Added workaround into admesh stl_fix_normal_directions() function to prevent meshes to be broken by the repairing process (fixes #716, #574, #413, #269, #262, #259, #230, #228, #206)

This commit is contained in:
Enrico Turri 2018-02-15 16:10:47 +01:00
parent b5bdb46268
commit 1489b9901b
2 changed files with 35 additions and 9 deletions

View File

@ -107,6 +107,11 @@ stl_fix_normal_directions(stl_file *stl) {
struct stl_normal *newn;
struct stl_normal *temp;
int* reversed_ids;
int reversed_count = 0;
int id;
int force_exit = 0;
if (stl->error) return;
/* Initialize linked list. */
@ -121,13 +126,18 @@ stl_fix_normal_directions(stl_file *stl) {
norm_sw = (char*)calloc(stl->stats.number_of_facets, sizeof(char));
if(norm_sw == NULL) perror("stl_fix_normal_directions");
/* Initialize list that keeps track of reversed facets. */
reversed_ids = (int*)calloc(stl->stats.number_of_facets, sizeof(int));
if (reversed_ids == NULL) perror("stl_fix_normal_directions reversed_ids");
facet_num = 0;
/* If normal vector is not within tolerance and backwards:
Arbitrarily starts at face 0. If this one is wrong, we're screwed. Thankfully, the chances
of it being wrong randomly are low if most of the triangles are right: */
if(stl_check_normal_vector(stl, 0, 0) == 2)
if (stl_check_normal_vector(stl, 0, 0) == 2) {
stl_reverse_facet(stl, 0);
reversed_ids[reversed_count++] = 0;
}
/* Say that we've fixed this facet: */
norm_sw[facet_num] = 1;
@ -140,8 +150,19 @@ stl_fix_normal_directions(stl_file *stl) {
/* Reverse the neighboring facets if necessary. */
if(stl->neighbors_start[facet_num].which_vertex_not[j] > 2) {
/* If the facet has a neighbor that is -1, it means that edge isn't shared by another facet */
if(stl->neighbors_start[facet_num].neighbor[j] != -1)
if(stl->neighbors_start[facet_num].neighbor[j] != -1) {
if (norm_sw[stl->neighbors_start[facet_num].neighbor[j]] == 1) {
/* trying to modify a facet already marked as fixed, revert all changes made until now and exit (fixes: #716, #574, #413, #269, #262, #259, #230, #228, #206) */
for (id = reversed_count - 1; id >= 0; --id) {
stl_reverse_facet(stl, reversed_ids[id]);
}
force_exit = 1;
break;
} else {
stl_reverse_facet(stl, stl->neighbors_start[facet_num].neighbor[j]);
reversed_ids[reversed_count++] = stl->neighbors_start[facet_num].neighbor[j];
}
}
}
/* If this edge of the facet is connected: */
if(stl->neighbors_start[facet_num].neighbor[j] != -1) {
@ -156,6 +177,10 @@ stl_fix_normal_directions(stl_file *stl) {
}
}
}
/* an error occourred, quit the for loop and exit */
if (force_exit) break;
/* Get next facet to fix from top of list. */
if(head->next != tail) {
facet_num = head->next->facet_num;
@ -180,6 +205,7 @@ stl_fix_normal_directions(stl_file *stl) {
facet_num = i;
if(stl_check_normal_vector(stl, i, 0) == 2) {
stl_reverse_facet(stl, i);
reversed_ids[reversed_count++] = i;
}
norm_sw[facet_num] = 1;
@ -192,6 +218,7 @@ stl_fix_normal_directions(stl_file *stl) {
}
free(head);
free(tail);
free(reversed_ids);
free(norm_sw);
}

View File

@ -198,9 +198,8 @@ TriangleMesh::repair() {
stl_clear_error(&stl);
}
// commenting out the following call fixes: #574, #413, #269, #262, #259, #230, #228, #206
// // normal_directions
// stl_fix_normal_directions(&stl);
// normal_directions
stl_fix_normal_directions(&stl);
// normal_values
stl_fix_normal_values(&stl);