man/man3/graphics.3 - plan9 - Git at Google

 .TH GRAPHICS 3
 .SH NAME
 Display, Point, Rectangle, Cursor, initdraw, geninitdraw, drawerror, initdisplay, closedisplay, getdefont, getwindow, gengetwindow, flushimage, bufimage, lockdisplay, unlockdisplay, cursorswitch, cursorset, openfont, buildfont, freefont, Pfmt, Rfmt, strtochan, chantostr, chantodepth \- interactive graphics
 .SH SYNOPSIS
 .nf
 .PP
 .ft L
 #include <u.h>
 #include <libc.h>
 #include <draw.h>
 #include <cursor.h>
 .ft P
 .PP
 .ta \w'\fLFont* 'u
 .B
 int	initdraw(void (*errfun)(Display*, char*), char *font,
 .B
 	   char *label)
 .PP
 .B
 int	geninitdraw(char *devdir, void(*errfun)(Display*, char*),
 .PP
 .B
 	   char *font, char *label, char *mousedir, char *windir,
 .B
 	   int ref)
 .PP
 .B
 int	newwindow(char *str)
 .PP
 .B
 void	drawerror(Display *d, char *msg)
 .PP
 .B
 Display*	initdisplay(char *devdir, char *win, void(*errfun)(Display*, char*))
 .PP
 .B
 void	closedisplay(Display *d)
 .PP
 .B
 Font*	getdefont(Display *d)
 .PP
 .B
 int	flushimage(Display *d, int vis)
 .PP
 .B
 int	bufimage(Display *d, int n)
 .PP
 .B
 int	lockdisplay(Display *d)
 .PP
 .B
 int	unlockdisplay(Display *d)
 .PP
 .B
 int	getwindow(Display *d, int ref)
 .PP
 .B
 int	gengetwindow(Display *d, char *winname,
 .br
 .B
 	   Image **ip, Screen **sp, int ref)
 .PP
 .B
 int	scalesize(Display *d, int n)
 .PP
 .B
 void	cursorswitch(Cursor *curs)
 .PP
 .B
 void	cursorset(Point p)
 .PP
 .B
 Font*	openfont(Display *d, char *name)
 .PP
 .B
 Font*	buildfont(Display *d, char *desc, char *name)
 .PP
 .B
 void	freefont(Font *f)
 .PP
 .B
 int	Pfmt(Fmt*)
 .PP
 .B
 int	Rfmt(Fmt*)
 .PP
 .B
 ulong	strtochan(char *s)
 .PP
 .B
 char*	chantostr(char *s, ulong chan)
 .PP
 .B
 int	chantodepth(ulong chan)
 .PP
 .B
 extern Display *display
 .PP
 .B
 extern Image   *screen
 .PP
 .B
 extern Screen   *_screen
 .PP
 .B
 extern Font    *font
 .fi
 .SH DESCRIPTION
 A
 .B Display
 structure represents a connection to the graphics device,
 .IR draw (3),
 holding all graphics resources associated with the connection,
 including in particular raster image data in use by the client program.
 The structure is defined (in part) as:
 .IP
 .EX
 .ta 6n +10n
 typedef
 struct Display
 {
 	...
 	void	(*error)(Display*, char*);
 	...
 	Image	*black;
 	Image	*white;
 	Image	*opaque;
 	Image	*transparent;
 	Image	*image;
 	Font		*defaultfont;
 	Subfont	*defaultsubfont;
 	...
 };
 .EE
 .PP
 A
 .B Point
 is a location in an Image
 (see below and
 .IR draw (3)),
 such as the display, and is defined as:
 .IP
 .EX
 .ta 6n
 typedef
 struct Point {
 	int x;
 	int y;
 } Point;
 .EE
 .PP
 The coordinate system has
 .I x
 increasing to the right and
 .I y
 increasing down.
 .PP
 A
 .B Rectangle
 is a rectangular area in an image.
 .IP
 .EX
 .ta 6n
 typedef
 struct Rectangle {
 	Point min;      /* upper left */
 	Point max;      /* lower right */
 } Rectangle;
 .EE
 .PP
 By definition,
 .BR min.x ≤ max.x
 and
 .BR min.y ≤ max.y .
