;;;; ;;;; Terra Nostra is a Minecraft-like survival game for the commandline. ;;;; ;;;; This file defines patches and administrates the world object. ;;;; ;;;; (c) 2018 Daniel Vedder, MIT license ;;;; (defparameter *world* NIL) (defconstant *directions* '(N NE E SE S SW W NW)) (defstruct patch (pos '(0 0)) ;position (biome NIL) (items '()) (occupant NIL)) ;; MATRIX FUNCTIONS (defun init-matrix (size) "Create a square matrix of empty patches" ;;TODO change this to arrays for performance (debugging "~&Creating a ~S/~S matrix." size size) (do ((y 0 (1+ y)) (world NIL) (row NIL NIL)) ((= y size) world) (dotimes (x size) (setf row (append row (list (make-patch :pos (list x y)))))) (setf world (append world (list row))))) (defun coord (x y &optional (world *world*)) "Return the patch at the given coordinates or NIL if out of bounds" (unless (or (< x 0) (< y 0) (> x (length world)) (> y (length world))) (nth x (nth y world)))) (defun distance (x1 y1 x2 y2) "Find the distance between two sets of coordinates" ;;Ignores Pythagoras (min (abs (- x1 x2)) (abs (- y1 y2)))) (defun closest-coords (here coord-list) "Find the closest position to 'here' from a list of coordinates" (do* ((clist coord-list (cdr clist)) (c (car clist) (car clist)) (dist (when c (distance (first here) (second here) (first c) (second c))) (when c (distance (first here) (second here) (first c) (second c)))) (mindist dist) (closest c)) ((null clist) closest) (when (< dist mindist) (setf mindist dist closest c)))) (defun opposite-dir (dir) "Return the direction opposite the input" (let ((pos (position dir *directions*))) (when pos (nth (rem (+ 4 pos) 8) *directions*)))) (defun next-dir (dir &optional (cw T)) "Get the neighbouring direction (clockwise or anticlockwise)" (let ((pos (position dir *directions*)) (diff (if cw 1 -1))) (when pos (nth (rem (+ diff pos 8) 8) *directions*)))) (defun dir2patch (herex herey therex therey) "Calculate the direction to a patch" (cond ((> herex therex) (cond ((> herey therey) 'NW) ((< herey therey) 'SW) (T 'W))) ((< herex therex) (cond ((> herey therey) 'NE) ((< herey therey) 'SE) (T 'E))) (T (cond ((> herey therey) 'N) ((< herey therey) 'S) (T NIL))))) (defun coordsindir (x y dir) "Return the coordinates in the given direction" (cond ((eq dir 'N) (list x (1- y))) ((eq dir 'NE) (list (1+ x) (1- y))) ((eq dir 'E) (list (1+ x) y)) ((eq dir 'SE) (list (1+ x) (1+ y))) ((eq dir 'S) (list x (1+ y))) ((eq dir 'SW) (list (1- x) (1+ y))) ((eq dir 'W) (list (1- x) y)) ((eq dir 'NW) (list (1- x) (1- y))) ((null dir) (list x y)) (T (error "~&Invalid direction ~S")))) (defun patchindir (x y dir &optional (world *world*)) "Return the patch in the given direction" (let* ((coords (coordsindir x y dir)) (nextx (first coords)) (nexty (second coords))) (coord nextx nexty world))) (defun neighbour (p dir &optional (world *world*)) "Return the neighbouring patch in this direction" (patchindir (first (patch-pos p)) (second (patch-pos p)) dir world)) ;; TOPOGRAPHY FUNCTIONS (defun print-topography (&optional (stream T) (world *world*)) "Print a text representation of the world and each patch's biome" (dolist (row world) (format stream "~&~A~%" (string-from-list (mapcar #'(lambda (p) (biome-char (patch-biome p))) row) "")))) (defun save-topography (file-name &optional (world *world*)) "Save the world topography as a text file" (debugging "~&Saving world to file ~A" file-name) ;debug (with-open-file (tf file-name :direction :output) (print-topography tf))) (defun generate-biomes (size-factor world) ;;XXX The maps this produces don't look as expected, but for ;; current purposes they are good enough (debugging "~&Generating biomes") ;debug (let* ((world-size (length world)) (seeds NIL) (nseeds (round (/ world-size size-factor))) (biomes (remove-first-if #'(lambda (e) (eq e 'stream)) (available-biomes)))) ;;Initialize a set of biome 'seed' coordinates (dotimes (n nseeds) (setf seeds (cons (list (random world-size) (random world-size) (random-elt biomes)) seeds))) (debugging "~&~S" seeds) ;;For each patch, calculate the closest seed and set to that biome (dotimes (x world-size) (dotimes (y world-size) (let ((b (third (closest-coords (list x y) seeds)))) (setf (patch-biome (coord x y world)) (get-biome b))))))) (defun generate-stream (x0 y0 world) (debugging "~&Generating a stream, starting at ~S/~S" x0 y0) ;debug (do* ((dir (random-elt *directions*) (if (probabilityp 60) dir (next-dir dir (random-elt '(T NIL))))) (patch (coord x0 y0 world) (neighbour patch dir world))) ((or (null patch) (eq (patch-biome patch) (get-biome 'stream)))) (setf (patch-biome patch) (get-biome 'stream)))) (defun create-world (size) (let ((world (init-matrix size))) ;;XXX magic numbers (generate-biomes 20 world) (dotimes (s (round (/ (expt size 2) 500))) (generate-stream (random size) (random size) world)) world))