7 ((lexed-ast (let ((ast (clnl-lexer:lex str)))
8 (format t "Via lexing, AST for~%~S~% became~%~S~%~%" str ast) ast))
9 (parsed-ast (let ((ast (clnl-parser:parse lexed-ast)))
10 (format t "Via parsing, AST for~%~S~% became~%~S~%~%" lexed-ast ast) ast))
11 (transpiled-ast (let ((ast (clnl-transpiler:transpile parsed-ast)))
12 (format t "Via transpiling, AST for~%~S~% became~%~S~%" parsed-ast ast) ast)))
13 (eval transpiled-ast)))
15 (defun p (result) result)
17 (defun run (&optional file)
18 "RUN &optional FILE => RESULT
22 FILE: nlogo file with which to initialize
23 RESULT: undefined, the system terminates at the end of the loop
27 RUN starts up the CLNL system."
31 (defvar *callback* nil)
33 (defun boot (&optional file headless-mode)
34 "BOOT &optional FILE HEADLESS-MODE => RESULT
38 FILE: nlogo file with which to initialize state
39 HEADLESS-MODE: a boolean, defaults to nil
44 BOOT does exactly that, boots the clnl system in a clean state. The seed
45 is set so that multiple runs will evaluate to the same.
47 When FILE is not provided, a default model is used.
49 When HEADLESS-MODE is set to nil, the opengl interface is initialized.
50 Otherwise, the model will run headlessly, with no view."
53 (model->single-form-lisp
54 (if file (with-open-file (str file) (clnl-model:read-from-nlogo str)) (clnl-model:default-model))
55 :initialize-interface (not headless-mode)
56 :netlogo-callback (lambda (f) (setf *callback* f))))
57 (*package* *model-package*))
58 (eval netlogoed-lisp)))
60 (defvar *commands-mutex* (sb-thread:make-mutex))
62 (defun run-commands (cmds)
63 "RUN-COMMANDS CMDS => RESULT
67 CMDS: A string that may have one more NetLogo commands
72 RUN-COMMANDS will take NetLogo commands, put them through the various
73 stages need to turn them into Common Lisp code, and run it."
75 ; This mutex is a necessary because we haven't yet moved to a job thread
76 (sb-thread:with-mutex (*commands-mutex*)
77 (clnl-nvm:with-stop-handler
78 (funcall *callback* cmds))))
80 (defun run-reporter (reporter)
81 "RUN-REPORTER REPORTER => RESULT
85 REPORTER: A string that should have only one reporter
86 RESULT: The value reported by the NVM
90 RUN-REPORTER will take a NetLogo REPORTER, put it through the various
91 stages need to turn them into Common Lisp code, run it, and return the RESULT."
92 (eval (clnl-transpiler:transpile (clnl-parser:parse (clnl-lexer:lex reporter)))))
94 ; Because prims are used both at generation time and later at runtime, certain things in
95 ; them must be escaped a little bit more, such as wrapping the whole thing in a list
96 ; primitive. This way, the output of these things looks like halfway decent lisp,
97 ; and everything works nicely. We don't want any <FUNC #> showing up or anything
98 (defun munge-prim (prim)
100 ((copied (copy-list prim)))
101 (when (getf copied :args) (setf (getf copied :args) `(quote ,(getf copied :args))))
104 (defun netlogo-callback-body (prims)
106 (clnl-transpiler:transpile
108 (clnl-lexer:lex ,(intern "NETLOGO-CODE" *model-package*))
109 (list ,@(mapcar #'munge-prim prims)))
110 (list ,@(mapcar #'munge-prim prims)))))
112 (defun create-world-call (model globals code-ast)
113 `(clnl-nvm:create-world
114 :dims ',(clnl-model:world-dimensions model)
118 `(list ,(car pair) (lambda () ,(intern (string-upcase (car pair)) *model-package*))))
120 :turtles-own-vars ',(clnl-code-parser:turtles-own-vars code-ast)
121 :patches-own-vars ',(clnl-code-parser:patches-own-vars code-ast)
122 :breeds ',(clnl-code-parser:breeds code-ast)))
124 (defun create-proc-body (proc prims)
125 `(,(intern (string-upcase (car proc)) *model-package*) ()
126 (clnl-nvm:with-stop-handler
127 ,@(cdr ; remove the progn, cuz it looks nicer
128 (clnl-transpiler:transpile (cadr proc)
131 (if (getf prim :macro) ; The reason we do this is because with macros, we want to evaluate them in
132 ; this scope while preserving them for the generational purposes below
133 (append (list :macro (eval (getf prim :macro))) prim)
137 (defun nlogo->lisp (str pkg-symb boot-fn &key (seed 15) initialize-interface netlogo-callback-fn)
139 ((model (clnl-model:read-from-nlogo str))
144 (multiple-value-bind (found external) (find-symbol (symbol-name proc-symb) :cl)
145 (when (and found (eql :external external)) proc-symb)))
147 (clnl-code-parser:procedures
148 (clnl-code-parser:parse
149 (clnl-lexer:lex (clnl-model:code model))
150 (clnl-model:widget-globals model))))))))
153 (defpackage ,pkg-symb (:use :common-lisp) (:shadow ,@shadow-symbs))
154 (,(intern "IN-PACKAGE" :cl) ,pkg-symb) ; intern because of style check
156 `(defpackage ,,pkg-symb (:use :common-lisp) (:shadow ,,@shadow-symbs))
158 ((clnl:*model-package* (find-package ,pkg-symb)))
159 (clnl:model->multi-form-lisp
161 (intern (symbol-name ',boot-fn) ,pkg-symb)
163 :initialize-interface ,initialize-interface
164 :netlogo-callback-fn ,netlogo-callback-fn)))))))
166 (setf (documentation 'nlogo->lisp 'function)
