;;; subr-x.el --- extra Lisp functions -*- lexical-binding:t -*- ;; Copyright (C) 2013-2021 Free Software Foundation, Inc. ;; Maintainer: emacs-devel@gnu.org ;; Keywords: convenience ;; Package: emacs ;; 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 . ;;; Commentary: ;; Less commonly used functions that complement basic APIs, often implemented in ;; C code (like hash-tables and strings), and are not eligible for inclusion ;; in subr.el. ;; Do not document these functions in the lispref. ;; https://lists.gnu.org/r/emacs-devel/2014-01/msg01006.html ;; NB If you want to use this library, it's almost always correct to use: ;; (eval-when-compile (require 'subr-x)) ;;; Code: (eval-when-compile (require 'cl-lib)) (defmacro internal--thread-argument (first? &rest forms) "Internal implementation for `thread-first' and `thread-last'. When Argument FIRST? is non-nil argument is threaded first, else last. FORMS are the expressions to be threaded." (pcase forms (`(,x (,f . ,args) . ,rest) `(internal--thread-argument ,first? ,(if first? `(,f ,x ,@args) `(,f ,@args ,x)) ,@rest)) (`(,x ,f . ,rest) `(internal--thread-argument ,first? (,f ,x) ,@rest)) (_ (car forms)))) (defmacro thread-first (&rest forms) "Thread FORMS elements as the first argument of their successor. Example: (thread-first 5 (+ 20) (/ 25) - (+ 40)) Is equivalent to: (+ (- (/ (+ 5 20) 25)) 40) Note how the single `-' got converted into a list before threading." (declare (indent 1) (debug (form &rest [&or symbolp (sexp &rest form)]))) `(internal--thread-argument t ,@forms)) (defmacro thread-last (&rest forms) "Thread FORMS elements as the last argument of their successor. Example: (thread-last 5 (+ 20) (/ 25) - (+ 40)) Is equivalent to: (+ 40 (- (/ 25 (+ 20 5)))) Note how the single `-' got converted into a list before threading." (declare (indent 1) (debug thread-first)) `(internal--thread-argument nil ,@forms)) (defsubst internal--listify (elt) "Wrap ELT in a list if it is not one. If ELT is of the form ((EXPR)), listify (EXPR) with a dummy symbol." (cond ((symbolp elt) (list elt elt)) ((null (cdr elt)) (list (make-symbol "s") (car elt))) (t elt))) (defsubst internal--check-binding (binding) "Check BINDING is properly formed." (when (> (length binding) 2) (signal 'error (cons "`let' bindings can have only one value-form" binding))) binding) (defsubst internal--build-binding-value-form (binding prev-var) "Build the conditional value form for BINDING using PREV-VAR." (let ((var (car binding))) `(,var (and ,prev-var ,(cadr binding))))) (defun internal--build-binding (binding prev-var) "Check and build a single BINDING with PREV-VAR." (thread-first binding internal--listify internal--check-binding (internal--build-binding-value-form prev-var))) (defun internal--build-bindings (bindings) "Check and build conditional value forms for BINDINGS." (let ((prev-var t)) (mapcar (lambda (binding) (let ((binding (internal--build-binding binding prev-var))) (setq prev-var (car binding)) binding)) bindings))) (defmacro if-let* (varlist then &rest else) "Bind variables according to VARLIST and evaluate THEN or ELSE. This is like `if-let' but doesn't handle a VARLIST of the form \(SYMBOL SOMETHING) specially." (declare (indent 2) (debug ((&rest [&or symbolp (symbolp form) (form)]) form body))) (if varlist `(let* ,(setq varlist (internal--build-bindings varlist)) (if ,(caar (last varlist)) ,then ,@else)) `(let* () ,then))) (defmacro when-let* (varlist &rest body) "Bind variables according to VARLIST and conditionally evaluate BODY. This is like `when-let' but doesn't handle a VARLIST of the form \(SYMBOL SOMETHING) specially." (declare (indent 1) (debug if-let*)) (list 'if-let* varlist (macroexp-progn body))) (defmacro and-let* (varlist &rest body) "Bind variables according to VARLIST and conditionally evaluate BODY. Like `when-let*', except if BODY is empty and all the bindings are non-nil, then the result is non-nil." (declare (indent 1) (debug ((&rest [&or symbolp (symbolp form) (form)]) body))) (let (res) (if varlist `(let* ,(setq varlist (internal--build-bindings varlist)) (when ,(setq res (caar (last varlist))) ,@(or body `(,res)))) `(let* () ,@(or body '(t)))))) ;;;###autoload (defmacro if-let (spec then &rest else) "Bind variables according to SPEC and evaluate THEN or ELSE. Evaluate each binding in turn, as in `let*', stopping if a binding value is nil. If all are non-nil return the value of THEN, otherwise the last form in ELSE. Each element of SPEC is a list (SYMBOL VALUEFORM) that binds SYMBOL to the value of VALUEFORM. An element can additionally be of the form (VALUEFORM), which is evaluated and checked for nil; i.e. SYMBOL can be omitted if only the test result is of interest. It can also be of the form SYMBOL, then the binding of SYMBOL is checked for nil. As a special case, interprets a SPEC of the form \(SYMBOL SOMETHING) like \((SYMBOL SOMETHING)). This exists for backward compatibility with an old syntax that accepted only one binding." (declare (indent 2) (debug ([&or (&rest [&or symbolp (symbolp form) (form)]) (symbolp form)] form body))) (when (and (<= (length spec) 2) (not (listp (car spec)))) ;; Adjust the single binding case (setq spec (list spec))) (list 'if-let* spec then (macroexp-progn else))) ;;;###autoload (defmacro when-let (spec &rest body) "Bind variables according to SPEC and conditionally evaluate BODY. Evaluate each binding in turn, stopping if a binding value is nil. If all are non-nil, return the value of the last form in BODY. The variable list SPEC is the same as in `if-let'." (declare (indent 1) (debug if-let)) (list 'if-let spec (macroexp-progn body))) (defsubst hash-table-empty-p (hash-table) "Check whether HASH-TABLE is empty (has 0 elements)." (zerop (hash-table-count hash-table))) (defsubst hash-table-keys (hash-table) "Return a list of keys in HASH-TABLE." (cl-loop for k being the hash-keys of hash-table collect k)) (defsubst hash-table-values (hash-table) "Return a list of values in HASH-TABLE." (cl-loop for v being the hash-values of hash-table collect v)) (defsubst string-empty-p (string) "Check whether STRING is empty." (string= string "")) (defsubst string-join (strings &optional separator) "Join all STRINGS using SEPARATOR." (mapconcat #'identity strings separator)) (define-obsolete-function-alias 'string-reverse 'reverse "25.1") ;;;###autoload (defun string-truncate-left (string length) "Truncate STRING to LENGTH, replacing initial surplus with \"...\"." (let ((strlen (length string))) (if (<= strlen length) string (setq length (max 0 (- length 3))) (concat "..." (substring string (max 0 (- strlen 1 length))))))) (defsubst string-blank-p (string) "Check whether STRING is either empty or only whitespace. The following characters count as whitespace here: space, tab, newline and carriage return." (string-match-p "\\`[ \t\n\r]*\\'" string)) (defsubst string-remove-prefix (prefix string) "Remove PREFIX from STRING if present." (if (string-prefix-p prefix string) (substring string (length prefix)) string)) (defsubst string-remove-suffix (suffix string) "Remove SUFFIX from STRING if present." (if (string-suffix-p suffix string) (substring string 0 (- (length string) (length suffix))) string)) (defun string-clean-whitespace (string) "Clean up whitespace in STRING. All sequences of whitespaces in STRING are collapsed into a single space character, and leading/trailing whitespace is removed." (let ((blank "[[:blank:]\r\n]+")) (string-trim (replace-regexp-in-string blank " " string t t) blank blank))) (defun string-fill (string length) "Try to word-wrap STRING so that no lines are longer than LENGTH. Wrapping is done where there is whitespace. If there are individual words in STRING that are longer than LENGTH, the result will have lines that are longer than LENGTH." (with-temp-buffer (insert string) (goto-char (point-min)) (let ((fill-column length) (adaptive-fill-mode nil)) (fill-region (point-min) (point-max))) (buffer-string))) (defun string-limit (string length &optional end coding-system) "Return (up to) a LENGTH substring of STRING. If STRING is shorter than or equal to LENGTH, the entire string is returned unchanged. If STRING is longer than LENGTH, return a substring consisting of the first LENGTH characters of STRING. If END is non-nil, return the last LENGTH characters instead. If CODING-SYSTEM is non-nil, STRING will be encoded before limiting, and LENGTH is interpreted as the