessing should be fully implemented. Can now begin deleting all legacy code. 2017-12-20 17:35:52 +01:00			`if(simple_rand()%2)`
unfinished merge, problems with randomgenerator random generator in class needs to return a randomized puzzlebox 2017-12-18 22:50:03 +01:00			`tempPiece\|=0b00000001;`
Merge branch 'TeamCGPU_TestWithBaseLayer' into Team_CMU_MergeBase 2017-12-18 21:24:21 +01:00			`else`
unfinished merge, problems with randomgenerator random generator in class needs to return a randomized puzzlebox 2017-12-18 22:50:03 +01:00			`tempPiece\|=0b00000010;`
Merge branch 'TeamCGPU_TestWithBaseLayer' into Team_CMU_MergeBase 2017-12-18 21:24:21 +01:00
Removed lots of slack, edited map functions into dispatcher, puzzleMat missing Removed overconstructed logic, changed vector to map. PuzzleMat object not defined yet, for implementation, make the functions that have already been called through it. 2017-12-20 18:23:39 +01:00			`//set edges and corners to 00`
			`if(row==1)`
			`tempPiece and_eq (uint8_t)0b00111111;`
			`if(row==m_constraintMatrix[col].size())`
			`tempPiece and_eq (uint8_t)0b11110011;`
			`if(col==1)`
			`tempPiece and_eq (uint8_t)0b11111100;`
			`if(col==m_constraintMatrix.size()-1)`
			`tempPiece and_eq (uint8_t)0b11001111;`

			`//set piece if piece good`
added printpuzzle fucntions 2017-12-22 23:27:50 +01:00			`std::cout << "tempPiece = " << std::bitset<8>(tempPiece) << std::endl;`
unfinished merge, problems with randomgenerator random generator in class needs to return a randomized puzzlebox 2017-12-18 22:50:03 +01:00			`if(PlaceOfPartGood(coor(col,row),tempPiece))`
Segmentation error fixed 2017-12-22 22:47:14 +01:00			`{`
			`m_constraintMatrix[col][row].m_connections = tempPiece;`
added printpuzzle fucntions 2017-12-22 23:27:50 +01:00			`printConstraintMatrix();`
			`row++;`
Segmentation error fixed 2017-12-22 22:47:14 +01:00			`}`
Merge branch 'TeamCGPU_TestWithBaseLayer' into Team_CMU_MergeBase 2017-12-18 21:24:21 +01:00			`}`
			`}`

			`}`

added printpuzzle fucntions 2017-12-22 23:27:50 +01:00

implemented #1 layer everything with the excemtion of image recogniation in preprocessing should be fully implemented. Can now begin deleting all legacy code. 2017-12-20 17:35:52 +01:00			`//puts all pieces of the current constraint matrix into a puzzlebox`
			`qualityVector AbstractionLayer_1::returnInBox(vector<Part>& PuzzleBox)`
			`{`
			`if(!(PuzzleBox.size()))`
			`for(int i = 0; i< (m_constraintMatrix.size()-2)*(m_constraintMatrix[0].size()-2);i++)`
			`PuzzleBox.emplace_back(Part());`

			`int i=0;`
			`for(int col=1;col<m_constraintMatrix.size()-1;col++)`
			`for(int row=1;row<m_constraintMatrix[col].size()-1;row++)`
improved random generator, made information call from Part more direct todo: add indexing to puzzlepieces and all four rotation into puzzlebox (or maybe only log?). this needs to be done for random algorithm and for realPuzzle 2017-12-21 13:07:01 +01:00			`PuzzleBox[i++].m_test1.m_connections=m_constraintMatrix[col][row].m_connections;`
implemented #1 layer everything with the excemtion of image recogniation in preprocessing should be fully implemented. Can now begin deleting all legacy code. 2017-12-20 17:35:52 +01:00
			`}`

added printpuzzle fucntions 2017-12-22 23:27:50 +01:00			`void AbstractionLayer_1::printConstraintMatrix() {`
			`for (auto it1:m_constraintMatrix) {`
			`for (auto it2:it1)`
edit: now its up printmatrix 2017-12-22 23:30:05 +01:00			`std::cout << std::bitset<8>(it2.m_connections) << " ";`
added printpuzzle fucntions 2017-12-22 23:27:50 +01:00			`std::cout << std::endl;`
			`}`
			`}`
Merge branch 'TeamCGPU_TestWithBaseLayer' into Team_CMU_MergeBase 2017-12-18 21:24:21 +01:00			`void AbstractionLayer_1::setEdgeZero()`
			`{`
Segmentation error fixed 2017-12-22 22:47:14 +01:00			`for(int col = 0; col < m_constraintMatrix.size(); col++)`
			`for(int row = 0; row < m_constraintMatrix[col].size(); row++)`
			`if(col == 0 \|\| col == (m_constraintMatrix.size() - 1) \|\| row == 0 \|\| row == (m_constraintMatrix[col].size() - 1))`
Merge branch 'TeamCGPU_TestWithBaseLayer' into Team_CMU_MergeBase 2017-12-18 21:24:21 +01:00			`m_constraintMatrix[col][row].m_connections=0b00000000;`
			`}`

