control-point.cpp revision 16e7cf17a1bc8bb0d79dfa6adc4f75b843fb6d16
/** @file
* Desktop-bound visual control object - implementation
*/
/* Authors:
* Krzysztof KosiƄski <tweenk.pl@gmail.com>
*
* Copyright (C) 2009 Authors
* Released under GNU GPL, read the file 'COPYING' for more information
*/
#include <iostream>
#include <gdkmm.h>
#include <gtkmm.h>
#include <2geom/point.h>
#include "desktop.h"
#include "desktop-handles.h"
#include "display/snap-indicator.h"
#include "event-context.h"
#include "message-context.h"
#include "preferences.h"
#include "ui/tool/control-point.h"
#include "ui/tool/event-utils.h"
namespace Inkscape {
namespace UI {
// class and member documentation goes here...
/**
* @class ControlPoint
* @brief Draggable point, the workhorse of on-canvas editing.
*
* Control points (formerly known as knots) are graphical representations of some significant
* point in the drawing. The drawing can be changed by dragging the point and the things that are
* attached to it with the mouse. Example things that could be edited with draggable points
* are gradient stops, the place where text is attached to a path, text kerns, nodes and handles
* in a path, and many more.
*
* @par Control point event handlers
* @par
* The control point has several virtual methods which allow you to react to things that
* happen to it. The most important ones are the grabbed, dragged, ungrabbed and moved functions.
* When a drag happens, the order of calls is as follows:
* - <tt>grabbed()</tt>
* - <tt>dragged()</tt>
* - <tt>dragged()</tt>
* - <tt>dragged()</tt>
* - ...
* - <tt>dragged()</tt>
* - <tt>ungrabbed()</tt>
*
* The control point can also respond to clicks and double clicks. On a double click,
* clicked() is called, followed by doubleclicked(). When deriving from SelectableControlPoint,
* you need to manually call the superclass version at the appropriate point in your handler.
*
* @par Which method to override?
* @par
* You might wonder which hook to use when you want to do things when the point is relocated.
* Here are some tips:
* - If the point is used to edit an object, override the move() method.
* - If the point can usually be dragged wherever you like but can optionally be constrained
* to axes or the like, add a handler for <tt>signal_dragged</tt> that modifies its new
* position argument.
* - If the point has additional canvas items tied to it (like handle lines), override
* the setPosition() method.
*/
/**
* @enum ControlPoint::State
* Enumeration representing the possible states of the control point, used to determine
* its appearance.
* @var ControlPoint::STATE_NORMAL
* Normal state
* @var ControlPoint::STATE_MOUSEOVER
* Mouse is hovering over the control point
* @var ControlPoint::STATE_CLICKED
* First mouse button pressed over the control point
*/
// Default colors for control points
static ControlPoint::ColorSet default_color_set = {
{0xffffff00, 0x01000000}, // normal fill, stroke
{0xff0000ff, 0x01000000}, // mouseover fill, stroke
{0x0000ffff, 0x01000000} // clicked fill, stroke
};
/** Holds the currently mouseovered control point. */
ControlPoint *ControlPoint::mouseovered_point = 0;
/** Emitted when the mouseovered point changes. The parameter is the new mouseovered point.
* When a point ceases to be mouseovered, the parameter will be NULL. */
sigc::signal<void, ControlPoint*> ControlPoint::signal_mouseover_change;
/** Stores the window point over which the cursor was during the last mouse button press */
Geom::Point ControlPoint::_drag_event_origin(Geom::infinity(), Geom::infinity());
/** Stores the desktop point from which the last drag was initiated */
Geom::Point ControlPoint::_drag_origin(Geom::infinity(), Geom::infinity());
/** Events which should be captured when a handle is being dragged. */
int const ControlPoint::_grab_event_mask = (GDK_BUTTON_PRESS_MASK | GDK_BUTTON_RELEASE_MASK |
GDK_POINTER_MOTION_MASK | GDK_POINTER_MOTION_HINT_MASK | GDK_KEY_PRESS_MASK |
GDK_KEY_RELEASE_MASK);
bool ControlPoint::_drag_initiated = false;
bool ControlPoint::_event_grab = false;
/** A color set which you can use to create an invisible control that can still receive events.
