finalcut/src/fapp.cpp

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// fapplication.cpp
// class FApplication
#include "fapp.h"
#include "fwindow.h"
// global application object
static FApplication* rootObj = 0;
// flag to exit local loop
static bool app_exit_loop = false;
// static attributes
int FApplication::loop_level = 0; // event loop level
FWidget* FApplication::main_widget = 0; // main application widget
FWidget* FApplication::active_window = 0; // the active window
FWidget* FApplication::focus_widget = 0; // has keyboard input focus
FWidget* FApplication::clicked_widget = 0; // is focused by click
FPoint* FApplication::zero_point = 0; // zero point (x=0, y=0)
int FApplication::quit_code = 0;
bool FApplication::quit_now = false;
std::deque<FApplication::eventPair>* FApplication::event_queue = 0;
//----------------------------------------------------------------------
// class FApplication
//----------------------------------------------------------------------
// constructors and destructor
//----------------------------------------------------------------------
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FApplication::FApplication (int &_argc, char* _argv[])
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: app_argc(0)
, app_argv(0)
, key(0)
#ifdef F_HAVE_LIBGPM
, gpm_ev()
, gpmMouseEvent(false)
#endif
, b_state()
, fifo_offset(0)
, fifo_in_use(false)
, fifo_buf_size(sizeof(fifo_buf))
, key_timeout(100000) // 100 ms
, dblclick_interval(500000) // 500 ms
, time_keypressed()
, time_mousepressed()
, newMousePosition()
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{
assert ( ! rootObj
&& "FApplication: There should be only one application object" );
rootObj = this;
static char* empty = const_cast<char*>("");
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if ( _argc == 0 || _argv == 0 )
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{
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_argc = 0;
_argv = &empty;
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}
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init(_argc, _argv);
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}
//----------------------------------------------------------------------
FApplication::~FApplication() // destructor
{
if ( zero_point )
delete zero_point;
if ( event_queue )
delete event_queue;
rootObj = 0;
}
// private methods of FApplication
//----------------------------------------------------------------------
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void FApplication::init (int _argc, char* _argv[])
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{
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app_argc = _argc;
app_argv = _argv;
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// init keyboard values
time_keypressed.tv_sec = 0;
time_keypressed.tv_usec = 0;
time_mousepressed.tv_sec = 0;
time_mousepressed.tv_usec = 0;
x11_button_state = 0x23;
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#ifdef F_HAVE_LIBGPM
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gpm_ev.x = -1;
#endif
zero_point = new FPoint(0,0);
event_queue = new std::deque<eventPair>;
// init arrays with '\0'
std::fill_n (k_buf, sizeof(k_buf), '\0');
std::fill_n (fifo_buf, fifo_buf_size, '\0');
std::fill_n (x11_mouse, sizeof(x11_mouse), '\0');
std::fill_n (sgr_mouse, sizeof(sgr_mouse), '\0');
std::fill_n (urxvt_mouse, sizeof(urxvt_mouse), '\0');
// init bit field with 0
memset(&b_state, 0x00, sizeof(b_state));
// interpret the command line options
cmd_options();
}
//----------------------------------------------------------------------
void FApplication::cmd_options ()
{
while ( true )
{
int c, idx = 0;
static struct option long_options[] =
{
{"encoding", required_argument, 0, 0 },
{"vgafont", no_argument, 0, 0 },
{"newfont", no_argument, 0, 0 },
{0, 0, 0, 0 }
};
opterr = 0;
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c = getopt_long ( app_argc, app_argv, ""
, long_options, &idx );
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if ( c == -1 )