167 "NLOGO->LISP STR PKG-SYMB BOOT-FN &key SEED INITIALIZE-INTERFACE NETLOGO-CALLBACK-FN => FORMS
169 ARGUMENTS AND VALUES:
171 STR: A stream holding an nlogo file
172 PKG-SYMB: A symbol for the generated package
173 BOOT-FN: A function name
174 SEED: An integer, defaults to 15
175 INITIALIZE-INTERFACE: A boolean
176 NETLOGO-CALLBACK-FN: a symbol
177 FORMS: A list of common lisp form
181 NLOGO->LISP takes a stream STR and returns a multi form lisp program,
182 that when executed, sets up the model. See MODEL->MULTI-FORM-LISP for
185 NLOGO->LISP does extra work of setting up the package to be named by
186 PKG-SYMB in order to correctly shadow common lisp functions.
188 It will also change the current package to the one created for the model
193 (with-open-file (str \"Wolf Sheep Predation.nlogo\") (nlogo->lisp str :wolfsheep 'boot)) => (forms)")
195 (defun model->single-form-lisp (model &key (seed 15) initialize-interface netlogo-callback)
198 (clnl-code-parser:parse (clnl-lexer:lex (clnl-model:code model)) (clnl-model:widget-globals model))
202 (clnl-code-parser:globals code-ast)
203 (clnl-model:widget-globals model))))
206 (lambda (pair) `(defparameter ,(intern (string-upcase (car pair)) *model-package*) ,(cadr pair)))
210 (lambda (proc) (create-proc-body proc prims))
211 (clnl-code-parser:procedures code-ast))
212 (clnl-random:set-seed ,seed)
213 (clnl-model:set-current-interface ',(clnl-model:interface model))
214 ,@(when netlogo-callback
215 `((clnl-model:set-callback
216 (lambda (,(intern "NETLOGO-CODE" *model-package*)) ,(netlogo-callback-body prims)))))
217 ,(create-world-call model globals code-ast)
218 ,@(when netlogo-callback
219 `((funcall ,netlogo-callback
220 (lambda (,(intern "NETLOGO-CODE" *model-package*))
221 ,(netlogo-callback-body prims)))))
222 ,@(when initialize-interface
223 `((clnl-interface:initialize
224 :dims ',(clnl-model:world-dimensions model)
225 :view ',(clnl-model:view model)
226 :buttons ',(clnl-model:buttons model)))))))))
228 (setf (documentation 'model->single-form-lisp 'function)
229 "MODEL->SINGLE-FORM-LISP MODEL &key SEED INITIALIZE-INTERFACE NETLOGO-CALLBACK => FORM
231 ARGUMENTS AND VALUES:
234 SEED: An integer, defaults to 15
235 INITIALIZE-INTERFACE: A boolean
236 NETLOGO-CALLBACK: A function of one argument, or a symbol
237 FORM: A common lisp form
241 MODEL->SINGLE-FORM-LISP takes a model and returns a lisp program as a single form,
242 that when executed runs the model. The SEED passed in is used to start the
