From: Jim Evins Date: Thu, 2 Jan 2003 00:26:00 +0000 (+0000) Subject: Added support for Business Card CD Labels (Clipped circular shape). X-Git-Tag: glabels-2_3_0~655 X-Git-Url: https://git.sur5r.net/?a=commitdiff_plain;h=916e4368d97d638db065e79f3ab694701d20cdbc;p=glabels Added support for Business Card CD Labels (Clipped circular shape). Fixed artifact hack in wdgt-rotate-label -- made sure the scroll region was as large as the canvas, so that the label was not shoved into the upper left corner of the canvas. git-svn-id: https://glabels.svn.sourceforge.net/svnroot/glabels/trunk@233 f5e0f49d-192f-0410-a22d-a8d8700d0965 --- diff --git a/glabels2/src/label.c b/glabels2/src/label.c index c0e93baa..f4db0f4b 100644 --- a/glabels2/src/label.c +++ b/glabels2/src/label.c @@ -467,32 +467,11 @@ gl_label_get_size (glLabel *label, return; } - switch (template->label.style) { - - case GL_TEMPLATE_STYLE_RECT: - if (!label->private->rotate_flag) { - *w = template->label.rect.w; - *h = template->label.rect.h; - } else { - *w = template->label.rect.h; - *h = template->label.rect.w; - } - break; - - case GL_TEMPLATE_STYLE_ROUND: - *w = *h = 2.0 * template->label.round.r; - break; - - case GL_TEMPLATE_STYLE_CD: - *w = *h = 2.0 * template->label.cd.r1; - break; - - default: - g_warning ("Unknown template label style %d", - template->label.style); - *w = *h = 0; - break; - } + if (!label->private->rotate_flag) { + gl_template_get_label_size (template, w, h); + } else { + gl_template_get_label_size (template, h, w); + } gl_debug (DEBUG_LABEL, "END"); } diff --git a/glabels2/src/print.c b/glabels2/src/print.c index 893ab3bc..305982ee 100644 --- a/glabels2/src/print.c +++ b/glabels2/src/print.c @@ -44,6 +44,9 @@ #define GL_PRINT_DEFAULT_PAPER "US Letter" +#define ARC_FINE 2 /* Resolution in degrees of large arcs */ +#define ARC_COURSE 5 /* Resolution in degrees of small arcs */ + /*=========================================================================*/ /* Private types. */ /*=========================================================================*/ @@ -146,6 +149,14 @@ static void create_rounded_rectangle_path (GnomePrintContext *pc, gdouble w, gdouble h, gdouble r); + +static void create_clipped_circle_path (GnomePrintContext *pc, + gdouble x0, + gdouble y0, + gdouble w, + gdouble h, + gdouble r); + /*****************************************************************************/ /* Simple (no merge data) print command. */ @@ -1002,13 +1013,24 @@ draw_outline (PrintInfo *pi, break; case GL_TEMPLATE_STYLE_CD: - /* CD style, round label w/ concentric round hole */ - r1 = template->label.cd.r1; - r2 = template->label.cd.r2; - create_ellipse_path (pi->pc, r1, r1, r1, r1); - gnome_print_stroke (pi->pc); - create_ellipse_path (pi->pc, r1, r1, r2, r2); - gnome_print_stroke (pi->pc); + if ((template->label.cd.h == 0) && (template->label.cd.w == 0)) { + /* CD style, round label w/ concentric round hole */ + r1 = template->label.cd.r1; + r2 = template->label.cd.r2; + create_ellipse_path (pi->pc, r1, r1, r1, r1); + gnome_print_stroke (pi->pc); + create_ellipse_path (pi->pc, r1, r1, r2, r2); + gnome_print_stroke (pi->pc); + } else { + /* Business Card CD style, clipped round label w/ hole */ + gl_label_get_size (label, &w, &h); + r1 = template->label.cd.r1; + r2 = template->label.cd.r2; + create_clipped_circle_path (pi->pc, w/2, h/2, w, h, r1); + gnome_print_stroke (pi->pc); + create_ellipse_path (pi->pc, w/2, h/2, r2, r2); + gnome_print_stroke (pi->pc); + } break; default: @@ -1059,9 +1081,18 @@ clip_to_outline (PrintInfo *pi, break; case GL_TEMPLATE_STYLE_CD: - r1 = template->label.cd.r1; - create_ellipse_path (pi->pc, r1, r1, r1, r1); - gnome_print_clip (pi->pc); + if ((template->label.cd.h == 0) && (template->label.cd.w == 0)) { + /* CD style, round label w/ concentric round hole */ + r1 = template->label.cd.r1; + create_ellipse_path (pi->pc, r1, r1, r1, r1); + gnome_print_clip (pi->pc); + } else { + /* Business Card CD style, clipped round label w/ hole */ + gl_label_get_size (label, &w, &h); + r1 = template->label.cd.r1; + create_clipped_circle_path (pi->pc, w/2, h/2, w, h, r1); + gnome_print_clip (pi->pc); + } break; default: @@ -1111,7 +1142,7 @@ create_ellipse_path (GnomePrintContext *pc, gnome_print_newpath (pc); gnome_print_moveto (pc, x0 + rx, y0); - for (i_theta = 2; i_theta <= 360; i_theta += 2) { + for (i_theta = ARC_FINE; i_theta <= 360; i_theta += ARC_FINE) { x = x0 + rx * cos (i_theta * G_PI / 180.0); y = y0 + ry * sin (i_theta * G_PI / 180.0); gnome_print_lineto (pc, x, y); @@ -1137,22 +1168,22 @@ create_rounded_rectangle_path (GnomePrintContext *pc, gnome_print_newpath (pc); gnome_print_moveto (pc, x0 + r, y0); - for (i_theta = 5; i_theta <= 90; i_theta += 5) { + for (i_theta = ARC_COURSE; i_theta <= 90; i_theta += ARC_COURSE) { x = x0 + r - r * sin (i_theta * G_PI / 180.0); y = y0 + r - r * cos (i_theta * G_PI / 180.0); gnome_print_lineto (pc, x, y); } - for (i_theta = 0; i_theta <= 90; i_theta += 5) { + for (i_theta = 0; i_theta <= 90; i_theta += ARC_COURSE) { x = x0 + r - r * cos (i_theta * G_PI / 180.0); y = y0 + (h - r) + r * sin (i_theta * G_PI / 180.0); gnome_print_lineto (pc, x, y); } - for (i_theta = 0; i_theta <= 90; i_theta += 5) { + for (i_theta = 0; i_theta <= 90; i_theta += ARC_COURSE) { x = x0 + (w - r) + r * sin (i_theta * G_PI / 180.0); y = y0 + (h - r) + r * cos (i_theta * G_PI / 180.0); gnome_print_lineto (pc, x, y); } - for (i_theta = 0; i_theta <= 90; i_theta += 5) { + for (i_theta = 0; i_theta <= 90; i_theta += ARC_COURSE) { x = x0 + (w - r) + r * cos (i_theta * G_PI / 180.0); y = y0 + r - r * sin (i_theta * G_PI / 180.0); gnome_print_lineto (pc, x, y); @@ -1163,3 +1194,96 @@ create_rounded_rectangle_path (GnomePrintContext *pc, gl_debug (DEBUG_PRINT, "END"); } + +static void +create_clipped_circle_path (GnomePrintContext *pc, + gdouble x0, + gdouble y0, + gdouble w, + gdouble h, + gdouble r) +{ + gdouble x, y; + gdouble theta1, theta2; + gint i_theta; + + gl_debug (DEBUG_PRINT, "START"); + + theta1 = (180.0/G_PI) * acos (w / (2.0*r)); + theta2 = (180.0/G_PI) * asin (h / (2.0*r)); + + gnome_print_newpath (pc); + + x = x0 + r * cos (theta1 * G_PI / 180.0); + y = y0 + r * sin (theta1 * G_PI / 180.0); + gnome_print_moveto (pc, x, y); + + for ( i_theta = theta1 + ARC_FINE; i_theta < theta2; i_theta +=ARC_FINE ) { + x = x0 + r * cos (i_theta * G_PI / 180.0); + y = y0 + r * sin (i_theta * G_PI / 180.0); + gnome_print_lineto (pc, x, y); + } + + x = x0 + r * cos (theta2 * G_PI / 180.0); + y = y0 + r * sin (theta2 * G_PI / 180.0); + gnome_print_lineto (pc, x, y); + + if ( fabs (theta2 - 90.0) > GNOME_CANVAS_EPSILON ) { + x = x0 + r * cos ((180-theta2) * G_PI / 180.0); + y = y0 + r * sin ((180-theta2) * G_PI / 180.0); + gnome_print_lineto (pc, x, y); + } + + for ( i_theta = 180-theta2+ARC_FINE; i_theta < (180-theta1); i_theta +=ARC_FINE ) { + x = x0 + r * cos (i_theta * G_PI / 180.0); + y = y0 + r * sin (i_theta * G_PI / 180.0); + gnome_print_lineto (pc, x, y); + } + + x = x0 + r * cos ((180-theta1) * G_PI / 180.0); + y = y0 + r * sin ((180-theta1) * G_PI / 180.0); + gnome_print_lineto (pc, x, y); + + if ( fabs (theta1) > GNOME_CANVAS_EPSILON ) { + x = x0 + r * cos ((180+theta1) * G_PI / 180.0); + y = y0 + r * sin ((180+theta1) * G_PI / 180.0); + gnome_print_lineto (pc, x, y); + } + + for ( i_theta = 180+theta1+ARC_FINE; i_theta < (180+theta2); i_theta +=ARC_FINE ) { + x = x0 + r * cos (i_theta * G_PI / 180.0); + y = y0 + r * sin (i_theta * G_PI / 180.0); + gnome_print_lineto (pc, x, y); + } + + x = x0 + r * cos ((180+theta2) * G_PI / 180.0); + y = y0 + r * sin ((180+theta2) * G_PI / 180.0); + gnome_print_lineto (pc, x, y); + + if ( fabs (theta2 - 90.0) > GNOME_CANVAS_EPSILON ) { + x = x0 + r * cos ((360-theta2) * G_PI / 180.0); + y = y0 + r * sin ((360-theta2) * G_PI / 180.0); + gnome_print_lineto (pc, x, y); + } + + for ( i_theta = 360-theta2+ARC_FINE; i_theta < (360-theta1); i_theta +=ARC_FINE ) { + x = x0 + r * cos (i_theta * G_PI / 180.0); + y = y0 + r * sin (i_theta * G_PI / 180.0); + gnome_print_lineto (pc, x, y); + } + + if ( fabs (theta1) > GNOME_CANVAS_EPSILON ) { + x = x0 + r * cos ((360-theta1) * G_PI / 180.0); + y = y0 + r * sin ((360-theta1) * G_PI / 180.0); + gnome_print_lineto (pc, x, y); + } + + x = x0 + r * cos (theta1 * G_PI / 180.0); + y = y0 + r * sin (theta1 * G_PI / 180.0); + gnome_print_lineto (pc, x, y); + + gnome_print_closepath (pc); + + gl_debug (DEBUG_PRINT, "END"); +} + diff --git a/glabels2/src/template.c b/glabels2/src/template.c index 537ce648..29045b1a 100644 --- a/glabels2/src/template.c +++ b/glabels2/src/template.c @@ -589,8 +589,9 @@ static void xml_parse_label (xmlNodePtr label_node, glTemplate * template) { - xmlNodePtr node; - gchar *style; + xmlNodePtr node; + gchar *style; + gchar *string; gl_debug (DEBUG_TEMPLATE, "START"); @@ -605,6 +606,7 @@ xml_parse_label (xmlNodePtr label_node, template->label.style = GL_TEMPLATE_STYLE_RECT; g_warning ("Unknown label style in template"); } + g_free (style); switch (template->label.style) { case GL_TEMPLATE_STYLE_RECT: @@ -624,6 +626,20 @@ xml_parse_label (xmlNodePtr label_node, g_strtod (xmlGetProp (label_node, "radius"), NULL); template->label.cd.r2 = g_strtod (xmlGetProp (label_node, "hole"), NULL); + string = xmlGetProp (label_node, "width"); + if (string != NULL) { + template->label.cd.w = g_strtod (string, NULL); + g_free (string); + } else { + template->label.cd.w = 0.0; + } + string = xmlGetProp (label_node, "height"); + if (string != NULL) { + template->label.cd.h = g_strtod (string, NULL); + g_free (string); + } else { + template->label.cd.h = 0.0; + } break; default: break; @@ -807,6 +823,16 @@ xml_add_label (const glTemplate *template, string = g_strdup_printf ("%g", template->label.cd.r2); xmlSetProp (node, "hole", string); g_free (string); + if (template->label.cd.h != 0.0) { + string = g_strdup_printf ("%g", template->label.cd.h); + xmlSetProp (node, "width", string); + g_free (string); + } + if (template->label.cd.w != 0.0) { + string = g_strdup_printf ("%g", template->label.cd.w); + xmlSetProp (node, "height", string); + g_free (string); + } break; default: g_warning ("Unknown label style"); @@ -1033,8 +1059,16 @@ gl_template_get_label_size (const glTemplate *template, *h = 2.0 * template->label.round.r; break; case GL_TEMPLATE_STYLE_CD: - *w = 2.0 * template->label.cd.r1; - *h = 2.0 * template->label.cd.r1; + if (template->label.cd.w == 0.0) { + *w = 2.0 * template->label.cd.r1; + } else { + *w = template->label.cd.w; + } + if (template->label.cd.h == 0.0) { + *h = 2.0 * template->label.cd.r1; + } else { + *h = template->label.cd.h; + } break; default: *w = 0.0; diff --git a/glabels2/src/template.h b/glabels2/src/template.h index da370716..6006ea83 100644 --- a/glabels2/src/template.h +++ b/glabels2/src/template.h @@ -59,7 +59,7 @@ typedef struct { typedef struct { glTemplateLabelParent parent; - gdouble r1, r2; /* Dimensions */ + gdouble r1, r2, w, h; /* Dimensions, w&h are for business card CDs */ } glTemplateLabelCD; typedef union { diff --git a/glabels2/src/view.c b/glabels2/src/view.c index 31ba4f15..f502a019 100644 --- a/glabels2/src/view.c +++ b/glabels2/src/view.c @@ -57,6 +57,9 @@ #define SEL_LINE_COLOR GL_COLOR_A (0, 0, 255, 128) #define SEL_FILL_COLOR GL_COLOR_A (192, 192, 255, 128) +#define ARC_FINE 2 /* Resolution in degrees of large arcs */ +#define ARC_COURSE 5 /* Resolution in degrees of small arcs */ + /*==========================================================================*/ /* Private types. */ /*==========================================================================*/ @@ -115,6 +118,7 @@ static void draw_bg_fg_rect (glView *view); static void draw_bg_fg_rounded_rect (glView *view); static void draw_bg_fg_round (glView *view); static void draw_bg_fg_cd (glView *view); +static void draw_bg_fg_cd_bc (glView *view); static void draw_grid_layer (glView *view); @@ -130,6 +134,8 @@ static void draw_markup_margin_round (glView *view, glTemplateMarkupMargin *margin); static void draw_markup_margin_cd (glView *view, glTemplateMarkupMargin *margin); +static void draw_markup_margin_cd_bc (glView *view, + glTemplateMarkupMargin *margin); static void draw_markup_line (glView *view, glTemplateMarkupLine *line); @@ -593,7 +599,11 @@ draw_bg_fg_layers (glView *view) break; case GL_TEMPLATE_STYLE_CD: - draw_bg_fg_cd (view); + if ((template->label.cd.w == 0.0) && (template->label.cd.h == 0.0) ) { + draw_bg_fg_cd (view); + } else { + draw_bg_fg_cd_bc (view); + } break; default: @@ -667,27 +677,27 @@ draw_bg_fg_rounded_rect (glView *view) template = gl_label_get_template (label); r = template->label.rect.r; - points = gnome_canvas_points_new (4 * (1 + 90 / 5)); + points = gnome_canvas_points_new (4 * (1 + 90 / ARC_COURSE)); i_coords = 0; - for (i_theta = 0; i_theta <= 90; i_theta += 5) { + for (i_theta = 0; i_theta <= 90; i_theta += ARC_COURSE) { points->coords[i_coords++] = r - r * sin (i_theta * G_PI / 180.0); points->coords[i_coords++] = r - r * cos (i_theta * G_PI / 180.0); } - for (i_theta = 0; i_theta <= 90; i_theta += 5) { + for (i_theta = 0; i_theta <= 90; i_theta += ARC_COURSE) { points->coords[i_coords++] = r - r * cos (i_theta * G_PI / 180.0); points->coords[i_coords++] = (h - r) + r * sin (i_theta * G_PI / 180.0); } - for (i_theta = 0; i_theta <= 90; i_theta += 5) { + for (i_theta = 0; i_theta <= 90; i_theta += ARC_COURSE) { points->coords[i_coords++] = (w - r) + r * sin (i_theta * G_PI / 180.0); points->coords[i_coords++] = (h - r) + r * cos (i_theta * G_PI / 180.0); } - for (i_theta = 0; i_theta <= 90; i_theta += 5) { + for (i_theta = 0; i_theta <= 90; i_theta += ARC_COURSE) { points->coords[i_coords++] = (w - r) + r * cos (i_theta * G_PI / 180.0); points->coords[i_coords++] = @@ -824,6 +834,135 @@ draw_bg_fg_cd (glView *view) gl_debug (DEBUG_VIEW, "END"); } +/*---------------------------------------------------------------------------*/ +/* PRIVATE. Draw Business Card CD style background, CD w/ chopped ends. */ +/*---------------------------------------------------------------------------*/ +static void +draw_bg_fg_cd_bc (glView *view) +{ + glLabel *label = view->label; + glTemplate *template; + GnomeCanvasPoints *points; + gint i_coords, i_theta; + gdouble theta1, theta2; + gdouble x0, y0, w, h, r1, r2; + GnomeCanvasItem *item; + + gl_debug (DEBUG_VIEW, "START"); + + g_return_if_fail (GL_IS_VIEW (view)); + g_return_if_fail (label != NULL); + + template = gl_label_get_template (label); + gl_label_get_size (label, &w, &h); + x0 = w/2.0; + y0 = h/2.0; + + r1 = template->label.cd.r1; + r2 = template->label.cd.r2; + + theta1 = (180.0/G_PI) * acos (w / (2.0*r1)); + theta2 = (180.0/G_PI) * asin (h / (2.0*r1)); + + points = gnome_canvas_points_new (360/ARC_FINE + 1); + i_coords = 0; + + points->coords[i_coords++] = x0 + r1 * cos (theta1 * G_PI / 180.0); + points->coords[i_coords++] = y0 + r1 * sin (theta1 * G_PI / 180.0); + + for ( i_theta = theta1 + ARC_FINE; i_theta < theta2; i_theta +=ARC_FINE ) { + points->coords[i_coords++] = x0 + r1 * cos (i_theta * G_PI / 180.0); + points->coords[i_coords++] = y0 + r1 * sin (i_theta * G_PI / 180.0); + } + + points->coords[i_coords++] = x0 + r1 * cos (theta2 * G_PI / 180.0); + points->coords[i_coords++] = y0 + r1 * sin (theta2 * G_PI / 180.0); + + + if ( fabs (theta2 - 90.0) > GNOME_CANVAS_EPSILON ) { + points->coords[i_coords++] = x0 + r1 * cos ((180-theta2) * G_PI / 180.0); + points->coords[i_coords++] = y0 + r1 * sin ((180-theta2) * G_PI / 180.0); + } + + for ( i_theta = 180-theta2+ARC_FINE; i_theta < (180-theta1); i_theta +=ARC_FINE ) { + points->coords[i_coords++] = x0 + r1 * cos (i_theta * G_PI / 180.0); + points->coords[i_coords++] = y0 + r1 * sin (i_theta * G_PI / 180.0); + } + + points->coords[i_coords++] = x0 + r1 * cos ((180-theta1) * G_PI / 180.0); + points->coords[i_coords++] = y0 + r1 * sin ((180-theta1) * G_PI / 180.0); + + if ( fabs (theta1) > GNOME_CANVAS_EPSILON ) { + points->coords[i_coords++] = x0 + r1 * cos ((180+theta1) * G_PI / 180.0); + points->coords[i_coords++] = y0 + r1 * sin ((180+theta1) * G_PI / 180.0); + } + + for ( i_theta = 180+theta1+ARC_FINE; i_theta < (180+theta2); i_theta +=ARC_FINE ) { + points->coords[i_coords++] = x0 + r1 * cos (i_theta * G_PI / 180.0); + points->coords[i_coords++] = y0 + r1 * sin (i_theta * G_PI / 180.0); + } + + points->coords[i_coords++] = x0 + r1 * cos ((180+theta2) * G_PI / 180.0); + points->coords[i_coords++] = y0 + r1 * sin ((180+theta2) * G_PI / 180.0); + + if ( fabs (theta2 - 90.0) > GNOME_CANVAS_EPSILON ) { + points->coords[i_coords++] = x0 + r1 * cos ((360-theta2) * G_PI / 180.0); + points->coords[i_coords++] = y0 + r1 * sin ((360-theta2) * G_PI / 180.0); + } + + for ( i_theta = 360-theta2+ARC_FINE; i_theta < (360-theta1); i_theta +=ARC_FINE ) { + points->coords[i_coords++] = x0 + r1 * cos (i_theta * G_PI / 180.0); + points->coords[i_coords++] = y0 + r1 * sin (i_theta * G_PI / 180.0); + } + + if ( fabs (theta1) > GNOME_CANVAS_EPSILON ) { + points->coords[i_coords++] = x0 + r1 * cos ((360-theta1) * G_PI / 180.0); + points->coords[i_coords++] = y0 + r1 * sin ((360-theta1) * G_PI / 180.0); + } + + points->num_points = i_coords / 2; + + /* Background */ + /* outer circle */ + item = gnome_canvas_item_new (view->bg_group, + gnome_canvas_polygon_get_type (), + "points", points, + "fill_color_rgba", PAPER_COLOR, + NULL); + /* hole */ + item = gnome_canvas_item_new (view->bg_group, + gnome_canvas_ellipse_get_type (), + "x1", x0 - r2, + "y1", y0 - r2, + "x2", x0 + r2, + "y2", y0 + r2, + "fill_color_rgba", GRID_COLOR, + NULL); + + /* Foreground */ + /* outer circle */ + item = gnome_canvas_item_new (view->fg_group, + gnome_canvas_polygon_get_type (), + "points", points, + "width_pixels", 2, + "outline_color_rgba", OUTLINE_COLOR, + NULL); + /* hole */ + item = gnome_canvas_item_new (view->fg_group, + gnome_canvas_ellipse_get_type (), + "x1", x0 - r2, + "y1", y0 - r2, + "x2", x0 + r2, + "y2", y0 + r2, + "width_pixels", 2, + "outline_color_rgba", OUTLINE_COLOR, + NULL); + + gnome_canvas_points_free (points); + + gl_debug (DEBUG_VIEW, "END"); +} + /*---------------------------------------------------------------------------*/ /* PRIVATE. Draw grid lines. */ /*---------------------------------------------------------------------------*/ @@ -970,7 +1109,11 @@ draw_markup_margin (glView *view, break; case GL_TEMPLATE_STYLE_CD: - draw_markup_margin_cd (view, margin); + if ((template->label.cd.w == 0.0) && (template->label.cd.h == 0.0) ) { + draw_markup_margin_cd (view, margin); + } else { + draw_markup_margin_cd_bc (view, margin); + } break; default: @@ -1043,27 +1186,27 @@ draw_markup_margin_rounded_rect (glView *view, h = h - 2 * m; /* rectangle with rounded corners */ - points = gnome_canvas_points_new (4 * (1 + 90 / 5)); + points = gnome_canvas_points_new (4 * (1 + 90 / ARC_COURSE)); i_coords = 0; - for (i_theta = 0; i_theta <= 90; i_theta += 5) { + for (i_theta = 0; i_theta <= 90; i_theta += ARC_COURSE) { points->coords[i_coords++] = m + r - r * sin (i_theta * G_PI / 180.0); points->coords[i_coords++] = m + r - r * cos (i_theta * G_PI / 180.0); } - for (i_theta = 0; i_theta <= 90; i_theta += 5) { + for (i_theta = 0; i_theta <= 90; i_theta += ARC_COURSE) { points->coords[i_coords++] = m + r - r * cos (i_theta * G_PI / 180.0); points->coords[i_coords++] = m + (h - r) + r * sin (i_theta * G_PI / 180.0); } - for (i_theta = 0; i_theta <= 90; i_theta += 5) { + for (i_theta = 0; i_theta <= 90; i_theta += ARC_COURSE) { points->coords[i_coords++] = m + (w - r) + r * sin (i_theta * G_PI / 180.0); points->coords[i_coords++] = m + (h - r) + r * cos (i_theta * G_PI / 180.0); } - for (i_theta = 0; i_theta <= 90; i_theta += 5) { + for (i_theta = 0; i_theta <= 90; i_theta += ARC_COURSE) { points->coords[i_coords++] = m + (w - r) + r * cos (i_theta * G_PI / 180.0); points->coords[i_coords++] = @@ -1163,6 +1306,122 @@ draw_markup_margin_cd (glView *view, gl_debug (DEBUG_VIEW, "END"); } +/*---------------------------------------------------------------------------*/ +/* PRIVATE. Draw Business Card CD margins. */ +/*---------------------------------------------------------------------------*/ +static void +draw_markup_margin_cd_bc (glView *view, + glTemplateMarkupMargin *margin) +{ + glLabel *label = view->label; + glTemplate *template; + gdouble m, r1, r2; + GnomeCanvasPoints *points; + gint i_coords, i_theta; + gdouble theta1, theta2; + gdouble x0, y0, w, h, r; + GnomeCanvasItem *item; + + gl_debug (DEBUG_VIEW, "START"); + + g_return_if_fail (GL_IS_VIEW (view)); + g_return_if_fail (label != NULL); + + template = gl_label_get_template (label); + gl_label_get_size (label, &w, &h); + x0 = w/2.0; + y0 = h/2.0; + + r1 = template->label.cd.r1; + r2 = template->label.cd.r2; + m = margin->size; + + /* outer margin */ + r = r1 - m; + theta1 = (180.0/G_PI) * acos (w / (2.0*r1)); + theta2 = (180.0/G_PI) * asin (h / (2.0*r1)); + + points = gnome_canvas_points_new (360/ARC_FINE + 1); + i_coords = 0; + + points->coords[i_coords++] = x0 + r * cos (theta1 * G_PI / 180.0); + points->coords[i_coords++] = y0 + r * sin (theta1 * G_PI / 180.0); + + for ( i_theta = theta1 + ARC_FINE; i_theta < theta2; i_theta +=ARC_FINE ) { + points->coords[i_coords++] = x0 + r * cos (i_theta * G_PI / 180.0); + points->coords[i_coords++] = y0 + r * sin (i_theta * G_PI / 180.0); + } + + points->coords[i_coords++] = x0 + r * cos (theta2 * G_PI / 180.0); + points->coords[i_coords++] = y0 + r * sin (theta2 * G_PI / 180.0); + + + if ( fabs (theta2 - 90.0) > GNOME_CANVAS_EPSILON ) { + points->coords[i_coords++] = x0 + r * cos ((180-theta2) * G_PI / 180.0); + points->coords[i_coords++] = y0 + r * sin ((180-theta2) * G_PI / 180.0); + } + + for ( i_theta = 180-theta2+ARC_FINE; i_theta < (180-theta1); i_theta +=ARC_FINE ) { + points->coords[i_coords++] = x0 + r * cos (i_theta * G_PI / 180.0); + points->coords[i_coords++] = y0 + r * sin (i_theta * G_PI / 180.0); + } + + points->coords[i_coords++] = x0 + r * cos ((180-theta1) * G_PI / 180.0); + points->coords[i_coords++] = y0 + r * sin ((180-theta1) * G_PI / 180.0); + + if ( fabs (theta1) > GNOME_CANVAS_EPSILON ) { + points->coords[i_coords++] = x0 + r * cos ((180+theta1) * G_PI / 180.0); + points->coords[i_coords++] = y0 + r * sin ((180+theta1) * G_PI / 180.0); + } + + for ( i_theta = 180+theta1+ARC_FINE; i_theta < (180+theta2); i_theta +=ARC_FINE ) { + points->coords[i_coords++] = x0 + r * cos (i_theta * G_PI / 180.0); + points->coords[i_coords++] = y0 + r * sin (i_theta * G_PI / 180.0); + } + + points->coords[i_coords++] = x0 + r * cos ((180+theta2) * G_PI / 180.0); + points->coords[i_coords++] = y0 + r * sin ((180+theta2) * G_PI / 180.0); + + if ( fabs (theta2 - 90.0) > GNOME_CANVAS_EPSILON ) { + points->coords[i_coords++] = x0 + r * cos ((360-theta2) * G_PI / 180.0); + points->coords[i_coords++] = y0 + r * sin ((360-theta2) * G_PI / 180.0); + } + + for ( i_theta = 360-theta2+ARC_FINE; i_theta < (360-theta1); i_theta +=ARC_FINE ) { + points->coords[i_coords++] = x0 + r * cos (i_theta * G_PI / 180.0); + points->coords[i_coords++] = y0 + r * sin (i_theta * G_PI / 180.0); + } + + if ( fabs (theta1) > GNOME_CANVAS_EPSILON ) { + points->coords[i_coords++] = x0 + r * cos ((360-theta1) * G_PI / 180.0); + points->coords[i_coords++] = y0 + r * sin ((360-theta1) * G_PI / 180.0); + } + + points->num_points = i_coords / 2; + + item = gnome_canvas_item_new (view->markup_group, + gnome_canvas_polygon_get_type (), + "points", points, + "width_pixels", 1, + "outline_color_rgba", MARKUP_COLOR, + NULL); + + gnome_canvas_points_free (points); + + /* inner margin */ + item = gnome_canvas_item_new (view->markup_group, + gnome_canvas_ellipse_get_type (), + "x1", x0 - r2 - m, + "y1", y0 - r2 - m, + "x2", x0 + r2 + m, + "y2", y0 + r2 + m, + "width_pixels", 1, + "outline_color_rgba", MARKUP_COLOR, + NULL); + + gl_debug (DEBUG_VIEW, "END"); +} + /*---------------------------------------------------------------------------*/ /* PRIVATE. Draw line markup. */ /*---------------------------------------------------------------------------*/ diff --git a/glabels2/src/wdgt-mini-preview.c b/glabels2/src/wdgt-mini-preview.c index ba8c5d34..900ad50d 100644 --- a/glabels2/src/wdgt-mini-preview.c +++ b/glabels2/src/wdgt-mini-preview.c @@ -22,7 +22,8 @@ #include -#include "libgnomeprint/gnome-print-paper.h" +#include +#include #include "wdgt-mini-preview.h" #include "marshal.h" @@ -35,6 +36,8 @@ #define SHADOW_Y_OFFSET 3 #define SHADOW_COLOR GL_COLOR_A (33, 33, 33, 192) +#define RES 5 /* Resolution in degrees for Business Card CD outlines */ + /*===========================================*/ /* Private types */ /*===========================================*/ @@ -72,6 +75,13 @@ static void mini_outline_list_free (GList ** list); static gint canvas_event_cb (GnomeCanvas * canvas, GdkEvent * event, gpointer data); + +static GnomeCanvasItem *cdbc_item (GnomeCanvasGroup *group, + gdouble x1, + gdouble y1, + glTemplate *template); + + /****************************************************************************/ /* Boilerplate Object stuff. */ @@ -366,7 +376,6 @@ mini_outline_list_new (GnomeCanvas *canvas, NULL); break; case GL_TEMPLATE_STYLE_ROUND: - case GL_TEMPLATE_STYLE_CD: item = gnome_canvas_item_new (group, gnome_canvas_ellipse_get_type(), "x1", x1, @@ -378,6 +387,22 @@ mini_outline_list_new (GnomeCanvas *canvas, "fill_color", "white", NULL); break; + case GL_TEMPLATE_STYLE_CD: + if ( w == h ) { + item = gnome_canvas_item_new (group, + gnome_canvas_ellipse_get_type(), + "x1", x1, + "y1", y1, + "x2", x2, + "y2", y2, + "width_pixels", 1, + "outline_color", "black", + "fill_color", "white", + NULL); + } else { + item = cdbc_item (group, x1, y1, template); + } + break; default: g_warning ("Unknown label style"); return list; @@ -562,3 +587,98 @@ gl_wdgt_mini_preview_highlight_range (glWdgtMiniPreview * preview, gl_debug (DEBUG_MINI_PREVIEW, "END"); } +/*--------------------------------------------------------------------------*/ +/* PRIVATE. Draw CD business card item (cut-off in w and/or h). */ +/*--------------------------------------------------------------------------*/ +static GnomeCanvasItem * +cdbc_item (GnomeCanvasGroup *group, + gdouble x1, + gdouble y1, + glTemplate *template) +{ + GnomeCanvasPoints *points; + gint i_coords, i_theta; + gdouble theta1, theta2; + gdouble x0, y0, w, h, r; + GnomeCanvasItem *item; + + gl_template_get_label_size (template, &w, &h); + r = template->label.cd.r1; + x0 = x1 + (w/2.0); + y0 = y1 + (h/2.0); + + theta1 = (180.0/G_PI) * acos (w / (2.0*r)); + theta2 = (180.0/G_PI) * asin (h / (2.0*r)); + + points = gnome_canvas_points_new (360/RES + 1); + i_coords = 0; + + points->coords[i_coords++] = x0 + r * cos (theta1 * G_PI / 180.0); + points->coords[i_coords++] = y0 + r * sin (theta1 * G_PI / 180.0); + + for ( i_theta = theta1 + RES; i_theta < theta2; i_theta +=RES ) { + points->coords[i_coords++] = x0 + r * cos (i_theta * G_PI / 180.0); + points->coords[i_coords++] = y0 + r * sin (i_theta * G_PI / 180.0); + } + + points->coords[i_coords++] = x0 + r * cos (theta2 * G_PI / 180.0); + points->coords[i_coords++] = y0 + r * sin (theta2 * G_PI / 180.0); + + + if ( fabs (theta2 - 90.0) > GNOME_CANVAS_EPSILON ) { + points->coords[i_coords++] = x0 + r * cos ((180-theta2) * G_PI / 180.0); + points->coords[i_coords++] = y0 + r * sin ((180-theta2) * G_PI / 180.0); + } + + for ( i_theta = 180-theta2+RES; i_theta < (180-theta1); i_theta +=RES ) { + points->coords[i_coords++] = x0 + r * cos (i_theta * G_PI / 180.0); + points->coords[i_coords++] = y0 + r * sin (i_theta * G_PI / 180.0); + } + + points->coords[i_coords++] = x0 + r * cos ((180-theta1) * G_PI / 180.0); + points->coords[i_coords++] = y0 + r * sin ((180-theta1) * G_PI / 180.0); + + if ( fabs (theta1) > GNOME_CANVAS_EPSILON ) { + points->coords[i_coords++] = x0 + r * cos ((180+theta1) * G_PI / 180.0); + points->coords[i_coords++] = y0 + r * sin ((180+theta1) * G_PI / 180.0); + } + + for ( i_theta = 180+theta1+RES; i_theta < (180+theta2); i_theta +=RES ) { + points->coords[i_coords++] = x0 + r * cos (i_theta * G_PI / 180.0); + points->coords[i_coords++] = y0 + r * sin (i_theta * G_PI / 180.0); + } + + points->coords[i_coords++] = x0 + r * cos ((180+theta2) * G_PI / 180.0); + points->coords[i_coords++] = y0 + r * sin ((180+theta2) * G_PI / 180.0); + + if ( fabs (theta2 - 90.0) > GNOME_CANVAS_EPSILON ) { + points->coords[i_coords++] = x0 + r * cos ((360-theta2) * G_PI / 180.0); + points->coords[i_coords++] = y0 + r * sin ((360-theta2) * G_PI / 180.0); + } + + for ( i_theta = 360-theta2+RES; i_theta < (360-theta1); i_theta +=RES ) { + points->coords[i_coords++] = x0 + r * cos (i_theta * G_PI / 180.0); + points->coords[i_coords++] = y0 + r * sin (i_theta * G_PI / 180.0); + } + + if ( fabs (theta1) > GNOME_CANVAS_EPSILON ) { + points->coords[i_coords++] = x0 + r * cos ((360-theta1) * G_PI / 180.0); + points->coords[i_coords++] = y0 + r * sin ((360-theta1) * G_PI / 180.0); + } + + points->num_points = i_coords / 2; + + + item = gnome_canvas_item_new (group, + gnome_canvas_polygon_get_type (), + "points", points, + "width_pixels", 1, + "outline_color", "black", + "fill_color", "white", + NULL); + + gnome_canvas_points_free (points); + + return item; +} + diff --git a/glabels2/src/wdgt-rotate-label.c b/glabels2/src/wdgt-rotate-label.c index d1a04d60..283b2b75 100644 --- a/glabels2/src/wdgt-rotate-label.c +++ b/glabels2/src/wdgt-rotate-label.c @@ -22,6 +22,8 @@ #include +#include + #include "wdgt-rotate-label.h" #include "hig.h" #include "template.h" @@ -34,12 +36,15 @@ /* Private macros and constants. */ /*========================================================*/ #define MINI_PREVIEW_MAX_PIXELS 48 +#define MINI_PREVIEW_CANVAS_PIXELS (MINI_PREVIEW_MAX_PIXELS + 8) #define LINE_COLOR GL_COLOR(0,0,0) #define FILL_COLOR GL_COLOR(255,255,255) #define UNSENSITIVE_LINE_COLOR GL_COLOR(0x66,0x66,0x66) #define UNSENSITIVE_FILL_COLOR GL_COLOR(0xCC,0xCC,0xCC) +#define RES 5 /* Resolution in degrees for Business Card CD outlines */ + /*===========================================*/ /* Private types */ /*===========================================*/ @@ -63,20 +68,28 @@ static gint wdgt_rotate_label_signals[LAST_SIGNAL] = { 0 }; /* Local function prototypes */ /*===========================================*/ -static void gl_wdgt_rotate_label_class_init (glWdgtRotateLabelClass * class); -static void gl_wdgt_rotate_label_instance_init (glWdgtRotateLabel * rotate_select); -static void gl_wdgt_rotate_label_finalize (GObject * object); +static void gl_wdgt_rotate_label_class_init (glWdgtRotateLabelClass *class); +static void gl_wdgt_rotate_label_instance_init (glWdgtRotateLabel *rotate_select); +static void gl_wdgt_rotate_label_finalize (GObject *object); -static void gl_wdgt_rotate_label_construct (glWdgtRotateLabel * rotate_select); +static void gl_wdgt_rotate_label_construct (glWdgtRotateLabel *rotate_select); -static void entry_changed_cb (GtkToggleButton * toggle, - gpointer user_data); +static void entry_changed_cb (GtkToggleButton *toggle, + gpointer user_data); static GtkWidget *mini_preview_canvas_new (void); -static void mini_preview_canvas_update (GnomeCanvas * canvas, - glTemplate * template, - gboolean rotate_flag); +static void mini_preview_canvas_update (GnomeCanvas *canvas, + glTemplate *template, + gboolean rotate_flag); + +static GnomeCanvasItem *cdbc_item (GnomeCanvasGroup *group, + gdouble w, + gdouble h, + gdouble r, + guint line_width, + guint line_color, + guint fill_color); /****************************************************************************/ /* Boilerplate Object stuff. */ @@ -110,7 +123,7 @@ gl_wdgt_rotate_label_get_type (void) } static void -gl_wdgt_rotate_label_class_init (glWdgtRotateLabelClass * class) +gl_wdgt_rotate_label_class_init (glWdgtRotateLabelClass *class) { GObjectClass *object_class; @@ -132,7 +145,7 @@ gl_wdgt_rotate_label_class_init (glWdgtRotateLabelClass * class) } static void -gl_wdgt_rotate_label_instance_init (glWdgtRotateLabel * rotate_select) +gl_wdgt_rotate_label_instance_init (glWdgtRotateLabel *rotate_select) { rotate_select->rotate_check = NULL; @@ -142,9 +155,9 @@ gl_wdgt_rotate_label_instance_init (glWdgtRotateLabel * rotate_select) } static void -gl_wdgt_rotate_label_finalize (GObject * object) +gl_wdgt_rotate_label_finalize (GObject *object) { - glWdgtRotateLabel *rotate_select; + glWdgtRotateLabel *rotate_select; glWdgtRotateLabelClass *class; g_return_if_fail (object != NULL); @@ -171,7 +184,7 @@ gl_wdgt_rotate_label_new (void) /* Construct composite widget. */ /*--------------------------------------------------------------------------*/ static void -gl_wdgt_rotate_label_construct (glWdgtRotateLabel * rotate_select) +gl_wdgt_rotate_label_construct (glWdgtRotateLabel *rotate_select) { GtkWidget *whbox; @@ -196,8 +209,8 @@ gl_wdgt_rotate_label_construct (glWdgtRotateLabel * rotate_select) /* PRIVATE. modify widget due to change of check button */ /*--------------------------------------------------------------------------*/ static void -entry_changed_cb (GtkToggleButton * toggle, - gpointer user_data) +entry_changed_cb (GtkToggleButton *toggle, + gpointer user_data) { glWdgtRotateLabel *rotate_select = GL_WDGT_ROTATE_LABEL (user_data); @@ -230,8 +243,8 @@ mini_preview_canvas_new (void) gtk_widget_pop_colormap (); gtk_widget_set_size_request (GTK_WIDGET (wcanvas), - MINI_PREVIEW_MAX_PIXELS + 8, - MINI_PREVIEW_MAX_PIXELS + 8); + MINI_PREVIEW_CANVAS_PIXELS, + MINI_PREVIEW_CANVAS_PIXELS); gtk_object_set_data (GTK_OBJECT (wcanvas), "label_item", NULL); @@ -242,34 +255,30 @@ mini_preview_canvas_new (void) /* PRIVATE. Update mini-preview canvas from new template. */ /*--------------------------------------------------------------------------*/ static void -mini_preview_canvas_update (GnomeCanvas * canvas, - glTemplate * template, - gboolean rotate_flag) +mini_preview_canvas_update (GnomeCanvas *canvas, + glTemplate *template, + gboolean rotate_flag) { - gdouble canvas_scale; + gdouble canvas_scale; GnomeCanvasGroup *group = NULL; - GnomeCanvasItem *label_item = NULL; - gdouble m, raw_w, raw_h, w, h; - guint line_color, fill_color; + GnomeCanvasItem *label_item = NULL; + gdouble m, m_canvas, w, h; + guint line_color, fill_color; /* Fetch our data from canvas */ label_item = g_object_get_data (G_OBJECT (canvas), "label_item"); - gl_template_get_label_size (template, &raw_w, &raw_h); - m = MAX (raw_w, raw_h); - canvas_scale = (MINI_PREVIEW_MAX_PIXELS) / m; - - /* FIXME: Stupid hack to eliminate canvas artifacts. */ - if (rotate_flag) { - canvas_scale *= 1.02; - } + gl_template_get_label_size (template, &w, &h); + m = MAX (w, h); + canvas_scale = MINI_PREVIEW_MAX_PIXELS / m; + m_canvas = MINI_PREVIEW_CANVAS_PIXELS / canvas_scale; /* scale and size canvas */ gnome_canvas_set_pixels_per_unit (GNOME_CANVAS (canvas), canvas_scale); group = gnome_canvas_root (GNOME_CANVAS (canvas)); gnome_canvas_set_scroll_region (GNOME_CANVAS (canvas), - -m / 2.0, -m / 2.0, - +m / 2.0, +m / 2.0); + -m_canvas / 2.0, -m_canvas / 2.0, + +m_canvas / 2.0, +m_canvas / 2.0); /* remove old label outline */ if (label_item != NULL) { @@ -277,7 +286,7 @@ mini_preview_canvas_update (GnomeCanvas * canvas, } /* Adjust sensitivity (should the canvas be grayed?) */ - if (raw_w != raw_h) { + if (w != h) { line_color = LINE_COLOR; fill_color = FILL_COLOR; } else { @@ -286,13 +295,6 @@ mini_preview_canvas_update (GnomeCanvas * canvas, } /* draw mini label outline */ - if (!rotate_flag) { - w = raw_w; - h = raw_h; - } else { - w = raw_h; - h = raw_w; - } switch (template->label.style) { case GL_TEMPLATE_STYLE_RECT: label_item = gnome_canvas_item_new (group, @@ -307,23 +309,47 @@ mini_preview_canvas_update (GnomeCanvas * canvas, NULL); break; case GL_TEMPLATE_STYLE_ROUND: - case GL_TEMPLATE_STYLE_CD: label_item = gnome_canvas_item_new (group, gnome_canvas_ellipse_get_type(), "x1", -w / 2.0, "y1", -h / 2.0, "x2", +w / 2.0, "y2", +h / 2.0, - "width_pixels", 2, + "width_pixels", 1, "outline_color_rgba", line_color, "fill_color_rgba", fill_color, NULL); break; + case GL_TEMPLATE_STYLE_CD: + if ( w == h ) { + label_item = gnome_canvas_item_new (group, + gnome_canvas_ellipse_get_type(), + "x1", -w / 2.0, + "y1", -h / 2.0, + "x2", +w / 2.0, + "y2", +h / 2.0, + "width_pixels", 1, + "outline_color_rgba", line_color, + "fill_color_rgba", fill_color, + NULL); + } else { + label_item = cdbc_item (group, + w, h, template->label.cd.r1, + 1, line_color, fill_color); + } + break; default: g_warning ("Unknown label style"); break; } + if (rotate_flag) { + gdouble affine[6]; + + art_affine_rotate (affine, 90); + gnome_canvas_item_affine_absolute (label_item, affine); + } + gtk_object_set_data (GTK_OBJECT (canvas), "label_item", label_item); } @@ -332,7 +358,7 @@ mini_preview_canvas_update (GnomeCanvas * canvas, /* query state of widget. */ /****************************************************************************/ gboolean -gl_wdgt_rotate_label_get_state (glWdgtRotateLabel * rotate_select) +gl_wdgt_rotate_label_get_state (glWdgtRotateLabel *rotate_select) { return gtk_toggle_button_get_active (GTK_TOGGLE_BUTTON @@ -343,7 +369,7 @@ gl_wdgt_rotate_label_get_state (glWdgtRotateLabel * rotate_select) /* set state of widget. */ /****************************************************************************/ void -gl_wdgt_rotate_label_set_state (glWdgtRotateLabel * rotate_select, +gl_wdgt_rotate_label_set_state (glWdgtRotateLabel *rotate_select, gboolean state) { gtk_toggle_button_set_active (GTK_TOGGLE_BUTTON @@ -354,11 +380,11 @@ gl_wdgt_rotate_label_set_state (glWdgtRotateLabel * rotate_select, /* set template for widget. */ /****************************************************************************/ void -gl_wdgt_rotate_label_set_template_name (glWdgtRotateLabel * rotate_select, - gchar * name) +gl_wdgt_rotate_label_set_template_name (glWdgtRotateLabel *rotate_select, + gchar *name) { glTemplate *template; - gdouble raw_w, raw_h; + gdouble raw_w, raw_h; template = gl_template_from_name (name); rotate_select->template = template; @@ -372,3 +398,96 @@ gl_wdgt_rotate_label_set_template_name (glWdgtRotateLabel * rotate_select, gtk_toggle_button_set_active (GTK_TOGGLE_BUTTON (rotate_select->rotate_check), FALSE); } + +/*--------------------------------------------------------------------------*/ +/* PRIVATE. Draw CD business card item (cut-off in w and/or h). */ +/*--------------------------------------------------------------------------*/ +static GnomeCanvasItem * +cdbc_item (GnomeCanvasGroup *group, + gdouble w, + gdouble h, + gdouble r, + guint line_width, + guint line_color, + guint fill_color) +{ + GnomeCanvasPoints *points; + gint i_coords, i_theta; + gdouble theta1, theta2; + GnomeCanvasItem *item; + + theta1 = (180.0/G_PI) * acos (w / (2.0*r)); + theta2 = (180.0/G_PI) * asin (h / (2.0*r)); + + points = gnome_canvas_points_new (360/RES + 1); + i_coords = 0; + + points->coords[i_coords++] = r * cos (theta1 * G_PI / 180.0); + points->coords[i_coords++] = r * sin (theta1 * G_PI / 180.0); + + for ( i_theta = theta1 + RES; i_theta < theta2; i_theta +=RES ) { + points->coords[i_coords++] = r * cos (i_theta * G_PI / 180.0); + points->coords[i_coords++] = r * sin (i_theta * G_PI / 180.0); + } + + points->coords[i_coords++] = r * cos (theta2 * G_PI / 180.0); + points->coords[i_coords++] = r * sin (theta2 * G_PI / 180.0); + + + if ( fabs (theta2 - 90.0) > GNOME_CANVAS_EPSILON ) { + points->coords[i_coords++] = r * cos ((180-theta2) * G_PI / 180.0); + points->coords[i_coords++] = r * sin ((180-theta2) * G_PI / 180.0); + } + + for ( i_theta = 180-theta2+RES; i_theta < (180-theta1); i_theta +=RES ) { + points->coords[i_coords++] = r * cos (i_theta * G_PI / 180.0); + points->coords[i_coords++] = r * sin (i_theta * G_PI / 180.0); + } + + points->coords[i_coords++] = r * cos ((180-theta1) * G_PI / 180.0); + points->coords[i_coords++] = r * sin ((180-theta1) * G_PI / 180.0); + + if ( fabs (theta1) > GNOME_CANVAS_EPSILON ) { + points->coords[i_coords++] = r * cos ((180+theta1) * G_PI / 180.0); + points->coords[i_coords++] = r * sin ((180+theta1) * G_PI / 180.0); + } + + for ( i_theta = 180+theta1+RES; i_theta < (180+theta2); i_theta +=RES ) { + points->coords[i_coords++] = r * cos (i_theta * G_PI / 180.0); + points->coords[i_coords++] = r * sin (i_theta * G_PI / 180.0); + } + + points->coords[i_coords++] = r * cos ((180+theta2) * G_PI / 180.0); + points->coords[i_coords++] = r * sin ((180+theta2) * G_PI / 180.0); + + if ( fabs (theta2 - 90.0) > GNOME_CANVAS_EPSILON ) { + points->coords[i_coords++] = r * cos ((360-theta2) * G_PI / 180.0); + points->coords[i_coords++] = r * sin ((360-theta2) * G_PI / 180.0); + } + + for ( i_theta = 360-theta2+RES; i_theta < (360-theta1); i_theta +=RES ) { + points->coords[i_coords++] = r * cos (i_theta * G_PI / 180.0); + points->coords[i_coords++] = r * sin (i_theta * G_PI / 180.0); + } + + if ( fabs (theta1) > GNOME_CANVAS_EPSILON ) { + points->coords[i_coords++] = r * cos ((360-theta1) * G_PI / 180.0); + points->coords[i_coords++] = r * sin ((360-theta1) * G_PI / 180.0); + } + + points->num_points = i_coords / 2; + + + item = gnome_canvas_item_new (group, + gnome_canvas_polygon_get_type (), + "points", points, + "width_pixels", line_width, + "outline_color_rgba", line_color, + "fill_color_rgba", fill_color, + NULL); + + gnome_canvas_points_free (points); + + return item; +} +