number of bytes to limit the string to. The result will be a unibyte string that is shorter than LENGTH, but will not contain \"partial\" characters, even if CODING-SYSTEM encodes characters with several bytes per character. When shortening strings for display purposes, `truncate-string-to-width' is almost always a better alternative than this function." (unless (natnump length) (signal 'wrong-type-argument (list 'natnump length))) (if coding-system (let ((result nil) (result-length 0) (index (if end (1- (length string)) 0))) (while (let ((encoded (encode-coding-char (aref string index) coding-system))) (and (<= (+ (length encoded) result-length) length) (progn (push encoded result) (cl-incf result-length (length encoded)) (setq index (if end (1- index) (1+ index)))) (if end (> index -1) (< index (length string))))) ;; No body. ) (apply #'concat (if end result (nreverse result)))) (cond ((<= (length string) length) string) (end (substring string (- (length string) length))) (t (substring string 0 length))))) (defun string-lines (string &optional omit-nulls) "Split STRING into a list of lines. If OMIT-NULLS, empty lines will be removed from the results." (split-string string "\n" omit-nulls)) (defun string-pad (string length &optional padding start) "Pad STRING to LENGTH using PADDING. If PADDING is nil, the space character is used. If not nil, it should be a character. If STRING is longer than the absolute value of LENGTH, no padding is done. If START is nil (or not present), the padding is done to the end of the string, and if non-nil, padding is done to the start of the string." (unless (natnump length) (signal 'wrong-type-argument (list 'natnump length))) (let ((pad-length (- length (length string)))) (if (< pad-length 0) string (concat (and start (make-string pad-length (or padding ?\s))) string (and (not start) (make-string pad-length (or padding ?\s))))))) (defun string-chop-newline (string) "Remove the final newline (if any) from STRING." (string-remove-suffix "\n" string)) (defun replace-region-contents (beg end replace-fn &optional max-secs max-costs) "Replace the region between BEG and END using REPLACE-FN. REPLACE-FN runs on the current buffer narrowed to the region. It should return either a string or a buffer replacing the region. The replacement is performed using `replace-buffer-contents' which also describes the MAX-SECS and MAX-COSTS arguments and the return value. Note: If the replacement is a string, it'll be placed in a temporary buffer so that `replace-buffer-contents' can operate on it. Therefore, if you already have the replacement in a buffer, it makes no sense to convert it to a string using `buffer-substring' or similar." (save-excursion (save-restriction (narrow-to-region beg end) (goto-char (point-min)) (let ((repl (funcall replace-fn))) (if (bufferp repl) (replace-buffer-contents repl max-secs max-costs) (let ((source-buffer (current-buffer))) (with-temp-buffer (insert repl) (let ((tmp-buffer (current-buffer))) (set-buffer source-buffer) (replace-buffer-contents tmp-buffer max-secs max-costs))))))))) (defmacro named-let (name bindings &rest body) "Looping construct taken from Scheme. Like `let', bind variables in BINDINGS and then evaluate BODY, but with the twist that BODY can evaluate itself recursively by calling NAME, where the arguments passed to NAME are used as the new values of the bound variables in the recursive invocation." (declare (indent 2) (debug (symbolp (&rest (symbolp form)) body))) (require 'cl-lib) (let ((fargs (mapcar (lambda (b) (if (consp b) (car b) b)) bindings)) (aargs (mapcar (lambda (b) (if (consp b) (cadr b))) bindings))) ;; According to the Scheme semantics of named let, `name' is not in scope ;; while evaluating the expressions in `bindings', and for this reason, the ;; "initial" function call below needs to be outside of the `cl-labels'. ;; When the "self-tco" eliminates all recursive calls, the `cl-labels' ;; expands to a lambda which the byte-compiler then combines with the ;; funcall to make a `let' so we end up with a plain `while' loop and no ;; remaining `lambda' at all. `(funcall (cl-labels ((,name ,fargs . ,body)) #',name) . ,aargs))) (provide 'subr-x) ;;; subr-x.el ends here