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gimp/app/widgets/gimpcairo-wilber.c

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/* GIMP - The GNU Image Manipulation Program
* Copyright (C) 1995 Spencer Kimball and Peter Mattis
*
* Wilber Cairo rendering
* Copyright (C) 2008 Sven Neumann <sven@gimp.org>
*
* Some code here is based on code from librsvg that was originally
* written by Raph Levien <raph@artofcode.com> for Gill.
*
* 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 <string.h>
#include <gtk/gtk.h>
#include "libgimpmath/gimpmath.h"
#include "widgets-types.h"
#include "gimpcairo-wilber.h"
static void gimp_cairo_wilber_internal (GtkWidget *widget,
cairo_t *cr,
gdouble x,
gdouble y,
gdouble factor,
gdouble max_eye_angle);
static void gimp_cairo_eyes (GtkWidget *widget,
cairo_t *cr,
gdouble x,
gdouble y,
gdouble factor,
gdouble max_eye_angle);
static gboolean pointer_eyes = FALSE;
static GSList *cairo_wilber_widgets = NULL;
void
gimp_cairo_wilber_toggle_pointer_eyes (void)
{
GSList *iter;
pointer_eyes = ! pointer_eyes;
for (iter = cairo_wilber_widgets; iter; iter = g_slist_next (iter))
{
if (pointer_eyes)
g_object_set_data (G_OBJECT (iter->data), "wilber-eyes-state", NULL);
gtk_widget_queue_draw (GTK_WIDGET (iter->data));
}
}
void
gimp_cairo_draw_toolbox_wilber (GtkWidget *widget,
cairo_t *cr)
{
GtkStyleContext *context;
GtkAllocation allocation;
GdkRGBA color;
gdouble wilber_width;
gdouble wilber_height;
gdouble factor;
g_return_if_fail (GTK_IS_WIDGET (widget));
g_return_if_fail (cr != NULL);
context = gtk_widget_get_style_context (widget);
gtk_widget_get_allocation (widget, &allocation);
gimp_cairo_wilber_get_size (cr, &wilber_width, &wilber_height);
factor = allocation.width / wilber_width * 0.9;
if (! gtk_widget_get_has_window (widget))
cairo_translate (cr, allocation.x, allocation.y);
cairo_scale (cr, factor, factor);
gimp_cairo_wilber_internal (widget, cr,
(allocation.width / factor - wilber_width) / 2.0,
(allocation.height / factor - wilber_height) / 2.0,
factor, 30.0 * G_PI / 180.0);
gtk_style_context_get_color (context, gtk_widget_get_state_flags (widget),
&color);
color.alpha = 0.1;
gdk_cairo_set_source_rgba (cr, &color);
cairo_fill (cr);
}
void
gimp_cairo_draw_drop_wilber (GtkWidget *widget,
cairo_t *cr,
gboolean blink)
{
GtkStyleContext *context;
GtkAllocation allocation;
GdkRGBA color;
gdouble wilber_width;
gdouble wilber_height;
gdouble width;
gdouble height;
gdouble side;
gdouble factor;
g_return_if_fail (GTK_IS_WIDGET (widget));
g_return_if_fail (cr != NULL);
context = gtk_widget_get_style_context (widget);
gtk_widget_get_allocation (widget, &allocation);
gimp_cairo_wilber_get_size (cr, &wilber_width, &wilber_height);
wilber_width /= 2;
wilber_height /= 2;
side = MIN (MIN (allocation.width, allocation.height),
MAX (allocation.width, allocation.height) / 2);
width = MAX (wilber_width, side);
height = MAX (wilber_height, side);
factor = MIN (width / wilber_width, height / wilber_height);
if (! gtk_widget_get_has_window (widget))
cairo_translate (cr, allocation.x, allocation.y);
cairo_scale (cr, factor, factor);
/* magic factors depend on the image used, everything else is generic
*/
gimp_cairo_wilber_internal (widget, cr,
- wilber_width * 0.6,
allocation.height / factor - wilber_height * 1.1,
factor, 50.0 * G_PI / 180.0);
gtk_style_context_get_color (context, gtk_widget_get_state_flags (widget),
&color);
color.alpha = 0.15;
gdk_cairo_set_source_rgba (cr, &color);
cairo_fill (cr);
if (blink)
{
gimp_cairo_eyes (widget, cr,
- wilber_width * 0.6,
allocation.height / factor - wilber_height * 1.1,
factor, 50.0 * G_PI / 180.0);
cairo_set_source_rgba (cr,
color.red,
0,
0,
1.0);
cairo_fill (cr);
}
}
/* This string is a path description as found in SVG files. You can
* use Inkscape to create the SVG file, then copy the path from it.