break;
if ( c == 0 )
{
if ( strcmp(long_options[idx].name, "encoding") == 0 )
{
FString encoding(optarg);
encoding = encoding.toUpper();
if ( encoding.includes("UTF8")
|| encoding.includes("VT100")
|| encoding.includes("PC")
|| encoding.includes("ASCII") )
{
setEncoding(encoding.c_str());
}
}
if ( strcmp(long_options[idx].name, "vgafont") == 0 )
setVGAFont();
if ( strcmp(long_options[idx].name, "newfont") == 0 )
setNewFont();
}
}
}
//----------------------------------------------------------------------
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#ifdef F_HAVE_LIBGPM
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inline int FApplication::gpmEvent(void)
{
register int result;
register int max = (gpm_fd > stdin_no) ? gpm_fd : stdin_no;
fd_set ifds;
struct timeval tv;
FD_ZERO(&ifds);
FD_SET(stdin_no, &ifds);
FD_SET(gpm_fd, &ifds);
tv.tv_sec = 0;
tv.tv_usec = 100000; // 100 ms
result = select (max+1, &ifds, 0, 0, &tv);
if ( FD_ISSET(stdin_no, &ifds) )
{
FD_CLR (stdin_no, &ifds);
return keyboard_event;
}
if ( FD_ISSET(gpm_fd, &ifds) )
FD_CLR (gpm_fd, &ifds);
if (result > 0)
return mouse_event;
else
return no_event;
}
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#endif // F_HAVE_LIBGPM
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//----------------------------------------------------------------------
inline bool FApplication::KeyPressed()
{
register int result;
fd_set ifds;
struct timeval tv;
FD_ZERO(&ifds);
FD_SET(stdin_no, &ifds);
tv.tv_sec = 0;
tv.tv_usec = 100000; // 100 ms
result = select (stdin_no+1, &ifds, 0, 0, &tv);
if ( FD_ISSET(stdin_no, &ifds) )
FD_CLR (stdin_no, &ifds);
return (result > 0);
}
//----------------------------------------------------------------------
inline ssize_t FApplication::readKey()
{
register ssize_t bytes;
setNonBlockingInput();
bytes = read(stdin_no, &k_buf, sizeof(k_buf)-1);
unsetNonBlockingInput();
return bytes;
}
//----------------------------------------------------------------------
void FApplication::processKeyboardEvent()
{
bool isKeyPressed = false;
FWidget* widget = 0;
if ( focus_widget )
widget = static_cast<FWidget*>(focus_widget);
else
{
widget = static_cast<FWidget*>(main_widget);
if ( widget->numOfChildren() >= 1 )
widget->focusFirstChild();
}
// empty the buffer on timeout
if ( fifo_in_use && widget->isKeyTimeout(&time_keypressed, key_timeout) )
{
fifo_offset = 0;
key = 0;
std::fill_n (fifo_buf, fifo_buf_size, '\0');
fifo_in_use = false;
}
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#ifdef F_HAVE_LIBGPM
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if ( gpm_mouse_enabled )
{
gpmMouseEvent = false;
int type = gpmEvent();
switch ( type )
{
case mouse_event:
gpmMouseEvent = true;
break;
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case keyboard_event:
isKeyPressed = true;
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default:
break;
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}
}
else
isKeyPressed = KeyPressed();
#else // without gpm
isKeyPressed = KeyPressed();
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#endif // F_HAVE_LIBGPM
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if ( isKeyPressed )
{
register ssize_t bytesread;
widget->getCurrentTime(time_keypressed);
x11_mouse[0] = sgr_mouse[0] = urxvt_mouse[0] = '\0';
if ( quit_now || app_exit_loop )
return;
while ( (bytesread = readKey()) > 0 )
{
if ( bytesread+fifo_offset-1 < fifo_buf_size )
{
for (int i=0; i < bytesread; i++)
{
fifo_buf[fifo_offset] = k_buf[i];
fifo_offset++;
}
fifo_in_use = true;
}
// read the rest from the fifo buffer
while ( ! widget->isKeyTimeout(&time_keypressed, key_timeout)
&& fifo_offset
&& key != NEED_MORE_DATA )
{
key = FTerm::parseKeyString(fifo_buf, fifo_buf_size, &time_keypressed);
if ( key != NEED_MORE_DATA )
{
if ( key == 0x0c ) // Ctrl-L (redraw the screen)
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redraw();
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if ( key == fc::Fkey_mouse )
{
int n, len;
x11_mouse[0] = fifo_buf[3];
x11_mouse[1] = fifo_buf[4];
x11_mouse[2] = fifo_buf[5];