* @relates ControlPoint */
ControlPoint::ColorSet invisible_cset = {
{0x00000000, 0x00000000},
{0x00000000, 0x00000000},
{0x00000000, 0x00000000}
};
/**
* Create a regular control point.
* Derive to have constructors with a reasonable number of parameters.
*
* @param d Desktop for this control
* @param initial_pos Initial position of the control point in desktop coordinates
* @param anchor Where is the control point rendered relative to its desktop coordinates
* @param shape Shape of the control point: square, diamond, circle...
* @param size Pixel size of the visual representation
* @param cset Colors of the point
* @param group The canvas group the point's canvas item should be created in
*/
ControlPoint::ControlPoint(SPDesktop *d, Geom::Point const &initial_pos,
Gtk::AnchorType anchor, SPCtrlShapeType shape,
unsigned int size, ColorSet *cset, SPCanvasGroup *group)
: _desktop (d)
, _canvas_item (NULL)
, _cset (cset ? cset : &default_color_set)
, _state (STATE_NORMAL)
, _position (initial_pos)
{
_canvas_item = sp_canvas_item_new(
group ? group : sp_desktop_controls (_desktop), SP_TYPE_CTRL,
"anchor", (GtkAnchorType) anchor, "size", (gdouble) size, "shape", shape,
"filled", TRUE, "fill_color", _cset->normal.fill,
"stroked", TRUE, "stroke_color", _cset->normal.stroke,
"mode", SP_CTRL_MODE_XOR, NULL);
_commonInit();
}
/**
* Create a control point with a pixbuf-based visual representation.
*
* @param d Desktop for this control
* @param initial_pos Initial position of the control point in desktop coordinates
* @param anchor Where is the control point rendered relative to its desktop coordinates
* @param pixbuf Pixbuf to be used as the visual representation
* @param cset Colors of the point
* @param group The canvas group the point's canvas item should be created in
*/
ControlPoint::ControlPoint(SPDesktop *d, Geom::Point const &initial_pos,
Gtk::AnchorType anchor, Glib::RefPtr<Gdk::Pixbuf> pixbuf,
ColorSet *cset, SPCanvasGroup *group)
: _desktop (d)
, _canvas_item (NULL)
, _cset(cset ? cset : &default_color_set)
, _position (initial_pos)
{
_canvas_item = sp_canvas_item_new(
group ? group : sp_desktop_controls(_desktop), SP_TYPE_CTRL,
"anchor", (GtkAnchorType) anchor, "size", (gdouble) pixbuf->get_width(),
"shape", SP_CTRL_SHAPE_BITMAP, "pixbuf", pixbuf->gobj(),
"filled", TRUE, "fill_color", _cset->normal.fill,
"stroked", TRUE, "stroke_color", _cset->normal.stroke,
"mode", SP_CTRL_MODE_XOR, NULL);
_commonInit();
}
ControlPoint::~ControlPoint()
{
// avoid storing invalid points in mouseovered_point
if (this == mouseovered_point) {
_clearMouseover();
}
g_signal_handler_disconnect(G_OBJECT(_canvas_item), _event_handler_connection);
//sp_canvas_item_hide(_canvas_item);
gtk_object_destroy(_canvas_item);
}
void ControlPoint::_commonInit()
{
SP_CTRL(_canvas_item)->moveto(_position);
_event_handler_connection = g_signal_connect(G_OBJECT(_canvas_item), "event",
G_CALLBACK(_event_handler), this);
}
/** Relocate the control point without side effects.
* Overload this method only if there is an additional graphical representation
* that must be updated (like the lines that connect handles to nodes). If you override it,
* you must also call the superclass implementation of the method.
