#include<stdlib.h>
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#include<stdio.h>
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#include "general.h"
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#include "triangle.h"
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#include<math.h>
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/** @brief Prepares the list for triangles.
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*
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* Create empty list for holding the information on triangles. Triangles are
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* added later on with triangle_add().
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* Returns pointer to the tlist datastructure it has created. This pointer must
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* be assigned to some variable or it will be lost.
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*
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*
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* Example of usage:
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* ts_triangle_list *tlist;
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* tlist=triangle_data_free();
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*
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* Initalized data structure for holding the information on triangles.
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*
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*/
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ts_triangle_list *init_triangle_list(){
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ts_triangle_list *tlist=(ts_triangle_list *)malloc(sizeof(ts_triangle_list));
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tlist->n = 0;
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tlist->tria=NULL;
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return tlist;
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}
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/** @brief Add the triangle to the triangle list and create necessary data
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* structures.
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*
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* Add the triangle ts_triangle with ts_triangle_data to the ts_triangle_list.
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* The triangle list is resized, the ts_triangle is allocated and
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* ts_triangle_data is allocated and zeroed. The function receives 4 arguments:
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* ts_triangle_list *tlist as list of triangles and 3 ts_vertex *vtx as
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* vertices that are used to form a triangle. Returns a pointer to newly
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* created triangle. This pointer doesn't need assigning, since it is
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* referenced by triangle list.
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*
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* WARNING: Function can be accelerated a bit by removing the NULL checks.
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* However the time gained by removal doesn't justify the time spent by
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* debugging stupid NULL pointers.
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*
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* Example of usage:
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* triangle_add(tlist, vlist->vtx[1], vlist->vtx[2], vlist->vtx[3]);
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*
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* Creates a triangle with given vertices and puts it into the list.
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*
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*/
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ts_triangle *triangle_add(ts_triangle_list *tlist, ts_vertex *vtx1, ts_vertex *vtx2, ts_vertex *vtx3){
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if(vtx1==NULL || vtx2==NULL || vtx3==NULL){
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return NULL;
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}
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tlist->n++;
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tlist->tria=(ts_triangle **)realloc(tlist->tria,tlist->n*sizeof(ts_triangle *));
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if(tlist->tria==NULL) fatal("Cannot reallocate memory for additional ts_triangle.",5);
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tlist->tria[tlist->n-1]=(ts_triangle *)calloc(1,sizeof(ts_triangle));
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if(tlist->tria[tlist->n-1]==NULL) fatal("Cannot reallocate memory for additional ts_triangle.",5);
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// tlist->tria[tlist->n-1]->data=(ts_triangle_data *)calloc(1,sizeof(ts_triangle_data));
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//NOW insert vertices!
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tlist->tria[tlist->n - 1]->idx=tlist->n-1;
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tlist->tria[tlist->n - 1]->vertex[0]=vtx1;
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tlist->tria[tlist->n - 1]->vertex[1]=vtx2;
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tlist->tria[tlist->n - 1]->vertex[2]=vtx3;
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return tlist->tria[tlist->n-1];
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}
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/** @brief Add the neigbour to triangles.
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*
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* Add the neigbour to the list of neighbouring triangles. The
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* neighbouring triangles are those, who share two vertices. Function resizes
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* the list and adds the pointer to neighbour. It receives two arguments of
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* ts_triangle type. It then adds second triangle to the list of first
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* triangle, but not the opposite. Upon
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* success it returns TS_SUCCESS, upon detecting NULL pointers
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* returns TS_FAIL and it FATALY ends when the data structure
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* cannot be resized.
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*
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*
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* WARNING: Function can be accelerated a bit by removing the NULL checks.
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* However the time gained by removal doesn't justify the time spent by
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* debugging stupid NULL pointers.
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*
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* Example of usage:
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* triangle_remove_neighbour(tlist->tria[3], tlist->tria[4]);
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*
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* Triangles 3 and 4 are not neighbours anymore.
