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blender-archive/source/blender/editors/sculpt_paint/paint_stroke.c

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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) 2009 by Nicholas Bishop
* All rights reserved.
*/
/** \file
* \ingroup edsculpt
*/
#include "MEM_guardedalloc.h"
#include "BLI_listbase.h"
#include "BLI_math.h"
#include "BLI_rand.h"
#include "BLI_utildefines.h"
#include "PIL_time.h"
#include "DNA_brush_types.h"
#include "DNA_curve_types.h"
#include "DNA_object_types.h"
#include "DNA_scene_types.h"
#include "RNA_access.h"
#include "BKE_brush.h"
#include "BKE_colortools.h"
#include "BKE_context.h"
#include "BKE_curve.h"
#include "BKE_image.h"
#include "BKE_paint.h"
#include "WM_api.h"
#include "WM_types.h"
#include "GPU_immediate.h"
#include "GPU_state.h"
#include "ED_screen.h"
#include "ED_view3d.h"
#include "IMB_imbuf_types.h"
#include "paint_intern.h"
#include "sculpt_intern.h"
#include <float.h>
#include <math.h>
//#define DEBUG_TIME
#ifdef DEBUG_TIME
# include "PIL_time_utildefines.h"
#endif
typedef struct PaintSample {
float mouse[2];
float pressure;
} PaintSample;
typedef struct PaintStroke {
void *mode_data;
void *stroke_cursor;
wmTimer *timer;
struct RNG *rng;
/* Cached values */
ViewContext vc;
Brush *brush;
UnifiedPaintSettings *ups;
/* used for lines and curves */
ListBase line;
/* Paint stroke can use up to PAINT_MAX_INPUT_SAMPLES prior inputs
* to smooth the stroke */
PaintSample samples[PAINT_MAX_INPUT_SAMPLES];
int num_samples;
int cur_sample;
int tot_samples;
float last_mouse_position[2];
float last_world_space_position[3];
bool stroke_over_mesh;
/* space distance covered so far */
float stroke_distance;
/* Set whether any stroke step has yet occurred
* e.g. in sculpt mode, stroke doesn't start until cursor
* passes over the mesh */
bool stroke_started;
/* Set when enough motion was found for rake rotation */
bool rake_started;
/* event that started stroke, for modal() return */
int event_type;
/* check if stroke variables have been initialized */
bool stroke_init;
/* check if various brush mapping variables have been initialized */
bool brush_init;
float initial_mouse[2];
/* cached_pressure stores initial pressure for size pressure influence mainly */
float cached_size_pressure;
/* last pressure will store last pressure value for use in interpolation for space strokes */
float last_pressure;
int stroke_mode;
float last_tablet_event_pressure;
float zoom_2d;
int pen_flip;
/* Tilt, as read from the event. */
float x_tilt;
float y_tilt;
/* line constraint */
bool constrain_line;
float constrained_pos[2];
StrokeGetLocation get_location;
StrokeTestStart test_start;
StrokeUpdateStep update_step;
StrokeRedraw redraw;
StrokeDone done;
} PaintStroke;
/*** Cursors ***/
static void paint_draw_smooth_cursor(bContext *C, int x, int y, void *customdata)
{
Paint *paint = BKE_paint_get_active_from_context(C);
Brush *brush = BKE_paint_brush(paint);
PaintStroke *stroke = customdata;
if (stroke && brush) {
GPU_line_smooth(true);
GPU_blend(GPU_BLEND_ALPHA);
ARegion *region = stroke->vc.region;
uint pos = GPU_vertformat_attr_add(immVertexFormat(), "pos", GPU_COMP_F32, 2, GPU_FETCH_FLOAT);
immBindBuiltinProgram(GPU_SHADER_2D_UNIFORM_COLOR);
immUniformColor4ubv(paint->paint_cursor_col);
immBegin(GPU_PRIM_LINES, 2);
immVertex2f(pos, x, y);
immVertex2f(pos,
stroke->last_mouse_position[0] + region->winrct.xmin,
stroke->last_mouse_position[1] + region->winrct.ymin);
immEnd();
immUnbindProgram();
GPU_blend(GPU_BLEND_NONE);
GPU_line_smooth(false);
}
}
static void paint_draw_line_cursor(bContext *C, int x, int y, void *customdata)
{
Paint *paint = BKE_paint_get_active_from_context(C);
PaintStroke *stroke = customdata;
GPU_line_smooth(true);
uint shdr_pos = GPU_vertformat_attr_add(
immVertexFormat(), "pos", GPU_COMP_F32, 2, GPU_FETCH_FLOAT);
immBindBuiltinProgram(GPU_SHADER_2D_LINE_DASHED_UNIFORM_COLOR);
float viewport_size[4];
GPU_viewport_size_get_f(viewport_size);
immUniform2f("viewport_size", viewport_size[2], viewport_size[3]);
immUniform1i("colors_len", 2); /* "advanced" mode */
const float alpha = (float)paint->paint_cursor_col[3] / 255.0f;
immUniformArray4fv(
"colors", (float *)(float[][4]){{0.0f, 0.0f, 0.0f, alpha}, {1.0f, 1.0f, 1.0f, alpha}}, 2);
immUniform1f("dash_width", 6.0f);
immUniform1f("dash_factor", 0.5f);
immBegin(GPU_PRIM_LINES, 2);
ARegion *region = stroke->vc.region;
if (stroke->constrain_line) {
immVertex2f(shdr_pos,
stroke->last_mouse_position[0] + region->winrct.xmin,
stroke->last_mouse_position[1] + region->winrct.ymin);
immVertex2f(shdr_pos,
stroke->constrained_pos[0] + region->winrct.xmin,
stroke->constrained_pos[1] + region->winrct.ymin);
}
else {
immVertex2f(shdr_pos,
stroke->last_mouse_position[0] + region->winrct.xmin,
stroke->last_mouse_position[1] + region->winrct.ymin);
immVertex2f(shdr_pos, x, y);
}
immEnd();
immUnbindProgram();
GPU_line_smooth(false);
}
static bool paint_tool_require_location(Brush *brush, ePaintMode mode)
{
switch (mode) {
case PAINT_MODE_SCULPT:
if (ELEM(brush->sculpt_tool,
SCULPT_TOOL_GRAB,
SCULPT_TOOL_ELASTIC_DEFORM,
SCULPT_TOOL_POSE,
SCULPT_TOOL_BOUNDARY,
SCULPT_TOOL_ROTATE,
SCULPT_TOOL_SNAKE_HOOK,
SCULPT_TOOL_THUMB)) {
return false;
}
else if (SCULPT_is_cloth_deform_brush(brush)) {
return false;
}
else {
return true;
}
default:
break;
}
return true;
}
static bool paint_stroke_use_scene_spacing(Brush *brush, ePaintMode mode)
{
switch (mode) {
case PAINT_MODE_SCULPT:
return brush->flag & BRUSH_SCENE_SPACING;
default:
break;
}
return false;
}
static bool paint_tool_require_inbetween_mouse_events(Brush *brush, ePaintMode mode)
{
if (brush->flag & BRUSH_ANCHORED) {
return false;
}
switch (mode) {
case PAINT_MODE_SCULPT:
if (ELEM(brush->sculpt_tool,
SCULPT_TOOL_GRAB,
SCULPT_TOOL_ROTATE,
SCULPT_TOOL_THUMB,
SCULPT_TOOL_SNAKE_HOOK,
SCULPT_TOOL_ELASTIC_DEFORM,
SCULPT_TOOL_CLOTH,
SCULPT_TOOL_BOUNDARY,
SCULPT_TOOL_POSE)) {
return false;
}
else {
return true;
}
default:
break;
}
return true;
}
/* Initialize the stroke cache variants from operator properties */
static bool paint_brush_update(bContext *C,
Brush *brush,
ePaintMode mode,
struct PaintStroke *stroke,
const float mouse_init[2],
float mouse[2],
float pressure,
float r_location[3],
bool *r_location_is_set)
{
Scene *scene = CTX_data_scene(C);
UnifiedPaintSettings *ups = stroke->ups;
bool location_sampled = false;
bool location_success = false;
/* Use to perform all operations except applying the stroke,
* needed for operations that require cursor motion (rake). */
bool is_dry_run = false;
bool do_random = false;
bool do_random_mask = false;
*r_location_is_set = false;
/* XXX: Use pressure value from first brush step for brushes which don't
* support strokes (grab, thumb). They depends on initial state and
* brush coord/pressure/etc.