 By convention, the right (maximum
 .IR x )
 and bottom (maximum
 .IR y )
 edges are
 excluded from the represented rectangle, so abutting rectangles have no
 points in common.
 Thus,
 .B max
 contains the coordinates of the first point beyond the rectangle.
 .PP
 The
 .B Image
 data structure is defined in
 .IR draw (3).
 .PP
 A
 .B Font
 is a set of character images, indexed by runes (see
 .IR utf (7)).
 The images are organized into
 .BR Subfonts ,
 each containing the images for a small, contiguous set of runes.
 The detailed format of these data structures,
 which are described in detail in
 .IR cachechars (3),
 is immaterial for most applications.
 .B Font
 and
 .B Subfont
 structures contain two interrelated fields:
 .LR ascent ,
 the distance from the top of the highest character
 (actually the top of the image holding all the characters)
 to the baseline,
 and
 .LR height ,
 the distance from the top of the highest character to the bottom of
 the lowest character (and hence, the interline spacing).
 See
 .IR cachechars (3)
 for more details.
 .PP
 .I Buildfont
 parses the font description in the buffer
 .BR desc ,
 returning a
 .B Font*
 pointer that can be used by
 .B string
 (see
 .IR draw (3))
 to draw characters from the font.
 .I Openfont
 does the same, but reads the description
 from the named font.
 .I Freefont
 frees a font.
 In contrast to Plan 9, font names in Plan 9 from User Space are
 a small language describing the desired font.
 See
 .IR font (7)
 for details.
 .PP
 A
 .I Cursor
 is defined:
 .IP
 .EX
 .ta 6n +\w'Point 'u
 typedef struct
 Cursor {
 	Point	offset;
 	uchar	clr[2*16];
 	uchar	set[2*16];
 } Cursor;
 .EE
 .PP
 The arrays are arranged in rows, two bytes per row, left to
 right in big-endian order to give 16 rows
 of 16 bits each.
 A cursor is displayed on the screen by adding
 .B offset
 to the current mouse position, using
 .B clr
 as a mask to draw white at the pixels where
 .B clr
 is one, and then drawing black at the pixels where
 .B set
 is one.
 .PP
 The routine
 .I initdraw
 connects to the display; it returns \-1 if it fails and sets the error string.
 .I Initdraw
 sets up the global variables
 .B display
 (the
 .B Display
 structure representing the connection),
 .B screen
 (an
 .B Image
 representing the display memory itself or, if
 .IR rio (1)
 is running, the client's window),
 and
 .B font
 (the default font for text).
 The arguments to
 .I initdraw
 include a
 .IR label ,
 which is written to
 .B /dev/label
 if non-nil
 so that it can be used to identify the window when hidden (see
 .IR rio (1)).
 The font is created by reading the named
 .I font
 file.  If
 .B font
 is null,
 .I initdraw
 reads the file named in the environment variable
 .BR $font ;
 if
 .B $font
 is not set, it imports the default (usually minimal)
 font from the operating system.
 (See
 .IR font (7)
 for a full discussion of font syntaxes.)
 The global
 .I font
 will be set to point to the resulting
 .B Font
 structure.
 The
 .I errfun
 argument is a
 .I graphics error function
 to call in the event of a fatal error in the library; it must never return.
 Its arguments are the
 display pointer and an error string.
 If
 .I errfun
 is nil, the library provides a default, called
 .IR drawerror .
 Another effect of
 .I initdraw
 is that it installs
 .IR print (3)
 formats
 .I Pfmt
 and
 .I Rfmt
 as
 .L %P
 and
 .L %R
 for printing
 .B Points
 and
 .BR Rectangles .
 .PP
 The
 .I geninitdraw
 function provides a less automated way to establish a connection, for programs
 that wish to connect to multiple displays.
 .I Devdir
 is the name of the directory containing the device files for the display
 (if nil, default
 .BR /dev );
 .IR errfun ,
 .IR font ,
 and
 .I label
 are as in
 .IR initdraw ;
 .I mousedir
 and
 .I windir
 are the directories holding the
 .B mouse
 and
 .B winname
 files; and
 .I ref
 specifies the refresh function to be used to create the window, if running under
 .IR rio (1)
 (see
 .IR window (3)).
