2021-05-25 22:19:44 +02:00
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namespace lasd {
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/* ************************************************************************** */
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2021-05-28 12:43:27 +02:00
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template <typename Data>
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MatrixCSR<Data>::MatrixCSR(){
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2021-05-31 11:26:27 +02:00
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R.Resize(1);
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2021-05-28 12:43:27 +02:00
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R[0] = &head;
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}
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template <typename Data>
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2021-05-31 11:26:27 +02:00
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MatrixCSR<Data>::MatrixCSR(const ulong r, const ulong c){
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2021-05-28 12:43:27 +02:00
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rows = r;
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columns = c;
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R.Resize(rows+1);
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for(ulong i=0 ; i<R.Size() ; ++i){
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R[i] = &head;
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}
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}
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// copy constructor
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template <typename Data>
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MatrixCSR<Data>::MatrixCSR(const MatrixCSR& toCopy) : MatrixCSR(toCopy.rows, toCopy.columns) {
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/*
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For each element in the "R" vector, insert it in the matrix (represented as a list)
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in this way:
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The row index is represented by "i" (the variable that iterates over the R array),
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meanwhile the column index is represented by the second element in the pair of the node.
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The actual element is stored in the first element in the pair of the node.
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The update of the newely created R array is left to operator()().
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*/
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for(ulong i=0 ; i < (toCopy.R.Size()-1) ; ++i){
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for(Node** ptr = toCopy.R[i] ; ptr!=toCopy.R[i+1] ; ptr = &( (*(*ptr)).next ) ){
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2021-05-31 11:26:27 +02:00
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(*this)(i , ((*ptr)->value).second) = ((*ptr)->value).first;
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2021-05-28 12:43:27 +02:00
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}
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}
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}
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template <typename Data>
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2021-05-28 23:16:37 +02:00
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MatrixCSR<Data>::MatrixCSR(MatrixCSR&& toMove) noexcept{
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2021-05-28 12:43:27 +02:00
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std::swap(rows, toMove.rows);
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std::swap(columns, toMove.columns);
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std::swap(size, toMove.size);
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std::swap(head, toMove.head);
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std::swap(R, toMove.R);
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2021-06-09 08:13:58 +02:00
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toMove.R.Resize(1); // the moved matrix must be empty
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2021-05-28 12:43:27 +02:00
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toMove.R[0] = &toMove.head;
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Node** oldHead = R[0];
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for(ulong i=0 ; i<R.Size() && R[i]==oldHead; ++i){
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R[i] = &head;
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}
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}
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template <typename Data>
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MatrixCSR<Data>::~MatrixCSR(){
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Clear();
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}
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template <typename Data>
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2021-06-02 21:03:10 +02:00
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MatrixCSR<Data>& MatrixCSR<Data>::operator=(const MatrixCSR<Data>& toCopy){
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MatrixCSR<Data> tmp(toCopy);
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std::swap(tmp, *this);
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2021-05-28 12:43:27 +02:00
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return *this;
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}
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template <typename Data>
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2021-06-02 21:03:10 +02:00
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MatrixCSR<Data>& MatrixCSR<Data>::operator=(MatrixCSR<Data>&& toMove) noexcept{
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std::swap(rows, toMove.rows);
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std::swap(columns, toMove.columns);
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std::swap(size, toMove.size);
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std::swap(head, toMove.head);
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std::swap(R, toMove.R);
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toMove.R.Resize(1);
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toMove.R[0] = &toMove.head;
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Node** oldHead = R[0];
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for(ulong i=0 ; i<R.Size() && R[i]==oldHead; ++i){
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R[i] = &head;
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}
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2021-05-28 12:43:27 +02:00
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return *this;
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}
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template <typename Data>
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bool MatrixCSR<Data>::operator==(const MatrixCSR& toCompare) const noexcept{
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2021-05-31 11:26:27 +02:00
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/*
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* Check the # of rows, of columns and of elements.
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* For each row, check if the nodes in that row have the same value (data and column).
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* If one row ends before the other one, return false.