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*
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*/
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ts_bool triangle_add_neighbour(ts_triangle *tria, ts_triangle *ntria){
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if(tria==NULL || ntria==NULL) return TS_FAIL;
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/*TODO: check if the neighbour already exists! Now there is no such check
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* because of the performance issue. */
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tria->neigh_no++;
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tria->neigh=realloc(tria->neigh,tria->neigh_no*sizeof(ts_triangle *));
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if(tria->neigh == NULL)
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fatal("Reallocation of memory failed during insertion of triangle neighbour in triangle_add_neighbour",3);
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tria->neigh[tria->neigh_no-1]=ntria;
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/* we repeat the procedure for the neighbour */
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/* ntria->data->neigh_no++;
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ntria->data->neigh=realloc(ntria->data->neigh,ntria->data->neigh_no*sizeof(ts_triangle *));
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if(ntria->data->neigh == NULL)
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fatal("Reallocation of memory failed during insertion of triangle neighbour in triangle_add_neighbour",3);
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ntria->data->neigh[ntria->data->neigh_no-1]=tria;
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*/
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return TS_SUCCESS;
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}
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/** @brief Remove the neigbours from triangle.
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*
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* Removes the neigbour from the list of neighbouring triangles. The
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* neighbouring triangles are those, who share two vertices. Function resizes
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* the list and deletes the pointer to neighbour. It receives two arguments of
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* ts_triangle type. It then removes eachother form eachother's list. Upon
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* success it returns TS_SUCCESS, upon failure to find the triangle in the
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* neighbour list returns TS_FAIL and it FATALY ends when the datastructure
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* cannot be resized.
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*
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* WARNING: The function doesn't check whether the pointer is NULL or invalid. It is the
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* job of programmer to make sure the pointer is valid.
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*
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* WARNING: Function is slow. Do not use it often!
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*
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* Example of usage:
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* triangle_remove_neighbour(tlist->tria[3], tlist->tria[4]);
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*
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* Triangles 3 and 4 are not neighbours anymore.
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*
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*/
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ts_bool triangle_remove_neighbour(ts_triangle *tria, ts_triangle *ntria){
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ts_uint i,j=0;
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if(tria==NULL || ntria==NULL) return TS_FAIL;
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for(i=0;i<tria->neigh_no;i++){
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if(tria->neigh[i]!=ntria){
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tria->neigh[j]=tria->neigh[i];
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j++;
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}
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}
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if(j==i) {
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return TS_FAIL;
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//fatal("In triangle_remove_neighbour: Specified neighbour does not exist for given triangle",3);
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}
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tria->neigh_no--;
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// fprintf(stderr,"*** tria_number=%d\n",tria->neigh_no);
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tria->neigh=(ts_triangle **)realloc(tria->neigh,tria->neigh_no*sizeof(ts_triangle *));
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if(tria->neigh == NULL){
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fprintf(stderr,"Ooops: tria->neigh_no=%d\n",tria->neigh_no);
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fatal("Reallocation of memory failed during removal of vertex neighbour in triangle_remove_neighbour",100);
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}
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/* we repeat the procedure for neighbour */
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j=0;
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for(i=0;i<ntria->neigh_no;i++){
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if(ntria->neigh[i]!=tria){
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ntria->neigh[j]=ntria->neigh[i];
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j++;
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}
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}
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if(j==i) {
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return TS_FAIL;
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//fatal("In triangle_remove_neighbour: Specified neighbour does not exist for given triangle",3);
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}
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ntria->neigh_no--;
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// fprintf(stderr,"*** ntria_number=%d\n",ntria->neigh_no);
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ntria->neigh=(ts_triangle **)realloc(ntria->neigh,ntria->neigh_no*sizeof(ts_triangle *));
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if(ntria->neigh == NULL){
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fprintf(stderr,"Ooops: ntria->neigh_no=%d\n",ntria->neigh_no);
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fatal("Reallocation of memory failed during removal of vertex neighbour in triangle_remove_neighbour",100);
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}
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return TS_SUCCESS;
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}
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/** @brief Calculates normal vector of the triangle.
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*
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* Calculate normal vector of the triangle (xnorm, ynorm and znorm) and stores
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* information in underlying ts_triangle_data data_structure.