unfinished merge, problems with randomgenerator random generator in class needs to return a randomized puzzlebox 2017-12-18 22:50:03 +01:00			`//checks if the myPart in its current orientation is legal in position m, n`
			`bool AbstractionLayer_1::PlaceOfPartGood(coor myCoor, uint8_t& myPart)`
			`{`

redid some of the includes and changed way statics are saved 2017-12-21 12:20:57 +01:00			`uint8_t negativePart=0b00000000;`
unfinished merge, problems with randomgenerator random generator in class needs to return a randomized puzzlebox 2017-12-18 22:50:03 +01:00
			`negativePart or_eq (m_constraintMatrix[myCoor.col][myCoor.row+1].m_connections & 0b11000000);`
			`negativePart or_eq (m_constraintMatrix[myCoor.col-1][myCoor.row].m_connections & 0b00110000);`
			`negativePart or_eq (m_constraintMatrix[myCoor.col][myCoor.row-1].m_connections & 0b00001100);`
			`negativePart or_eq (m_constraintMatrix[myCoor.col+1][myCoor.row].m_connections & 0b00000011);`
			`shift(negativePart,2);`
added printpuzzle fucntions 2017-12-22 23:27:50 +01:00			`std::cout << "negativePart = " << std::bitset<8>(negativePart) << std::endl;`
unfinished merge, problems with randomgenerator random generator in class needs to return a randomized puzzlebox 2017-12-18 22:50:03 +01:00			`if (`
			`( ((((negativePart & 0b11000000) ^ (myPart & 0b11000000)) != 0b00000000) && (((myPart & 0b11000000) != 0b00000000) && (negativePart & 0b11000000) != 0b00000000))`
			`\|\| ((((negativePart & 0b11000000) == 0b11000000) \|\| ((myPart & 0b11000000) == 0b11000000)) && (((myPart & 0b11000000) != 0b00000000) && (negativePart & 0b11000000) != 0b00000000))`
			`\|\| (((negativePart & 0b11000000) == 0b00000000) && ((myPart & 0b11000000) == 0b00000000)) )`
			`&&`
			`( ((((negativePart & 0b00110000) ^ (myPart & 0b00110000)) != 0b00000000) && (((myPart & 0b00110000) != 0b00000000) && (negativePart & 0b00110000) != 0b00000000))`
			`\|\| ((((negativePart & 0b00110000) == 0b00110000) \|\| ((myPart & 0b00110000) == 0b00110000)) && (((myPart & 0b00110000) != 0b00000000) && (negativePart & 0b00110000) != 0b00000000))`
			`\|\| (((negativePart & 0b00110000) == 0b00000000) && ((myPart & 0b00110000) == 0b00000000)) )`
			`&&`
			`( ((((negativePart & 0b00001100) ^ (myPart & 0b00001100)) != 0b00000000) && (((myPart & 0b00001100) != 0b00000000) && (negativePart & 0b00001100) != 0b00000000))`
			`\|\| ((((negativePart & 0b00001100) == 0b00001100) \|\| ((myPart & 0b00001100) == 0b00001100)) && (((myPart & 0b00001100) != 0b00000000) && (negativePart & 0b00001100) != 0b00000000))`
			`\|\| (((negativePart & 0b00001100) == 0b00000000) && ((myPart & 0b00001100) == 0b00000000)) )`
			`&&`
			`( ((((negativePart & 0b00000011) ^ (myPart & 0b00000011)) != 0b00000000)&& (((myPart & 0b00000011) != 0b00000000) && (negativePart & 0b00000011) != 0b00000000))`
			`\|\| ((((negativePart & 0b00000011) == 0b00000011) \|\| ((myPart & 0b00000011) == 0b00000011)) && (((myPart & 0b00000011) != 0b00000000) && (negativePart & 0b00000011) != 0b00000000))`
			`\|\| (((negativePart & 0b00000011) == 0b00000000) && ((myPart & 0b00000011) == 0b00000000)) )`
			`)`
			`return true;`
			`return false;`

			`}`

			`void AbstractionLayer_1::shift(uint8_t& Part, int shifts)`
			`{`
			`Part = Part >> (shifts2) \| Part << sizeof(uint8_t)8 - (shifts*2);`
			`}`