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/************************************************************************ 
 * This file is part of PDCurses. PDCurses is public domain software;	*
 * you may use it for any purpose. This software is provided AS IS with	*
 * NO WARRANTY whatsoever.						*
 *									*
 * If you use PDCurses in an application, an acknowledgement would be	*
 * appreciated, but is not mandatory. If you make corrections or	*
 * enhancements to PDCurses, please forward them to the current		*
 * maintainer for the benefit of other users.				*
 *									*
 * See the file maintain.er for details of the current maintainer.	*
 ************************************************************************/

#include <curspriv.h>

RCSID("$Id: mouse.c,v 1.43 2007/06/14 14:11:30 wmcbrine Exp $")

/*man-start**************************************************************

  Name:								mouse

  Synopsis:
	int mouse_set(unsigned long mbe);
	int mouse_on(unsigned long mbe);
	int mouse_off(unsigned long mbe);
	int request_mouse_pos(void);
	int map_button(unsigned long button);
	void wmouse_position(WINDOW *win, int *y, int *x);
	unsigned long getmouse(void);
	unsigned long getbmap(void);

	int mouseinterval(int wait);
	bool wenclose(const WINDOW *win, int y, int x);
	bool wmouse_trafo(const WINDOW *win, int *y, int *x, bool to_screen);
	bool mouse_trafo(int *y, int *x, bool to_screen);
	mmask_t mousemask(mmask_t mask, mmask_t *oldmask);
	int nc_getmouse(MEVENT *event);
	int ungetmouse(MEVENT *event);

  Description:
	As of PDCurses 3.0, there are two separate mouse interfaces: the
	classic interface, which is based on the undocumented Sys V
	mouse functions; and an ncurses-compatible interface. Both are
	active at all times, and you can mix and match functions from
	each, though it's not recommended. The ncurses interface is
	essentially an emulation layer built on top of the classic
	interface; it's here to allow easier porting of ncurses apps.

	The classic interface: mouse_set(), mouse_on(), mouse_off(),
	request_mouse_pos(), map_button(), wmouse_position(),
	getmouse(), and getbmap(). An application using this interface
	would start by calling mouse_set() or mouse_on() with a non-zero
	value, often ALL_MOUSE_EVENTS. Then it would check for a
	KEY_MOUSE return from getch(). If found, it would call
	request_mouse_pos() to get the current mouse status.

	mouse_set(), mouse_on() and mouse_off() are analagous to
	attrset(), attron() and attroff().  These functions set the
	mouse button events to trap.  The button masks used in these
	functions are defined in curses.h and can be or'ed together.
	They are the group of masks starting with BUTTON1_RELEASED.

	request_mouse_pos() requests curses to fill in the Mouse_status
	structure with the current state of the mouse.

	map_button() enables the specified mouse action to activate the
	Soft Label Keys if the action occurs over the area of the screen
	where the Soft Label Keys are displayed.  The mouse actions are
	defined in curses.h in the group that starts with BUTTON_RELEASED.

	wmouse_position() determines if the current mouse position is
	within the window passed as an argument.  If the mouse is
	outside the current window, -1 is returned in the y and x
	arguments; otherwise the y and x coordinates of the mouse
	(relative to the top left corner of the window) are returned in
	y and x.

	getmouse() returns the current status of the trapped mouse
	buttons as set by mouse_set() or mouse_on().

	getbmap() returns the current status of the button action used
	to map a mouse action to the Soft Label Keys as set by the
	map_button() function.

	The ncurses interface: mouseinterval(), wenclose(),
	wmouse_trafo(), mouse_trafo(), mousemask(), nc_getmouse(), and
	ungetmouse(). A typical application using this interface would
	start by calling mousemask() with a non-zero value, often
	ALL_MOUSE_EVENTS. Then it would check for a KEY_MOUSE return
	from getch(). If found, it would call nc_getmouse() to get the
	current mouse status.

	mouseinterval() sets the timeout for a mouse click. On all
	current platforms, PDCurses receives mouse button press and
	release events, but must synthesize click events. It does this
	by checking whether a release event is queued up after a press
	event. If it gets a press event, and there are no more events
	waiting, it will wait for the timeout interval, then check again
	for a release. A press followed by a release is reported as
	BUTTON_CLICKED; otherwise it's passed through as BUTTON_PRESSED.
	The default timeout is 150ms; valid values are 0 (no clicks
	reported) through 1000ms. In x11, the timeout can also be set
	via the clickPeriod resource. The return value from
	mouseinterval() is the old timeout. To check the old value
	without setting a new one, call it with a parameter of -1. Note 
	that although there's no classic equivalent for this function 
	(apart from the clickPeriod resource), the value set applies in 
	both interfaces.

	wenclose() reports whether the given screen-relative y, x
	coordinates fall within the given window.