x11_mouse[3] = '\0';
len = int(strlen(fifo_buf));
n = len;
for (; n < fifo_buf_size; n++)
fifo_buf[n-len] = fifo_buf[n]; // remove the founded entry
for (; n-len < len; n++)
fifo_buf[n-len] = '\0';
}
else if ( key == fc::Fkey_extended_mouse )
{
int n = 3;
int len = int(strlen(fifo_buf));
for (; n < len && n < fifo_buf_size; n++)
sgr_mouse[n-3] = fifo_buf[n];
sgr_mouse[n-3] = '\0';
for (n=len; n < fifo_buf_size; n++)
fifo_buf[n-len] = fifo_buf[n]; // remove the founded entry
for (; n-len < len; n++)
fifo_buf[n-len] = '\0';
}
else if ( key == fc::Fkey_urxvt_mouse )
{
int n = 2;
int len = int(strlen(fifo_buf));
for (; n < len && n < fifo_buf_size; n++)
urxvt_mouse[n-2] = fifo_buf[n];
urxvt_mouse[n-2] = '\0';
for (n=len; n < fifo_buf_size; n++)
fifo_buf[n-len] = fifo_buf[n]; // remove the founded entry
for (; n-len < len; n++)
fifo_buf[n-len] = '\0';
}
else
{
FKeyEvent k_down_ev(KeyDown_Event, key);
sendEvent(widget, &k_down_ev);
FKeyEvent k_press_ev(KeyPress_Event, key);
sendEvent(widget, &k_press_ev);
if ( ! k_press_ev.isAccepted() && ! k_down_ev.isAccepted() )
{
// keyboard accelerator
FWidget* window = static_cast<FWidget*>(active_window);
if ( ! window )
window = getRootWidget();
if ( window
&& window->accelerator_list
&& ! window->accelerator_list->empty() )
{
FWidget::Accelerators::const_iterator iter, end;
iter = window->accelerator_list->begin();
end = window->accelerator_list->end();
while ( iter != end )
{
if ( quit_now || app_exit_loop )
break;
if ( iter->key == key )
{
FAccelEvent a_ev(Accelerator_Event, focus_widget);
sendEvent(iter->object, &a_ev);
break;
};
++iter;
}
}
}
} // end of else
}
fifo_offset = int(strlen(fifo_buf));
}
FKeyEvent k_up_ev(KeyUp_Event, key);
sendEvent(widget, &k_up_ev);
key = 0;
}
std::fill_n (k_buf, sizeof(k_buf), '\0');
}
// special case: Esc key
if ( fifo_in_use
&& fifo_offset == 1
&& fifo_buf[0] == 0x1b
&& fifo_buf[1] == 0x00
&& isKeyTimeout(&time_keypressed, key_timeout) )
{
FKeyEvent k_press_ev(KeyPress_Event, fc::Fkey_escape);
sendEvent(widget, &k_press_ev);
}
}
//----------------------------------------------------------------------
bool FApplication::parseX11Mouse()
{
uChar x, y;
enum x11_btn_states
{
key_shift = 0x04,
key_meta = 0x08,
key_ctrl = 0x10,
key_button_mask = 0x1c,
button1_pressed = 0x20,
button2_pressed = 0x21,
button3_pressed = 0x22,
all_buttons_released = 0x23,
button1_pressed_move = 0x40,
button2_pressed_move = 0x41,
button3_pressed_move = 0x42,
button_mask = 0x63,
button_up = 0x60,
button_down = 0x61
};
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x = uChar(x11_mouse[1] - 0x20);
y = uChar(x11_mouse[2] - 0x20);
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newMousePosition.setPoint(x,y);
memset(&b_state, 0x00, sizeof(b_state));
if ( (x11_mouse[0] & key_shift) == key_shift )
b_state.shift_button = Pressed;
if ( (x11_mouse[0] & key_meta) == key_meta )
b_state.meta_button = Pressed;
if ( (x11_mouse[0] & key_ctrl) == key_ctrl )
b_state.control_button = Pressed;
if ( (x11_mouse[0] & button_mask) >= button1_pressed_move
&& (x11_mouse[0] & button_mask) <= button3_pressed_move
&& *mouse != *zero_point )
{
b_state.mouse_moved = true;
}
switch ( x11_mouse[0] & button_mask )
{
case button1_pressed:
case button1_pressed_move:
if ( *mouse == newMousePosition
&& x11_button_state == all_buttons_released
&& ! isKeyTimeout(&time_mousepressed, dblclick_interval) )
{
time_mousepressed.tv_sec = 0;
time_mousepressed.tv_usec = 0;
b_state.left_button = DoubleClick;
}
else
{
time_mousepressed = time_keypressed; // save click time
b_state.left_button = Pressed;
}
break;
case button2_pressed:
case button2_pressed_move:
time_mousepressed.tv_sec = 0;
time_mousepressed.tv_usec = 0;
b_state.middle_button = Pressed;
break;
case button3_pressed:
case button3_pressed_move:
time_mousepressed.tv_sec = 0;
time_mousepressed.tv_usec = 0;
b_state.right_button = Pressed;
break;
case all_buttons_released:
switch ( x11_button_state & button_mask )
{
case button1_pressed:
case button1_pressed_move:
b_state.left_button = Released;
break;
case button2_pressed:
