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PIKApp/app/tools/pikawarptool.c

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/* PIKA - Photo and Image Kooker Application
* a rebranding of The GNU Image Manipulation Program (created with heckimp)
* A derived work which may be trivial. However, any changes may be (C)2023 by Aldercone Studio
*
* Original copyright, applying to most contents (license remains unchanged):
*
* pikawarptool.c
* Copyright (C) 2011 Michael Muré <batolettre@gmail.com>
*
* 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 <https://www.gnu.org/licenses/>.
*/
#include "config.h"
#include <gegl.h>
#include <gegl-plugin.h>
#include <gtk/gtk.h>
#include <gdk/gdkkeysyms.h>
#include "libpikamath/pikamath.h"
#include "libpikawidgets/pikawidgets.h"
#include "tools-types.h"
#include "config/pikadisplayconfig.h"
#include "config/pikaguiconfig.h"
#include "gegl/pika-gegl-apply-operation.h"
#include "core/pika.h"
#include "core/pikachannel.h"
#include "core/pikadrawablefilter.h"
#include "core/pikaimage.h"
#include "core/pikalayer.h"
#include "core/pikaprogress.h"
#include "core/pikaprojection.h"
#include "core/pikasubprogress.h"
#include "core/pikatoolinfo.h"
#include "widgets/pikahelp-ids.h"
#include "widgets/pikawidgets-utils.h"
#include "display/pikadisplay.h"
#include "pikawarptool.h"
#include "pikawarpoptions.h"
#include "pikatoolcontrol.h"
#include "pikatools-utils.h"
#include "pika-intl.h"
#define STROKE_TIMER_MAX_FPS 20
#define PREVIEW_SAMPLER GEGL_SAMPLER_NEAREST
static void pika_warp_tool_constructed (GObject *object);
static void pika_warp_tool_control (PikaTool *tool,
PikaToolAction action,
PikaDisplay *display);
static void pika_warp_tool_button_press (PikaTool *tool,
const PikaCoords *coords,
guint32 time,
GdkModifierType state,
PikaButtonPressType press_type,
PikaDisplay *display);
static void pika_warp_tool_button_release (PikaTool *tool,
const PikaCoords *coords,
guint32 time,
GdkModifierType state,
PikaButtonReleaseType release_type,
PikaDisplay *display);
static void pika_warp_tool_motion (PikaTool *tool,
const PikaCoords *coords,
guint32 time,
GdkModifierType state,
PikaDisplay *display);
static gboolean pika_warp_tool_key_press (PikaTool *tool,
GdkEventKey *kevent,
PikaDisplay *display);
static void pika_warp_tool_oper_update (PikaTool *tool,
const PikaCoords *coords,
GdkModifierType state,
gboolean proximity,
PikaDisplay *display);
static void pika_warp_tool_cursor_update (PikaTool *tool,
const PikaCoords *coords,
GdkModifierType state,
PikaDisplay *display);
const gchar * pika_warp_tool_can_undo (PikaTool *tool,
PikaDisplay *display);
const gchar * pika_warp_tool_can_redo (PikaTool *tool,
PikaDisplay *display);
static gboolean pika_warp_tool_undo (PikaTool *tool,
PikaDisplay *display);
static gboolean pika_warp_tool_redo (PikaTool *tool,
PikaDisplay *display);
static void pika_warp_tool_options_notify (PikaTool *tool,
PikaToolOptions *options,
const GParamSpec *pspec);
static void pika_warp_tool_draw (PikaDrawTool *draw_tool);
static void pika_warp_tool_cursor_notify (PikaDisplayConfig *config,
GParamSpec *pspec,
PikaWarpTool *wt);
static gboolean pika_warp_tool_can_stroke (PikaWarpTool *wt,
PikaDisplay *display,
gboolean show_message);
static gboolean pika_warp_tool_start (PikaWarpTool *wt,
PikaDisplay *display);
static void pika_warp_tool_halt (PikaWarpTool *wt);
static void pika_warp_tool_commit (PikaWarpTool *wt);
static void pika_warp_tool_start_stroke_timer (PikaWarpTool *wt);
static void pika_warp_tool_stop_stroke_timer (PikaWarpTool *wt);
static gboolean pika_warp_tool_stroke_timer (PikaWarpTool *wt);
static void pika_warp_tool_create_graph (PikaWarpTool *wt);
static void pika_warp_tool_create_filter (PikaWarpTool *wt,
PikaDrawable *drawable);
static void pika_warp_tool_set_sampler (PikaWarpTool *wt,
gboolean commit);
static GeglRectangle
pika_warp_tool_get_stroke_bounds (GeglNode *node);
static GeglRectangle pika_warp_tool_get_node_bounds (GeglNode *node);
static void pika_warp_tool_clear_node_bounds (GeglNode *node);
static GeglRectangle pika_warp_tool_get_invalidated_by_change (PikaWarpTool *wt,
const GeglRectangle *area);
static void pika_warp_tool_update_bounds (PikaWarpTool *wt);
static void pika_warp_tool_update_area (PikaWarpTool *wt,
const GeglRectangle *area,
gboolean synchronous);
static void pika_warp_tool_update_stroke (PikaWarpTool *wt,
GeglNode *node);
static void pika_warp_tool_stroke_append (PikaWarpTool *wt,
gchar type,
gdouble x,
gdouble y);
static void pika_warp_tool_filter_flush (PikaDrawableFilter *filter,
PikaTool *tool);
static void pika_warp_tool_add_op (PikaWarpTool *wt,
GeglNode *op);
static void pika_warp_tool_remove_op (PikaWarpTool *wt,
GeglNode *op);
static void pika_warp_tool_free_op (GeglNode *op);
