index 1ec0d7fde64e5919f21b7bd6a54f20bb31474d99..bb8e690923e66402bdabd7f5e71914e3267ff809 100644 (file)
* Copyright (C) 1998 The Free Software Foundation
* Copyright (C) 1999-2005 authors
* Copyright (C) 2001-2002 Ximian, Inc.
- * Copyright (C) 2005-2006 bulia byak
+ * Copyright (C) 2005-2007 bulia byak
* Copyright (C) 2006 MenTaLguY
*
* Released under GNU GPL, read the file 'COPYING' for more information
#include <gtk/gtk.h>
#include <gdk/gdkkeysyms.h>
#include <glibmm/i18n.h>
+#include <string>
+#include <cstring>
+#include <numeric>
#include "svg/svg.h"
#include "display/canvas-bpath.h"
-#include "display/bezier-utils.h"
-
+#include <2geom/isnan.h>
+#include <2geom/pathvector.h>
+#include <2geom/bezier-utils.h>
+#include "display/curve.h"
#include <glib/gmem.h>
#include "macros.h"
#include "document.h"
#include "desktop.h"
#include "desktop-events.h"
#include "desktop-handles.h"
-#include "desktop-affine.h"
#include "desktop-style.h"
#include "message-context.h"
+#include "preferences.h"
#include "pixmaps/cursor-calligraphy.xpm"
-#include "dyna-draw-context.h"
-#include "libnr/n-art-bpath.h"
-#include "libnr/nr-path.h"
#include "xml/repr.h"
#include "context-fns.h"
#include "sp-item.h"
#include "inkscape.h"
#include "color.h"
+#include "splivarot.h"
+#include "sp-item-group.h"
+#include "sp-shape.h"
+#include "sp-path.h"
+#include "sp-text.h"
+#include "display/canvas-bpath.h"
+#include "display/canvas-arena.h"
+#include "livarot/Shape.h"
+
+#include "dyna-draw-context.h"
#define DDC_RED_RGBA 0xff0000ff
-#define SAMPLE_TIMEOUT 10
-#define TOLERANCE_LINE 1.0
-#define TOLERANCE_CALLIGRAPHIC 3.0
+#define TOLERANCE_CALLIGRAPHIC 0.1
#define DYNA_EPSILON 0.5e-6
#define DYNA_EPSILON_START 0.5e-2
#define DYNA_MIN_WIDTH 1.0e-6
-#define DRAG_MIN 0.0
-#define DRAG_DEFAULT 1.0
-#define DRAG_MAX 1.0
-
static void sp_dyna_draw_context_class_init(SPDynaDrawContextClass *klass);
static void sp_dyna_draw_context_init(SPDynaDrawContext *ddc);
static void sp_dyna_draw_context_dispose(GObject *object);
static void sp_dyna_draw_context_setup(SPEventContext *ec);
-static void sp_dyna_draw_context_set(SPEventContext *ec, gchar const *key, gchar const *val);
+static void sp_dyna_draw_context_set(SPEventContext *ec, Inkscape::Preferences::Entry *value);
static gint sp_dyna_draw_context_root_handler(SPEventContext *ec, GdkEvent *event);
static void clear_current(SPDynaDrawContext *dc);
-static void set_to_accumulated(SPDynaDrawContext *dc);
-static void add_cap(SPCurve *curve, NR::Point const &pre, NR::Point const &from, NR::Point const &to, NR::Point const &post, double rounding);
-static void accumulate_calligraphic(SPDynaDrawContext *dc);
+static void set_to_accumulated(SPDynaDrawContext *dc, bool unionize, bool subtract);
+static void add_cap(SPCurve *curve, Geom::Point const &from, Geom::Point const &to, double rounding);
+static bool accumulate_calligraphic(SPDynaDrawContext *dc);
static void fit_and_split(SPDynaDrawContext *ddc, gboolean release);
-static void sp_dyna_draw_reset(SPDynaDrawContext *ddc, NR::Point p);
-static NR::Point sp_dyna_draw_get_npoint(SPDynaDrawContext const *ddc, NR::Point v);
-static NR::Point sp_dyna_draw_get_vpoint(SPDynaDrawContext const *ddc, NR::Point n);
+static void sp_dyna_draw_reset(SPDynaDrawContext *ddc, Geom::Point p);
+static Geom::Point sp_dyna_draw_get_npoint(SPDynaDrawContext const *ddc, Geom::Point v);
+static Geom::Point sp_dyna_draw_get_vpoint(SPDynaDrawContext const *ddc, Geom::Point n);
static void draw_temporary_box(SPDynaDrawContext *dc);
-static SPEventContextClass *parent_class;
+static SPEventContextClass *dd_parent_class = 0;
-GtkType
-sp_dyna_draw_context_get_type(void)
+GType sp_dyna_draw_context_get_type(void)
{
static GType type = 0;
if (!type) {
GTypeInfo info = {
sizeof(SPDynaDrawContextClass),
- NULL, NULL,
- (GClassInitFunc) sp_dyna_draw_context_class_init,
- NULL, NULL,
+ 0, // base_init
+ 0, // base_finalize
+ (GClassInitFunc)sp_dyna_draw_context_class_init,
+ 0, // class_finalize
+ 0, // class_data
sizeof(SPDynaDrawContext),
- 4,
- (GInstanceInitFunc) sp_dyna_draw_context_init,
- NULL, /* value_table */
+ 0, // n_preallocs
+ (GInstanceInitFunc)sp_dyna_draw_context_init,
+ 0 // value_table
};
- type = g_type_register_static(SP_TYPE_EVENT_CONTEXT, "SPDynaDrawContext", &info, (GTypeFlags)0);
+ type = g_type_register_static(SP_TYPE_COMMON_CONTEXT, "SPDynaDrawContext", &info, static_cast<GTypeFlags>(0));
}
return type;
}
GObjectClass *object_class = (GObjectClass *) klass;
SPEventContextClass *event_context_class = (SPEventContextClass *) klass;
- parent_class = (SPEventContextClass*)g_type_class_peek_parent(klass);
+ dd_parent_class = (SPEventContextClass*)g_type_class_peek_parent(klass);
object_class->dispose = sp_dyna_draw_context_dispose;
static void
sp_dyna_draw_context_init(SPDynaDrawContext *ddc)
{
- SPEventContext *event_context = SP_EVENT_CONTEXT(ddc);
-
- event_context->cursor_shape = cursor_calligraphy_xpm;
- event_context->hot_x = 4;
- event_context->hot_y = 4;
-
- ddc->accumulated = NULL;
- ddc->segments = NULL;
- ddc->currentcurve = NULL;
- ddc->currentshape = NULL;
- ddc->npoints = 0;
- ddc->cal1 = NULL;
- ddc->cal2 = NULL;
- ddc->repr = NULL;
-
- /* DynaDraw values */
- ddc->cur = NR::Point(0,0);
- ddc->last = NR::Point(0,0);
- ddc->vel = NR::Point(0,0);
- ddc->vel_max = 0;
- ddc->acc = NR::Point(0,0);
- ddc->ang = NR::Point(0,0);
- ddc->del = NR::Point(0,0);
-
- /* attributes */
- ddc->dragging = FALSE;
-
- ddc->mass = 0.3;
- ddc->drag = DRAG_DEFAULT;
- ddc->angle = 30.0;
- ddc->width = 0.2;
+ ddc->cursor_shape = cursor_calligraphy_xpm;
+ ddc->hot_x = 4;
+ ddc->hot_y = 4;
ddc->vel_thin = 0.1;
ddc->flatness = 0.9;
ddc->abs_width = false;
ddc->keep_selected = true;
+
+ ddc->hatch_spacing = 0;
+ ddc->hatch_spacing_step = 0;
+ new (&ddc->hatch_pointer_past) std::list<double>();
