* doc/lispref/sequences.texi (Seq Library): Add documentation for seq.el.
* test/automated/seq-tests.el: New file.
+2014-12-16 Nicolas Petton <petton.nicolas@gmail.com>
+
+ * sequences.texi (Seq Library): Add documentation for seq.el.
+
2014-12-15 Alan Mackenzie <acm@muc.de>
"Advice" is a mass noun. Amend text accordingly.
2014-12-09 Lars Magne Ingebrigtsen <larsi@gnus.org>
- * files.texi (Contents of Directories): Document
- directory-files-recursively.
+ * files.texi (Contents of Directories):
+ Document directory-files-recursively.
2014-12-04 Eli Zaretskii <eliz@gnu.org>
- * display.texi (Bidirectional Display): Document
- 'buffer-substring-with-bidi-context'.
+ * display.texi (Bidirectional Display):
+ Document 'buffer-substring-with-bidi-context'.
- * text.texi (Buffer Contents): Mention
- 'buffer-substring-with-bidi-context' with a cross-reference.
+ * text.texi (Buffer Contents):
+ Mention 'buffer-substring-with-bidi-context' with a cross-reference.
2014-12-02 Eli Zaretskii <eliz@gnu.org>
- * display.texi (Bidirectional Display): Document
- 'bidi-find-overridden-directionality'.
+ * display.texi (Bidirectional Display):
+ Document 'bidi-find-overridden-directionality'.
2014-11-29 Paul Eggert <eggert@cs.ucla.edu>
* processes.texi (Network Security): Made into its own section and
fleshed out.
(Network Security): Mention more NSM variables.
- (Processes): Moved the Network Security Manager stuff to the Emacs
+ (Processes): Move the Network Security Manager stuff to the Emacs
manual.
2014-11-23 Lars Magne Ingebrigtsen <larsi@gnus.org>
2014-11-18 Leo Liu <sdl.web@gmail.com>
- * functions.texi (Advising Named Functions): Document
- define-advice.
+ * functions.texi (Advising Named Functions):
+ Document define-advice.
2014-11-17 Paul Eggert <eggert@cs.ucla.edu>
2014-08-29 Dmitry Antipov <dmantipov@yandex.ru>
- * lists.texi (Functions that Rearrange Lists): Remove
- description of sort ...
+ * lists.texi (Functions that Rearrange Lists):
+ Remove description of sort ...
* sequences.texi (Sequence Functions): ... and generalize
it for sequences. Add an example.
2014-05-15 Dmitry Antipov <dmantipov@yandex.ru>
- * lists.texi (Building Cons Cells and Lists): Remove
- description of `reverse' and `'nreverse' to generalize them...
+ * lists.texi (Building Cons Cells and Lists):
+ Remove description of `reverse' and `'nreverse' to generalize them...
* sequences.texi (Sequences): ...for sequences here.
2014-05-14 Glenn Morris <rgm@gnu.org>
1998-01-30 Richard Stallman <rms@psilocin.gnu.org>
- * Makefile (SHELL): Defined.
+ * Makefile (SHELL): Define.
1998-01-27 Richard Stallman <rms@psilocin.gnu.org>
useful example of @code{sort}.
@end defun
+@cindex sequence functions in seq
+@cindex seq library
+ The @file{seq} library provides the following additional sequence
+manipulation macros and functions, prefixed with @code{seq-}. To use
+them, you need to load the @file{seq} library first.
+
+ All functions defined in the @code{seq} library are free of
+side-effects, meaning that sequence(s) passed as argument(s) to
+functions defined in @code{seq} are not modified.
+
+@defun seq-drop seq n
+ This function returns a sequence of all but the first @var{n}
+elements of the sequence @var{seq}.
+
+@var{seq} may be a list, vector or string and @var{n} must be an
+integer. The result is the same type of sequence as @var{seq}.
+
+If @var{n} is a negative integer or zero, @var{seq} is returned.
+
+@example
+@group
+(seq-drop [1 2 3 4 5 6] 3)
+@result{} [4 5 6]
+@end group
+@group
+(seq-drop "hello world" -4)
+@result{} "hello world"
+@end group
+@end example
+@end defun
+
+@defun seq-take seq n
+ This function returns a sequence of the first @var{n} elements of
+@var{seq}.
+
+@var{seq} may be a list, vector or string and @var{n} must be an
+integer. The result is the same type of sequence as @var{seq}.