static void pika_warp_tool_animate (PikaWarpTool *wt);
G_DEFINE_TYPE (PikaWarpTool, pika_warp_tool, PIKA_TYPE_DRAW_TOOL)
#define parent_class pika_warp_tool_parent_class
void
pika_warp_tool_register (PikaToolRegisterCallback callback,
gpointer data)
{
(* callback) (PIKA_TYPE_WARP_TOOL,
PIKA_TYPE_WARP_OPTIONS,
pika_warp_options_gui,
0,
"pika-warp-tool",
_("Warp Transform"),
_("Warp Transform: Deform with different tools"),
N_("_Warp Transform"), "W",
NULL, PIKA_HELP_TOOL_WARP,
PIKA_ICON_TOOL_WARP,
data);
}
static void
pika_warp_tool_class_init (PikaWarpToolClass *klass)
{
GObjectClass *object_class = G_OBJECT_CLASS (klass);
PikaToolClass *tool_class = PIKA_TOOL_CLASS (klass);
PikaDrawToolClass *draw_tool_class = PIKA_DRAW_TOOL_CLASS (klass);
object_class->constructed = pika_warp_tool_constructed;
tool_class->control = pika_warp_tool_control;
tool_class->button_press = pika_warp_tool_button_press;
tool_class->button_release = pika_warp_tool_button_release;
tool_class->motion = pika_warp_tool_motion;
tool_class->key_press = pika_warp_tool_key_press;
tool_class->oper_update = pika_warp_tool_oper_update;
tool_class->cursor_update = pika_warp_tool_cursor_update;
tool_class->can_undo = pika_warp_tool_can_undo;
tool_class->can_redo = pika_warp_tool_can_redo;
tool_class->undo = pika_warp_tool_undo;
tool_class->redo = pika_warp_tool_redo;
tool_class->options_notify = pika_warp_tool_options_notify;
draw_tool_class->draw = pika_warp_tool_draw;
}
static void
pika_warp_tool_init (PikaWarpTool *self)
{
PikaTool *tool = PIKA_TOOL (self);
pika_tool_control_set_motion_mode (tool->control, PIKA_MOTION_MODE_EXACT);
pika_tool_control_set_scroll_lock (tool->control, TRUE);
pika_tool_control_set_preserve (tool->control, FALSE);
pika_tool_control_set_dirty_mask (tool->control,
PIKA_DIRTY_IMAGE |
PIKA_DIRTY_DRAWABLE |
PIKA_DIRTY_SELECTION |
PIKA_DIRTY_ACTIVE_DRAWABLE);
pika_tool_control_set_dirty_action (tool->control,
PIKA_TOOL_ACTION_COMMIT);
pika_tool_control_set_wants_click (tool->control, TRUE);
pika_tool_control_set_precision (tool->control,
PIKA_CURSOR_PRECISION_SUBPIXEL);
pika_tool_control_set_tool_cursor (tool->control,
PIKA_TOOL_CURSOR_WARP);
pika_tool_control_set_action_pixel_size (tool->control,
"tools-warp-effect-pixel-size-set");
pika_tool_control_set_action_size (tool->control,
"tools-warp-effect-size-set");
pika_tool_control_set_action_hardness (tool->control,
"tools-warp-effect-hardness-set");
self->show_cursor = TRUE;
self->draw_brush = TRUE;
self->snap_brush = FALSE;
}
static void
pika_warp_tool_constructed (GObject *object)
{
PikaWarpTool *wt = PIKA_WARP_TOOL (object);
PikaTool *tool = PIKA_TOOL (object);
PikaDisplayConfig *display_config;
G_OBJECT_CLASS (parent_class)->constructed (object);
display_config = PIKA_DISPLAY_CONFIG (tool->tool_info->pika->config);
wt->show_cursor = display_config->show_paint_tool_cursor;
wt->draw_brush = display_config->show_brush_outline;
wt->snap_brush = display_config->snap_brush_outline;
g_signal_connect_object (display_config, "notify::show-paint-tool-cursor",
G_CALLBACK (pika_warp_tool_cursor_notify),
wt, 0);
g_signal_connect_object (display_config, "notify::show-brush-outline",
G_CALLBACK (pika_warp_tool_cursor_notify),
wt, 0);
g_signal_connect_object (display_config, "notify::snap-brush-outline",
G_CALLBACK (pika_warp_tool_cursor_notify),
wt, 0);
}
static void
pika_warp_tool_control (PikaTool *tool,
PikaToolAction action,
PikaDisplay *display)
{
PikaWarpTool *wt = PIKA_WARP_TOOL (tool);
switch (action)
{
case PIKA_TOOL_ACTION_PAUSE:
case PIKA_TOOL_ACTION_RESUME:
break;
case PIKA_TOOL_ACTION_HALT:
pika_warp_tool_halt (wt);
break;
case PIKA_TOOL_ACTION_COMMIT:
pika_warp_tool_commit (wt);
break;
}
PIKA_TOOL_CLASS (parent_class)->control (tool, action, display);
}
static void
pika_warp_tool_button_press (PikaTool *tool,
const PikaCoords *coords,
guint32 time,
GdkModifierType state,
PikaButtonPressType press_type,
PikaDisplay *display)
{
PikaWarpTool *wt = PIKA_WARP_TOOL (tool);
PikaWarpOptions *options = PIKA_WARP_TOOL_GET_OPTIONS (wt);
GeglNode *new_op;
gint off_x, off_y;
if (tool->display && display != tool->display)
pika_tool_control (tool, PIKA_TOOL_ACTION_HALT, tool->display);
if (! tool->display)
{
if (! pika_warp_tool_start (wt, display))
return;
}
if (! pika_warp_tool_can_stroke (wt, display, TRUE))
return;
g_return_if_fail (g_list_length (tool->drawables) == 1);
wt->current_stroke = gegl_path_new ();
wt->last_pos.x = coords->x;
wt->last_pos.y = coords->y;
wt->total_dist = 0.0;
new_op = gegl_node_new_child (NULL,
"operation", "gegl:warp",
"behavior", options->behavior,
"size", options->effect_size,
"hardness", options->effect_hardness / 100.0,
"strength", options->effect_strength,
/* we implement spacing manually.
