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test/source/blender/blenlib/intern/scanfill_utils.c
Campbell Barton e955c94ed3 License Headers: Set copyright to "Blender Authors", add AUTHORS 
Listing the "Blender Foundation" as copyright holder implied the Blender
Foundation holds copyright to files which may include work from many
developers.

While keeping copyright on headers makes sense for isolated libraries,
Blender's own code may be refactored or moved between files in a way
that makes the per file copyright holders less meaningful.

Copyright references to the "Blender Foundation" have been replaced with
"Blender Authors", with the exception of `./extern/` since these this
contains libraries which are more isolated, any changed to license
headers there can be handled on a case-by-case basis.

Some directories in `./intern/` have also been excluded:

- `./intern/cycles/` it's own `AUTHORS` file is planned.
- `./intern/opensubdiv/`.

An "AUTHORS" file has been added, using the chromium projects authors
file as a template.

Design task: #110784

Ref !110783.
2023-08-16 00:20:26 +10:00

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/* SPDX-FileCopyrightText: 2023 Blender Authors
*
* SPDX-License-Identifier: GPL-2.0-or-later */
/** \file
* \ingroup bli
*/
#include <limits.h>
#include <math.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "MEM_guardedalloc.h"
#include "BLI_ghash.h"
#include "BLI_listbase.h"
#include "BLI_math_geom.h"
#include "BLI_math_vector.h"
#include "BLI_utildefines.h"
#include "BLI_scanfill.h" /* own include */
#include "BLI_strict_flags.h"
typedef struct PolyInfo {
ScanFillEdge *edge_first, *edge_last;
ScanFillVert *vert_outer;
} PolyInfo;
typedef struct ScanFillIsect {
struct ScanFillIsect *next, *prev;
float co[3];
/* newly created vertex */
ScanFillVert *v;
} ScanFillIsect;
#define V_ISISECT 1
#define E_ISISECT 1
#define E_ISDELETE 2
#define EFLAG_SET(eed, val) \
{ \
CHECK_TYPE(eed, ScanFillEdge *); \
(eed)->user_flag = (eed)->user_flag | (uint)val; \
} \
(void)0
#if 0
# define EFLAG_CLEAR(eed, val) \
{ \
CHECK_TYPE(eed, ScanFillEdge *); \
(eed)->user_flag = (eed)->user_flag & ~(uint)val; \
} \
(void)0
#endif
#define VFLAG_SET(eve, val) \
{ \
CHECK_TYPE(eve, ScanFillVert *); \
(eve)->user_flag = (eve)->user_flag | (uint)val; \
} \
(void)0
#if 0
# define VFLAG_CLEAR(eve, val) \
{ \
CHECK_TYPE(eve, ScanFillVert *); \
(eve)->user_flags = (eve)->user_flag & ~(uint)val; \
} \
(void)0
#endif
#if 0
void BLI_scanfill_obj_dump(ScanFillContext *sf_ctx)
{
FILE *f = fopen("test.obj", "w");
uint i = 1;
ScanFillVert *eve;
ScanFillEdge *eed;
for (eve = sf_ctx->fillvertbase.first; eve; eve = eve->next, i++) {
fprintf(f, "v %f %f %f\n", UNPACK3(eve->co));
eve->keyindex = i;
}
for (eed = sf_ctx->filledgebase.first; eed; eed = eed->next) {
