guideline.cpp revision 8457d3565b2841ffc4ba020b3b91830f55e5a7c7
/*
* Horizontal/vertical but can also be angled line
*
* Authors:
* Lauris Kaplinski <lauris@kaplinski.com>
* Johan Engelen
* Maximilian Albert <maximilian.albert@gmail.com>
* Jon A. Cruz <jon@joncruz.org>
*
* Copyright (C) 2000-2002 Lauris Kaplinski
* Copyright (C) 2007 Johan Engelen
* Copyright (C) 2009 Maximilian Albert
*
* Released under GNU GPL, read the file 'COPYING' for more information
*/
#include <2geom/coord.h>
#include <2geom/transforms.h>
#include "sp-canvas-util.h"
#include "sp-ctrlpoint.h"
#include "guideline.h"
#include "display/cairo-utils.h"
#include "inkscape.h" // for inkscape_active_desktop()
#include "desktop.h"
#include "sp-namedview.h"
#include "display/sp-canvas.h"
#include "ui/control-manager.h"
using Inkscape::ControlManager;
static void sp_guideline_destroy(SPCanvasItem *object);
static void sp_guideline_update(SPCanvasItem *item, Geom::Affine const &affine, unsigned int flags);
static void sp_guideline_render(SPCanvasItem *item, SPCanvasBuf *buf);
static double sp_guideline_point(SPCanvasItem *item, Geom::Point p, SPCanvasItem **actual_item);
static void sp_guideline_drawline (SPCanvasBuf *buf, gint x0, gint y0, gint x1, gint y1, guint32 rgba);
G_DEFINE_TYPE(SPGuideLine, sp_guideline, SP_TYPE_CANVAS_ITEM);
static void sp_guideline_class_init(SPGuideLineClass *c)
{
SPCanvasItemClass *item_class = SP_CANVAS_ITEM_CLASS(c);
item_class->destroy = sp_guideline_destroy;
item_class->update = sp_guideline_update;
item_class->render = sp_guideline_render;
item_class->point = sp_guideline_point;
}
static void sp_guideline_init(SPGuideLine *gl)
{
gl->rgba = 0x0000ff7f;
gl->locked = false;
gl->normal_to_line = Geom::Point(0,1);
gl->angle = 3.14159265358979323846/2;
gl->point_on_line = Geom::Point(0,0);
gl->sensitive = 0;
gl->origin = NULL;
gl->label = NULL;
}
static void sp_guideline_destroy(SPCanvasItem *object)
{
g_return_if_fail (object != NULL);
g_return_if_fail (SP_IS_GUIDELINE (object));
//g_return_if_fail (SP_GUIDELINE(object)->origin != NULL);
//g_return_if_fail (SP_IS_CTRLPOINT(SP_GUIDELINE(object)->origin));
SPGuideLine *gl = SP_GUIDELINE(object);
if (gl->origin != NULL && SP_IS_CTRLPOINT(gl->origin)) {
sp_canvas_item_destroy(gl->origin);
} else {
// FIXME: This branch shouldn't be reached (although it seems to be harmless).
//g_error("Why can it be that gl->origin is not a valid SPCtrlPoint?\n");
}
if (gl->label) {
g_free(gl->label);
}
SP_CANVAS_ITEM_CLASS(sp_guideline_parent_class)->destroy(object);
}
static void sp_guideline_render(SPCanvasItem *item, SPCanvasBuf *buf)
{
//TODO: the routine that renders the label of a specific guideline sometimes
// ends up erasing the labels of the other guidelines.
// Maybe we should render all labels everytime.
SPGuideLine const *gl = SP_GUIDELINE (item);
cairo_save(buf->ct);
cairo_translate(buf->ct, -buf->rect.left(), -buf->rect.top());
ink_cairo_set_source_rgba32(buf->ct, gl->rgba);
cairo_set_line_width(buf->ct, 1);
cairo_set_line_cap(buf->ct, CAIRO_LINE_CAP_SQUARE);
cairo_set_font_size(buf->ct, 10);
Geom::Point normal_dt = /*unit_vector*/(gl->normal_to_line * gl->affine.withoutTranslation()); // note that normal_dt does not have unit length
Geom::Point point_on_line_dt = gl->point_on_line * gl->affine;
if (gl->label) {
int px = round(point_on_line_dt[Geom::X]);
int py = round(point_on_line_dt[Geom::Y]);
cairo_save(buf->ct);
cairo_translate(buf->ct, px, py);
cairo_rotate(buf->ct, atan2(normal_dt.cw()));
cairo_translate(buf->ct, 0, -5);
cairo_move_to(buf->ct, 0, 0);
cairo_show_text(buf->ct, gl->label);
cairo_restore(buf->ct);
}
if ( Geom::are_near(normal_dt[Geom::Y], 0.) ) { // is vertical?