* It's more an events design issue, which doesn't split coordinate/pressure/angle
* changing events. We should avoid this after events system re-design */
if (!stroke->brush_init) {
copy_v2_v2(stroke->initial_mouse, mouse);
copy_v2_v2(ups->last_rake, mouse);
copy_v2_v2(ups->tex_mouse, mouse);
copy_v2_v2(ups->mask_tex_mouse, mouse);
stroke->cached_size_pressure = pressure;
ups->do_linear_conversion = false;
ups->colorspace = NULL;
/* check here if color sampling the main brush should do color conversion. This is done here
* to avoid locking up to get the image buffer during sampling */
if (brush->mtex.tex && brush->mtex.tex->type == TEX_IMAGE && brush->mtex.tex->ima) {
ImBuf *tex_ibuf = BKE_image_pool_acquire_ibuf(
brush->mtex.tex->ima, &brush->mtex.tex->iuser, NULL);
if (tex_ibuf && tex_ibuf->rect_float == NULL) {
ups->do_linear_conversion = true;
ups->colorspace = tex_ibuf->rect_colorspace;
}
BKE_image_pool_release_ibuf(brush->mtex.tex->ima, tex_ibuf, NULL);
}
stroke->brush_init = true;
}
if (paint_supports_dynamic_size(brush, mode)) {
copy_v2_v2(ups->tex_mouse, mouse);
copy_v2_v2(ups->mask_tex_mouse, mouse);
stroke->cached_size_pressure = pressure;
}
/* Truly temporary data that isn't stored in properties */
ups->stroke_active = true;
ups->size_pressure_value = stroke->cached_size_pressure;
ups->pixel_radius = BKE_brush_size_get(scene, brush);
ups->initial_pixel_radius = BKE_brush_size_get(scene, brush);
if (BKE_brush_use_size_pressure(brush) && paint_supports_dynamic_size(brush, mode)) {
ups->pixel_radius *= stroke->cached_size_pressure;
}
if (paint_supports_dynamic_tex_coords(brush, mode)) {
if (ELEM(brush->mtex.brush_map_mode,
MTEX_MAP_MODE_VIEW,
MTEX_MAP_MODE_AREA,
MTEX_MAP_MODE_RANDOM)) {
do_random = true;
}
if (brush->mtex.brush_map_mode == MTEX_MAP_MODE_RANDOM) {
BKE_brush_randomize_texture_coords(ups, false);
}
else {
copy_v2_v2(ups->tex_mouse, mouse);
}
/* take care of mask texture, if any */
if (brush->mask_mtex.tex) {
if (ELEM(brush->mask_mtex.brush_map_mode,
MTEX_MAP_MODE_VIEW,
MTEX_MAP_MODE_AREA,
MTEX_MAP_MODE_RANDOM)) {
do_random_mask = true;
}
if (brush->mask_mtex.brush_map_mode == MTEX_MAP_MODE_RANDOM) {
BKE_brush_randomize_texture_coords(ups, true);
}
else {
copy_v2_v2(ups->mask_tex_mouse, mouse);
}
}
}
if (brush->flag & BRUSH_ANCHORED) {
bool hit = false;
float halfway[2];
const float dx = mouse[0] - stroke->initial_mouse[0];
const float dy = mouse[1] - stroke->initial_mouse[1];
ups->anchored_size = ups->pixel_radius = sqrtf(dx * dx + dy * dy);
ups->brush_rotation = ups->brush_rotation_sec = atan2f(dx, dy) + (float)M_PI;
if (brush->flag & BRUSH_EDGE_TO_EDGE) {
halfway[0] = dx * 0.5f + stroke->initial_mouse[0];
halfway[1] = dy * 0.5f + stroke->initial_mouse[1];
if (stroke->get_location) {
if (stroke->get_location(C, r_location, halfway)) {
hit = true;
location_sampled = true;
location_success = true;
*r_location_is_set = true;
}
else if (!paint_tool_require_location(brush, mode)) {
hit = true;
}
}
else {
hit = true;
}
}
if (hit) {
copy_v2_v2(ups->anchored_initial_mouse, halfway);
copy_v2_v2(ups->tex_mouse, halfway);
copy_v2_v2(ups->mask_tex_mouse, halfway);
copy_v2_v2(mouse, halfway);
ups->anchored_size /= 2.0f;
ups->pixel_radius /= 2.0f;
stroke->stroke_distance = ups->pixel_radius;
}
else {
copy_v2_v2(ups->anchored_initial_mouse, stroke->initial_mouse);
copy_v2_v2(mouse, stroke->initial_mouse);
stroke->stroke_distance = ups->pixel_radius;
}
ups->pixel_radius /= stroke->zoom_2d;
ups->draw_anchored = true;
}
else {
/* here we are using the initial mouse coordinate because we do not want the rake
* result to depend on jittering */
if (!stroke->brush_init) {
copy_v2_v2(ups->last_rake, mouse_init);
}
/* curve strokes do their own rake calculation */
else if (!(brush->flag & BRUSH_CURVE)) {
if (!paint_calculate_rake_rotation(ups, brush, mouse_init)) {
/* Not enough motion to define an angle. */
if (!stroke->rake_started) {
is_dry_run = true;
}
}
else {
stroke->rake_started = true;
}
}
}
if ((do_random || do_random_mask) && stroke->rng == NULL) {
/* Lazy initialization. */
uint rng_seed = (uint)(PIL_check_seconds_timer_i() & UINT_MAX);
rng_seed ^= (uint)POINTER_AS_INT(brush);
stroke->rng = BLI_rng_new(rng_seed);
}
if (do_random) {
if (brush->mtex.brush_angle_mode & MTEX_ANGLE_RANDOM) {
ups->brush_rotation += -brush->mtex.random_angle / 2.0f +
brush->mtex.random_angle * BLI_rng_get_float(stroke->rng);
}
}
if (do_random_mask) {
if (brush->mask_mtex.brush_angle_mode & MTEX_ANGLE_RANDOM) {
ups->brush_rotation_sec += -brush->mask_mtex.random_angle / 2.0f +
brush->mask_mtex.random_angle * BLI_rng_get_float(stroke->rng);
}
}
if (!location_sampled) {
if (stroke->get_location) {
if (stroke->get_location(C, r_location, mouse)) {
location_success = true;
*r_location_is_set = true;
}
else if (!paint_tool_require_location(brush, mode)) {
location_success = true;
}
}
else {
zero_v3(r_location);
location_success = true;
/* don't set 'r_location_is_set', since we don't want to use the value. */
}
}
return location_success && (is_dry_run == false);
}
static bool paint_stroke_use_dash(Brush *brush)
{
/* Only these stroke modes support dash lines */