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*
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* Function receives one argument of type ts_triangle. It should be corectly
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* initialized with underlying data structure of type ts_triangle_data. the
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* result is stored in triangle->data->xnorm, triangle->data->ynorm,
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* triangle->data->znorm. Returns TS_SUCCESS on completion.
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*
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* NOTE: Function uses math.h library. pow function implementation is selected
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* accordind to the setting in genreal.h
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*
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* Example of usage:
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* triangle_normal_vector(tlist->tria[3]);
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*
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* Computes normals and stores information into tlist->tria[3]->xnorm,
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* tlist->tria[3]->ynorm, tlist->tria[3]->znorm.
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*
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*/
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ts_bool triangle_normal_vector(ts_triangle *tria){
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ts_double x21,x31,y21,y31,z21,z31,xden;
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x21=tria->vertex[1]->x - tria->vertex[0]->x;
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x31=tria->vertex[2]->x - tria->vertex[0]->x;
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y21=tria->vertex[1]->y - tria->vertex[0]->y;
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y31=tria->vertex[2]->y - tria->vertex[0]->y;
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z21=tria->vertex[1]->z - tria->vertex[0]->z;
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z31=tria->vertex[2]->z - tria->vertex[0]->z;
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tria->xnorm=y21*z31 - z21*y31;
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tria->ynorm=z21*x31 - x21*z31;
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tria->znorm=x21*y31 - y21*x31;
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xden=tria->xnorm*tria->xnorm +
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tria->ynorm*tria->ynorm +
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tria->znorm*tria->znorm;
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#ifdef TS_DOUBLE_DOUBLE
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xden=sqrt(xden);
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#endif
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#ifdef TS_DOUBLE_FLOAT
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xden=sqrtf(xden);
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#endif
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#ifdef TS_DOUBLE_LONGDOUBLE
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xden=sqrtl(xden);
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#endif
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tria->xnorm=tria->xnorm/xden;
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tria->ynorm=tria->ynorm/xden;
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tria->znorm=tria->znorm/xden;
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/* Here it is an excellent point to recalculate volume of the triangle and
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* store it into datastructure. Volume is required at least by constant volume
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* calculation of vertex move and bondflip and spherical harmonics. */
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tria->volume=(tria->vertex[0]->x+ tria->vertex[1]->x + tria->vertex[2]->x) * tria->xnorm +
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(tria->vertex[0]->y+ tria->vertex[1]->y + tria->vertex[2]->y) * tria->ynorm +
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(tria->vertex[0]->z+ tria->vertex[1]->z + tria->vertex[2]->z) * tria->znorm;
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tria->volume=-xden*tria->volume/18.0;
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/* Also, area can be calculated in each triangle */
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tria->area=xden/2;
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return TS_SUCCESS;
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}
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/** @brief Frees the memory allocated for data structure of triangle list
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* (ts_triangle_list)
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*
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* Function frees the memory of ts_triangle_list previously allocated. It
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* accepts one argument, the address of data structure. It destroys all
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* ts_triangle's in the list with underlying data (by calling
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* triangle_data_free()), and the list itself.
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*
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* Should be used eveytime the deletion of triangle list (created by
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* init_triangle_list() and altered by add_triangle() or remove_triangle()) is desired.
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*
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* WARNING: The function doesn't check whether the pointer is NULL or invalid. It is the
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* job of programmer to make sure the pointer is valid.
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*
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* WARNING: Careful when destroying triangle lists. There could be pointers to
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* that information remaining in structures like vertex_data. This pointers
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* will be rendered invalid by this operation and should not be used anymore.
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*
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* Example of usage:
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* triangle_list_free(tlist);
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*
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* Clears all the information on triangles.
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*
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*/
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ts_bool triangle_list_free(ts_triangle_list *tlist){
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ts_uint i;
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for(i=0;i<tlist->n;i++){
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if(tlist->tria[i]->neigh!=NULL) free(tlist->tria[i]->neigh);
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free(tlist->tria[i]);
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}
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free(tlist->tria);
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free(tlist);
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return TS_SUCCESS;
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}
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