* @todo Investigate whether this method should be protected */
void ControlPoint::setPosition(Geom::Point const &pos)
{
_position = pos;
SP_CTRL(_canvas_item)->moveto(pos);
}
/** Move the control point to new position with side effects.
* This is called after each drag. Override this method if only some positions make sense
* for a control point (like a point that must always be on a path and can't modify it),
* or when moving a control point changes the positions of other points. */
void ControlPoint::move(Geom::Point const &pos)
{
setPosition(pos);
}
/** Apply an arbitrary affine transformation to a control point. This is used
* by ControlPointSelection, and is important for things like nodes with handles.
* The default implementation simply moves the point according to the transform. */
void ControlPoint::transform(Geom::Matrix const &m) {
move(position() * m);
}
bool ControlPoint::visible() const
{
return sp_canvas_item_is_visible(_canvas_item);
}
/** Set the visibility of the control point. An invisible point is not drawn on the canvas
* and cannot receive any events. If you want to have an invisible point that can respond
* to events, use <tt>invisible_cset</tt> as its color set. */
void ControlPoint::setVisible(bool v)
{
if (v) sp_canvas_item_show(_canvas_item);
else sp_canvas_item_hide(_canvas_item);
}
Glib::ustring ControlPoint::format_tip(char const *format, ...)
{
va_list args;
va_start(args, format);
char *dyntip = g_strdup_vprintf(format, args);
va_end(args);
Glib::ustring ret = dyntip;
g_free(dyntip);
return ret;
}
unsigned int ControlPoint::_size() const
{
double ret;
g_object_get(_canvas_item, "size", &ret, NULL);
return static_cast<unsigned int>(ret);
}
SPCtrlShapeType ControlPoint::_shape() const
{
SPCtrlShapeType ret;
g_object_get(_canvas_item, "shape", &ret, NULL);
return ret;
}
GtkAnchorType ControlPoint::_anchor() const
{
GtkAnchorType ret;
g_object_get(_canvas_item, "anchor", &ret, NULL);
return ret;
}
Glib::RefPtr<Gdk::Pixbuf> ControlPoint::_pixbuf()
{
GdkPixbuf *ret;
g_object_get(_canvas_item, "pixbuf", &ret, NULL);
return Glib::wrap(ret);
}
// Same for setters.
void ControlPoint::_setSize(unsigned int size)
{
g_object_set(_canvas_item, "size", (gdouble) size, NULL);
}
void ControlPoint::_setShape(SPCtrlShapeType shape)
{
g_object_set(_canvas_item, "shape", shape, NULL);
}
void ControlPoint::_setAnchor(GtkAnchorType anchor)
{
g_object_set(_canvas_item, "anchor", anchor, NULL);
}
void ControlPoint::_setPixbuf(Glib::RefPtr<Gdk::Pixbuf> p)
{
g_object_set(_canvas_item, "pixbuf", Glib::unwrap(p), NULL);
}
// re-routes events into the virtual function
int ControlPoint::_event_handler(SPCanvasItem */*item*/, GdkEvent *event, ControlPoint *point)
{
return point->_eventHandler(event) ? TRUE : FALSE;
}
// main event callback, which emits all other callbacks.
bool ControlPoint::_eventHandler(GdkEvent *event)
{
// NOTE the static variables below are shared for all points!
// offset from the pointer hotspot to the center of the grabbed knot in desktop coords
static Geom::Point pointer_offset;
// number of last doubleclicked button, to be
static unsigned next_release_doubleclick = 0;
Inkscape::Preferences *prefs = Inkscape::Preferences::get();
int drag_tolerance = prefs->getIntLimited("/options/dragtolerance/value", 0, 0, 100);
switch(event->type)
{
case GDK_2BUTTON_PRESS:
// store the button number for next release
next_release_doubleclick = event->button.button;
return true;
case GDK_BUTTON_PRESS:
next_release_doubleclick = 0;
if (event->button.button == 1) {
// mouse click. internally, start dragging, but do not emit signals
// or change position until drag tolerance is exceeded.