 .\" .PP
 .\" The function
 .\" .I newwindow
 .\" may be called before
 .\" .I initdraw
 .\" or
 .\" .IR geninitdraw
 .\" to cause the program to occupy a newly created window rather than take over the one in
 .\" which it is running when it starts.
 .\" The
 .\" .I str
 .\" argument, if non-null, is concatenated to the string \f5\&"new\ "\fP
 .\" that is used to create the window (see
 .\" .IR rio (4)).
 .\" For example,
 .\" .B newwindow("-hide -dy 100")
 .\" will cause the program to run in a newly created, hidden window
 .\" 100 pixels high.
 .PP
 .I Initdisplay
 is part of
 .IR geninitdraw ;
 it sets up the display structures but does not allocate any fonts or call
 .IR getwindow .
 The arguments are similar to those of
 .IR initdraw ;
 .I win
 names the directory, default
 .BR /dev ,
 in which the files associated with the window reside.
 .I Closedisplay
 disconnects the display and frees the associated data structures.
 .I Getdefont
 builds a
 .B Font
 structure from in-core data describing a default font.
 None of these routines is needed by most programs, since
 .I initdraw
 calls them as needed.
 .PP
 The data structures associated with the display must be protected in a multi-process program,
 because they assume only one process will be using them at a time.
 Multi-process programs should set
 .B display->locking
 to
 .BR 1 ,
 to notify the library to use a locking protocol for its own accesses,
 and call
 .I lockdisplay
 and
 .I unlockdisplay
 around any calls to the graphics library that will cause messages to be sent to the display device.
 .I Initdraw
 and
 .I geninitdraw
 initialize the display to the locked state.
 .PP
 .I Getwindow
 returns a pointer to the window associated with the application; it is called
 automatically by
 .I initdraw
 to establish the
 .B screen
 pointer but must be called after each resizing of the window to restore
 the library's connection to the window.
 If
 .B rio
 is not running, it returns
 .BR display->image ;
 otherwise it negotiates with
 .B rio
 by looking in
 .B /dev/winname
 to find the name of the window and opening it using
 .B namedimage
 (see
 .IR allocimage (3)).
 The resulting window will be created using the refresh method
 .I ref
 (see
 .IR window (3));
 this should almost always be
 .B Refnone
 because
 .B rio
 provides backing store for the window.
 .PP
 .I Getwindow
 overwrites the global variables
 .BR screen ,
 a pointer to the
 .B Image
 defining the window (or the overall display, if no window system is running); and
 .BR _screen ,
 a pointer to the
 .B Screen
 representing the root of the window's hierarchy. (See
 .IR window (3).
 The overloading of the
 .B screen
 word is an unfortunate historical accident.)
 .I Getwindow
 arranges that
 .B screen
 point to the portion of the window inside the border;
 sophisticated clients may use
 .B _screen
 to make further subwindows.
 If
 .I getwindow
 is being called due to a resizing of the window,
 the resize may be accompanied by a change in screen pixel density (DPI),
 in which case the value of the
 .BR Display 's
 .B dpi
 field and any open
 .BR Font 's
 .B height
 and
 .B ascent
 fields may be updated during the call to
 .IR getwindow .
 Programs should discard any cached information about display or font sizes.
 .\" Programs desiring multiple independent windows
 .\" may use the mechanisms of
 .\" .IR rio (4)
 .\" to create more windows (usually by a fresh mount of the window sytem
 .\" in a directory other than
 .\" .BR /dev ),
 .\" then use
 .\" .I gengetwindow
 .\" to connect to them.
 .IR Gengetwindow 's
 extra arguments are the full path of the window's
 .B winname
 file and pointers to be overwritten with the values of the `global'
 .B Image
 and
 .B Screen
 variables for the new window.
 .PP
 Historically, Plan 9 graphics programs have used fixed-size graphics features that assume a narrow range of display densities, around 100 dpi: pixels (or dots) per inch.