* anything > 1 will do.
*/
"spacing", 10.0,
"stroke", wt->current_stroke,
NULL);
pika_warp_tool_add_op (wt, new_op);
g_object_unref (new_op);
pika_item_get_offset (PIKA_ITEM (tool->drawables->data), &off_x, &off_y);
pika_warp_tool_stroke_append (wt,
'M', wt->last_pos.x - off_x,
wt->last_pos.y - off_y);
pika_warp_tool_start_stroke_timer (wt);
pika_tool_control_activate (tool->control);
}
void
pika_warp_tool_button_release (PikaTool *tool,
const PikaCoords *coords,
guint32 time,
GdkModifierType state,
PikaButtonReleaseType release_type,
PikaDisplay *display)
{
PikaWarpTool *wt = PIKA_WARP_TOOL (tool);
pika_draw_tool_pause (PIKA_DRAW_TOOL (wt));
pika_tool_control_halt (tool->control);
pika_warp_tool_stop_stroke_timer (wt);
#ifdef WARP_DEBUG
g_printerr ("%s\n", gegl_path_to_string (wt->current_stroke));
#endif
g_clear_object (&wt->current_stroke);
if (release_type == PIKA_BUTTON_RELEASE_CANCEL)
{
pika_warp_tool_undo (tool, display);
/* the just undone stroke has no business on the redo stack */
pika_warp_tool_free_op (wt->redo_stack->data);
wt->redo_stack = g_list_remove_link (wt->redo_stack, wt->redo_stack);
}
else
{
if (wt->redo_stack)
{
/* the redo stack becomes invalid by actually doing a stroke */
g_list_free_full (wt->redo_stack,
(GDestroyNotify) pika_warp_tool_free_op);
wt->redo_stack = NULL;
}
pika_tool_push_status (tool, tool->display,
_("Press ENTER to commit the transform"));
}
pika_draw_tool_resume (PIKA_DRAW_TOOL (tool));
/* update the undo actions / menu items */
pika_image_flush (pika_display_get_image (PIKA_TOOL (wt)->display));
}
static void
pika_warp_tool_motion (PikaTool *tool,
const PikaCoords *coords,
guint32 time,
GdkModifierType state,
PikaDisplay *display)
{
PikaWarpTool *wt = PIKA_WARP_TOOL (tool);
PikaWarpOptions *options = PIKA_WARP_TOOL_GET_OPTIONS (wt);
PikaVector2 old_cursor_pos;
PikaVector2 delta;
gdouble dist;
gdouble step;
gboolean stroke_changed = FALSE;
if (! wt->snap_brush)
pika_draw_tool_pause (PIKA_DRAW_TOOL (wt));
old_cursor_pos = wt->cursor_pos;
wt->cursor_pos.x = coords->x;
wt->cursor_pos.y = coords->y;
pika_vector2_sub (&delta, &wt->cursor_pos, &old_cursor_pos);
dist = pika_vector2_length (&delta);
step = options->effect_size * options->stroke_spacing / 100.0;
while (wt->total_dist + dist >= step)
{
gdouble diff = step - wt->total_dist;
pika_vector2_mul (&delta, diff / dist);
pika_vector2_add (&old_cursor_pos, &old_cursor_pos, &delta);
pika_vector2_sub (&delta, &wt->cursor_pos, &old_cursor_pos);
dist -= diff;
wt->last_pos = old_cursor_pos;
wt->total_dist = 0.0;
if (options->stroke_during_motion)
{
gint off_x, off_y;
if (! stroke_changed)
{
stroke_changed = TRUE;
pika_draw_tool_pause (PIKA_DRAW_TOOL (tool));
}
pika_item_get_offset (PIKA_ITEM (tool->drawables->data), &off_x, &off_y);
pika_warp_tool_stroke_append (wt,
'L', wt->last_pos.x - off_x,
wt->last_pos.y - off_y);
}
}
wt->total_dist += dist;
if (stroke_changed)
{
pika_warp_tool_start_stroke_timer (wt);
pika_draw_tool_resume (PIKA_DRAW_TOOL (tool));
}
if (! wt->snap_brush)
pika_draw_tool_resume (PIKA_DRAW_TOOL (wt));
}
static gboolean
pika_warp_tool_key_press (PikaTool *tool,
GdkEventKey *kevent,
PikaDisplay *display)
{
switch (kevent->keyval)
{
case GDK_KEY_BackSpace:
return TRUE;
case GDK_KEY_Return:
case GDK_KEY_KP_Enter:
case GDK_KEY_ISO_Enter:
pika_tool_control (tool, PIKA_TOOL_ACTION_COMMIT, display);
return TRUE;
case GDK_KEY_Escape:
pika_tool_control (tool, PIKA_TOOL_ACTION_HALT, display);
return TRUE;
default:
break;
}
return FALSE;
}
static void
pika_warp_tool_oper_update (PikaTool *tool,
const PikaCoords *coords,
GdkModifierType state,
gboolean proximity,
PikaDisplay *display)
{
PikaWarpTool *wt = PIKA_WARP_TOOL (tool);
PikaDrawTool *draw_tool = PIKA_DRAW_TOOL (tool);
if (proximity)
{
pika_draw_tool_pause (draw_tool);
if (! tool->display || display == tool->display)
{
wt->cursor_pos.x = coords->x;
wt->cursor_pos.y = coords->y;
wt->last_pos = wt->cursor_pos;
}
if (! pika_draw_tool_is_active (draw_tool))
pika_draw_tool_start (draw_tool, display);
pika_draw_tool_resume (draw_tool);
}
else if (pika_draw_tool_is_active (draw_tool))
{
pika_draw_tool_stop (draw_tool);
}
}
static void
pika_warp_tool_cursor_update (PikaTool *tool,
const PikaCoords *coords,
GdkModifierType state,