+
+If @var{n} is a negative integer or zero, an empty sequence is returned.
+
+@example
+@group
+(seq-take '(1 2 3 4) 3)
+@result{} (1 2 3)
+@end group
+@group
+(seq-take [1 2 3 4] 0)
+@result{} []
+@end group
+@end example
+@end defun
+
+@defun seq-take-while pred seq
+ This function returns a sub-sequence of the successive elements of
+@var{seq} for which calling @code{pred} with that element returns
+non-nil.
+
+@var{pred} must be a one-argument function and @var{seq} may be a
+list, vector or string. The result is the same type of sequence as
+@var{seq}.
+
+If evaluating @var{pred} with the first element of @var{seq} as argument
+returns @code{nil}, an empty sequence is returned.
+
+@example
+@group
+(seq-take-while (lambda (elt) (> elt 0)) '(1 2 3 -1 -2))
+@result{} (1 2 3)
+@end group
+@group
+(seq-take-while (lambda (elt) (> elt 0)) [-1 4 6])
+@result{} []
+@end group
+@end example
+@end defun
+
+@defun seq-drop-while pred seq
+ This function returns a sub-sequence of @var{seq} from the first
+element for which calling @var{pred} with that element returns
+@code{nil}.
+
+@var{pred} must be a one-argument function and @var{seq} may be a
+list, vector or string. The result is the same type of sequence as
+@var{seq}.
+
+If evaluating @var{pred} with every element of @var{seq} returns
+@code{nil}, @var{seq} is returned.
+
+@example
+@group
+(seq-drop-while (lambda (elt) (> elt 0)) '(1 2 3 -1 -2))
+@result{} (-1 -2)
+@end group
+@group
+(seq-drop-while (lambda (elt) (< elt 0)) [1 4 6])
+@result{} [1 4 6]
+@end group
+@end example
+@end defun
+
+@defun seq-filter pred seq
+@cindex filtering sequences
+ This function returns a list of all the elements in @var{seq} for
+which calling @var{pred} with that element returns non-nil.
+
+@var{pred} must be a one-argument function and @var{seq} may be a
+list, vector or string.
+
+@example
+@group
+(seq-filter (lambda (elt) (> elt 0)) [1 -1 3 -3 5])
+@result{} (1 3 5)
+@end group
+@group
+(seq-filter (lambda (elt) (> elt 0)) '(-1 -3 -5))
+@result{} nil
+@end group
+@end example
+@end defun
+
+@defun seq-remove pred seq
+@cindex removing from sequences
+ This function returns a list of all the elements in @var{seq} for
+which calling @var{pred} with that element returns @code{nil}.
+
+@var{pred} must be a one-argument function and @var{seq} may be a
+list, vector or string.
+
+@example
+@group
+(seq-remove (lambda (elt) (> elt 0)) [1 -1 3 -3 5])
+@result{} (-1 -3)
+@end group
+@group
+(seq-remove (lambda (elt) (< elt 0)) '(-1 -3 -5))
+@result{} nil
+@end group
+@end example
+@end defun
+
+@defun seq-reduce function seq initial-value
+@cindex reducing sequences
+ This function returns the result of calling @var{function} with
+@var{initial-value} and the first element of @var{seq}, then calling
+@var{function} with that result and the second element of @var{seq},
+then with that result and the third element of @var{seq}, etc.
+
+@var{function} must be a two-arguments function and @var{seq} may be a
+list, vector or string.
+
+If @var{seq} is empty, @var{initial-value} is returned and
+@var{function} is not called.
+
+@example
+@group
+(seq-reduce #'+ [1 2 3 4] 0)
+@result{} 10
+@end group
+@group
+(seq-reduce #'+ '(1 2 3 4) 5)
+@result{} 15
+@end group
+@group
+(seq-reduce #'+ '() 3)
+@result{} 3
+@end group
+@end example
+@end defun
+
+@defun seq-some-p pred seq
+ This function returns any element in @var{seq} for which calling
+@var{pred} with that element returns non-nil. If successively calling
+@var{pred} with each element of @var{seq} always returns @code{nil},
+@code{nil} is returned.
+
+@var{pred} must be a one-argument function and @var{seq} may be a
+list, vector or string.