case button2_pressed_move:
b_state.middle_button = Released;
break;
case button3_pressed:
case button3_pressed_move:
b_state.right_button = Released;
break;
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default:
break;
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}
break;
case button_up:
time_mousepressed.tv_sec = 0;
time_mousepressed.tv_usec = 0;
b_state.wheel_up = Pressed;
break;
case button_down:
time_mousepressed.tv_sec = 0;
time_mousepressed.tv_usec = 0;
b_state.wheel_down = Pressed;
break;
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default:
break;
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}
if ( uChar(x11_mouse[1]) == mouse->getX() + 0x20
&& uChar(x11_mouse[2]) == mouse->getY() + 0x20
&& b_state.wheel_up != Pressed
&& b_state.wheel_down != Pressed
&& uChar(x11_mouse[0]) == x11_button_state )
{
return false;
}
mouse->setPoint(x,y);
x11_button_state = uChar(x11_mouse[0]);
x11_mouse[0] = '\0';
return true;
}
//----------------------------------------------------------------------
bool FApplication::parseSGRMouse()
{
register char* p;
int button;
uChar x, y;
enum x11_ext_btn_states
{
key_shift = 0x04,
key_meta = 0x08,
key_ctrl = 0x10,
key_button_mask = 0x1c,
button1 = 0x00,
button2 = 0x01,
button3 = 0x02,
button1_move = 0x20,
button2_move = 0x21,
button3_move = 0x22,
button_mask = 0x63,
button_up = 0x40,
button_down = 0x41,
pressed = 'M',
released = 'm'
};
x = 0;
y = 0;
button = 0;
// parse the SGR mouse string
p = sgr_mouse;
while ( *p && *p != ';' )
{
if ( *p < '0' || *p > '9')
return false;
button = 10 * button + (*p - '0');
p++;
}
while ( *p++ && *p != ';' )
{
if ( *p < '0' || *p > '9')
return false;
x = uChar(10 * x + (*p - '0'));
}
while ( *p++ && *p != 'M' && *p != 'm' )
{
if ( *p < '0' || *p > '9')
return false;
y = uChar(10 * y + (*p - '0'));
}
newMousePosition.setPoint(x,y);
memset(&b_state, 0x00, sizeof(b_state));
if ( (button & key_shift) == key_shift )
b_state.shift_button = Pressed;
if ( (button & key_meta) == key_meta )
b_state.meta_button = Pressed;
if ( (button & key_ctrl) == key_ctrl )
b_state.control_button = Pressed;
if ( (button & button_mask) >= button1_move
&& (button & button_mask) <= button3_move
&& *mouse != *zero_point )
{
b_state.mouse_moved = true;
}
if ( *p == pressed )
{
switch ( button & button_mask )
{
case button1:
case button1_move:
if ( *mouse == newMousePosition
&& (((x11_button_state & 0x80) >> 2) + 'M') == released
&& ! isKeyTimeout(&time_mousepressed, dblclick_interval) )
{
time_mousepressed.tv_sec = 0;
time_mousepressed.tv_usec = 0;
b_state.left_button = DoubleClick;
}
else
{
time_mousepressed = time_keypressed; // save click time
b_state.left_button = Pressed;
}
break;
case button2:
case button2_move:
time_mousepressed.tv_sec = 0;
time_mousepressed.tv_usec = 0;
b_state.middle_button = Pressed;
break;
case button3:
case button3_move:
time_mousepressed.tv_sec = 0;
time_mousepressed.tv_usec = 0;
b_state.right_button = Pressed;
break;
case button_up:
time_mousepressed.tv_sec = 0;
time_mousepressed.tv_usec = 0;
b_state.wheel_up = Pressed;
break;
case button_down:
time_mousepressed.tv_sec = 0;
time_mousepressed.tv_usec = 0;
b_state.wheel_down = Pressed;
break;
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default:
break;
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}
}
else // *p == released
{
switch ( button & button_mask )
{
case button1:
case button1_move:
b_state.left_button = Released;
break;
case button2:
case button2_move:
b_state.middle_button = Released;
break;
case button3:
case button3_move:
b_state.right_button = Released;
break;
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default:
break;
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}
}
if ( *mouse == newMousePosition
&& b_state.wheel_up != Pressed
&& b_state.wheel_down != Pressed
&& x11_button_state == uChar(((*p & 0x20) << 2) + button) )
{
return false;
}
mouse->setPoint(x,y);
x11_button_state = uChar(((*p & 0x20) << 2) + button);
sgr_mouse[0] = '\0';
return true;
}
//----------------------------------------------------------------------