fprintf(f, "f %d %d\n", eed->v1->keyindex, eed->v2->keyindex);
}
fclose(f);
}
#endif
static ListBase *edge_isect_ls_ensure(GHash *isect_hash, ScanFillEdge *eed)
{
ListBase *e_ls;
void **val_p;
if (!BLI_ghash_ensure_p(isect_hash, eed, &val_p)) {
*val_p = MEM_callocN(sizeof(ListBase), __func__);
}
e_ls = *val_p;
return e_ls;
}
static ListBase *edge_isect_ls_add(GHash *isect_hash, ScanFillEdge *eed, ScanFillIsect *isect)
{
ListBase *e_ls;
LinkData *isect_link;
e_ls = edge_isect_ls_ensure(isect_hash, eed);
isect_link = MEM_callocN(sizeof(*isect_link), __func__);
isect_link->data = isect;
EFLAG_SET(eed, E_ISISECT);
BLI_addtail(e_ls, isect_link);
return e_ls;
}
static int edge_isect_ls_sort_cb(void *thunk, const void *def_a_ptr, const void *def_b_ptr)
{
const float *co = thunk;
const ScanFillIsect *i_a = ((const LinkData *)def_a_ptr)->data;
const ScanFillIsect *i_b = ((const LinkData *)def_b_ptr)->data;
const float a = len_squared_v2v2(co, i_a->co);
const float b = len_squared_v2v2(co, i_b->co);
if (a > b) {
return -1;
}
return (a < b);
}
static ScanFillEdge *edge_step(PolyInfo *poly_info,
const ushort poly_nr,
ScanFillVert *v_prev,
ScanFillVert *v_curr,
ScanFillEdge *e_curr)
{
ScanFillEdge *eed;
BLI_assert(ELEM(v_prev, e_curr->v1, e_curr->v2));
BLI_assert(ELEM(v_curr, e_curr->v1, e_curr->v2));
eed = (e_curr->next && e_curr != poly_info[poly_nr].edge_last) ? e_curr->next :
poly_info[poly_nr].edge_first;
if (ELEM(v_curr, eed->v1, eed->v2) == true && ELEM(v_prev, eed->v1, eed->v2) == false) {
return eed;
}
eed = (e_curr->prev && e_curr != poly_info[poly_nr].edge_first) ? e_curr->prev :
poly_info[poly_nr].edge_last;
if (ELEM(v_curr, eed->v1, eed->v2) == true && ELEM(v_prev, eed->v1, eed->v2) == false) {
return eed;
}
BLI_assert(0);
return NULL;
}
static bool scanfill_preprocess_self_isect(ScanFillContext *sf_ctx,
PolyInfo *poly_info,
const ushort poly_nr,
ListBase *filledgebase)
{
PolyInfo *pi = &poly_info[poly_nr];
GHash *isect_hash = NULL;
ListBase isect_lb = {NULL};
/* warning, O(n2) check here, should use spatial lookup */
{
ScanFillEdge *eed;
for (eed = pi->edge_first; eed; eed = (eed == pi->edge_last) ? NULL : eed->next) {
ScanFillEdge *eed_other;
for (eed_other = eed->next; eed_other;
eed_other = (eed_other == pi->edge_last) ? NULL : eed_other->next)
{
if (!ELEM(eed->v1, eed_other->v1, eed_other->v2) &&
!ELEM(eed->v2, eed_other->v1, eed_other->v2) && (eed != eed_other))
{
/* check isect */
float pt[2];
BLI_assert(eed != eed_other);
if (isect_seg_seg_v2_point(
eed->v1->co, eed->v2->co, eed_other->v1->co, eed_other->v2->co, pt) == 1)
{
ScanFillIsect *isect;
if (UNLIKELY(isect_hash == NULL)) {
isect_hash = BLI_ghash_ptr_new(__func__);
}
isect = MEM_mallocN(sizeof(ScanFillIsect), __func__);
BLI_addtail(&isect_lb, isect);
copy_v2_v2(isect->co, pt);
isect->co[2] = eed->v1->co[2];
isect->v = BLI_scanfill_vert_add(sf_ctx, isect->co);