PikaDisplay *display)
{
PikaWarpTool *wt = PIKA_WARP_TOOL (tool);
PikaWarpOptions *options = PIKA_WARP_TOOL_GET_OPTIONS (tool);
PikaCursorModifier modifier = PIKA_CURSOR_MODIFIER_NONE;
if (! pika_warp_tool_can_stroke (wt, display, FALSE))
{
modifier = PIKA_CURSOR_MODIFIER_BAD;
}
else if (display == tool->display)
{
#if 0
/* FIXME have better cursors */
switch (options->behavior)
{
case PIKA_WARP_BEHAVIOR_MOVE:
case PIKA_WARP_BEHAVIOR_GROW:
case PIKA_WARP_BEHAVIOR_SHRINK:
case PIKA_WARP_BEHAVIOR_SWIRL_CW:
case PIKA_WARP_BEHAVIOR_SWIRL_CCW:
case PIKA_WARP_BEHAVIOR_ERASE:
case PIKA_WARP_BEHAVIOR_SMOOTH:
modifier = PIKA_CURSOR_MODIFIER_MOVE;
break;
}
#else
(void) options;
#endif
}
if (! wt->show_cursor && modifier != PIKA_CURSOR_MODIFIER_BAD)
{
pika_tool_set_cursor (tool, display,
PIKA_CURSOR_NONE,
PIKA_TOOL_CURSOR_NONE,
PIKA_CURSOR_MODIFIER_NONE);
return;
}
pika_tool_control_set_cursor_modifier (tool->control, modifier);
PIKA_TOOL_CLASS (parent_class)->cursor_update (tool, coords, state, display);
}
const gchar *
pika_warp_tool_can_undo (PikaTool *tool,
PikaDisplay *display)
{
PikaWarpTool *wt = PIKA_WARP_TOOL (tool);
GeglNode *to_delete;
const gchar *type;
if (! wt->render_node)
return NULL;
to_delete = gegl_node_get_producer (wt->render_node, "aux", NULL);
type = gegl_node_get_operation (to_delete);
if (strcmp (type, "gegl:warp"))
return NULL;
return _("Warp Tool Stroke");
}
const gchar *
pika_warp_tool_can_redo (PikaTool *tool,
PikaDisplay *display)
{
PikaWarpTool *wt = PIKA_WARP_TOOL (tool);
if (! wt->render_node || ! wt->redo_stack)
return NULL;
return _("Warp Tool Stroke");
}
static gboolean
pika_warp_tool_undo (PikaTool *tool,
PikaDisplay *display)
{
PikaWarpTool *wt = PIKA_WARP_TOOL (tool);
GeglNode *to_delete;
GeglNode *prev_node;
to_delete = gegl_node_get_producer (wt->render_node, "aux", NULL);
wt->redo_stack = g_list_prepend (wt->redo_stack, to_delete);
/* we connect render_node to the previous node, but keep the current node
* in the graph, connected to the previous node as well, so that it doesn't
* get invalidated and maintains its cache. this way, redoing it doesn't
* require reprocessing.
*/
prev_node = gegl_node_get_producer (to_delete, "input", NULL);
gegl_node_connect (prev_node, "output",
wt->render_node, "aux");
pika_warp_tool_update_bounds (wt);
pika_warp_tool_update_stroke (wt, to_delete);
return TRUE;
}
static gboolean
pika_warp_tool_redo (PikaTool *tool,
PikaDisplay *display)
{
PikaWarpTool *wt = PIKA_WARP_TOOL (tool);
GeglNode *to_add;
to_add = wt->redo_stack->data;
gegl_node_connect (to_add, "output",
wt->render_node, "aux");
wt->redo_stack = g_list_remove_link (wt->redo_stack, wt->redo_stack);
pika_warp_tool_update_bounds (wt);
pika_warp_tool_update_stroke (wt, to_add);
return TRUE;
}
static void
pika_warp_tool_options_notify (PikaTool *tool,
PikaToolOptions *options,
const GParamSpec *pspec)
{
PikaWarpTool *wt = PIKA_WARP_TOOL (tool);
PikaWarpOptions *wt_options = PIKA_WARP_OPTIONS (options);
PIKA_TOOL_CLASS (parent_class)->options_notify (tool, options, pspec);
if (! strcmp (pspec->name, "effect-size"))
{
pika_draw_tool_pause (PIKA_DRAW_TOOL (tool));
pika_draw_tool_resume (PIKA_DRAW_TOOL (tool));
}
else if (! strcmp (pspec->name, "interpolation"))
{
pika_warp_tool_set_sampler (wt, /* commit = */ FALSE);
}
else if (! strcmp (pspec->name, "abyss-policy"))
{
if (wt->render_node)
{
gegl_node_set (wt->render_node,
"abyss-policy", wt_options->abyss_policy,
NULL);
pika_warp_tool_update_stroke (wt, NULL);
}
}
else if (! strcmp (pspec->name, "high-quality-preview"))
{
pika_warp_tool_set_sampler (wt, /* commit = */ FALSE);
}
}
static void
pika_warp_tool_draw (PikaDrawTool *draw_tool)
{
PikaWarpTool *wt = PIKA_WARP_TOOL (draw_tool);
PikaWarpOptions *options = PIKA_WARP_TOOL_GET_OPTIONS (wt);
gdouble x, y;
if (wt->snap_brush)
{
x = wt->last_pos.x;
y = wt->last_pos.y;
}
else
{
x = wt->cursor_pos.x;
y = wt->cursor_pos.y;
}
if (wt->draw_brush)
{
pika_draw_tool_add_arc (draw_tool,
FALSE,
x - options->effect_size * 0.5,
y - options->effect_size * 0.5,
options->effect_size,
options->effect_size,
0.0, 2.0 * G_PI);
}
else if (! wt->show_cursor)
{
/* don't leave the user without any indication and draw
* a fallback crosshair
*/
pika_draw_tool_add_handle (draw_tool,