+
+@example
+@group
+(seq-some-p #'numberp ["abc" 1 nil])
+@result{} 1
+@end group
+@group
+(seq-some-p #'numberp ["abc" "def"])
+@result{} nil
+@end group
+@end example
+@end defun
+
+@defun seq-every-p pred seq
+ This function returns non-nil if successively calling @var{pred} with
+each element of @var{seq} always returns non-nil, @code{nil} otherwise.
+
+@var{pred} must be a one-argument function and @var{seq} may be a
+list, vector or string.
+
+@example
+@group
+(seq-every-p #'numberp [2 4 6])
+@result{} t
+@end group
+@group
+(seq-some-p #'numberp [2 4 "6"])
+@result{} nil
+@end group
+@end example
+@end defun
+
+@defun seq-empty-p seq
+ This function returns non-nil if the sequence @var{seq} is empty,
+@code{nil} otherwise.
+
+@var{seq} may be a list, vector or string.
+
+@example
+@group
+(seq-empty-p "not empty")
+@result{} nil
+@end group
+@group
+(seq-empty-p "")
+@result{} t
+@end group
+@end example
+@end defun
+
+@defun seq-count pred seq
+ This function returns the number of elements in @var{seq} for which
+calling @var{pred} with that element returns non-nil.
+
+@var{pred} must be a one-argument function and @var{seq} may be a
+list, vector or string.
+
+@example
+(seq-count (lambda (elt) (> elt 0)) [-1 2 0 3 -2])
+@result{} 2
+@end example
+@end defun
+
+@defun seq-sort pred seq
+ This function returns a sorted sequence of the elements of
+@var{seq}, comparing its elements with @var{pred}. Called with two
+elements of @var{seq}, @var{pred} should return non-nil if the first
+element should sort before the second.
+
+@var{pred} must be a two-arguments function, @var{seq} may be a list,
+vector or string.
+
+The result is a sequence of the same type as SEQ.
+@cindex sorting sequences
+@end defun
+
+@defun seq-contains-p seq elt testfn
+ This function returns the first element in @var{seq} that equals to
+@var{elt}.
+
+Equality is defined by @var{testfn} if non-nil or by @code{equal} if
+@code{nil}.
+
+@var{seq} may be a list, vector or string.
+
+@example
+@group
+(seq-contains-p '(symbol1 symbol2) 'symbol1)
+@result{} symbol1
+@end group
+@group
+(seq-contains-p '(symbol1 symbol2) 'symbol3)
+@result{} nil
+@end group
+@end example
+
+@end defun
+
+@defun seq-uniq seq testfn
+ This function returns a list of the elements of @var{seq} with
+duplicates removed. @var{testfn} is used to compare elements, or
+@code{equal} if @var{testfn} is @code{nil}.
+
+@var{testfn} must be a two-argument function or @code{nil} and
+@var{seq} may be a list, vector or string.
+
+@example
+@group
+(seq-uniq '(1 2 2 1 3))
+@result{} (1 2 3)
+@end group
+@group
+(seq-uniq '(1 2 2.0 1.0) #'=)
+@result{} [3 4]
+@end group
+@end example
+@end defun
+
+@defun seq-subseq seq start &optional end
+ This function returns a sub-sequence of @var{seq} from @var{start}
+to @var{end}. If @var{end} is omitted, it default to the length of
+@var{seq}. If @var{start} or @var{end} is negative, it counts from
+the end of @var{seq}.
+
+@var{seq} may be a list, vector or string.
+The result is the same type of sequence as @var{seq}.
+
+@example
+@group
+(seq-subseq '(1 2 3 4 5) 1)
+@result{} (2 3 4 5)
+@end group
+@group
+(seq-subseq '[1 2 3 4 5] 1 3)
+@result{} [2 3]
+@end group
+@group
+(seq-subseq '[1 2 3 4 5] -3 -1)
+@result{} [3 4]
+@end group
+@end example
+@end defun
+
+@defun seq-concatenate type &rest seqs
+ This function returns a sequence made of the concatenation of
+@var{seqs}. The result is a sequence of type @var{type}. @var{type}
+may be one of the following symbols: @code{vector}, @code{list} or
+@code{string}.