+ new (&ddc->hatch_nearest_past) std::list<double>();
+ new (&ddc->inertia_vectors) std::list<Geom::Point>();
+ new (&ddc->hatch_vectors) std::list<Geom::Point>();
+ ddc->hatch_last_nearest = Geom::Point(0,0);
+ ddc->hatch_last_pointer = Geom::Point(0,0);
+ ddc->hatch_escaped = false;
+ ddc->hatch_area = NULL;
+ ddc->hatch_item = NULL;
+ ddc->hatch_livarot_path = NULL;
+
+ ddc->trace_bg = false;
+ ddc->just_started_drawing = false;
}
static void
{
SPDynaDrawContext *ddc = SP_DYNA_DRAW_CONTEXT(object);
- if (ddc->accumulated) {
- ddc->accumulated = sp_curve_unref(ddc->accumulated);
+ if (ddc->hatch_area) {
+ gtk_object_destroy(GTK_OBJECT(ddc->hatch_area));
+ ddc->hatch_area = NULL;
}
- while (ddc->segments) {
- gtk_object_destroy(GTK_OBJECT(ddc->segments->data));
- ddc->segments = g_slist_remove(ddc->segments, ddc->segments->data);
- }
- if (ddc->currentcurve) ddc->currentcurve = sp_curve_unref(ddc->currentcurve);
- if (ddc->cal1) ddc->cal1 = sp_curve_unref(ddc->cal1);
- if (ddc->cal2) ddc->cal2 = sp_curve_unref(ddc->cal2);
+ G_OBJECT_CLASS(dd_parent_class)->dispose(object);
- if (ddc->currentshape) {
- gtk_object_destroy(GTK_OBJECT(ddc->currentshape));
- ddc->currentshape = NULL;
- }
-
- if (ddc->_message_context) {
- delete ddc->_message_context;
- }
-
- G_OBJECT_CLASS(parent_class)->dispose(object);
+ ddc->hatch_pointer_past.~list();
+ ddc->hatch_nearest_past.~list();
+ ddc->inertia_vectors.~list();
+ ddc->hatch_vectors.~list();
}
static void
{
SPDynaDrawContext *ddc = SP_DYNA_DRAW_CONTEXT(ec);
- if (((SPEventContextClass *) parent_class)->setup)
- ((SPEventContextClass *) parent_class)->setup(ec);
+ if (((SPEventContextClass *) dd_parent_class)->setup)
+ ((SPEventContextClass *) dd_parent_class)->setup(ec);
- ddc->accumulated = sp_curve_new_sized(32);
- ddc->currentcurve = sp_curve_new_sized(4);
+ ddc->accumulated = new SPCurve();
+ ddc->currentcurve = new SPCurve();
- ddc->cal1 = sp_curve_new_sized(32);
- ddc->cal2 = sp_curve_new_sized(32);
+ ddc->cal1 = new SPCurve();
+ ddc->cal2 = new SPCurve();
ddc->currentshape = sp_canvas_item_new(sp_desktop_sketch(ec->desktop), SP_TYPE_CANVAS_BPATH, NULL);
sp_canvas_bpath_set_fill(SP_CANVAS_BPATH(ddc->currentshape), DDC_RED_RGBA, SP_WIND_RULE_EVENODD);
/* fixme: Cannot we cascade it to root more clearly? */
g_signal_connect(G_OBJECT(ddc->currentshape), "event", G_CALLBACK(sp_desktop_root_handler), ec->desktop);
+ {
+ /* TODO: this can be done either with an arcto, and should maybe also be put in a general file (other tools use this as well) */
+ SPCurve *c = new SPCurve();
+ const double C1 = 0.552;
+ c->moveto(-1,0);
+ c->curveto(-1, C1, -C1, 1, 0, 1 );
+ c->curveto(C1, 1, 1, C1, 1, 0 );
+ c->curveto(1, -C1, C1, -1, 0, -1 );
+ c->curveto(-C1, -1, -1, -C1, -1, 0 );
+ c->closepath();
+ ddc->hatch_area = sp_canvas_bpath_new(sp_desktop_controls(ec->desktop), c);
+ c->unref();
+ sp_canvas_bpath_set_fill(SP_CANVAS_BPATH(ddc->hatch_area), 0x00000000,(SPWindRule)0);
+ sp_canvas_bpath_set_stroke(SP_CANVAS_BPATH(ddc->hatch_area), 0x0000007f, 1.0, SP_STROKE_LINEJOIN_MITER, SP_STROKE_LINECAP_BUTT);
+ sp_canvas_item_hide(ddc->hatch_area);
+ }
+
sp_event_context_read(ec, "mass");
sp_event_context_read(ec, "wiggle");
sp_event_context_read(ec, "angle");
sp_event_context_read(ec, "thinning");
sp_event_context_read(ec, "tremor");
sp_event_context_read(ec, "flatness");
+ sp_event_context_read(ec, "tracebackground");
sp_event_context_read(ec, "usepressure");
sp_event_context_read(ec, "usetilt");
sp_event_context_read(ec, "abs_width");
sp_event_context_read(ec, "cap_rounding");
ddc->is_drawing = false;
-
ddc->_message_context = new Inkscape::MessageContext((ec->desktop)->messageStack());
+
+ Inkscape::Preferences *prefs = Inkscape::Preferences::get();
+ if (prefs->getBool("/tools/calligraphic/selcue")) {
+ ec->enableSelectionCue();
+ }
}
static void
-sp_dyna_draw_context_set(SPEventContext *ec, gchar const *key, gchar const *val)
+sp_dyna_draw_context_set(SPEventContext *ec, Inkscape::Preferences::Entry *val)
{
SPDynaDrawContext *ddc = SP_DYNA_DRAW_CONTEXT(ec);
+ Glib::ustring path = val->getEntryName();
- if (!strcmp(key, "mass")) {
- double const dval = ( val ? g_ascii_strtod (val, NULL) : 0.2 );
- ddc->mass = CLAMP(dval, -1000.0, 1000.0);
- } else if (!strcmp(key, "wiggle")) {
- double const dval = ( val ? g_ascii_strtod (val, NULL) : (1 - DRAG_DEFAULT));
- ddc->drag = CLAMP((1 - dval), DRAG_MIN, DRAG_MAX); // drag is inverse to wiggle
- } else if (!strcmp(key, "angle")) {
- double const dval = ( val ? g_ascii_strtod (val, NULL) : 0.0);
- ddc->angle = CLAMP (dval, -90, 90);
- } else if (!strcmp(key, "width")) {
- double const dval = ( val ? g_ascii_strtod (val, NULL) : 0.1 );
- ddc->width = CLAMP(dval, -1000.0, 1000.0);
- } else if (!strcmp(key, "thinning")) {
- double const dval = ( val ? g_ascii_strtod (val, NULL) : 0.1 );
- ddc->vel_thin = CLAMP(dval, -1.0, 1.0);
- } else if (!strcmp(key, "tremor")) {
- double const dval = ( val ? g_ascii_strtod (val, NULL) : 0.0 );
- ddc->tremor = CLAMP(dval, 0.0, 1.0);
- } else if (!strcmp(key, "flatness")) {
- double const dval = ( val ? g_ascii_strtod (val, NULL) : 1.0 );
- ddc->flatness = CLAMP(dval, 0, 1.0);
- } else if (!strcmp(key, "usepressure")) {
- ddc->usepressure = (val && strcmp(val, "0"));
- } else if (!strcmp(key, "usetilt")) {
- ddc->usetilt = (val && strcmp(val, "0"));
- } else if (!strcmp(key, "abs_width")) {
- ddc->abs_width = (val && strcmp(val, "0"));
- } else if (!strcmp(key, "keep_selected")) {
- ddc->keep_selected = (val && strcmp(val, "0"));
- } else if (!strcmp(key, "cap_rounding")) {
- ddc->cap_rounding = ( val ? g_ascii_strtod (val, NULL) : 0.0 );
+ if (path == "tracebackground") {
+ ddc->trace_bg = val->getBool();
+ } else if (path == "keep_selected") {
+ ddc->keep_selected = val->getBool();
+ } else {
+ //pass on up to parent class to handle common attributes.
