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982 lines
41 KiB
EmacsLisp
982 lines
41 KiB
EmacsLisp
;;; pcase.el --- ML-style pattern-matching macro for Elisp -*- lexical-binding: t -*-
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;; Copyright (C) 2010-2020 Free Software Foundation, Inc.
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;; Author: Stefan Monnier <monnier@iro.umontreal.ca>
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;; Keywords:
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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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;; ML-style pattern matching.
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;; The entry points are autoloaded.
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;; Todo:
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;; - (pcase e (`(,x . ,x) foo)) signals an "x unused" warning if `foo' doesn't
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;; use x, because x is bound separately for the equality constraint
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;; (as well as any pred/guard) and for the body, so uses at one place don't
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;; count for the other.
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;; - provide ways to extend the set of primitives, with some kind of
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;; define-pcase-matcher. We could easily make it so that (guard BOOLEXP)
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;; could be defined this way, as a shorthand for (pred (lambda (_) BOOLEXP)).
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;; But better would be if we could define new ways to match by having the
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;; extension provide its own `pcase--split-<foo>' thingy.
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;; - along these lines, provide patterns to match CL structs.
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;; - provide something like (setq VAR) so a var can be set rather than
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;; let-bound.
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;; - provide a way to fallthrough to subsequent cases (not sure what I meant by
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;; this :-()
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;; - try and be more clever to reduce the size of the decision tree, and
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;; to reduce the number of leaves that need to be turned into function:
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;; - first, do the tests shared by all remaining branches (it will have
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;; to be performed anyway, so better do it first so it's shared).
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;; - then choose the test that discriminates more (?).
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;; - provide Agda's `with' (along with its `...' companion).
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;; - implement (not PAT). This might require a significant redesign.
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;; - ideally we'd want (pcase s ((re RE1) E1) ((re RE2) E2)) to be able to
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;; generate a lex-style DFA to decide whether to run E1 or E2.
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;;; Code:
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(require 'macroexp)
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;; Macro-expansion of pcase is reasonably fast, so it's not a problem
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;; when byte-compiling a file, but when interpreting the code, if the pcase
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;; is in a loop, the repeated macro-expansion becomes terribly costly, so we
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;; memoize previous macro expansions to try and avoid recomputing them
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;; over and over again.
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;; FIXME: Now that macroexpansion is also performed when loading an interpreted
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;; file, this is not a real problem any more.
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(defconst pcase--memoize (make-hash-table :weakness 'key :test 'eq))
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;; (defconst pcase--memoize (make-hash-table :test 'eq))
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;; (defconst pcase--memoize-1 (make-hash-table :test 'eq))
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;; (defconst pcase--memoize-2 (make-hash-table :weakness 'key :test 'equal))
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(defconst pcase--dontcare-upats '(t _ pcase--dontcare))
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(defvar pcase--dontwarn-upats '(pcase--dontcare))
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(def-edebug-spec
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pcase-PAT
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(&or symbolp
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("or" &rest pcase-PAT)
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("and" &rest pcase-PAT)
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("guard" form)
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("let" pcase-PAT form)
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("pred" pcase-FUN)
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("app" pcase-FUN pcase-PAT)
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pcase-MACRO
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sexp))
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(def-edebug-spec
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pcase-FUN
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(&or lambda-expr
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;; Punt on macros/special forms.
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(functionp &rest form)
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sexp))
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;; See bug#24717
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(put 'pcase-MACRO 'edebug-form-spec 'pcase--edebug-match-macro)
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;; Only called from edebug.
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(declare-function get-edebug-spec "edebug" (symbol))
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(declare-function edebug-match "edebug" (cursor specs))
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(defun pcase--edebug-match-macro (cursor)
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(let (specs)
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(mapatoms
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(lambda (s)
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(let ((m (get s 'pcase-macroexpander)))
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(when (and m (get-edebug-spec m))
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(push (cons (symbol-name s) (get-edebug-spec m))
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specs)))))
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(edebug-match cursor (cons '&or specs))))
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;;;###autoload
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(defmacro pcase (exp &rest cases)
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"Evaluate EXP to get EXPVAL; try passing control to one of CASES.
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CASES is a list of elements of the form (PATTERN CODE...).
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For the first CASE whose PATTERN \"matches\" EXPVAL,
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evaluate its CODE..., and return the value of the last form.
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If no CASE has a PATTERN that matches, return nil.