bool FApplication::parseUrxvtMouse()
{
register char* p;
register bool x_neg;
register bool y_neg;
int button;
uChar x, y;
enum urxvt_btn_states
{
key_shift = 0x04,
key_meta = 0x08,
key_ctrl = 0x10,
key_button_mask = 0x1c,
button1_pressed = 0x20,
button2_pressed = 0x21,
button3_pressed = 0x22,
all_buttons_released = 0x23,
button1_pressed_move = 0x40,
button2_pressed_move = 0x41,
button3_pressed_move = 0x42,
button_mask = 0x63,
button_up = 0x60,
button_down = 0x61,
button_up_move = 0x60,
button_down_move = 0x61
};
x = 0;
y = 0;
button = 0;
// parse the SGR mouse string
p = urxvt_mouse;
x_neg = false;
y_neg = false;
while ( *p && *p != ';' )
{
if ( *p < '0' || *p > '9')
return false;
button = 10 * button + (*p - '0');
p++;
}
if ( *++p == '-' )
{
p++;
x_neg = true;
}
while ( *p && *p != ';' )
{
if ( *p < '0' || *p > '9')
return false;
x = uChar(10 * x + (*p - '0'));
p++;
}
if ( *++p == '-' )
{
p++;
y_neg = true;
}
while ( *p && *p != 'M' )
{
if ( *p < '0' || *p > '9')
return false;
y = uChar(10 * y + (*p - '0'));
p++;
}
if ( x_neg || x == 0 )
x = 1;
if ( y_neg || y == 0 )
y = 1;
if ( x > term->getWidth() )
x = uChar(term->getWidth());
if ( y > term->getHeight() )
y = uChar(term->getHeight());
newMousePosition.setPoint(x,y);
memset(&b_state, 0x00, sizeof(b_state));
if ( (button & key_shift) == key_shift )
b_state.shift_button = Pressed;
if ( (button & key_meta) == key_meta )
b_state.meta_button = Pressed;
if ( (button & key_ctrl) == key_ctrl )
b_state.control_button = Pressed;
if ( (button & button_mask) >= button1_pressed_move
&& (button & button_mask) <= button3_pressed_move
&& *mouse != *zero_point )
{
b_state.mouse_moved = true;
}
switch ( button & button_mask )
{
case button1_pressed:
case button1_pressed_move:
if ( *mouse == newMousePosition
&& x11_button_state == all_buttons_released
&& ! isKeyTimeout(&time_mousepressed, dblclick_interval) )
{
time_mousepressed.tv_sec = 0;
time_mousepressed.tv_usec = 0;
b_state.left_button = DoubleClick;
}
else
{
time_mousepressed = time_keypressed; // save click time
b_state.left_button = Pressed;
}
break;
case button2_pressed:
case button2_pressed_move:
time_mousepressed.tv_sec = 0;
time_mousepressed.tv_usec = 0;
b_state.middle_button = Pressed;
break;
case button3_pressed:
case button3_pressed_move:
time_mousepressed.tv_sec = 0;
time_mousepressed.tv_usec = 0;
b_state.right_button = Pressed;
break;
case all_buttons_released:
switch ( x11_button_state & button_mask )
{
case button1_pressed:
case button1_pressed_move:
b_state.left_button = Released;
break;
case button2_pressed:
case button2_pressed_move:
b_state.middle_button = Released;
break;
case button3_pressed:
case button3_pressed_move:
b_state.right_button = Released;
break;
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default:
break;
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}
break;
case button_up:
time_mousepressed.tv_sec = 0;
time_mousepressed.tv_usec = 0;
b_state.wheel_up = Pressed;
break;
case button_down:
time_mousepressed.tv_sec = 0;
time_mousepressed.tv_usec = 0;
b_state.wheel_down = Pressed;
break;
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default:
break;
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}
if ( *mouse == newMousePosition
&& b_state.wheel_up != Pressed
&& b_state.wheel_down != Pressed
&& x11_button_state == uChar(button) )
{
return false;
}
mouse->setPoint(x,y);
x11_button_state = uChar(button);
urxvt_mouse[0] = '\0';
return true;
}
//----------------------------------------------------------------------
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#ifdef F_HAVE_LIBGPM
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bool FApplication::processGpmEvent()
{
memset(&b_state, 0x00, sizeof(b_state));
if ( Gpm_GetEvent(&gpm_ev) == 1 )
{
Gpm_FitEvent (&gpm_ev);
if ( gpm_ev.type & GPM_DRAG && gpm_ev.wdx == 0 && gpm_ev.wdy == 0 )
b_state.mouse_moved = true;
if ( gpm_ev.wdy > 0)
b_state.wheel_up = Pressed;
else if ( gpm_ev.wdy < 0)
b_state.wheel_down = Pressed;
switch ( gpm_ev.type & 0x0f )
{
case GPM_DOWN:
case GPM_DRAG:
if ( gpm_ev.buttons & GPM_B_LEFT )
{
if ( gpm_ev.type & GPM_DOUBLE )
b_state.left_button = DoubleClick;
else
b_state.left_button = Pressed;
}
if ( gpm_ev.buttons & GPM_B_MIDDLE )
b_state.middle_button = Pressed;
if ( gpm_ev.buttons & GPM_B_RIGHT )
b_state.right_button = Pressed;
if ( gpm_ev.buttons & GPM_B_UP )
b_state.wheel_up = Pressed;
if ( gpm_ev.buttons & GPM_B_DOWN )
b_state.wheel_down = Pressed;
// keyboard modifiers
if ( gpm_ev.modifiers & (1 << KG_SHIFT) )
b_state.shift_button = Pressed;
if ( gpm_ev.modifiers & ((1 << KG_ALT) | (1 << KG_ALTGR)) )
b_state.meta_button = Pressed;
if ( gpm_ev.modifiers & (1 << KG_CTRL) )
b_state.control_button = Pressed;
break;
case GPM_UP:
if ( gpm_ev.buttons & GPM_B_LEFT )
b_state.left_button = Released;
if ( gpm_ev.buttons & GPM_B_MIDDLE )
b_state.middle_button = Released;
if ( gpm_ev.buttons & GPM_B_RIGHT )
b_state.right_button = Released;
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default:
break;
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}
mouse->setPoint(gpm_ev.x, gpm_ev.y);
flush_out();
GPM_DRAWPOINTER(&gpm_ev);
return true;
}
return false;
}
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#endif // F_HAVE_LIBGPM
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//----------------------------------------------------------------------
void FApplication::processMouseEvent()
{
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bool Event = false;
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#ifdef F_HAVE_LIBGPM
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if ( ! gpmMouseEvent
&& x11_mouse[0] == '\0'
&& sgr_mouse[0] == '\0'
&& urxvt_mouse[0] == '\0' )
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{
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return;
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}
#else
if ( x11_mouse[0] == '\0'
&& sgr_mouse[0] == '\0'
&& urxvt_mouse[0] == '\0' )
{
return;
}
#endif
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#ifdef F_HAVE_LIBGPM
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if ( gpmMouseEvent )
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Event = processGpmEvent();
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#endif
if ( x11_mouse[0] )
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Event = parseX11Mouse();
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if ( sgr_mouse[0] )
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Event = parseSGRMouse();
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if ( urxvt_mouse[0] )
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Event = parseUrxvtMouse();
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if ( ! Event )
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return;
if ( ! clicked_widget
&& ( b_state.left_button == Pressed
|| b_state.left_button == DoubleClick
|| b_state.right_button == Pressed
|| b_state.middle_button == Pressed
|| b_state.wheel_up == Pressed
|| b_state.wheel_down == Pressed ) )
{
FWidget* window = FWindow::windowWidgetAt ( mouse->getX(),
mouse->getY() );
if ( window )
{
FWidget* child = childWidgetAt ( window,
mouse->getX(),
mouse->getY() );
clicked_widget = (child != 0) ? child : window;
}
}
if ( clicked_widget )
{
FPoint localMousePos;
int key_state = 0;
if ( b_state.shift_button == Pressed )
key_state |= ShiftButton;
if ( b_state.meta_button == Pressed )
key_state |= MetaButton;
if ( b_state.control_button == Pressed )
key_state |= ControlButton;
localMousePos = clicked_widget->globalToLocalPos(*mouse);
if ( b_state.mouse_moved )
{
if ( b_state.left_button == Pressed )
{
FMouseEvent m_down_ev (MouseMove_Event,
localMousePos,
*mouse,
LeftButton | key_state);
sendEvent(clicked_widget, &m_down_ev);
}
if ( b_state.right_button == Pressed )
{
FMouseEvent m_down_ev (MouseMove_Event,
localMousePos,
*mouse,
RightButton | key_state);
sendEvent(clicked_widget, &m_down_ev);
}
if ( b_state.middle_button == Pressed )
{
FMouseEvent m_down_ev (MouseMove_Event,
localMousePos,
*mouse,
MiddleButton | key_state);
sendEvent(clicked_widget, &m_down_ev);
}
}