+ if ( dd_parent_class->set ) {
+ dd_parent_class->set(ec, val);
+ }
}
//g_print("DDC: %g %g %g %g\n", ddc->mass, ddc->drag, ddc->angle, ddc->width);
}
/* Get normalized point */
-static NR::Point
-sp_dyna_draw_get_npoint(SPDynaDrawContext const *dc, NR::Point v)
+static Geom::Point
+sp_dyna_draw_get_npoint(SPDynaDrawContext const *dc, Geom::Point v)
{
- NR::Rect drect = SP_EVENT_CONTEXT(dc)->desktop->get_display_area();
- double const max = MAX ( drect.dimensions()[NR::X], drect.dimensions()[NR::Y] );
- return NR::Point(( v[NR::X] - drect.min()[NR::X] ) / max, ( v[NR::Y] - drect.min()[NR::Y] ) / max);
+ Geom::Rect drect = SP_EVENT_CONTEXT(dc)->desktop->get_display_area();
+ double const max = MAX ( drect.dimensions()[Geom::X], drect.dimensions()[Geom::Y] );
+ return Geom::Point(( v[Geom::X] - drect.min()[Geom::X] ) / max, ( v[Geom::Y] - drect.min()[Geom::Y] ) / max);
}
/* Get view point */
-static NR::Point
-sp_dyna_draw_get_vpoint(SPDynaDrawContext const *dc, NR::Point n)
+static Geom::Point
+sp_dyna_draw_get_vpoint(SPDynaDrawContext const *dc, Geom::Point n)
{
- NR::Rect drect = SP_EVENT_CONTEXT(dc)->desktop->get_display_area();
- double const max = MAX ( drect.dimensions()[NR::X], drect.dimensions()[NR::Y] );
- return NR::Point(n[NR::X] * max + drect.min()[NR::X], n[NR::Y] * max + drect.min()[NR::Y]);
+ Geom::Rect drect = SP_EVENT_CONTEXT(dc)->desktop->get_display_area();
+ double const max = MAX ( drect.dimensions()[Geom::X], drect.dimensions()[Geom::Y] );
+ return Geom::Point(n[Geom::X] * max + drect.min()[Geom::X], n[Geom::Y] * max + drect.min()[Geom::Y]);
}
static void
-sp_dyna_draw_reset(SPDynaDrawContext *dc, NR::Point p)
+sp_dyna_draw_reset(SPDynaDrawContext *dc, Geom::Point p)
{
dc->last = dc->cur = sp_dyna_draw_get_npoint(dc, p);
- dc->vel = NR::Point(0,0);
+ dc->vel = Geom::Point(0,0);
dc->vel_max = 0;
- dc->acc = NR::Point(0,0);
- dc->ang = NR::Point(0,0);
- dc->del = NR::Point(0,0);
+ dc->acc = Geom::Point(0,0);
+ dc->ang = Geom::Point(0,0);
+ dc->del = Geom::Point(0,0);
}
static void
static gboolean
-sp_dyna_draw_apply(SPDynaDrawContext *dc, NR::Point p)
+sp_dyna_draw_apply(SPDynaDrawContext *dc, Geom::Point p)
{
- NR::Point n = sp_dyna_draw_get_npoint(dc, p);
+ Geom::Point n = sp_dyna_draw_get_npoint(dc, p);
/* Calculate mass and drag */
double const mass = flerp(1.0, 160.0, dc->mass);
double const drag = flerp(0.0, 0.5, dc->drag * dc->drag);
/* Calculate force and acceleration */
- NR::Point force = n - dc->cur;
- if ( NR::L2(force) < DYNA_EPSILON || (dc->vel_max < DYNA_VEL_START && NR::L2(force) < DYNA_EPSILON_START)) {
+ Geom::Point force = n - dc->cur;
+
+ // If force is below the absolute threshold DYNA_EPSILON,
+ // or we haven't yet reached DYNA_VEL_START (i.e. at the beginning of stroke)
+ // _and_ the force is below the (higher) DYNA_EPSILON_START threshold,
+ // discard this move.
+ // This prevents flips, blobs, and jerks caused by microscopic tremor of the tablet pen,
+ // especially bothersome at the start of the stroke where we don't yet have the inertia to
+ // smooth them out.
+ if ( Geom::L2(force) < DYNA_EPSILON || (dc->vel_max < DYNA_VEL_START && Geom::L2(force) < DYNA_EPSILON_START)) {
return FALSE;
}
/* Calculate new velocity */
dc->vel += dc->acc;
- if (NR::L2(dc->vel) > dc->vel_max)
- dc->vel_max = NR::L2(dc->vel);
+ if (Geom::L2(dc->vel) > dc->vel_max)
+ dc->vel_max = Geom::L2(dc->vel);
/* Calculate angle of drawing tool */
gdouble length = std::sqrt(dc->xtilt*dc->xtilt + dc->ytilt*dc->ytilt);;
if (length > 0) {
- NR::Point ang1 = NR::Point(dc->ytilt/length, dc->xtilt/length);
+ Geom::Point ang1 = Geom::Point(dc->ytilt/length, dc->xtilt/length);
a1 = atan2(ang1);
}
else
else {
// 1b. fixed dc->angle (absolutely flat nib):
double const radians = ( (dc->angle - 90) / 180.0 ) * M_PI;
- NR::Point ang1 = NR::Point(-sin(radians), cos(radians));
+ Geom::Point ang1 = Geom::Point(-sin(radians), cos(radians));
a1 = atan2(ang1);
}
// 2. perpendicular to dc->vel (absolutely non-flat nib):
- gdouble const mag_vel = NR::L2(dc->vel);
+ gdouble const mag_vel = Geom::L2(dc->vel);
if ( mag_vel < DYNA_EPSILON ) {
return FALSE;
}
- NR::Point ang2 = NR::rot90(dc->vel) / mag_vel;
+ Geom::Point ang2 = Geom::rot90(dc->vel) / mag_vel;
// 3. Average them using flatness parameter:
// calculate angles
// FIXME: when dc->vel is oscillating around the fixed angle, the new_ang flips back and forth. How to avoid this?
double new_ang = a1 + (1 - dc->flatness) * (a2 - a1) - (flipped? M_PI : 0);
- double angle_delta = NR::L2(NR::Point (cos (new_ang), sin (new_ang)) - dc->ang);
-
- if ( angle_delta / NR::L2(dc->vel) > 4000 ) {
+ // Try to detect a sudden flip when the new angle differs too much from the previous for the
+ // current velocity; in that case discard this move
+ double angle_delta = Geom::L2(Geom::Point (cos (new_ang), sin (new_ang)) - dc->ang);
+ if ( angle_delta / Geom::L2(dc->vel) > 4000 ) {
return FALSE;
}
// convert to point
- dc->ang = NR::Point (cos (new_ang), sin (new_ang));
+ dc->ang = Geom::Point (cos (new_ang), sin (new_ang));
-// g_print ("force %g acc %g vel_max %g vel %g a1 %g a2 %g new_ang %g\n", NR::L2(force), NR::L2(dc->acc), dc->vel_max, NR::L2(dc->vel), a1, a2, new_ang);
+// g_print ("force %g acc %g vel_max %g vel %g a1 %g a2 %g new_ang %g\n", Geom::L2(force), Geom::L2(dc->acc), dc->vel_max, Geom::L2(dc->vel), a1, a2, new_ang);
/* Apply drag */
dc->vel *= 1.0 - drag;
// Influence of pressure on thickness
double pressure_thick = (dc->usepressure ? dc->pressure : 1.0);
- double width = ( pressure_thick - vel_thin * NR::L2(dc->vel) ) * dc->width;
+ // get the real brush point, not the same as pointer (affected by hatch tracking and/or mass
+ // drag)
+ Geom::Point brush = sp_dyna_draw_get_vpoint(dc, dc->cur);
+ Geom::Point brush_w = SP_EVENT_CONTEXT(dc)->desktop->d2w(brush);
+
+ double trace_thick = 1;
+ if (dc->trace_bg) {
+ // pick single pixel
+ NRPixBlock pb;
+ int x = (int) floor(brush_w[Geom::X]);
+ int y = (int) floor(brush_w[Geom::Y]);
+ nr_pixblock_setup_fast(&pb, NR_PIXBLOCK_MODE_R8G8B8A8P, x, y, x+1, y+1, TRUE);
+ sp_canvas_arena_render_pixblock(SP_CANVAS_ARENA(sp_desktop_drawing(SP_EVENT_CONTEXT(dc)->desktop)), &pb);
+ const unsigned char *s = NR_PIXBLOCK_PX(&pb);
+ double R = s[0] / 255.0;
+ double G = s[1] / 255.0;
+ double B = s[2] / 255.0;
+ double A = s[3] / 255.0;
+ double max = MAX (MAX (R, G), B);
+ double min = MIN (MIN (R, G), B);
+ double L = A * (max + min)/2 + (1 - A); // blend with white bg
+ trace_thick = 1 - L;
+ //g_print ("L %g thick %g\n", L, trace_thick);
+ }
+
+ double width = (pressure_thick * trace_thick - vel_thin * Geom::L2(dc->vel)) * dc->width;
double tremble_left = 0, tremble_right = 0;
if (dc->tremor > 0) {
// (2) deflection depends on width, but is upped for small widths for better visual uniformity across widths;