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Each PATTERN expands, in essence, to a predicate to call
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on EXPVAL. When the return value of that call is non-nil,
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PATTERN matches. PATTERN can take one of the forms:
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_ matches anything.
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\\='VAL matches if EXPVAL is `equal' to VAL.
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KEYWORD shorthand for \\='KEYWORD
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INTEGER shorthand for \\='INTEGER
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STRING shorthand for \\='STRING
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SYMBOL matches anything and binds it to SYMBOL.
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If a SYMBOL is used twice in the same pattern
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the second occurrence becomes an `eq'uality test.
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(pred FUN) matches if FUN called on EXPVAL returns non-nil.
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(app FUN PAT) matches if FUN called on EXPVAL matches PAT.
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(guard BOOLEXP) matches if BOOLEXP evaluates to non-nil.
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(let PAT EXPR) matches if EXPR matches PAT.
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(and PAT...) matches if all the patterns match.
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(or PAT...) matches if any of the patterns matches.
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FUN in `pred' and `app' can take one of the forms:
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SYMBOL or (lambda ARGS BODY)
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call it with one argument
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(F ARG1 .. ARGn)
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call F with ARG1..ARGn and EXPVAL as n+1'th argument
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FUN, BOOLEXP, EXPR, and subsequent PAT can refer to variables
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bound earlier in the pattern by a SYMBOL pattern.
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Additional patterns can be defined using `pcase-defmacro'.
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See Info node `(elisp) Pattern-Matching Conditional' in the
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Emacs Lisp manual for more information and examples."
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(declare (indent 1) (debug (form &rest (pcase-PAT body))))
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;; We want to use a weak hash table as a cache, but the key will unavoidably
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;; be based on `exp' and `cases', yet `cases' is a fresh new list each time
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;; we're called so it'll be immediately GC'd. So we use (car cases) as key
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;; which does come straight from the source code and should hence not be GC'd
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;; so easily.
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(let ((data (gethash (car cases) pcase--memoize)))
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;; data = (EXP CASES . EXPANSION)
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(if (and (equal exp (car data)) (equal cases (cadr data)))
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;; We have the right expansion.
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(cddr data)
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;; (when (gethash (car cases) pcase--memoize-1)
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;; (message "pcase-memoize failed because of weak key!!"))
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;; (when (gethash (car cases) pcase--memoize-2)
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;; (message "pcase-memoize failed because of eq test on %S"
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;; (car cases)))
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;; (when data
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;; (message "pcase-memoize: equal first branch, yet different"))
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(let ((expansion (pcase--expand exp cases)))
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(puthash (car cases) `(,exp ,cases ,@expansion) pcase--memoize)
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;; (puthash (car cases) `(,exp ,cases ,@expansion) pcase--memoize-1)
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;; (puthash (car cases) `(,exp ,cases ,@expansion) pcase--memoize-2)
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expansion))))
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(declare-function help-fns--signature "help-fns"
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(function doc real-def real-function buffer))
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;; FIXME: Obviously, this will collide with nadvice's use of
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;; function-documentation if we happen to advise `pcase'.
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;;;###autoload
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(put 'pcase 'function-documentation '(pcase--make-docstring))
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;;;###autoload
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(defun pcase--make-docstring ()
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(let* ((main (documentation (symbol-function 'pcase) 'raw))
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(ud (help-split-fundoc main 'pcase)))
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;; So that eg emacs -Q -l cl-lib --eval "(documentation 'pcase)" works,
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;; where cl-lib is anything using pcase-defmacro.
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(require 'help-fns)
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(with-temp-buffer
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(insert (or (cdr ud) main))
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;; Presentation Note: For conceptual continuity, we guarantee
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;; that backquote doc immediately follows main pcase doc.
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;; (The order of the other extensions is unimportant.)
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(let (more)
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;; Collect all the extensions.
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(mapatoms (lambda (symbol)
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(let ((me (get symbol 'pcase-macroexpander)))
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(when me
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(push (cons symbol me)
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more)))))
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;; Ensure backquote is first.
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(let ((x (assq '\` more)))
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(setq more (cons x (delq x more))))
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;; Do the output.
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(while more
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(let* ((pair (pop more))
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(symbol (car pair))
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(me (cdr pair))
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(doc (documentation me 'raw)))
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(insert "\n\n-- ")
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(setq doc (help-fns--signature symbol doc me
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(indirect-function me)
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nil))
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(insert "\n" (or doc "Not documented.")))))