* It works best if you combine all paths into one. Inkscape has a
* function to do that.
*/
static const gchar wilber_path[] =
"M 509.72445,438.68864 C 501.47706,469.77945 464.95038,491.54566 431.85915,497.74874 C 438.5216,503.01688 442.87782,511.227 442.87782,520.37375 C 442.87783,536.24746 429.95607,549.0223 414.08235,549.0223 C 398.20863,549.0223 385.28688,536.24746 385.28688,520.37375 C 385.28688,511.52403 389.27666,503.61286 395.57098,498.3364 C 359.36952,495.90384 343.70976,463.95812 343.70975,463.95814 L 342.68134,509.64891 C 342.68134,514.35021 342.08391,519.96098 340.18378,528.3072 C 339.84664,527.80364 339.51399,527.33515 339.15537,526.83804 C 330.25511,514.5011 317.25269,507.81431 306.39317,508.76741 C 302.77334,509.08511 299.47017,510.33348 296.54982,512.4403 C 284.86847,520.86757 284.97665,540.94721 296.84366,557.3965 C 306.96274,571.42287 322.32232,578.25612 333.8664,574.73254 C 391.94635,615.17624 532.16931,642.41915 509.72445,438.68864 z M 363.24953,501.1278 C 373.83202,501.12778 382.49549,509.79127 382.49549,520.37375 C 382.49549,530.95624 373.83201,539.47279 363.24953,539.47279 C 352.66706,539.47279 344.1505,530.95624 344.1505,520.37375 C 344.15049,509.79129 352.66706,501.1278 363.24953,501.1278 z M 305.80551,516.1132 C 311.68466,516.11318 316.38344,521.83985 316.38344,528.89486 C 316.38345,535.94982 311.68467,541.67652 305.80551,541.67652 C 299.92636,541.67652 295.08067,535.94987 295.08067,528.89486 C 295.08065,521.83985 299.92636,516.1132 305.80551,516.1132 z M 440.821,552.54828 C 440.821,552.54828 448.7504,554.02388 453.8965,559.45332 C 457.41881,563.16951 457.75208,569.15506 456.98172,577.37703 C 456.21143,573.8833 454.89571,571.76659 453.8965,569.29666 C 443.01388,582.47662 413.42981,583.08929 376.0312,569.88433 C 416.63248,578.00493 437.38806,570.56014 449.48903,561.2163 C 446.29383,557.08917 440.821,552.54828 440.821,552.54828 z ";
static const gchar eyes_path[] =
"M 434.64723,524.59684 C 434.64723,532.23974 428.44429,538.44268 420.80139,538.44268 C 413.15849,538.44268 406.95555,532.23974 406.95555,524.59684 C 406.95555,516.95394 413.15849,510.751 420.80139,510.751 C 428.44429,510.751 434.64723,516.95394 434.64723,524.59684 z M 378.00043,522.99931 C 378.00043,527.70264 374.18324,531.51984 369.47991,531.51984 C 364.77658,531.51984 360.95939,527.70264 360.95939,522.99931 C 360.95939,518.29599 364.77658,514.47879 369.47991,514.47879 C 374.18324,514.47879 378.00043,518.29599 378.00043,522.99931 z ";
static cairo_path_t *wilber_cairo_path = NULL;
static gdouble wilber_x1, wilber_y1;
static gdouble wilber_x2, wilber_y2;
static cairo_path_t *eyes_cairo_path = NULL;
static gdouble eyes_x1, eyes_y1;
static gdouble eyes_x2, eyes_y2;
static void parse_path_data (cairo_t *cr,
const gchar *data);
static void wilber_get_extents (cairo_t *cr);
static void eyes_get_extents (cairo_t *cr);
/**
* gimp_cairo_wilber:
* @cr: Cairo context
* @x: x position
* @y: y position
*
* Draw a Wilber path at position @x, @y.