// (3) deflection somewhat depends on speed, to prevent fast strokes looking
// comparatively smooth and slow ones excessively jittery
- tremble_left = (y1)*dc->tremor * (0.15 + 0.8*width) * (0.35 + 14*NR::L2(dc->vel));
- tremble_right = (y2)*dc->tremor * (0.15 + 0.8*width) * (0.35 + 14*NR::L2(dc->vel));
+ tremble_left = (y1)*dc->tremor * (0.15 + 0.8*width) * (0.35 + 14*Geom::L2(dc->vel));
+ tremble_right = (y2)*dc->tremor * (0.15 + 0.8*width) * (0.35 + 14*Geom::L2(dc->vel));
}
if ( width < 0.02 * dc->width ) {
dezoomify_factor /= SP_EVENT_CONTEXT(dc)->desktop->current_zoom();
}
- NR::Point del_left = dezoomify_factor * (width + tremble_left) * dc->ang;
- NR::Point del_right = dezoomify_factor * (width + tremble_right) * dc->ang;
-
- NR::Point abs_middle = sp_dyna_draw_get_vpoint(dc, dc->cur);
+ Geom::Point del_left = dezoomify_factor * (width + tremble_left) * dc->ang;
+ Geom::Point del_right = dezoomify_factor * (width + tremble_right) * dc->ang;
- dc->point1[dc->npoints] = abs_middle + del_left;
- dc->point2[dc->npoints] = abs_middle - del_right;
+ dc->point1[dc->npoints] = brush + del_left;
+ dc->point2[dc->npoints] = brush - del_right;
dc->del = 0.5*(del_left + del_right);
desktop->setToolboxAdjustmentValue (id, value);
}
+static void
+calligraphic_cancel(SPDynaDrawContext *dc)
+{
+ SPDesktop *desktop = SP_EVENT_CONTEXT(dc)->desktop;
+ dc->dragging = FALSE;
+ dc->is_drawing = false;
+ sp_canvas_item_ungrab(SP_CANVAS_ITEM(desktop->acetate), 0);
+ /* Remove all temporary line segments */
+ while (dc->segments) {
+ gtk_object_destroy(GTK_OBJECT(dc->segments->data));
+ dc->segments = g_slist_remove(dc->segments, dc->segments->data);
+ }
+ /* reset accumulated curve */
+ dc->accumulated->reset();
+ clear_current(dc);
+ if (dc->repr) {
+ dc->repr = NULL;
+ }
+}
+
+
gint
sp_dyna_draw_context_root_handler(SPEventContext *event_context,
GdkEvent *event)
gint ret = FALSE;
switch (event->type) {
- case GDK_BUTTON_PRESS:
- if ( event->button.button == 1 ) {
+ case GDK_BUTTON_PRESS:
+ if (event->button.button == 1 && !event_context->space_panning) {
- SPDesktop *desktop = SP_EVENT_CONTEXT_DESKTOP(dc);
+ SPDesktop *desktop = SP_EVENT_CONTEXT_DESKTOP(dc);
- if (Inkscape::have_viable_layer(desktop, dc->_message_context) == false) {
- return TRUE;
- }
+ if (Inkscape::have_viable_layer(desktop, dc->_message_context) == false) {
+ return TRUE;
+ }
- NR::Point const button_w(event->button.x,
- event->button.y);
- NR::Point const button_dt(desktop->w2d(button_w));
- sp_dyna_draw_reset(dc, button_dt);
- sp_dyna_draw_extinput(dc, event);
- sp_dyna_draw_apply(dc, button_dt);
- sp_curve_reset(dc->accumulated);
- if (dc->repr) {
- dc->repr = NULL;
+ dc->accumulated->reset();
+ if (dc->repr) {
+ dc->repr = NULL;
+ }
+
+ /* initialize first point */
+ dc->npoints = 0;
+
+ sp_canvas_item_grab(SP_CANVAS_ITEM(desktop->acetate),
+ ( GDK_KEY_PRESS_MASK |
+ GDK_BUTTON_RELEASE_MASK |
+ GDK_POINTER_MOTION_MASK |
+ GDK_BUTTON_PRESS_MASK ),
+ NULL,
+ event->button.time);
+
+ ret = TRUE;
+
+ sp_canvas_force_full_redraw_after_interruptions(desktop->canvas, 3);
+ dc->is_drawing = true;
+ dc->just_started_drawing = true;
}
+ break;
+ case GDK_MOTION_NOTIFY:
+ {
+ Geom::Point const motion_w(event->motion.x,
+ event->motion.y);
+ Geom::Point motion_dt(desktop->w2d(motion_w));
+ sp_dyna_draw_extinput(dc, event);
- /* initialize first point */
- dc->npoints = 0;
+ dc->_message_context->clear();
- sp_canvas_item_grab(SP_CANVAS_ITEM(desktop->acetate),
- ( GDK_KEY_PRESS_MASK |
- GDK_BUTTON_RELEASE_MASK |
- GDK_POINTER_MOTION_MASK |
- GDK_BUTTON_PRESS_MASK ),
- NULL,
- event->button.time);
+ // for hatching:
+ double hatch_dist = 0;
+ Geom::Point hatch_unit_vector(0,0);
+ Geom::Point nearest(0,0);
+ Geom::Point pointer(0,0);
+ Geom::Matrix motion_to_curve(Geom::identity());
- ret = TRUE;
+ if (event->motion.state & GDK_CONTROL_MASK) { // hatching - sense the item
- dc->is_drawing = true;
- }
- break;
- case GDK_MOTION_NOTIFY:
- if ( dc->is_drawing && ( event->motion.state & GDK_BUTTON1_MASK ) ) {
- dc->dragging = TRUE;
+ SPItem *selected = sp_desktop_selection(desktop)->singleItem();
+ if (selected && (SP_IS_SHAPE(selected) || SP_IS_TEXT(selected))) {
+ // One item selected, and it's a path;
+ // let's try to track it as a guide
- NR::Point const motion_w(event->motion.x,
- event->motion.y);
- NR::Point const motion_dt(desktop->w2d(motion_w));
+ if (selected != dc->hatch_item) {
+ dc->hatch_item = selected;
+ if (dc->hatch_livarot_path)
+ delete dc->hatch_livarot_path;
+ dc->hatch_livarot_path = Path_for_item (dc->hatch_item, true, true);
+ dc->hatch_livarot_path->ConvertWithBackData(0.01);
+ }
- sp_dyna_draw_extinput(dc, event);
- if (!sp_dyna_draw_apply(dc, motion_dt)) {
+ // calculate pointer point in the guide item's coords
+ motion_to_curve = sp_item_dt2i_affine(selected) * sp_item_i2doc_affine(selected);
+ pointer = motion_dt * motion_to_curve;
+
+ // calculate the nearest point on the guide path
+ boost::optional<Path::cut_position> position = get_nearest_position_on_Path(dc->hatch_livarot_path, pointer);
+ nearest = get_point_on_Path(dc->hatch_livarot_path, position->piece, position->t);
+
+
+ // distance from pointer to nearest
+ hatch_dist = Geom::L2(pointer - nearest);
+ // unit-length vector
+ hatch_unit_vector = (pointer - nearest)/hatch_dist;
+
+ dc->_message_context->set(Inkscape::NORMAL_MESSAGE, _("<b>Guide path selected</b>; start drawing along the guide with <b>Ctrl</b>"));
+ } else {
+ dc->_message_context->set(Inkscape::NORMAL_MESSAGE, _("<b>Select a guide path</b> to track with <b>Ctrl</b>"));
+ }
+ }
+
+ if ( dc->is_drawing && (event->motion.state & GDK_BUTTON1_MASK) && !event_context->space_panning) {
+ dc->dragging = TRUE;
+
+ if (event->motion.state & GDK_CONTROL_MASK && dc->hatch_item) { // hatching
+
+#define HATCH_VECTOR_ELEMENTS 12
+#define INERTIA_ELEMENTS 24
+#define SPEED_ELEMENTS 12
+#define SPEED_MIN 0.3
+#define SPEED_NORMAL 0.35
+#define INERTIA_FORCE 0.5
+
+ // speed is the movement of the nearest point along the guide path, divided by
+ // the movement of the pointer at the same period; it is averaged for the last
+ // SPEED_ELEMENTS motion events. Normally, as you track the guide path, speed
+ // is about 1, i.e. the nearest point on the path is moved by about the same
+ // distance as the pointer. If the speed starts to decrease, we are losing
+ // contact with the guide; if it drops below SPEED_MIN, we are on our own and
+ // not attracted to guide anymore. Most often this happens when you have
+ // tracked to the end of a guide calligraphic stroke and keep moving
+ // further. We try to handle this situation gracefully: not stick with the
+ // guide forever but let go of it smoothly and without sharp jerks (non-zero
+ // mass recommended; with zero mass, jerks are still quite noticeable).