_drag_event_origin[Geom::X] = event->button.x;
_drag_event_origin[Geom::Y] = event->button.y;
pointer_offset = _position - _desktop->w2d(_drag_event_origin);
_drag_initiated = false;
// route all events to this handler
sp_canvas_item_grab(_canvas_item, _grab_event_mask, NULL, event->button.time);
_event_grab = true;
_setState(STATE_CLICKED);
}
return true;
case GDK_MOTION_NOTIFY:
if (held_button<1>(event->motion) && !_desktop->event_context->space_panning) {
_desktop->snapindicator->remove_snaptarget();
bool transferred = false;
if (!_drag_initiated) {
bool t = fabs(event->motion.x - _drag_event_origin[Geom::X]) <= drag_tolerance &&
fabs(event->motion.y - _drag_event_origin[Geom::Y]) <= drag_tolerance;
if (t) return true;
// if we are here, it means the tolerance was just exceeded.
next_release_doubleclick = 0;
_drag_origin = _position;
transferred = grabbed(&event->motion);
// _drag_initiated might change during the above virtual call
if (!_drag_initiated) {
// this guarantees smooth redraws while dragging
sp_canvas_force_full_redraw_after_interruptions(_desktop->canvas, 5);
_drag_initiated = true;
}
}
if (!transferred) {
// dragging in progress
Geom::Point new_pos = _desktop->w2d(event_point(event->motion)) + pointer_offset;
// the new position is passed by reference and can be changed in the handlers.
dragged(new_pos, &event->motion);
move(new_pos);
_updateDragTip(&event->motion); // update dragging tip after moving to new position
_desktop->scroll_to_point(new_pos);
_desktop->set_coordinate_status(_position);
sp_event_context_snap_delay_handler(_desktop->event_context, NULL,
reinterpret_cast<SPKnot*>(this), &event->motion,
DelayedSnapEvent::CONTROL_POINT_HANDLER);
}
return true;
}
break;
case GDK_BUTTON_RELEASE:
if (!_event_grab) break;
// TODO I think snapping on release is wrong, or at least counter-intuitive.
sp_event_context_snap_watchdog_callback(_desktop->event_context->_delayed_snap_event);
sp_event_context_discard_delayed_snap_event(_desktop->event_context);
_desktop->snapindicator->remove_snaptarget();
sp_canvas_item_ungrab(_canvas_item, event->button.time);
_setMouseover(this, event->button.state);
_event_grab = false;
if (_drag_initiated) {
sp_canvas_end_forced_full_redraws(_desktop->canvas);
}
if (event->button.button == next_release_doubleclick) {
_drag_initiated = false;
return doubleclicked(&event->button);
}
if (event->button.button == 1) {
if (_drag_initiated) {
// it is the end of a drag
ungrabbed(&event->button);
_drag_initiated = false;
return true;
} else {
// it is the end of a click
return clicked(&event->button);
}
}
_drag_initiated = false;
break;
case GDK_ENTER_NOTIFY:
_setMouseover(this, event->crossing.state);
return true;
case GDK_LEAVE_NOTIFY:
_clearMouseover();
return true;
case GDK_GRAB_BROKEN:
if (!event->grab_broken.keyboard && _event_grab) {
{
ungrabbed(NULL);
if (_drag_initiated)
sp_canvas_end_forced_full_redraws(_desktop->canvas);
}
_setState(STATE_NORMAL);
_event_grab = false;
_drag_initiated = false;
return true;
}
break;
// update tips on modifier state change
case GDK_KEY_PRESS:
case GDK_KEY_RELEASE:
if (mouseovered_point != this) return false;
if (_drag_initiated) {
return true; // this prevents the tool from overwriting the drag tip
} else {
unsigned state = state_after_event(event);
if (state != event->key.state) {
// we need to return true if there was a tip available, otherwise the tool's
// handler will process this event and set the tool's message, overwriting
// the point's message
