NAME

SYNOPSIS

#include <u.h>


#include <u.h>
#include <libc.h>
#include <draw.h>
#include <memdraw.h>

typedef struct Memdata
{
	ulong	*base;	/* allocated data pointer */
	uchar	*bdata;	/* first byte of actual data; word-aligned */
	int		ref;		/* number of Memimages using this data */
	void*	imref;	/* last image that pointed at this */
	int		allocd;	/* is this malloc'd? */
} Memdata;
enum {
	Frepl	= 1<<0,	/* is replicated */
	Fsimple	= 1<<1,	/* is 1x1 */
	Fgrey	= 1<<2,	/* is grey */
	Falpha	= 1<<3,	/* has explicit alpha */
	Fcmap	= 1<<4,	/* has cmap channel */
	Fbytes	= 1<<5,	/* has only 8-bit channels */
};
typedef struct Memimage
{
	Rectangle	r;		/* rectangle in data area, local coords */
	Rectangle	clipr;	/* clipping region */
	int		depth;	/* number of bits of storage per pixel */
	int		nchan;	/* number of channels */
	ulong	chan;	/* channel descriptions */
	Memdata	*data;	/* pointer to data */
	int		zero;	/* data->bdata+zero==&byte containing (0,0) */
	ulong	width;	/* width in words of a single scan line */
	Memlayer	*layer;	/* nil if not a layer*/
	ulong	flags;
	...
} Memimage;
typedef struct Memdrawparam
{
	Memimage	*dst;
	Rectangle	r;
	Memimage	*src;
	Rectangle	sr;
	Memimage	*mask;
	Rectangle	mr;
	...
} Memdrawparam;
int	drawdebug;

void	memimageinit(void)
ulong*	wordaddr(Memimage *i, Point p)
uchar*	byteaddr(Memimage *i, Point p)
void	memimagemove(void *from, void *to)

Memimage*	allocmemimage(Rectangle r, ulong chan)
Memimage*	allocmemimaged(Rectangle r, ulong chan, Memdata *data)
Memimage*	readmemimage(int fd)
Memimage*	creadmemimage(int fd)
int	writememimage(int fd, Memimage *i)
void	freememimage(Memimage *i)
int	memsetchan(Memimage*, ulong)

int	loadmemimage(Memimage *i, Rectangle r,
	   uchar *buf, int nbuf)
int	cloadmemimage(Memimage *i, Rectangle r,
	   uchar *buf, int nbuf)
int	unloadmemimage(Memimage *i, Rectangle r,
	   uchar *buf, int nbuf)
void	memfillcolor(Memimage *i, ulong color)

void	memarc(Memimage *dst, Point c, int a, int b, int thick,
	   Memimage *src, Point sp, int alpha, int phi, Drawop op)
void	mempoly(Memimage *dst, Point *p, int np, int end0,
	   int end1, int radius, Memimage *src, Point sp, Drawop op)
void	memellipse(Memimage *dst, Point c, int a, int b,
	   int thick, Memimage *src, Point sp, Drawop op)
void	memfillpoly(Memimage *dst, Point *p, int np, int wind,
		   Memimage *src, Point sp, Drawop op)
void	memimageline(Memimage *dst, Point p0, Point p1, int end0,
	   int end1, int radius, Memimage *src, Point sp, Drawop op)
void	memimagedraw(Memimage *dst, Rectangle r, Memimage *src,
	   Point sp, Memimage *mask, Point mp, Drawop op)

int	drawclip(Memimage *dst, Rectangle *dr, Memimage *src,
	   Point *sp, Memimage *mask, Point *mp,
	   Rectangle *sr, Rectangle *mr)
Rectangle	memlinebbox(Point p0, Point p1, int end0, int end1,
	   int radius)
int	memlineendsize(int end)

Memsubfont*	allocmemsubfont(char *name, int n, int height,
	   int ascent, Fontchar *info, Memimage *i)
Memsubfont*	openmemsubfont(char *name)
void	freememsubfont(Memsubfont *f)
Point	memsubfontwidth(Memsubfont *f, char *s)
Point	memimagestring(Memimage *dst, Point p, Memimage *color,
	    Point cp, Memsubfont *f, char *cs, Drawop op)

int	iprint(char *fmt, ...)
int	hwdraw(Memdrawparam *param)

DESCRIPTION

The r, clipr, depth, nchan, and chan structure elements are identical to the ones of the same name in the Image structure.