return brush->flag & BRUSH_SPACE || brush->flag & BRUSH_LINE || brush->flag & BRUSH_CURVE;
}
static bool paint_stroke_use_jitter(ePaintMode mode, Brush *brush, bool invert)
{
bool use_jitter = (brush->flag & BRUSH_ABSOLUTE_JITTER) ? (brush->jitter_absolute != 0) :
(brush->jitter != 0);
/* jitter-ed brush gives weird and unpredictable result for this
* kinds of stroke, so manually disable jitter usage (sergey) */
use_jitter &= (brush->flag & (BRUSH_DRAG_DOT | BRUSH_ANCHORED)) == 0;
use_jitter &= (!ELEM(mode, PAINT_MODE_TEXTURE_2D, PAINT_MODE_TEXTURE_3D) ||
!(invert && brush->imagepaint_tool == PAINT_TOOL_CLONE));
return use_jitter;
}
/* Put the location of the next stroke dot into the stroke RNA and apply it to the mesh */
static void paint_brush_stroke_add_step(bContext *C,
wmOperator *op,
const float mouse_in[2],
float pressure)
{
Scene *scene = CTX_data_scene(C);
Paint *paint = BKE_paint_get_active_from_context(C);
ePaintMode mode = BKE_paintmode_get_active_from_context(C);
Brush *brush = BKE_paint_brush(paint);
PaintStroke *stroke = op->customdata;
UnifiedPaintSettings *ups = stroke->ups;
float mouse_out[2];
PointerRNA itemptr;
float location[3];
/* the following code is adapted from texture paint. It may not be needed but leaving here
* just in case for reference (code in texpaint removed as part of refactoring).
* It's strange that only texpaint had these guards. */
#if 0
/* special exception here for too high pressure values on first touch in
* windows for some tablets, then we just skip first touch .. */
if (tablet && (pressure >= 0.99f) &&
((pop->s.brush->flag & BRUSH_SPACING_PRESSURE) ||
BKE_brush_use_alpha_pressure(pop->s.brush) ||
BKE_brush_use_size_pressure(pop->s.brush))) {
return;
}
/* This can be removed once fixed properly in
* BKE_brush_painter_paint(
* BrushPainter *painter, BrushFunc func,
* float *pos, double time, float pressure, void *user);
* at zero pressure we should do nothing 1/2^12 is 0.0002
* which is the sensitivity of the most sensitive pen tablet available */
if (tablet && (pressure < 0.0002f) &&
((pop->s.brush->flag & BRUSH_SPACING_PRESSURE) ||
BKE_brush_use_alpha_pressure(pop->s.brush) ||
BKE_brush_use_size_pressure(pop->s.brush))) {
return;
}
#endif
/* copy last position -before- jittering, or space fill code
* will create too many dabs */
copy_v2_v2(stroke->last_mouse_position, mouse_in);
stroke->last_pressure = pressure;
if (paint_stroke_use_scene_spacing(brush, mode)) {
SCULPT_stroke_get_location(C, stroke->last_world_space_position, stroke->last_mouse_position);
mul_m4_v3(stroke->vc.obact->obmat, stroke->last_world_space_position);
}
if (paint_stroke_use_jitter(mode, brush, stroke->stroke_mode == BRUSH_STROKE_INVERT)) {
float delta[2];
float factor = stroke->zoom_2d;
if (brush->flag & BRUSH_JITTER_PRESSURE) {
factor *= pressure;
}
BKE_brush_jitter_pos(scene, brush, mouse_in, mouse_out);
/* XXX: meh, this is round about because
* BKE_brush_jitter_pos isn't written in the best way to
* be reused here */
if (factor != 1.0f) {
sub_v2_v2v2(delta, mouse_out, mouse_in);
mul_v2_fl(delta, factor);
add_v2_v2v2(mouse_out, mouse_in, delta);
}
}
else {
copy_v2_v2(mouse_out, mouse_in);
}
bool is_location_is_set;
ups->last_hit = paint_brush_update(
C, brush, mode, stroke, mouse_in, mouse_out, pressure, location, &is_location_is_set);
if (is_location_is_set) {
copy_v3_v3(ups->last_location, location);
}
if (!ups->last_hit) {
return;
}
/* Dash */
bool add_step = true;
if (paint_stroke_use_dash(brush)) {
int dash_samples = stroke->tot_samples % brush->dash_samples;
float dash = (float)dash_samples / (float)brush->dash_samples;
if (dash > brush->dash_ratio) {
add_step = false;
}
}
/* Add to stroke */
if (add_step) {
RNA_collection_add(op->ptr, "stroke", &itemptr);
RNA_float_set(&itemptr, "size", ups->pixel_radius);
RNA_float_set_array(&itemptr, "location", location);
/* Mouse coordinates modified by the stroke type options. */
RNA_float_set_array(&itemptr, "mouse", mouse_out);
/* Original mouse coordinates. */
RNA_float_set_array(&itemptr, "mouse_event", mouse_in);
RNA_boolean_set(&itemptr, "pen_flip", stroke->pen_flip);
RNA_float_set(&itemptr, "pressure", pressure);
RNA_float_set(&itemptr, "x_tilt", stroke->x_tilt);
RNA_float_set(&itemptr, "y_tilt", stroke->y_tilt);
stroke->update_step(C, stroke, &itemptr);
/* don't record this for now, it takes up a lot of memory when doing long
* strokes with small brush size, and operators have register disabled */
RNA_collection_clear(op->ptr, "stroke");
}
stroke->tot_samples++;
}
/* Returns zero if no sculpt changes should be made, non-zero otherwise */
static bool paint_smooth_stroke(PaintStroke *stroke,
const PaintSample *sample,
ePaintMode mode,
float r_mouse[2],
float *r_pressure)
{
if (paint_supports_smooth_stroke(stroke->brush, mode)) {
float radius = stroke->brush->smooth_stroke_radius * stroke->zoom_2d;
float u = stroke->brush->smooth_stroke_factor;
/* If the mouse is moving within the radius of the last move,
* don't update the mouse position. This allows sharp turns. */
if (len_squared_v2v2(stroke->last_mouse_position, sample->mouse) < square_f(radius)) {
return false;
}
interp_v2_v2v2(r_mouse, sample->mouse, stroke->last_mouse_position, u);