PIKA_HANDLE_CROSSHAIR,
x, y,
PIKA_TOOL_HANDLE_SIZE_CROSSHAIR,
PIKA_TOOL_HANDLE_SIZE_CROSSHAIR,
PIKA_HANDLE_ANCHOR_CENTER);
}
}
static void
pika_warp_tool_cursor_notify (PikaDisplayConfig *config,
GParamSpec *pspec,
PikaWarpTool *wt)
{
pika_draw_tool_pause (PIKA_DRAW_TOOL (wt));
wt->show_cursor = config->show_paint_tool_cursor;
wt->draw_brush = config->show_brush_outline;
wt->snap_brush = config->snap_brush_outline;
pika_draw_tool_resume (PIKA_DRAW_TOOL (wt));
}
static gboolean
pika_warp_tool_can_stroke (PikaWarpTool *wt,
PikaDisplay *display,
gboolean show_message)
{
PikaTool *tool = PIKA_TOOL (wt);
PikaWarpOptions *options = PIKA_WARP_TOOL_GET_OPTIONS (wt);
PikaGuiConfig *config = PIKA_GUI_CONFIG (display->pika->config);
PikaImage *image = pika_display_get_image (display);
PikaItem *locked_item = NULL;
GList *drawables = pika_image_get_selected_drawables (image);
PikaDrawable *drawable;
if (g_list_length (drawables) != 1)
{
if (show_message)
{
if (g_list_length (drawables) > 1)
pika_tool_message_literal (tool, display,
_("Cannot warp multiple layers. Select only one layer."));
else
pika_tool_message_literal (tool, display,
_("No active drawables."));
}
g_list_free (drawables);
return FALSE;
}
drawable = drawables->data;
g_list_free (drawables);
if (pika_viewable_get_children (PIKA_VIEWABLE (drawable)))
{
if (show_message)
{
pika_tool_message_literal (tool, display,
_("Cannot warp layer groups."));
}
return FALSE;
}
if (pika_item_is_content_locked (PIKA_ITEM (drawable), &locked_item))
{
if (show_message)
{
pika_tool_message_literal (tool, display,
_("The selected item's pixels are locked."));
pika_tools_blink_lock_box (display->pika, locked_item);
}
return FALSE;
}
if (! pika_item_is_visible (PIKA_ITEM (drawable)) &&
! config->edit_non_visible)
{
if (show_message)
{
pika_tool_message_literal (tool, display,
_("The selected item is not visible."));
}
return FALSE;
}
if (! options->stroke_during_motion &&
! options->stroke_periodically)
{
if (show_message)
{
pika_tool_message_literal (tool, display,
_("No stroke events selected."));
pika_tools_show_tool_options (display->pika);
pika_widget_blink (options->stroke_frame);
}
return FALSE;
}
if (! wt->filter || ! pika_tool_can_undo (tool, display))
{
const gchar *message = NULL;
switch (options->behavior)
{
case PIKA_WARP_BEHAVIOR_MOVE:
case PIKA_WARP_BEHAVIOR_GROW:
case PIKA_WARP_BEHAVIOR_SHRINK:
case PIKA_WARP_BEHAVIOR_SWIRL_CW:
case PIKA_WARP_BEHAVIOR_SWIRL_CCW:
break;
case PIKA_WARP_BEHAVIOR_ERASE:
message = _("No warp to erase.");
break;
case PIKA_WARP_BEHAVIOR_SMOOTH:
message = _("No warp to smooth.");
break;
}
if (message)
{
if (show_message)
{
pika_tool_message_literal (tool, display, message);
pika_tools_show_tool_options (display->pika);
pika_widget_blink (options->behavior_combo);
}
return FALSE;
}
}
return TRUE;
}
static gboolean
pika_warp_tool_start (PikaWarpTool *wt,
PikaDisplay *display)
{
PikaTool *tool = PIKA_TOOL (wt);
PikaWarpOptions *options = PIKA_WARP_TOOL_GET_OPTIONS (wt);
PikaImage *image = pika_display_get_image (display);
PikaDrawable *drawable;
const Babl *format;
GeglRectangle bbox;
if (! pika_warp_tool_can_stroke (wt, display, TRUE))
return FALSE;
tool->display = display;
g_list_free (tool->drawables);
tool->drawables = pika_image_get_selected_drawables (image);
drawable = tool->drawables->data;
/* Create the coords buffer, with the size of the selection */
format = babl_format_n (babl_type ("float"), 2);
pika_item_mask_intersect (PIKA_ITEM (drawable), &bbox.x, &bbox.y,
&bbox.width, &bbox.height);
#ifdef WARP_DEBUG
g_printerr ("Initialize coordinate buffer (%d,%d) at %d,%d\n",
bbox.width, bbox.height, bbox.x, bbox.y);
#endif
wt->coords_buffer = gegl_buffer_new (&bbox, format);
pika_warp_tool_create_filter (wt, drawable);
if (! pika_draw_tool_is_active (PIKA_DRAW_TOOL (wt)))
pika_draw_tool_start (PIKA_DRAW_TOOL (wt), display);
if (options->animate_button)
{
g_signal_connect_swapped (options->animate_button, "clicked",
G_CALLBACK (pika_warp_tool_animate),
wt);
gtk_widget_set_sensitive (options->animate_button, TRUE);
}
return TRUE;
}
static void
pika_warp_tool_halt (PikaWarpTool *wt)
{
PikaTool *tool = PIKA_TOOL (wt);
PikaWarpOptions *options = PIKA_WARP_TOOL_GET_OPTIONS (wt);
g_clear_object (&wt->coords_buffer);
