WIP: un premier succès (fragile) pour 'erase_arrow()' (voir le cas liste vide)

src/graphics/graphics.c

@@ -47,6 +47,11 @@ static volatile int buffer_lines_size = 0;
 static volatile int buffer_colors_size = 0;
 static volatile int buffer_plans_size = 0;
 
+static volatile int buffer_vertex_0_arrow = 0;
+static volatile int buffer_lines_0_arrow = 0;
+static volatile int buffer_colors_0_arrow = 0;
+static volatile int buffer_plans_0_arrow = 0;
+
 #define TEST 0
 
 /*
@@ -593,7 +598,7 @@ static inline int create_arrow (int arrows_nb,
 
     arrows_nb ++;
 
-    print_arrows_array (arrows_ptr, arrows_nb, 1);
+    if (0) print_arrows_array (arrows_ptr, arrows_nb, 1);
 
     return arrows_nb;
 }
@@ -605,22 +610,38 @@ static inline int erase_arrow (int arrows_nb, int address, int site, int x, int
 {
     arrows_nb --;
 
-    if (1)
+    arrows_ptr[address].load = arrows_ptr[arrows_nb].load;
-    {
+    arrows_ptr[address].site = arrows_ptr[arrows_nb].site;
-        arrows_ptr[address].load = arrows_ptr[arrows_nb].load;
+    arrows_ptr[address].x = arrows_ptr[arrows_nb].x;
-        arrows_ptr[address].site = arrows_ptr[arrows_nb].site;
+    arrows_ptr[address].y = arrows_ptr[arrows_nb].y;
-        arrows_ptr[address].x = arrows_ptr[arrows_nb].x;
+    arrows_ptr[address].z = arrows_ptr[arrows_nb].z;
-        arrows_ptr[address].y = arrows_ptr[arrows_nb].y;
+
-        arrows_ptr[address].z = arrows_ptr[arrows_nb].z;
+    for (int i = 0 + address; i < 6 + address; i++)
-    }
+    buffer_vertex_origin [(long) buffer_vertex_0_arrow + i] = buffer_vertex_origin[(long) buffer_vertex_size - 6 + i];
+
+    for (int j = 0 + address; j < 4 + address; j++)
+    buffer_lines_origin [(long) buffer_lines_0_arrow + j] = buffer_lines_origin[(long) buffer_lines_size - 4 + j];
 
     if (arrows_nb > 0) {
-        void *newptr = g_realloc(arrows_ptr, arrows_nb * sizeof(struct arrow_t));
 
-        if (newptr)
+        void *new_arrows_list_ptr = g_realloc(arrows_ptr, arrows_nb * sizeof(struct arrow_t));
-            arrows_ptr = newptr;
+        if (new_arrows_list_ptr) arrows_ptr = new_arrows_list_ptr;
-        else
+        else                     perror("In erase arrow, can't re_allocate for arrow list.\n");
-            perror("In erase arrow, can't allocate new arrow buffer !\n");
+
+        /* long unit = 24 * 3 * sizeof(GLfloat);  //  4 * 3 * 4 = 48   sizeof(GLfloat) = 3 * 8 bits */
+        /* printf(" - erase_arrow() invoked with address = %d    buffer_vertex_size - buffer_vertex_0_arrow = %d  (for %d arrows)\n",\ */
+        /*        address, (long) buffer_vertex_size - buffer_vertex_0_arrow, arrows_nb + 1); */
+        /* for (int i = 24; i < 36; i ++) printf(" %5.2f", buffer_vertex_origin[i]); printf("\n"); */
+
+        if (0) printf("buffer_vertex_0_arrow = %d   arrows_nb * 3 = %d     <<<<\n", buffer_vertex_0_arrow, arrows_nb * 3);
+        void *new_arrows_vertex_ptr = g_realloc(buffer_vertex_origin, buffer_vertex_0_arrow + 9 * 3 * sizeof(GLfloat));
+        if (new_arrows_vertex_ptr) buffer_vertex_origin = new_arrows_vertex_ptr;
+        else                       perror("In erase arrow, can't re_allocate for arrow vertex buffer.\n");
+
+        if (0) printf("buffer_lines_0_arrow = %d   arrows_nb * 2 = %d     <<<<\n", buffer_lines_0_arrow, arrows_nb * 2);
+        void *new_arrows_lines_ptr = g_realloc(buffer_lines_origin, buffer_lines_0_arrow + 9 * 2 * sizeof(GLfloat));
+        if (new_arrows_lines_ptr) buffer_lines_origin = new_arrows_lines_ptr;
+        else                       perror("In erase arrow, can't re_allocate for arrow lines buffer.\n");
     }
 
     print_arrows_array (arrows_ptr, arrows_nb,0);
@@ -658,7 +679,7 @@ static inline int set_arrow (struct arrow_t *arrows_ptr, int arrows_nb,
         }
     }
 }
-    //printf("\n[%d]set_arrow() invoked with requested weight = %2d  +  ", arrows_nb, requested_weight);
+    if (requested_weight == 0) printf(" - set_arrow()   invoked with requested weight = %2d\n", requested_weight);
 
     if (TEST) show_user_action(arrows_ptr, arrows_nb, address, requested_weight, current_weight, site, x, y, z);
 
