vendor/quickutils.lisp @ 3d06e5b432c9
Start documenting
| author | Steve Losh <steve@stevelosh.com> |
|---|---|
| date | Fri, 03 Mar 2017 13:33:35 +0000 |
| parents | 3d7298dcd3ef |
| children | d6aa232e6306 |
;;;; This file was automatically generated by Quickutil. ;;;; See http://quickutil.org for details. ;;;; To regenerate: ;;;; (qtlc:save-utils-as "quickutils.lisp" :utilities '(:CURRY :ENSURE-BOOLEAN :ENSURE-LIST :FLIP :RANGE :RCURRY :RIFFLE :SPLIT-SEQUENCE) :ensure-package T :package "CHANCERY.QUICKUTILS") (eval-when (:compile-toplevel :load-toplevel :execute) (unless (find-package "CHANCERY.QUICKUTILS") (defpackage "CHANCERY.QUICKUTILS" (:documentation "Package that contains Quickutil utility functions.") (:use #:cl)))) (in-package "CHANCERY.QUICKUTILS") (when (boundp '*utilities*) (setf *utilities* (union *utilities* '(:MAKE-GENSYM-LIST :ENSURE-FUNCTION :CURRY :ENSURE-BOOLEAN :ENSURE-LIST :FLIP :RANGE :RCURRY :RIFFLE :SPLIT-SEQUENCE)))) (eval-when (:compile-toplevel :load-toplevel :execute) (defun make-gensym-list (length &optional (x "G")) "Returns a list of `length` gensyms, each generated as if with a call to `make-gensym`, using the second (optional, defaulting to `\"G\"`) argument." (let ((g (if (typep x '(integer 0)) x (string x)))) (loop repeat length collect (gensym g)))) ) ; eval-when (eval-when (:compile-toplevel :load-toplevel :execute) ;;; To propagate return type and allow the compiler to eliminate the IF when ;;; it is known if the argument is function or not. (declaim (inline ensure-function)) (declaim (ftype (function (t) (values function &optional)) ensure-function)) (defun ensure-function (function-designator) "Returns the function designated by `function-designator`: if `function-designator` is a function, it is returned, otherwise it must be a function name and its `fdefinition` is returned." (if (functionp function-designator) function-designator (fdefinition function-designator))) ) ; eval-when (defun curry (function &rest arguments) "Returns a function that applies `arguments` and the arguments it is called with to `function`." (declare (optimize (speed 3) (safety 1) (debug 1))) (let ((fn (ensure-function function))) (lambda (&rest more) (declare (dynamic-extent more)) ;; Using M-V-C we don't need to append the arguments. (multiple-value-call fn (values-list arguments) (values-list more))))) (define-compiler-macro curry (function &rest arguments) (let ((curries (make-gensym-list (length arguments) "CURRY")) (fun (gensym "FUN"))) `(let ((,fun (ensure-function ,function)) ,@(mapcar #'list curries arguments)) (declare (optimize (speed 3) (safety 1) (debug 1))) (lambda (&rest more) (apply ,fun ,@curries more))))) (defun ensure-boolean (x) "Convert `x` into a Boolean value." (and x t)) (defun ensure-list (list) "If `list` is a list, it is returned. Otherwise returns the list designated by `list`." (if (listp list) list (list list))) (defun flip (f) "Return a function whose argument order of a binary function `f` is reversed." #'(lambda (y x) (funcall f x y))) (defun range (start end &key (step 1) (key 'identity)) "Return the list of numbers `n` such that `start <= n < end` and `n = start + k*step` for suitable integers `k`. If a function `key` is provided, then apply it to each number." (assert (<= start end)) (loop :for i :from start :below end :by step :collecting (funcall key i))) (defun rcurry (function &rest arguments) "Returns a function that applies the arguments it is called with and `arguments` to `function`." (declare (optimize (speed 3) (safety 1) (debug 1))) (let ((fn (ensure-function function))) (lambda (&rest more) (declare (dynamic-extent more)) (multiple-value-call fn (values-list more) (values-list arguments))))) (defun riffle (list obj) "Insert the item `obj` in between each element of `list`." (loop :for (x . xs) :on list :collect x :when xs :collect obj)) (defun split-from-end (position-fn sequence start end count remove-empty-subseqs) (loop :for right := end :then left :for left := (max (or (funcall position-fn sequence right) -1) (1- start)) :unless (and (= right (1+ left)) remove-empty-subseqs) ; empty subseq we don't want :if (and count (>= nr-elts count)) ;; We can't take any more. Return now. :return (values (nreverse subseqs) right) :else :collect (subseq sequence (1+ left) right) into subseqs :and :sum 1 :into nr-elts :until (< left start) :finally (return (values (nreverse subseqs) (1+ left))))) (defun split-from-start (position-fn sequence start end count remove-empty-subseqs) (let ((length (length sequence))) (loop :for left := start :then (+ right 1) :for right := (min (or (funcall position-fn