*/
void
gimp_cairo_wilber (cairo_t *cr,
gdouble x,
gdouble y)
{
gimp_cairo_wilber_internal (NULL, cr, x, y, 1.0, 0.0);
}
static void
gimp_cairo_wilber_weak_notify (gpointer data,
GObject *widget)
{
cairo_wilber_widgets = g_slist_remove (cairo_wilber_widgets, widget);
}
static void
gimp_cairo_wilber_internal (GtkWidget *widget,
cairo_t *cr,
gdouble x,
gdouble y,
gdouble factor,
gdouble max_eye_angle)
{
wilber_get_extents (cr);
cairo_save (cr);
cairo_translate (cr, x - wilber_x1, y - wilber_y1);
cairo_append_path (cr, wilber_cairo_path);
cairo_restore (cr);
gimp_cairo_eyes (widget, cr, x, y, factor, max_eye_angle);
if (widget && ! g_slist_find (cairo_wilber_widgets, widget))
{
cairo_wilber_widgets = g_slist_prepend (cairo_wilber_widgets, widget);
g_object_weak_ref (G_OBJECT (widget),
gimp_cairo_wilber_weak_notify, NULL);
}
}
typedef struct
{
gdouble x;
gdouble y;
gdouble radius;
gdouble a;
gdouble b;
gdouble r;
} Eye;
static const Eye eyes[2] =
{
{ .x = (344.151 + 382.496) / 2.0,
.y = (501.128 + 539.473) / 2.0,
.radius = (382.496 - 344.151) / 2.0,
.a = 25.0 * G_PI / 180.0,
.b = 24.0 * G_PI / 180.0,
.r = 0.475
},
{ .x = (385.287 + 442.878) / 2.0,
.y = (491.431 + 549.022) / 2.0,
.radius = (442.878 - 385.287) / 2.0,
.a = 34.0 * G_PI / 180.0,
.b = 19.0 * G_PI / 180.0,
.r = 0.5
}
};
typedef struct
{
gdouble a;
gdouble b;
} EyeState;
typedef struct
{
EyeState eyes[2];
gdouble x;
gdouble y;
gdouble factor;
gdouble max_eye_angle;
gdouble t;
gint timeout_id;
} EyesState;
static EyesState *
eyes_state_new (void)
{
EyesState *state = g_slice_new0 (EyesState);
gint i;
for (i = 0; i < 2; i++)
{
state->eyes[i].a = eyes[i].a;
state->eyes[i].b = eyes[i].b;
}
state->t = (gdouble) g_get_monotonic_time () / G_TIME_SPAN_SECOND;
return state;
}
static void
eyes_state_free (EyesState *state)
{
if (state->timeout_id)
g_source_remove (state->timeout_id);
g_slice_free (EyesState, state);
}
static gboolean
gimp_cairo_pointer_eyes_timeout (GtkWidget *widget)
{
GdkSeat *seat;
EyesState *state;
gdouble t;
gint pointer_x;
gint pointer_y;
GtkAllocation allocation;
GdkWindow *window;
gint window_x;
gint window_y;
gint redraw = 2;
gint i;
state = g_object_get_data (G_OBJECT (widget), "wilber-eyes-state");
t = (gdouble) g_get_monotonic_time () / G_TIME_SPAN_SECOND;
seat = gdk_display_get_default_seat (gdk_display_get_default ());
gdk_device_get_position (gdk_seat_get_pointer (seat),
NULL, &pointer_x, &pointer_y);
gtk_widget_get_allocation (widget, &allocation);
window = gtk_widget_get_window (widget);
if (window)
gdk_window_get_origin (window, &window_x, &window_y);
for (i = 0; i < 2; i++)
{
const Eye *eye = &eyes[i];
gdouble a;
gdouble b;
gdouble c;
GimpVector3 u;
GimpVector3 v;
GimpVector3 w;
if (pointer_eyes)
{
gdouble screen_x;
gdouble screen_y;
gdouble z = 220.0 * state->factor;
gdouble d;