 The new field
 .B display->dpi
 contains the display's actual density if known, or else
 .B DefaultDPI
 (100).
 .I Scalesize
 scales the fixed pixel count
 .I n
 by
 .BR display->dpi / DefaultDPI ,
 rounding appropriately.
 .PP
 The mouse cursor is always displayed.
 The initial cursor is an arrow.
 .I Cursorswitch
 causes the argument cursor to be displayed instead.
 A zero argument causes a switch back to the arrow cursor.
 .I Cursorset
 moves the mouse cursor to position
 .IR p ,
 provided (if in a window) that the requesting program is
 executing in the current window and the mouse is within
 the window boundaries; otherwise
 .I cursorset
 is a no-op.
 .PP
 The graphics functions described in
 .IR draw (3),
 .IR allocimage (3),
 .IR cachechars (3),
 and
 .IR subfont (3)
 are implemented by writing commands to files under
 .B /dev/draw
 (see
 .IR draw (3));
 the writes are buffered, so the functions may not take effect immediately.
 .I Flushimage
 flushes the buffer, doing all pending graphics operations.
 If
 .I vis
 is non-zero, any changes are also copied from the `soft screen' (if any) in the
 driver to the visible frame buffer.
 The various allocation routines in the library flush automatically, as does the event
 package (see
 .IR event (3));
 most programs do not need to call
 .IR flushimage .
 It returns \-1 on error.
 .PP
 .I Bufimage
 is used to allocate space for
 .I n
 bytes in the display buffer.
 It is used by all the graphics routines to send messages to the display.
 .PP
 The functions
 .I strtochan
 and
 .I chantostr
 convert between the channel descriptor strings
 used by
 .IR image (7)
 and the internal
 .B ulong
 representation
 used by the graphics protocol
 (see
 .IR draw (3)'s
 .B b
 message).
 .B Chantostr
 writes at most nine bytes into the buffer pointed at by
 .I s
 and returns
 .I s
 on success,
 0
 on failure.
 .B Chantodepth
 returns the number of bits per pixel used by the
 format specified by
 .IR chan .
 Both
 .B chantodepth
 and
 .B strtochan
 return 0 when presented
 with bad input.
 .SH EXAMPLES
 To reconnect to the window after a resize event,
 .IP
 .EX
 if(getwindow(display, Refnone) < 0)
 	sysfatal("resize failed: %r");
 .EE
 .PP
 To create and set up a new
 .IR rio (1)
 window,
 .IP
 .EX
 Image *screen2;
 Screen *_screen2;

 srvwsys = getenv("wsys");
 if(srvwsys == nil)
 	sysfatal("can't find $wsys: %r");
 rfork(RFNAMEG); /* keep mount of rio private */

 fd = open(srvwsys, ORDWR);
 if(fd < 0)
 	sysfatal("can't open $wsys: %r");

 /* mount creates window; see \f2rio\fP(4) */
 if(mount(fd, -1, "/tmp", MREPL, "new -dx 300-dy 200") < 0)
 	sysfatal("can't mount new window: %r");
 if(gengetwindow(display, "/tmp/winname",
    &screen2, &_screen2, Refnone) < 0)
 	sysfatal("resize failed: %r");

 /* now open /tmp/cons, /tmp/mouse */
 \&...
 .EE
 .SH FILES
 .BR \*9/font/bit "    directory of fonts
 .SH SOURCE
 .B \*9/src/libdraw
 .SH "SEE ALSO"
 .IR rio (1),
 .IR addpt (3),
 .IR allocimage (3),
 .IR cachechars (3),
 .IR subfont (3),
 .IR draw (3),
 .IR event (3),
 .IR frame (3),
 .IR print (3),
 .IR window (3),
 .IR draw (3),
 .\" .IR rio (4),
 .IR image (7),
 .IR font (7)
 .SH DIAGNOSTICS
 An error function may call
 .IR errstr (3)
 for further diagnostics.
 .SH BUGS
 The names
 .B clr
 and
 .B set
 in the
 .B Cursor
 structure are reminders of an archaic color map
 and might be more appropriately called
 .B white
 and
 .BR black .
