/* GIMP - The GNU Image Manipulation Program * Copyright (C) 1995 Spencer Kimball and Peter Mattis * * 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 3 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, see . */ #include "config.h" #include #include #include #include "libgimpmath/gimpmath.h" #include "paint-types.h" #include "operations/layer-modes/gimp-layer-modes.h" #include "gegl/gimp-babl.h" #include "core/gimpbrush.h" #include "core/gimpbrushgenerated.h" #include "core/gimpdrawable.h" #include "core/gimpdynamics.h" #include "core/gimpdynamicsoutput.h" #include "core/gimperror.h" #include "core/gimpimage.h" #include "core/gimpmarshal.h" #include "core/gimptempbuf.h" #include "gimpbrushcore.h" #include "gimpbrushcore-loops.h" #include "gimpbrushcore-kernels.h" #include "gimppaintoptions.h" #include "gimp-intl.h" #define EPSILON 0.00001 enum { SET_BRUSH, SET_DYNAMICS, LAST_SIGNAL }; /* local function prototypes */ static void gimp_brush_core_finalize (GObject *object); static gboolean gimp_brush_core_start (GimpPaintCore *core, GimpDrawable *drawable, GimpPaintOptions *paint_options, const GimpCoords *coords, GError **error); static gboolean gimp_brush_core_pre_paint (GimpPaintCore *core, GimpDrawable *drawable, GimpPaintOptions *paint_options, GimpPaintState paint_state, guint32 time); static void gimp_brush_core_post_paint (GimpPaintCore *core, GimpDrawable *drawable, GimpPaintOptions *paint_options, GimpPaintState paint_state, guint32 time); static void gimp_brush_core_interpolate (GimpPaintCore *core, GimpDrawable *drawable, GimpPaintOptions *paint_options, guint32 time); static GeglBuffer * gimp_brush_core_get_paint_buffer(GimpPaintCore *paint_core, GimpDrawable *drawable, GimpPaintOptions *paint_options, GimpLayerMode paint_mode, const GimpCoords *coords, gint *paint_buffer_x, gint *paint_buffer_y, gint *paint_width, gint *paint_height); static void gimp_brush_core_real_set_brush (GimpBrushCore *core, GimpBrush *brush); static void gimp_brush_core_real_set_dynamics (GimpBrushCore *core, GimpDynamics *dynamics); static const GimpTempBuf * gimp_brush_core_transform_mask (GimpBrushCore *core, GimpBrush *brush, GeglNode *op); static const GimpTempBuf * gimp_brush_core_transform_pixmap (GimpBrushCore *core, GimpBrush *brush, GeglNode *op); static void gimp_brush_core_invalidate_cache (GimpBrush *brush, GimpBrushCore *core); /* brush pipe utility functions */ static void gimp_brush_core_paint_line_pixmap_mask (const Babl *fish, const GimpTempBuf *pixmap_mask, const GimpTempBuf *brush_mask, gfloat *d, gint x, gint y, gint width); G_DEFINE_TYPE (GimpBrushCore, gimp_brush_core, GIMP_TYPE_PAINT_CORE) #define parent_class gimp_brush_core_parent_class static guint core_signals[LAST_SIGNAL] = { 0, }; static void gimp_brush_core_class_init (GimpBrushCoreClass *klass) { GObjectClass *object_class = G_OBJECT_CLASS (klass); GimpPaintCoreClass *paint_core_class = GIMP_PAINT_CORE_CLASS (klass); core_signals[SET_BRUSH] = g_signal_new ("set-brush", G_TYPE_FROM_CLASS (klass), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (GimpBrushCoreClass, set_brush), NULL, NULL, gimp_marshal_VOID__OBJECT, G_TYPE_NONE, 1, GIMP_TYPE_BRUSH); core_signals[SET_DYNAMICS] = g_signal_new ("set-dynamics", G_TYPE_FROM_CLASS (klass), G_SIGNAL_RUN_LAST, G_STRUCT_OFFSET (GimpBrushCoreClass, set_dynamics), NULL, NULL, gimp_marshal_VOID__OBJECT, G_TYPE_NONE, 1, GIMP_TYPE_DYNAMICS); object_class->finalize = gimp_brush_core_finalize; paint_core_class->start = gimp_brush_core_start; paint_core_class->pre_paint = gimp_brush_core_pre_paint; paint_core_class->post_paint = gimp_brush_core_post_paint; paint_core_class->interpolate = gimp_brush_core_interpolate; paint_core_class->get_paint_buffer = gimp_brush_core_get_paint_buffer; klass->handles_changing_brush = FALSE; klass->handles_transforming_brush = TRUE; klass->handles_dynamic_transforming_brush = TRUE; klass->set_brush = gimp_brush_core_real_set_brush; klass->set_dynamics = gimp_brush_core_real_set_dynamics; } static void gimp_brush_core_init (GimpBrushCore *core) { gint i, j; core->main_brush = NULL; core->brush = NULL; core->dynamics = NULL; core->spacing = 1.0; core->scale = 1.0; core->angle = 1.0; core->hardness = 1.0; core->aspect_ratio = 0.0; core->pressure_brush = NULL; core->last_solid_brush_mask = NULL; core->solid_cache_invalid = FALSE; core->transform_brush = NULL; core->transform_pixmap = NULL; core->last_subsample_brush_mask = NULL; core->subsample_cache_invalid = FALSE; core->rand = g_rand_new (); for (i = 0; i < BRUSH_CORE_SOLID_SUBSAMPLE; i++) { for (j = 0; j < BRUSH_CORE_SOLID_SUBSAMPLE; j++) { core->solid_brushes[i][j] = NULL; } } for (i = 0; i < BRUSH_CORE_JITTER_LUTSIZE - 1; ++i) { core->jitter_lut_y[i] = cos (gimp_deg_to_rad (i * 360 / BRUSH_CORE_JITTER_LUTSIZE)); core->jitter_lut_x[i] = sin (gimp_deg_to_rad (i * 360 / BRUSH_CORE_JITTER_LUTSIZE)); } gimp_assert (BRUSH_CORE_SUBSAMPLE == KERNEL_SUBSAMPLE); for (i = 0; i < KERNEL_SUBSAMPLE + 1; i++) { for (j = 0; j < KERNEL_SUBSAMPLE + 1; j++) { core->subsample_brushes[i][j] = NULL; } } } static void gimp_brush_core_finalize (GObject *object) { GimpBrushCore *core = GIMP_BRUSH_CORE (object); gint i, j; g_clear_pointer (&core->pressure_brush, gimp_temp_buf_unref); for (i = 0; i < BRUSH_CORE_SOLID_SUBSAMPLE; i++) for (j = 0; j < BRUSH_CORE_SOLID_SUBSAMPLE; j++) g_clear_pointer (&core->solid_brushes[i][j], gimp_temp_buf_unref); g_clear_pointer (&core->rand, g_rand_free); for (i = 0; i < KERNEL_SUBSAMPLE + 1; i++) for (j = 0; j < KERNEL_SUBSAMPLE + 1; j++) g_clear_pointer (&core->subsample_brushes[i][j], gimp_temp_buf_unref); if (core->main_brush) { g_signal_handlers_disconnect_by_func (core->main_brush, gimp_brush_core_invalidate_cache, core); gimp_brush_end_use (core->main_brush); g_clear_object (&core->main_brush); } g_clear_object (&core->dynamics); G_OBJECT_CLASS (parent_class)->finalize (object); } static gboolean gimp_brush_core_pre_paint (GimpPaintCore *paint_core, GimpDrawable *drawable, GimpPaintOptions *paint_options, GimpPaintState paint_state, guint32 time) { GimpBrushCore *core = GIMP_BRUSH_CORE (paint_core); if (paint_state == GIMP_PAINT_STATE_MOTION) { GimpCoords last_coords; GimpCoords current_coords; gdouble scale; gimp_paint_core_get_last_coords (paint_core, &last_coords); gimp_paint_core_get_current_coords (paint_core, ¤t_coords); /* If we current point == last point, check if the brush * wants to be painted in that case. (Direction dependent * pixmap brush pipes don't, as they don't know which * pixmap to select.) */ if (last_coords.x == current_coords.x && last_coords.y == current_coords.y && ! gimp_brush_want_null_motion (core->main_brush, &last_coords, ¤t_coords)) { return FALSE; } /*No drawing anything if the scale is too small*/ if (GIMP_BRUSH_CORE_GET_CLASS (core)->handles_transforming_brush) { GimpImage *image = gimp_item_get_image (GIMP_ITEM (drawable)); gdouble fade_point; if (GIMP_BRUSH_CORE_GET_CLASS (core)->handles_dynamic_transforming_brush) { gdouble width; gdouble height; fade_point = gimp_paint_options_get_fade (paint_options, image, paint_core->pixel_dist); width = gimp_brush_get_width (core->main_brush); height = gimp_brush_get_height (core->main_brush); scale = paint_options->brush_size / MAX (width, height) * gimp_dynamics_get_linear_value (core->dynamics, GIMP_DYNAMICS_OUTPUT_SIZE, ¤t_coords, paint_options, fade_point); if (paint_options->brush_lock_to_view && MAX (current_coords.xscale, current_coords.yscale) > 0) { scale /= MAX (current_coords.xscale, current_coords.yscale); /* Cap transform result for brushes or OOM can occur */ if ((scale * MAX (width, height)) > GIMP_BRUSH_MAX_SIZE) { scale = GIMP_BRUSH_MAX_SIZE / MAX (width, height); } } if (scale < 0.0000001) return FALSE; } } if (GIMP_BRUSH_CORE_GET_CLASS (paint_core)->handles_changing_brush) { core->brush = gimp_brush_select_brush (core->main_brush, &last_coords, ¤t_coords); } if ((! GIMP_IS_BRUSH_GENERATED(core->main_brush)) && (paint_options->brush_hardness != gimp_brush_get_blur_hardness(core->main_brush))) { gimp_brush_flush_blur_caches(core->main_brush); } } return TRUE; } static void gimp_brush_core_post_paint (GimpPaintCore *paint_core, GimpDrawable *drawable, GimpPaintOptions *paint_options, GimpPaintState paint_state, guint32 time) { GimpBrushCore *core = GIMP_BRUSH_CORE (paint_core); if (paint_state == GIMP_PAINT_STATE_MOTION) { core->brush = core->main_brush; } } static gboolean gimp_brush_core_start (GimpPaintCore *paint_core, GimpDrawable *drawable, GimpPaintOptions *paint_options, const GimpCoords *coords, GError **error) { GimpBrushCore *core = GIMP_BRUSH_CORE (paint_core); GimpContext *context = GIMP_CONTEXT (paint_options); gimp_brush_core_set_brush (core, gimp_context_get_brush (context)); gimp_brush_core_set_dynamics (core, gimp_context_get_dynamics (context)); if (! core->main_brush) { g_set_error_literal (error, GIMP_ERROR, GIMP_FAILED, _("No brushes available for use with this tool.")); return FALSE; } if (! core->dynamics) { g_set_error_literal (error, GIMP_ERROR, GIMP_FAILED, _("No paint dynamics available for use with this tool.")); return FALSE; } if (GIMP_BRUSH_CORE_GET_CLASS (core)->handles_transforming_brush) { gimp_brush_core_eval_transform_dynamics (core, drawable, paint_options, coords); } core->spacing = paint_options->brush_spacing; core->brush = core->main_brush; core->jitter = gimp_paint_options_get_jitter (paint_options, gimp_item_get_image (GIMP_ITEM (drawable))); return TRUE; } /** * gimp_avoid_exact_integer * @x: points to a gdouble * * Adjusts *x such that it is not too close to an integer. This is used * for decision algorithms that would be vulnerable to rounding glitches * if exact integers were input. * * Side effects: Changes the value of *x **/ static void gimp_avoid_exact_integer (gdouble *x) { const gdouble integral = floor (*x); const gdouble fractional = *x - integral; if (fractional < EPSILON) { *x = integral + EPSILON; } else if (fractional > (1 -EPSILON)) { *x = integral + (1 - EPSILON); } } static void gimp_brush_core_interpolate (GimpPaintCore *paint_core, GimpDrawable *drawable, GimpPaintOptions *paint_options, guint32 time) { GimpBrushCore *core = GIMP_BRUSH_CORE (paint_core); GimpImage *image = gimp_item_get_image (GIMP_ITEM (drawable)); GimpDynamicsOutput *spacing_output; GimpCoords last_coords; GimpCoords current_coords; GimpVector2 delta_vec; gdouble delta_pressure; gdouble delta_xtilt, delta_ytilt; gdouble delta_wheel; gdouble delta_velocity; gdouble temp_direction; GimpVector2 temp_vec; gint n, num_points; gdouble t0, dt, tn; gdouble st_factor, st_offset; gdouble initial; gdouble dist; gdouble total; gdouble pixel_dist; gdouble pixel_initial; gdouble xd, yd; gdouble mag; gdouble dyn_spacing = core->spacing; gdouble fade_point; gboolean use_dyn_spacing; g_return_if_fail (GIMP_IS_BRUSH (core->brush)); gimp_paint_core_get_last_coords (paint_core, &last_coords); gimp_paint_core_get_current_coords (paint_core, ¤t_coords); gimp_avoid_exact_integer (&last_coords.x); gimp_avoid_exact_integer (&last_coords.y); gimp_avoid_exact_integer (¤t_coords.x); gimp_avoid_exact_integer (¤t_coords.y); delta_vec.x = current_coords.x - last_coords.x; delta_vec.y = current_coords.y - last_coords.y; delta_pressure = current_coords.pressure - last_coords.pressure; delta_xtilt = current_coords.xtilt - last_coords.xtilt; delta_ytilt = current_coords.ytilt - last_coords.ytilt; delta_wheel = current_coords.wheel - last_coords.wheel; delta_velocity = current_coords.velocity - last_coords.velocity; temp_direction = current_coords.direction; /* return if there has been no motion */ if (! delta_vec.x && ! delta_vec.y && ! delta_pressure && ! delta_xtilt && ! delta_ytilt && ! delta_wheel && ! delta_velocity) return; pixel_dist = gimp_vector2_length (&delta_vec); pixel_initial = paint_core->pixel_dist; /* Zero sized brushes are unfit for interpolate, so we just let * paint core fail on its own */ if (core->scale == 0.0) { gimp_paint_core_set_last_coords (paint_core, ¤t_coords); gimp_paint_core_paint (paint_core, drawable, paint_options, GIMP_PAINT_STATE_MOTION, time); paint_core->pixel_dist = pixel_initial + pixel_dist; /* Don't forget to update pixel distance*/ return; } /* Handle dynamic spacing */ spacing_output = gimp_dynamics_get_output (core->dynamics, GIMP_DYNAMICS_OUTPUT_SPACING); fade_point = gimp_paint_options_get_fade (paint_options, image, paint_core->pixel_dist); use_dyn_spacing = gimp_dynamics_output_is_enabled (spacing_output); if (use_dyn_spacing) { dyn_spacing = gimp_dynamics_output_get_linear_value (spacing_output, ¤t_coords, paint_options, fade_point); /* Dynamic spacing assumes that the value set in core is the min * value and the max is full 200% spacing. This approach differs * from the usual factor from user input approach because making * spacing smaller than the nominal value is unlikely and * spacing has a hard defined max. */ dyn_spacing = (core->spacing + ((2.0 - core->spacing) * (1.0 - dyn_spacing))); /* Limiting spacing to minimum 1% */ dyn_spacing = MAX (core->spacing, dyn_spacing); } /* calculate the distance traveled in the coordinate space of the brush */ temp_vec = gimp_brush_get_x_axis (core->brush); gimp_vector2_mul (&temp_vec, core->scale); gimp_vector2_rotate (&temp_vec, core->angle * G_PI * 2); mag = gimp_vector2_length (&temp_vec); xd = gimp_vector2_inner_product (&delta_vec, &temp_vec) / (mag * mag); temp_vec = gimp_brush_get_y_axis (core->brush); gimp_vector2_mul (&temp_vec, core->scale); gimp_vector2_rotate (&temp_vec, core->angle * G_PI * 2); mag = gimp_vector2_length (&temp_vec); yd = gimp_vector2_inner_product (&delta_vec, &temp_vec) / (mag * mag); dist = 0.5 * sqrt (xd * xd + yd * yd); total = dist + paint_core->distance; initial = paint_core->distance; if (delta_vec.x * delta_vec.x > delta_vec.y * delta_vec.y) { st_factor = delta_vec.x; st_offset = last_coords.x - 0.5; } else { st_factor = delta_vec.y; st_offset = last_coords.y - 0.5; } if (use_dyn_spacing) { gint s0; num_points = dist / dyn_spacing; s0 = (gint) floor (st_offset + 0.5); t0 = (s0 - st_offset) / st_factor; dt = dyn_spacing / dist; if (num_points == 0) return; } else if (fabs (st_factor) > dist / core->spacing) { /* The stripe principle leads to brush positions that are spaced * *closer* than the official brush spacing. Use the official * spacing instead. This is the common case when the brush spacing * is large. * The net effect is then to put a lower bound on the spacing, but * one that varies with the slope of the line. This is suppose to * make thin lines (say, with a 1x1 brush) prettier while leaving * lines with larger brush spacing as they used to look in 1.2.x. */ dt = core->spacing / dist; n = (gint) (initial / core->spacing + 1.0 + EPSILON); t0 = (n * core->spacing - initial) / dist; num_points = 1 + (gint) floor ((1 + EPSILON - t0) / dt); /* if we arnt going to paint anything this time and the brush * has only moved on one axis return without updating the brush * position, distance etc. so that we can more accurately space * brush strokes when curves are supplied to us in single pixel * chunks. */ if (num_points == 0 && (delta_vec.x == 0 || delta_vec.y == 0)) return; } else if (fabs (st_factor) < EPSILON) { /* Hm, we've hardly moved at all. Don't draw anything, but reset the * old coordinates and hope we've gone longer the next time... */ current_coords.x = last_coords.x; current_coords.y = last_coords.y; gimp_paint_core_set_current_coords (paint_core, ¤t_coords); /* ... but go along with the current pressure, tilt and wheel */ return; } else { gint direction = st_factor > 0 ? 1 : -1; gint x, y; gint s0, sn; /* Choose the first and last stripe to paint. * FIRST PRIORITY is to avoid gaps painting with a 1x1 aliasing * brush when a horizontalish line segment follows a verticalish * one or vice versa - no matter what the angle between the two * lines is. This will also limit the local thinning that a 1x1 * subsampled brush may suffer in the same situation. * SECOND PRIORITY is to avoid making free-hand drawings * unpleasantly fat by plotting redundant points. * These are achieved by the following rules, but it is a little * tricky to see just why. Do not change this algorithm unless you * are sure you know what you're doing! */ /* Basic case: round the beginning and ending point to nearest * stripe center. */ s0 = (gint) floor (st_offset + 0.5); sn = (gint) floor (st_offset + st_factor + 0.5); t0 = (s0 - st_offset) / st_factor; tn = (sn - st_offset) / st_factor; x = (gint) floor (last_coords.x + t0 * delta_vec.x); y = (gint) floor (last_coords.y + t0 * delta_vec.y); if (t0 < 0.0 && !( x == (gint) floor (last_coords.x) && y == (gint) floor (last_coords.y) )) { /* Exception A: If the first stripe's brush position is * EXTRApolated into a different pixel square than the * ideal starting point, don't plot it. */ s0 += direction; } else if (x == (gint) floor (paint_core->last_paint.x) && y == (gint) floor (paint_core->last_paint.y)) { /* Exception B: If first stripe's brush position is within the * same pixel square as the last plot of the previous line, * don't plot it either. */ s0 += direction; } x = (gint) floor (last_coords.x + tn * delta_vec.x); y = (gint) floor (last_coords.y + tn * delta_vec.y); if (tn > 1.0 && !