int im_readpoint( im, x, y, ink )
IMAGE *im;
int x, y;
PEL *ink;
int im_plotpoint( im, x, y, ink )
IMAGE *im;
int x, y;
PEL *ink;
int im_plotmask( im, ix, iy, ink, mask, r )
IMAGE *im;
int ix, iy;
PEL *ink;
PEL *mask;
Rect *r;
int im_paintrect( im, r, ink )
IMAGE *im;
Rect *r;
PEL *ink;
int im_fastline( im, x1, y1, x2, y2, ink )
IMAGE *im;
int x1, y1, x2, y2;
PEL *ink;
int im_fastlineuser( im, x1, y1, x2, y2,
plot_fn, client1, client2, client3 )
IMAGE *im;
int x1, y1, x2, y2;
int (*plot_fn)();
void *client1, *client2, *client3;
int plot_fn( im, x, y, client1, client2, client3 )
IMAGE *im;
int x, y;
void *client1, *client2, *client3;
int im_lineset( IMAGE *in, IMAGE *out, IMAGE *mask, IMAGE *ink,
int n, int *x1v, int *y1v, int *x2v, int *y2v )
All these functions are `in place,' that is, they write directly to the output image! Be very careful, you can destroy data.
im_plotmask(3) takes an array of 0/255s and a Rect describing the size and offset of the array. It adds (ix,iy) to the array offset, and then paint pels into all array positions which are non-zero. Rect need not lie inside the image - the function clips carefully at the edges.
im_paintrect(3) fills the rectangle described with ink. The Rect can be any size and at any position - the function clipps against the edges of the image.
im_fastline(3) is a replacement for im_line(3) which plots the specified ink in the image. The start and end points must lie entirely inside the image.
im_fastlineuser(3) does not plot points, instead it calls a user plot function for every position along the line. There is no clipping - the endpoints may be anywhere at all. Three client values are carried around and passed into the user function.
im_lineset(3) copies the image and draws a set of lines on the copy. The lines are drawn using the mask image as a brush to apply the ink image. Useful for nip2.