sequence left) length) end) :unless (and (= right left) remove-empty-subseqs) ; empty subseq we don't want :if (and count (>= nr-elts count)) ;; We can't take any more. Return now. :return (values subseqs left) :else :collect (subseq sequence left right) :into subseqs :and :sum 1 :into nr-elts :until (>= right end) :finally (return (values subseqs right))))) (macrolet ((check-bounds (sequence start end) (let ((length (gensym (string '#:length)))) `(let ((,length (length ,sequence))) (check-type ,start unsigned-byte "a non-negative integer") (when ,end (check-type ,end unsigned-byte "a non-negative integer or NIL")) (unless ,end (setf ,end ,length)) (unless (<= ,start ,end ,length) (error "Wrong sequence bounds. start: ~S end: ~S" ,start ,end)))))) (defun split-sequence (delimiter sequence &key (start 0) (end nil) (from-end nil) (count nil) (remove-empty-subseqs nil) (test #'eql) (test-not nil) (key #'identity)) "Return a list of subsequences in seq delimited by delimiter. If :remove-empty-subseqs is NIL, empty subsequences will be included in the result; otherwise they will be discarded. All other keywords work analogously to those for CL:SUBSTITUTE. In particular, the behaviour of :from-end is possibly different from other versions of this function; :from-end values of NIL and T are equivalent unless :count is supplied. The second return value is an index suitable as an argument to CL:SUBSEQ into the sequence indicating where processing stopped." (check-bounds sequence start end) (cond ((and (not from-end) (null test-not)) (split-from-start (lambda (sequence start) (position delimiter sequence :start start :key key :test test)) sequence start end count remove-empty-subseqs)) ((and (not from-end) test-not) (split-from-start (lambda (sequence start) (position delimiter sequence :start start :key key :test-not test-not)) sequence start end count remove-empty-subseqs)) ((and from-end (null test-not)) (split-from-end (lambda (sequence end) (position delimiter sequence :end end :from-end t :key key :test test)) sequence start end count remove-empty-subseqs)) ((and from-end test-not) (split-from-end (lambda (sequence end) (position delimiter sequence :end end :from-end t :key key :test-not test-not)) sequence start end count remove-empty-subseqs)))) (defun split-sequence-if (predicate sequence &key (start 0) (end nil) (from-end nil) (count nil) (remove-empty-subseqs nil) (key #'identity)) "Return a list of subsequences in seq delimited by items satisfying predicate. If :remove-empty-subseqs is NIL, empty subsequences will be included in the result; otherwise they will be discarded. All other keywords work analogously to those for CL:SUBSTITUTE-IF. In particular, the behaviour of :from-end is possibly different from other versions of this function; :from-end values of NIL and T are equivalent unless :count is supplied. The second return value is an index suitable as an argument to CL:SUBSEQ into the sequence indicating where processing stopped." (check-bounds sequence start end) (if from-end (split-from-end (lambda (sequence end) (position-if predicate sequence :end end :from-end t :key key)) sequence start end count remove-empty-subseqs) (split-from-start (lambda (sequence start) (position-if predicate sequence :start start :key key)) sequence start end count remove-empty-subseqs))) (defun split-sequence-if-not (predicate sequence &key (count nil) (remove-empty-subseqs nil) (from-end nil) (start 0) (end nil) (key #'identity)) "Return a list of subsequences in seq delimited by items satisfying \(CL:COMPLEMENT predicate). If :remove-empty-subseqs is NIL, empty subsequences will be included in the result; otherwise they will be discarded. All other keywords work analogously to those for CL:SUBSTITUTE-IF-NOT. In particular, the behaviour of :from-end is possibly different from other versions of this function; :from-end values of NIL and T are equivalent unless :count is supplied. The second return value is an index suitable as an argument to CL:SUBSEQ into the sequence indicating where processing stopped." (check-bounds sequence start end) (if from-end (split-from-end (lambda (sequence end) (position-if-not predicate sequence :end end :from-end t :key key)) sequence start end count remove-empty-subseqs) (split-from-start (lambda (sequence start) (position-if-not predicate sequence :start start :key key)) sequence start end count remove-empty-subseqs)))) (eval-when (:compile-toplevel :load-toplevel :execute) (export '(curry ensure-boolean ensure-list flip range rcurry riffle split-sequence split-sequence-if split-sequence-if-not))) ;;;; END OF quickutils.lisp ;;;;