g_clear_object (&wt->graph);
wt->render_node = NULL;
if (wt->filter)
{
pika_drawable_filter_abort (wt->filter);
g_clear_object (&wt->filter);
pika_image_flush (pika_display_get_image (tool->display));
}
if (wt->redo_stack)
{
g_list_free (wt->redo_stack);
wt->redo_stack = NULL;
}
tool->display = NULL;
g_list_free (tool->drawables);
tool->drawables = NULL;
if (pika_draw_tool_is_active (PIKA_DRAW_TOOL (wt)))
pika_draw_tool_stop (PIKA_DRAW_TOOL (wt));
if (options->animate_button)
{
gtk_widget_set_sensitive (options->animate_button, FALSE);
g_signal_handlers_disconnect_by_func (options->animate_button,
pika_warp_tool_animate,
wt);
}
}
static void
pika_warp_tool_commit (PikaWarpTool *wt)
{
PikaTool *tool = PIKA_TOOL (wt);
/* don't commit a nop */
if (tool->display && pika_tool_can_undo (tool, tool->display))
{
pika_tool_control_push_preserve (tool->control, TRUE);
pika_warp_tool_set_sampler (wt, /* commit = */ TRUE);
pika_drawable_filter_commit (wt->filter, PIKA_PROGRESS (tool), FALSE);
g_clear_object (&wt->filter);
pika_tool_control_pop_preserve (tool->control);
pika_image_flush (pika_display_get_image (tool->display));
}
}
static void
pika_warp_tool_start_stroke_timer (PikaWarpTool *wt)
{
PikaWarpOptions *options = PIKA_WARP_TOOL_GET_OPTIONS (wt);
pika_warp_tool_stop_stroke_timer (wt);
if (options->stroke_periodically &&
options->stroke_periodically_rate > 0.0 &&
! (options->behavior == PIKA_WARP_BEHAVIOR_MOVE &&
options->stroke_during_motion))
{
gdouble fps;
fps = STROKE_TIMER_MAX_FPS * options->stroke_periodically_rate / 100.0;
wt->stroke_timer = g_timeout_add (1000.0 / fps,
(GSourceFunc) pika_warp_tool_stroke_timer,
wt);
}
}
static void
pika_warp_tool_stop_stroke_timer (PikaWarpTool *wt)
{
if (wt->stroke_timer)
g_source_remove (wt->stroke_timer);
wt->stroke_timer = 0;
}
static gboolean
pika_warp_tool_stroke_timer (PikaWarpTool *wt)
{
PikaTool *tool = PIKA_TOOL (wt);
gint off_x, off_y;
g_return_val_if_fail (g_list_length (tool->drawables) == 1, FALSE);
pika_item_get_offset (PIKA_ITEM (tool->drawables->data), &off_x, &off_y);
pika_warp_tool_stroke_append (wt,
'L', wt->last_pos.x - off_x,
wt->last_pos.y - off_y);
return TRUE;
}
static void
pika_warp_tool_create_graph (PikaWarpTool *wt)
{
PikaWarpOptions *options = PIKA_WARP_TOOL_GET_OPTIONS (wt);
GeglNode *graph; /* Wrapper to be returned */
GeglNode *input, *output; /* Proxy nodes */
GeglNode *coords, *render; /* Render nodes */
/* render_node is not supposed to be recreated */
g_return_if_fail (wt->graph == NULL);
graph = gegl_node_new ();
input = gegl_node_get_input_proxy (graph, "input");
output = gegl_node_get_output_proxy (graph, "output");
coords = gegl_node_new_child (graph,
"operation", "gegl:buffer-source",
"buffer", wt->coords_buffer,
NULL);
render = gegl_node_new_child (graph,
"operation", "gegl:map-relative",
"abyss-policy", options->abyss_policy,
NULL);
gegl_node_link_many (input, render, output, NULL);
gegl_node_connect (coords, "output",
render, "aux");
wt->graph = graph;
wt->render_node = render;
}
static void
pika_warp_tool_create_filter (PikaWarpTool *wt,
PikaDrawable *drawable)
{
if (! wt->graph)
pika_warp_tool_create_graph (wt);
pika_warp_tool_set_sampler (wt, /* commit = */ FALSE);
wt->filter = pika_drawable_filter_new (drawable,
_("Warp transform"),
wt->graph,
PIKA_ICON_TOOL_WARP);
pika_drawable_filter_set_region (wt->filter, PIKA_FILTER_REGION_DRAWABLE);
#if 0
g_object_set (wt->filter, "gegl-caching", TRUE, NULL);
#endif
g_signal_connect (wt->filter, "flush",
G_CALLBACK (pika_warp_tool_filter_flush),
wt);
}
static void
pika_warp_tool_set_sampler (PikaWarpTool *wt,
gboolean commit)
{
PikaWarpOptions *options = PIKA_WARP_TOOL_GET_OPTIONS (wt);
GeglSamplerType sampler;
GeglSamplerType old_sampler;
if (! wt->render_node)
return;
if (commit || options->high_quality_preview)
sampler = (GeglSamplerType) options->interpolation;
else
sampler = PREVIEW_SAMPLER;
gegl_node_get (wt->render_node,
"sampler-type", &old_sampler,
NULL);
if (sampler != old_sampler)
{
gegl_node_set (wt->render_node,
"sampler-type", sampler,
NULL);
pika_warp_tool_update_bounds (wt);
pika_warp_tool_update_stroke (wt, NULL);
}
}
static GeglRectangle
pika_warp_tool_get_stroke_bounds (GeglNode *node)
{
GeglRectangle bbox = {0, 0, 0, 0};
GeglPath *stroke;