+
+@example
+@group
+(seq-concatenate 'list '(1 2) '(3 4) [5 6])
+@result{} (1 2 3 5 6)
+@end group
+@group
+(seq-concatenate 'string "Hello " "world")
+@result{} "Hello world"
+@end group
+@end example
+@end defun
+
+@defmac seq-doseq (var seq [result]) body@dots{}
+@cindex sequence iteration
+This macro is like @code{dolist}, except that @var{seq} can be a list,
+vector or string (@pxref{Iteration} for more information about the
+@code{dolist} macro).
+
+@var{seq-doseq} is primarily useful for side-effects.
+
+@example
+(seq-doseq (elt [1 2 3])
+ (print (* 2 elt)))
+ @print{}
+ @print{} 2
+ @print{}
+ @print{} 4
+ @print{}
+ @print{} 6
+ @result{} nil
+
+@end example
+@end defmac
+
@node Arrays
@section Arrays
@cindex array
+2014-12-16 Nicolas Petton <petton.nicolas@gmail.com>
+
+ * emacs-lisp/seq.el: New file.
+
2014-12-16 Stefan Monnier <monnier@iro.umontreal.ca>
* jit-lock.el (jit-lock-function): Don't defer if jit-lock-defer-time
--- /dev/null
+;;; seq.el --- Sequence manipulation functions -*- lexical-binding: t -*-
+
+;; Copyright (C) 2014 Free Software Foundation, Inc.
+
+;; Author: Nicolas Petton <petton.nicolas@gmail.com>
+;; Keywords: sequences
+;; Version: 1.0
+
+;; Maintainer: emacs-devel@gnu.org
+
+;; This file is part of GNU Emacs.
+
+;; GNU Emacs is free software: you can redistribute it and/or modify
+;; it under the terms of the GNU General Public License as published by
+;; the Free Software Foundation, either version 3 of the License, or
+;; (at your option) any later version.
+
+;; GNU Emacs is distributed in the hope that it will be useful,
+;; but WITHOUT ANY WARRANTY; without even the implied warranty of
+;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+;; GNU General Public License for more details.
+
+;; You should have received a copy of the GNU General Public License
+;; along with GNU Emacs. If not, see <http://www.gnu.org/licenses/>.
+
+;;; Commentary:
+
+;; Sequence-manipulation functions that complement basic functions
+;; provided by subr.el.
+;;
+;; All functions are prefixed with "seq-".
+;;
+;; All provided functions work on lists, strings and vectors.
+;;
+;; Functions taking a predicate or a function iterating over the
+;; sequence as argument take the function as their first argument and
+;; the sequence as their second argument. All other functions take
+;; the sequence as their first argument.
+;;
+;; All functions are tested in test/automated/seq-tests.el
+
+;;; Code:
+
+(defmacro seq-doseq (spec &rest body)
+ "Loop over a sequence.
+Similar to `dolist' but can be applied lists, strings and vectors.
+
+Evaluate BODY with VAR bound to each element of SEQ, in turn.
+Then evaluate RESULT to get return value, default nil.
+
+\(fn (VAR SEQ [RESULT]) BODY...)"
+ (declare (indent 1) (debug ((symbolp form &optional form) body)))
+ (let ((is-list (make-symbol "is-list"))
+ (seq (make-symbol "seq"))
+ (index (make-symbol "index")))
+ `(let* ((,seq ,(cadr spec))
+ (,is-list (listp ,seq))
+ (,index (if ,is-list ,seq 0)))
+ (while (if ,is-list
+ (consp ,index)
+ (< ,index (seq-length ,seq)))
+ (let ((,(car spec) (if ,is-list
+ (car ,index)
+ (seq-elt ,seq ,index))))
+ ,@body
+ (setq ,index (if ,is-list
+ (cdr ,index)
+ (+ ,index 1)))))
+ ,@(if (cddr spec)
+ `((setq ,(car spec) nil) ,@(cddr spec))))))
+
+(defun seq-drop (seq n)
+ "Return a subsequence of SEQ without its first N elements.
+The result is a sequence of the same type as SEQ.
+
+If N is a negative integer or zero, SEQ is returned."
+ (if (<= n 0)
+ seq
+ (if (listp seq)
+ (seq--drop-list seq n)
+ (let ((length (seq-length seq)))
+ (seq-subseq seq (min n length) length)))))
+
+(defun seq-take (seq n)
+ "Return a subsequence of SEQ with its first N elements.
+The result is a sequence of the same type as SEQ.
+
+If N is a negative integer or zero, an empty sequence is
+returned."