*r_pressure = interpf(sample->pressure, stroke->last_pressure, u);
}
else {
r_mouse[0] = sample->mouse[0];
r_mouse[1] = sample->mouse[1];
*r_pressure = sample->pressure;
}
return true;
}
static float paint_space_stroke_spacing(bContext *C,
const Scene *scene,
PaintStroke *stroke,
float size_pressure,
float spacing_pressure)
{
Paint *paint = BKE_paint_get_active_from_context(C);
ePaintMode mode = BKE_paintmode_get_active_from_context(C);
Brush *brush = BKE_paint_brush(paint);
float size_clamp = 0.0f;
float size = BKE_brush_size_get(scene, stroke->brush) * size_pressure;
if (paint_stroke_use_scene_spacing(brush, mode)) {
if (!BKE_brush_use_locked_size(scene, brush)) {
float last_object_space_position[3];
mul_v3_m4v3(
last_object_space_position, stroke->vc.obact->imat, stroke->last_world_space_position);
size_clamp = paint_calc_object_space_radius(&stroke->vc, last_object_space_position, size);
}
else {
size_clamp = BKE_brush_unprojected_radius_get(scene, brush) * size_pressure;
}
}
else {
/* brushes can have a minimum size of 1.0 but with pressure it can be smaller than a pixel
* causing very high step sizes, hanging blender T32381. */
size_clamp = max_ff(1.0f, size);
}
float spacing = stroke->brush->spacing;
/* apply spacing pressure */
if (stroke->brush->flag & BRUSH_SPACING_PRESSURE) {
spacing = spacing * (1.5f - spacing_pressure);
}
if (SCULPT_is_cloth_deform_brush(brush)) {
/* The spacing in tools that use the cloth solver should not be affected by the brush radius to
* avoid affecting the simulation update rate when changing the radius of the brush.
* With a value of 100 and the brush default of 10 for spacing, a simulation step runs every 2
* pixels movement of the cursor. */
size_clamp = 100.0f;
}
/* stroke system is used for 2d paint too, so we need to account for
* the fact that brush can be scaled there. */
spacing *= stroke->zoom_2d;
if (paint_stroke_use_scene_spacing(brush, mode)) {
return max_ff(0.001f, size_clamp * spacing / 50.0f);
}
return max_ff(stroke->zoom_2d, size_clamp * spacing / 50.0f);
}
static float paint_stroke_overlapped_curve(Brush *br, float x, float spacing)
{
const int n = 100 / spacing;
const float h = spacing / 50.0f;
const float x0 = x - 1;
float sum = 0;
for (int i = 0; i < n; i++) {
float xx;
xx = fabsf(x0 + i * h);
if (xx < 1.0f) {
sum += BKE_brush_curve_strength(br, xx, 1);
}
}
return sum;
}
static float paint_stroke_integrate_overlap(Brush *br, float factor)
{
float spacing = br->spacing * factor;
if (!(br->flag & BRUSH_SPACE_ATTEN && (br->spacing < 100))) {
return 1.0;
}
int m = 10;
float g = 1.0f / m;
float max = 0;
for (int i = 0; i < m; i++) {
float overlap = fabs(paint_stroke_overlapped_curve(br, i * g, spacing));
if (overlap > max) {
max = overlap;
}
}
if (max == 0.0f) {
return 1.0f;
}
return 1.0f / max;
}
static float paint_space_stroke_spacing_variable(bContext *C,
const Scene *scene,
PaintStroke *stroke,
float pressure,
float dpressure,
float length)
{
if (BKE_brush_use_size_pressure(stroke->brush)) {
/* use pressure to modify size. set spacing so that at 100%, the circles
* are aligned nicely with no overlap. for this the spacing needs to be
* the average of the previous and next size. */
float s = paint_space_stroke_spacing(C, scene, stroke, 1.0f, pressure);
float q = s * dpressure / (2.0f * length);
float pressure_fac = (1.0f + q) / (1.0f - q);
float last_size_pressure = stroke->last_pressure;
float new_size_pressure = stroke->last_pressure * pressure_fac;
/* average spacing */
float last_spacing = paint_space_stroke_spacing(
C, scene, stroke, last_size_pressure, pressure);
float new_spacing = paint_space_stroke_spacing(C, scene, stroke, new_size_pressure, pressure);
return 0.5f * (last_spacing + new_spacing);
}
/* no size pressure */
return paint_space_stroke_spacing(C, scene, stroke, 1.0f, pressure);
}
/* For brushes with stroke spacing enabled, moves mouse in steps
* towards the final mouse location. */
static int paint_space_stroke(bContext *C,
wmOperator *op,
const float final_mouse[2],
float final_pressure)
{
const Scene *scene = CTX_data_scene(C);
ARegion *region = CTX_wm_region(C);
PaintStroke *stroke = op->customdata;
UnifiedPaintSettings *ups = stroke->ups;
Paint *paint = BKE_paint_get_active_from_context(C);
ePaintMode mode = BKE_paintmode_get_active_from_context(C);
Brush *brush = BKE_paint_brush(paint);
int cnt = 0;
const bool use_scene_spacing = paint_stroke_use_scene_spacing(brush, mode);
float d_world_space_position[3] = {0.0f};
float no_pressure_spacing = paint_space_stroke_spacing(C, scene, stroke, 1.0f, 1.0f);
float pressure = stroke->last_pressure;
float dpressure = final_pressure - stroke->last_pressure;
float dmouse[2];
sub_v2_v2v2(dmouse, final_mouse, stroke->last_mouse_position);
float length = normalize_v2(dmouse);
if (use_scene_spacing) {
float world_space_position[3];
bool hit = SCULPT_stroke_get_location(C, world_space_position, final_mouse);
mul_m4_v3(stroke->vc.obact->obmat, world_space_position);
if (hit && stroke->stroke_over_mesh) {
sub_v3_v3v3(d_world_space_position, world_space_position, stroke->last_world_space_position);
length = len_v3(d_world_space_position);
stroke->stroke_over_mesh = true;
}