int position = round(point_on_line_dt[Geom::X]);
cairo_move_to(buf->ct, position + 0.5, buf->rect.top() + 0.5);
cairo_line_to(buf->ct, position + 0.5, buf->rect.bottom() - 0.5);
cairo_stroke(buf->ct);
} else if ( Geom::are_near(normal_dt[Geom::X], 0.) ) { // is horizontal?
int position = round(point_on_line_dt[Geom::Y]);
cairo_move_to(buf->ct, buf->rect.left() + 0.5, position + 0.5);
cairo_line_to(buf->ct, buf->rect.right() - 0.5, position + 0.5);
cairo_stroke(buf->ct);
} else {
// render angled line. Once intersection has been detected, draw from there.
Geom::Point parallel_to_line( normal_dt.ccw() );
//try to intersect with left vertical of rect
double y_intersect_left = (buf->rect.left() - point_on_line_dt[Geom::X]) * parallel_to_line[Geom::Y] / parallel_to_line[Geom::X] + point_on_line_dt[Geom::Y];
if ( (y_intersect_left >= buf->rect.top()) && (y_intersect_left <= buf->rect.bottom()) ) {
// intersects with left vertical!
double y_intersect_right = (buf->rect.right() - point_on_line_dt[Geom::X]) * parallel_to_line[Geom::Y] / parallel_to_line[Geom::X] + point_on_line_dt[Geom::Y];
sp_guideline_drawline (buf, buf->rect.left(), static_cast<gint>(round(y_intersect_left)), buf->rect.right(), static_cast<gint>(round(y_intersect_right)), gl->rgba);
goto end;
}
//try to intersect with right vertical of rect
double y_intersect_right = (buf->rect.right() - point_on_line_dt[Geom::X]) * parallel_to_line[Geom::Y] / parallel_to_line[Geom::X] + point_on_line_dt[Geom::Y];
if ( (y_intersect_right >= buf->rect.top()) && (y_intersect_right <= buf->rect.bottom()) ) {
// intersects with right vertical!
sp_guideline_drawline (buf, buf->rect.right(), static_cast<gint>(round(y_intersect_right)), buf->rect.left(), static_cast<gint>(round(y_intersect_left)), gl->rgba);
goto end;
}
//try to intersect with top horizontal of rect
double x_intersect_top = (buf->rect.top() - point_on_line_dt[Geom::Y]) * parallel_to_line[Geom::X] / parallel_to_line[Geom::Y] + point_on_line_dt[Geom::X];
if ( (x_intersect_top >= buf->rect.left()) && (x_intersect_top <= buf->rect.right()) ) {
// intersects with top horizontal!
double x_intersect_bottom = (buf->rect.bottom() - point_on_line_dt[Geom::Y]) * parallel_to_line[Geom::X] / parallel_to_line[Geom::Y] + point_on_line_dt[Geom::X];
sp_guideline_drawline (buf, static_cast<gint>(round(x_intersect_top)), buf->rect.top(), static_cast<gint>(round(x_intersect_bottom)), buf->rect.bottom(), gl->rgba);
goto end;
}
//try to intersect with bottom horizontal of rect
double x_intersect_bottom = (buf->rect.bottom() - point_on_line_dt[Geom::Y]) * parallel_to_line[Geom::X] / parallel_to_line[Geom::Y] + point_on_line_dt[Geom::X];
if ( (x_intersect_top >= buf->rect.left()) && (x_intersect_top <= buf->rect.right()) ) {
// intersects with bottom horizontal!
sp_guideline_drawline (buf, static_cast<gint>(round(x_intersect_bottom)), buf->rect.bottom(), static_cast<gint>(round(x_intersect_top)), buf->rect.top(), gl->rgba);
goto end;
}
}
end:
cairo_restore(buf->ct);
}
static void sp_guideline_update(SPCanvasItem *item, Geom::Affine const &affine, unsigned int flags)
{
SPGuideLine *gl = SP_GUIDELINE(item);
if ((SP_CANVAS_ITEM_CLASS(sp_guideline_parent_class))->update) {
(SP_CANVAS_ITEM_CLASS(sp_guideline_parent_class))->update(item, affine, flags);
}
gl->affine = affine;
if (gl->locked) {
sp_ctrlpoint_set_circle(gl->origin, false);
sp_ctrlpoint_set_lenght(gl->origin, 6);
} else {
sp_ctrlpoint_set_circle(gl->origin, true);
sp_ctrlpoint_set_lenght(gl->origin, 4);
}
sp_ctrlpoint_set_coords(gl->origin, gl->point_on_line);
sp_canvas_item_request_update(SP_CANVAS_ITEM (gl->origin));
Geom::Point pol_transformed = gl->point_on_line*affine;
if (gl->is_horizontal()) {
sp_canvas_update_bbox (item, -1000000, round(pol_transformed[Geom::Y] - 16), 1000000, round(pol_transformed[Geom::Y] + 1));
} else if (gl->is_vertical()) {
sp_canvas_update_bbox (item, round(pol_transformed[Geom::X]), -1000000, round(pol_transformed[Geom::X] + 16), 1000000);
} else {
//TODO: labels in angled guidelines are not showing up for some reason.
