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use strict flags for scanfill, also replace shorts with unsigned shorts and ints/bools in some cases.

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This commit is contained in:
Campbell Barton 2013-09-01 03:37:45 +00:00
parent 9ad5f32fc0
commit 098cf90956
2 changed files with 70 additions and 64 deletions
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8
source/blender/blenlib/BLI_scanfill.h
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@ -64,7 +64,7 @@ typedef struct ScanFillVert {
float co[3]; /* vertex location */
float xy[2]; /* 2D projection of vertex location */
unsigned int keyindex; /* index, caller can use how it likes to match the scanfill result with own data */
short poly_nr;
unsigned short poly_nr;
unsigned char edge_tot; /* number of edges using this vertex */
unsigned char f;
} ScanFillVert;
@ -72,7 +72,7 @@ typedef struct ScanFillVert {
typedef struct ScanFillEdge {
struct ScanFillEdge *next, *prev;
struct ScanFillVert *v1, *v2;
short poly_nr;
unsigned short poly_nr;
unsigned char f;
union {
unsigned char c;
@ -101,8 +101,8 @@ enum {
BLI_SCANFILL_CALC_HOLES = (1 << 2)
};
void BLI_scanfill_begin(ScanFillContext *sf_ctx);
int BLI_scanfill_calc(ScanFillContext *sf_ctx, const int flag);
int BLI_scanfill_calc_ex(ScanFillContext *sf_ctx, const int flag,
unsigned int BLI_scanfill_calc(ScanFillContext *sf_ctx, const int flag);
unsigned int BLI_scanfill_calc_ex(ScanFillContext *sf_ctx, const int flag,
const float nor_proj[3]);
void BLI_scanfill_end(ScanFillContext *sf_ctx);

126
source/blender/blenlib/intern/scanfill.c
View File

@ -41,14 +41,16 @@
#include "BLI_listbase.h"
#include "BLI_math.h"
#include "BLI_memarena.h"
#include "BLI_scanfill.h"
#include "BLI_utildefines.h"
#include "BLI_strict_flags.h"
#include "BLI_scanfill.h" /* own include */
/* local types */
typedef struct PolyFill {
int edges, verts;
unsigned int edges, verts;
float min_xy[2], max_xy[2];
short f, nr;
unsigned short f, nr;
} PolyFill;
typedef struct ScanFillVertLink {
@ -152,7 +154,7 @@ static void addfillface(ScanFillContext *sf_ctx, ScanFillVert *v1, ScanFillVert
sf_tri->v3 = v3;
}
static int boundisect(PolyFill *pf2, PolyFill *pf1)
static bool boundisect(PolyFill *pf2, PolyFill *pf1)
{
/* has pf2 been touched (intersected) by pf1 ? with bounding box */
/* test first if polys exist */
@ -199,7 +201,7 @@ static void mergepolysSimp(ScanFillContext *sf_ctx, PolyFill *pf1, PolyFill *pf2
pf1->f = (pf1->f | pf2->f);
}
static short testedgeside(const float v1[2], const float v2[2], const float v3[2])
static bool testedgeside(const float v1[2], const float v2[2], const float v3[2])
/* is v3 to the right of v1-v2 ? With exception: v3 == v1 || v3 == v2 */
{
float inp;
@ -210,14 +212,14 @@ static short testedgeside(const float v1[2], const float v2[2], const float v3[2
if (inp < 0.0f) {
return 0;
}
else if (inp == 0) {
else if (inp == 0.0f) {
if (v1[0] == v3[0] && v1[1] == v3[1]) return 0;
if (v2[0] == v3[0] && v2[1] == v3[1]) return 0;
}
return 1;
}
static short addedgetoscanvert(ScanFillVertLink *sc, ScanFillEdge *eed)
static bool addedgetoscanvert(ScanFillVertLink *sc, ScanFillEdge *eed)
{
/* find first edge to the right of eed, and insert eed before that */
ScanFillEdge *ed;
@ -266,7 +268,7 @@ static short addedgetoscanvert(ScanFillVertLink *sc, ScanFillEdge *eed)
}
static ScanFillVertLink *addedgetoscanlist(ScanFillContext *sf_ctx, ScanFillEdge *eed, int len)
static ScanFillVertLink *addedgetoscanlist(ScanFillContext *sf_ctx, ScanFillEdge *eed, unsigned int len)
{
/* inserts edge at correct location in ScanFillVertLink list */
/* returns sc when edge already exists */
@ -291,13 +293,17 @@ static ScanFillVertLink *addedgetoscanlist(ScanFillContext *sf_ctx, ScanFillEdge
