408 lines
10 KiB
C
408 lines
10 KiB
C
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/*
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* Copyright (C) 1995 Spencer Kimball and Peter Mattis
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*
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* This is a plug-in for PIKA.
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*
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* Generates images containing vector type drawings.
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*
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* Copyright (C) 1997 Andy Thomas alt@picnic.demon.co.uk
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*
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* This program is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 3 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <https://www.gnu.org/licenses/>.
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*
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*/
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#include "config.h"
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#include <libpika/pika.h>
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#include <libpika/pikaui.h>
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#include "gfig.h"
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#include "gfig-line.h"
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#include "gfig-dobject.h"
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#include "gfig-star.h"
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#include "gfig-dialog.h"
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#include "libpika/stdplugins-intl.h"
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static gint star_num_sides = 3; /* Default to three sided object */
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static void d_draw_star (GfigObject *obj,
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cairo_t *cr);
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static void d_paint_star (GfigObject *obj);
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static GfigObject *d_copy_star (GfigObject *obj);
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static void d_update_star (GdkPoint *pnt);
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void
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tool_options_star (GtkWidget *notebook)
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{
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GtkWidget *sides;
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sides = num_sides_widget (_("Star Number of Points"),
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&star_num_sides, NULL, 3, 200);
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gtk_notebook_append_page (GTK_NOTEBOOK (notebook), sides, NULL);
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}
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static void
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d_draw_star (GfigObject *obj,
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cairo_t *cr)
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{
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DobjPoints *center_pnt;
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DobjPoints *outer_radius_pnt;
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DobjPoints *inner_radius_pnt;
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gint16 shift_x;
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gint16 shift_y;
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gdouble ang_grid;
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gdouble ang_loop;
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gdouble outer_radius;
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gdouble inner_radius;
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gdouble offset_angle;
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gint loop;
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GdkPoint start_pnt = { 0, 0 };
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GdkPoint first_pnt = { 0, 0 };
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gboolean do_line = FALSE;
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center_pnt = obj->points;
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if (!center_pnt)
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return; /* End-of-line */
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/* First point is the center */
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/* Just draw a control point around it */
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draw_sqr (¢er_pnt->pnt, obj == gfig_context->selected_obj, cr);
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/* Next point defines the radius */
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outer_radius_pnt = center_pnt->next; /* this defines the vertices */
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if (!outer_radius_pnt)
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{
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return;
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}
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inner_radius_pnt = outer_radius_pnt->next; /* this defines the vertices */
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if (!inner_radius_pnt)
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{
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return;
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}
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/* Other control points */
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if (obj == obj_creating)
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{
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draw_circle (&outer_radius_pnt->pnt, TRUE, cr);
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draw_circle (&inner_radius_pnt->pnt, TRUE, cr);
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}
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else
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{
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draw_sqr (&outer_radius_pnt->pnt, obj == gfig_context->selected_obj, cr);
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draw_sqr (&inner_radius_pnt->pnt, obj == gfig_context->selected_obj, cr);
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}
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/* Have center and radius - draw star */
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shift_x = outer_radius_pnt->pnt.x - center_pnt->pnt.x;
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shift_y = outer_radius_pnt->pnt.y - center_pnt->pnt.y;
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outer_radius = sqrt ((shift_x*shift_x) + (shift_y*shift_y));
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/* Lines */
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ang_grid = 2.0 * G_PI / (2.0 * (gdouble) obj->type_data);
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offset_angle = atan2 (shift_y, shift_x);
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shift_x = inner_radius_pnt->pnt.x - center_pnt->pnt.x;
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shift_y = inner_radius_pnt->pnt.y - center_pnt->pnt.y;
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inner_radius = sqrt ((shift_x*shift_x) + (shift_y*shift_y));
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for (loop = 0 ; loop < 2 * obj->type_data ; loop++)
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{
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gdouble lx, ly;
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GdkPoint calc_pnt;
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ang_loop = (gdouble)loop * ang_grid + offset_angle;
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if (loop % 2)
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{
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lx = inner_radius * cos (ang_loop);
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ly = inner_radius * sin (ang_loop);
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}
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else
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{
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lx = outer_radius * cos (ang_loop);
