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569 lines
20 KiB
EmacsLisp
569 lines
20 KiB
EmacsLisp
;;; seq.el --- Sequence manipulation functions -*- lexical-binding: t -*-
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;; Copyright (C) 2014-2019 Free Software Foundation, Inc.
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;; Author: Nicolas Petton <nicolas@petton.fr>
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;; Keywords: sequences
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;; Version: 2.21
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;; Package: seq
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;; Maintainer: emacs-devel@gnu.org
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;; This file is part of GNU Emacs.
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;; GNU Emacs is free software: you can redistribute it and/or modify
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;; it under the terms of the GNU General Public License as published by
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;; the Free Software Foundation, either version 3 of the License, or
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;; (at your option) any later version.
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;; GNU Emacs is distributed in the hope that it will be useful,
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;; but WITHOUT ANY WARRANTY; without even the implied warranty of
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;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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;; GNU General Public License for more details.
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;; You should have received a copy of the GNU General Public License
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;; along with GNU Emacs. If not, see <https://www.gnu.org/licenses/>.
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;;; Commentary:
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;; Sequence-manipulation functions that complement basic functions
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;; provided by subr.el.
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;;
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;; All functions are prefixed with "seq-".
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;;
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;; All provided functions work on lists, strings and vectors.
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;;
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;; Functions taking a predicate or iterating over a sequence using a
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;; function as argument take the function as their first argument and
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;; the sequence as their second argument. All other functions take
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;; the sequence as their first argument.
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;;
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;; While seq.el version 1.8 is in GNU ELPA for convenience, seq.el
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;; version 2.0 requires Emacs>=25.1.
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;;
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;; seq.el can be extended to support new type of sequences. Here are
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;; the generic functions that must be implemented by new seq types:
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;; - `seq-elt'
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;; - `seq-length'
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;; - `seq-do'
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;; - `seqp'
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;; - `seq-subseq'
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;; - `seq-into-sequence'
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;; - `seq-copy'
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;; - `seq-into'
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;;
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;; All functions are tested in test/lisp/emacs-lisp/seq-tests.el
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;;; Code:
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(eval-when-compile (require 'cl-generic))
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(require 'cl-lib) ;; for cl-subseq
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(defmacro seq-doseq (spec &rest body)
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"Loop over a sequence.
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Evaluate BODY with VAR bound to each element of SEQUENCE, in turn.
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Similar to `dolist' but can be applied to lists, strings, and vectors.
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\(fn (VAR SEQUENCE) BODY...)"
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(declare (indent 1) (debug ((symbolp form &optional form) body)))
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`(seq-do (lambda (,(car spec))
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,@body)
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,(cadr spec)))
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(pcase-defmacro seq (&rest patterns)
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"Build a `pcase' pattern that matches elements of SEQUENCE.
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The `pcase' pattern will match each element of PATTERNS against the
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corresponding element of SEQUENCE.
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Extra elements of the sequence are ignored if fewer PATTERNS are
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given, and the match does not fail."
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`(and (pred seqp)
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,@(seq--make-pcase-bindings patterns)))
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(defmacro seq-let (args sequence &rest body)
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"Bind the variables in ARGS to the elements of SEQUENCE, then evaluate BODY.
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ARGS can also include the `&rest' marker followed by a variable
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name to be bound to the rest of SEQUENCE."
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(declare (indent 2) (debug (sexp form body)))
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`(pcase-let ((,(seq--make-pcase-patterns args) ,sequence))
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,@body))
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;;; Basic seq functions that have to be implemented by new sequence types
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(cl-defgeneric seq-elt (sequence n)
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"Return Nth element of SEQUENCE."
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(elt sequence n))
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;; Default gv setters for `seq-elt'.
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;; It can be a good idea for new sequence implementations to provide a
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;; "gv-setter" for `seq-elt'.
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(cl-defmethod (setf seq-elt) (store (sequence array) n)
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(aset sequence n store))
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(cl-defmethod (setf seq-elt) (store (sequence cons) n)
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(setcar (nthcdr n sequence) store))
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(cl-defgeneric seq-length (sequence)
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"Return the number of elements of SEQUENCE."
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(length sequence))
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(defun seq-first (sequence)
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"Return the first element of SEQUENCE."
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(seq-elt sequence 0))
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(defun seq-rest (sequence)
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"Return a sequence of the elements of SEQUENCE except the first one."
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(seq-drop sequence 1))
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(cl-defgeneric seq-do (function sequence)
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"Apply FUNCTION to each element of SEQUENCE, presumably for side effects.
