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blender-archive/source/blender/editors/mask/mask_query.c
Sebastian Koenig c33a3cfd9a Mask: Use control point position when handle is selected 
This is something what comes after an experiment, which makes behavior
more desirable. Basically, for Lock-to-Selection functionality always
use control point position if any of control point itself or handles
are selected.

Initial patch from Sebastian, modification from Sergey.

Differential Revision: https://developer.blender.org/D10265
2021-02-08 11:14:34 +01:00

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/*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software Foundation,
* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* The Original Code is Copyright (C) 2012 Blender Foundation.
* All rights reserved.
*/
/** \file
* \ingroup edmask
*/
#include "MEM_guardedalloc.h"
#include "BLI_math.h"
#include "BKE_context.h"
#include "BKE_mask.h"
#include "DEG_depsgraph.h"
#include "DEG_depsgraph_query.h"
#include "DNA_mask_types.h"
#include "DNA_scene_types.h"
#include "DNA_screen_types.h"
#include "ED_clip.h"
#include "ED_image.h"
#include "ED_mask.h" /* own include */
#include "UI_view2d.h"
#include "mask_intern.h" /* own include */
/* -------------------------------------------------------------------- */
/** \name Spatial Queries
* \{ */
bool ED_mask_find_nearest_diff_point(const bContext *C,
struct Mask *mask_orig,
const float normal_co[2],
int threshold,
bool feather,
float tangent[2],
const bool use_deform,
const bool use_project,
MaskLayer **r_mask_layer,
MaskSpline **r_spline,
MaskSplinePoint **r_point,
float *r_u,
float *r_score)
{
ScrArea *area = CTX_wm_area(C);
ARegion *region = CTX_wm_region(C);
MaskLayer *point_mask_layer;
MaskSpline *point_spline;
MaskSplinePoint *point = NULL;
float dist_best_sq = FLT_MAX, co[2];
int width, height;
float u = 0.0f;
float scalex, scaley;
Depsgraph *depsgraph = CTX_data_ensure_evaluated_depsgraph(C);
Mask *mask_eval = (Mask *)DEG_get_evaluated_id(depsgraph, &mask_orig->id);
ED_mask_get_size(area, &width, &height);
ED_mask_pixelspace_factor(area, region, &scalex, &scaley);
co[0] = normal_co[0] * scalex;
co[1] = normal_co[1] * scaley;
for (MaskLayer *mask_layer_orig = mask_orig->masklayers.first,
*mask_layer_eval = mask_eval->masklayers.first;
mask_layer_orig != NULL;
mask_layer_orig = mask_layer_orig->next, mask_layer_eval = mask_layer_eval->next) {
if (mask_layer_orig->restrictflag & (MASK_RESTRICT_VIEW | MASK_RESTRICT_SELECT)) {
continue;
}
for (MaskSpline *spline_orig = mask_layer_orig->splines.first,
*spline_eval = mask_layer_eval->splines.first;
spline_orig != NULL;
spline_orig = spline_orig->next, spline_eval = spline_eval->next) {
int i;
MaskSplinePoint *cur_point_eval;
for (i = 0, cur_point_eval = use_deform ? spline_eval->points_deform : spline_eval->points;
i < spline_eval->tot_point;
i++, cur_point_eval++) {
uint tot_diff_point;
float *diff_points = BKE_mask_point_segment_diff(
spline_eval, cur_point_eval, width, height, &tot_diff_point);
if (diff_points) {
int j, tot_point;
uint tot_feather_point;
float *feather_points = NULL, *points;
if (feather) {
feather_points = BKE_mask_point_segment_feather_diff(
spline_eval, cur_point_eval, width, height, &tot_feather_point);
points = feather_points;
tot_point = tot_feather_point;
}
else {
points = diff_points;
tot_point = tot_diff_point;
}
for (j = 0; j < tot_point - 1; j++) {
float dist_sq, a[2], b[2];
a[0] = points[2 * j] * scalex;
a[1] = points[2 * j + 1] * scaley;
b[0] = points[2 * j + 2] * scalex;
b[1] = points[2 * j + 3] * scaley;
dist_sq = dist_squared_to_line_segment_v2(co, a, b);
if (dist_sq < dist_best_sq) {
if (tangent) {
sub_v2_v2v2(tangent, &diff_points[2 * j + 2], &diff_points[2 * j]);
}
point_mask_layer = mask_layer_orig;
point_spline = spline_orig;
point = use_deform ?