+ (if (listp seq)
+ (seq--take-list seq n)
+ (seq-subseq seq 0 (min (max n 0) (seq-length seq)))))
+
+(defun seq-drop-while (pred seq)
+ "Return a sequence, from the first element for which (PRED element) is nil, of SEQ.
+The result is a sequence of the same type as SEQ."
+ (if (listp seq)
+ (seq--drop-while-list pred seq)
+ (seq-drop seq (seq--count-successive pred seq))))
+
+(defun seq-take-while (pred seq)
+ "Return a sequence of the successive elements for which (PRED element) is non-nil in SEQ.
+The result is a sequence of the same type as SEQ."
+ (if (listp seq)
+ (seq--take-while-list pred seq)
+ (seq-take seq (seq--count-successive pred seq))))
+
+(defun seq-filter (pred seq)
+ "Return a list of all the elements for which (PRED element) is non-nil in SEQ."
+ (let ((exclude (make-symbol "exclude")))
+ (delq exclude (seq-map (lambda (elt)
+ (if (funcall pred elt)
+ elt
+ exclude))
+ seq))))
+
+(defun seq-remove (pred seq)
+ "Return a list of all the elements for which (PRED element) is nil in SEQ."
+ (seq-filter (lambda (elt) (not (funcall pred elt)))
+ seq))
+
+(defun seq-reduce (function seq initial-value)
+ "Reduce the function FUNCTION across SEQ, starting with INITIAL-VALUE.
+
+Return the result of calling FUNCTION with INITIAL-VALUE and the
+first element of SEQ, then calling FUNCTION with that result and
+the second element of SEQ, then with that result and the third
+element of SEQ, etc.
+
+If SEQ is empty, return INITIAL-VALUE and FUNCTION is not called."
+ (if (seq-empty-p seq)
+ initial-value
+ (let ((acc initial-value))
+ (seq-doseq (elt seq)
+ (setq acc (funcall function acc elt)))
+ acc)))
+
+(defun seq-some-p (pred seq)
+ "Return any element for which (PRED element) is non-nil in SEQ, nil otherwise."
+ (catch 'seq--break
+ (seq-doseq (elt seq)
+ (when (funcall pred elt)
+ (throw 'seq--break elt)))
+ nil))
+
+(defun seq-every-p (pred seq)
+ "Return non-nil if (PRED element) is non-nil for all elements of the sequence SEQ."
+ (catch 'seq--break
+ (seq-doseq (elt seq)
+ (or (funcall pred elt)
+ (throw 'seq--break nil)))
+ t))
+
+(defun seq-count (pred seq)
+ "Return the number of elements for which (PRED element) returns non-nil in seq."
+ (let ((count 0))
+ (seq-doseq (elt seq)
+ (when (funcall pred elt)
+ (setq count (+ 1 count))))
+ count))
+
+(defun seq-empty-p (seq)
+ "Return non-nil if the sequence SEQ is empty, nil otherwise."
+ (if (listp seq)
+ (null seq)
+ (= 0 (seq-length seq))))
+
+(defun seq-sort (pred seq)
+ "Return a sorted sequence comparing using PRED the elements of SEQ.
+The result is a sequence of the same type as SEQ."
+ (if (listp seq)
+ (sort (seq-copy seq) pred)
+ (let ((result (seq-sort pred (append seq nil))))
+ (cond ((stringp seq) (concat result))
+ ((vectorp seq) (vconcat result))
+ (t (error "Unsupported sequence: %s" seq))))))
+
+(defun seq-contains-p (seq elt &optional testfn)
+ "Return the first element in SEQ that equals to ELT.
+Equality is defined by TESTFN if non-nil or by `equal' if nil."
+ (seq-some-p (lambda (e)
+ (funcall (or testfn #'equal) elt e))
+ seq))
+
+(defun seq-uniq (seq &optional testfn)
+ "Return a list of the elements of SEQ with duplicates removed.
+TESTFN is used to compare elements, or `equal' if TESTFN is nil."
+ (let ((result '()))
+ (seq-doseq (elt seq)
+ (unless (seq-contains-p result elt testfn)
+ (setq result (cons elt result))))
+ (nreverse result)))
+
+(defun seq-subseq (seq start &optional end)
+ "Return the subsequence of SEQ from START to END.
+If END is omitted, it defaults to the length of the sequence.