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(let ((combined-doc (buffer-string)))
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(if ud (help-add-fundoc-usage combined-doc (car ud)) combined-doc)))))
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;;;###autoload
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(defmacro pcase-exhaustive (exp &rest cases)
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"The exhaustive version of `pcase' (which see).
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If EXP fails to match any of the patterns in CASES, an error is signaled."
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(declare (indent 1) (debug pcase))
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(let* ((x (gensym "x"))
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(pcase--dontwarn-upats (cons x pcase--dontwarn-upats)))
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(pcase--expand
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;; FIXME: Could we add the FILE:LINE data in the error message?
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exp (append cases `((,x (error "No clause matching `%S'" ,x)))))))
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;;;###autoload
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(defmacro pcase-lambda (lambda-list &rest body)
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"Like `lambda' but allow each argument to be a pattern.
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I.e. accepts the usual &optional and &rest keywords, but every
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formal argument can be any pattern accepted by `pcase' (a mere
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variable name being but a special case of it)."
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(declare (doc-string 2) (indent defun)
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(debug (&define (&rest pcase-PAT) lambda-doc def-body)))
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(let* ((bindings ())
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(parsed-body (macroexp-parse-body body))
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(args (mapcar (lambda (pat)
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(if (symbolp pat)
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;; Simple vars and &rest/&optional are just passed
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;; through unchanged.
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pat
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(let ((arg (make-symbol
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(format "arg%s" (length bindings)))))
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(push `(,pat ,arg) bindings)
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arg)))
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lambda-list)))
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`(lambda ,args ,@(car parsed-body)
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(pcase-let* ,(nreverse bindings) ,@(cdr parsed-body)))))
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(defun pcase--let* (bindings body)
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(cond
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((null bindings) (macroexp-progn body))
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((pcase--trivial-upat-p (caar bindings))
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(macroexp-let* `(,(car bindings)) (pcase--let* (cdr bindings) body)))
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(t
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(let ((binding (pop bindings)))
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(pcase--expand
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(cadr binding)
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`((,(car binding) ,(pcase--let* bindings body))
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;; We can either signal an error here, or just use `pcase--dontcare'
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;; which generates more efficient code. In practice, if we use
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;; `pcase--dontcare' we will still often get an error and the few
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;; cases where we don't do not matter that much, so
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;; it's a better choice.
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(pcase--dontcare nil)))))))
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;;;###autoload
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(defmacro pcase-let* (bindings &rest body)
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"Like `let*', but supports destructuring BINDINGS using `pcase' patterns.
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As with `pcase-let', BINDINGS are of the form (PATTERN EXP), but the
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EXP in each binding in BINDINGS can use the results of the destructuring
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bindings that precede it in BINDINGS' order.
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Each EXP should match (i.e. be of compatible structure) to its
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respective PATTERN; a mismatch may signal an error or may go
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undetected, binding variables to arbitrary values, such as nil."
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(declare (indent 1)
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(debug ((&rest (pcase-PAT &optional form)) body)))
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(let ((cached (gethash bindings pcase--memoize)))
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;; cached = (BODY . EXPANSION)
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(if (equal (car cached) body)
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(cdr cached)
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(let ((expansion (pcase--let* bindings body)))
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(puthash bindings (cons body expansion) pcase--memoize)
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expansion))))
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;;;###autoload
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(defmacro pcase-let (bindings &rest body)
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"Like `let', but supports destructuring BINDINGS using `pcase' patterns.
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BODY should be a list of expressions, and BINDINGS should be a list of
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bindings of the form (PATTERN EXP).
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All EXPs are evaluated first, and then used to perform destructuring
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bindings by matching each EXP against its respective PATTERN. Then
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BODY is evaluated with those bindings in effect.
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Each EXP should match (i.e. be of compatible structure) to its
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respective PATTERN; a mismatch may signal an error or may go
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undetected, binding variables to arbitrary values, such as nil."