&spline_orig->points[(cur_point_eval - spline_eval->points_deform)] :
&spline_orig->points[(cur_point_eval - spline_eval->points)];
dist_best_sq = dist_sq;
u = (float)j / tot_point;
}
}
if (feather_points != NULL) {
MEM_freeN(feather_points);
}
MEM_freeN(diff_points);
}
}
}
}
if (point && dist_best_sq < threshold) {
if (r_mask_layer) {
*r_mask_layer = point_mask_layer;
}
if (r_spline) {
*r_spline = point_spline;
}
if (r_point) {
*r_point = point;
}
if (r_u) {
/* TODO(sergey): Projection fails in some weirdo cases.. */
if (use_project) {
u = BKE_mask_spline_project_co(point_spline, point, u, normal_co, MASK_PROJ_ANY);
}
*r_u = u;
}
if (r_score) {
*r_score = dist_best_sq;
}
return true;
}
if (r_mask_layer) {
*r_mask_layer = NULL;
}
if (r_spline) {
*r_spline = NULL;
}
if (r_point) {
*r_point = NULL;
}
return false;
}
static void mask_point_scaled_handle(const MaskSplinePoint *point,
const eMaskWhichHandle which_handle,
const float scalex,
const float scaley,
float handle[2])
{
BKE_mask_point_handle(point, which_handle, handle);
handle[0] *= scalex;
handle[1] *= scaley;
}
MaskSplinePoint *ED_mask_point_find_nearest(const bContext *C,
Mask *mask_orig,
const float normal_co[2],
const float threshold,
MaskLayer **r_mask_layer,
MaskSpline **r_spline,
eMaskWhichHandle *r_which_handle,
float *r_score)
{
ScrArea *area = CTX_wm_area(C);
ARegion *region = CTX_wm_region(C);
MaskLayer *point_mask_layer = NULL;
MaskSpline *point_spline = NULL;
MaskSplinePoint *point = NULL;
float co[2];
const float threshold_sq = threshold * threshold;
float len_sq = FLT_MAX, scalex, scaley;
eMaskWhichHandle which_handle = MASK_WHICH_HANDLE_NONE;
int width, height;
Depsgraph *depsgraph = CTX_data_ensure_evaluated_depsgraph(C);
Mask *mask_eval = (Mask *)DEG_get_evaluated_id(depsgraph, &mask_orig->id);
ED_mask_get_size(area, &width, &height);
ED_mask_pixelspace_factor(area, region, &scalex, &scaley);
co[0] = normal_co[0] * scalex;
co[1] = normal_co[1] * scaley;
for (MaskLayer *mask_layer_orig = mask_orig->masklayers.first,
*mask_layer_eval = mask_eval->masklayers.first;
mask_layer_orig != NULL;
mask_layer_orig = mask_layer_orig->next, mask_layer_eval = mask_layer_eval->next) {
if (mask_layer_orig->restrictflag & (MASK_RESTRICT_VIEW | MASK_RESTRICT_SELECT)) {
continue;
}
for (MaskSpline *spline_orig = mask_layer_orig->splines.first,
*spline_eval = mask_layer_eval->splines.first;
spline_orig != NULL;
spline_orig = spline_orig->next, spline_eval = spline_eval->next) {
MaskSplinePoint *points_array = BKE_mask_spline_point_array(spline_eval);
for (int i = 0; i < spline_orig->tot_point; i++) {
MaskSplinePoint *cur_point_orig = &spline_orig->points[i];
const MaskSplinePoint *cur_point_deform_eval = &points_array[i];
eMaskWhichHandle cur_which_handle = MASK_WHICH_HANDLE_NONE;
const BezTriple *bezt = &cur_point_deform_eval->bezt;
float cur_len_sq, vec[2];
vec[0] = bezt->vec[1][0] * scalex;
vec[1] = bezt->vec[1][1] * scaley;
cur_len_sq = len_squared_v2v2(co, vec);
if (cur_len_sq < len_sq) {
point_spline = spline_orig;
point_mask_layer = mask_layer_orig;
point = cur_point_orig;
len_sq = cur_len_sq;