/* NOTE: vert may belong to 2 polys now */
isect->v->poly_nr = eed->v1->poly_nr;
VFLAG_SET(isect->v, V_ISISECT);
edge_isect_ls_add(isect_hash, eed, isect);
edge_isect_ls_add(isect_hash, eed_other, isect);
}
}
}
}
}
if (isect_hash == NULL) {
return false;
}
/* now subdiv the edges */
{
ScanFillEdge *eed;
for (eed = pi->edge_first; eed; eed = (eed == pi->edge_last) ? NULL : eed->next) {
if (eed->user_flag & E_ISISECT) {
ListBase *e_ls = BLI_ghash_lookup(isect_hash, eed);
LinkData *isect_link;
if (UNLIKELY(e_ls == NULL)) {
/* only happens in very rare cases (entirely overlapping splines).
* in this case we can't do much useful. but at least don't crash */
continue;
}
/* Maintain correct terminating edge. */
if (pi->edge_last == eed) {
pi->edge_last = NULL;
}
if (BLI_listbase_is_single(e_ls) == false) {
BLI_listbase_sort_r(e_ls, edge_isect_ls_sort_cb, eed->v2->co);
}
/* move original edge to filledgebase and add replacement
* (which gets subdivided next) */
{
ScanFillEdge *eed_tmp;
eed_tmp = BLI_scanfill_edge_add(sf_ctx, eed->v1, eed->v2);
BLI_remlink(&sf_ctx->filledgebase, eed_tmp);
BLI_insertlinkafter(&sf_ctx->filledgebase, eed, eed_tmp);
BLI_remlink(&sf_ctx->filledgebase, eed);
BLI_addtail(filledgebase, eed);
if (pi->edge_first == eed) {
pi->edge_first = eed_tmp;
}
eed = eed_tmp;
}
for (isect_link = e_ls->first; isect_link; isect_link = isect_link->next) {
ScanFillIsect *isect = isect_link->data;
ScanFillEdge *eed_subd;
eed_subd = BLI_scanfill_edge_add(sf_ctx, isect->v, eed->v2);
eed_subd->poly_nr = poly_nr;
eed->v2 = isect->v;
BLI_remlink(&sf_ctx->filledgebase, eed_subd);
BLI_insertlinkafter(&sf_ctx->filledgebase, eed, eed_subd);
/* step to the next edge and continue dividing */
eed = eed_subd;
}
BLI_freelistN(e_ls);
MEM_freeN(e_ls);
if (pi->edge_last == NULL) {
pi->edge_last = eed;
}
}
}
}
BLI_freelistN(&isect_lb);
BLI_ghash_free(isect_hash, NULL, NULL);
{
ScanFillEdge *e_init;
ScanFillEdge *e_curr;
ScanFillEdge *e_next;
ScanFillVert *v_prev;
ScanFillVert *v_curr;
bool inside = false;
/* first vert */
#if 0
e_init = pi->edge_last;
e_curr = e_init;
e_next = pi->edge_first;
v_prev = e_curr->v1;
v_curr = e_curr->v2;
#else
/* find outside vertex */
{
ScanFillEdge *eed;
ScanFillEdge *eed_prev;
float min_x = FLT_MAX;
e_curr = pi->edge_last;
e_next = pi->edge_first;
eed_prev = pi->edge_last;
for (eed = pi->edge_first; eed; eed = (eed == pi->edge_last) ? NULL : eed->next) {
if (eed->v2->co[0] < min_x) {
min_x = eed->v2->co[0];
e_curr = eed_prev;
e_next = eed;
}
eed_prev = eed;
}
e_init = e_curr;
v_prev = e_curr->v1;
v_curr = e_curr->v2;
}
#endif
BLI_assert(e_curr->poly_nr == poly_nr);
BLI_assert(pi->edge_last->poly_nr == poly_nr);
do {
ScanFillVert *v_next;
v_next = (e_next->v1 == v_curr) ? e_next->v2 : e_next->v1;
BLI_assert(ELEM(v_curr, e_next->v1, e_next->v2));
/* track intersections */
if (inside) {