else
{
if ( b_state.left_button == DoubleClick )
{
FMouseEvent m_dblclick_ev (MouseDoubleClick_Event,
localMousePos,
*mouse,
LeftButton | key_state);
sendEvent(clicked_widget, &m_dblclick_ev);
}
else if ( b_state.left_button == Pressed )
{
FMouseEvent m_down_ev (MouseDown_Event,
localMousePos,
*mouse,
LeftButton | key_state);
sendEvent(clicked_widget, &m_down_ev);
}
else if ( b_state.left_button == Released )
{
FMouseEvent m_up_ev (MouseUp_Event,
localMousePos,
*mouse,
LeftButton | key_state);
FWidget* released_widget = clicked_widget;
clicked_widget = 0;
sendEvent(released_widget, &m_up_ev);
}
if ( b_state.right_button == Pressed )
{
FMouseEvent m_down_ev (MouseDown_Event,
localMousePos,
*mouse,
RightButton | key_state);
sendEvent(clicked_widget, &m_down_ev);
}
else if ( b_state.right_button == Released )
{
FMouseEvent m_up_ev (MouseUp_Event,
localMousePos,
*mouse,
RightButton | key_state);
FWidget* released_widget = clicked_widget;
clicked_widget = 0;
sendEvent(released_widget, &m_up_ev);
}
if ( b_state.middle_button == Pressed )
{
FMouseEvent m_down_ev (MouseDown_Event,
localMousePos,
*mouse,
MiddleButton | key_state);
sendEvent(clicked_widget, &m_down_ev);
// gnome-terminal sends no released on middle click
if ( gnome_terminal )
clicked_widget = 0;
}
else if ( b_state.middle_button == Released )
{
FMouseEvent m_up_ev (MouseUp_Event,
localMousePos,
*mouse,
MiddleButton | key_state);
FWidget* released_widget = clicked_widget;
clicked_widget = 0;
sendEvent(released_widget, &m_up_ev);
}
}
if ( b_state.wheel_up == Pressed )
{
FWheelEvent wheel_ev (MouseWheel_Event,
localMousePos,
*mouse,
WheelUp);
FWidget* scroll_over_widget = clicked_widget;
clicked_widget = 0;
sendEvent(scroll_over_widget, &wheel_ev);
}
if ( b_state.wheel_down == Pressed )
{
FWheelEvent wheel_ev (MouseWheel_Event,
localMousePos,
*mouse,
WheelDown);
FWidget* scroll_over_widget = clicked_widget;
clicked_widget = 0;
sendEvent(scroll_over_widget, &wheel_ev);
}
}
flush_out();
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#ifdef F_HAVE_LIBGPM
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if ( gpm_mouse_enabled && gpm_ev.x != -1 )
GPM_DRAWPOINTER(&gpm_ev);
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#endif
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}
//----------------------------------------------------------------------
void FApplication::processResizeEvent()
{
if ( resize_term )
{
FResizeEvent r_ev(Resize_Event);
sendEvent(rootObj, &r_ev);
if ( r_ev.isAccepted() )
resize_term = false;
}
}
//----------------------------------------------------------------------
int FApplication::processTimerEvent()
{
FObject::TimerList::iterator iter, end;
timeval currentTime;
int activated = 0;
getCurrentTime (currentTime);
if ( modify_timer )
return 0;
if ( ! timer_list )
return 0;
if ( timer_list->empty() )
return 0;
iter = timer_list->begin();
end = timer_list->end();
while ( iter != end )
{
if ( (*iter).id == 0
|| (*iter).object == 0
|| currentTime < (*iter).timeout ) // no timer expired
break;
(*iter).timeout += (*iter).interval;
if ( (*iter).timeout < currentTime )
(*iter).timeout = currentTime + (*iter).interval;
if ( (*iter).interval.tv_usec > 0 || (*iter).interval.tv_sec > 0 )
activated++;
FTimerEvent t_ev(Timer_Event, (*iter).id);
sendEvent((*iter).object, &t_ev);
++iter;
}
return activated;
}
//----------------------------------------------------------------------
bool FApplication::processNextEvent()
{
int num_events = 0;
processKeyboardEvent();
processMouseEvent();
processResizeEvent();
if ( close_widget && ! close_widget->empty() )
{
widgetList::iterator iter;
iter = close_widget->begin();
while ( iter != close_widget->end() )
{
delete(*iter);
close_widget->erase(iter);
}
}
sendQueuedEvents();
num_events += processTimerEvent();
return (num_events > 0);
}
// public methods of FApplication
//----------------------------------------------------------------------
void FApplication::print_cmd_Options ()
{
::printf("\nFinalCut Options:\n"
" --encoding <name> Sets the character encoding mode\n"
" {UTF8, VT100, PC, ASCII}\n"