245 INITIALIZE-INTERFACE, when non nil, leads to initialization code for the
246 opengl interface being included.
248 NETLOGO-CALLBACK is a function that when called with a single argument,
249 a function that when called with netlogo code, will compile and run that
250 code in the environment of the model.
252 Of note, all globals defined either in the model code or via the widgets
253 are declared special in order to remain in the lexical environment for EVAL.")
255 (defun model->multi-form-lisp (model boot-fn &key (seed 15) initialize-interface netlogo-callback-fn)
258 (clnl-code-parser:parse (clnl-lexer:lex (clnl-model:code model)) (clnl-model:widget-globals model))
262 (clnl-model:widget-globals model)
263 (clnl-code-parser:globals code-ast))))
264 `((in-package ,(intern (package-name *model-package*) :keyword))
267 `(defvar ,(intern (string-upcase (car pair)) *model-package*) ,(cadr pair)))
270 (lambda (proc) `(defun ,@(create-proc-body proc prims)))
271 (clnl-code-parser:procedures code-ast))
273 (clnl-random:set-seed ,seed)
274 (clnl-model:set-current-interface ',(clnl-model:interface model))
275 (clnl-model:set-callback (symbol-function ',netlogo-callback-fn))
276 ,(create-world-call model globals code-ast)
277 ,@(when initialize-interface
278 `((clnl-interface:initialize
279 :dims ',(clnl-model:world-dimensions model)
280 :view ',(clnl-model:view model)
281 :buttons ',(clnl-model:buttons model)))))
282 ,@(when netlogo-callback-fn
283 `((defun ,netlogo-callback-fn (,(intern "NETLOGO-CODE" *model-package*))
284 ,(netlogo-callback-body prims))))))))
286 (setf (documentation 'model->multi-form-lisp 'function)
287 "MODEL->MULTI-FORM-LISP MODEL BOOT-FN &key SEED INITIALIZE-INTERFACE NETLOGO-CALLBACK-FN => FORMS
289 ARGUMENTS AND VALUES:
292 BOOT-FN: A function name
293 SEED: An integer, defaults to 15
294 INITIALIZE-INTERFACE: A boolean
295 NETLOGO-CALLBACK-FN: a symbol
296 FORMS: A list of common lisp form
300 MODEL->MULTI-FORM-LISP takes a model and returns a multi form lisp program,
301 that when executed, sets up the model. Procedures map to defuns, globals
302 to defvars, etc. This can be output to load up quickly later. A function
303 named by BOOT-FN will be set for booting the program.
305 The SEED passed in is used to start the clnl-random RNG.
307 INITIALIZE-INTERFACE, when non nil, leads to initialization code for the
308 opengl interface being included.
310 NETLOGO-CALLBACK-FN is a symbol that will be defined as a function
311 to be called to execute code in the running netlogo instance.")