	wmouse_trafo() converts between screen-relative and window-
	relative coordinates. A to_screen parameter of TRUE means to
	convert from window to screen; otherwise the reverse. The
	function returns FALSE if the coordinates aren't within the
	window, or if any of the parameters are NULL. The coordinates
	have been converted when the function returns TRUE.

	mouse_trafo() is the stdscr version of wmouse_trafo().

	mousemask() is nearly equivalent to mouse_set(), but instead of
	OK/ERR, it returns the value of the mask after setting it. (This
	isn't necessarily the same value passed in, since the mask could
	be altered on some platforms.) And if the second parameter is a 
	non-null pointer, mousemask() stores the previous mask value 
	there. Also, since the ncurses interface doesn't work with 
	PDCurses' BUTTON_MOVED events, mousemask() filters them out.

	nc_getmouse() returns the current mouse status in an MEVENT 
	struct. This is equivalent to ncurses' getmouse(), renamed to 
	avoid conflict with PDCurses' getmouse(). But if you define 
	NCURSES_MOUSE_VERSION (preferably as 2) before including 
	curses.h, it defines getmouse() to nc_getmouse(), along with a 
	few other redefintions needed for compatibility with ncurses 
	code. nc_getmouse() calls request_mouse_pos(), which (not 
	getmouse()) is the classic equivalent.

	ungetmouse() is the mouse equivalent of ungetch(). However, 
	PDCurses doesn't maintain a queue of mouse events; only one can 
	be pushed back, and it can overwrite or be overwritten by real 
	mouse events.

  Portability				     X/Open    BSD    SYS V
	mouse_set				-	-      4.0
	mouse_on				-	-      4.0
	mouse_off				-	-      4.0
	request_mouse_pos			-	-      4.0
	map_button				-	-      4.0
	wmouse_position				-	-      4.0
	getmouse				-	-      4.0
	getbmap					-	-      4.0
	mouseinterval				-	-	-
	wenclose				-	-	-
	wmouse_trafo				-	-	-
	mouse_trafo				-	-	-
	mousemask				-	-	-
	nc_getmouse				-	-	-
	ungetmouse				-	-	-

**man-end****************************************************************/

#include <string.h>

static bool ungot = FALSE;

int mouse_set(unsigned long mbe)
{
	PDC_LOG(("mouse_set() - called: event %x\n", mbe));

	SP->_trap_mbe = mbe;
	return PDC_mouse_set();
}

int mouse_on(unsigned long mbe)
{
	PDC_LOG(("mouse_on() - called: event %x\n", mbe));

	SP->_trap_mbe |= mbe;
	return PDC_mouse_set();
}

int mouse_off(unsigned long mbe)
{
	PDC_LOG(("mouse_off() - called: event %x\n", mbe));

	SP->_trap_mbe &= ~mbe;
	return PDC_mouse_set();
}

int map_button(unsigned long button)
{
	PDC_LOG(("map_button() - called: button %x\n", button));

/****************** this does nothing at the moment ***************/
	SP->_map_mbe_to_key = button;

	return OK;
}

int request_mouse_pos(void)
{
	PDC_LOG(("request_mouse_pos() - called\n"));

	Mouse_status = pdc_mouse_status;

	return OK;
}

void wmouse_position(WINDOW *win, int *y, int *x)
{
	PDC_LOG(("wmouse_position() - called\n"));

	if (win && wenclose(win, MOUSE_Y_POS, MOUSE_X_POS))
	{
		if (y)
			*y = MOUSE_Y_POS - win->_begy;
		if (x)
			*x = MOUSE_X_POS - win->_begx;
	}
	else
	{
		if (y)
			*y = -1;
		if (x)
			*x = -1;
	}
}

unsigned long getmouse(void)
{
	PDC_LOG(("getmouse() - called\n"));

	return SP->_trap_mbe;
}

unsigned long getbmap(void)
{
	PDC_LOG(("getbmap() - called\n"));

	return SP->_map_mbe_to_key;
}

/* ncurses mouse interface */

int mouseinterval(int wait)
{
	int old_wait;

	PDC_LOG(("mouseinterval() - called: %d\n", wait));

	old_wait = SP->mouse_wait;

	if (wait >= 0 && wait <= 1000)
		SP->mouse_wait = wait;

	return old_wait;
}

bool wenclose(const WINDOW *win, int y, int x)
{
	PDC_LOG(("wenclose() - called: %p %d %d\n", win, y, x));

	return (win &&
		y >= win->_begy && y < win->_begy + win->_maxy &&
		x >= win->_begx && x < win->_begx + win->_maxx);
}

bool wmouse_trafo(const WINDOW *win, int *y, int *x, bool to_screen)
{
	int newy, newx;