screen_x = (eye->x + state->x - wilber_x1) * state->factor;
screen_y = (eye->y + state->y - wilber_y1) * state->factor;
if (! gtk_widget_get_has_window (widget))
{
screen_x += allocation.x;
screen_y += allocation.y;
}
if (window)
{
screen_x += window_x;
screen_y += window_y;
}
d = sqrt (SQR (pointer_x - screen_x) + SQR (pointer_y - screen_y));
a = atan2 (pointer_y - screen_y, pointer_x - screen_x);
b = atan (d / z);
b = MIN (b, state->max_eye_angle);
}
else
{
a = eyes[i].a;
b = eyes[i].b;
}
if (a == state->eyes[i].a && b == state->eyes[i].b)
{
redraw--;
continue;
}
u.x = sin (state->eyes[i].b) * cos (state->eyes[i].a);
u.y = sin (state->eyes[i].b) * sin (state->eyes[i].a);
u.z = cos (state->eyes[i].b);
v.x = sin (b) * cos (a);
v.y = sin (b) * sin (a);
v.z = cos (b);
c = acos (gimp_vector3_inner_product (&u, &v));
if (c < 1e-2)
{
state->eyes[i].a = a;
state->eyes[i].b = b;
continue;
}
c *= 1.0 - exp (-(t - state->t) * 15.0);
w = gimp_vector3_cross_product (&u, &v);
w = gimp_vector3_cross_product (&w, &u);
gimp_vector3_normalize (&w);
v.x = u.x * cos (c) + w.x * sin (c);
v.y = u.y * cos (c) + w.y * sin (c);
v.z = u.z * cos (c) + w.z * sin (c);
a = atan2 (v.y, v.x);
b = acos (v.z);
state->eyes[i].a = a;
state->eyes[i].b = b;
}
state->t = t;
if (redraw)
{
state->timeout_id = 0;
gtk_widget_queue_draw (widget);
return G_SOURCE_REMOVE;
}
else if (! pointer_eyes)
{
state->timeout_id = 0;
g_object_set_data (G_OBJECT (widget), "wilber-eyes-state", NULL);
gtk_widget_queue_draw (widget);
return G_SOURCE_REMOVE;
}
return G_SOURCE_CONTINUE;
}
static void
gimp_cairo_pointer_eyes (GtkWidget *widget,
cairo_t *cr,
gdouble x,
gdouble y,
gdouble factor,
gdouble max_eye_angle)
{
EyesState *state;
gint i;
state = g_object_get_data (G_OBJECT (widget), "wilber-eyes-state");
if (! state)
{
state = eyes_state_new ();
g_object_set_data_full (G_OBJECT (widget), "wilber-eyes-state", state,
(GDestroyNotify) eyes_state_free);
}
for (i = 0; i < 2; i++)
{
const Eye *eye = &eyes[i];
gdouble R = eye->radius;
gdouble r = eye->r * eye->radius;
gint j;
cairo_save (cr);
cairo_translate (cr, eye->x, eye->y);
cairo_rotate (cr, state->eyes[i].a);
for (j = 0; j < 32; j++)
{
gdouble a = -2.0 * G_PI * j / 32.0;
gdouble u = r * cos (a);
gdouble v = r * sin (a);
gdouble w = sqrt (SQR (R) - SQR (v));
gdouble b = asin (u / w);
b = CLAMP (b + state->eyes[i].b, -G_PI / 2.0, +G_PI / 2.0);
u = w * sin (b);
if (j == 0)
cairo_move_to (cr, u, v);
else
cairo_line_to (cr, u, v);
}
cairo_close_path (cr);
cairo_restore (cr);
}
state->x = x;
state->y = y;
state->factor = factor;
state->max_eye_angle = max_eye_angle;
if (! state->timeout_id)
{
state->timeout_id =
g_timeout_add (17,
(GSourceFunc) gimp_cairo_pointer_eyes_timeout,
widget);
}
}
static void
gimp_cairo_eyes (GtkWidget *widget,
cairo_t *cr,
gdouble x,
gdouble y,
gdouble factor,
gdouble max_eye_angle)