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*/
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2021-05-28 23:16:37 +02:00
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if(columns == toCompare.columns && rows == toCompare.rows && size==toCompare.size){
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for(ulong i=0 ; i<(R.Size()-1) ; ++i){
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2021-05-31 11:26:27 +02:00
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for(Node** ptr1 = R[i] , **ptr2 = (toCompare.R)[i] ; ptr1!=R[i+1] && ptr2!=toCompare.R[i+1] ; ptr1 = &( (*(*ptr1)).next ) , ptr2 = &( (*(*ptr2)).next ) ){
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2021-05-28 12:43:27 +02:00
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2021-05-28 23:16:37 +02:00
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if( ( ((*ptr1)->value).first != ((*ptr2)->value).first ) || ( ((*ptr1)->value).second != ((*ptr2)->value).second )) return false;
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2021-05-31 11:26:27 +02:00
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if( (&((*(*ptr1)).next)==R[i+1] && &((*(*ptr2)).next) != toCompare.R[i+1]) || (&((*(*ptr1)).next)!=R[i+1] && &((*(*ptr2)).next) == toCompare.R[i+1])){
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2021-05-28 23:16:37 +02:00
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return false;
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}
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}
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}
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return true;
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}else{
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return false;
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}
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2021-05-28 12:43:27 +02:00
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}
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template <typename Data>
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bool MatrixCSR<Data>::operator!=(const MatrixCSR& toCompare) const noexcept{
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return !(*this == toCompare);
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}
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template <typename Data>
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2021-05-28 23:16:37 +02:00
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void MatrixCSR<Data>::RowResize(const ulong& new_row_size){
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2021-06-05 14:25:22 +02:00
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if(new_row_size > rows){
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2021-05-28 23:16:37 +02:00
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R.Resize(new_row_size+1);
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2021-06-02 10:02:21 +02:00
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for(ulong i=rows+1 ; i<R.Size(); ++i){
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2021-05-28 23:16:37 +02:00
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R[i] = R[rows];
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}
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rows = new_row_size;
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2021-05-31 11:26:27 +02:00
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}else if(new_row_size < rows){
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Node* toDelete;
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Node* tmp;
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2021-05-28 23:16:37 +02:00
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toDelete = *R[new_row_size];
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while(toDelete!=nullptr){
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tmp = toDelete->next;
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delete toDelete;
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toDelete = tmp;
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--size;
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}
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*(R[new_row_size]) = nullptr;
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R.Resize(new_row_size+1);
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rows = new_row_size;
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}
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}
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template <typename Data>
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void MatrixCSR<Data>::ColumnResize(const ulong& new_column_size){
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2021-06-05 14:25:22 +02:00
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if(new_column_size < columns){
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2021-06-02 11:50:40 +02:00
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Node** prev;
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2021-05-31 11:26:27 +02:00
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Node* toDelete;
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2021-06-02 11:50:40 +02:00
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Node** toModify;
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2021-06-02 10:02:21 +02:00
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for(ulong i=0 ; i<R.Size()-1 ; ++i){ // iterate over the R array
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2021-06-02 11:50:40 +02:00
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prev = R[i]; // in case an element must be deleted, this is its previous element.
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for(Node** ptr = R[i] ; ptr!=R[i+1] ; ){
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2021-05-31 11:26:27 +02:00
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if(((*ptr)->value).second < new_column_size){
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2021-06-02 11:50:40 +02:00
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prev = &( (*(*ptr)).next );
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ptr = &( (*(*ptr)).next);
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2021-05-31 11:26:27 +02:00
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}else{
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toDelete = *ptr;
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2021-06-02 11:50:40 +02:00
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toModify = &( (*(*ptr)).next );
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2021-05-31 11:26:27 +02:00
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*ptr = (*(*ptr)).next;
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delete toDelete;
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--size;
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2021-06-02 10:02:21 +02:00
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for(ulong j=i+1 ; j<R.Size() ; ++j){
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2021-06-02 11:50:40 +02:00
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if(R[j] == toModify){
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R[j] = prev;
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2021-06-02 10:02:21 +02:00
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}
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else break;
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}
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2021-05-31 11:26:27 +02:00
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}
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2021-05-28 23:16:37 +02:00
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}
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}
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}
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2021-06-02 10:02:21 +02:00
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columns = new_column_size;
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2021-05-28 23:16:37 +02:00
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}
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template <typename Data>
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2021-05-31 11:26:27 +02:00
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bool MatrixCSR<Data>::ExistsCell(const ulong& r, const ulong& c) const noexcept{
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if(r>=rows || c>=columns) return false;
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2021-05-28 23:16:37 +02:00
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Node** ptr = R[r];
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while(ptr != R[r+1]){
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if( (**ptr).value.second == c ) return true;
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ptr = &((**ptr).next);
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}
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return false;
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}
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template <typename Data>
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2021-06-02 10:02:21 +02:00
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const Data& MatrixCSR<Data>::operator()(const ulong r, const ulong c) const{
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2021-05-31 11:26:27 +02:00
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if(r>=rows || c>=columns) throw std::out_of_range("Tried to access an invalid position!");
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2021-05-28 23:16:37 +02:00
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else{
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Node** ptr = R[r];
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while(ptr != R[r+1]){
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2021-06-02 10:02:21 +02:00
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if( (**ptr).value.second == c ){