EFLAG_SET(e_next, E_ISDELETE);
}
if (v_next->user_flag & V_ISISECT) {
inside = !inside;
}
/* now step... */
v_prev = v_curr;
v_curr = v_next;
e_curr = e_next;
e_next = edge_step(poly_info, poly_nr, v_prev, v_curr, e_curr);
} while (e_curr != e_init);
}
return true;
}
bool BLI_scanfill_calc_self_isect(ScanFillContext *sf_ctx,
ListBase *remvertbase,
ListBase *remedgebase)
{
const uint poly_num = (uint)sf_ctx->poly_nr + 1;
uint eed_index = 0;
bool changed = false;
PolyInfo *poly_info;
if (UNLIKELY(sf_ctx->poly_nr == SF_POLY_UNSET)) {
return false;
}
poly_info = MEM_callocN(sizeof(*poly_info) * poly_num, __func__);
/* get the polygon span */
if (sf_ctx->poly_nr == 0) {
poly_info->edge_first = sf_ctx->filledgebase.first;
poly_info->edge_last = sf_ctx->filledgebase.last;
}
else {
ushort poly_nr;
ScanFillEdge *eed;
poly_nr = 0;
for (eed = sf_ctx->filledgebase.first; eed; eed = eed->next, eed_index++) {
BLI_assert(eed->poly_nr == eed->v1->poly_nr);
BLI_assert(eed->poly_nr == eed->v2->poly_nr);
if ((poly_info[poly_nr].edge_last != NULL) &&
(poly_info[poly_nr].edge_last->poly_nr != eed->poly_nr))
{
poly_nr++;
}
if (poly_info[poly_nr].edge_first == NULL) {
poly_info[poly_nr].edge_first = eed;
poly_info[poly_nr].edge_last = eed;
}
else if (poly_info[poly_nr].edge_last->poly_nr == eed->poly_nr) {
poly_info[poly_nr].edge_last = eed;
}
BLI_assert(poly_info[poly_nr].edge_first->poly_nr == poly_info[poly_nr].edge_last->poly_nr);
}
}
/* self-intersect each polygon */
{
ushort poly_nr;
for (poly_nr = 0; poly_nr < poly_num; poly_nr++) {
changed |= scanfill_preprocess_self_isect(sf_ctx, poly_info, poly_nr, remedgebase);
}
}
MEM_freeN(poly_info);
if (changed == false) {
return false;
}
/* move free edges into own list */
{
ScanFillEdge *eed;
ScanFillEdge *eed_next;
for (eed = sf_ctx->filledgebase.first; eed; eed = eed_next) {
eed_next = eed->next;
if (eed->user_flag & E_ISDELETE) {
BLI_remlink(&sf_ctx->filledgebase, eed);
BLI_addtail(remedgebase, eed);
}
}
}
/* move free vertices into own list */
{
ScanFillEdge *eed;
ScanFillVert *eve;
ScanFillVert *eve_next;
for (eve = sf_ctx->fillvertbase.first; eve; eve = eve->next) {
eve->user_flag = 0;
eve->poly_nr = SF_POLY_UNSET;
}
for (eed = sf_ctx->filledgebase.first; eed; eed = eed->next) {
eed->v1->user_flag = 1;
eed->v2->user_flag = 1;
eed->poly_nr = SF_POLY_UNSET;
}
for (eve = sf_ctx->fillvertbase.first; eve; eve = eve_next) {
eve_next = eve->next;
if (eve->user_flag != 1) {
BLI_remlink(&sf_ctx->fillvertbase, eve);
BLI_addtail(remvertbase, eve);
}
else {
eve->user_flag = 0;
}
}
}
/* polygon id's are no longer meaningful,
* when removing self intersections we may have created new isolated polys */
sf_ctx->poly_nr = SF_POLY_UNSET;
#if 0
BLI_scanfill_view3d_dump(sf_ctx);
BLI_scanfill_obj_dump(sf_ctx);
#endif
return changed;
}
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