The flags element of the Memimage structure holds a number of bits of information about the image. In particular, it subsumes the purpose of the repl element of Image structures.

Memimageinit initializes various static data that the library depends on, as well as the replicated solid color images memopaque, memtransparent, memblack, and memwhite. It should be called before referring to any of these images and before calling any of the other library functions.

Each Memimage points at a Memdata structure that in turn points at the actual pixel data for the image. This allows multiple images to be associated with the same Memdata. The first word of the data pointed at by the base element of Memdata points back at the Memdata structure, so that in the Plan 9 kernel, the memory allocator (see Plan 9's pool(3)) can compact image memory using memimagemove.

Because images can have different coordinate systems, the zero element of the Memimage structure contains the offset that must be added to the bdata element of the corresponding Memdata structure in order to yield a pointer to the data for the pixel (0,0). Adding width machine words to this pointer moves it down one scan line. The depth element can be used to determine how to move the pointer horizontally. Note that this method works even for images whose rectangles do not include the origin, although one should only dereference pointers corresponding to pixels within the image rectangle. Wordaddr and byteaddr perform these calculations, returning pointers to the word and byte, respectively, that contain the beginning of the data for a given pixel.

Allocmemimage allocates images with a given rectangle and channel descriptor (see strtochan in creating a fresh Memdata structure and associated storage. Allocmemimaged is similar but uses the supplied Memdata structure rather than a new one. The readmemimage function reads an uncompressed bitmap from the given file descriptor, while creadmemimage reads a compressed bitmap. Writememimage writes a compressed representation of i to file descriptor fd. For more on bitmap formats, see Freememimage frees images returned by any of these routines. The Memimage structure contains some tables that are used to store precomputed values depending on the channel descriptor. Memsetchan updates the chan element of the structure as well as these tables, returning -1 if passed a bad channel descriptor.

Loadmemimage and cloadmemimage replace the pixel data for a given rectangle of an image with the given buffer of uncompressed or compressed data, respectively. When calling cloadmemimage, the buffer must contain an integral number of compressed chunks of data that exactly cover the rectangle. Unloadmemimage retrieves the uncompressed pixel data for a given rectangle of an image. All three return the number of bytes consumed on success, and -1 in case of an error.

Memfillcolor fills an image with the given color, a 32-bit number as described in

Memarc, mempoly, memellipse, memfillpoly, memimageline, and memimagedraw are identical to the arc, poly, ellipse, fillpoly, line, and gendraw, routines described in except that they operate on Memimages rather than Images. Similarly, allocmemsubfont, openmemsubfont, freememsubfont, memsubfontwidth, and memimagestring are the Memimage analogues of allocsubfont, openfont, freesubfont, strsubfontwidth, and string (see and except that they operate only on Memsubfonts rather than Fonts.

Drawclip takes the images involved in a draw operation, together with the destination rectangle dr and source and mask alignment points sp and mp, and clips them according to the clipping rectangles of the images involved. It also fills in the rectangles sr and mr with rectangles congruent to the returned destination rectangle but translated so the upper left corners are the returned sp and mp. Drawclip returns zero when the clipped rectangle is empty. Memlinebbox returns a conservative bounding box containing a line between two points with given end styles and radius. Memlineendsize calculates the extra length added to a line by attaching an end of a given style.

The hwdraw and iprint functions are no-op stubs that may be overridden by clients of the library. Hwdraw is called at each call to memimagedraw with the current request's parameters. If it can satisfy the request, it should do so and return 1. If it cannot satisfy the request, it should return 0. This allows (for instance) the kernel to take advantage of hardware acceleration. Iprint should format and print its arguments; it is given much debugging output when the global integer variable drawdebug is non-zero. In the kernel, iprint prints to a serial line rather than the screen, for obvious reasons.

SOURCE

SEE ALSO

BUGS