which_handle = MASK_WHICH_HANDLE_NONE;
}
if (BKE_mask_point_handles_mode_get(cur_point_deform_eval) == MASK_HANDLE_MODE_STICK) {
float handle[2];
mask_point_scaled_handle(
cur_point_deform_eval, MASK_WHICH_HANDLE_STICK, scalex, scaley, handle);
cur_len_sq = len_squared_v2v2(co, handle);
cur_which_handle = MASK_WHICH_HANDLE_STICK;
}
else {
float handle_left[2], handle_right[2];
float len_left_sq, len_right_sq;
mask_point_scaled_handle(
cur_point_deform_eval, MASK_WHICH_HANDLE_LEFT, scalex, scaley, handle_left);
mask_point_scaled_handle(
cur_point_deform_eval, MASK_WHICH_HANDLE_RIGHT, scalex, scaley, handle_right);
len_left_sq = len_squared_v2v2(co, handle_left);
len_right_sq = len_squared_v2v2(co, handle_right);
if (i == 0) {
if (len_left_sq <= len_right_sq) {
if (bezt->h1 != HD_VECT) {
cur_which_handle = MASK_WHICH_HANDLE_LEFT;
cur_len_sq = len_left_sq;
}
}
else if (bezt->h2 != HD_VECT) {
cur_which_handle = MASK_WHICH_HANDLE_RIGHT;
cur_len_sq = len_right_sq;
}
}
else {
if (len_right_sq <= len_left_sq) {
if (bezt->h2 != HD_VECT) {
cur_which_handle = MASK_WHICH_HANDLE_RIGHT;
cur_len_sq = len_right_sq;
}
}
else if (bezt->h1 != HD_VECT) {
cur_which_handle = MASK_WHICH_HANDLE_LEFT;
cur_len_sq = len_left_sq;
}
}
}
if (cur_len_sq <= len_sq && cur_which_handle != MASK_WHICH_HANDLE_NONE) {
point_mask_layer = mask_layer_orig;
point_spline = spline_orig;
point = cur_point_orig;
len_sq = cur_len_sq;
which_handle = cur_which_handle;
}
}
}
}
if (len_sq < threshold_sq) {
if (r_mask_layer) {
*r_mask_layer = point_mask_layer;
}
if (r_spline) {
*r_spline = point_spline;
}
if (r_which_handle) {
*r_which_handle = which_handle;
}
if (r_score) {
*r_score = sqrtf(len_sq);
}
return point;
}
if (r_mask_layer) {
*r_mask_layer = NULL;
}
if (r_spline) {
*r_spline = NULL;
}
if (r_which_handle) {
*r_which_handle = MASK_WHICH_HANDLE_NONE;
}
return NULL;
}
bool ED_mask_feather_find_nearest(const bContext *C,
Mask *mask_orig,
const float normal_co[2],
const float threshold,
MaskLayer **r_mask_layer,
MaskSpline **r_spline,
MaskSplinePoint **r_point,
MaskSplinePointUW **r_uw,
float *r_score)
{
ScrArea *area = CTX_wm_area(C);
ARegion *region = CTX_wm_region(C);
MaskLayer *point_mask_layer = NULL;
MaskSpline *point_spline = NULL;
MaskSplinePoint *point = NULL;
MaskSplinePointUW *uw = NULL;
const float threshold_sq = threshold * threshold;
float len = FLT_MAX, co[2];
float scalex, scaley;
int width, height;
Depsgraph *depsgraph = CTX_data_ensure_evaluated_depsgraph(C);
Mask *mask_eval = (Mask *)DEG_get_evaluated_id(depsgraph, &mask_orig->id);
ED_mask_get_size(area, &width, &height);
ED_mask_pixelspace_factor(area, region, &scalex, &scaley);
co[0] = normal_co[0] * scalex;
co[1] = normal_co[1] * scaley;
for (MaskLayer *mask_layer_orig = mask_orig->masklayers.first,
*mask_layer_eval = mask_eval->masklayers.first;
mask_layer_orig != NULL;
mask_layer_orig = mask_layer_orig->next, mask_layer_eval = mask_layer_eval->next) {
for (MaskSpline *spline_orig = mask_layer_orig->splines.first,
*spline_eval = mask_layer_eval->splines.first;
spline_orig != NULL;
spline_orig = spline_orig->next, spline_eval = spline_eval->next) {
