/* Copyright (C) 2004 Bart
* Copyright (C) 2010 Curtis Gedak
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, see .
*/
#include "Frame_Resizer_Base.h"
#include
namespace GParted
{
Frame_Resizer_Base::Frame_Resizer_Base()
{
BORDER = 8 ;
GRIPPER = 10 ;
X_MIN_SPACE_BEFORE = 0 ;
fixed_start = false ;
init() ;
}
void Frame_Resizer_Base::init()
{
drawingarea .set_size_request( 500 + GRIPPER * 2 + BORDER *2, 50 );
drawingarea .signal_realize() .connect(
sigc::mem_fun(*this, &Frame_Resizer_Base::drawingarea_on_realize) ) ;
drawingarea.signal_draw().connect(
sigc::mem_fun(*this, &Frame_Resizer_Base::drawingarea_on_draw));
drawingarea .signal_motion_notify_event() .connect(
sigc::mem_fun(*this, &Frame_Resizer_Base::drawingarea_on_mouse_motion) ) ;
drawingarea .signal_button_press_event() .connect(
sigc::mem_fun(*this, &Frame_Resizer_Base::drawingarea_on_button_press_event) ) ;
drawingarea .signal_button_release_event() .connect(
sigc::mem_fun(*this, &Frame_Resizer_Base::drawingarea_on_button_release_event) ) ;
drawingarea .signal_leave_notify_event() .connect(
sigc::mem_fun(*this, &Frame_Resizer_Base::drawingarea_on_leave_notify) ) ;
this ->add( drawingarea ) ;
color_used.set("#F8F8BA");
color_unused.set("white");
color_arrow.set("black");
color_background.set("darkgrey");
color_arrow_rectangle.set("lightgrey");
cursor_resize = Gdk::Cursor::create(Gdk::SB_H_DOUBLE_ARROW);
cursor_move = Gdk::Cursor::create(Gdk::FLEUR);
GRIP_MOVE = GRIP_LEFT = GRIP_RIGHT = false;
X_END = 0;
set_size_limits( 0, 500 ) ;
Gdk::Point p;
p .set_y( 15 ); arrow_points .push_back( p ) ;
p .set_y( 25 ); arrow_points .push_back( p ) ;
p .set_y( 35 ); arrow_points .push_back( p ) ;
this ->show_all_children();
}
void Frame_Resizer_Base::set_rgb_partition_color(const Gdk::RGBA& color)
{
this ->color_partition = color ;
}
void Frame_Resizer_Base::override_default_rgb_unused_color(const Gdk::RGBA& color)
{
this ->color_unused = color ;
}
void Frame_Resizer_Base::set_x_start( int x_start )
{
this ->X_START = x_start + GRIPPER ;
}
void Frame_Resizer_Base::set_x_min_space_before( int x_min_space_before )
{
this ->X_MIN_SPACE_BEFORE = x_min_space_before ;
}
void Frame_Resizer_Base::set_x_end( int x_end )
{
this ->X_END = x_end + GRIPPER + BORDER * 2 ;
}
void Frame_Resizer_Base::set_used( int used )
{
this ->USED = used ;
}
void Frame_Resizer_Base::set_fixed_start( bool fixed_start )
{
this ->fixed_start = fixed_start ;
}
void Frame_Resizer_Base::set_size_limits( int min_size, int max_size )
{
this ->MIN_SIZE = min_size + BORDER * 2 ;
this ->MAX_SIZE = max_size + BORDER * 2 ;
}
int Frame_Resizer_Base::get_used()
{
return USED ;
}
int Frame_Resizer_Base::get_x_start()
{
return X_START - GRIPPER ;
}
int Frame_Resizer_Base::get_x_end()
{
return X_END - GRIPPER - BORDER * 2 ;
}
void Frame_Resizer_Base::drawingarea_on_realize()
{
drawingarea .add_events( Gdk::POINTER_MOTION_MASK );
drawingarea .add_events( Gdk::BUTTON_PRESS_MASK );
drawingarea .add_events( Gdk::BUTTON_RELEASE_MASK );
drawingarea .add_events( Gdk::LEAVE_NOTIFY_MASK );
}
bool Frame_Resizer_Base::drawingarea_on_draw(const Cairo::RefPtr& cr)
{
cr->set_line_cap(Cairo::LINE_CAP_SQUARE);
cr->set_line_width(1.0);
draw_partition(cr);
return true;
}
bool Frame_Resizer_Base::drawingarea_on_mouse_motion( GdkEventMotion * ev )
{
if ( GRIP_LEFT || GRIP_RIGHT || GRIP_MOVE )
{
if ( GRIP_LEFT )
{
if ( ev ->x > (GRIPPER + X_MIN_SPACE_BEFORE) &&
(X_END - ev ->x) < MAX_SIZE &&
(X_END - ev ->x) > MIN_SIZE )
{
X_START = static_cast( ev ->x ) ;
signal_resize .emit( X_START - GRIPPER, X_END - GRIPPER - 2 * BORDER, ARROW_LEFT ) ;
}
else if ( X_END - ev ->x >= MAX_SIZE )
{
if ( X_END - X_START < MAX_SIZE )
{
X_START = X_END - MAX_SIZE ;
if ( X_START < (GRIPPER + X_MIN_SPACE_BEFORE) )
X_START = GRIPPER + X_MIN_SPACE_BEFORE ;
//-1 to force the spinbutton to its max.