sc = (ScanFillVertLink *)bsearch(&scsearch, sf_ctx->_scdata, len,
sizeof(ScanFillVertLink), vergscdata);
if (sc == NULL) printf("Error in search edge: %p\n", (void *)eed);
else if (addedgetoscanvert(sc, eed) == 0) return sc;
if (UNLIKELY(sc == NULL)) {
printf("Error in search edge: %p\n", (void *)eed);
}
else if (addedgetoscanvert(sc, eed) == false) {
return sc;
}
return NULL;
}
static short boundinsideEV(ScanFillEdge *eed, ScanFillVert *eve)
static bool boundinsideEV(ScanFillEdge *eed, ScanFillVert *eve)
/* is eve inside boundbox eed */
{
float minx, maxx, miny, maxy;
@ -388,7 +394,7 @@ static void testvertexnearedge(ScanFillContext *sf_ctx)
}
}
static void splitlist(ScanFillContext *sf_ctx, ListBase *tempve, ListBase *temped, short nr)
static void splitlist(ScanFillContext *sf_ctx, ListBase *tempve, ListBase *temped, unsigned short nr)
{
/* everything is in templist, write only poly nr to fillist */
ScanFillVert *eve, *nextve;
@ -417,15 +423,14 @@ static void splitlist(ScanFillContext *sf_ctx, ListBase *tempve, ListBase *tempe
}
}
static int scanfill(ScanFillContext *sf_ctx, PolyFill *pf, const int flag)
static unsigned int scanfill(ScanFillContext *sf_ctx, PolyFill *pf, const int flag)
{
ScanFillVertLink *sc = NULL, *sc1;
ScanFillVert *eve, *v1, *v2, *v3;
ScanFillEdge *eed, *nexted, *ed1, *ed2, *ed3;
int a, b, verts, maxface, totface;
short nr, twoconnected = 0;
nr = pf->nr;
unsigned int a, b, verts, maxface, totface;
const unsigned short nr = pf->nr;
bool twoconnected = false;
/* PRINTS */
#if 0
@ -541,7 +546,8 @@ static int scanfill(ScanFillContext *sf_ctx, PolyFill *pf, const int flag)
/* STEP 2: FILL LOOP */
if (pf->f == 0) twoconnected = 1;
if (pf->f == 0)
twoconnected = true;
/* (temporal) security: never much more faces than vertices */
totface = 0;
@ -767,7 +773,7 @@ void BLI_scanfill_end_arena(ScanFillContext *sf_ctx, MemArena *arena)
sf_ctx->fillfacebase.first = sf_ctx->fillfacebase.last = NULL;
}
int BLI_scanfill_calc_ex(ScanFillContext *sf_ctx, const int flag, const float nor_proj[3])
unsigned int BLI_scanfill_calc_ex(ScanFillContext *sf_ctx, const int flag, const float nor_proj[3])
{
/*
* - fill works with its own lists, so create that first (no faces!)
@ -779,34 +785,36 @@ int BLI_scanfill_calc_ex(ScanFillContext *sf_ctx, const int flag, const float no
*/
ListBase tempve, temped;
ScanFillVert *eve;
ScanFillEdge *eed, *nexted;
ScanFillEdge *eed, *eed_next;
PolyFill *pflist, *pf;
float *min_xy_p, *max_xy_p;
short a, c, poly = 0, ok = 0, toggle = 0;
int totfaces = 0; /* total faces added */
unsigned int totverts = 0, toggle = 0;
unsigned int totfaces = 0; /* total faces added */
unsigned short a, c, poly = 0;
bool ok;
float mat_2d[3][3];
BLI_assert(!nor_proj || len_squared_v3(nor_proj) > FLT_EPSILON);
/* reset variables */
eve = sf_ctx->fillvertbase.first;
a = 0;
while (eve) {
eve->f = 0;
eve->poly_nr = 0;
eve->edge_tot = 0;
/* these values used to be set,
* however they should always be zero'd so check instead */
BLI_assert(eve->f == 0);
BLI_assert(eve->poly_nr == 0);
BLI_assert(eve->edge_tot == 0);
totverts++;
eve = eve->next;
a += 1;
}
if (flag & BLI_SCANFILL_CALC_QUADTRI_FASTPATH) {
if (a == 3) {
if (totverts == 3) {
eve = sf_ctx->fillvertbase.first;
addfillface(sf_ctx, eve, eve->next, eve->next->next);
return 1;
}
else if (a == 4) {
else if (totverts == 4) {
float vec1[3], vec2[3];
eve = sf_ctx->fillvertbase.first;
@ -831,23 +839,24 @@ int BLI_scanfill_calc_ex(ScanFillContext *sf_ctx, const int flag, const float no
/* including resetting of flags */
eed = sf_ctx->filledgebase.first;
while (eed) {
eed->poly_nr = 0;
BLI_assert(eed->poly_nr == 0);
eed->v1->f = SF_VERT_AVAILABLE;
eed->v2->f = SF_VERT_AVAILABLE;
eed = eed->next;
}
ok = false;