 .PP
 These manual pages contain many references to
 the now-fictitious
 .BR /dev/draw .
	.TH GRAPHICS 3
	.SH NAME
	Display, Point, Rectangle, Cursor, initdraw, geninitdraw, drawerror, initdisplay, closedisplay, getdefont, getwindow, gengetwindow, flushimage, bufimage, lockdisplay, unlockdisplay, cursorswitch, cursorset, openfont, buildfont, freefont, Pfmt, Rfmt, strtochan, chantostr, chantodepth \- interactive graphics
	.SH SYNOPSIS
	.nf
	.PP
	.ft L
	#include <u.h>
	#include <libc.h>
	#include <draw.h>
	#include <cursor.h>
	.ft P
	.PP
	.ta \w'\fLFont* 'u
	.B
	int initdraw(void (errfun)(Display, char), char font,
	.B
	char *label)
	.PP
	.B
	int geninitdraw(char devdir, void(errfun)(Display, char),
	.PP
	.B
	char font, char label, char mousedir, char windir,
	.B
	int ref)
	.PP
	.B
	int newwindow(char *str)
	.PP
	.B
	void drawerror(Display d, char msg)
	.PP
	.B
	Display* initdisplay(char devdir, char win, void(errfun)(Display, char*))
	.PP
	.B
	void closedisplay(Display *d)
	.PP
	.B
	Font* getdefont(Display *d)
	.PP
	.B
	int flushimage(Display *d, int vis)
	.PP
	.B
	int bufimage(Display *d, int n)
	.PP
	.B
	int lockdisplay(Display *d)
	.PP
	.B
	int unlockdisplay(Display *d)
	.PP
	.B
	int getwindow(Display *d, int ref)
	.PP
	.B
	int gengetwindow(Display d, char winname,
	.br
	.B
	Image ip, Screen sp, int ref)
	.PP
	.B
	int scalesize(Display *d, int n)
	.PP
	.B
	void cursorswitch(Cursor *curs)
	.PP
	.B
	void cursorset(Point p)
	.PP
	.B
	Font* openfont(Display d, char name)
	.PP
	.B
	Font* buildfont(Display d, char desc, char *name)
	.PP
	.B
	void freefont(Font *f)
	.PP
	.B
	int Pfmt(Fmt*)
	.PP
	.B
	int Rfmt(Fmt*)
	.PP
	.B
	ulong strtochan(char *s)
	.PP
	.B
	char* chantostr(char *s, ulong chan)
	.PP
	.B
	int chantodepth(ulong chan)
	.PP
	.B
	extern Display *display
	.PP
	.B
	extern Image *screen
	.PP
	.B
	extern Screen *_screen
	.PP
	.B
	extern Font *font
	.fi
	.SH DESCRIPTION
	A
	.B Display
	structure represents a connection to the graphics device,
	.IR draw (3),
	holding all graphics resources associated with the connection,
	including in particular raster image data in use by the client program.
	The structure is defined (in part) as:
	.IP
	.EX
	.ta 6n +10n
	typedef
	struct Display
	{
	...
	void (error)(Display, char*);
	...
	Image *black;
	Image *white;
	Image *opaque;
	Image *transparent;
	Image *image;
	Font *defaultfont;
	Subfont *defaultsubfont;
	...
	};
	.EE
	.PP
	A
	.B Point
	is a location in an Image
	(see below and
	.IR draw (3)),
	such as the display, and is defined as:
	.IP
	.EX
	.ta 6n
	typedef
	struct Point {
	int x;
	int y;
	} Point;
	.EE
	.PP
	The coordinate system has
	.I x
	increasing to the right and
	.I y
	increasing down.
	.PP
	A
	.B Rectangle
	is a rectangular area in an image.
	.IP
	.EX
	.ta 6n
	typedef
	struct Rectangle {
	Point min; /* upper left */
	Point max; /* lower right */
	} Rectangle;
	.EE
	.PP
	By definition,
	.BR min.x ≤ max.x
	and
	.BR min.y ≤ max.y .