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(declare (indent 1) (debug pcase-let*))
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(if (null (cdr bindings))
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`(pcase-let* ,bindings ,@body)
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(let ((matches '()))
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(dolist (binding (prog1 bindings (setq bindings nil)))
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(cond
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((memq (car binding) pcase--dontcare-upats)
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(push (cons (make-symbol "_") (cdr binding)) bindings))
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((pcase--trivial-upat-p (car binding)) (push binding bindings))
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(t
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(let ((tmpvar (make-symbol (format "x%d" (length bindings)))))
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(push (cons tmpvar (cdr binding)) bindings)
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(push (list (car binding) tmpvar) matches)))))
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`(let ,(nreverse bindings) (pcase-let* ,matches ,@body)))))
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;;;###autoload
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(defmacro pcase-dolist (spec &rest body)
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"Eval BODY once for each set of bindings defined by PATTERN and LIST elements.
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PATTERN should be a `pcase' pattern describing the structure of
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LIST elements, and LIST is a list of objects that match PATTERN,
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i.e. have a structure that is compatible with PATTERN.
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For each element of LIST, this macro binds the variables in
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PATTERN to the corresponding subfields of the LIST element, and
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then evaluates BODY with these bindings in effect. The
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destructuring bindings of variables in PATTERN to the subfields
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of the elements of LIST is performed as if by `pcase-let'.
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\n(fn (PATTERN LIST) BODY...)"
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(declare (indent 1) (debug ((pcase-PAT form) body)))
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(if (pcase--trivial-upat-p (car spec))
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`(dolist ,spec ,@body)
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(let ((tmpvar (gensym "x")))
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`(dolist (,tmpvar ,@(cdr spec))
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(pcase-let* ((,(car spec) ,tmpvar))
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,@body)))))
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(defun pcase--trivial-upat-p (upat)
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(and (symbolp upat) (not (memq upat pcase--dontcare-upats))))
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(defun pcase--expand (exp cases)
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;; (message "pid=%S (pcase--expand %S ...hash=%S)"
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;; (emacs-pid) exp (sxhash cases))
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(macroexp-let2 macroexp-copyable-p val exp
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(let* ((defs ())
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(seen '())
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(codegen
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(lambda (code vars)
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(let ((prev (assq code seen)))
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(if (not prev)
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(let ((res (pcase-codegen code vars)))
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(push (list code vars res) seen)
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res)
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;; Since we use a tree-based pattern matching
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;; technique, the leaves (the places that contain the
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;; code to run once a pattern is matched) can get
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;; copied a very large number of times, so to avoid
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;; code explosion, we need to keep track of how many
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;; times we've used each leaf and move it
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;; to a separate function if that number is too high.
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;;
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;; We've already used this branch. So it is shared.
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(let* ((code (car prev)) (cdrprev (cdr prev))
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(prevvars (car cdrprev)) (cddrprev (cdr cdrprev))
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(res (car cddrprev)))
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(unless (symbolp res)
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;; This is the first repeat, so we have to move
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;; the branch to a separate function.
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(let ((bsym
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(make-symbol (format "pcase-%d" (length defs)))))
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(push `(,bsym (lambda ,(mapcar #'car prevvars) ,@code))
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defs)
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(setcar res 'funcall)
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(setcdr res (cons bsym (mapcar #'cdr prevvars)))
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(setcar (cddr prev) bsym)
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(setq res bsym)))
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(setq vars (copy-sequence vars))
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(let ((args (mapcar (lambda (pa)
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(let ((v (assq (car pa) vars)))
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(setq vars (delq v vars))
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(cdr v)))
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prevvars)))
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;; If some of `vars' were not found in `prevvars', that's
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;; OK it just means those vars aren't present in all
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;; branches, so they can be used within the pattern
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;; (e.g. by a `guard/let/pred') but not in the branch.
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;; FIXME: But if some of `prevvars' are not in `vars' we
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;; should remove them from `prevvars'!
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`(funcall ,res ,@args)))))))
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(used-cases ())
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(main
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(pcase--u
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(mapcar (lambda (case)
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`(,(pcase--match val (pcase--macroexpand (car case)))
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,(lambda (vars)
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(unless (memq case used-cases)
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;; Keep track of the cases that are used.
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(push case used-cases))
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(funcall
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(if (pcase--small-branch-p (cdr case))
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;; Don't bother sharing multiple
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;; occurrences of this leaf since it's small.
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#'pcase-codegen codegen)
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(cdr case)
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vars))))
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cases))))
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(dolist (case cases)
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(unless (or (memq case used-cases)
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(memq (car case) pcase--dontwarn-upats))
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(message "Redundant pcase pattern: %S" (car case))))
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(macroexp-let* defs main))))
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(defun pcase--macroexpand (pat)
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"Expands all macro-patterns in PAT."