return _updateTip(state);
}
}
break;
default: break;
}
return false;
}
void ControlPoint::_setMouseover(ControlPoint *p, unsigned state)
{
bool visible = p->visible();
if (visible) { // invisible points shouldn't get mouseovered
p->_setState(STATE_MOUSEOVER);
}
p->_updateTip(state);
if (visible && mouseovered_point != p) {
mouseovered_point = p;
signal_mouseover_change.emit(mouseovered_point);
}
}
bool ControlPoint::_updateTip(unsigned state)
{
Glib::ustring tip = _getTip(state);
if (!tip.empty()) {
_desktop->event_context->defaultMessageContext()->set(Inkscape::NORMAL_MESSAGE,
tip.data());
return true;
} else {
_desktop->event_context->defaultMessageContext()->clear();
return false;
}
}
bool ControlPoint::_updateDragTip(GdkEventMotion *event)
{
if (!_hasDragTips()) return false;
Glib::ustring tip = _getDragTip(event);
if (!tip.empty()) {
_desktop->event_context->defaultMessageContext()->set(Inkscape::NORMAL_MESSAGE,
tip.data());
return true;
} else {
_desktop->event_context->defaultMessageContext()->clear();
return false;
}
}
void ControlPoint::_clearMouseover()
{
if (mouseovered_point) {
mouseovered_point->_desktop->event_context->defaultMessageContext()->clear();
mouseovered_point->_setState(STATE_NORMAL);
mouseovered_point = 0;
signal_mouseover_change.emit(mouseovered_point);
}
}
/** Transfer the grab to another point. This method allows one to create a draggable point
* that should be dragged instead of the one that received the grabbed signal.
* This is used to implement dragging out handles in the new node tool, for example.
*
* This method will NOT emit the ungrab signal of @c prev_point, because this would complicate
* using it with selectable control points. If you use this method while dragging, you must emit
* the ungrab signal yourself.
*
* Note that this will break horribly if you try to transfer grab between points in different
* desktops, which doesn't make much sense anyway. */
void ControlPoint::transferGrab(ControlPoint *prev_point, GdkEventMotion *event)
{
if (!_event_grab) return;
grabbed(event);
sp_canvas_item_ungrab(prev_point->_canvas_item, event->time);
sp_canvas_item_grab(_canvas_item, _grab_event_mask, NULL, event->time);
if (!_drag_initiated) {
sp_canvas_force_full_redraw_after_interruptions(_desktop->canvas, 5);
_drag_initiated = true;
}
prev_point->_setState(STATE_NORMAL);
_setMouseover(this, event->state);
}
/**
* @brief Change the state of the knot
* Alters the appearance of the knot to match one of the states: normal, mouseover
* or clicked.
*/
void ControlPoint::_setState(State state)
{
ColorEntry current = {0, 0};
switch(state) {
case STATE_NORMAL:
current = _cset->normal; break;
case STATE_MOUSEOVER:
current = _cset->mouseover; break;
case STATE_CLICKED:
current = _cset->clicked; break;
};
_setColors(current);
_state = state;
}
void ControlPoint::_setColors(ColorEntry colors)
{
g_object_set(_canvas_item, "fill_color", colors.fill, "stroke_color", colors.stroke, NULL);
}
// dummy implementations for handlers
// they are here to avoid unused param warnings
bool ControlPoint::grabbed(GdkEventMotion *) { return false; }
void ControlPoint::dragged(Geom::Point &, GdkEventMotion *) {}
void ControlPoint::ungrabbed(GdkEventButton *) {}
bool ControlPoint::clicked(GdkEventButton *) { return false; }
bool ControlPoint::doubleclicked(GdkEventButton *) { return false; }
} // namespace UI
} // namespace Inkscape
/*
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:encoding=utf-8:textwidth=99 :