Commit: f2ac432467e9ba8f7d1092ae4777ba1640104abd
Author: Hans Goudey
Date: Tue Aug 4 11:43:42 2020 -0400
Branches: master
https://developer.blender.org/rBf2ac432467e9ba8f7d1092ae4777ba1640104abd
Cleanup: Bevel: Split two case for loop into separate function
Previously a for loop with two iterations was used to calculate the
3D segment locations for the input number and the higher power of 2.
Splitting off the inside of the for loop to a separate function makes
the code more readable.
This commit also includes a simple timer for bevel, enabled with a
define. Interestingly, the cleanup in this commit happended to give
a 3% speedup on a Ryzen 3700x for a bevel calculation with 64
segments.
===================================================================
M source/blender/bmesh/tools/bmesh_bevel.c
===================================================================
diff --git a/source/blender/bmesh/tools/bmesh_bevel.c
b/source/blender/bmesh/tools/bmesh_bevel.c
index 1d3dd8b0c1c..f263392bdd2 100644
--- a/source/blender/bmesh/tools/bmesh_bevel.c
+++ b/source/blender/bmesh/tools/bmesh_bevel.c
@@ -45,6 +45,11 @@
#include "./intern/bmesh_private.h"
+// #define BEVEL_DEBUG_TIME
+#ifdef BEVEL_DEBUG_TIME
+# include "PIL_time.h"
+#endif
+
#define BEVEL_EPSILON_D 1e-6
#define BEVEL_EPSILON 1e-6f
#define BEVEL_EPSILON_SQ 1e-12f
@@ -1890,6 +1895,57 @@ static void get_profile_point(BevelParams *bp, const
Profile *pro, int i, int ns
}
}
+/**
+ * Helper for #calculate_profile that builds the 3D locations for the segments
+ * and the higher power of 2 segments.
+ */
+static void calculate_profile_segments(const Profile *profile,
+ const float map[4][4],
+ const bool use_map,
+ const bool reversed,
+ const int ns,
+ const double *xvals,
+ const double *yvals,
+ float *r_prof_co)
+{
+ /* Iterate over the vertices along the boundary arc. */
+ for (int k = 0; k <= ns; k++) {
+ float co[3];
+ if (k == 0) {
+ copy_v3_v3(co, profile->start);
+ }
+ else if (k == ns) {
+ copy_v3_v3(co, profile->end);
+ }
+ else {
+ if (use_map) {
+ float p[3] = {reversed ? (float)yvals[ns - k] : (float)xvals[k],
+ reversed ? (float)xvals[ns - k] : (float)yvals[k],
+ 0.0f};
+ /* Do the 2D->3D transformation of the profile coordinates. */
+ mul_v3_m4v3(co, map, p);
+ }
+ else {
+ interp_v3_v3v3(co, profile->start, profile->end, (float)k / (float)ns);
+ }
+ }
+ /* Finish the 2D->3D transformation by projecting onto the final profile
plane. */
+ float *prof_co_k = r_prof_co + 3 * k;
+ if (!is_zero_v3(profile->proj_dir)) {
+ float co2[3];
+ add_v3_v3v3(co2, co, profile->proj_dir);
+ /* pro->plane_co and pro->plane_no are filled in #set_profile_params. */
+ if (!isect_line_plane_v3(prof_co_k, co, co2, profile->plane_co,
profile->plane_no)) {
+ /* Shouldn't happen. */
+ copy_v3_v3(prof_co_k, co);
+ }
+ }
+ else {
+ copy_v3_v3(prof_co_k, co);
+ }
+ }
+}
+
/**
* Calculate the actual coordinate values for bndv's profile.
* This is only needed if bp->seg > 1.
@@ -1900,12 +1956,6 @@ static void get_profile_point(BevelParams *bp, const
Profile *pro, int i, int ns
*/
static void calculate_profile(BevelParams *bp, BoundVert *bndv, bool reversed,
bool miter)
{
- int i, k, ns;
- const double *xvals, *yvals;
- float co[3], co2[3], p[3], map[4][4], bottom_corner[3], top_corner[3];
- float *prof_co, *prof_co_k;
- float r;
- bool need_2, map_ok;
Profile *pro = &bndv->profile;
ProfileSpacing *pro_spacing = (miter) ? &bp->pro_spacing_miter :
&bp->pro_spacing;
@@ -1913,89 +1963,51 @@ static void calculate_profile(BevelParams *bp,
BoundVert *bndv, bool reversed, b
return;
}
- need_2 = bp->seg != bp->pro_spacing.seg_2;
- if (!pro->prof_co) {
- pro->prof_co = (float *)BLI_memarena_alloc(bp->mem_arena,
- ((size_t)bp->seg + 1) * 3 *
sizeof(float));
+ bool need_2 = bp->seg != bp->pro_spacing.seg_2;
+ if (pro->prof_co == NULL) {
+ pro->prof_co = (float *)BLI_memarena_alloc(bp->mem_arena, sizeof(float) *
3 * (bp->seg + 1));