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(let ((head (car-safe pat)))
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(cond
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((null head)
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(if (pcase--self-quoting-p pat) `',pat pat))
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((memq head '(pred guard quote)) pat)
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((memq head '(or and)) `(,head ,@(mapcar #'pcase--macroexpand (cdr pat))))
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((eq head 'let) `(let ,(pcase--macroexpand (cadr pat)) ,@(cddr pat)))
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((eq head 'app) `(app ,(nth 1 pat) ,(pcase--macroexpand (nth 2 pat))))
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(t
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(let* ((expander (get head 'pcase-macroexpander))
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(npat (if expander (apply expander (cdr pat)))))
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(if (null npat)
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(error (if expander
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"Unexpandable %s pattern: %S"
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"Unknown %s pattern: %S")
|
|
head pat)
|
|
(pcase--macroexpand npat)))))))
|
|
|
|
;;;###autoload
|
|
(defmacro pcase-defmacro (name args &rest body)
|
|
"Define a new kind of pcase PATTERN, by macro expansion.
|
|
Patterns of the form (NAME ...) will be expanded according
|
|
to this macro.
|
|
|
|
By convention, DOC should use \"EXPVAL\" to stand
|
|
for the result of evaluating EXP (first arg to `pcase').
|
|
\n(fn NAME ARGS [DOC] &rest BODY...)"
|
|
(declare (indent 2) (debug defun) (doc-string 3))
|
|
;; Add the function via `fsym', so that an autoload cookie placed
|
|
;; on a pcase-defmacro will cause the macro to be loaded on demand.
|
|
(let ((fsym (intern (format "%s--pcase-macroexpander" name)))
|
|
(decl (assq 'declare body)))
|
|
(when decl (setq body (remove decl body)))
|
|
`(progn
|
|
(defun ,fsym ,args ,@body)
|
|
(define-symbol-prop ',fsym 'edebug-form-spec ',(cadr (assq 'debug decl)))
|
|
(define-symbol-prop ',name 'pcase-macroexpander #',fsym))))
|
|
|
|
(defun pcase--match (val upat)
|
|
"Build a MATCH structure, hoisting all `or's and `and's outside."
|
|
(cond
|
|
;; Hoist or/and patterns into or/and matches.
|
|
((memq (car-safe upat) '(or and))
|
|
`(,(car upat)
|
|
,@(mapcar (lambda (upat)
|
|
(pcase--match val upat))
|
|
(cdr upat))))
|
|
(t
|
|
`(match ,val . ,upat))))
|
|
|
|
(defun pcase-codegen (code vars)
|
|
;; Don't use let*, otherwise macroexp-let* may merge it with some surrounding
|
|
;; let* which might prevent the setcar/setcdr in pcase--expand's fancy
|
|
;; codegen from later metamorphosing this let into a funcall.
|
|
(if vars
|
|
`(let ,(mapcar (lambda (b) (list (car b) (cdr b))) vars)
|
|
,@code)
|
|
`(progn ,@code)))
|
|
|
|
(defun pcase--small-branch-p (code)
|
|
(and (= 1 (length code))
|
|
(or (not (consp (car code)))
|
|
(let ((small t))
|
|
(dolist (e (car code))
|
|
(if (consp e) (setq small nil)))
|
|
small))))
|
|
|
|
;; Try to use `cond' rather than a sequence of `if's, so as to reduce
|
|
;; the depth of the generated tree.
|
|
(defun pcase--if (test then else)
|
|
(cond
|
|
((eq else :pcase--dontcare) then)
|
|
((eq then :pcase--dontcare) (debug) else) ;Can/should this ever happen?
|
|
(t (macroexp-if test then else))))
|
|
|
|
;; Note about MATCH:
|
|
;; When we have patterns like `(PAT1 . PAT2), after performing the `consp'
|
|
;; check, we want to turn all the similar patterns into ones of the form
|
|
;; (and (match car PAT1) (match cdr PAT2)), so you naturally need conjunction.
|
|
;; Earlier code hence used branches of the form (MATCHES . CODE) where
|
|
;; MATCHES was a list (implicitly a conjunction) of (SYM . PAT).
|
|
;; But if we have a pattern of the form (or `(PAT1 . PAT2) PAT3), there is
|
|
;; no easy way to eliminate the `consp' check in such a representation.
