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521 lines
12 KiB
C
521 lines
12 KiB
C
/*
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* This is a cellular automaton library
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*
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* Copyright (C) 2016-2017 Antoine BARTUCCIO, Jean POREE DE RIDDER
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*
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* Licensed under the MIT License,(the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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* hhttps://opensource.org/licenses/MIT
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
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* SOFTWARE.
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*
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*/
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#ifndef MTRXGAUD_H
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#define MTRXGAUD_H
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#include <CellElement.h>
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#include <list.h>
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/**
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* Abstract type that describe a boolean matrix
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*
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* @param colCount is the number of columns of the matrix
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* @param rowIndex is the number of rows of the matrix
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*
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* @param rows is pointer on the first row that contains a true value
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* @param cols is pointer on the first col that contains a true value
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*
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* @see createMatrix to allocate one
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* @see freeMatrix to free one
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*/
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typedef struct Matrix {
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int colCount;
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int rowCount;
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List *cols;
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List *rows;
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}Matrix;
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/**
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* Abstract type for a matrix of booleans
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*
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* @param rows number of rows of the matrix
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* @param cols numbers of columns of the matrix
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* @param data the matrix
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*
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* @see createBooleanMatrix to create one
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*/
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typedef struct {
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int rows;
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int cols;
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bool **data;
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} BooleanMatrix;
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/**
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* Function creating an empty boolean matrix
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*
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* @param cols number of cols
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* @param rows number of rows
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*
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* @return booleanmatrix a new matrix
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*/
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BooleanMatrix createBooleanMatrix(int cols, int rows);
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/**
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* Randomize a BooleanMatrix
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*
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* @param matrix a BooleanMatrix
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*
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* @return booleanmatrix the processed matrix
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*/
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BooleanMatrix randomizeBooleanMatrix(BooleanMatrix matrix);
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/**
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* Free a BooleanMatrix
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*
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* @param matrix a BooleanMatrix
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*/
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void freeBooleanMatrix(BooleanMatrix matrix);
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/**
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* Create a Matrix from its array-based representation
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*
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* @param bmatrix BooleanMatrix
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*
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* @return m Matrix
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*/
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Matrix newMatrix(BooleanMatrix bmatrix);
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/*---applyRules---
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* A function that allows you to apply some rules n times on the matrix and returns it
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*
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* @param matrix is a matrix on whitch you would apply the rules
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* @param Rules is an integer describing the rules
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* @param N is the number of time the rules will be applied
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*
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* @return Matrix
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*/
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Matrix applyRules(Matrix matrix,int Rules, int N);
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/**
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* Create a void Matrix
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*
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* @return a matrix
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*
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*/
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Matrix createMatrix();
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/**
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* Find and return the cell in the given matrix
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*
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* @param matrix the Matrix where we search
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* @param ColPos an int indicating the column of the cell
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* @param RowPos an int indicating the row of the cell
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*
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* @return a cellElement
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*
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*/
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cellElement * findMatrixElem(Matrix matrix, int ColPos, int RowPos);
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/**
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* Create the cell in the given matrix
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*
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* @param matrix the Matrix
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* @param ColPos an int indicating the column of the cell
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* @param RowPos an int indicating the row of the cell
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*
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* @return a bool (error code)
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*
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*/
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bool createMatrixElem(Matrix matrix, int ColPos, int RowPos);
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/**
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* Delete the cell in the given matrix
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*
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* @param matrix the Matrix
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* @param ColPos an int indicating the column of the cell
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* @param RowPos an int indicating the row of the cell
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*
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* @return an error code (int)
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*
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*/
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int deleteMatrixElem(Matrix matrix, int ColPos, int RowPos);
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/**
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* Delete or create the cell in the given matrix to fit the value
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*
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* @param matrix the Matrix
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* @param ColPos an int indicating the column of the cell
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* @param RowPos an int indicating the row of the cell
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*
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* @return an error code (bool)
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*
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*/
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bool setCellValue(Matrix matrix, int ColPos, int RowPos, bool value);
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/**
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* Checks out the value of the cell in the given matrix
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*
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* @param matrix the Matrix
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* @param ColPos an int indicating the column of the cell
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* @param RowPos an int indicating the row of the cell
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*
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* @return the value (bool)
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*
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*/
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bool getCellValue(Matrix matrix, int ColPos, int RowPos);
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/**
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* Set the number of columns and rows of the matrix and returns it