+If START or END is negative, it counts from the end."
+ (cond ((or (stringp seq) (vectorp seq)) (substring seq start end))
+ ((listp seq)
+ (let (len)
+ (and end (< end 0) (setq end (+ end (setq len (seq-length seq)))))
+ (if (< start 0) (setq start (+ start (or len (setq len (seq-length seq))))))
+ (if (> start 0) (setq seq (nthcdr start seq)))
+ (if end
+ (let ((res nil))
+ (while (>= (setq end (1- end)) start)
+ (push (pop seq) res))
+ (nreverse res))
+ (seq-copy seq))))
+ (t (error "Unsupported sequence: %s" seq))))
+
+(defun seq-concatenate (type &rest seqs)
+ "Concatenate, into a sequence of type TYPE, the sequences SEQS.
+TYPE must be one of following symbols: vector, string or list.
+
+\n(fn TYPE SEQUENCE...)"
+ (pcase type
+ (`vector (apply #'vconcat seqs))
+ (`string (apply #'concat seqs))
+ (`list (apply #'append (append seqs '(nil))))
+ (t (error "Not a sequence type name: %s" type))))
+
+(defun seq--drop-list (list n)
+ "Optimized version of `seq-drop' for lists."
+ (while (and list (> n 0))
+ (setq list (cdr list)
+ n (1- n)))
+ list)
+
+(defun seq--take-list (list n)
+ "Optimized version of `seq-take' for lists."
+ (let ((result '()))
+ (while (and list (> n 0))
+ (setq n (1- n))
+ (push (pop list) result))
+ (nreverse result)))
+
+(defun seq--drop-while-list (pred list)
+ "Optimized version of `seq-drop-while' for lists."
+ (while (and list (funcall pred (car list)))
+ (setq list (cdr list)))
+ list)
+
+(defun seq--take-while-list (pred list)
+ "Optimized version of `seq-take-while' for lists."
+ (let ((result '()))
+ (while (and list (funcall pred (car list)))
+ (push (pop list) result))
+ (nreverse result)))
+
+(defun seq--count-successive (pred seq)
+ "Return the number of successive elements for which (PRED element) is non-nil in SEQ."
+ (let ((n 0)
+ (len (seq-length seq)))
+ (while (and (< n len)
+ (funcall pred (seq-elt seq n)))
+ (setq n (+ 1 n)))
+ n))
+
+(defalias 'seq-copy #'copy-sequence)
+(defalias 'seq-elt #'elt)
+(defalias 'seq-reverse #'reverse)
+(defalias 'seq-length #'length)
+(defalias 'seq-do #'mapc)
+(defalias 'seq-each #'seq-do)
+(defalias 'seq-map #'mapcar)
+
+(provide 'seq)
+;;; seq.el ends here
+2014-12-16 Nicolas Petton <petton.nicolas@gmail.com>
+
+ * automated/seq-tests.el: New file.
+
2014-12-16 Glenn Morris <rgm@gnu.org>
* automated/data/flymake/Makefile (check-syntax):
--- /dev/null
+;;; seq-tests.el --- Tests for sequences.el
+
+;; Copyright (C) 2014 Free Software Foundation, Inc.
+
+;; Author: Nicolas Petton <petton.nicolas@gmail.com>
+;; Maintainer: emacs-devel@gnu.org
+
+;; This file is part of GNU Emacs.
+
+;; GNU Emacs is free software: you can redistribute it and/or modify
+;; it under the terms of the GNU General Public License as published by
+;; the Free Software Foundation, either version 3 of the License, or
+;; (at your option) any later version.
+
+;; GNU Emacs is distributed in the hope that it will be useful,
+;; but WITHOUT ANY WARRANTY; without even the implied warranty of
+;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+;; GNU General Public License for more details.
+
+;; You should have received a copy of the GNU General Public License
+;; along with GNU Emacs. If not, see <http://www.gnu.org/licenses/>.
+
+;;; Commentary:
+
+;; Tests for sequences.el
+
+;;; Code:
+
+(require 'ert)
+(require 'seq)
+
+(defmacro with-test-sequences (spec &rest body)
+ "Successively bind VAR to a list, vector, and string built from SEQ.
+Evaluate BODY for each created sequence.