// MaskSplinePoint *points_array = BKE_mask_spline_point_array(spline);
int i, tot_feather_point;
float(*feather_points)[2], (*fp)[2];
if (mask_layer_orig->restrictflag & (MASK_RESTRICT_VIEW | MASK_RESTRICT_SELECT)) {
continue;
}
feather_points = fp = BKE_mask_spline_feather_points(spline_eval, &tot_feather_point);
for (i = 0; i < spline_orig->tot_point; i++) {
int j;
MaskSplinePoint *cur_point_orig = &spline_orig->points[i];
MaskSplinePoint *cur_point_eval = &spline_eval->points[i];
for (j = 0; j <= cur_point_eval->tot_uw; j++) {
float cur_len_sq, vec[2];
vec[0] = (*fp)[0] * scalex;
vec[1] = (*fp)[1] * scaley;
cur_len_sq = len_squared_v2v2(vec, co);
if (point == NULL || cur_len_sq < len) {
if (j == 0) {
uw = NULL;
}
else {
uw = &cur_point_orig->uw[j - 1];
}
point_mask_layer = mask_layer_orig;
point_spline = spline_orig;
point = cur_point_orig;
len = cur_len_sq;
}
fp++;
}
}
MEM_freeN(feather_points);
}
}
if (len < threshold_sq) {
if (r_mask_layer) {
*r_mask_layer = point_mask_layer;
}
if (r_spline) {
*r_spline = point_spline;
}
if (r_point) {
*r_point = point;
}
if (r_uw) {
*r_uw = uw;
}
if (r_score) {
*r_score = sqrtf(len);
}
return true;
}
if (r_mask_layer) {
*r_mask_layer = NULL;
}
if (r_spline) {
*r_spline = NULL;
}
if (r_point) {
*r_point = NULL;
}
return false;
}
/* takes event->mval */
void ED_mask_mouse_pos(ScrArea *area, ARegion *region, const int mval[2], float co[2])
{
if (area) {
switch (area->spacetype) {
case SPACE_CLIP: {
SpaceClip *sc = area->spacedata.first;
ED_clip_mouse_pos(sc, region, mval, co);
BKE_mask_coord_from_movieclip(sc->clip, &sc->user, co, co);
break;
}
case SPACE_SEQ: {
UI_view2d_region_to_view(&region->v2d, mval[0], mval[1], &co[0], &co[1]);
break;
}
case SPACE_IMAGE: {
SpaceImage *sima = area->spacedata.first;
ED_image_mouse_pos(sima, region, mval, co);
BKE_mask_coord_from_image(sima->image, &sima->iuser, co, co);
break;
}
default:
/* possible other spaces from which mask editing is available */
BLI_assert(0);
zero_v2(co);
break;
}
}
else {
BLI_assert(0);
zero_v2(co);
}
}
/* input: x/y - mval space
* output: xr/yr - mask point space */
void ED_mask_point_pos(ScrArea *area, ARegion *region, float x, float y, float *xr, float *yr)
{
float co[2];
if (area) {
switch (area->spacetype) {
case SPACE_CLIP: {
SpaceClip *sc = area->spacedata.first;
ED_clip_point_stable_pos(sc, region, x, y, &co[0], &co[1]);
BKE_mask_coord_from_movieclip(sc->clip, &sc->user, co, co);
break;
}
case SPACE_SEQ:
zero_v2(co); /* MASKTODO */
break;
case SPACE_IMAGE: {
SpaceImage *sima = area->spacedata.first;
ED_image_point_pos(sima, region, x, y, &co[0], &co[1]);
BKE_mask_coord_from_image(sima->image, &sima->iuser, co, co);
break;
}
default:
/* possible other spaces from which mask editing is available */
BLI_assert(0);
zero_v2(co);
break;
}
}
else {
BLI_assert(0);
zero_v2(co);
}
*xr = co[0];
*yr = co[1];
}
void ED_mask_point_pos__reverse(
ScrArea *area, ARegion *region, float x, float y, float *xr, float *yr)
{
float co[2];
if (area) {
switch (area->spacetype) {
case SPACE_CLIP: {
SpaceClip *sc = area->spacedata.first;
co[0] = x;
co[1] = y;