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Return SEQUENCE."
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(mapc function sequence))
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(defalias 'seq-each #'seq-do)
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(defun seq-do-indexed (function sequence)
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"Apply FUNCTION to each element of SEQUENCE and return nil.
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Unlike `seq-map', FUNCTION takes two arguments: the element of
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the sequence, and its index within the sequence."
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(let ((index 0))
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(seq-do (lambda (elt)
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(funcall function elt index)
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(setq index (1+ index)))
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sequence)))
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(cl-defgeneric seqp (object)
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"Return non-nil if OBJECT is a sequence, nil otherwise."
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(sequencep object))
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(cl-defgeneric seq-copy (sequence)
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"Return a shallow copy of SEQUENCE."
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(copy-sequence sequence))
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(cl-defgeneric seq-subseq (sequence start &optional end)
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"Return the sequence of elements of SEQUENCE from START to END.
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END is exclusive.
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If END is omitted, it defaults to the length of the sequence. If
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START or END is negative, it counts from the end. Signal an
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error if START or END are outside of the sequence (i.e too large
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if positive or too small if negative)."
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(cl-subseq sequence start end))
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(cl-defgeneric seq-map (function sequence)
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"Return the result of applying FUNCTION to each element of SEQUENCE."
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(let (result)
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(seq-do (lambda (elt)
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(push (funcall function elt) result))
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sequence)
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(nreverse result)))
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(defun seq-map-indexed (function sequence)
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"Return the result of applying FUNCTION to each element of SEQUENCE.
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Unlike `seq-map', FUNCTION takes two arguments: the element of
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the sequence, and its index within the sequence."
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(let ((index 0))
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(seq-map (lambda (elt)
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(prog1
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(funcall function elt index)
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(setq index (1+ index))))
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sequence)))
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;; faster implementation for sequences (sequencep)
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(cl-defmethod seq-map (function (sequence sequence))
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(mapcar function sequence))
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(cl-defgeneric seq-mapn (function sequence &rest sequences)
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"Like `seq-map' but FUNCTION is mapped over all SEQUENCES.
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The arity of FUNCTION must match the number of SEQUENCES, and the
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mapping stops on the shortest sequence.
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Return a list of the results.
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\(fn FUNCTION SEQUENCES...)"
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(let ((result nil)
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(sequences (seq-map (lambda (s)
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(seq-into s 'list))
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(cons sequence sequences))))
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(while (not (memq nil sequences))
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(push (apply function (seq-map #'car sequences)) result)
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(setq sequences (seq-map #'cdr sequences)))
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(nreverse result)))
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(cl-defgeneric seq-drop (sequence n)
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"Remove the first N elements of SEQUENCE and return the result.
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The result is a sequence of the same type as SEQUENCE.
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If N is a negative integer or zero, SEQUENCE is returned."
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(if (<= n 0)
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sequence
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(let ((length (seq-length sequence)))
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(seq-subseq sequence (min n length) length))))
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(cl-defgeneric seq-take (sequence n)
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"Take the first N elements of SEQUENCE and return the result.
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The result is a sequence of the same type as SEQUENCE.
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If N is a negative integer or zero, an empty sequence is
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returned."
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(seq-subseq sequence 0 (min (max n 0) (seq-length sequence))))
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(cl-defgeneric seq-drop-while (pred sequence)
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"Remove the successive elements of SEQUENCE for which PRED returns non-nil.
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PRED is a function of one argument. The result is a sequence of
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the same type as SEQUENCE."
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(seq-drop sequence (seq--count-successive pred sequence)))
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(cl-defgeneric seq-take-while (pred sequence)
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"Take the successive elements of SEQUENCE for which PRED returns non-nil.
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PRED is a function of one argument. The result is a sequence of
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the same type as SEQUENCE."
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(seq-take sequence (seq--count-successive pred sequence)))
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(cl-defgeneric seq-empty-p (sequence)
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"Return non-nil if the SEQUENCE is empty, nil otherwise."
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(= 0 (seq-length sequence)))
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(cl-defgeneric seq-sort (pred sequence)
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"Sort SEQUENCE using PRED as comparison function.
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The result is a sequence of the same type as SEQUENCE."
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(let ((result (seq-sort pred (append sequence nil))))
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(seq-into result (type-of sequence))))
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(cl-defmethod seq-sort (pred (list list))
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(sort (seq-copy list) pred))
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(defun seq-sort-by (function pred sequence)
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"Sort SEQUENCE using PRED as a comparison function.
