;;;; canvas-language.lisp -- a drawing api for canvas instances (in-package #:wheelwork) (defvar *current-canvas* nil) (defvar *current-pen-color* '(0 0 0 255)) (defvar *current-pen-width* 1) (defvar *current-pen-position* '(0 0)) (defvar *saved-state* nil) (defmacro with-current-pen ( &body body) "Saves the current pen state (color width position) so that it can be restored from using (restore-pen-state) from within the BODY. After BODY executes the state is restored to whatever it was before WITH-CURRENT-PEN was evaluated." `(let ((*saved-state* (list *current-pen-width* *current-pen-position* *current-pen-color*))) ,@body)) (defmacro with-pen ((&key position (color nil color-supplied-p) width) &body body) "Like WITH-CURRENT-PEN, but lets you set the state of the pen EXECUTION BODY. After BODY executes, the state is restored to whatever it was before WITH-PEN-STATE was evaluated." `(let ((*current-pen-position* ,(if position nil '*current-pen-position*)) (*current-pen-color* ,(if color-supplied-p nil '*current-pen-color*)) (*current-pen-width* ,(if width nil '*current-pen-width*))) ,(when position `(move-to ,@position)) ,(when color-supplied-p `(canvas-pen-color ,color)) ,(when width `(canvas-pen-width ,width)) (with-current-pen ,@body))) (defmacro with-canvas (canvas &body body) "Perform drawing commands in BODY using the value of CANVAS as the target of any drawing operations." `(let ((*current-canvas* ,canvas) (*current-pen-width* 1) (*current-pen-position* (list 0 0)) (*current-pen-color* (list 0 0 0 255))) (with-current-pen ,@body))) (defun restore-pen () "Restore the state of the pan (width position color) as previously saved by WITH-PEN-STATE" (destructuring-bind (pw pp pc) *saved-state* (setf *current-pen-width* pw *current-pen-position* pp *current-pen-color* pc))) (defun colfix (c) (round (clamp 0 c 255))) (defun canvas-pen-color (&optional newpen) "Set the pens color in the current context. NEWPEN, if supplied, can be one of: NIL - set the color to black. A list of four unsigned 8 bit integers that looks like (R G B A). A function (or symbol naming a function) that accepts the coordinates X Y of the pixel being drawn and returns a list as in the above case. All RGBA component values obtained from a pen (either from the return of a functional pen or as members of a list value) are clamped between 0 and 255." (setf *current-pen-color* (etypecase newpen (null nil) ((or symbol function) (lambda (x y) (mapcar #'colfix (funcall newpen x y)))) (list (mapcar #'colfix newpen))))) (defun canvas-pen-width (n) "Set the cavnas pen width. This is approximately how many pixels wide a line drawn with the pen will be. If N is not a positive integer." (setf *current-pen-width* n)) (defun can-fill-canvas-at-p (x y) (with-slots (pixel-width pixel-height) *current-canvas* (and (< -1 x pixel-width) (< -1 y pixel-height)))) (defun rel-to-current-pos (path) (destructuring-bind (cx cy) *current-pen-position* (loop for (x y) in path collect (list (+ cx x) (+ cy y))))) (defun move-pen-to (x y) "Sets the pen's position without drawing. " (setf *current-pen-position* (list x y))) (defun move-pen-rel (dx dy) "Moves the current pen by dx dy." (setf *current-pen-position* (mapcar #'+ *current-pen-position* (list dx dy)))) (defun apply-pen-at (x y) "Draws the pen onto the canvas at the location X Y. If the pen width is 1 the just one pixel is drawn. If 2 then 4 are drawn, and so on. " (let ((w (max 0 (1- *current-pen-width*)))) (destructuring-bind (cr cg cb ca) (etypecase *current-pen-color* (null (list 0 0 0 255)) (list *current-pen-color*) (function (funcall *current-pen-color* x y))) (with-grid-rect (rx ry) (x y (+ x w) (+ y w)) (when (can-fill-canvas-at-p rx ry) (with-pixel (r g b a) (pixel *current-canvas* rx ry) (setf r cr g cg b cb a ca))))))) (defun stroke-to (ex ey) "Draw a line from the current pen position to EX EY." (destructuring-bind (sx sy) *current-pen-position* (with-grid-line (x y) (sx sy) (ex ey) (apply-pen-at x y))) (setf *current-pen-position* (list ex ey))) (defun stroke-rel (dx dy) "Draw a line from the current pen