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ly = outer_radius * sin (ang_loop);
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}
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calc_pnt.x = RINT (lx + center_pnt->pnt.x);
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calc_pnt.y = RINT (ly + center_pnt->pnt.y);
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if (do_line)
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{
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/* Miss out points that come to the same location */
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if (calc_pnt.x == start_pnt.x && calc_pnt.y == start_pnt.y)
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continue;
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gfig_draw_line (calc_pnt.x, calc_pnt.y, start_pnt.x, start_pnt.y, cr);
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}
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else
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{
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do_line = TRUE;
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first_pnt = calc_pnt;
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}
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start_pnt = calc_pnt;
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}
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gfig_draw_line (first_pnt.x, first_pnt.y, start_pnt.x, start_pnt.y, cr);
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}
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static void
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d_paint_star (GfigObject *obj)
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{
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/* first point center */
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/* Next point is radius */
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gdouble *line_pnts;
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gint seg_count = 0;
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gint i = 0;
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DobjPoints *center_pnt;
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DobjPoints *outer_radius_pnt;
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DobjPoints *inner_radius_pnt;
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gint16 shift_x;
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gint16 shift_y;
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gdouble ang_grid;
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gdouble ang_loop;
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gdouble outer_radius;
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gdouble inner_radius;
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gdouble offset_angle;
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gint loop;
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GdkPoint first_pnt = { 0, 0 };
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GdkPoint last_pnt = { 0, 0 };
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gboolean first = TRUE;
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gdouble *min_max;
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g_assert (obj != NULL);
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/* count - add one to close polygon */
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seg_count = 2 * obj->type_data + 1;
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center_pnt = obj->points;
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if (!center_pnt || !seg_count)
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return; /* no-line */
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line_pnts = g_new0 (gdouble, 2 * seg_count + 1);
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min_max = g_new (gdouble, 4);
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/* Go around all the points drawing a line from one to the next */
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/* Next point defines the radius */
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outer_radius_pnt = center_pnt->next; /* this defines the vetices */
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if (!outer_radius_pnt)
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{
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#ifdef DEBUG
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g_warning ("Internal error in star - no outer vertice point \n");
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#endif /* DEBUG */
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g_free (line_pnts);
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g_free (min_max);
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return;
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}
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inner_radius_pnt = outer_radius_pnt->next; /* this defines the vetices */
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if (!inner_radius_pnt)
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{
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#ifdef DEBUG
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g_warning ("Internal error in star - no inner vertice point \n");
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#endif /* DEBUG */
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g_free (line_pnts);
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g_free (min_max);
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return;
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}
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shift_x = outer_radius_pnt->pnt.x - center_pnt->pnt.x;
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shift_y = outer_radius_pnt->pnt.y - center_pnt->pnt.y;
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outer_radius = sqrt ((shift_x*shift_x) + (shift_y*shift_y));
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/* Lines */
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ang_grid = 2.0 * G_PI / (2.0 * (gdouble) obj->type_data);
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offset_angle = atan2 (shift_y, shift_x);
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shift_x = inner_radius_pnt->pnt.x - center_pnt->pnt.x;
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shift_y = inner_radius_pnt->pnt.y - center_pnt->pnt.y;
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inner_radius = sqrt ((shift_x*shift_x) + (shift_y*shift_y));
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for (loop = 0 ; loop < 2 * obj->type_data ; loop++)
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{
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gdouble lx, ly;
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GdkPoint calc_pnt;
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ang_loop = (gdouble)loop * ang_grid + offset_angle;
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if (loop % 2)
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{
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lx = inner_radius * cos (ang_loop);
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ly = inner_radius * sin (ang_loop);
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}
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else
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{
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lx = outer_radius * cos (ang_loop);
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ly = outer_radius * sin (ang_loop);
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}
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calc_pnt.x = RINT (lx + center_pnt->pnt.x);
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calc_pnt.y = RINT (ly + center_pnt->pnt.y);
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/* Miss out duped pnts */
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if (!first)
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{
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if (calc_pnt.x == last_pnt.x && calc_pnt.y == last_pnt.y)
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{
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continue;
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}
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}
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line_pnts[i++] = calc_pnt.x;
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line_pnts[i++] = calc_pnt.y;