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Elements of SEQUENCE are transformed by FUNCTION before being
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sorted. FUNCTION must be a function of one argument."
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(seq-sort (lambda (a b)
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(funcall pred
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(funcall function a)
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(funcall function b)))
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sequence))
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(cl-defgeneric seq-reverse (sequence)
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"Return a sequence with elements of SEQUENCE in reverse order."
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(let ((result '()))
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(seq-map (lambda (elt)
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(push elt result))
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sequence)
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(seq-into result (type-of sequence))))
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;; faster implementation for sequences (sequencep)
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(cl-defmethod seq-reverse ((sequence sequence))
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(reverse sequence))
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(cl-defgeneric seq-concatenate (type &rest sequences)
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"Concatenate SEQUENCES into a single sequence of type TYPE.
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TYPE must be one of following symbols: vector, string or list.
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\n(fn TYPE SEQUENCE...)"
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(apply #'cl-concatenate type (seq-map #'seq-into-sequence sequences)))
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(cl-defgeneric seq-into-sequence (sequence)
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"Convert SEQUENCE into a sequence.
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The default implementation is to signal an error if SEQUENCE is not a
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sequence, specific functions should be implemented for new types
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of sequence."
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(unless (sequencep sequence)
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(error "Cannot convert %S into a sequence" sequence))
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sequence)
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(cl-defgeneric seq-into (sequence type)
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"Concatenate the elements of SEQUENCE into a sequence of type TYPE.
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TYPE can be one of the following symbols: vector, string or
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list."
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(pcase type
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(`vector (seq--into-vector sequence))
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(`string (seq--into-string sequence))
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(`list (seq--into-list sequence))
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(_ (error "Not a sequence type name: %S" type))))
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(cl-defgeneric seq-filter (pred sequence)
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"Return a list of all the elements for which (PRED element) is non-nil in SEQUENCE."
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(let ((exclude (make-symbol "exclude")))
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(delq exclude (seq-map (lambda (elt)
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(if (funcall pred elt)
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elt
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exclude))
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sequence))))
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(cl-defgeneric seq-remove (pred sequence)
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"Return a list of all the elements for which (PRED element) is nil in SEQUENCE."
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(seq-filter (lambda (elt) (not (funcall pred elt)))
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sequence))
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(cl-defgeneric seq-reduce (function sequence initial-value)
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"Reduce the function FUNCTION across SEQUENCE, starting with INITIAL-VALUE.
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Return the result of calling FUNCTION with INITIAL-VALUE and the
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first element of SEQUENCE, then calling FUNCTION with that result and
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the second element of SEQUENCE, then with that result and the third
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element of SEQUENCE, etc.
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If SEQUENCE is empty, return INITIAL-VALUE and FUNCTION is not called."
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(if (seq-empty-p sequence)
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initial-value
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(let ((acc initial-value))
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(seq-doseq (elt sequence)
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(setq acc (funcall function acc elt)))
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acc)))
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(cl-defgeneric seq-every-p (pred sequence)
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"Return non-nil if (PRED element) is non-nil for all elements of SEQUENCE."
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(catch 'seq--break
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(seq-doseq (elt sequence)
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(or (funcall pred elt)
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(throw 'seq--break nil)))
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t))
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(cl-defgeneric seq-some (pred sequence)
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"Return non-nil if PRED is satisfied for at least one element of SEQUENCE.
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If so, return the first non-nil value returned by PRED."
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(catch 'seq--break
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(seq-doseq (elt sequence)
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(let ((result (funcall pred elt)))
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(when result
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(throw 'seq--break result))))
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nil))
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(cl-defgeneric seq-find (pred sequence &optional default)
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"Return the first element for which (PRED element) is non-nil in SEQUENCE.
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If no element is found, return DEFAULT.
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Note that `seq-find' has an ambiguity if the found element is
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identical to DEFAULT, as it cannot be known if an element was
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found or not."
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(catch 'seq--break
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(seq-doseq (elt sequence)
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(when (funcall pred elt)
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(throw 'seq--break elt)))
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default))
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(cl-defgeneric seq-count (pred sequence)
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"Return the number of elements for which (PRED element) is non-nil in SEQUENCE."
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(let ((count 0))
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(seq-doseq (elt sequence)
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(when (funcall pred elt)
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(setq count (+ 1 count))))
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count))
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(cl-defgeneric seq-contains (sequence elt &optional testfn)
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(declare (obsolete seq-contains-p "27.1"))
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"Return the first element in SEQUENCE that is equal to ELT.