+
+ double speed = 1;
+ if (Geom::L2(dc->hatch_last_nearest) != 0) {
+ // the distance nearest moved since the last motion event
+ double nearest_moved = Geom::L2(nearest - dc->hatch_last_nearest);
+ // the distance pointer moved since the last motion event
+ double pointer_moved = Geom::L2(pointer - dc->hatch_last_pointer);
+ // store them in stacks limited to SPEED_ELEMENTS
+ dc->hatch_nearest_past.push_front(nearest_moved);
+ if (dc->hatch_nearest_past.size() > SPEED_ELEMENTS)
+ dc->hatch_nearest_past.pop_back();
+ dc->hatch_pointer_past.push_front(pointer_moved);
+ if (dc->hatch_pointer_past.size() > SPEED_ELEMENTS)
+ dc->hatch_pointer_past.pop_back();
+
+ // If the stacks are full,
+ if (dc->hatch_nearest_past.size() == SPEED_ELEMENTS) {
+ // calculate the sums of all stored movements
+ double nearest_sum = std::accumulate (dc->hatch_nearest_past.begin(), dc->hatch_nearest_past.end(), 0.0);
+ double pointer_sum = std::accumulate (dc->hatch_pointer_past.begin(), dc->hatch_pointer_past.end(), 0.0);
+ // and divide to get the speed
+ speed = nearest_sum/pointer_sum;
+ //g_print ("nearest sum %g pointer_sum %g speed %g\n", nearest_sum, pointer_sum, speed);
+ }
+ }
+
+ if ( dc->hatch_escaped // already escaped, do not reattach
+ || (speed < SPEED_MIN) // stuck; most likely reached end of traced stroke
+ || (dc->hatch_spacing > 0 && hatch_dist > 50 * dc->hatch_spacing) // went too far from the guide
+ ) {
+ // We are NOT attracted to the guide!
+
+ //g_print ("\nlast_nearest %g %g nearest %g %g pointer %g %g pos %d %g\n", dc->last_nearest[Geom::X], dc->last_nearest[Geom::Y], nearest[Geom::X], nearest[Geom::Y], pointer[Geom::X], pointer[Geom::Y], position->piece, position->t);
+
+ // Remember hatch_escaped so we don't get
+ // attracted again until the end of this stroke
+ dc->hatch_escaped = true;
+
+ if (dc->inertia_vectors.size() >= INERTIA_ELEMENTS/2) { // move by inertia
+ Geom::Point moved_past_escape = motion_dt - dc->inertia_vectors.front();
+ Geom::Point inertia =
+ dc->inertia_vectors.front() - dc->inertia_vectors.back();
+
+ double dot = Geom::dot (moved_past_escape, inertia);
+ dot /= Geom::L2(moved_past_escape) * Geom::L2(inertia);
+
+ if (dot > 0) { // mouse is still moving in approx the same direction
+ Geom::Point should_have_moved =
+ (inertia) * (1/Geom::L2(inertia)) * Geom::L2(moved_past_escape);
+ motion_dt = dc->inertia_vectors.front() +
+ (INERTIA_FORCE * should_have_moved + (1 - INERTIA_FORCE) * moved_past_escape);
+ }
+ }
+
+ } else {
+
+ // Calculate angle cosine of this vector-to-guide and all past vectors
+ // summed, to detect if we accidentally flipped to the other side of the
+ // guide
+ Geom::Point hatch_vector_accumulated = std::accumulate
+ (dc->hatch_vectors.begin(), dc->hatch_vectors.end(), Geom::Point(0,0));
+ double dot = Geom::dot (pointer - nearest, hatch_vector_accumulated);
+ dot /= Geom::L2(pointer - nearest) * Geom::L2(hatch_vector_accumulated);
+
+ if (dc->hatch_spacing != 0) { // spacing was already set
+ double target;
+ if (speed > SPEED_NORMAL) {
+ // all ok, strictly obey the spacing
+ target = dc->hatch_spacing;
+ } else {
+ // looks like we're starting to lose speed,
+ // so _gradually_ let go attraction to prevent jerks
+ target = (dc->hatch_spacing * speed + hatch_dist * (SPEED_NORMAL - speed))/SPEED_NORMAL;
+ }
+ if (!IS_NAN(dot) && dot < -0.5) {// flip
+ target = -target;
+ }
+
+ // This is the track pointer that we will use instead of the real one
+ Geom::Point new_pointer = nearest + target * hatch_unit_vector;
+
+ // some limited feedback: allow persistent pulling to slightly change
+ // the spacing
+ dc->hatch_spacing += (hatch_dist - dc->hatch_spacing)/3500;
+
+ // return it to the desktop coords
+ motion_dt = new_pointer * motion_to_curve.inverse();
+
+ if (speed >= SPEED_NORMAL) {
+ dc->inertia_vectors.push_front(motion_dt);
+ if (dc->inertia_vectors.size() > INERTIA_ELEMENTS)
+ dc->inertia_vectors.pop_back();
+ }
+
+ } else {
+ // this is the first motion event, set the dist
+ dc->hatch_spacing = hatch_dist;
+ }
+
+ // remember last points
+ dc->hatch_last_pointer = pointer;
+ dc->hatch_last_nearest = nearest;
+
+ dc->hatch_vectors.push_front(pointer - nearest);
+ if (dc->hatch_vectors.size() > HATCH_VECTOR_ELEMENTS)
+ dc->hatch_vectors.pop_back();
+ }
+
+ dc->_message_context->set(Inkscape::NORMAL_MESSAGE, dc->hatch_escaped? _("Tracking: <b>connection to guide path lost!</b>") : _("<b>Tracking</b> a guide path"));
+
+ } else {
+ dc->_message_context->set(Inkscape::NORMAL_MESSAGE, _("<b>Drawing</b> a calligraphic stroke"));
+ }
+
+ if (dc->just_started_drawing) {
+ dc->just_started_drawing = false;
+ sp_dyna_draw_reset(dc, motion_dt);
+ }
+
+ if (!sp_dyna_draw_apply(dc, motion_dt)) {
+ ret = TRUE;
+ break;
+ }
+
+ if ( dc->cur != dc->last ) {
+ sp_dyna_draw_brush(dc);
+ g_assert( dc->npoints > 0 );
+ fit_and_split(dc, FALSE);
+ }
ret = TRUE;
- break;
}
- if ( dc->cur != dc->last ) {
- sp_dyna_draw_brush(dc);
- g_assert( dc->npoints > 0 );
- fit_and_split(dc, FALSE);
+ // Draw the hatching circle if necessary
+ if (event->motion.state & GDK_CONTROL_MASK) {
+ if (dc->hatch_spacing == 0 && hatch_dist != 0) {
+ // Haven't set spacing yet: gray, center free, update radius live
+ Geom::Point c = desktop->w2d(motion_w);
+ Geom::Matrix const sm (Geom::Scale(hatch_dist, hatch_dist) * Geom::Translate(c));
+ sp_canvas_item_affine_absolute(dc->hatch_area, sm);
+ sp_canvas_bpath_set_stroke(SP_CANVAS_BPATH(dc->hatch_area), 0x7f7f7fff, 1.0, SP_STROKE_LINEJOIN_MITER, SP_STROKE_LINECAP_BUTT);
+ sp_canvas_item_show(dc->hatch_area);
+ } else if (dc->dragging && !dc->hatch_escaped) {
+ // Tracking: green, center snapped, fixed radius
+ Geom::Point c = motion_dt;
+ Geom::Matrix const sm (Geom::Scale(dc->hatch_spacing, dc->hatch_spacing) * Geom::Translate(c));
+ sp_canvas_item_affine_absolute(dc->hatch_area, sm);
+ sp_canvas_bpath_set_stroke(SP_CANVAS_BPATH(dc->hatch_area), 0x00FF00ff, 1.0, SP_STROKE_LINEJOIN_MITER, SP_STROKE_LINECAP_BUTT);
+ sp_canvas_item_show(dc->hatch_area);
+ } else if (dc->dragging && dc->hatch_escaped) {
+ // Tracking escaped: red, center free, fixed radius
+ Geom::Point c = motion_dt;
+ Geom::Matrix const sm (Geom::Scale(dc->hatch_spacing, dc->hatch_spacing) * Geom::Translate(c));
+
+ sp_canvas_item_affine_absolute(dc->hatch_area, sm);
+ sp_canvas_bpath_set_stroke(SP_CANVAS_BPATH(dc->hatch_area), 0xFF0000ff, 1.0, SP_STROKE_LINEJOIN_MITER, SP_STROKE_LINECAP_BUTT);
+ sp_canvas_item_show(dc->hatch_area);
+ } else {