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return (**ptr).value.first;
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}
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2021-05-28 23:16:37 +02:00
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ptr = &((**ptr).next);
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}
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throw std::length_error("The element does not exist!");
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}
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}
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template <typename Data>
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2021-06-02 10:02:21 +02:00
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Data& MatrixCSR<Data>::operator()(const ulong r, const ulong c){
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2021-05-31 11:26:27 +02:00
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if(r>=rows || c>=columns) throw std::out_of_range("Tried to access an invalid position!");
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2021-05-28 23:16:37 +02:00
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else{
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Node** ptr = R[r];
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2021-05-31 11:26:27 +02:00
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Node** last = R[r+1]; // pointer to the pointer inside the last element of the r-th cell
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while(ptr != R[r+1] && ((**ptr).value.second <= c)){
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2021-05-28 23:16:37 +02:00
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if((**ptr).value.second == c){
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return (**ptr).value.first;
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}
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else if( (**ptr).value.second < c ){
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ptr = &((**ptr).next);
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}
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2021-05-31 11:26:27 +02:00
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}
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2021-06-02 10:02:21 +02:00
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Node* newNode = new Node();
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Node* nextNode = *ptr;
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2021-05-31 11:26:27 +02:00
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*ptr = newNode;
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newNode->next = nextNode;
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2021-05-31 17:46:48 +02:00
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(newNode->value).second = c;
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2021-06-02 10:02:21 +02:00
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++size;
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2021-05-31 11:26:27 +02:00
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if(last == ptr){ // the newely inserted element is the last one in its row
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for(ulong i=r+1 ; i<R.Size() ; ++i){ // then for each next row
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2021-06-02 10:02:21 +02:00
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if(R[i] == last){ // check if it pointed to last (it was empty)
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R[i] = &(newNode->next); // assign the address of the pointer of the next node
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2021-05-31 11:26:27 +02:00
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}
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else break;
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2021-05-28 23:16:37 +02:00
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}
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}
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2021-06-02 10:02:21 +02:00
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return (newNode->value).first;
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2021-05-28 12:43:27 +02:00
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}
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}
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2021-05-25 22:19:44 +02:00
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2021-05-31 11:26:27 +02:00
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template <typename Data>
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void MatrixCSR<Data>::Clear(){
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List<std::pair<Data,ulong>>::Clear();
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columns = 0;
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rows = 0;
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size = 0;
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R.Resize(1);
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2021-06-02 10:02:21 +02:00
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R[0] = &head;
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2021-05-31 11:26:27 +02:00
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}
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template <typename Data>
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void MatrixCSR<Data>::MapPreOrder(const typename MappableContainer<Data>::MapFunctor fun, void* par){
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List<std::pair<Data,ulong>>::MapPreOrder(
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[&fun](std::pair<Data,ulong>& datx, void* parx){fun(datx.first, parx); }
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, par);
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}
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template <typename Data>
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void MatrixCSR<Data>::MapPostOrder(const typename MappableContainer<Data>::MapFunctor fun, void* par){
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List<std::pair<Data,ulong>>::MapPostOrder(
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[&fun](std::pair<Data,ulong>& datx, void* parx){fun(datx.first, parx); }
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, par);
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}
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template <typename Data>
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void MatrixCSR<Data>::FoldPreOrder(const typename FoldableContainer<Data>::FoldFunctor fun, const void* par, void* acc) const{
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List<std::pair<Data,ulong>>::FoldPreOrder(
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[&fun](const std::pair<Data,ulong>& datx, const void* parx, void* accx) {fun(datx.first, parx, accx); }
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, par , acc);
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}
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template <typename Data>
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void MatrixCSR<Data>::FoldPostOrder(const typename FoldableContainer<Data>::FoldFunctor fun, const void* par, void* acc) const{
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List<std::pair<Data,ulong>>::FoldPostOrder(
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[&fun](const std::pair<Data,ulong>& datx, const void* parx, void* accx) {fun(datx.first, parx, accx); }
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, par , acc);
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}
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2021-06-02 10:02:21 +02:00
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template <typename Data>
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void MatrixCSR<Data>::debug(){
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std::cout<<std::endl;
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2021-05-31 11:26:27 +02:00
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2021-06-02 21:03:10 +02:00
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std::cout<<"rows: "<<rows<<" columns: "<<columns<<" size: "<<size<<"\n\n";
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Node* tmp = head;
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while(tmp!=nullptr){
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std::cout<<(tmp->value).first<<"|"<< (tmp->value).second;
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std::cout<<std::endl;
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std::cout<<&(tmp->next);
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std::cout<<std::endl;
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std::cout<<std::endl;
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tmp = tmp->next;
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}
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2021-06-04 22:16:34 +02:00
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std::cout << "\nR VECTOR:" << '\n';
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2021-06-02 21:03:10 +02:00
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for(ulong i=0; i<R.Size();++i){
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std::cout << R[i] << '\n';
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}
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std::cout<<std::endl;
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std::cout<<std::endl;
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2021-06-02 10:02:21 +02:00
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}
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2021-05-31 11:26:27 +02:00
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2021-05-25 22:19:44 +02:00
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/* ************************************************************************** */
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}
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