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Equality is defined by TESTFN if non-nil or by `equal' if nil."
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(seq-some (lambda (e)
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(when (funcall (or testfn #'equal) elt e)
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e))
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sequence))
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(cl-defgeneric seq-contains-p (sequence elt &optional testfn)
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"Return non-nil if SEQUENCE contains an element equal to ELT.
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Equality is defined by TESTFN if non-nil or by `equal' if nil."
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(catch 'seq--break
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(seq-doseq (e sequence)
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(when (funcall (or testfn #'equal) e elt)
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(throw 'seq--break t)))
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nil))
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(cl-defgeneric seq-set-equal-p (sequence1 sequence2 &optional testfn)
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"Return non-nil if SEQUENCE1 and SEQUENCE2 contain the same elements, regardless of order.
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Equality is defined by TESTFN if non-nil or by `equal' if nil."
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(and (seq-every-p (lambda (item1) (seq-contains-p sequence2 item1 testfn)) sequence1)
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(seq-every-p (lambda (item2) (seq-contains-p sequence1 item2 testfn)) sequence2)))
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(cl-defgeneric seq-position (sequence elt &optional testfn)
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"Return the index of the first element in SEQUENCE that is equal to ELT.
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Equality is defined by TESTFN if non-nil or by `equal' if nil."
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(let ((index 0))
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(catch 'seq--break
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(seq-doseq (e sequence)
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(when (funcall (or testfn #'equal) e elt)
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(throw 'seq--break index))
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(setq index (1+ index)))
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nil)))
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(cl-defgeneric seq-uniq (sequence &optional testfn)
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"Return a list of the elements of SEQUENCE with duplicates removed.
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TESTFN is used to compare elements, or `equal' if TESTFN is nil."
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(let ((result '()))
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(seq-doseq (elt sequence)
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(unless (seq-contains-p result elt testfn)
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(setq result (cons elt result))))
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(nreverse result)))
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(cl-defgeneric seq-mapcat (function sequence &optional type)
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"Concatenate the result of applying FUNCTION to each element of SEQUENCE.
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The result is a sequence of type TYPE, or a list if TYPE is nil."
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(apply #'seq-concatenate (or type 'list)
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(seq-map function sequence)))
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(cl-defgeneric seq-partition (sequence n)
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"Return a list of the elements of SEQUENCE grouped into sub-sequences of length N.
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The last sequence may contain less than N elements. If N is a
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negative integer or 0, nil is returned."
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(unless (< n 1)
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(let ((result '()))
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(while (not (seq-empty-p sequence))
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(push (seq-take sequence n) result)
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(setq sequence (seq-drop sequence n)))
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(nreverse result))))
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(cl-defgeneric seq-intersection (sequence1 sequence2 &optional testfn)
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"Return a list of the elements that appear in both SEQUENCE1 and SEQUENCE2.
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Equality is defined by TESTFN if non-nil or by `equal' if nil."
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(seq-reduce (lambda (acc elt)
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(if (seq-contains-p sequence2 elt testfn)
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(cons elt acc)
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acc))
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(seq-reverse sequence1)
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'()))
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(cl-defgeneric seq-difference (sequence1 sequence2 &optional testfn)
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"Return a list of the elements that appear in SEQUENCE1 but not in SEQUENCE2.
|
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Equality is defined by TESTFN if non-nil or by `equal' if nil."
|
||
(seq-reduce (lambda (acc elt)
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(if (seq-contains-p sequence2 elt testfn)
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acc
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(cons elt acc)))
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(seq-reverse sequence1)
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'()))
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(cl-defgeneric seq-group-by (function sequence)
|
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"Apply FUNCTION to each element of SEQUENCE.
|
||
Separate the elements of SEQUENCE into an alist using the results as
|
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keys. Keys are compared using `equal'."
|
||
(seq-reduce
|
||
(lambda (acc elt)
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||
(let* ((key (funcall function elt))
|
||
(cell (assoc key acc)))
|
||
(if cell
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||
(setcdr cell (push elt (cdr cell)))
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||
(push (list key elt) acc))
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acc))
|
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(seq-reverse sequence)
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nil))
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(cl-defgeneric seq-min (sequence)
|
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"Return the smallest element of SEQUENCE.
|
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SEQUENCE must be a sequence of numbers or markers."
|
||
(apply #'min (seq-into sequence 'list)))
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(cl-defgeneric seq-max (sequence)
|
||
"Return the largest element of SEQUENCE.
|
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SEQUENCE must be a sequence of numbers or markers."