else {
length = 0.0f;
zero_v3(d_world_space_position);
stroke->stroke_over_mesh = hit;
if (stroke->stroke_over_mesh) {
copy_v3_v3(stroke->last_world_space_position, world_space_position);
}
}
}
while (length > 0.0f) {
float spacing = paint_space_stroke_spacing_variable(
C, scene, stroke, pressure, dpressure, length);
float mouse[3];
if (length >= spacing) {
if (use_scene_spacing) {
float final_world_space_position[3];
normalize_v3(d_world_space_position);
mul_v3_v3fl(final_world_space_position, d_world_space_position, spacing);
add_v3_v3v3(final_world_space_position,
stroke->last_world_space_position,
final_world_space_position);
ED_view3d_project(region, final_world_space_position, mouse);
}
else {
mouse[0] = stroke->last_mouse_position[0] + dmouse[0] * spacing;
mouse[1] = stroke->last_mouse_position[1] + dmouse[1] * spacing;
}
pressure = stroke->last_pressure + (spacing / length) * dpressure;
ups->overlap_factor = paint_stroke_integrate_overlap(stroke->brush,
spacing / no_pressure_spacing);
stroke->stroke_distance += spacing / stroke->zoom_2d;
paint_brush_stroke_add_step(C, op, mouse, pressure);
length -= spacing;
pressure = stroke->last_pressure;
dpressure = final_pressure - stroke->last_pressure;
cnt++;
}
else {
break;
}
}
return cnt;
}
/**** Public API ****/
PaintStroke *paint_stroke_new(bContext *C,
wmOperator *op,
StrokeGetLocation get_location,
StrokeTestStart test_start,
StrokeUpdateStep update_step,
StrokeRedraw redraw,
StrokeDone done,
int event_type)
{
struct Depsgraph *depsgraph = CTX_data_ensure_evaluated_depsgraph(C);
PaintStroke *stroke = MEM_callocN(sizeof(PaintStroke), "PaintStroke");
ToolSettings *toolsettings = CTX_data_tool_settings(C);
UnifiedPaintSettings *ups = &toolsettings->unified_paint_settings;
Paint *p = BKE_paint_get_active_from_context(C);
Brush *br = stroke->brush = BKE_paint_brush(p);
RegionView3D *rv3d = CTX_wm_region_view3d(C);
float zoomx, zoomy;
ED_view3d_viewcontext_init(C, &stroke->vc, depsgraph);
stroke->get_location = get_location;
stroke->test_start = test_start;
stroke->update_step = update_step;
stroke->redraw = redraw;
stroke->done = done;
stroke->event_type = event_type; /* for modal, return event */
stroke->ups = ups;
stroke->stroke_mode = RNA_enum_get(op->ptr, "mode");
get_imapaint_zoom(C, &zoomx, &zoomy);
stroke->zoom_2d = max_ff(zoomx, zoomy);
if (stroke->stroke_mode == BRUSH_STROKE_INVERT) {
if (br->flag & BRUSH_CURVE) {
RNA_enum_set(op->ptr, "mode", BRUSH_STROKE_NORMAL);
}
}
/* initialize here */
ups->overlap_factor = 1.0;
ups->stroke_active = true;
if (rv3d) {
rv3d->rflag |= RV3D_PAINTING;
}
zero_v3(ups->average_stroke_accum);
ups->average_stroke_counter = 0;
/* initialize here to avoid initialization conflict with threaded strokes */
BKE_curvemapping_init(br->curve);
if (p->flags & PAINT_USE_CAVITY_MASK) {
BKE_curvemapping_init(p->cavity_curve);
}
BKE_paint_set_overlay_override(br->overlay_flags);
return stroke;
}
void paint_stroke_free(bContext *C, wmOperator *op)
{
RegionView3D *rv3d = CTX_wm_region_view3d(C);
if (rv3d) {
rv3d->rflag &= ~RV3D_PAINTING;
}
BKE_paint_set_overlay_override(0);
PaintStroke *stroke = op->customdata;
if (stroke == NULL) {
return;
}
UnifiedPaintSettings *ups = stroke->ups;
ups->draw_anchored = false;
ups->stroke_active = false;
if (stroke->timer) {
WM_event_remove_timer(CTX_wm_manager(C), CTX_wm_window(C), stroke->timer);
}
if (stroke->rng) {
BLI_rng_free(stroke->rng);
}
if (stroke->stroke_cursor) {
WM_paint_cursor_end(stroke->stroke_cursor);
}
BLI_freelistN(&stroke->line);
MEM_SAFE_FREE(op->customdata);
}
static void stroke_done(bContext *C, wmOperator *op)
{
PaintStroke *stroke = op->customdata;
UnifiedPaintSettings *ups = stroke->ups;
/* reset rotation here to avoid doing so in cursor display */
if (!(stroke->brush->mtex.brush_angle_mode & MTEX_ANGLE_RAKE)) {
ups->brush_rotation = 0.0f;
}
if (!(stroke->brush->mask_mtex.brush_angle_mode & MTEX_ANGLE_RAKE)) {
ups->brush_rotation_sec = 0.0f;
}
if (stroke->stroke_started) {
if (stroke->redraw) {
stroke->redraw(C, stroke, true);
}
if (stroke->done) {
stroke->done(C, stroke);
}
}
paint_stroke_free(C, op);
}
/* Returns zero if the stroke dots should not be spaced, non-zero otherwise */
bool paint_space_stroke_enabled(Brush *br, ePaintMode mode)
{
if ((br->flag & BRUSH_SPACE) == 0) {
return false;
}
if (br->sculpt_tool == SCULPT_TOOL_CLOTH || SCULPT_is_cloth_deform_brush(br)) {
/* The Cloth Brush is a special case for stroke spacing. Even if it has grab modes which do
* not support dynamic size, stroke spacing needs to be enabled so it is possible to control
* whether the simulation runs constantly or only when the brush moves when using the cloth
* grab brushes. */
return true;
}
return paint_supports_dynamic_size(br, mode);
}
static bool sculpt_is_grab_tool(Brush *br)
{
if (br->sculpt_tool == SCULPT_TOOL_CLOTH && br->cloth_deform_type == BRUSH_CLOTH_DEFORM_GRAB) {
return true;
}
return ELEM(br->sculpt_tool,
SCULPT_TOOL_GRAB,
SCULPT_TOOL_ELASTIC_DEFORM,
SCULPT_TOOL_POSE,
SCULPT_TOOL_BOUNDARY,
SCULPT_TOOL_THUMB,
SCULPT_TOOL_ROTATE,
SCULPT_TOOL_SNAKE_HOOK);
}
/* return true if the brush size can change during paint (normally used for pressure) */