( x == (gint) floor (current_coords.x) && y == (gint) floor (current_coords.y))) { /* Exception C: If the last stripe's brush position is * EXTRApolated into a different pixel square than the * ideal ending point, don't plot it. */ sn -= direction; } t0 = (s0 - st_offset) / st_factor; tn = (sn - st_offset) / st_factor; dt = direction * 1.0 / st_factor; num_points = 1 + direction * (sn - s0); if (num_points >= 1) { /* Hack the reported total distance such that it looks to the * next line as if the the last pixel plotted were at an integer * multiple of the brush spacing. This helps prevent artifacts * for connected lines when the brush spacing is such that some * slopes will use the stripe regime and other slopes will use * the nominal brush spacing. */ if (tn < 1) total = initial + tn * dist; total = core->spacing * (gint) (total / core->spacing + 0.5); total += (1.0 - tn) * dist; } } for (n = 0; n < num_points; n++) { gdouble t = t0 + n * dt; gdouble p = (gdouble) n / num_points; current_coords.x = last_coords.x + t * delta_vec.x; current_coords.y = last_coords.y + t * delta_vec.y; current_coords.pressure = last_coords.pressure + p * delta_pressure; current_coords.xtilt = last_coords.xtilt + p * delta_xtilt; current_coords.ytilt = last_coords.ytilt + p * delta_ytilt; current_coords.wheel = last_coords.wheel + p * delta_wheel; current_coords.velocity = last_coords.velocity + p * delta_velocity; current_coords.direction = temp_direction; current_coords.xscale = last_coords.xscale; current_coords.yscale = last_coords.yscale; current_coords.angle = last_coords.angle; current_coords.reflect = last_coords.reflect; if (core->jitter > 0.0) { GimpVector2 x_axis; GimpVector2 y_axis; gdouble dyn_jitter; gdouble jitter_dist; gint32 jitter_angle; x_axis = gimp_brush_get_x_axis (core->brush); y_axis = gimp_brush_get_y_axis (core->brush); dyn_jitter = (core->jitter * gimp_dynamics_get_linear_value (core->dynamics, GIMP_DYNAMICS_OUTPUT_JITTER, ¤t_coords, paint_options, fade_point)); jitter_dist = g_rand_double_range (core->rand, 0, dyn_jitter); jitter_angle = g_rand_int_range (core->rand, 0, BRUSH_CORE_JITTER_LUTSIZE); current_coords.x += (x_axis.x + y_axis.x) * jitter_dist * core->jitter_lut_x[jitter_angle] * core->scale; current_coords.y += (y_axis.y + x_axis.y) * jitter_dist * core->jitter_lut_y[jitter_angle] * core->scale; } gimp_paint_core_set_current_coords (paint_core, ¤t_coords); paint_core->distance = initial + t * dist; paint_core->pixel_dist = pixel_initial + t * pixel_dist; gimp_paint_core_paint (paint_core, drawable, paint_options, GIMP_PAINT_STATE_MOTION, time); } current_coords.x = last_coords.x + delta_vec.x; current_coords.y = last_coords.y + delta_vec.y; current_coords.pressure = last_coords.pressure + delta_pressure; current_coords.xtilt = last_coords.xtilt + delta_xtilt; current_coords.ytilt = last_coords.ytilt + delta_ytilt; current_coords.wheel = last_coords.wheel + delta_wheel; current_coords.velocity = last_coords.velocity + delta_velocity; current_coords.xscale = last_coords.xscale; current_coords.yscale = last_coords.yscale; current_coords.angle = last_coords.angle; current_coords.reflect = last_coords.reflect; gimp_paint_core_set_current_coords (paint_core, ¤t_coords); gimp_paint_core_set_last_coords (paint_core, ¤t_coords); paint_core->distance = total; paint_core->pixel_dist = pixel_initial + pixel_dist; } static GeglBuffer * gimp_brush_core_get_paint_buffer (GimpPaintCore *paint_core, GimpDrawable *drawable, GimpPaintOptions *paint_options, GimpLayerMode paint_mode, const GimpCoords *coords, gint *paint_buffer_x, gint *paint_buffer_y, gint *paint_width, gint *paint_height) { GimpBrushCore *core = GIMP_BRUSH_CORE (paint_core); gint x, y; gint x1, y1, x2, y2; gint drawable_width, drawable_height; gint brush_width, brush_height; gimp_brush_transform_size (core->brush, core->scale, core->aspect_ratio, core->angle, core->reflect, &brush_width, &brush_height); if (paint_width) *paint_width = brush_width; if (paint_height) *paint_height = brush_height; /* adjust the x and y coordinates to the upper left corner of the brush */ x = (gint) floor (coords->x) - (brush_width / 2); y = (gint) floor (coords->y) - (brush_height / 2); drawable_width = gimp_item_get_width (GIMP_ITEM (drawable)); drawable_height = gimp_item_get_height (GIMP_ITEM (drawable)); x1 = CLAMP (x - 1, 0, drawable_width); y1 = CLAMP (y - 1, 0, drawable_height); x2 = CLAMP (x + brush_width + 1, 0, drawable_width); y2 = CLAMP (y + brush_height + 1, 0, drawable_height); /* configure the canvas buffer */ if ((x2 - x1) && (y2 - y1)) { GimpTempBuf *temp_buf; const Babl *format; format = gimp_layer_mode_get_format (paint_mode, GIMP_LAYER_COLOR_SPACE_AUTO, GIMP_LAYER_COLOR_SPACE_AUTO, gimp_drawable_get_format (drawable)); if (paint_core->paint_buffer && gegl_buffer_get_width (paint_core->paint_buffer) == (x2 - x1) && gegl_buffer_get_height (paint_core->paint_buffer) == (y2 - y1) && gegl_buffer_get_format (paint_core->paint_buffer) == format) { *paint_buffer_x = x1; *paint_buffer_y = y1; return paint_core->paint_buffer; } temp_buf = gimp_temp_buf_new ((x2 - x1), (y2 - y1), format); *paint_buffer_x = x1; *paint_buffer_y = y1; g_clear_object (&paint_core->paint_buffer); paint_core->paint_buffer = gimp_temp_buf_create_buffer (temp_buf); gimp_temp_buf_unref (temp_buf); return paint_core->paint_buffer; } return NULL; } static void gimp_brush_core_real_set_brush (GimpBrushCore *core, GimpBrush *brush) { if (brush == core->main_brush) return; if (core->main_brush) { g_signal_handlers_disconnect_by_func (core->main_brush, gimp_brush_core_invalidate_cache, core); gimp_brush_end_use (core->main_brush); g_clear_object (&core->main_brush); } core->main_brush = brush; if (core->main_brush) { g_object_ref (core->main_brush); gimp_brush_begin_use (core->main_brush); g_signal_connect (core->main_brush, "invalidate-preview", G_CALLBACK (gimp_brush_core_invalidate_cache), core); } } static void gimp_brush_core_real_set_dynamics (GimpBrushCore *core, GimpDynamics *dynamics) { if (dynamics == core->dynamics) return; g_clear_object (&core->dynamics); if (dynamics) core->dynamics = g_object_ref (dynamics); } void gimp_brush_core_set_brush (GimpBrushCore *core, GimpBrush *brush) { g_return_if_fail (GIMP_IS_BRUSH_CORE (core)); g_return_if_fail (brush == NULL || GIMP_IS_BRUSH (brush)); if (brush != core->main_brush) g_signal_emit (core, core_signals[SET_BRUSH], 0, brush); } void gimp_brush_core_set_dynamics (GimpBrushCore *core, GimpDynamics *dynamics) { g_return_if_fail (GIMP_IS_BRUSH_CORE (core)); g_return_if_fail (dynamics == NULL || GIMP_IS_DYNAMICS (dynamics)); if (dynamics != core->dynamics) g_signal_emit (core, core_signals[SET_DYNAMICS], 0, dynamics); } void gimp_brush_core_paste_canvas (GimpBrushCore *core, GimpDrawable *drawable, const GimpCoords *coords, gdouble brush_opacity, gdouble image_opacity, GimpLayerMode paint_mode, GimpBrushApplicationMode brush_hardness, gdouble dynamic_force, GimpPaintApplicationMode mode, GeglNode *op) { const GimpTempBuf *brush_mask; brush_mask = gimp_brush_core_get_brush_mask (core, coords, op, brush_hardness, dynamic_force); if (brush_mask) { GimpPaintCore *paint_core = GIMP_PAINT_CORE (core); gint x; gint y; gint off_x; gint off_y; x = (gint) floor (coords->x) - (gimp_temp_buf_get_width (brush_mask) >> 1); y = (gint) floor (coords->y) - (gimp_temp_buf_get_height (brush_mask) >> 1); off_x = (x < 0) ? -x : 0; off_y = (y < 0) ? -y : 0; gimp_paint_core_paste (paint_core, brush_mask, off_x, off_y, drawable, brush_opacity, image_opacity, paint_mode, mode); } } /* Similar to gimp_brush_core_paste_canvas, but replaces the alpha channel * rather than using it to composite (i.e. transparent over opaque * becomes transparent rather than opauqe. */ void gimp_brush_core_replace_canvas (GimpBrushCore *core, GimpDrawable *drawable, const GimpCoords *coords, gdouble brush_opacity, gdouble image_opacity, GimpBrushApplicationMode brush_hardness, gdouble dynamic_force, GimpPaintApplicationMode mode, GeglNode *op) { const GimpTempBuf *brush_mask; brush_mask = gimp_brush_core_get_brush_mask (core, coords, op, brush_hardness, dynamic_force); if (brush_mask) { GimpPaintCore *paint_core = GIMP_PAINT_CORE (core); gint x; gint y; gint off_x; gint off_y; x = (gint) floor (coords->x) - (gimp_temp_buf_get_width (brush_mask) >> 1); y = (gint) floor (coords->y) - (gimp_temp_buf_get_height (brush_mask) >> 1); off_x = (x < 0) ? -x : 0; off_y = (y < 0) ? -y : 0; gimp_paint_core_replace (paint_core, brush_mask, off_x, off_y, drawable, brush_opacity, image_opacity, mode); } } static void gimp_brush_core_invalidate_cache (GimpBrush *brush, GimpBrushCore *core) { /* Make sure we don't cache data for a brush that has changed */ core->subsample_cache_invalid = TRUE; core->solid_cache_invalid = TRUE; /* Notify of the brush change */ g_signal_emit (core, core_signals[SET_BRUSH], 0, brush); } /************************************************************ * LOCAL FUNCTION DEFINITIONS * ************************************************************/ static const GimpTempBuf * gimp_brush_core_transform_mask (GimpBrushCore *core, GimpBrush *brush, GeglNode *op) { const GimpTempBuf *mask; if (core->scale <= 0.0) return NULL; mask = gimp_brush_transform_mask (brush, op, core->scale, core->aspect_ratio, core->angle, core->reflect, core->hardness); if (mask == core->transform_brush) return mask; core->transform_brush = mask; core->subsample_cache_invalid = TRUE; core->solid_cache_invalid = TRUE; return core->transform_brush; } static const GimpTempBuf * gimp_brush_core_transform_pixmap (GimpBrushCore *core, GimpBrush *brush, GeglNode *op) { const GimpTempBuf *pixmap; if (core->scale <= 0.0) return NULL; pixmap = gimp_brush_transform_pixmap (brush, op, core->scale, core->aspect_ratio, core->angle, core->reflect, core->hardness); if (pixmap == core->transform_pixmap) return pixmap; core->transform_pixmap = pixmap; core->subsample_cache_invalid = TRUE; return core->transform_pixmap; } const GimpTempBuf * gimp_brush_core_get_brush_mask (GimpBrushCore *core, const GimpCoords *coords, GeglNode *op, GimpBrushApplicationMode brush_hardness, gdouble dynamic_force) { const GimpTempBuf *mask; if (dynamic_force <= 0.0) return NULL; mask = gimp_brush_core_transform_mask (core, core->brush, op); if (! mask) return NULL; switch (brush_hardness) { case GIMP_BRUSH_SOFT: return gimp_brush_core_subsample_mask (core, mask, coords->x, coords->y); break; case GIMP_BRUSH_HARD: return gimp_brush_core_solidify_mask (core, mask, coords->x, coords->y); break; case GIMP_BRUSH_PRESSURE: return gimp_brush_core_pressurize_mask (core, mask, coords->x, coords->y, dynamic_force); break; } g_return_val_if_reached (NULL); } void gimp_brush_core_eval_transform_dynamics (GimpBrushCore *core, GimpDrawable *drawable, GimpPaintOptions *paint_options, const GimpCoords *coords) { if (core->main_brush) { gdouble max_side; max_side = MAX (gimp_brush_get_width (core->main_brush), gimp_brush_get_height (core->main_brush)); core->scale = paint_options->brush_size / max_side; if (paint_options->brush_lock_to_view && MAX (coords->xscale, coords->yscale) > 0) { core->scale /= MAX (coords->xscale, coords->yscale); /* Cap transform result for brushes or OOM can occur */ if ((core->scale * max_side) > GIMP_BRUSH_MAX_SIZE) { core->scale = GIMP_BRUSH_MAX_SIZE / max_side; } } } else core->scale = -1; core->aspect_ratio = paint_options->brush_aspect_ratio; core->angle = paint_options->brush_angle; core->reflect = FALSE; core->hardness = paint_options->brush_hardness; if (paint_options->brush_lock_to_view) { core->angle += coords->angle; core->reflect = coords->reflect; } if (! GIMP_IS_DYNAMICS (core->dynamics)) return; if (GIMP_BRUSH_CORE_GET_CLASS (core)->handles_dynamic_transforming_brush) { gdouble fade_point = 1.0; if (drawable) { GimpImage *image = gimp_item_get_image (GIMP_ITEM (drawable)); GimpPaintCore *paint_core = GIMP_PAINT_CORE (core); fade_point = gimp_paint_options_get_fade (paint_options, image, paint_core->pixel_dist); } core->scale *= gimp_dynamics_get_linear_value (core->dynamics, GIMP_DYNAMICS_OUTPUT_SIZE, coords, paint_options, fade_point); core->angle += gimp_dynamics_get_angular_value (core->dynamics, GIMP_DYNAMICS_OUTPUT_ANGLE, coords, paint_options, fade_point); core->hardness *= gimp_dynamics_get_linear_value (core->dynamics, GIMP_DYNAMICS_OUTPUT_HARDNESS, coords, paint_options, fade_point); if (gimp_dynamics_is_output_enabled (core->dynamics, GIMP_DYNAMICS_OUTPUT_ASPECT_RATIO)) { gdouble dyn_aspect; dyn_aspect = gimp_dynamics_get_aspect_value (core->dynamics, GIMP_DYNAMICS_OUTPUT_ASPECT_RATIO, coords, paint_options, fade_point); /* Zero aspect ratio is special cased to half of all ar range, * to force dynamics to have any effect. Forcing to full results * in disappearing stamp if applied to maximum. */ if (core->aspect_ratio == 0.0) core->aspect_ratio = 10.0 * dyn_aspect; else core->aspect_ratio *= dyn_aspect; } } } /**************************************************/ /* Brush pipe utility functions */ /**************************************************/ void gimp_brush_core_color_area_with_pixmap (GimpBrushCore *core, GimpDrawable *drawable, const GimpCoords *coords, GeglNode *op, GeglBuffer *area, gint area_x, gint area_y, GimpBrushApplicationMode mode) { GeglBufferIterator *iter; GeglRectangle *roi; gint ulx; gint uly; gint offsetx; gint offsety; const GimpTempBuf *pixmap_mask; const GimpTempBuf *brush_mask; const Babl *area_format; const Babl *pixmap_format; const Babl *fish = NULL; g_return_if_fail (GIMP_IS_BRUSH (core->brush)); g_return_if_fail (gimp_brush_get_pixmap (core->brush) != NULL); /* scale the brushes */ pixmap_mask = gimp_brush_core_transform_pixmap (core, core->brush, op); if (! pixmap_mask) return; if (mode != GIMP_BRUSH_HARD) brush_mask = gimp_brush_core_transform_mask (core, core->brush, op); else brush_mask = NULL; /* Calculate upper left corner of brush as in * gimp_paint_core_get_paint_area. Ugly to have to do this here, too. */ ulx = (gint) floor (coords->x) - (gimp_temp_buf_get_width (pixmap_mask) >> 1); uly = (gint) floor (coords->y) - (gimp_temp_buf_get_height (pixmap_mask) >> 1); /* Not sure why this is necessary, but empirically the code does * not work without it for even-sided brushes. See bug #166622. */ if (gimp_temp_buf_get_width (pixmap_mask) % 2 == 0) ulx += ROUND (coords->x) - floor (coords->x); if (gimp_temp_buf_get_height (pixmap_mask) % 2 == 0) uly += ROUND (coords->y) - floor (coords->y); offsetx = area_x - ulx; offsety = area_y - uly; area_format = gegl_buffer_get_format (area); pixmap_format = gimp_temp_buf_get_format (pixmap_mask); iter = gegl_buffer_iterator_new (area, NULL, 0, area_format, GEGL_ACCESS_WRITE, GEGL_ABYSS_NONE); if (mode == GIMP_BRUSH_SOFT && brush_mask) { GimpImageBaseType pixmap_base_type; GimpPrecision pixmap_precision; pixmap_base_type = gimp_babl_format_get_base_type (pixmap_format); pixmap_precision = gimp_babl_format_get_precision (pixmap_format); fish = babl_fish (gimp_babl_format (pixmap_base_type, pixmap_precision, TRUE), area_format); } else { fish = babl_fish (pixmap_format, area_format); brush_mask = NULL; } roi = &iter->roi[0]; while (gegl_buffer_iterator_next (iter)) { gfloat *d = iter->data[0]; gint y; for (y = 0; y < roi->height; y++) { gimp_brush_core_paint_line_pixmap_mask (fish, pixmap_mask, brush_mask, d, offsetx, y + offsety, roi->width); d += roi->width * 4; } } } static void gimp_brush_core_paint_line_pixmap_mask (const Babl *fish, const GimpTempBuf *pixmap_mask, const GimpTempBuf *brush_mask, gfloat *d, gint x, gint y, gint width) { const Babl *pixmap_format; gint pixmap_bytes; gint pixmap_width; gint pixmap_height; guchar *b; pixmap_width = gimp_temp_buf_get_width (pixmap_mask); pixmap_height = gimp_temp_buf_get_height (pixmap_mask); /* Make sure x, y are positive */ x %= pixmap_width; if (x < 0) x += pixmap_width; y %= pixmap_height; if (y < 0) y += pixmap_height; pixmap_format = gimp_temp_buf_get_format (pixmap_mask); pixmap_bytes = babl_format_get_bytes_per_pixel (pixmap_format); /* Point to the appropriate scanline */ b = (gimp_temp_buf_get_data (pixmap_mask) + y * pixmap_width * pixmap_bytes); if (brush_mask) { const guchar *mask = (gimp_temp_buf_get_data (brush_mask) + y * pixmap_width); guchar *line_buf = g_alloca (width * (pixmap_bytes + 1)); guchar *l = line_buf; gint i; g_return_if_fail (gimp_temp_buf_get_width (brush_mask) == pixmap_width); g_return_if_fail (gimp_temp_buf_get_height (brush_mask) == pixmap_height); /* put the source pixmap's pixels, plus the mask's alpha, into * one line, so we can use one single call to babl_process() to * convert the entire line */ for (i = 0; i < width; i++) { gint p_bytes = pixmap_bytes; guchar *p = b + x * p_bytes; while (p_bytes--) *l++ = *p++; *l++ = mask[x++]; if (x == pixmap_width) x = 0; } babl_process (fish, line_buf, d, width); } else { guchar *line_buf = g_alloca (width * (pixmap_bytes)); guchar *l = line_buf; gint i; /* put the source pixmap's pixels into one line, so we can use * one single call to babl_process() to convert the entire line */ for (i = 0; i < width; i++) { gint p_bytes = pixmap_bytes; guchar *p = b + x * p_bytes; while (p_bytes--) *l++ = *p++; x++; if (x == pixmap_width) x = 0; } babl_process (fish, line_buf, d, width); } }