{
wilber_get_extents (cr);
eyes_get_extents (cr);
cairo_save (cr);
cairo_translate (cr, x - wilber_x1, y - wilber_y1);
if (widget &&
(pointer_eyes ||
g_object_get_data (G_OBJECT (widget), "wilber-eyes-state")))
{
gimp_cairo_pointer_eyes (widget, cr, x, y, factor, max_eye_angle);
}
else
{
cairo_append_path (cr, eyes_cairo_path);
}
cairo_restore (cr);
}
void
gimp_cairo_wilber_get_size (cairo_t *cr,
gdouble *width,
gdouble *height)
{
wilber_get_extents (cr);
*width = wilber_x2 - wilber_x1;
*height = wilber_y2 - wilber_y1;
}
static void
wilber_get_extents (cairo_t *unused)
{
if (! wilber_cairo_path)
{
cairo_surface_t *s = cairo_image_surface_create (CAIRO_FORMAT_A8, 1, 1);
cairo_t *cr = cairo_create (s);
parse_path_data (cr, wilber_path);
cairo_fill_extents (cr, &wilber_x1, &wilber_y1, &wilber_x2, &wilber_y2);
wilber_cairo_path = cairo_copy_path (cr);
cairo_destroy (cr);
cairo_surface_destroy (s);
}
}
static void
eyes_get_extents (cairo_t *unused)
{
if (! eyes_cairo_path)
{
cairo_surface_t *s = cairo_image_surface_create (CAIRO_FORMAT_A8, 1, 1);
cairo_t *cr = cairo_create (s);
parse_path_data (cr, eyes_path);
cairo_fill_extents (cr, &eyes_x1, &eyes_y1, &eyes_x2, &eyes_y2);
eyes_cairo_path = cairo_copy_path (cr);
cairo_destroy (cr);
cairo_surface_destroy (s);
}
}
/**********************************************************/
/* Below is the code that parses the actual path data. */
/* */
/* This code is taken from librsvg and was originally */
/* written by Raph Levien <raph@artofcode.com> for Gill. */
/**********************************************************/
typedef struct
{
cairo_t *cr;
gdouble cpx, cpy; /* current point */
gdouble rpx, rpy; /* reflection point (for 's' and 't' commands) */
gchar cmd; /* current command (lowercase) */
gint param; /* number of parameters */
gboolean rel; /* true if relative coords */
gdouble params[7]; /* parameters that have been parsed */
} ParsePathContext;
static void parse_path_default_xy (ParsePathContext *ctx,
gint n_params);
static void parse_path_do_cmd (ParsePathContext *ctx,
gboolean final);
static void
parse_path_data (cairo_t *cr,
const gchar *data)
{
ParsePathContext ctx;
gboolean in_num = FALSE;
gboolean in_frac = FALSE;
gboolean in_exp = FALSE;
gboolean exp_wait_sign = FALSE;
gdouble val = 0.0;
gchar c = 0;
gint sign = 0;
gint exp = 0;
gint exp_sign = 0;
gdouble frac = 0.0;
gint i;
memset (&ctx, 0, sizeof (ParsePathContext));
ctx.cr = cr;
for (i = 0; ; i++)
{
c = data[i];
if (c >= '0' && c <= '9')
{
/* digit */
if (in_num)
{
if (in_exp)
{
exp = (exp * 10) + c - '0';
exp_wait_sign = FALSE;
}
else if (in_frac)
val += (frac *= 0.1) * (c - '0');
else
val = (val * 10) + c - '0';
}
else
{
in_num = TRUE;
in_frac = FALSE;
in_exp = FALSE;
exp = 0;
exp_sign = 1;
exp_wait_sign = FALSE;
val = c - '0';
sign = 1;
}
}
else if (c == '.')