gdouble size;
gegl_node_get (node,
"stroke", &stroke,
"size", &size,
NULL);
if (stroke)
{
gdouble min_x;
gdouble max_x;
gdouble min_y;
gdouble max_y;
gegl_path_get_bounds (stroke, &min_x, &max_x, &min_y, &max_y);
g_object_unref (stroke);
bbox.x = floor (min_x - size * 0.5);
bbox.y = floor (min_y - size * 0.5);
bbox.width = ceil (max_x + size * 0.5) - bbox.x;
bbox.height = ceil (max_y + size * 0.5) - bbox.y;
}
return bbox;
}
static GeglRectangle
pika_warp_tool_get_node_bounds (GeglNode *node)
{
GeglRectangle *bounds;
if (! node || strcmp (gegl_node_get_operation (node), "gegl:warp"))
return *GEGL_RECTANGLE (0, 0, 0, 0);
bounds = g_object_get_data (G_OBJECT (node), "pika-warp-tool-bounds");
if (! bounds)
{
GeglNode *input_node;
GeglRectangle input_bounds;
GeglRectangle stroke_bounds;
input_node = gegl_node_get_producer (node, "input", NULL);
input_bounds = pika_warp_tool_get_node_bounds (input_node);
stroke_bounds = pika_warp_tool_get_stroke_bounds (node);
gegl_rectangle_bounding_box (&input_bounds,
&input_bounds, &stroke_bounds);
bounds = gegl_rectangle_dup (&input_bounds);
g_object_set_data_full (G_OBJECT (node), "pika-warp-tool-bounds",
bounds, g_free);
}
return *bounds;
}
static void
pika_warp_tool_clear_node_bounds (GeglNode *node)
{
if (node && ! strcmp (gegl_node_get_operation (node), "gegl:warp"))
g_object_set_data (G_OBJECT (node), "pika-warp-tool-bounds", NULL);
}
static GeglRectangle
pika_warp_tool_get_invalidated_by_change (PikaWarpTool *wt,
const GeglRectangle *area)
{
GeglRectangle result = *area;
if (! wt->filter)
return result;
if (wt->render_node)
{
GeglOperation *operation = gegl_node_get_gegl_operation (wt->render_node);
result = gegl_operation_get_invalidated_by_change (operation,
"aux", area);
}
return result;
}
static void
pika_warp_tool_update_bounds (PikaWarpTool *wt)
{
GeglRectangle bounds = {0, 0, 0, 0};
if (! wt->filter)
return;
if (wt->render_node)
{
GeglNode *node = gegl_node_get_producer (wt->render_node, "aux", NULL);
bounds = pika_warp_tool_get_node_bounds (node);
bounds = pika_warp_tool_get_invalidated_by_change (wt, &bounds);
}
pika_drawable_filter_set_crop (wt->filter, &bounds, FALSE);
}
static void
pika_warp_tool_update_area (PikaWarpTool *wt,
const GeglRectangle *area,
gboolean synchronous)
{
GeglRectangle rect;
if (! wt->filter)
return;
rect = pika_warp_tool_get_invalidated_by_change (wt, area);
if (synchronous)
{
PikaTool *tool = PIKA_TOOL (wt);
PikaImage *image = pika_display_get_image (tool->display);
g_signal_handlers_block_by_func (wt->filter,
pika_warp_tool_filter_flush,
wt);
pika_drawable_filter_apply (wt->filter, &rect);
pika_projection_flush_now (pika_image_get_projection (image), TRUE);
pika_display_flush_now (tool->display);
g_signal_handlers_unblock_by_func (wt->filter,
pika_warp_tool_filter_flush,
wt);
}
else
{
pika_drawable_filter_apply (wt->filter, &rect);
}
}
static void
pika_warp_tool_update_stroke (PikaWarpTool *wt,
GeglNode *node)
{
GeglRectangle bounds = {0, 0, 0, 0};
if (! wt->filter)
return;
if (node)
{
/* update just this stroke */
bounds = pika_warp_tool_get_stroke_bounds (node);
}
else if (wt->render_node)
{
node = gegl_node_get_producer (wt->render_node, "aux", NULL);
bounds = pika_warp_tool_get_node_bounds (node);
}
if (! gegl_rectangle_is_empty (&bounds))
{
#ifdef WARP_DEBUG
g_printerr ("update stroke: (%d,%d), %dx%d\n",
bounds.x, bounds.y,
bounds.width, bounds.height);
#endif
pika_warp_tool_update_area (wt, &bounds, FALSE);
}
}
static void
pika_warp_tool_stroke_append (PikaWarpTool *wt,
gchar type,
gdouble x,
gdouble y)
{
PikaWarpOptions *options = PIKA_WARP_TOOL_GET_OPTIONS (wt);
GeglRectangle area;
if (! wt->filter)
return;
gegl_path_append (wt->current_stroke, type, x, y);
area.x = floor (x - options->effect_size * 0.5);
area.y = floor (y - options->effect_size * 0.5);
area.width = ceil (x + options->effect_size * 0.5) - area.x;
area.height = ceil (y + options->effect_size * 0.5) - area.y;
#ifdef WARP_DEBUG
g_printerr ("update rect: (%d,%d), %dx%d\n",
area.x, area.y,
area.width, area.height);
#endif
if (wt->render_node)
{
GeglNode *node = gegl_node_get_producer (wt->render_node, "aux", NULL);
pika_warp_tool_clear_node_bounds (node);
pika_warp_tool_update_bounds (wt);
}