sp_canvas_update_bbox (item, -1000000, -1000000, 1000000, 1000000);
}
}
// Returns 0.0 if point is on the guideline
static double sp_guideline_point(SPCanvasItem *item, Geom::Point p, SPCanvasItem **actual_item)
{
SPGuideLine *gl = SP_GUIDELINE (item);
if (!gl->sensitive) {
return Geom::infinity();
}
*actual_item = item;
Geom::Point vec = gl->normal_to_line * gl->affine.withoutTranslation();
double distance = Geom::dot((p - gl->point_on_line * gl->affine), unit_vector(vec));
return MAX(fabs(distance)-1, 0);
}
SPCanvasItem *sp_guideline_new(SPCanvasGroup *parent, char* label, Geom::Point point_on_line, Geom::Point normal)
{
SPCanvasItem *item = sp_canvas_item_new(parent, SP_TYPE_GUIDELINE, NULL);
SPCanvasItem *origin = ControlManager::getManager().createControl(parent, Inkscape::CTRL_TYPE_ORIGIN);
ControlManager::getManager().track(origin);
SPGuideLine *gl = SP_GUIDELINE(item);
SPCtrlPoint *cp = SP_CTRLPOINT(origin);
gl->origin = cp;
normal.normalize();
gl->label = label;
gl->locked = false;
gl->normal_to_line = normal;
gl->angle = tan( -gl->normal_to_line[Geom::X] / gl->normal_to_line[Geom::Y]);
sp_guideline_set_position(gl, point_on_line);
sp_ctrlpoint_set_coords(cp, point_on_line);
return item;
}
void sp_guideline_set_label(SPGuideLine *gl, const char* label)
{
if (gl->label) {
g_free(gl->label);
}
gl->label = g_strdup(label);
sp_canvas_item_request_update(SP_CANVAS_ITEM (gl));
}
void sp_guideline_set_locked(SPGuideLine *gl, const bool locked)
{
gl->locked = locked;
sp_canvas_item_request_update(SP_CANVAS_ITEM (gl));
}
void sp_guideline_set_position(SPGuideLine *gl, Geom::Point point_on_line)
{
gl->point_on_line = point_on_line;
sp_canvas_item_request_update(SP_CANVAS_ITEM (gl));
}
void sp_guideline_set_normal(SPGuideLine *gl, Geom::Point normal_to_line)
{
gl->normal_to_line = normal_to_line;
gl->angle = tan( -normal_to_line[Geom::X] / normal_to_line[Geom::Y]);
sp_canvas_item_request_update(SP_CANVAS_ITEM (gl));
}
void sp_guideline_set_color(SPGuideLine *gl, unsigned int rgba)
{
gl->rgba = rgba;
sp_ctrlpoint_set_color(gl->origin, rgba);
sp_canvas_item_request_update(SP_CANVAS_ITEM(gl));
}
void sp_guideline_set_sensitive(SPGuideLine *gl, int sensitive)
{
gl->sensitive = sensitive;
}
void sp_guideline_delete(SPGuideLine *gl)
{
//gtk_object_destroy(GTK_OBJECT(gl->origin));
sp_canvas_item_destroy(SP_CANVAS_ITEM(gl));
}
static void
sp_guideline_drawline (SPCanvasBuf *buf, gint x0, gint y0, gint x1, gint y1, guint32 /*rgba*/)
{
cairo_move_to(buf->ct, x0 + 0.5, y0 + 0.5);
cairo_line_to(buf->ct, x1 + 0.5, y1 + 0.5);
cairo_stroke(buf->ct);
}
/*
Local Variables:
mode:c++
c-file-style:"stroustrup"
c-file-offsets:((innamespace . 0)(inline-open . 0)(case-label . +))
indent-tabs-mode:nil
fill-column:99
End:
*/
// vim: filetype=cpp:expandtab:shiftwidth=4:tabstop=8:softtabstop=4:fileencoding=utf-8:textwidth=99 :