{
if (!in_num)
{
in_num = TRUE;
val = 0;
}
in_frac = TRUE;
frac = 1;
}
else if ((c == 'E' || c == 'e') && in_num)
{
in_exp = TRUE;
exp_wait_sign = TRUE;
exp = 0;
exp_sign = 1;
}
else if ((c == '+' || c == '-') && in_exp)
{
exp_sign = c == '+' ? 1 : -1;
}
else if (in_num)
{
/* end of number */
val *= sign * pow (10, exp_sign * exp);
if (ctx.rel)
{
/* Handle relative coordinates. This switch statement attempts
to determine _what_ the coords are relative to. This is
underspecified in the 12 Apr working draft. */
switch (ctx.cmd)
{
case 'l':
case 'm':
case 'c':
case 's':
case 'q':
case 't':
/* rule: even-numbered params are x-relative, odd-numbered
are y-relative */
if ((ctx.param & 1) == 0)
val += ctx.cpx;
else if ((ctx.param & 1) == 1)
val += ctx.cpy;
break;
case 'a':
/* rule: sixth and seventh are x and y, rest are not
relative */
if (ctx.param == 5)
val += ctx.cpx;
else if (ctx.param == 6)
val += ctx.cpy;
break;
case 'h':
/* rule: x-relative */
val += ctx.cpx;
break;
case 'v':
/* rule: y-relative */
val += ctx.cpy;
break;
}
}
ctx.params[ctx.param++] = val;
parse_path_do_cmd (&ctx, FALSE);
in_num = FALSE;
}
if (c == '\0')
break;
else if ((c == '+' || c == '-') && !exp_wait_sign)
{
sign = c == '+' ? 1 : -1;
val = 0;
in_num = TRUE;
in_frac = FALSE;
in_exp = FALSE;
exp = 0;
exp_sign = 1;
exp_wait_sign = FALSE;
}
else if (c == 'z' || c == 'Z')
{
if (ctx.param)
parse_path_do_cmd (&ctx, TRUE);
cairo_close_path (ctx.cr);
}
else if (c >= 'A' && c <= 'Z' && c != 'E')
{
if (ctx.param)
parse_path_do_cmd (&ctx, TRUE);
ctx.cmd = c + 'a' - 'A';
ctx.rel = FALSE;
}
else if (c >= 'a' && c <= 'z' && c != 'e')
{
if (ctx.param)
parse_path_do_cmd (&ctx, TRUE);
ctx.cmd = c;
ctx.rel = TRUE;
}
/* else c _should_ be whitespace or , */
}
}
/* supply defaults for missing parameters, assuming relative coordinates
are to be interpreted as x,y */
static void
parse_path_default_xy (ParsePathContext *ctx,
gint n_params)
{
gint i;
if (ctx->rel)
{
for (i = ctx->param; i < n_params; i++)
{
if (i > 2)
ctx->params[i] = ctx->params[i - 2];
else if (i == 1)
ctx->params[i] = ctx->cpy;
else if (i == 0)
/* we shouldn't get here (ctx->param > 0 as precondition) */
ctx->params[i] = ctx->cpx;
}
}
else
{
for (i = ctx->param; i < n_params; i++)
ctx->params[i] = 0.0;
}
}
static void
parse_path_do_cmd (ParsePathContext *ctx,
gboolean final)
{
switch (ctx->cmd)
{
case 'm':
/* moveto */
if (ctx->param == 2 || final)
{
parse_path_default_xy (ctx, 2);
ctx->cpx = ctx->rpx = ctx->params[0];
ctx->cpy = ctx->rpy = ctx->params[1];
cairo_move_to (ctx->cr, ctx->cpx, ctx->cpy);
ctx->param = 0;
}