|
|
;; So we replaced the MATCHES by the MATCH below which can be made up
|
|
;; of conjunctions and disjunctions, so if we know `foo' is a cons, we can
|
|
;; turn (match foo . (or `(PAT1 . PAT2) PAT3)) into
|
|
;; (or (and (match car . `PAT1) (match cdr . `PAT2)) (match foo . PAT3)).
|
|
;; The downside is that we now have `or' and `and' both in MATCH and
|
|
;; in PAT, so there are different equivalent representations and we
|
|
;; need to handle them all. We do not try to systematically
|
|
;; canonicalize them to one form over another, but we do occasionally
|
|
;; turn one into the other.
|
|
|
|
(defun pcase--u (branches)
|
|
"Expand matcher for rules BRANCHES.
|
|
Each BRANCH has the form (MATCH CODE . VARS) where
|
|
CODE is the code generator for that branch.
|
|
VARS is the set of vars already bound by earlier matches.
|
|
MATCH is the pattern that needs to be matched, of the form:
|
|
(match VAR . PAT)
|
|
(and MATCH ...)
|
|
(or MATCH ...)"
|
|
(when (setq branches (delq nil branches))
|
|
(let* ((carbranch (car branches))
|
|
(match (car carbranch)) (cdarbranch (cdr carbranch))
|
|
(code (car cdarbranch))
|
|
(vars (cdr cdarbranch)))
|
|
(pcase--u1 (list match) code vars (cdr branches)))))
|
|
|
|
(defun pcase--and (match matches)
|
|
(if matches `(and ,match ,@matches) match))
|
|
|
|
(defconst pcase-mutually-exclusive-predicates
|
|
'((symbolp . integerp)
|
|
(symbolp . numberp)
|
|
(symbolp . consp)
|
|
(symbolp . arrayp)
|
|
(symbolp . vectorp)
|
|
(symbolp . stringp)
|
|
(symbolp . byte-code-function-p)
|
|
(symbolp . recordp)
|
|
(integerp . consp)
|
|
(integerp . arrayp)
|
|
(integerp . vectorp)
|
|
(integerp . stringp)
|
|
(integerp . byte-code-function-p)
|
|
(integerp . recordp)
|
|
(numberp . consp)
|
|
(numberp . arrayp)
|
|
(numberp . vectorp)
|
|
(numberp . stringp)
|
|
(numberp . byte-code-function-p)
|
|
(numberp . recordp)
|
|
(consp . arrayp)
|
|
(consp . atom)
|
|
(consp . vectorp)
|
|
(consp . stringp)
|
|
(consp . byte-code-function-p)
|
|
(consp . recordp)
|
|
(arrayp . byte-code-function-p)
|
|
(vectorp . byte-code-function-p)
|
|
(vectorp . recordp)
|
|
(stringp . vectorp)
|
|
(stringp . recordp)
|
|
(stringp . byte-code-function-p)))
|
|
|
|
(defun pcase--mutually-exclusive-p (pred1 pred2)
|
|
(or (member (cons pred1 pred2)
|
|
pcase-mutually-exclusive-predicates)
|
|
(member (cons pred2 pred1)
|
|
pcase-mutually-exclusive-predicates)))
|
|
|
|
(defun pcase--split-match (sym splitter match)
|
|
(cond
|
|
((eq (car-safe match) 'match)
|
|
(if (not (eq sym (cadr match)))
|
|
(cons match match)
|
|
(let ((res (funcall splitter (cddr match))))
|
|
(cons (or (car res) match) (or (cdr res) match)))))
|
|
((memq (car-safe match) '(or and))
|
|
(let ((then-alts '())
|
|
(else-alts '())
|
|
(neutral-elem (if (eq 'or (car match))
|
|
:pcase--fail :pcase--succeed))
|
|
(zero-elem (if (eq 'or (car match)) :pcase--succeed :pcase--fail)))
|
|
(dolist (alt (cdr match))
|
|
(let ((split (pcase--split-match sym splitter alt)))
|
|
(unless (eq (car split) neutral-elem)
|
|
(push (car split) then-alts))
|
|
(unless (eq (cdr split) neutral-elem)
|
|
(push (cdr split) else-alts))))
|
|
(cons (cond ((memq zero-elem then-alts) zero-elem)
|
|
((null then-alts) neutral-elem)
|
|
((null (cdr then-alts)) (car then-alts))
|
|
(t (cons (car match) (nreverse then-alts))))
|
|
(cond ((memq zero-elem else-alts) zero-elem)
|
|
((null else-alts) neutral-elem)
|
|
((null (cdr else-alts)) (car else-alts))
|
|
(t (cons (car match) (nreverse else-alts)))))))
|
|
((memq match '(:pcase--succeed :pcase--fail)) (cons match match))
|
|
(t (error "Uknown MATCH %s" match))))
|
|
|
|
(defun pcase--split-rest (sym splitter rest)
|
|
(let ((then-rest '())
|
|
(else-rest '()))
|
|
(dolist (branch rest)
|
|
(let* ((match (car branch))
|
|
(code&vars (cdr branch))
|
|
(split
|
|
(pcase--split-match sym splitter match)))
|
|
(unless (eq (car split) :pcase--fail)
|
|
(push (cons (car split) code&vars) then-rest))
|
|
(unless (eq (cdr split) :pcase--fail)
|
|
(push (cons (cdr split) code&vars) else-rest))))
|
|
(cons (nreverse then-rest) (nreverse else-rest))))
|
|
|
|
(defun pcase--split-equal (elem pat)
|
|
(cond
|
|
;; The same match will give the same result.