	By convention, the right (maximum
	.IR x )
	and bottom (maximum
	.IR y )
	edges are
	excluded from the represented rectangle, so abutting rectangles have no
	points in common.
	Thus,
	.B max
	contains the coordinates of the first point beyond the rectangle.
	.PP
	The
	.B Image
	data structure is defined in
	.IR draw (3).
	.PP
	A
	.B Font
	is a set of character images, indexed by runes (see
	.IR utf (7)).
	The images are organized into
	.BR Subfonts ,
	each containing the images for a small, contiguous set of runes.
	The detailed format of these data structures,
	which are described in detail in
	.IR cachechars (3),
	is immaterial for most applications.
	.B Font
	and
	.B Subfont
	structures contain two interrelated fields:
	.LR ascent ,
	the distance from the top of the highest character
	(actually the top of the image holding all the characters)
	to the baseline,
	and
	.LR height ,
	the distance from the top of the highest character to the bottom of
	the lowest character (and hence, the interline spacing).
	See
	.IR cachechars (3)
	for more details.
	.PP
	.I Buildfont
	parses the font description in the buffer
	.BR desc ,
	returning a
	.B Font*
	pointer that can be used by
	.B string
	(see
	.IR draw (3))
	to draw characters from the font.
	.I Openfont
	does the same, but reads the description
	from the named font.
	.I Freefont
	frees a font.
	In contrast to Plan 9, font names in Plan 9 from User Space are
	a small language describing the desired font.
	See
	.IR font (7)
	for details.
	.PP
	A
	.I Cursor
	is defined:
	.IP
	.EX
	.ta 6n +\w'Point 'u
	typedef struct
	Cursor {
	Point offset;
	uchar clr[2*16];
	uchar set[2*16];
	} Cursor;
	.EE
	.PP
	The arrays are arranged in rows, two bytes per row, left to
	right in big-endian order to give 16 rows
	of 16 bits each.
	A cursor is displayed on the screen by adding
	.B offset
	to the current mouse position, using
	.B clr
	as a mask to draw white at the pixels where
	.B clr
	is one, and then drawing black at the pixels where
	.B set
	is one.
	.PP
	The routine
	.I initdraw
	connects to the display; it returns \-1 if it fails and sets the error string.
	.I Initdraw
	sets up the global variables
	.B display
	(the
	.B Display
	structure representing the connection),
	.B screen
	(an
	.B Image
	representing the display memory itself or, if
	.IR rio (1)
	is running, the client's window),
	and
	.B font
	(the default font for text).
	The arguments to
	.I initdraw
	include a
	.IR label ,
	which is written to
	.B /dev/label
	if non-nil
	so that it can be used to identify the window when hidden (see
	.IR rio (1)).
	The font is created by reading the named
	.I font
	file. If
	.B font
	is null,
	.I initdraw
	reads the file named in the environment variable
	.BR $font ;
	if
	.B $font
	is not set, it imports the default (usually minimal)
	font from the operating system.
	(See
	.IR font (7)
	for a full discussion of font syntaxes.)
	The global
	.I font
	will be set to point to the resulting
	.B Font
	structure.
	The
	.I errfun
	argument is a
	.I graphics error function
	to call in the event of a fatal error in the library; it must never return.
	Its arguments are the
	display pointer and an error string.
	If
	.I errfun
	is nil, the library provides a default, called
	.IR drawerror .
	Another effect of
	.I initdraw
	is that it installs
	.IR print (3)
	formats
	.I Pfmt
	and
	.I Rfmt
	as
	.L %P
	and
	.L %R
	for printing
	.B Points
	and
	.BR Rectangles .
	.PP
	The
	.I geninitdraw
	function provides a less automated way to establish a connection, for programs
	that wish to connect to multiple displays.
	.I Devdir
	is the name of the directory containing the device files for the display
	(if nil, default
	.BR /dev );
	.IR errfun ,
	.IR font ,
	and
	.I label
	are as in
	.IR initdraw ;
	.I mousedir
	and
	.I windir
	are the directories holding the
	.B mouse
	and
	.B winname
	files; and
	.I ref
	specifies the refresh function to be used to create the window, if running under
	.IR rio (1)
	(see
	.IR window (3)).