@@ -698,9 +719,9 @@ void  __attribute__((optimize("no-unroll-loops"))) main_test_graphics (void)
     void srand(unsigned int seed);  //    printf ("Valeur max : %d\n", RAND_MAX);   min + rand() % (max+1 - min);
 
     int arbitrary = 5;
-    int space_X = 1 + rand() % arbitrary,
+    int space_X = 1,// + rand() % arbitrary,
-        space_Y = 1 + rand() % arbitrary,
+        space_Y = 1,// + rand() % arbitrary,
-        space_Z = 1 + rand() % arbitrary;
+        space_Z = 1;// + rand() % arbitrary;
     int density_max = space_X * space_Y * space_Z;
     int max = fmax(space_X, space_Y); max = fmax(max, space_Z);
 
@@ -713,7 +734,6 @@ void  __attribute__((optimize("no-unroll-loops"))) main_test_graphics (void)
     int print_inter_results = 0;
     if (print_inter_results) clock_gettime(CLOCK_REALTIME, &ts); t_initial = ts.tv_sec;
     if (print_inter_results) printf("%10d  | ", specif_arrows_nb / 1000);
-    printf("I N I T I A L   D A T A   A R E   N O W   S P E C I F I E D\n");
 
 
     /*--------------------------------------------------------------------------------*/
@@ -728,17 +748,17 @@ void  __attribute__((optimize("no-unroll-loops"))) main_test_graphics (void)
 
     /*   S P A C E    */
 
-    if (1) printf("buffer_vertex_size before writing  8 space_ridges_vertex : %3d (x 3 = %d)\n", buffer_vertex_size / 3, buffer_vertex_size);
+    if (0) printf("buffer_vertex_size before writing  8 space_ridges_vertex : %3d (x 3 = %d)\n", buffer_vertex_size / 3, buffer_vertex_size);
 
     write_space_ridges_vertex (buffer_vertex_size, space_X, space_Y, space_Z);
     /* buffer_colors_size = buffer_vertex_size; */
 
-    if (1) printf("buffer_vertex_size  after writing  8 space_ridges_vertex : %3d (x 3 = %d)\n", buffer_vertex_size / 3, buffer_vertex_size);
+    if (0) printf("buffer_vertex_size  after writing  8 space_ridges_vertex : %3d (x 3 = %d)\n", buffer_vertex_size / 3, buffer_vertex_size);
 
     write_grids_on_space_faces_vertex (space_X, space_Y, space_Z);
     /* buffer_colors_size = buffer_vertex_size; */
 
-    if (1) printf("buffer_vertex_size  after writing %3d space_faces_vertex : %3d (x 3 = %4d)\n\n", buffer_vertex_size / 3 - 8, buffer_vertex_size / 3, buffer_vertex_size);
+    if (0) printf("buffer_vertex_size  after writing %3d space_faces_vertex : %3d (x 3 = %4d)\n\n", buffer_vertex_size / 3 - 8, buffer_vertex_size / 3, buffer_vertex_size);
     /* if (0) printf("(space_X - 1) * 4 + (space_Y - 1) * 4 + (space_Z - 1) * 4 = %3d (x 3 = %4d)\n\n",\ */
     /*        (space_X - 1) * 4 + (space_Y - 1) * 4 + (space_Z - 1) * 4, ((space_X - 1) * 4 + (space_Y - 1) * 4 + (space_Z - 1)  * 4) * 3); */
 
@@ -776,7 +796,16 @@ void  __attribute__((optimize("no-unroll-loops"))) main_test_graphics (void)
 
     if (0) printf("buffer_lines_size before writing (n) space_faces_lines : %2d (* 2 = %2d)\n", buffer_lines_size / 2, buffer_lines_size);
     write_grids_on_space_faces_lines (buffer_lines_size, space_X, space_Y, space_Z);
-    if (1) printf("buffer_lines_size  after writing (n) space_faces_lines : %d (* 2 = %d)\n\n", buffer_lines_size / 2, buffer_lines_size);
+    if (0) printf("buffer_lines_size  after writing (n) space_faces_lines : %d (* 2 = %d)\n\n", buffer_lines_size / 2, buffer_lines_size);
+
+    /*  Ce programme définit et crée séquentiellement les caractéristiques puis les images de l'espace puis celles des flèches
+     *  Pour pouvoir effacer une flèche (n'importe laquelle),
+     *       il est nécéssaire de connaître la taille des buffers au moment de la création de la première flèche */
+
+    buffer_vertex_0_arrow = buffer_vertex_size;
+    buffer_lines_0_arrow = buffer_lines_size;
+    printf("buffer_vertex_0_arrow = %d (%d points)    buffer_lines_0_arrow = %d (%d lines)\n",\
+           buffer_vertex_0_arrow, buffer_vertex_0_arrow / 3, buffer_lines_0_arrow, buffer_lines_0_arrow / 2);
 