signal_resize .emit( X_START - GRIPPER -1,
X_END - GRIPPER - BORDER * 2,
ARROW_LEFT ) ;
}
}
else if ( ev ->x <= (GRIPPER + X_MIN_SPACE_BEFORE) )
{
if ( X_START > (GRIPPER + X_MIN_SPACE_BEFORE) && X_END - X_START < MAX_SIZE )
{
X_START = GRIPPER + X_MIN_SPACE_BEFORE ;
signal_resize .emit( X_START - GRIPPER,
X_END - GRIPPER - BORDER * 2,
ARROW_LEFT ) ;
}
}
else if ( X_END - ev ->x <= MIN_SIZE )
{
if ( X_END - X_START > MIN_SIZE )
{
X_START = X_END - MIN_SIZE ;
//+1 to force the spinbutton to its min.
signal_resize .emit( X_START - GRIPPER +1,
X_END - GRIPPER - BORDER * 2,
ARROW_LEFT ) ;
}
}
}
else if ( GRIP_RIGHT )
{
if ( ev ->x < 500 + GRIPPER + BORDER * 2 &&
(ev ->x - X_START) < MAX_SIZE &&
(ev ->x - X_START) > MIN_SIZE )
{
X_END = static_cast( ev ->x ) ;
signal_resize .emit( X_START - GRIPPER, X_END - GRIPPER - BORDER * 2, ARROW_RIGHT ) ;
}
else if ( ev ->x - X_START >= MAX_SIZE )
{
if ( X_END - X_START < MAX_SIZE )
{
X_END = X_START + MAX_SIZE ;
if ( X_END > 500 + GRIPPER + BORDER * 2 )
X_END = 500 + GRIPPER + BORDER * 2 ;
//+1 to force the spinbutton to its min.
signal_resize .emit( X_START - GRIPPER,
X_END - GRIPPER - BORDER * 2 +1,
ARROW_RIGHT ) ;
}
}
else if ( ev ->x >= 500 + GRIPPER + BORDER * 2 )
{
if ( X_END < 500 + GRIPPER + BORDER * 2 && X_END - X_START < MAX_SIZE )
{
X_END = 500 + GRIPPER + BORDER * 2 ;
signal_resize .emit( X_START -GRIPPER,
X_END - GRIPPER - BORDER * 2,
ARROW_RIGHT ) ;
}
}
else if ( ev ->x - X_START <= MIN_SIZE )
{
if ( X_END - X_START > MIN_SIZE )
{
X_END = X_START + MIN_SIZE ;
//-1 to force the spinbutton to its min.
signal_resize .emit( X_START - GRIPPER,
X_END - GRIPPER - BORDER * 2 -1,
ARROW_RIGHT ) ;
}
}
}
else if ( GRIP_MOVE )
{
temp_x = X_START + static_cast( ev ->x - X_START_MOVE );
temp_y = X_END - X_START ;
if ( temp_x > (GRIPPER + X_MIN_SPACE_BEFORE) && temp_x + temp_y < 500 + GRIPPER + BORDER * 2 )
{
X_START = temp_x ;
X_END = X_START + temp_y ;
}
else if ( temp_x <= (GRIPPER + X_MIN_SPACE_BEFORE) )
{
if ( X_START > (GRIPPER + X_MIN_SPACE_BEFORE) )
{
X_START = GRIPPER + X_MIN_SPACE_BEFORE;
X_END = X_START + temp_y ;
}
}
else if ( temp_x + temp_y >= 500 + GRIPPER + BORDER * 2 )
{
if ( X_END < 500 + GRIPPER + BORDER * 2 )
{
X_END = 500 + GRIPPER + BORDER * 2 ;
X_START = X_END - temp_y ;
}
}
X_START_MOVE = static_cast( ev ->x ) ;
signal_move .emit( X_START - GRIPPER, X_END - GRIPPER - BORDER * 2 ) ;
}
redraw();
}
else
{
//check if pointer is over a gripper
//left grip
if ( ! fixed_start &&
ev ->x >= X_START - GRIPPER &&
ev ->x <= X_START &&
ev ->y >= 5 &&
ev ->y <= 45 )
drawingarea.get_parent_window()->set_cursor(cursor_resize);
//right grip
else if ( ev ->x >= X_END &&
ev ->x <= X_END + GRIPPER &&
ev ->y >= 5 &&
ev ->y <= 45 )
drawingarea.get_parent_window()->set_cursor(cursor_resize);
//move grip
else if ( ! fixed_start &&
ev ->x >= X_START &&
ev ->x <= X_END )
drawingarea.get_parent_window()->set_cursor(cursor_move);