	.\" .PP
	.\" The function
	.\" .I newwindow
	.\" may be called before
	.\" .I initdraw
	.\" or
	.\" .IR geninitdraw
	.\" to cause the program to occupy a newly created window rather than take over the one in
	.\" which it is running when it starts.
	.\" The
	.\" .I str
	.\" argument, if non-null, is concatenated to the string \f5\&"new\ "\fP
	.\" that is used to create the window (see
	.\" .IR rio (4)).
	.\" For example,
	.\" .B newwindow("-hide -dy 100")
	.\" will cause the program to run in a newly created, hidden window
	.\" 100 pixels high.
	.PP
	.I Initdisplay
	is part of
	.IR geninitdraw ;
	it sets up the display structures but does not allocate any fonts or call
	.IR getwindow .
	The arguments are similar to those of
	.IR initdraw ;
	.I win
	names the directory, default
	.BR /dev ,
	in which the files associated with the window reside.
	.I Closedisplay
	disconnects the display and frees the associated data structures.
	.I Getdefont
	builds a
	.B Font
	structure from in-core data describing a default font.
	None of these routines is needed by most programs, since
	.I initdraw
	calls them as needed.
	.PP
	The data structures associated with the display must be protected in a multi-process program,
	because they assume only one process will be using them at a time.
	Multi-process programs should set
	.B display->locking
	to
	.BR 1 ,
	to notify the library to use a locking protocol for its own accesses,
	and call
	.I lockdisplay
	and
	.I unlockdisplay
	around any calls to the graphics library that will cause messages to be sent to the display device.
	.I Initdraw
	and
	.I geninitdraw
	initialize the display to the locked state.
	.PP
	.I Getwindow
	returns a pointer to the window associated with the application; it is called
	automatically by
	.I initdraw
	to establish the
	.B screen
	pointer but must be called after each resizing of the window to restore
	the library's connection to the window.
	If
	.B rio
	is not running, it returns
	.BR display->image ;
	otherwise it negotiates with
	.B rio
	by looking in
	.B /dev/winname
	to find the name of the window and opening it using
	.B namedimage
	(see
	.IR allocimage (3)).
	The resulting window will be created using the refresh method
	.I ref
	(see
	.IR window (3));
	this should almost always be
	.B Refnone
	because
	.B rio
	provides backing store for the window.
	.PP
	.I Getwindow
	overwrites the global variables
	.BR screen ,
	a pointer to the
	.B Image
	defining the window (or the overall display, if no window system is running); and
	.BR _screen ,
	a pointer to the
	.B Screen
	representing the root of the window's hierarchy. (See
	.IR window (3).
	The overloading of the
	.B screen
	word is an unfortunate historical accident.)
	.I Getwindow
	arranges that
	.B screen
	point to the portion of the window inside the border;
	sophisticated clients may use
	.B _screen
	to make further subwindows.
	If
	.I getwindow
	is being called due to a resizing of the window,
	the resize may be accompanied by a change in screen pixel density (DPI),
	in which case the value of the
	.BR Display 's
	.B dpi
	field and any open
	.BR Font 's
	.B height
	and
	.B ascent
	fields may be updated during the call to
	.IR getwindow .
	Programs should discard any cached information about display or font sizes.
	.\" Programs desiring multiple independent windows
	.\" may use the mechanisms of
	.\" .IR rio (4)
	.\" to create more windows (usually by a fresh mount of the window sytem
	.\" in a directory other than
	.\" .BR /dev ),
	.\" then use
	.\" .I gengetwindow
	.\" to connect to them.
	.IR Gengetwindow 's
	extra arguments are the full path of the window's
	.B winname
	file and pointers to be overwritten with the values of the `global'
	.B Image
	and
	.B Screen
	variables for the new window.
	.PP
	Historically, Plan 9 graphics programs have used fixed-size graphics features that assume a narrow range of display densities, around 100 dpi: pixels (or dots) per inch.
	The new field
	.B display->dpi
	contains the display's actual density if known, or else
	.B DefaultDPI
	(100).