|
|
((and (eq (car-safe pat) 'quote) (equal (cadr pat) elem))
|
|
'(:pcase--succeed . :pcase--fail))
|
|
;; A different match will fail if this one succeeds.
|
|
((and (eq (car-safe pat) 'quote)
|
|
;; (or (integerp (cadr pat)) (symbolp (cadr pat))
|
|
;; (consp (cadr pat)))
|
|
)
|
|
'(:pcase--fail . nil))
|
|
((and (eq (car-safe pat) 'pred)
|
|
(symbolp (cadr pat))
|
|
(get (cadr pat) 'side-effect-free))
|
|
(ignore-errors
|
|
(if (funcall (cadr pat) elem)
|
|
'(:pcase--succeed . nil)
|
|
'(:pcase--fail . nil))))))
|
|
|
|
(defun pcase--split-member (elems pat)
|
|
;; FIXME: The new pred-based member code doesn't do these optimizations!
|
|
;; Based on pcase--split-equal.
|
|
(cond
|
|
;; The same match (or a match of membership in a superset) will
|
|
;; give the same result, but we don't know how to check it.
|
|
;; (???
|
|
;; '(:pcase--succeed . nil))
|
|
;; A match for one of the elements may succeed or fail.
|
|
((and (eq (car-safe pat) 'quote) (member (cadr pat) elems))
|
|
nil)
|
|
;; A different match will fail if this one succeeds.
|
|
((and (eq (car-safe pat) 'quote)
|
|
;; (or (integerp (cadr pat)) (symbolp (cadr pat))
|
|
;; (consp (cadr pat)))
|
|
)
|
|
'(:pcase--fail . nil))
|
|
((and (eq (car-safe pat) 'pred)
|
|
(symbolp (cadr pat))
|
|
(get (cadr pat) 'side-effect-free)
|
|
(ignore-errors
|
|
(let ((p (cadr pat)) (all t))
|
|
(dolist (elem elems)
|
|
(unless (funcall p elem) (setq all nil)))
|
|
all)))
|
|
'(:pcase--succeed . nil))))
|
|
|
|
(defun pcase--split-pred (vars upat pat)
|
|
(let (test)
|
|
(cond
|
|
((and (equal upat pat)
|
|
;; For predicates like (pred (> a)), two such predicates may
|
|
;; actually refer to different variables `a'.
|
|
(or (and (eq 'pred (car upat)) (symbolp (cadr upat)))
|
|
;; FIXME: `vars' gives us the environment in which `upat' will
|
|
;; run, but we don't have the environment in which `pat' will
|
|
;; run, so we can't do a reliable verification. But let's try
|
|
;; and catch at least the easy cases such as (bug#14773).
