-(in-package :parenscript)
-
-(defun compile-script (script-form &key (output-stream nil))
- "Compiles the Parenscript form SCRIPT-FORM into Javascript.
-Non-null PRETTY-PRINT values result in a pretty-printed output code.
-If OUTPUT-STREAM is NIL, then the result is a string; otherwise code
-is output to the OUTPUT-STREAM stream."
- (parenscript-print (compile-parenscript-form script-form :expecting :statement) output-stream))
-
-(defmacro ps (&body body)
- "A macro that returns a Javascript string of the supplied Parenscript forms."
- `(ps* '(progn ,@body)))
-
-(defun ps* (&rest body)
- "Compiles BODY to a JavaScript string.
-Body is evaluated."
- (compile-script `(progn ,@body)))
-
-(defun ps-inline* (form &optional (quote-char #\"))
- (let ((*js-quote-char* quote-char))
- (concatenate 'string
- "javascript:"
- (remove #\Newline
- (parenscript-print (compile-parenscript-form form :expecting :statement))
- :from-end t))))
-
-(defmacro ps-inline (form &optional (quote-char #\"))
- `(ps-inline* ',form ,quote-char))
+(in-package "PARENSCRIPT")
+
+(defparameter *js-target-version* 1.3)
+
+(defmacro ps (&body body)
+ "Given Parenscript forms (an implicit progn), compiles those forms
+to a JavaScript string at macro-expansion time."
+ `(concatenate 'string ,@(parenscript-print (compile-parenscript-form `(progn ,@body) :expecting :statement))))
+
+(defun ps* (&rest body)
+ "Compiles BODY to a JavaScript string.
+Body is evaluated."
+ (compiled-form-to-string (compile-parenscript-form `(progn ,@body) :expecting :statement)))
+
+(defmacro ps-doc (&body body)
+ "Expands Parenscript forms in a clean environment."
+ (let ((*ps-gensym-counter* 0)
+ (*ps-special-variables* nil))
+ (macroexpand-1 `(ps ,@body))))
+
+(defun ps-doc* (ps-form)
+ (let ((*ps-gensym-counter* 0)
+ (*ps-special-variables* nil))
+ (ps* ps-form)))
+
+(defun compiled-form-to-string (ps-compiled-form)
+ (with-output-to-string (s)
+ (dolist (x (parenscript-print ps-compiled-form))
+ (write-string (if (stringp x) x (eval x)) s))))
+
+(defvar *js-inline-string-delimiter* #\"
+ "Controls the string delimiter char used when compiling Parenscript in ps-inline.")
+
+(defun ps-inline* (form &optional (*js-string-delimiter* *js-inline-string-delimiter*))
+ (concatenate 'string "javascript:" (ps* form)))
+
+(defmacro/ps ps-inline (form &optional (string-delimiter *js-inline-string-delimiter*))
+ `(concatenate 'string "javascript:"
+ ,@(let ((*js-string-delimiter* string-delimiter))
+ (parenscript-print (compile-parenscript-form form :expecting :statement)))))
+
+(defvar *ps-read-function* #'read
+ "This should be a function that takes the same inputs and returns the same
+outputs as the common lisp read function. We declare it as a variable to allow
+a user-supplied reader instead of the default lisp reader.")
+
+(defun ps-compile-stream (stream)
+ "Compiles a source stream as if it were a file. Outputs a Javascript string."
+ (let ((*ps-compilation-level* :toplevel)
+ (*package* *package*)
+ (end-read-form '#:unique))
+ (flet ((read-form () (funcall *ps-read-function* stream nil end-read-form)))
+ (let* ((js-string
+ ;; cons up the forms, compiling as we go, and print the result
+ (do ((form (read-form) (read-form))
+ (compiled-forms nil))
+ ((eql form end-read-form)
+ (format nil "~{~A~^;~%~}"
+ (remove-if
+ #'(lambda (x) (or (null x) (= 0 (length x))))
+ (mapcar 'compiled-form-to-string (nreverse compiled-forms)))))
+ (push (compile-parenscript-form form :expecting :statement) compiled-forms))))
+ js-string))))
+
+(defun ps-compile-file (source-file)
+ "Compiles the given Parenscript source file and returns a Javascript string."
+ (with-open-file (stream source-file :direction :input)
+ (ps-compile-stream stream)))