pika_warp_tool_update_area (wt, &area, options->real_time_preview);
}
static void
pika_warp_tool_filter_flush (PikaDrawableFilter *filter,
PikaTool *tool)
{
PikaImage *image = pika_display_get_image (tool->display);
pika_projection_flush (pika_image_get_projection (image));
}
static void
pika_warp_tool_add_op (PikaWarpTool *wt,
GeglNode *op)
{
GeglNode *last_op;
g_return_if_fail (GEGL_IS_NODE (wt->render_node));
gegl_node_add_child (wt->graph, op);
last_op = gegl_node_get_producer (wt->render_node, "aux", NULL);
gegl_node_disconnect (wt->render_node, "aux");
gegl_node_link (last_op, op);
gegl_node_connect (op, "output",
wt->render_node, "aux");
}
static void
pika_warp_tool_remove_op (PikaWarpTool *wt,
GeglNode *op)
{
GeglNode *previous;
g_return_if_fail (GEGL_IS_NODE (wt->render_node));
previous = gegl_node_get_producer (op, "input", NULL);
gegl_node_disconnect (op, "input");
gegl_node_connect (previous, "output",
wt->render_node, "aux");
gegl_node_remove_child (wt->graph, op);
}
static void
pika_warp_tool_free_op (GeglNode *op)
{
GeglNode *parent;
parent = gegl_node_get_parent (op);
pika_assert (parent != NULL);
gegl_node_remove_child (parent, op);
}
static void
pika_warp_tool_animate (PikaWarpTool *wt)
{
PikaTool *tool = PIKA_TOOL (wt);
PikaWarpOptions *options = PIKA_WARP_TOOL_GET_OPTIONS (wt);
PikaImage *orig_image;
PikaImage *image;
PikaLayer *layer;
PikaLayer *first_layer;
GeglNode *scale_node;
PikaProgress *progress;
GtkWidget *widget;
gint i;
g_return_if_fail (g_list_length (tool->drawables) == 1);
if (! pika_warp_tool_can_undo (tool, tool->display))
{
pika_tool_message_literal (tool, tool->display,
_("Please add some warp strokes first."));
return;
}
/* get rid of the image map so we can use wt->graph */
if (wt->filter)
{
pika_drawable_filter_abort (wt->filter);
g_clear_object (&wt->filter);
}
pika_warp_tool_set_sampler (wt, /* commit = */ TRUE);
pika_progress_start (PIKA_PROGRESS (tool), FALSE,
_("Rendering Frame %d"), 1);
orig_image = pika_item_get_image (PIKA_ITEM (tool->drawables->data));
image = pika_create_image (orig_image->pika,
pika_item_get_width (PIKA_ITEM (tool->drawables->data)),
pika_item_get_height (PIKA_ITEM (tool->drawables->data)),
pika_drawable_get_base_type (tool->drawables->data),
pika_drawable_get_precision (tool->drawables->data),
TRUE);
/* the first frame is always the unwarped image */
layer = PIKA_LAYER (pika_item_convert (PIKA_ITEM (tool->drawables->data), image,
PIKA_TYPE_LAYER));
pika_object_take_name (PIKA_OBJECT (layer),
g_strdup_printf (_("Frame %d"), 1));
pika_item_set_offset (PIKA_ITEM (layer), 0, 0);
pika_item_set_visible (PIKA_ITEM (layer), TRUE, FALSE);
pika_layer_set_mode (layer, pika_image_get_default_new_layer_mode (image),
FALSE);
pika_layer_set_opacity (layer, PIKA_OPACITY_OPAQUE, FALSE);
pika_image_add_layer (image, layer, NULL, 0, FALSE);
first_layer = layer;
scale_node = gegl_node_new_child (NULL,
"operation", "pika:scalar-multiply",
"n-components", 2,
NULL);
pika_warp_tool_add_op (wt, scale_node);
progress = pika_sub_progress_new (PIKA_PROGRESS (tool));
for (i = 1; i < options->n_animation_frames; i++)
{
pika_progress_set_text (PIKA_PROGRESS (tool),
_("Rendering Frame %d"), i + 1);
pika_sub_progress_set_step (PIKA_SUB_PROGRESS (progress),
i, options->n_animation_frames);
layer = PIKA_LAYER (pika_item_duplicate (PIKA_ITEM (first_layer),
PIKA_TYPE_LAYER));
pika_object_take_name (PIKA_OBJECT (layer),
g_strdup_printf (_("Frame %d"), i + 1));
gegl_node_set (scale_node,
"factor", (gdouble) i /
(gdouble) (options->n_animation_frames - 1),
NULL);
pika_gegl_apply_operation (pika_drawable_get_buffer (PIKA_DRAWABLE (first_layer)),
progress,
_("Frame"),
wt->graph,
pika_drawable_get_buffer (PIKA_DRAWABLE (layer)),
NULL, FALSE);
pika_image_add_layer (image, layer, NULL, 0, FALSE);
}
g_object_unref (progress);
pika_warp_tool_remove_op (wt, scale_node);
pika_progress_end (PIKA_PROGRESS (tool));
/* recreate the image map */
pika_warp_tool_create_filter (wt, tool->drawables->data);
pika_warp_tool_update_stroke (wt, NULL);
widget = GTK_WIDGET (pika_display_get_shell (tool->display));
pika_create_display (orig_image->pika, image, PIKA_UNIT_PIXEL, 1.0,
G_OBJECT (pika_widget_get_monitor (widget)));
g_object_unref (image);
}
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