+ // Not drawing but spacing set: gray, center snapped, fixed radius
+ Geom::Point c = (nearest + dc->hatch_spacing * hatch_unit_vector) * motion_to_curve.inverse();
+ if (!IS_NAN(c[Geom::X]) && !IS_NAN(c[Geom::Y])) {
+ Geom::Matrix const sm (Geom::Scale(dc->hatch_spacing, dc->hatch_spacing) * Geom::Translate(c));
+ sp_canvas_item_affine_absolute(dc->hatch_area, sm);
+ sp_canvas_bpath_set_stroke(SP_CANVAS_BPATH(dc->hatch_area), 0x7f7f7fff, 1.0, SP_STROKE_LINEJOIN_MITER, SP_STROKE_LINECAP_BUTT);
+ sp_canvas_item_show(dc->hatch_area);
+ }
+ }
+ } else {
+ sp_canvas_item_hide(dc->hatch_area);
}
- ret = TRUE;
}
break;
+
case GDK_BUTTON_RELEASE:
+ {
+ Geom::Point const motion_w(event->button.x, event->button.y);
+ Geom::Point const motion_dt(desktop->w2d(motion_w));
+
sp_canvas_item_ungrab(SP_CANVAS_ITEM(desktop->acetate), event->button.time);
+ sp_canvas_end_forced_full_redraws(desktop->canvas);
dc->is_drawing = false;
- if ( dc->dragging && event->button.button == 1 ) {
+ if (dc->dragging && event->button.button == 1 && !event_context->space_panning) {
dc->dragging = FALSE;
- NR::Point const motion_w(event->button.x, event->button.y);
- NR::Point const motion_dt(desktop->w2d(motion_w));
sp_dyna_draw_apply(dc, motion_dt);
/* Remove all temporary line segments */
gtk_object_destroy(GTK_OBJECT(dc->segments->data));
dc->segments = g_slist_remove(dc->segments, dc->segments->data);
}
+
/* Create object */
fit_and_split(dc, TRUE);
- accumulate_calligraphic(dc);
- set_to_accumulated(dc); /* temporal implementation */
+ if (accumulate_calligraphic(dc))
+ set_to_accumulated(dc, event->button.state & GDK_SHIFT_MASK, event->button.state & GDK_MOD1_MASK); // performs document_done
+ else
+ g_warning ("Failed to create path: invalid data in dc->cal1 or dc->cal2");
+
/* reset accumulated curve */
- sp_curve_reset(dc->accumulated);
+ dc->accumulated->reset();
+
clear_current(dc);
if (dc->repr) {
dc->repr = NULL;
}
+
+ if (!dc->hatch_pointer_past.empty()) dc->hatch_pointer_past.clear();
+ if (!dc->hatch_nearest_past.empty()) dc->hatch_nearest_past.clear();
+ if (!dc->inertia_vectors.empty()) dc->inertia_vectors.clear();
+ if (!dc->hatch_vectors.empty()) dc->hatch_vectors.clear();
+ dc->hatch_last_nearest = Geom::Point(0,0);
+ dc->hatch_last_pointer = Geom::Point(0,0);
+ dc->hatch_escaped = false;
+ dc->hatch_item = NULL;
+ dc->hatch_livarot_path = NULL;
+ dc->just_started_drawing = false;
+
+ if (dc->hatch_spacing != 0 && !dc->keep_selected) {
+ // we do not select the newly drawn path, so increase spacing by step
+ if (dc->hatch_spacing_step == 0) {
+ dc->hatch_spacing_step = dc->hatch_spacing;
+ }
+ dc->hatch_spacing += dc->hatch_spacing_step;
+ }
+
+ dc->_message_context->clear();
ret = TRUE;
}
break;
+ }
+
case GDK_KEY_PRESS:
switch (get_group0_keyval (&event->key)) {
case GDK_Up:
ret = TRUE;
}
break;
+ case GDK_Home:
+ case GDK_KP_Home:
+ dc->width = 0.01;
+ sp_ddc_update_toolbox (desktop, "altx-calligraphy", dc->width * 100);
+ ret = TRUE;
+ break;
+ case GDK_End:
+ case GDK_KP_End:
+ dc->width = 1.0;
+ sp_ddc_update_toolbox (desktop, "altx-calligraphy", dc->width * 100);
+ ret = TRUE;
+ break;
case GDK_x:
case GDK_X:
if (MOD__ALT_ONLY) {
}
break;
case GDK_Escape:
- sp_desktop_selection(desktop)->clear();
+ if (dc->is_drawing) {
+ // if drawing, cancel, otherwise pass it up for deselecting
+ calligraphic_cancel (dc);
+ ret = TRUE;
+ }
+ break;
+ case GDK_z:
+ case GDK_Z:
+ if (MOD__CTRL_ONLY && dc->is_drawing) {
+ // if drawing, cancel, otherwise pass it up for undo
+ calligraphic_cancel (dc);
+ ret = TRUE;
+ }
break;
-
default:
break;
}
+ break;
+
+ case GDK_KEY_RELEASE:
+ switch (get_group0_keyval(&event->key)) {
+ case GDK_Control_L:
+ case GDK_Control_R:
+ dc->_message_context->clear();
+ dc->hatch_spacing = 0;
+ dc->hatch_spacing_step = 0;
+ break;
+ default:
+ break;
+ }
+
default:
break;
}
if (!ret) {
- if (((SPEventContextClass *) parent_class)->root_handler) {
- ret = ((SPEventContextClass *) parent_class)->root_handler(event_context, event);
+ if (((SPEventContextClass *) dd_parent_class)->root_handler) {
+ ret = ((SPEventContextClass *) dd_parent_class)->root_handler(event_context, event);
}
}
/* reset bpath */
sp_canvas_bpath_set_bpath(SP_CANVAS_BPATH(dc->currentshape), NULL);
/* reset curve */
- sp_curve_reset(dc->currentcurve);
- sp_curve_reset(dc->cal1);
- sp_curve_reset(dc->cal2);
+ dc->currentcurve->reset();
+ dc->cal1->reset();
+ dc->cal2->reset();
/* reset points */
dc->npoints = 0;
}
static void
-set_to_accumulated(SPDynaDrawContext *dc)
+set_to_accumulated(SPDynaDrawContext *dc, bool unionize, bool subtract)
{
SPDesktop *desktop = SP_EVENT_CONTEXT(dc)->desktop;
- if (!sp_curve_empty(dc->accumulated)) {
- NArtBpath *abp;
- gchar *str;
-
+ if (!dc->accumulated->is_empty()) {
if (!dc->repr) {
/* Create object */
Inkscape::XML::Document *xml_doc = sp_document_repr_doc(desktop->doc());
Inkscape::XML::Node *repr = xml_doc->createElement("svg:path");
/* Set style */
- sp_desktop_apply_style_tool (desktop, repr, "tools.calligraphic", false);
+ sp_desktop_apply_style_tool (desktop, repr, "/tools/calligraphic", false);
dc->repr = repr;
SPItem *item=SP_ITEM(desktop->currentLayer()->appendChildRepr(dc->repr));
Inkscape::GC::release(dc->repr);
- item->transform = SP_ITEM(desktop->currentRoot())->getRelativeTransform(desktop->currentLayer());
+ item->transform = sp_item_i2doc_affine(SP_ITEM(desktop->currentLayer())).inverse();
item->updateRepr();
- if (dc->keep_selected) {
- sp_desktop_selection(desktop)->set(dc->repr);
- } else {
- sp_desktop_selection(desktop)->clear();
- }
}
- abp = nr_artpath_affine(sp_curve_first_bpath(dc->accumulated), sp_desktop_dt2root_affine(desktop));
- str = sp_svg_write_path(abp);
+ Geom::PathVector pathv = dc->accumulated->get_pathvector() * desktop->dt2doc();
+ gchar *str = sp_svg_write_path(pathv);
g_assert( str != NULL );
- g_free(abp);
dc->repr->setAttribute("d", str);
g_free(str);
+
+ if (unionize) {
+ sp_desktop_selection(desktop)->add(dc->repr);
+ sp_selected_path_union_skip_undo(desktop);
+ } else if (subtract) {
+ sp_desktop_selection(desktop)->add(dc->repr);
+ sp_selected_path_diff_skip_undo(desktop);
+ } else {
+ if (dc->keep_selected) {
+ sp_desktop_selection(desktop)->set(dc->repr);
+ }
+ }
+
} else {
if (dc->repr) {
sp_repr_unparent(dc->repr);
dc->repr = NULL;
}
- sp_document_done(sp_desktop_document(desktop), SP_VERB_CONTEXT_CALLIGRAPHIC,
- _("Create calligraphic stroke"));
+ sp_document_done(sp_desktop_document(desktop), SP_VERB_CONTEXT_CALLIGRAPHIC,