position to a distance DX DY away." (apply #'stroke-to (mapcar #'+ *current-pen-position* (list dx dy)))) (defun stroke-path (path) "Draw a path. PATH is a list of (X Y) points. The pen is moved to the first point and then each point is connnected. At last, the pen's position is set to the last point. " (with-grid-path (x y) (path) (apply-pen-at x y)) (setf *current-pen-position* (copy-list (first (last path))))) (defun stroke-rel-path (path) "Draw a path starting at the current point. PATH is a list of DX DY values, each of which is relative to the current position of the PEN. If you are looking for a function where each subsequent point moves the pen relative to its antecedent, look at STROKE-STEPS" (stroke-path (cons *current-pen-position* (rel-to-current-pos path)))) (defun steps-to-concrete-points (steps) (loop with (cx cy) = *current-pen-position* for (dx dy) in steps do (incf cx dx) (incf cy dy) collect (list cx cy))) (defun stroke-steps (steps) "STEPS is a list of (dx dy) steps. The pen starts at the current positoin and draws a path, each step on the path moves the pen dx dy from its then current location." (stroke-path (cons *current-pen-position* (steps-to-concrete-points steps)))) (defun fill-path (path) "Draws path as a closed polygon (implicitly connecting the first and last points in PATH)." (let ((*current-pen-width* 1)) (with-grid-path (x y) (path :interiorp t) (apply-pen-at x y)))) (defun fill-steps (steps) "Like STROKE-STEPS but implicitly connects the first and last points to be drawn and fills the resulting polygon in with the current pen." (fill-path (cons *current-pen-position* (steps-to-concrete-points steps)))) (defun fill-rel-path (path) "See STROKE-REL-PATH." (fill-path (cons *current-pen-position* (rel-to-current-pos path)))) (defun stroke-rect (left bottom right top) "Draws a rectangle." (stroke-path (list (list left bottom) (list left top) (list right top) (list right bottom) (list left bottom)))) (defun stroke-rel-rect (dx dy) "Draws a rectangle relative to the current position." (destructuring-bind (sx sy) *current-pen-position* (let ((left (if (plusp dx) sx (+ sx dx))) (right (if (plusp dx) (+ sx dx) sx)) (bottom (if (plusp dy) sy (+ sy dy))) (top (if (plusp dy) (+ sy dy) sy))) (stroke-rect left bottom right top)))) (defun fill-rect (left bottom right top) "Fills in a rectangle." (let ((*current-pen-width* 1)) (with-grid-rect (x y) (left bottom right top) (apply-pen-at x y))) (setf *current-pen-position* (list left bottom))) (defun fill-rel-rect (dx dy) "Fills in a rectangle relative to current position." (destructuring-bind (sx sy) *current-pen-position* (let ((left (if (plusp dx) sx (+ sx dx))) (right (if (plusp dx) (+ sx dx) sx)) (bottom (if (plusp dy) sy (+ sy dy))) (top (if (plusp dy) (+ sy dy) sy))) (fill-rect left bottom right top)))) (defun stroke-bezier (control-pts &optional (curve-samples 10)) "Draws a bezier curve with control points CONTROL-PTS. CURVE-SAMPLES is the number of points on the 'real bezier curve' that will be connected by straight lines to form an approximate curve. Use a higher value for smoother looking curves." (let (path) (with-grid-bezier (x y) (control-pts :count curve-samples) (push (list x y) path)) (stroke-path (reverse path)))) (defun stroke-rel-bezier (rel-control-points &optional (curve-samples 10)) "Like STROKE-BEZIER but REL-CONTROL-POINTS are (DX DY) that represent the position of control points relative to the current pen position." (stroke-bezier (cons *current-pen-position* (rel-to-current-pos rel-control-points)) curve-samples)) (defun fill-bezier (control-pts &optional (curve-samples 10)) "Like STROKE-BEZIER but will implicitly connect the first and last curve sample points and fill in the resulting polygon." (let (path) (with-grid-bezier (x y) (control-pts :count curve-samples) (push (list x y) path)) (fill-path (reverse path)))) (defun fill-rel-bezier (rel-control-points &optional (curve-samples 10)) "Like STROKE-REL-BEZIER and FILL-BEZIER." (fill-bezier (cons *current-pen-position* (rel-to-current-pos rel-control-points)) curve-samples))