	PDC_LOG(("wmouse_trafo() - called\n"));

	if (!win || !y || !x)
		return FALSE;

	newy = *y;
	newx = *x;

	if (to_screen)
	{
		newy += win->_begy;
		newx += win->_begx;

		if (!wenclose(win, newy, newx))
			return FALSE;
	}
	else
	{
		if (wenclose(win, newy, newx))
		{
			newy -= win->_begy;
			newx -= win->_begx;
		}
		else
			return FALSE;
	}

	*y = newy;
	*x = newx;

	return TRUE;
}

bool mouse_trafo(int *y, int *x, bool to_screen)
{
	PDC_LOG(("mouse_trafo() - called\n"));

	return wmouse_trafo(stdscr, y, x, to_screen);
}

mmask_t mousemask(mmask_t mask, mmask_t *oldmask)
{
	PDC_LOG(("mousemask() - called\n"));

	if (oldmask)
		*oldmask = SP->_trap_mbe;

	/* The ncurses interface doesn't work with our move events, so 
	   filter them here */

	mask &= ~(BUTTON1_MOVED | BUTTON2_MOVED | BUTTON3_MOVED);

	mouse_set(mask);

	return SP->_trap_mbe;
}

int nc_getmouse(MEVENT *event)
{
	int i;
	mmask_t bstate = 0;

	PDC_LOG(("nc_getmouse() - called\n"));

	if (!event)
		return ERR;

	ungot = FALSE;

	request_mouse_pos();

	event->id = 0;

	event->x = Mouse_status.x;
	event->y = Mouse_status.y;
	event->z = 0;

	for (i = 0; i < 3; i++)
	{
		if (Mouse_status.changes & (1 << i))
		{
			int shf = i * 5;
			short button = Mouse_status.button[i] &
				BUTTON_ACTION_MASK;

			if (button == BUTTON_RELEASED)
				bstate |= (BUTTON1_RELEASED << shf);
			else if (button == BUTTON_PRESSED)
				bstate |= (BUTTON1_PRESSED << shf);
			else if (button == BUTTON_CLICKED)
				bstate |= (BUTTON1_CLICKED << shf);
			else if (button == BUTTON_DOUBLE_CLICKED)
				bstate |= (BUTTON1_DOUBLE_CLICKED << shf);

			button = Mouse_status.button[i] &
				BUTTON_MODIFIER_MASK;

			if (button & PDC_BUTTON_SHIFT)
				bstate |= BUTTON_MODIFIER_SHIFT;
			if (button & PDC_BUTTON_CONTROL)
				bstate |= BUTTON_MODIFIER_CONTROL;
			if (button & PDC_BUTTON_ALT)
				bstate |= BUTTON_MODIFIER_ALT;
		}
	}

	if (MOUSE_WHEEL_UP)
		bstate |= BUTTON4_PRESSED;
	else if (MOUSE_WHEEL_DOWN)
		bstate |= BUTTON5_PRESSED;

	/* extra filter pass -- mainly for button modifiers */

	event->bstate = bstate & SP->_trap_mbe;

	return OK;
}

int ungetmouse(MEVENT *event)
{
	int i;
	unsigned long bstate;

	PDC_LOG(("ungetmouse() - called\n"));

	if (!event || ungot)
		return ERR;

	ungot = TRUE;

	pdc_mouse_status.x = event->x;
	pdc_mouse_status.y = event->y;

	pdc_mouse_status.changes = 0;
	bstate = event->bstate;

	for (i = 0; i < 3; i++)
	{
		int shf = i * 5;
		short button = 0;

		if (bstate & ((BUTTON1_RELEASED | BUTTON1_PRESSED | 
		    BUTTON1_CLICKED | BUTTON1_DOUBLE_CLICKED) << shf))
		{
			pdc_mouse_status.changes |= 1 << i;

			if (bstate & (BUTTON1_PRESSED << shf))
				button = BUTTON_PRESSED;
			if (bstate & (BUTTON1_CLICKED << shf))
				button = BUTTON_CLICKED;
			if (bstate & (BUTTON1_DOUBLE_CLICKED << shf))
				button = BUTTON_DOUBLE_CLICKED;

			if (bstate & BUTTON_MODIFIER_SHIFT)
				button |= PDC_BUTTON_SHIFT;
			if (bstate & BUTTON_MODIFIER_CONTROL)
				button |= PDC_BUTTON_CONTROL;
			if (bstate & BUTTON_MODIFIER_ALT)
				button |= PDC_BUTTON_ALT;
		}

		pdc_mouse_status.button[i] = button;
	}

	if (bstate & BUTTON4_PRESSED)
		pdc_mouse_status.changes |= PDC_MOUSE_WHEEL_UP;
	else if (bstate & BUTTON5_PRESSED)
		pdc_mouse_status.changes |= PDC_MOUSE_WHEEL_DOWN;

	return ungetch(KEY_MOUSE);
}

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