eve = sf_ctx->fillvertbase.first;
while (eve) {
if (eve->f & SF_VERT_AVAILABLE) {
ok = 1;
ok = true;
break;
}
eve = eve->next;
}
if (ok == 0) {
if (UNLIKELY(ok == false)) {
return 0;
}
else {
@ -893,35 +902,33 @@ int BLI_scanfill_calc_ex(ScanFillContext *sf_ctx, const int flag, const float no
if (eve->poly_nr == 0) {
poly++;
/* now a sort of select connected */
ok = 1;
ok = true;
eve->poly_nr = poly;
while (ok) {
ok = 0;
toggle++;
if (toggle & 1) eed = sf_ctx->filledgebase.first;
else eed = sf_ctx->filledgebase.last;
ok = false;
toggle++;
eed = (toggle & 1) ? sf_ctx->filledgebase.first : sf_ctx->filledgebase.last;
while (eed) {
if (eed->v1->poly_nr == 0 && eed->v2->poly_nr == poly) {
eed->v1->poly_nr = poly;
eed->poly_nr = poly;
ok = 1;
ok = true;
}
else if (eed->v2->poly_nr == 0 && eed->v1->poly_nr == poly) {
eed->v2->poly_nr = poly;
eed->poly_nr = poly;
ok = 1;
ok = true;
}
else if (eed->poly_nr == 0) {
if (eed->v1->poly_nr == poly && eed->v2->poly_nr == poly) {
eed->poly_nr = poly;
ok = 1;
ok = true;
}
}
if (toggle & 1) eed = eed->next;
else eed = eed->prev;
eed = (toggle & 1) ? eed->next : eed->prev;
}
}
}
@ -963,28 +970,27 @@ int BLI_scanfill_calc_ex(ScanFillContext *sf_ctx, const int flag, const float no
/* does it only for vertices with (->h == 1) */
testvertexnearedge(sf_ctx);
ok = 1;
ok = true;
while (ok) {
ok = 0;
ok = false;
toggle++;
if (toggle & 1) eed = sf_ctx->filledgebase.first;
else eed = sf_ctx->filledgebase.last;
eed = (toggle & 1) ? sf_ctx->filledgebase.first : sf_ctx->filledgebase.last;
while (eed) {
if (toggle & 1) nexted = eed->next;
else nexted = eed->prev;
eed_next = (toggle & 1) ? eed->next : eed->prev;
if (eed->v1->edge_tot == 1) {
eed->v2->edge_tot--;
BLI_remlink(&sf_ctx->fillvertbase, eed->v1);
BLI_remlink(&sf_ctx->filledgebase, eed);
ok = 1;
ok = true;
}
else if (eed->v2->edge_tot == 1) {
eed->v1->edge_tot--;
BLI_remlink(&sf_ctx->fillvertbase, eed->v2);
BLI_remlink(&sf_ctx->filledgebase, eed);
ok = 1;
ok = true;
}
eed = nexted;
eed = eed_next;
}
}
if (sf_ctx->filledgebase.first == NULL) {
@ -1005,12 +1011,12 @@ int BLI_scanfill_calc_ex(ScanFillContext *sf_ctx, const int flag, const float no
/* STEP 3: MAKE POLYFILL STRUCT */
pflist = (PolyFill *)MEM_callocN(poly * sizeof(PolyFill), "edgefill");
pflist = (PolyFill *)MEM_callocN((size_t)poly * sizeof(PolyFill), "edgefill");
pf = pflist;
for (a = 1; a <= poly; a++) {
pf->nr = a;
pf->min_xy[0] = pf->min_xy[1] = 1.0e20;
pf->max_xy[0] = pf->max_xy[1] = -1.0e20;
pf->min_xy[0] = pf->min_xy[1] = 1.0e20f;
pf->max_xy[0] = pf->max_xy[1] = -1.0e20f;
pf++;
}
eed = sf_ctx->filledgebase.first;
@ -1040,10 +1046,10 @@ int BLI_scanfill_calc_ex(ScanFillContext *sf_ctx, const int flag, const float no
* WATCH IT: ONLY WORKS WITH SORTED POLYS!!! */
if (poly > 1) {
short *polycache, *pc;
unsigned short *polycache, *pc;
/* so, sort first */
qsort(pflist, poly, sizeof(PolyFill), vergpoly);
qsort(pflist, (size_t)poly, sizeof(PolyFill), vergpoly);
#if 0
pf = pflist;
@ -1054,10 +1060,10 @@ int BLI_scanfill_calc_ex(ScanFillContext *sf_ctx, const int flag, const float no
}
#endif
polycache = pc = MEM_callocN(sizeof(short) * poly, "polycache");
polycache = pc = MEM_callocN(sizeof(short) * (size_t)poly, "polycache");
pf = pflist;
for (a = 0; a < poly; a++, pf++) {
for (c = a + 1; c < poly; c++) {
for (c = (unsigned short)(a + 1); c < poly; c++) {
/* if 'a' inside 'c': join (bbox too)
* Careful: 'a' can also be inside another poly.
@ -1114,7 +1120,7 @@ int BLI_scanfill_calc_ex(ScanFillContext *sf_ctx, const int flag, const float no
return totfaces;
}
int BLI_scanfill_calc(ScanFillContext *sf_ctx, const int flag)
unsigned int BLI_scanfill_calc(ScanFillContext *sf_ctx, const int flag)
{
return BLI_scanfill_calc_ex(sf_ctx, flag, NULL);
}