+ _("Draw calligraphic stroke"));
}
static void
add_cap(SPCurve *curve,
- NR::Point const &pre, NR::Point const &from,
- NR::Point const &to, NR::Point const &post,
+ Geom::Point const &from,
+ Geom::Point const &to,
double rounding)
{
- NR::Point vel = rounding * NR::rot90( to - from ) / sqrt(2.0);
- double mag = NR::L2(vel);
+ if (Geom::L2( to - from ) > DYNA_EPSILON) {
+ Geom::Point vel = rounding * Geom::rot90( to - from ) / sqrt(2.0);
+ double mag = Geom::L2(vel);
- NR::Point v_in = from - pre;
- double mag_in = NR::L2(v_in);
- if ( mag_in > DYNA_EPSILON ) {
- v_in = mag * v_in / mag_in;
- } else {
- v_in = NR::Point(0, 0);
- }
-
- NR::Point v_out = to - post;
- double mag_out = NR::L2(v_out);
- if ( mag_out > DYNA_EPSILON ) {
- v_out = mag * v_out / mag_out;
- } else {
- v_out = NR::Point(0, 0);
- }
-
- if ( NR::L2(v_in) > DYNA_EPSILON || NR::L2(v_out) > DYNA_EPSILON ) {
- sp_curve_curveto(curve, from + v_in, to + v_out, to);
+ Geom::Point v = mag * Geom::rot90( to - from ) / Geom::L2( to - from );
+ curve->curveto(from + v, to + v, to);
}
}
-static void
+static bool
accumulate_calligraphic(SPDynaDrawContext *dc)
{
- if ( !sp_curve_empty(dc->cal1) && !sp_curve_empty(dc->cal2) ) {
- sp_curve_reset(dc->accumulated); /* Is this required ?? */
- SPCurve *rev_cal2 = sp_curve_reverse(dc->cal2);
+ if (
+ dc->cal1->is_empty() ||
+ dc->cal2->is_empty() ||
+ (dc->cal1->get_segment_count() <= 0) ||
+ dc->cal1->first_path()->closed()
+ ) {
+ dc->cal1->reset();
+ dc->cal2->reset();
+ return false; // failure
+ }
+
+ SPCurve *rev_cal2 = dc->cal2->create_reverse();
+ if (
+ (rev_cal2->get_segment_count() <= 0) ||
+ rev_cal2->first_path()->closed()
+ ) {
+ rev_cal2->unref();
+ dc->cal1->reset();
+ dc->cal2->reset();
+ return false; // failure
+ }
+
+ Geom::CubicBezier const * dc_cal1_firstseg = dynamic_cast<Geom::CubicBezier const *>( dc->cal1->first_segment() );
+ Geom::CubicBezier const * rev_cal2_firstseg = dynamic_cast<Geom::CubicBezier const *>( rev_cal2->first_segment() );
+ Geom::CubicBezier const * dc_cal1_lastseg = dynamic_cast<Geom::CubicBezier const *>( dc->cal1->last_segment() );
+ Geom::CubicBezier const * rev_cal2_lastseg = dynamic_cast<Geom::CubicBezier const *>( rev_cal2->last_segment() );
+
+ if (
+ !dc_cal1_firstseg ||
+ !rev_cal2_firstseg ||
+ !dc_cal1_lastseg ||
+ !rev_cal2_lastseg
+ ) {
+ rev_cal2->unref();
+ dc->cal1->reset();
+ dc->cal2->reset();
+ return false; // failure
+ }
- g_assert(dc->cal1->end > 1);
- g_assert(rev_cal2->end > 1);
- g_assert(SP_CURVE_SEGMENT(dc->cal1, 0)->code == NR_MOVETO_OPEN);
- g_assert(SP_CURVE_SEGMENT(rev_cal2, 0)->code == NR_MOVETO_OPEN);
- g_assert(SP_CURVE_SEGMENT(dc->cal1, 1)->code == NR_CURVETO);
- g_assert(SP_CURVE_SEGMENT(rev_cal2, 1)->code == NR_CURVETO);
- g_assert(SP_CURVE_SEGMENT(dc->cal1, dc->cal1->end-1)->code == NR_CURVETO);
- g_assert(SP_CURVE_SEGMENT(rev_cal2, rev_cal2->end-1)->code == NR_CURVETO);
+ dc->accumulated->reset(); /* Is this required ?? */
- sp_curve_append(dc->accumulated, dc->cal1, FALSE);
+ dc->accumulated->append(dc->cal1, false);
- add_cap(dc->accumulated, SP_CURVE_SEGMENT(dc->cal1, dc->cal1->end-1)->c(2), SP_CURVE_SEGMENT(dc->cal1, dc->cal1->end-1)->c(3), SP_CURVE_SEGMENT(rev_cal2, 0)->c(3), SP_CURVE_SEGMENT(rev_cal2, 1)->c(1), dc->cap_rounding);
+ add_cap(dc->accumulated, (*dc_cal1_lastseg)[3], (*rev_cal2_firstseg)[0], dc->cap_rounding);
- sp_curve_append(dc->accumulated, rev_cal2, TRUE);
+ dc->accumulated->append(rev_cal2, true);
- add_cap(dc->accumulated, SP_CURVE_SEGMENT(rev_cal2, rev_cal2->end-1)->c(2), SP_CURVE_SEGMENT(rev_cal2, rev_cal2->end-1)->c(3), SP_CURVE_SEGMENT(dc->cal1, 0)->c(3), SP_CURVE_SEGMENT(dc->cal1, 1)->c(1), dc->cap_rounding);
+ add_cap(dc->accumulated, (*rev_cal2_lastseg)[3], (*dc_cal1_firstseg)[0], dc->cap_rounding);
- sp_curve_closepath(dc->accumulated);
+ dc->accumulated->closepath();
- sp_curve_unref(rev_cal2);
+ rev_cal2->unref();
- sp_curve_reset(dc->cal1);
- sp_curve_reset(dc->cal2);
- }
+ dc->cal1->reset();
+ dc->cal2->reset();
+
+ return true; // success
}
static double square(double const x)
static void
fit_and_split(SPDynaDrawContext *dc, gboolean release)
{
- double const tolerance_sq = square( NR::expansion(SP_EVENT_CONTEXT(dc)->desktop->w2d()) * TOLERANCE_CALLIGRAPHIC );
+ SPDesktop *desktop = SP_EVENT_CONTEXT(dc)->desktop;
+
+ double const tolerance_sq = square( desktop->w2d().descrim() * TOLERANCE_CALLIGRAPHIC );
#ifdef DYNA_DRAW_VERBOSE
g_print("[F&S:R=%c]", release?'T':'F');
#endif
/* Current calligraphic */
- if ( dc->cal1->end == 0 || dc->cal2->end == 0 ) {
+ if ( dc->cal1->is_empty() || dc->cal2->is_empty() ) {
/* dc->npoints > 0 */
/* g_print("calligraphics(1|2) reset\n"); */
- sp_curve_reset(dc->cal1);
- sp_curve_reset(dc->cal2);
+ dc->cal1->reset();
+ dc->cal2->reset();
- sp_curve_moveto(dc->cal1, dc->point1[0]);
- sp_curve_moveto(dc->cal2, dc->point2[0]);
+ dc->cal1->moveto(dc->point1[0]);
+ dc->cal2->moveto(dc->point2[0]);
}
- NR::Point b1[BEZIER_MAX_LENGTH];
- gint const nb1 = sp_bezier_fit_cubic_r(b1, dc->point1, dc->npoints,
+ Geom::Point b1[BEZIER_MAX_LENGTH];
+ gint const nb1 = Geom::bezier_fit_cubic_r(b1, dc->point1, dc->npoints,
tolerance_sq, BEZIER_MAX_BEZIERS);
g_assert( nb1 * BEZIER_SIZE <= gint(G_N_ELEMENTS(b1)) );
- NR::Point b2[BEZIER_MAX_LENGTH];
- gint const nb2 = sp_bezier_fit_cubic_r(b2, dc->point2, dc->npoints,
+ Geom::Point b2[BEZIER_MAX_LENGTH];
+ gint const nb2 = Geom::bezier_fit_cubic_r(b2, dc->point2, dc->npoints,
tolerance_sq, BEZIER_MAX_BEZIERS);
g_assert( nb2 * BEZIER_SIZE <= gint(G_N_ELEMENTS(b2)) );
#endif
/* CanvasShape */
if (! release) {
- sp_curve_reset(dc->currentcurve);
- sp_curve_moveto(dc->currentcurve, b1[0]);
- for (NR::Point *bp1 = b1; bp1 < b1 + BEZIER_SIZE * nb1; bp1 += BEZIER_SIZE) {
- sp_curve_curveto(dc->currentcurve, bp1[1],
- bp1[2], bp1[3]);
+ dc->currentcurve->reset();
+ dc->currentcurve->moveto(b1[0]);
+ for (Geom::Point *bp1 = b1; bp1 < b1 + BEZIER_SIZE * nb1; bp1 += BEZIER_SIZE) {
+ dc->currentcurve->curveto(bp1[1], bp1[2], bp1[3]);
}
- sp_curve_lineto(dc->currentcurve,
- b2[BEZIER_SIZE*(nb2-1) + 3]);
- for (NR::Point *bp2 = b2 + BEZIER_SIZE * ( nb2 - 1 ); bp2 >= b2; bp2 -= BEZIER_SIZE) {
- sp_curve_curveto(dc->currentcurve, bp2[2], bp2[1], bp2[0]);
+ dc->currentcurve->lineto(b2[BEZIER_SIZE*(nb2-1) + 3]);
+ for (Geom::Point *bp2 = b2 + BEZIER_SIZE * ( nb2 - 1 ); bp2 >= b2; bp2 -= BEZIER_SIZE) {
+ dc->currentcurve->curveto(bp2[2], bp2[1], bp2[0]);
}
// FIXME: dc->segments is always NULL at this point??