	.I Scalesize
	scales the fixed pixel count
	.I n
	by
	.BR display->dpi / DefaultDPI ,
	rounding appropriately.
	.PP
	The mouse cursor is always displayed.
	The initial cursor is an arrow.
	.I Cursorswitch
	causes the argument cursor to be displayed instead.
	A zero argument causes a switch back to the arrow cursor.
	.I Cursorset
	moves the mouse cursor to position
	.IR p ,
	provided (if in a window) that the requesting program is
	executing in the current window and the mouse is within
	the window boundaries; otherwise
	.I cursorset
	is a no-op.
	.PP
	The graphics functions described in
	.IR draw (3),
	.IR allocimage (3),
	.IR cachechars (3),
	and
	.IR subfont (3)
	are implemented by writing commands to files under
	.B /dev/draw
	(see
	.IR draw (3));
	the writes are buffered, so the functions may not take effect immediately.
	.I Flushimage
	flushes the buffer, doing all pending graphics operations.
	If
	.I vis
	is non-zero, any changes are also copied from the `soft screen' (if any) in the
	driver to the visible frame buffer.
	The various allocation routines in the library flush automatically, as does the event
	package (see
	.IR event (3));
	most programs do not need to call
	.IR flushimage .
	It returns \-1 on error.
	.PP
	.I Bufimage
	is used to allocate space for
	.I n
	bytes in the display buffer.
	It is used by all the graphics routines to send messages to the display.
	.PP
	The functions
	.I strtochan
	and
	.I chantostr
	convert between the channel descriptor strings
	used by
	.IR image (7)
	and the internal
	.B ulong
	representation
	used by the graphics protocol
	(see
	.IR draw (3)'s
	.B b
	message).
	.B Chantostr
	writes at most nine bytes into the buffer pointed at by
	.I s
	and returns
	.I s
	on success,
	0
	on failure.
	.B Chantodepth
	returns the number of bits per pixel used by the
	format specified by
	.IR chan .
	Both
	.B chantodepth
	and
	.B strtochan
	return 0 when presented
	with bad input.
	.SH EXAMPLES
	To reconnect to the window after a resize event,
	.IP
	.EX
	if(getwindow(display, Refnone) < 0)
	sysfatal("resize failed: %r");
	.EE
	.PP
	To create and set up a new
	.IR rio (1)
	window,
	.IP
	.EX
	Image *screen2;
	Screen *_screen2;

	srvwsys = getenv("wsys");
	if(srvwsys == nil)
	sysfatal("can't find $wsys: %r");
	rfork(RFNAMEG); /* keep mount of rio private */

	fd = open(srvwsys, ORDWR);
	if(fd < 0)
	sysfatal("can't open $wsys: %r");

	/* mount creates window; see \f2rio\fP(4) */
	if(mount(fd, -1, "/tmp", MREPL, "new -dx 300-dy 200") < 0)
	sysfatal("can't mount new window: %r");
	if(gengetwindow(display, "/tmp/winname",
	&screen2, &_screen2, Refnone) < 0)
	sysfatal("resize failed: %r");

	/* now open /tmp/cons, /tmp/mouse */
	\&...
	.EE
	.SH FILES
	.BR \*9/font/bit " directory of fonts
	.SH SOURCE
	.B \*9/src/libdraw
	.SH "SEE ALSO"
	.IR rio (1),
	.IR addpt (3),
	.IR allocimage (3),
	.IR cachechars (3),
	.IR subfont (3),
	.IR draw (3),
	.IR event (3),
	.IR frame (3),
	.IR print (3),
	.IR window (3),
	.IR draw (3),
	.\" .IR rio (4),
	.IR image (7),
	.IR font (7)
	.SH DIAGNOSTICS
	An error function may call
	.IR errstr (3)
	for further diagnostics.
	.SH BUGS
	The names
	.B clr
	and
	.B set
	in the
	.B Cursor
	structure are reminders of an archaic color map
	and might be more appropriately called
	.B white
	and
	.BR black .
	.PP
	These manual pages contain many references to
	the now-fictitious
	.BR /dev/draw .