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*
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* @param matrix the Matrix
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* @param nbCols an int indicating the number of columns
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* @param nbRows an int indicating the number of rows
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*
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* @return the matrix
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*
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*/
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Matrix setMatrixDim(Matrix matrix,int nbCols,int nbRows);
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/**
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* Basically print the Matrix in the standard output
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*
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* @param matrix the Matrix
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*
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*/
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void printMatrix(Matrix matrix);
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/**
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* Allows you to free a Matrix
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*
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* @param matrix is the Matrix you want to free
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*
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* @return Matrix non allocated
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*/
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Matrix freeMatrix(Matrix matrix);
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/**
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* Given an input matrix with M rows and N columns, computes a matrix with
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* M rows and N-1 columns were each element corresponds to the operator boolean operation
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* between two successive horizontal elements in the input matrix
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*
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* @param m a Matrix
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* @param operator a function
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*
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* @return Matrix the copmuted matrix
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*/
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Matrix colSequenceOnMatrix(Matrix m, bool (operator)(bool, bool));
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/**
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* Given an input matrix with M rows and N columns, computes a matrix with
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* M-1 rows and N columns were each element corresponds to the operator boolean operation
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* between two succesive vertical elements in the input matrix
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*
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* @param m a Matrix
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* @param operator a function
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*
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* @return Matrix the copmuted matrix
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*/
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Matrix rowSequenceOnMatrix(Matrix m, bool (operator)(bool, bool));
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/**
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* Given an input matrix with M rows and N columns, computes a matrix with
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* M rows and N-1 columns were each element corresponds to the AND boolean operation
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* between two successive horizontal elements in the input matrix
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*
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* @param m a Matrix
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*
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* @return Matrix the copmuted matrix
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*/
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Matrix andColSequenceOnMatrix(Matrix m);
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/**
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* Given an input matrix with M rows and N columns, computes a matrix with
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* M rows and N-1 columns were each element corresponds to the OR boolean operation
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* between two successive horizontal elements in the input matrix
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*
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* @param m a Matrix
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*
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* @return Matrix the copmuted matrix
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*/
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Matrix orColSequenceOnMatrix(Matrix m);
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/**
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* Given an input matrix with M rows and N columns, computes a matrix with
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* M-1 rows and N columns were each element corresponds to the AND boolean operation
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* between two succesive vertical elements in the input matrix
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*
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* @param m a Matrix
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*
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* @return Matrix the copmuted matrix
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*/
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Matrix andRowSequenceOnMatrix(Matrix m);
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/**
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* Given an input matrix with M rows and N columns, computes a matrix with
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* M-1 rows and N columns were each element corresponds to the OR boolean operation
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* between two succesive vertical elements in the input matrix
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*
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* @param m a Matrix
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*
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* @return Matrix the copmuted matrix
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*/
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Matrix orRowSequenceOnMatrix(Matrix m);
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/**
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* Apply a given set of rules
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*
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* @param m a matrix
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* @param n the number of rules
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* @param rules an array of rules
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*
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* @return Matrix a new modified matrix
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*/
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Matrix matrixFromRules(Matrix m, int n, int rules[]);
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/**
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* Apply XOR to a given number of bools
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*
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* @param n the number of bools
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* @param bools an array of bool
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*
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* @return bool the processed bool
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*/
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bool MXOR(int n, bool bools[]);
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/**
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* Get a cell with first rule
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*
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* @param m a matrix
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* @param ColPos collumn pos of the current cell
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* @param RowPos row pos of the current cell
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*
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* @return bool the value of the cell got by the rule
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*/
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bool firstRule(Matrix m, int ColPos, int RowPos);
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/**
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* Get a cell with right rule
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*
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* @param m a matrix
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* @param ColPos collumn pos of the current cell
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* @param RowPos row pos of the current cell
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*
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* @return bool the value of the cell got by the rule
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*/
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bool rightRule(Matrix m, int ColPos, int RowPos);
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/**
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* Get a cell with left rule
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*
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* @param m a matrix
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* @param ColPos collumn pos of the current cell
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* @param RowPos row pos of the current cell
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*
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* @return bool the value of the cell got by the rule
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*/
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bool leftRule(Matrix m, int ColPos, int RowPos);
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/**
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* Get a cell with top rule
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*
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* @param m a matrix
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* @param ColPos collumn pos of the current cell
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* @param RowPos row pos of the current cell
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*
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* @return bool the value of the cell got by the rule
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*/
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bool topRule(Matrix m, int ColPos, int RowPos);
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/**
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* Get a cell with bottom rule