if (need_2) {
pro->prof_co_2 = (float *)BLI_memarena_alloc(
- bp->mem_arena, ((size_t)bp->pro_spacing.seg_2 + 1) * 3 *
sizeof(float));
+ bp->mem_arena, sizeof(float) * 3 * (bp->pro_spacing.seg_2 + 1));
}
else {
pro->prof_co_2 = pro->prof_co;
}
}
- r = pro->super_r;
- if (bp->profile_type == BEVEL_PROFILE_SUPERELLIPSE && r == PRO_LINE_R) {
- map_ok = false;
+
+ bool use_map;
+ float map[4][4];
+ if (bp->profile_type == BEVEL_PROFILE_SUPERELLIPSE && pro->super_r ==
PRO_LINE_R) {
+ use_map = false;
}
else {
- map_ok = make_unit_square_map(pro->start, pro->middle, pro->end, map);
+ use_map = make_unit_square_map(pro->start, pro->middle, pro->end, map);
}
- if (bp->vmesh_method == BEVEL_VMESH_CUTOFF && map_ok) {
+ if (bp->vmesh_method == BEVEL_VMESH_CUTOFF && use_map) {
/* Calculate the "height" of the profile by putting the (0,0) and (1,1)
corners of the
* un-transformed profile through the 2D->3D map and calculating the
distance between them. */
- zero_v3(p);
- mul_v3_m4v3(bottom_corner, map, p);
- p[0] = 1.0f;
- p[1] = 1.0f;
- mul_v3_m4v3(top_corner, map, p);
+ float bottom_corner[3] = {0.0f, 0.0f, 0.0f};
+ mul_v3_m4v3(bottom_corner, map, bottom_corner);
+ float top_corner[3] = {1.0f, 1.0f, 0.0f};
+ mul_v3_m4v3(top_corner, map, top_corner);
+
pro->height = len_v3v3(bottom_corner, top_corner);
}
- /* The first iteration is the nseg case, the second is the seg_2 case (if
it's needed) .*/
- for (i = 0; i < 2; i++) {
- if (i == 0) {
- ns = bp->seg;
- xvals = pro_spacing->xvals;
- yvals = pro_spacing->yvals;
- prof_co = pro->prof_co;
- }
- else {
- if (!need_2) {
- break; /* Shares coords with pro->prof_co. */
- }
- ns = bp->pro_spacing.seg_2;
- xvals = pro_spacing->xvals_2;
- yvals = pro_spacing->yvals_2;
- prof_co = pro->prof_co_2;
- }
-
- /* Iterate over the vertices along the boundary arc. */
- for (k = 0; k <= ns; k++) {
- if (k == 0) {
- copy_v3_v3(co, pro->start);
- }
- else if (k == ns) {
- copy_v3_v3(co, pro->end);
- }
- else {
- if (map_ok) {
- p[0] = reversed ? (float)yvals[ns - k] : (float)xvals[k];
- p[1] = reversed ? (float)xvals[ns - k] : (float)yvals[k];
- p[2] = 0.0f;
- /* Do the 2D->3D transformation of the profile coordinates. */
- mul_v3_m4v3(co, map, p);
- }
- else {
- interp_v3_v3v3(co, pro->start, pro->end, (float)k / (float)ns);
- }
- }
- /* Finish the 2D->3D transformation by projecting onto the final profile
plane. */
- prof_co_k = prof_co + 3 * k; /* Each coord takes up 3 spaces. */
- if (!is_zero_v3(pro->proj_dir)) {
- add_v3_v3v3(co2, co, pro->proj_dir);
- /* pro->plane_co and pro->plane_no are filled in "set_profile_params".
*/
- if (!isect_line_plane_v3(prof_co_k, co, co2, pro->plane_co,
pro->plane_no)) {
- /* Shouldn't happen. */
- copy_v3_v3(prof_co_k, co);
- }
- }
- else {
- copy_v3_v3(prof_co_k, co);
- }
- }
+ /* Calculate the 3D locations for the profile points */
+ calculate_profile_segments(
+ pro, map, use_map, reversed, bp->seg, pro_spacing->xvals,
pro_spacing->yvals, pro->prof_co);
+ /* Also calcualte for the is the seg_2 case if it's needed .*/
+ if (need_2) {
+ calculate_profile_segments(pro,
+ map,
+ use_map,
+ reversed,
+ bp->pro_spacing.seg_2,
+ pro_spacing->xvals_2,
+ pro_spacing->yvals_2,
+ pro->prof_co_2);
}
}
@@ -7489,6 +7501,10 @@ void BM_mesh_bevel(BMesh *bm,
bp.custom_profile = custom_profile;
bp.vmesh_method = vmesh_method;
+#ifdef BEVEL_DEBUG_TIME
+ double start_time = PIL_check_seconds_timer();
+#endif
+
/* Disable the miters with the cutoff vertex mesh method, the combination
isn't useful anyway. */
if (bp.vmesh_method == BEVEL_VMESH_CUTOFF) {
bp.miter_outer = BEVEL_MITER_SHARP;
@@ -7657,4 +7673,8 @@ void BM_mesh_bevel(BMesh *bm,
BLI_ghash_free(bp.face_hash, NULL, NULL);
BLI_memarena_free(bp.mem_arena);
}
+#ifdef BEVEL_DEBUG_TIME
+ double end_time = PIL_check_seconds_timer();
+ printf("BMESH BEVEL TIME = %.3f\n", end_time - start_time);
+#endif
}
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