bool paint_supports_dynamic_size(Brush *br, ePaintMode mode)
{
if (br->flag & BRUSH_ANCHORED) {
return false;
}
switch (mode) {
case PAINT_MODE_SCULPT:
if (sculpt_is_grab_tool(br)) {
return false;
}
break;
case PAINT_MODE_TEXTURE_2D: /* fall through */
case PAINT_MODE_TEXTURE_3D:
if ((br->imagepaint_tool == PAINT_TOOL_FILL) && (br->flag & BRUSH_USE_GRADIENT)) {
return false;
}
break;
default:
break;
}
return true;
}
bool paint_supports_smooth_stroke(Brush *br, ePaintMode mode)
{
if (!(br->flag & BRUSH_SMOOTH_STROKE) ||
(br->flag & (BRUSH_ANCHORED | BRUSH_DRAG_DOT | BRUSH_LINE))) {
return false;
}
switch (mode) {
case PAINT_MODE_SCULPT:
if (sculpt_is_grab_tool(br)) {
return false;
}
break;
default:
break;
}
return true;
}
bool paint_supports_texture(ePaintMode mode)
{
/* omit: PAINT_WEIGHT, PAINT_SCULPT_UV, PAINT_INVALID */
return ELEM(
mode, PAINT_MODE_SCULPT, PAINT_MODE_VERTEX, PAINT_MODE_TEXTURE_3D, PAINT_MODE_TEXTURE_2D);
}
/* return true if the brush size can change during paint (normally used for pressure) */
bool paint_supports_dynamic_tex_coords(Brush *br, ePaintMode mode)
{
if (br->flag & BRUSH_ANCHORED) {
return false;
}
switch (mode) {
case PAINT_MODE_SCULPT:
if (sculpt_is_grab_tool(br)) {
return false;
}
break;
default:
break;
}
return true;
}
#define PAINT_STROKE_MODAL_CANCEL 1
/* called in paint_ops.c, on each regeneration of keymaps */
struct wmKeyMap *paint_stroke_modal_keymap(struct wmKeyConfig *keyconf)
{
static struct EnumPropertyItem modal_items[] = {
{PAINT_STROKE_MODAL_CANCEL, "CANCEL", 0, "Cancel", "Cancel and undo a stroke in progress"},
{0}};
static const char *name = "Paint Stroke Modal";
struct wmKeyMap *keymap = WM_modalkeymap_find(keyconf, name);
/* this function is called for each spacetype, only needs to add map once */
if (!keymap) {
keymap = WM_modalkeymap_ensure(keyconf, name, modal_items);
}
return keymap;
}
static void paint_stroke_add_sample(
const Paint *paint, PaintStroke *stroke, float x, float y, float pressure)
{
PaintSample *sample = &stroke->samples[stroke->cur_sample];
int max_samples = CLAMPIS(paint->num_input_samples, 1, PAINT_MAX_INPUT_SAMPLES);
sample->mouse[0] = x;
sample->mouse[1] = y;
sample->pressure = pressure;
stroke->cur_sample++;
if (stroke->cur_sample >= max_samples) {
stroke->cur_sample = 0;
}
if (stroke->num_samples < max_samples) {
stroke->num_samples++;
}
}
static void paint_stroke_sample_average(const PaintStroke *stroke, PaintSample *average)
{
memset(average, 0, sizeof(*average));
BLI_assert(stroke->num_samples > 0);
for (int i = 0; i < stroke->num_samples; i++) {
add_v2_v2(average->mouse, stroke->samples[i].mouse);
average->pressure += stroke->samples[i].pressure;
}
mul_v2_fl(average->mouse, 1.0f / stroke->num_samples);
average->pressure /= stroke->num_samples;
// printf("avg=(%f, %f), num=%d\n", average->mouse[0], average->mouse[1], stroke->num_samples);
}
/**
* Slightly different version of spacing for line/curve strokes,
* makes sure the dabs stay on the line path.
*/
static void paint_line_strokes_spacing(bContext *C,
wmOperator *op,
PaintStroke *stroke,
float spacing,
float *length_residue,
const float old_pos[2],
const float new_pos[2])
{
UnifiedPaintSettings *ups = stroke->ups;
Paint *paint = BKE_paint_get_active_from_context(C);
Brush *brush = BKE_paint_brush(paint);
ePaintMode mode = BKE_paintmode_get_active_from_context(C);
ARegion *region = CTX_wm_region(C);
const bool use_scene_spacing = paint_stroke_use_scene_spacing(brush, mode);
float mouse[3], dmouse[2];
float length;
float d_world_space_position[3] = {0.0f};
float world_space_position_old[3], world_space_position_new[3];
copy_v2_v2(stroke->last_mouse_position, old_pos);
if (use_scene_spacing) {
bool hit_old = SCULPT_stroke_get_location(C, world_space_position_old, old_pos);
bool hit_new = SCULPT_stroke_get_location(C, world_space_position_new, new_pos);
mul_m4_v3(stroke->vc.obact->obmat, world_space_position_old);
mul_m4_v3(stroke->vc.obact->obmat, world_space_position_new);
if (hit_old && hit_new && stroke->stroke_over_mesh) {
sub_v3_v3v3(d_world_space_position, world_space_position_new, world_space_position_old);
length = len_v3(d_world_space_position);
stroke->stroke_over_mesh = true;
}
else {
length = 0.0f;
zero_v3(d_world_space_position);
stroke->stroke_over_mesh = hit_new;
if (stroke->stroke_over_mesh) {
copy_v3_v3(stroke->last_world_space_position, world_space_position_old);
}
}
}
else {
sub_v2_v2v2(dmouse, new_pos, old_pos);
length = normalize_v2(dmouse);
}
BLI_assert(length >= 0.0f);
if (length == 0.0f) {
return;
}
while (length > 0.0f) {
float spacing_final = spacing - *length_residue;
length += *length_residue;
*length_residue = 0.0;
if (length >= spacing) {
if (use_scene_spacing) {
float final_world_space_position[3];
normalize_v3(d_world_space_position);
mul_v3_v3fl(final_world_space_position, d_world_space_position, spacing_final);
add_v3_v3v3(
final_world_space_position, world_space_position_old, final_world_space_position);
ED_view3d_project(region, final_world_space_position, mouse);
}
else {
mouse[0] = stroke->last_mouse_position[0] + dmouse[0] * spacing_final;
mouse[1] = stroke->last_mouse_position[1] + dmouse[1] * spacing_final;
}