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last_pnt = calc_pnt;
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if (first)
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{
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first_pnt = calc_pnt;
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first = FALSE;
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min_max[0] = min_max[2] = calc_pnt.x;
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min_max[1] = min_max[3] = calc_pnt.y;
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}
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else
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{
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min_max[0] = MIN (min_max[0], calc_pnt.x);
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min_max[1] = MIN (min_max[1], calc_pnt.y);
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min_max[2] = MAX (min_max[2], calc_pnt.x);
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min_max[3] = MAX (min_max[3], calc_pnt.y);
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}
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}
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line_pnts[i++] = first_pnt.x;
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line_pnts[i++] = first_pnt.y;
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/* Scale before drawing */
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if (selvals.scaletoimage)
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{
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scale_to_original_xy (&line_pnts[0], i / 2);
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scale_to_original_xy (min_max, 2);
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}
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else
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{
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scale_to_xy (&line_pnts[0], i / 2);
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scale_to_xy (min_max, 2);
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}
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if (gfig_context_get_current_style ()->fill_type != FILL_NONE)
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{
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pika_context_push ();
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pika_context_set_antialias (selopt.antia);
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pika_context_set_feather (selopt.feather);
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pika_context_set_feather_radius (selopt.feather_radius, selopt.feather_radius);
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pika_image_select_polygon (gfig_context->image,
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selopt.type,
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i, line_pnts);
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pika_context_pop ();
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paint_layer_fill (min_max[0], min_max[1], min_max[2], min_max[3]);
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pika_selection_none (gfig_context->image);
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}
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if (obj->style.paint_type == PAINT_BRUSH_TYPE)
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gfig_paint (selvals.brshtype, gfig_context->drawable, i, line_pnts);
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g_free (line_pnts);
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g_free (min_max);
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}
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static GfigObject *
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d_copy_star (GfigObject *obj)
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{
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GfigObject *np;
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g_assert (obj->type == STAR);
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np = d_new_object (STAR, obj->points->pnt.x, obj->points->pnt.y);
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np->points->next = d_copy_dobjpoints (obj->points->next);
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np->type_data = obj->type_data;
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return np;
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}
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void
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d_star_object_class_init (void)
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{
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GfigObjectClass *class = &dobj_class[STAR];
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class->type = STAR;
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class->name = "STAR";
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class->drawfunc = d_draw_star;
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class->paintfunc = d_paint_star;
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class->copyfunc = d_copy_star;
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class->update = d_update_star;
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}
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static void
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d_update_star (GdkPoint *pnt)
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{
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DobjPoints *center_pnt, *inner_pnt, *outer_pnt;
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center_pnt = obj_creating->points;
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if (!center_pnt)
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return; /* No points */
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if ((outer_pnt = center_pnt->next))
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{
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inner_pnt = outer_pnt->next;
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outer_pnt->pnt = *pnt;
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inner_pnt->pnt.x = pnt->x + (2 * (center_pnt->pnt.x - pnt->x)) / 3;
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inner_pnt->pnt.y = pnt->y + (2 * (center_pnt->pnt.y - pnt->y)) / 3;
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}
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else
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{
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/* Radius is a few pixels away */
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/* First edge point */
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d_pnt_add_line (obj_creating, pnt->x, pnt->y,-1);
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/* Inner radius */
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d_pnt_add_line (obj_creating,
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pnt->x + (2 * (center_pnt->pnt.x - pnt->x)) / 3,
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pnt->y + (2 * (center_pnt->pnt.y - pnt->y)) / 3,
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-1);
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}
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}
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void
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d_star_start (GdkPoint *pnt,
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gboolean shift_down)
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{
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obj_creating = d_new_object (STAR, pnt->x, pnt->y);
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obj_creating->type_data = star_num_sides;
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}
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void
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d_star_end (PikaGfig *gfig,
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GdkPoint *pnt,
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gboolean shift_down)
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{
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add_to_all_obj (gfig, gfig_context->current_obj, obj_creating);
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obj_creating = NULL;
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}
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