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*
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* @param m a matrix
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* @param ColPos collumn pos of the current cell
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* @param RowPos row pos of the current cell
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*
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* @return bool the value of the cell got by the rule
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*/
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bool bottomRule(Matrix m, int ColPos, int RowPos);
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/**
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* Get a cell with top_left rule
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*
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* @param m a matrix
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* @param ColPos collumn pos of the current cell
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* @param RowPos row pos of the current cell
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*
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* @return bool the value of the cell got by the rule
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*/
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bool topLeftRule(Matrix m, int ColPos, int RowPos);
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/**
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* Get a cell with top_right rule
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*
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* @param m a matrix
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* @param ColPos collumn pos of the current cell
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* @param RowPos row pos of the current cell
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*
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* @return bool the value of the cell got by the rule
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*/
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bool topRightRule(Matrix m, int ColPos, int RowPos);
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/**
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* Get a cell with bottom_left rule
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*
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* @param m a matrix
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* @param ColPos collumn pos of the current cell
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* @param RowPos row pos of the current cell
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*
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* @return bool the value of the cell got by the rule
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*/
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bool bottomLeftRule(Matrix m, int ColPos, int RowPos);
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/**
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* Get a cell with bottom_right rule
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*
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* @param m a matrix
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* @param ColPos collumn pos of the current cell
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* @param RowPos row pos of the current cell
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*
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* @return bool the value of the cell got by the rule
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*/
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bool bottomRightRule(Matrix m, int ColPos, int RowPos);
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/**
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* Get a list of bool from a given set of rules
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*
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* @param m a Matrix
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* @param ColPos colon position of the point
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* @param RowPos colon position of the point
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* @param n number of rules
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* @param rules[] an array of rules
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*
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* @return bool[] an array of bool
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*/
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bool * getFromRules(Matrix m, int ColPos, int RowPos, int n, int rules[]);
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/**
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* Allows you to use boolean operators between two matrices
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*
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* @param matrix1 the first matrix you want to operate on
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* @param matrix2 the second matrix you want to operate on
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* @param operator the function operator you want to use
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*
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* @return Matrix
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*/
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Matrix opMatrix(Matrix matrix1,Matrix matrix2,bool (operator)(bool, bool));
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/**
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* Allows you to add two Matrices
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*
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* @param matrix1 the first matrix you want to add
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* @param matrix2 the second matrix you want to add
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*
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* @return Matrix the sum
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*/
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Matrix sumMatrix(Matrix matrix1,Matrix matrix2);
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/**
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* Allows you to multiply two Matrices (with the AND operator)
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*
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* @param matrix1 the first matrix you want to multiply
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* @param matrix2 the second matrix you want to multiply
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*
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* @return Matrix the product
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*/
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Matrix mulMatrix(Matrix matrix1,Matrix matrix2);
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/**
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* Check out if the matrix is Empty
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*
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* @param matrix the matrix you want to check
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*
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* @return bool (true/false)
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*/
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bool isMatrixEmpty(Matrix matrix);
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/**
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* Check out if the matrix is square
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*
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* @param matrix the matrix you want to check
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*
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* @return bool (true/false)
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*/
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bool isMatrixSquare(Matrix matrix);
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/**
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* Check out if the Matrices are equals
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*
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* @param m1 Matrices
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* @param m2 Matrices
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*
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* @return bool (true/false)
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*/
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bool equalsMatrix(Matrix m1, Matrix m2);
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/**
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* Check out if the column is empty
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*
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* @param matrix the Matrix where the column is in
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* @param the number of the column
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*
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* @return bool (true/false)
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*/
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bool isColumnEmpty(Matrix matrix,int nb);
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/**
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* Check out if the row is empty
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*
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* @param matrix the Matrix where the row is in
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* @param the number of the row
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*
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* @return bool (true/false)
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*/
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bool isRowEmpty(Matrix matrix,int nb);
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/**
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* Sets a Row to true
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*
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* @param matrix a Matrix
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* @param RowNb int number of the row
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*/
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void setRowToTrue(Matrix matrix, int RowNb);
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/**
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* Sets a Col to true
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*
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* @param matrix a Matrix
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* @param ColNb int nuber of the col
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*/
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void setColToTrue(Matrix matrix, int ColNb);
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/**
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* Sets some values to true to create a square in the matrix
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*
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* @param matrix a Matrix
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*/
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void createSquare(Matrix matrix);
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#endif
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