+
+\(fn (var seq) body)"
+ (declare (indent 1) (debug ((symbolp form) body)))
+ (let ((initial-seq (make-symbol "initial-seq")))
+ `(let ((,initial-seq ,(cadr spec)))
+ ,@(mapcar (lambda (s)
+ `(let ((,(car spec) (apply (function ,s) ,initial-seq)))
+ ,@body))
+ '(list vector string)))))
+
+(defun same-contents-p (seq1 seq2)
+ "Return t if SEQ1 and SEQ2 have the same contents, nil otherwise."
+ (equal (append seq1 '()) (append seq2 '())))
+
+(defun test-sequences-evenp (integer)
+ "Return t if INTEGER is even."
+ (eq (logand integer 1) 0))
+
+(defun test-sequences-oddp (integer)
+ "Return t if INTEGER is odd."
+ (not (test-sequences-evenp integer)))
+
+(ert-deftest test-seq-drop ()
+ (with-test-sequences (seq '(1 2 3 4))
+ (should (equal (seq-drop seq 0) seq))
+ (should (equal (seq-drop seq 1) (seq-subseq seq 1)))
+ (should (equal (seq-drop seq 2) (seq-subseq seq 2)))
+ (should (seq-empty-p (seq-drop seq 4)))
+ (should (seq-empty-p (seq-drop seq 10))))
+ (with-test-sequences (seq '())
+ (should (seq-empty-p (seq-drop seq 0)))
+ (should (seq-empty-p (seq-drop seq 1)))))
+
+(ert-deftest test-seq-take ()
+ (with-test-sequences (seq '(2 3 4 5))
+ (should (seq-empty-p (seq-take seq 0)))
+ (should (= (seq-length (seq-take seq 1)) 1))
+ (should (= (seq-elt (seq-take seq 1) 0) 2))
+ (should (same-contents-p (seq-take seq 3) '(2 3 4)))
+ (should (equal (seq-take seq 10) seq))))
+
+(ert-deftest test-seq-drop-while ()
+ (with-test-sequences (seq '(1 3 2 4))
+ (should (equal (seq-drop-while #'test-sequences-oddp seq)
+ (seq-drop seq 2)))
+ (should (equal (seq-drop-while #'test-sequences-evenp seq)
+ seq))
+ (should (seq-empty-p (seq-drop-while #'numberp seq))))
+ (with-test-sequences (seq '())
+ (should (seq-empty-p (seq-drop-while #'test-sequences-oddp seq)))))
+
+(ert-deftest test-seq-take-while ()
+ (with-test-sequences (seq '(1 3 2 4))
+ (should (equal (seq-take-while #'test-sequences-oddp seq)
+ (seq-take seq 2)))
+ (should (seq-empty-p (seq-take-while #'test-sequences-evenp seq)))
+ (should (equal (seq-take-while #'numberp seq) seq)))
+ (with-test-sequences (seq '())
+ (should (seq-empty-p (seq-take-while #'test-sequences-oddp seq)))))
+
+(ert-deftest test-seq-filter ()
+ (with-test-sequences (seq '(6 7 8 9 10))
+ (should (equal (seq-filter #'test-sequences-evenp seq) '(6 8 10)))
+ (should (equal (seq-filter #'test-sequences-oddp seq) '(7 9)))
+ (should (equal (seq-filter (lambda (elt) nil) seq) '())))
+ (with-test-sequences (seq '())
+ (should (equal (seq-filter #'test-sequences-evenp seq) '()))))
+
+(ert-deftest test-seq-remove ()
+ (with-test-sequences (seq '(6 7 8 9 10))
+ (should (equal (seq-remove #'test-sequences-evenp seq) '(7 9)))
+ (should (equal (seq-remove #'test-sequences-oddp seq) '(6 8 10)))
+ (should (same-contents-p (seq-remove (lambda (elt) nil) seq) seq)))
+ (with-test-sequences (seq '())
+ (should (equal (seq-remove #'test-sequences-evenp seq) '()))))
+
+(ert-deftest test-seq-count ()
+ (with-test-sequences (seq '(6 7 8 9 10))
+ (should (equal (seq-count #'test-sequences-evenp seq) 3))
+ (should (equal (seq-count #'test-sequences-oddp seq) 2))
+ (should (equal (seq-count (lambda (elt) nil) seq) 0)))