|
||
(apply #'max (seq-into sequence 'list)))
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(defun seq--count-successive (pred sequence)
|
||
"Return the number of successive elements for which (PRED element) is non-nil in SEQUENCE."
|
||
(let ((n 0)
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(len (seq-length sequence)))
|
||
(while (and (< n len)
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||
(funcall pred (seq-elt sequence n)))
|
||
(setq n (+ 1 n)))
|
||
n))
|
||
|
||
(defun seq--make-pcase-bindings (args)
|
||
"Return a list of bindings of the variables in ARGS to the elements of a sequence."
|
||
(let ((bindings '())
|
||
(index 0)
|
||
(rest-marker nil))
|
||
(seq-doseq (name args)
|
||
(unless rest-marker
|
||
(pcase name
|
||
(`&rest
|
||
(progn (push `(app (pcase--flip seq-drop ,index)
|
||
,(seq--elt-safe args (1+ index)))
|
||
bindings)
|
||
(setq rest-marker t)))
|
||
(_
|
||
(push `(app (pcase--flip seq--elt-safe ,index) ,name) bindings))))
|
||
(setq index (1+ index)))
|
||
bindings))
|
||
|
||
(defun seq--make-pcase-patterns (args)
|
||
"Return a list of `(seq ...)' pcase patterns from the argument list ARGS."
|
||
(cons 'seq
|
||
(seq-map (lambda (elt)
|
||
(if (seqp elt)
|
||
(seq--make-pcase-patterns elt)
|
||
elt))
|
||
args)))
|
||
|
||
;; TODO: make public?
|
||
(defun seq--elt-safe (sequence n)
|
||
"Return element of SEQUENCE at the index N.
|
||
If no element is found, return nil."
|
||
(ignore-errors (seq-elt sequence n)))
|
||
|
||
(cl-defgeneric seq-random-elt (sequence)
|
||
"Return a random element from SEQUENCE.
|
||
Signal an error if SEQUENCE is empty."
|
||
(if (seq-empty-p sequence)
|
||
(error "Sequence cannot be empty")
|
||
(seq-elt sequence (random (seq-length sequence)))))
|
||
|
||
|
||
;;; Optimized implementations for lists
|
||
|
||
(cl-defmethod seq-drop ((list list) n)
|
||
"Optimized implementation of `seq-drop' for lists."
|
||
(nthcdr n list))
|
||
|
||
(cl-defmethod seq-take ((list list) n)
|
||
"Optimized implementation of `seq-take' for lists."
|
||
(let ((result '()))
|
||
(while (and list (> n 0))
|
||
(setq n (1- n))
|
||
(push (pop list) result))
|
||
(nreverse result)))
|
||
|
||
(cl-defmethod seq-drop-while (pred (list list))
|
||
"Optimized implementation of `seq-drop-while' for lists."
|
||
(while (and list (funcall pred (car list)))
|
||
(setq list (cdr list)))
|
||
list)
|
||
|
||
(cl-defmethod seq-empty-p ((list list))
|
||
"Optimized implementation of `seq-empty-p' for lists."
|
||
(null list))
|
||
|
||
|
||
(defun seq--into-list (sequence)
|
||
"Concatenate the elements of SEQUENCE into a list."
|
||
(if (listp sequence)
|
||
sequence
|
||
(append sequence nil)))
|
||
|
||
(defun seq--into-vector (sequence)
|
||
"Concatenate the elements of SEQUENCE into a vector."
|
||
(if (vectorp sequence)
|
||
sequence
|
||
(vconcat sequence)))
|
||
|
||
(defun seq--into-string (sequence)
|
||
"Concatenate the elements of SEQUENCE into a string."
|
||
(if (stringp sequence)
|
||
sequence
|
||
(concat sequence)))
|
||
|
||
(defun seq--activate-font-lock-keywords ()
|
||
"Activate font-lock keywords for some symbols defined in seq."
|
||
(font-lock-add-keywords 'emacs-lisp-mode
|
||
'("\\<seq-doseq\\>" "\\<seq-let\\>")))
|
||
|
||
(unless (fboundp 'elisp--font-lock-flush-elisp-buffers)
|
||
;; In Emacs≥25, (via elisp--font-lock-flush-elisp-buffers and a few others)
|
||
;; we automatically highlight macros.
|
||
(add-hook 'emacs-lisp-mode-hook #'seq--activate-font-lock-keywords))
|
||
|
||
(provide 'seq)
|
||
;;; seq.el ends here
|