//normal pointer
else
drawingarea .get_parent_window() ->set_cursor() ;
}
return true;
}
bool Frame_Resizer_Base::drawingarea_on_button_press_event( GdkEventButton *ev )
{
GRIP_LEFT = GRIP_RIGHT = GRIP_MOVE = false;
//left grip
if ( ! fixed_start &&
ev ->x >= X_START - GRIPPER &&
ev ->x <= X_START &&
ev ->y >= 5 &&
ev ->y <= 45 )
GRIP_LEFT = true ;
//right grip
else if ( ev ->x >= X_END &&
ev ->x <= X_END + GRIPPER &&
ev ->y >= 5 &&
ev ->y <= 45 )
GRIP_RIGHT = true ;
//move grip
else if ( ! fixed_start &&
ev ->x >= X_START &&
ev ->x <= X_END )
{
GRIP_MOVE = true ;
X_START_MOVE = static_cast( ev ->x );
}
return true;
}
bool Frame_Resizer_Base::drawingarea_on_button_release_event( GdkEventButton *ev )
{
GRIP_LEFT = GRIP_RIGHT = GRIP_MOVE = false;
return true;
}
bool Frame_Resizer_Base::drawingarea_on_leave_notify( GdkEventCrossing *ev )
{
if ( ev ->mode != GDK_CROSSING_GRAB && ! GRIP_LEFT && ! GRIP_RIGHT && ! GRIP_MOVE )
drawingarea .get_parent_window() ->set_cursor() ;
return true;
}
void Frame_Resizer_Base::draw_partition(const Cairo::RefPtr& cr)
{
UNUSED = X_END - X_START - BORDER * 2 - USED ;
if ( UNUSED < 0 )
UNUSED = 0 ;
// Background color
Gdk::Cairo::set_source_rgba(cr, color_background);
cr->rectangle(0, 0, 536, 50);
cr->fill();
// The two rectangles on each side of the partition
Gdk::Cairo::set_source_rgba(cr, color_arrow_rectangle);
cr->rectangle(0, 0, 10, 50);
cr->fill();
cr->rectangle(526, 0, 10, 50);
cr->fill();
// Partition
Gdk::Cairo::set_source_rgba(cr, color_partition);
cr->rectangle(X_START, 0, X_END - X_START, 50);
cr->fill();
// Used
Gdk::Cairo::set_source_rgba(cr, color_used);
cr->rectangle(X_START + BORDER, BORDER, USED, 34);
cr->fill();
// Unused
Gdk::Cairo::set_source_rgba(cr, color_unused);
cr->rectangle(X_START + BORDER + USED, BORDER, UNUSED, 34);
cr->fill();
// Resize grips
if (!fixed_start)
draw_resize_grip(cr, ARROW_LEFT);
draw_resize_grip(cr, ARROW_RIGHT);
}
void Frame_Resizer_Base::draw_resize_grip(const Cairo::RefPtr& cr, ArrowType arrow_type)
{
if ( arrow_type == ARROW_LEFT )
{
arrow_points[ 0 ] .set_x( X_START ) ;
arrow_points[ 1 ] .set_x( X_START - GRIPPER ) ;
arrow_points[ 2 ] .set_x( X_START ) ;
}
else
{
arrow_points[ 0 ] .set_x( X_END ) ;
arrow_points[ 1 ] .set_x( X_END + GRIPPER ) ;
arrow_points[ 2 ] .set_x( X_END ) ;
}
// Attach resize arrows to the partition
Gdk::Cairo::set_source_rgba(cr, color_arrow_rectangle);
cr->rectangle((arrow_type == ARROW_LEFT ? X_START - GRIPPER : X_END + 1) + 0.5,
5 + 0.5,
9,
40);
cr->stroke();
Gdk::Cairo::set_source_rgba(cr, color_arrow);
cr->move_to(arrow_points[0].get_x(), arrow_points[0].get_y());
cr->line_to(arrow_points[1].get_x(), arrow_points[1].get_y());
cr->line_to(arrow_points[2].get_x(), arrow_points[2].get_y());
cr->close_path();
cr->fill();
}
void Frame_Resizer_Base::redraw()
{
drawingarea.queue_draw();
}
Frame_Resizer_Base::~Frame_Resizer_Base()
{
}
} //GParted