break;
case 'l':
/* lineto */
if (ctx->param == 2 || final)
{
parse_path_default_xy (ctx, 2);
ctx->cpx = ctx->rpx = ctx->params[0];
ctx->cpy = ctx->rpy = ctx->params[1];
cairo_line_to (ctx->cr, ctx->cpx, ctx->cpy);
ctx->param = 0;
}
break;
case 'c':
/* curveto */
if (ctx->param == 6 || final)
{
gdouble x, y;
parse_path_default_xy (ctx, 6);
x = ctx->params[0];
y = ctx->params[1];
ctx->rpx = ctx->params[2];
ctx->rpy = ctx->params[3];
ctx->cpx = ctx->params[4];
ctx->cpy = ctx->params[5];
cairo_curve_to (ctx->cr,
x, y, ctx->rpx, ctx->rpy, ctx->cpx, ctx->cpy);
ctx->param = 0;
}
break;
case 's':
/* smooth curveto */
if (ctx->param == 4 || final)
{
gdouble x, y;
parse_path_default_xy (ctx, 4);
x = 2 * ctx->cpx - ctx->rpx;
y = 2 * ctx->cpy - ctx->rpy;
ctx->rpx = ctx->params[0];
ctx->rpy = ctx->params[1];
ctx->cpx = ctx->params[2];
ctx->cpy = ctx->params[3];
cairo_curve_to (ctx->cr,
x, y, ctx->rpx, ctx->rpy, ctx->cpx, ctx->cpy);
ctx->param = 0;
}
break;
case 'h':
/* horizontal lineto */
if (ctx->param == 1)
{
ctx->cpx = ctx->rpx = ctx->params[0];
cairo_line_to (ctx->cr, ctx->cpx, ctx->cpy);
ctx->param = 0;
}
break;
case 'v':
/* vertical lineto */
if (ctx->param == 1)
{
ctx->cpy = ctx->rpy = ctx->params[0];
cairo_line_to (ctx->cr, ctx->cpx, ctx->cpy);
ctx->param = 0;
}
break;
case 'q':
/* quadratic bezier curveto */
if (ctx->param == 4 || final)
{
parse_path_default_xy (ctx, 4);
ctx->rpx = ctx->params[0];
ctx->rpy = ctx->params[1];
ctx->cpx = ctx->params[2];
ctx->cpy = ctx->params[3];
g_warning ("quadratic bezier curveto not implemented");
ctx->param = 0;
}
break;
case 't':
/* truetype quadratic bezier curveto */
if (ctx->param == 2 || final)
{
parse_path_default_xy (ctx, 2);
ctx->rpx = 2 * ctx->cpx - ctx->rpx;
ctx->rpy = 2 * ctx->cpy - ctx->rpy;
ctx->cpx = ctx->params[0];
ctx->cpy = ctx->params[1];
g_warning ("truetype quadratic bezier curveto not implemented");
ctx->param = 0;
}
else if (final)
{
if (ctx->param > 2)
{
parse_path_default_xy (ctx, 4);
ctx->rpx = ctx->params[0];
ctx->rpy = ctx->params[1];
ctx->cpx = ctx->params[2];
ctx->cpy = ctx->params[3];
g_warning ("conicto not implemented");
}
else
{
parse_path_default_xy (ctx, 2);
ctx->cpx = ctx->rpx = ctx->params[0];
ctx->cpy = ctx->rpy = ctx->params[1];
cairo_line_to (ctx->cr, ctx->cpx, ctx->cpy);
}
ctx->param = 0;
}
break;
case 'a':
if (ctx->param == 7 || final)
{
ctx->cpx = ctx->rpx = ctx->params[5];
ctx->cpy = ctx->rpy = ctx->params[6];
g_warning ("arcto not implemented");
ctx->param = 0;
}
break;
default:
ctx->param = 0;
break;
}
}
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