Fix (for :within-radius ... :origin ... :skip-origin t) and add tests
author |
Steve Losh <steve@stevelosh.com> |
date |
Wed, 01 Dec 2021 23:43:54 -0500 |
parents |
e9553a14c887 |
children |
(none) |
(in-package :losh.lists)
(defun somelist (predicate list &rest more-lists)
"Call `predicate` on successive sublists of `list`, returning the first true result.
`somelist` is to `some` as `maplist` is to `mapcar`.
"
(if more-lists
(iterate
(for lists :first (cons list more-lists) :then (mapcar #'cdr lists))
(until (some #'null lists))
(thereis (apply predicate lists)))
(iterate (for l :on list)
(thereis (funcall predicate l)))))
(defun range (start end &key (step 1))
"Return a fresh list of the range `[start, end)` by `step`.
`end` can be smaller than `start`, in which case the numbers will be stepped
down instead of up.
`step` must always be a positive value, regardless of the direction of the
range.
"
(check-type step (real (0) *))
(if (<= start end)
(loop :for i :from start :below end :by step :collect i)
(loop :for i :downfrom start :above end :by step :collect i)))
(defun irange (start end &key (step 1))
"Return a fresh list of the range `[start, end]` by `step`.
`end` can be smaller than `start`, in which case the numbers will be stepped
down instead of up.
`step` must always be a positive value, regardless of the direction of the
range.
"
(check-type step (real (0) *))
(if (<= start end)
(loop :for i :from start :to end :by step :collect i)
(loop :for i :downfrom start :to end :by step :collect i)))
(defun 0.. (below)
"Return a fresh list of the range `[0, below)`."
(range 0 below))
(defun 1.. (below)
"Return a fresh list of the range `[1, below)`."
(range 1 below))
(defun 0... (to)
"Return a fresh list of the range `[0, to]`."
(irange 0 to))
(defun 1... (to)
"Return a fresh list of the range `[1, to]`."
(irange 1 to))
(declaim (inline assocar assocdr rassocar rassocdr
(setf assocar) (setf assocdr) (setf rassocar) (setf rassocdr)))
(defun assocar (item alist &rest args)
"Return the `car` of `(apply #'assoc item alist args)`."
(car (apply #'assoc item alist args)))
(defun assocdr (item alist &rest args)
"Return the `cdr` of `(apply #'assoc item alist args)`."
(cdr (apply #'assoc item alist args)))
(defun rassocar (item alist &rest args)
"Return the `car` of `(apply #'rassoc item alist args)`."
(car (apply #'rassoc item alist args)))
(defun rassocdr (item alist &rest args)
"Return the `cdr` of `(apply #'rassoc item alist args)`."
(cdr (apply #'rassoc item alist args)))
(defun (setf assocar) (new-value item alist &rest args)
"Set the `car` of `(apply #'assoc item alist args)` to `new-value`."
(setf (car (apply #'assoc item alist args)) new-value))
(defun (setf assocdr) (new-value item alist &rest args)
"Set the `cdr` of `(apply #'assoc item alist args)` to `new-value`."
(setf (cdr (apply #'assoc item alist args)) new-value))
(defun (setf rassocar) (new-value item alist &rest args)
"Set the `car` of `(apply #'rassoc item alist args)` to `new-value`."
(setf (car (apply #'rassoc item alist args)) new-value))
(defun (setf rassocdr) (new-value item alist &rest args)
"Set the `cdr` of `(apply #'rassoc item alist args)` to `new-value`."
(setf (cdr (apply #'rassoc item alist args)) new-value))