" --vgafont Set the standard vga 8x16 font\n"
" --newfont Enables the graphical font\n");
}
//----------------------------------------------------------------------
void FApplication::setMainWidget (FWidget* widget)
{
main_widget = widget;
if ( widget && ! getFocusWidget() )
rootObj->focusFirstChild();
}
//----------------------------------------------------------------------
int FApplication::exec() // run
{
quit_now = false;
quit_code = 0;
// set the cursor to the focus widget
if ( getFocusWidget()
&& getFocusWidget()->isVisible()
&& getFocusWidget()->hasVisibleCursor() )
{
getFocusWidget()->setCursor();
showCursor();
flush_out();
}
enter_loop();
return quit_code;
}
//----------------------------------------------------------------------
int FApplication::enter_loop() // event loop
{
bool old_app_exit_loop;
loop_level++;
quit_now = false;
old_app_exit_loop = app_exit_loop;
app_exit_loop = false;
while ( ! quit_now && ! app_exit_loop )
processNextEvent();
app_exit_loop = old_app_exit_loop;
loop_level--;
return 0;
}
//----------------------------------------------------------------------
void FApplication::exit_loop()
{
app_exit_loop = true;
}
//----------------------------------------------------------------------
void FApplication::exit (int retcode)
{
if ( ! rootObj ) // no global app object
return;
if ( quit_now ) // don't overwrite quit code
return;
quit_now = true;
quit_code = retcode;
}
//----------------------------------------------------------------------
void FApplication::quit()
{
FApplication::exit(0);
}
//----------------------------------------------------------------------
bool FApplication::isQuit()
{
if ( rootObj )
return quit_now;
else
return true;
}
//----------------------------------------------------------------------
bool FApplication::sendEvent(FObject* receiver, FEvent* event)
{
FWidget* widget;
if ( quit_now || app_exit_loop )
return false;
if ( receiver == 0 )
return false;
widget = static_cast<FWidget*>(receiver);
if ( modal_dialogs > 0 )
{
FWidget* window;
if ( widget->isWindow() )
window = widget;
else
window = FWindow::getWindowWidget(widget);
// block events for widgets in non modal windows
if ( window && (window->getFlags() & MODAL) == 0 )
{
switch ( event->type() )
{
case KeyPress_Event:
case KeyUp_Event:
case KeyDown_Event:
case MouseDown_Event:
case MouseUp_Event:
case MouseDoubleClick_Event:
case MouseWheel_Event:
case MouseMove_Event:
case FocusIn_Event:
case FocusOut_Event:
case Accelerator_Event:
return false;
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default:
break;
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}
}
}
// throw away mouse events to disabled widgets
if ( event->type() >= MouseDown_Event
&& event->type() <= MouseMove_Event
&& ! widget->isEnabled() )
return false;
// sends event event directly to receiver
return widget->event(event);
}
//----------------------------------------------------------------------
void FApplication::queueEvent (FObject* receiver, FEvent* event)
{
if ( receiver == 0 )
return;
// queue this event
eventPair Event (receiver, event);
event_queue->push_back(Event);
}
//----------------------------------------------------------------------
void FApplication::sendQueuedEvents()
{
std::deque<eventPair>* events;
if ( ! eventInQueue() )
return;
events = event_queue;
while ( ! eventInQueue() )
{
sendEvent(events->front().first, events->front().second);
events->pop_front();
}
}
//----------------------------------------------------------------------
bool FApplication::eventInQueue()
{
if ( rootObj )
return ( ! event_queue->empty() );
else
return false;
}
//----------------------------------------------------------------------
bool FApplication::removeQueuedEvent(FObject* receiver)
{
bool retval;
std::deque<eventPair>::iterator iter;
if ( ! eventInQueue() )
return false;
if ( receiver == 0 )
return false;
retval = false;
iter = event_queue->begin();
while ( iter != event_queue->end() )
{
if ( iter->first == receiver )
{
iter = event_queue->erase(iter);
retval = true;
}
else
++iter;
}
return retval;
}