BKE_mask_coord_to_movieclip(sc->clip, &sc->user, co, co);
ED_clip_point_stable_pos__reverse(sc, region, co, co);
break;
}
case SPACE_SEQ:
zero_v2(co); /* MASKTODO */
break;
case SPACE_IMAGE: {
SpaceImage *sima = area->spacedata.first;
co[0] = x;
co[1] = y;
BKE_mask_coord_to_image(sima->image, &sima->iuser, co, co);
ED_image_point_pos__reverse(sima, region, co, co);
break;
}
default:
/* possible other spaces from which mask editing is available */
BLI_assert(0);
zero_v2(co);
break;
}
}
else {
BLI_assert(0);
zero_v2(co);
}
*xr = co[0];
*yr = co[1];
}
static void handle_position_for_minmax(const MaskSplinePoint *point,
eMaskWhichHandle which_handle,
bool handles_as_control_point,
float r_handle[2])
{
if (handles_as_control_point) {
copy_v2_v2(r_handle, point->bezt.vec[1]);
return;
}
BKE_mask_point_handle(point, which_handle, r_handle);
}
bool ED_mask_selected_minmax(const bContext *C,
float min[2],
float max[2],
bool handles_as_control_point)
{
Depsgraph *depsgraph = CTX_data_depsgraph_pointer(C);
Mask *mask = CTX_data_edit_mask(C);
bool ok = false;
if (mask == NULL) {
return ok;
}
/* Use evaluated mask to take animation into account.
* The animation of splies is not "flushed" back to original, so need to explicitly
* sue evaluated datablock here. */
Mask *mask_eval = (Mask *)DEG_get_evaluated_id(depsgraph, &mask->id);
INIT_MINMAX2(min, max);
for (MaskLayer *mask_layer = mask_eval->masklayers.first; mask_layer != NULL;
mask_layer = mask_layer->next) {
if (mask_layer->restrictflag & (MASK_RESTRICT_VIEW | MASK_RESTRICT_SELECT)) {
continue;
}
for (MaskSpline *spline = mask_layer->splines.first; spline != NULL; spline = spline->next) {
MaskSplinePoint *points_array = BKE_mask_spline_point_array(spline);
for (int i = 0; i < spline->tot_point; i++) {
const MaskSplinePoint *point = &spline->points[i];
const MaskSplinePoint *deform_point = &points_array[i];
const BezTriple *bezt = &point->bezt;
float handle[2];
if (!MASKPOINT_ISSEL_ANY(point)) {
continue;
}
if (bezt->f2 & SELECT) {
minmax_v2v2_v2(min, max, deform_point->bezt.vec[1]);
ok = true;
}
if (BKE_mask_point_handles_mode_get(point) == MASK_HANDLE_MODE_STICK) {
handle_position_for_minmax(
deform_point, MASK_WHICH_HANDLE_STICK, handles_as_control_point, handle);
minmax_v2v2_v2(min, max, handle);
ok = true;
}
else {
if ((bezt->f1 & SELECT) && (bezt->h1 != HD_VECT)) {
handle_position_for_minmax(
deform_point, MASK_WHICH_HANDLE_LEFT, handles_as_control_point, handle);
minmax_v2v2_v2(min, max, handle);
ok = true;
}
if ((bezt->f3 & SELECT) && (bezt->h2 != HD_VECT)) {
handle_position_for_minmax(
deform_point, MASK_WHICH_HANDLE_RIGHT, handles_as_control_point, handle);
minmax_v2v2_v2(min, max, handle);
ok = true;
}
}
}
}
}
return ok;
}
/** \} */
/* -------------------------------------------------------------------- */
/** \name Generic 2D View Queries
* \{ */
void ED_mask_get_size(ScrArea *area, int *width, int *height)
{
if (area && area->spacedata.first) {
switch (area->spacetype) {
case SPACE_CLIP: {
SpaceClip *sc = area->spacedata.first;
ED_space_clip_get_size(sc, width, height);
break;
}
case SPACE_SEQ: {