if (!dc->segments) { // first segment
- add_cap(dc->currentcurve, b2[1], b2[0], b1[0], b1[1], dc->cap_rounding);
+ add_cap(dc->currentcurve, b2[0], b1[0], dc->cap_rounding);
}
- sp_curve_closepath(dc->currentcurve);
+ dc->currentcurve->closepath();
sp_canvas_bpath_set_bpath(SP_CANVAS_BPATH(dc->currentshape), dc->currentcurve);
}
/* Current calligraphic */
- for (NR::Point *bp1 = b1; bp1 < b1 + BEZIER_SIZE * nb1; bp1 += BEZIER_SIZE) {
- sp_curve_curveto(dc->cal1, bp1[1], bp1[2], bp1[3]);
+ for (Geom::Point *bp1 = b1; bp1 < b1 + BEZIER_SIZE * nb1; bp1 += BEZIER_SIZE) {
+ dc->cal1->curveto(bp1[1], bp1[2], bp1[3]);
}
- for (NR::Point *bp2 = b2; bp2 < b2 + BEZIER_SIZE * nb2; bp2 += BEZIER_SIZE) {
- sp_curve_curveto(dc->cal2, bp2[1], bp2[2], bp2[3]);
+ for (Geom::Point *bp2 = b2; bp2 < b2 + BEZIER_SIZE * nb2; bp2 += BEZIER_SIZE) {
+ dc->cal2->curveto(bp2[1], bp2[2], bp2[3]);
}
} else {
/* fixme: ??? */
draw_temporary_box(dc);
for (gint i = 1; i < dc->npoints; i++) {
- sp_curve_lineto(dc->cal1, dc->point1[i]);
+ dc->cal1->lineto(dc->point1[i]);
}
for (gint i = 1; i < dc->npoints; i++) {
- sp_curve_lineto(dc->cal2, dc->point2[i]);
+ dc->cal2->lineto(dc->point2[i]);
}
}
g_print("[%d]Yup\n", dc->npoints);
#endif
if (!release) {
- g_assert(!sp_curve_empty(dc->currentcurve));
+ g_assert(!dc->currentcurve->is_empty());
- SPCanvasItem *cbp = sp_canvas_item_new(sp_desktop_sketch(SP_EVENT_CONTEXT(dc)->desktop),
+ SPCanvasItem *cbp = sp_canvas_item_new(sp_desktop_sketch(desktop),
SP_TYPE_CANVAS_BPATH,
NULL);
- SPCurve *curve = sp_curve_copy(dc->currentcurve);
+ SPCurve *curve = dc->currentcurve->copy();
sp_canvas_bpath_set_bpath(SP_CANVAS_BPATH (cbp), curve);
- sp_curve_unref(curve);
+ curve->unref();
- guint32 fillColor = sp_desktop_get_color_tool (SP_ACTIVE_DESKTOP, "tools.calligraphic", true);
- //guint32 strokeColor = sp_desktop_get_color_tool (SP_ACTIVE_DESKTOP, "tools.calligraphic", false);
- double opacity = sp_desktop_get_master_opacity_tool (SP_ACTIVE_DESKTOP, "tools.calligraphic");
- double fillOpacity = sp_desktop_get_opacity_tool (SP_ACTIVE_DESKTOP, "tools.calligraphic", true);
- //double strokeOpacity = sp_desktop_get_opacity_tool (SP_ACTIVE_DESKTOP, "tools.calligraphic", false);
+ guint32 fillColor = sp_desktop_get_color_tool (desktop, "/tools/calligraphic", true);
+ //guint32 strokeColor = sp_desktop_get_color_tool (desktop, "/tools/calligraphic", false);
+ double opacity = sp_desktop_get_master_opacity_tool (desktop, "/tools/calligraphic");
+ double fillOpacity = sp_desktop_get_opacity_tool (desktop, "/tools/calligraphic", true);
+ //double strokeOpacity = sp_desktop_get_opacity_tool (desktop, "/tools/calligraphic", false);
sp_canvas_bpath_set_fill(SP_CANVAS_BPATH(cbp), ((fillColor & 0xffffff00) | SP_COLOR_F_TO_U(opacity*fillOpacity)), SP_WIND_RULE_EVENODD);
//on second thougtht don't do stroke yet because we don't have stoke-width yet and because stoke appears between segments while drawing
//sp_canvas_bpath_set_stroke(SP_CANVAS_BPATH(cbp), ((strokeColor & 0xffffff00) | SP_COLOR_F_TO_U(opacity*strokeOpacity)), 1.0, SP_STROKE_LINEJOIN_MITER, SP_STROKE_LINECAP_BUTT);
sp_canvas_bpath_set_stroke(SP_CANVAS_BPATH(cbp), 0x00000000, 1.0, SP_STROKE_LINEJOIN_MITER, SP_STROKE_LINECAP_BUTT);
/* fixme: Cannot we cascade it to root more clearly? */
- g_signal_connect(G_OBJECT(cbp), "event", G_CALLBACK(sp_desktop_root_handler), SP_EVENT_CONTEXT(dc)->desktop);
+ g_signal_connect(G_OBJECT(cbp), "event", G_CALLBACK(sp_desktop_root_handler), desktop);
dc->segments = g_slist_prepend(dc->segments, cbp);
}
static void
draw_temporary_box(SPDynaDrawContext *dc)
{
- sp_curve_reset(dc->currentcurve);
+ dc->currentcurve->reset();
- sp_curve_moveto(dc->currentcurve, dc->point1[dc->npoints-1]);
+ dc->currentcurve->moveto(dc->point2[dc->npoints-1]);
for (gint i = dc->npoints-2; i >= 0; i--) {
- sp_curve_lineto(dc->currentcurve, dc->point1[i]);
+ dc->currentcurve->lineto(dc->point2[i]);
}
for (gint i = 0; i < dc->npoints; i++) {
- sp_curve_lineto(dc->currentcurve, dc->point2[i]);
+ dc->currentcurve->lineto(dc->point1[i]);
}
+
if (dc->npoints >= 2) {
- add_cap(dc->currentcurve, dc->point2[dc->npoints-2], dc->point2[dc->npoints-1], dc->point1[dc->npoints-1], dc->point1[dc->npoints-2], dc->cap_rounding);
+ add_cap(dc->currentcurve, dc->point1[dc->npoints-1], dc->point2[dc->npoints-1], dc->cap_rounding);
}
- sp_curve_closepath(dc->currentcurve);
+ dc->currentcurve->closepath();
sp_canvas_bpath_set_bpath(SP_CANVAS_BPATH(dc->currentshape), dc->currentcurve);
}