ups->overlap_factor = paint_stroke_integrate_overlap(stroke->brush, 1.0);
stroke->stroke_distance += spacing / stroke->zoom_2d;
paint_brush_stroke_add_step(C, op, mouse, 1.0);
length -= spacing;
spacing_final = spacing;
}
else {
break;
}
}
*length_residue = length;
}
static void paint_stroke_line_end(bContext *C,
wmOperator *op,
PaintStroke *stroke,
const float mouse[2])
{
Brush *br = stroke->brush;
if (stroke->stroke_started && (br->flag & BRUSH_LINE)) {
stroke->ups->overlap_factor = paint_stroke_integrate_overlap(br, 1.0);
paint_brush_stroke_add_step(C, op, stroke->last_mouse_position, 1.0);
paint_space_stroke(C, op, mouse, 1.0);
}
}
static bool paint_stroke_curve_end(bContext *C, wmOperator *op, PaintStroke *stroke)
{
Brush *br = stroke->brush;
if (br->flag & BRUSH_CURVE) {
UnifiedPaintSettings *ups = &CTX_data_tool_settings(C)->unified_paint_settings;
const Scene *scene = CTX_data_scene(C);
const float spacing = paint_space_stroke_spacing(C, scene, stroke, 1.0f, 1.0f);
PaintCurve *pc = br->paint_curve;
PaintCurvePoint *pcp;
float length_residue = 0.0f;
int i;
if (!pc) {
return true;
}
#ifdef DEBUG_TIME
TIMEIT_START_AVERAGED(whole_stroke);
#endif
pcp = pc->points;
stroke->ups->overlap_factor = paint_stroke_integrate_overlap(br, 1.0);
for (i = 0; i < pc->tot_points - 1; i++, pcp++) {
int j;
float data[(PAINT_CURVE_NUM_SEGMENTS + 1) * 2];
float tangents[(PAINT_CURVE_NUM_SEGMENTS + 1) * 2];
PaintCurvePoint *pcp_next = pcp + 1;
bool do_rake = false;
for (j = 0; j < 2; j++) {
BKE_curve_forward_diff_bezier(pcp->bez.vec[1][j],
pcp->bez.vec[2][j],
pcp_next->bez.vec[0][j],
pcp_next->bez.vec[1][j],
data + j,
PAINT_CURVE_NUM_SEGMENTS,
sizeof(float[2]));
}
if ((br->mtex.brush_angle_mode & MTEX_ANGLE_RAKE) ||
(br->mask_mtex.brush_angle_mode & MTEX_ANGLE_RAKE)) {
do_rake = true;
for (j = 0; j < 2; j++) {
BKE_curve_forward_diff_tangent_bezier(pcp->bez.vec[1][j],
pcp->bez.vec[2][j],
pcp_next->bez.vec[0][j],
pcp_next->bez.vec[1][j],
tangents + j,
PAINT_CURVE_NUM_SEGMENTS,
sizeof(float[2]));
}
}
for (j = 0; j < PAINT_CURVE_NUM_SEGMENTS; j++) {
if (do_rake) {
float rotation = atan2f(tangents[2 * j], tangents[2 * j + 1]);
paint_update_brush_rake_rotation(ups, br, rotation);
}
if (!stroke->stroke_started) {
stroke->last_pressure = 1.0;
copy_v2_v2(stroke->last_mouse_position, data + 2 * j);
if (paint_stroke_use_scene_spacing(br, BKE_paintmode_get_active_from_context(C))) {
stroke->stroke_over_mesh = SCULPT_stroke_get_location(
C, stroke->last_world_space_position, data + 2 * j);
mul_m4_v3(stroke->vc.obact->obmat, stroke->last_world_space_position);
}
stroke->stroke_started = stroke->test_start(C, op, stroke->last_mouse_position);
if (stroke->stroke_started) {
paint_brush_stroke_add_step(C, op, data + 2 * j, 1.0);
paint_line_strokes_spacing(
C, op, stroke, spacing, &length_residue, data + 2 * j, data + 2 * (j + 1));
}
}
else {
paint_line_strokes_spacing(
C, op, stroke, spacing, &length_residue, data + 2 * j, data + 2 * (j + 1));
}
}
}
stroke_done(C, op);
#ifdef DEBUG_TIME
TIMEIT_END_AVERAGED(whole_stroke);
#endif
return true;
}
return false;
}
static void paint_stroke_line_constrain(PaintStroke *stroke, float mouse[2])
{
if (stroke->constrain_line) {
float line[2];
float angle, len, res;
sub_v2_v2v2(line, mouse, stroke->last_mouse_position);
angle = atan2f(line[1], line[0]);
len = len_v2(line);
/* divide angle by PI/4 */
angle = 4.0f * angle / (float)M_PI;
/* now take residue */
res = angle - floorf(angle);
/* residue decides how close we are at a certain angle */
if (res <= 0.5f) {
angle = floorf(angle) * (float)M_PI_4;
}
else {
angle = (floorf(angle) + 1.0f) * (float)M_PI_4;
}
mouse[0] = stroke->constrained_pos[0] = len * cosf(angle) + stroke->last_mouse_position[0];
mouse[1] = stroke->constrained_pos[1] = len * sinf(angle) + stroke->last_mouse_position[1];
}
}
int paint_stroke_modal(bContext *C, wmOperator *op, const wmEvent *event)
{
Paint *p = BKE_paint_get_active_from_context(C);
ePaintMode mode = BKE_paintmode_get_active_from_context(C);
PaintStroke *stroke = op->customdata;
Brush *br = stroke->brush = BKE_paint_brush(p);
PaintSample sample_average;
float mouse[2];
bool first_dab = false;
bool first_modal = false;
bool redraw = false;
float pressure;
if (event->type == INBETWEEN_MOUSEMOVE && !paint_tool_require_inbetween_mouse_events(br, mode)) {
return OPERATOR_RUNNING_MODAL;
}
/* see if tablet affects event. Line, anchored and drag dot strokes do not support pressure */
pressure = ((br->flag & (BRUSH_LINE | BRUSH_ANCHORED | BRUSH_DRAG_DOT)) ?
1.0f :
WM_event_tablet_data(event, &stroke->pen_flip, NULL));
/* When processing a timer event the pressure from the event is 0, so use the last valid
* pressure. */
if (event->type == TIMER) {
pressure = stroke->last_tablet_event_pressure;
}
else {
stroke->last_tablet_event_pressure = pressure;
}
paint_stroke_add_sample(p, stroke, event->mval[0], event->mval[1], pressure);
paint_stroke_sample_average(stroke, &sample_average);
/* Tilt. */
if (WM_event_is_tablet(event)) {
stroke->x_tilt = event->tablet.x_tilt;
stroke->y_tilt = event->tablet.y_tilt;
}
#ifdef WITH_INPUT_NDOF
/* let NDOF motion pass through to the 3D view so we can paint and rotate simultaneously!