// Scene *scene = CTX_data_scene(C);
// *width = (scene->r.size * scene->r.xsch) / 100;
// *height = (scene->r.size * scene->r.ysch) / 100;
break;
}
case SPACE_IMAGE: {
SpaceImage *sima = area->spacedata.first;
ED_space_image_get_size(sima, width, height);
break;
}
default:
/* possible other spaces from which mask editing is available */
BLI_assert(0);
*width = 0;
*height = 0;
break;
}
}
else {
BLI_assert(0);
*width = 0;
*height = 0;
}
}
void ED_mask_zoom(ScrArea *area, ARegion *region, float *zoomx, float *zoomy)
{
if (area && area->spacedata.first) {
switch (area->spacetype) {
case SPACE_CLIP: {
SpaceClip *sc = area->spacedata.first;
ED_space_clip_get_zoom(sc, region, zoomx, zoomy);
break;
}
case SPACE_SEQ: {
*zoomx = *zoomy = 1.0f;
break;
}
case SPACE_IMAGE: {
SpaceImage *sima = area->spacedata.first;
ED_space_image_get_zoom(sima, region, zoomx, zoomy);
break;
}
default:
/* possible other spaces from which mask editing is available */
BLI_assert(0);
*zoomx = *zoomy = 1.0f;
break;
}
}
else {
BLI_assert(0);
*zoomx = *zoomy = 1.0f;
}
}
void ED_mask_get_aspect(ScrArea *area, ARegion *UNUSED(region), float *aspx, float *aspy)
{
if (area && area->spacedata.first) {
switch (area->spacetype) {
case SPACE_CLIP: {
SpaceClip *sc = area->spacedata.first;
ED_space_clip_get_aspect(sc, aspx, aspy);
break;
}
case SPACE_SEQ: {
*aspx = *aspy = 1.0f; /* MASKTODO - render aspect? */
break;
}
case SPACE_IMAGE: {
SpaceImage *sima = area->spacedata.first;
ED_space_image_get_aspect(sima, aspx, aspy);
break;
}
default:
/* possible other spaces from which mask editing is available */
BLI_assert(0);
*aspx = *aspy = 1.0f;
break;
}
}
else {
BLI_assert(0);
*aspx = *aspy = 1.0f;
}
}
void ED_mask_pixelspace_factor(ScrArea *area, ARegion *region, float *scalex, float *scaley)
{
if (area && area->spacedata.first) {
switch (area->spacetype) {
case SPACE_CLIP: {
SpaceClip *sc = area->spacedata.first;
float aspx, aspy;
UI_view2d_scale_get(&region->v2d, scalex, scaley);
ED_space_clip_get_aspect(sc, &aspx, &aspy);
*scalex *= aspx;
*scaley *= aspy;
break;
}
case SPACE_SEQ: {
*scalex = *scaley = 1.0f; /* MASKTODO? */
break;
}
case SPACE_IMAGE: {
SpaceImage *sima = area->spacedata.first;
float aspx, aspy;
UI_view2d_scale_get(&region->v2d, scalex, scaley);
ED_space_image_get_aspect(sima, &aspx, &aspy);
*scalex *= aspx;
*scaley *= aspy;
break;
}
default:
/* possible other spaces from which mask editing is available */
BLI_assert(0);
*scalex = *scaley = 1.0f;
break;
}
}
else {
BLI_assert(0);
*scalex = *scaley = 1.0f;
}
}
void ED_mask_cursor_location_get(ScrArea *area, float cursor[2])
{
if (area) {
switch (area->spacetype) {
case SPACE_CLIP: {
SpaceClip *space_clip = area->spacedata.first;
copy_v2_v2(cursor, space_clip->cursor);
break;
}
case SPACE_SEQ: {
zero_v2(cursor);
break;
}
case SPACE_IMAGE: {
SpaceImage *space_image = area->spacedata.first;
copy_v2_v2(cursor, space_image->cursor);
break;
}
default:
/* possible other spaces from which mask editing is available */
BLI_assert(0);
zero_v2(cursor);
break;
}
}
else {
BLI_assert(0);
zero_v2(cursor);
}
}
/** \} */
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