+ (with-test-sequences (seq '())
+ (should (equal (seq-count #'test-sequences-evenp seq) 0))))
+
+(ert-deftest test-seq-reduce ()
+ (with-test-sequences (seq '(1 2 3 4))
+ (should (= (seq-reduce #'+ seq 0) 10))
+ (should (= (seq-reduce #'+ seq 5) 15)))
+ (with-test-sequences (seq '())
+ (should (eq (seq-reduce #'+ seq 0) 0))
+ (should (eq (seq-reduce #'+ seq 7) 7))))
+
+(ert-deftest test-seq-some-p ()
+ (with-test-sequences (seq '(4 3 2 1))
+ (should (= (seq-some-p #'test-sequences-evenp seq) 4))
+ (should (= (seq-some-p #'test-sequences-oddp seq) 3))
+ (should-not (seq-some-p (lambda (elt) (> elt 10)) seq)))
+ (with-test-sequences (seq '())
+ (should-not (seq-some-p #'test-sequences-oddp seq))))
+
+(ert-deftest test-seq-contains-p ()
+ (with-test-sequences (seq '(3 4 5 6))
+ (should (seq-contains-p seq 3))
+ (should-not (seq-contains-p seq 7)))
+ (with-test-sequences (seq '())
+ (should-not (seq-contains-p seq 3))
+ (should-not (seq-contains-p seq nil))))
+
+(ert-deftest test-seq-every-p ()
+ (with-test-sequences (seq '(43 54 22 1))
+ (should (seq-every-p (lambda (elt) t) seq))
+ (should-not (seq-every-p #'test-sequences-oddp seq))
+ (should-not (seq-every-p #'test-sequences-evenp seq)))
+ (with-test-sequences (seq '(42 54 22 2))
+ (should (seq-every-p #'test-sequences-evenp seq))
+ (should-not (seq-every-p #'test-sequences-oddp seq)))
+ (with-test-sequences (seq '())
+ (should (seq-every-p #'identity seq))
+ (should (seq-every-p #'test-sequences-evenp seq))))
+
+(ert-deftest test-seq-empty-p ()
+ (with-test-sequences (seq '(0))
+ (should-not (seq-empty-p seq)))
+ (with-test-sequences (seq '(0 1 2))
+ (should-not (seq-empty-p seq)))
+ (with-test-sequences (seq '())
+ (should (seq-empty-p seq))))
+
+(ert-deftest test-seq-sort ()
+ (should (equal (seq-sort #'< "cbaf") "abcf"))
+ (should (equal (seq-sort #'< '(2 1 9 4)) '(1 2 4 9)))
+ (should (equal (seq-sort #'< [2 1 9 4]) [1 2 4 9]))
+ (should (equal (seq-sort #'< "") "")))
+
+(ert-deftest test-seq-uniq ()
+ (with-test-sequences (seq '(2 4 6 8 6 4 3))
+ (should (equal (seq-uniq seq) '(2 4 6 8 3))))
+ (with-test-sequences (seq '(3 3 3 3 3))
+ (should (equal (seq-uniq seq) '(3))))
+ (with-test-sequences (seq '())
+ (should (equal (seq-uniq seq) '()))))
+
+(ert-deftest test-seq-subseq ()
+ (with-test-sequences (seq '(2 3 4 5))
+ (should (equal (seq-subseq seq 0 4) seq))
+ (should (same-contents-p (seq-subseq seq 2 4) '(4 5)))
+ (should (same-contents-p (seq-subseq seq 1 3) '(3 4)))
+ (should (same-contents-p (seq-subseq seq 1 -1) '(3 4))))
+ (should (vectorp (seq-subseq [2 3 4 5] 2)))
+ (should (stringp (seq-subseq "foo" 2 3)))
+ (should (listp (seq-subseq '(2 3 4 4) 2 3))))
+
+(ert-deftest test-seq-concatenate ()
+ (with-test-sequences (seq '(2 4 6))
+ (should (equal (seq-concatenate 'string seq [8]) (string 2 4 6 8)))
+ (should (equal (seq-concatenate 'list seq '(8 10)) '(2 4 6 8 10)))
+ (should (equal (seq-concatenate 'vector seq '(8 10)) [2 4 6 8 10]))
+ (should (equal (seq-concatenate 'vector nil '(8 10)) [8 10]))
+ (should (equal (seq-concatenate 'vector seq nil) [2 4 6]))))
+
+(provide 'seq-tests)
+;;; seq-tests.el ends here