     /*  A R R O W S  */
 
@@ -785,32 +814,22 @@ void  __attribute__((optimize("no-unroll-loops"))) main_test_graphics (void)
     /* while (arrows_nb < specif_arrows_nb){ */
         arrows_nb = set_arrow (arrows_ptr, arrows_nb, space_X, space_Y, space_Z,
                                rand() % arbitrary + 1,  //    load / weight
-                               rand() % 6,          //    site,
+                               0,//rand() % 6,          //    site,
-                               rand() % space_X,    //    x
+                               0,//rand() % space_X,    //    x
-                               rand() % space_Y,    //    y
+                               0,//rand() % space_Y,    //    y
-                               rand() % space_Z);   //    z
+                               0);//rand() % space_Z);   //    z
 
         arrows_nb = set_arrow (arrows_ptr, arrows_nb, space_X, space_Y, space_Z,
                                rand() % arbitrary + 1,  //    load / weight
-                               rand() % 6,          //    site,
+                               1,//rand() % 6,          //    site,
-                               rand() % space_X,    //    x
+                               0,//rand() % space_X,    //    x
-                               rand() % space_Y,    //    y
+                               0,//rand() % space_Y,    //    y
-                               rand() % space_Z);   //    z
+                               0);//rand() % space_Z);   //    z
 
         /* clock_gettime(CLOCK_REALTIME, &ts);    <    Je n'arrive pas à afficher les temps en cours d'exécutuion   */
         /* if (arrows_nb % 1000 == 0) {cpt++; printf("%8d", arrows_nb / 1000); if (cpt % 22 == 0) printf("   %f\n%10d  | ", specif_arrows_nb / 1000, ts.tv_sec - t_initial);} */
         if (print_inter_results && arrows_nb % 1000 == 0) {cpt++; printf("%8d", arrows_nb / 1000); if (cpt % 24 == 0) printf("\n%10d  | ", specif_arrows_nb / 1000);}
     /* } */
-/* } */
-    /* for (int i = 0; i < arrows_nb; i++) { */
-    /*     load = arrows_ptr[i].load; */
-    /*     site = arrows_ptr[i].site; */
-    /*     x    = arrows_ptr[i].x; */
-    /*     y    = arrows_ptr[i].y; */
-    /*     z    = arrows_ptr[i].z; */
-
-    /*     buffer_vertex_size += write_one_arrow_line (buffer_vertex_size); */
-    /* } */
 
 
 
@@ -825,17 +844,17 @@ void  __attribute__((optimize("no-unroll-loops"))) main_test_graphics (void)
 
     /*--------------------------------------------------------------------------------*/
 
+    if (1) print_user_choices(arrows_ptr, arrows_nb, space_X, space_Y, space_Z, print_arrows_data, 0);
+
+    arrows_nb = set_arrow (arrows_ptr, arrows_nb, space_X, space_Y, space_Z,
+                               0,//rand() % arbitrary + 1,  //    load / weight
+                               0,//rand() % 6,          //    site,
+                               0,//rand() % space_X,    //    x
+                               0,//rand() % space_Y,    //    y
+                               0);//rand() % space_Z);   //    z
+
     print_user_choices(arrows_ptr, arrows_nb, space_X, space_Y, space_Z, print_arrows_data, 0);
 
-    /* arrows_nb = set_arrow (arrows_ptr, arrows_nb, space_X, space_Y, space_Z, */
-    /*                            0,//rand() % arbitrary + 1,  //    load / weight */
-    /*                            0,//rand() % 6,          //    site, */
-    /*                            0,//rand() % space_X,    //    x */
-    /*                            0,//rand() % space_Y,    //    y */
-    /*                            0);//rand() % space_Z);   //    z */
-
-    /* print_user_choices(arrows_ptr, arrows_nb, space_X, space_Y, space_Z, print_arrows_data, 0); */
-
     /* arrows_nb = set_arrow (arrows_ptr, arrows_nb, space_X, space_Y, space_Z, */
     /*                            0,//rand() % arbitrary + 1,  //    load / weight */
     /*                            1,//rand() % 6,          //    site, */