* this isn't perfect... even when an extra MOUSEMOVE is spoofed, the stroke discards it
* since the 2D deltas are zero -- code in this file needs to be updated to use the
* post-NDOF_MOTION MOUSEMOVE */
if (event->type == NDOF_MOTION) {
return OPERATOR_PASS_THROUGH;
}
#endif
/* one time initialization */
if (!stroke->stroke_init) {
if (paint_stroke_curve_end(C, op, stroke)) {
return OPERATOR_FINISHED;
}
if (paint_supports_smooth_stroke(br, mode)) {
stroke->stroke_cursor = WM_paint_cursor_activate(
SPACE_TYPE_ANY, RGN_TYPE_ANY, paint_poll, paint_draw_smooth_cursor, stroke);
}
stroke->stroke_init = true;
first_modal = true;
}
/* one time stroke initialization */
if (!stroke->stroke_started) {
stroke->last_pressure = sample_average.pressure;
copy_v2_v2(stroke->last_mouse_position, sample_average.mouse);
if (paint_stroke_use_scene_spacing(br, mode)) {
stroke->stroke_over_mesh = SCULPT_stroke_get_location(
C, stroke->last_world_space_position, sample_average.mouse);
mul_m4_v3(stroke->vc.obact->obmat, stroke->last_world_space_position);
}
stroke->stroke_started = stroke->test_start(C, op, sample_average.mouse);
BLI_assert((stroke->stroke_started & ~1) == 0); /* 0/1 */
if (stroke->stroke_started) {
if (br->flag & BRUSH_AIRBRUSH) {
stroke->timer = WM_event_add_timer(
CTX_wm_manager(C), CTX_wm_window(C), TIMER, stroke->brush->rate);
}
if (br->flag & BRUSH_LINE) {
stroke->stroke_cursor = WM_paint_cursor_activate(
SPACE_TYPE_ANY, RGN_TYPE_ANY, paint_poll, paint_draw_line_cursor, stroke);
}
first_dab = true;
}
}
/* Cancel */
if (event->type == EVT_MODAL_MAP && event->val == PAINT_STROKE_MODAL_CANCEL) {
if (op->type->cancel) {
op->type->cancel(C, op);
}
else {
paint_stroke_cancel(C, op);
}
return OPERATOR_CANCELLED;
}
if (event->type == stroke->event_type && !first_modal) {
if (event->val == KM_RELEASE) {
copy_v2_fl2(mouse, event->mval[0], event->mval[1]);
paint_stroke_line_constrain(stroke, mouse);
paint_stroke_line_end(C, op, stroke, mouse);
stroke_done(C, op);
return OPERATOR_FINISHED;
}
}
else if (ELEM(event->type, EVT_RETKEY, EVT_SPACEKEY)) {
paint_stroke_line_end(C, op, stroke, sample_average.mouse);
stroke_done(C, op);
return OPERATOR_FINISHED;
}
else if (br->flag & BRUSH_LINE) {
if (event->alt) {
stroke->constrain_line = true;
}
else {
stroke->constrain_line = false;
}
copy_v2_fl2(mouse, event->mval[0], event->mval[1]);
paint_stroke_line_constrain(stroke, mouse);
if (stroke->stroke_started &&
(first_modal || (ELEM(event->type, MOUSEMOVE, INBETWEEN_MOUSEMOVE)))) {
if ((br->mtex.brush_angle_mode & MTEX_ANGLE_RAKE) ||
(br->mask_mtex.brush_angle_mode & MTEX_ANGLE_RAKE)) {
copy_v2_v2(stroke->ups->last_rake, stroke->last_mouse_position);
}
paint_calculate_rake_rotation(stroke->ups, br, mouse);
}
}
else if (first_modal ||
/* regular dabs */
(!(br->flag & BRUSH_AIRBRUSH) && (ELEM(event->type, MOUSEMOVE, INBETWEEN_MOUSEMOVE))) ||
/* airbrush */
((br->flag & BRUSH_AIRBRUSH) && event->type == TIMER &&
event->customdata == stroke->timer)) {
if (paint_smooth_stroke(stroke, &sample_average, mode, mouse, &pressure)) {
if (stroke->stroke_started) {
if (paint_space_stroke_enabled(br, mode)) {
if (paint_space_stroke(C, op, mouse, pressure)) {
redraw = true;
}
}
else {
float dmouse[2];
sub_v2_v2v2(dmouse, mouse, stroke->last_mouse_position);
stroke->stroke_distance += len_v2(dmouse);
paint_brush_stroke_add_step(C, op, mouse, pressure);
redraw = true;
}
}
}
}
/* we want the stroke to have the first daub at the start location
* instead of waiting till we have moved the space distance */
if (first_dab && paint_space_stroke_enabled(br, mode) && !(br->flag & BRUSH_SMOOTH_STROKE)) {
stroke->ups->overlap_factor = paint_stroke_integrate_overlap(br, 1.0);
paint_brush_stroke_add_step(C, op, sample_average.mouse, sample_average.pressure);
redraw = true;
}
/* do updates for redraw. if event is in between mouse-move there are more
* coming, so postpone potentially slow redraw updates until all are done */
if (event->type != INBETWEEN_MOUSEMOVE) {
wmWindow *window = CTX_wm_window(C);
ARegion *region = CTX_wm_region(C);
/* At the very least, invalidate the cursor */
if (region && (p->flags & PAINT_SHOW_BRUSH)) {
WM_paint_cursor_tag_redraw(window, region);
}
if (redraw && stroke->redraw) {
stroke->redraw(C, stroke, false);
}
}
return OPERATOR_RUNNING_MODAL;
}
int paint_stroke_exec(bContext *C, wmOperator *op)
{
PaintStroke *stroke = op->customdata;
/* only when executed for the first time */
if (stroke->stroke_started == 0) {
PropertyRNA *strokeprop;
PointerRNA firstpoint;
float mouse[2];
strokeprop = RNA_struct_find_property(op->ptr, "stroke");
if (RNA_property_collection_lookup_int(op->ptr, strokeprop, 0, &firstpoint)) {
RNA_float_get_array(&firstpoint, "mouse", mouse);
stroke->stroke_started = stroke->test_start(C, op, mouse);
}
}
if (stroke->stroke_started) {
RNA_BEGIN (op->ptr, itemptr, "stroke") {
stroke->update_step(C, stroke, &itemptr);
}
RNA_END;
}
bool ok = (stroke->stroke_started != 0);
stroke_done(C, op);
return ok ? OPERATOR_FINISHED : OPERATOR_CANCELLED;
}
void paint_stroke_cancel(bContext *C, wmOperator *op)
{
stroke_done(C, op);
}
ViewContext *paint_stroke_view_context(PaintStroke *stroke)
{
return &stroke->vc;
}
void *paint_stroke_mode_data(struct PaintStroke *stroke)
{
return stroke->mode_data;
}
bool paint_stroke_flipped(struct PaintStroke *stroke)
{
return stroke->pen_flip;
}
bool paint_stroke_inverted(struct PaintStroke *stroke)
{
return stroke->stroke_mode == BRUSH_STROKE_INVERT;
}
float paint_stroke_distance_get(struct PaintStroke *stroke)
{
return stroke->stroke_distance;
}
void paint_stroke_set_mode_data(PaintStroke *stroke, void *mode_data)
{
stroke->mode_data = mode_data;
}
bool paint_poll(bContext *C)
{
Paint *p = BKE_paint_get_active_from_context(C);
Object *ob = CTX_data_active_object(C);
ScrArea *area = CTX_wm_area(C);
ARegion *region = CTX_wm_region(C);
if (p && ob && BKE_paint_brush(p) &&
(area && ELEM(area->spacetype, SPACE_VIEW3D, SPACE_IMAGE)) &&
(region && region->regiontype == RGN_TYPE_WINDOW)) {
/* Check the current tool is a brush. */
bToolRef *tref = area->runtime.tool;
if (tref && tref->runtime && tref->runtime->data_block[0]) {
return true;
}
}
return false;
}
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