|
|
(not (pcase--fgrep (mapcar #'car vars) (cadr upat)))))
|
|
'(:pcase--succeed . :pcase--fail))
|
|
((and (eq 'pred (car upat))
|
|
(let ((otherpred
|
|
(cond ((eq 'pred (car-safe pat)) (cadr pat))
|
|
((not (eq 'quote (car-safe pat))) nil)
|
|
((consp (cadr pat)) #'consp)
|
|
((stringp (cadr pat)) #'stringp)
|
|
((vectorp (cadr pat)) #'vectorp)
|
|
((byte-code-function-p (cadr pat))
|
|
#'byte-code-function-p))))
|
|
(pcase--mutually-exclusive-p (cadr upat) otherpred)))
|
|
'(:pcase--fail . nil))
|
|
((and (eq 'pred (car upat))
|
|
(eq 'quote (car-safe pat))
|
|
(symbolp (cadr upat))
|
|
(or (symbolp (cadr pat)) (stringp (cadr pat)) (numberp (cadr pat)))
|
|
(get (cadr upat) 'side-effect-free)
|
|
(ignore-errors
|
|
(setq test (list (funcall (cadr upat) (cadr pat))))))
|
|
(if (car test)
|
|
'(nil . :pcase--fail)
|
|
'(:pcase--fail . nil))))))
|
|
|
|
(defun pcase--fgrep (vars sexp)
|
|
"Check which of the symbols VARS appear in SEXP."
|
|
(let ((res '()))
|
|
(while (consp sexp)
|
|
(dolist (var (pcase--fgrep vars (pop sexp)))
|
|
(unless (memq var res) (push var res))))
|
|
(and (memq sexp vars) (not (memq sexp res)) (push sexp res))
|
|
res))
|
|
|
|
(defun pcase--self-quoting-p (upat)
|
|
(or (keywordp upat) (integerp upat) (stringp upat)))
|
|
|
|
(defun pcase--app-subst-match (match sym fun nsym)
|
|
(cond
|
|
((eq (car-safe match) 'match)
|
|
(if (and (eq sym (cadr match))
|
|
(eq 'app (car-safe (cddr match)))
|
|
(equal fun (nth 1 (cddr match))))
|
|
(pcase--match nsym (nth 2 (cddr match)))
|
|
match))
|
|
((memq (car-safe match) '(or and))
|
|
`(,(car match)
|
|
,@(mapcar (lambda (match)
|
|
(pcase--app-subst-match match sym fun nsym))
|
|
(cdr match))))
|
|
((memq match '(:pcase--succeed :pcase--fail)) match)
|
|
(t (error "Uknown MATCH %s" match))))
|
|
|
|
(defun pcase--app-subst-rest (rest sym fun nsym)
|
|
(mapcar (lambda (branch)
|
|
`(,(pcase--app-subst-match (car branch) sym fun nsym)
|
|
,@(cdr branch)))
|
|
rest))
|
|
|
|
(defsubst pcase--mark-used (sym)
|
|
;; Exceptionally, `sym' may be a constant expression rather than a symbol.
|
|
(if (symbolp sym) (put sym 'pcase-used t)))
|
|
|
|
(defmacro pcase--flip (fun arg1 arg2)
|
|
"Helper function, used internally to avoid (funcall (lambda ...) ...)."
|
|
(declare (debug (sexp body)))
|
|
`(,fun ,arg2 ,arg1))
|
|
|
|
(defun pcase--funcall (fun arg vars)
|
|
"Build a function call to FUN with arg ARG."
|
|
(if (symbolp fun)
|
|
`(,fun ,arg)
|
|
(let* (;; `vs' is an upper bound on the vars we need.
|
|
(vs (pcase--fgrep (mapcar #'car vars) fun))
|
|
(env (mapcar (lambda (var)
|
|
(list var (cdr (assq var vars))))
|
|
vs))
|
|
(call (progn
|
|
(when (memq arg vs)
|
|
;; `arg' is shadowed by `env'.
|
|
(let ((newsym (gensym "x")))
|
|
(push (list newsym arg) env)
|
|
(setq arg newsym)))
|
|
(if (functionp fun)
|
|
`(funcall #',fun ,arg)
|
|
`(,@fun ,arg)))))
|
|
(if (null vs)
|
|
call
|
|
;; Let's not replace `vars' in `fun' since it's
|
|
;; too difficult to do it right, instead just
|
|
;; let-bind `vars' around `fun'.
|
|
`(let* ,env ,call)))))
|
|
|
|
(defun pcase--eval (exp vars)
|
|
"Build an expression that will evaluate EXP."
|
|
(let* ((found (assq exp vars)))
|
|
(if found (cdr found)
|
|
(let* ((vs (pcase--fgrep (mapcar #'car vars) exp))
|
|
(env (mapcar (lambda (v) (list v (cdr (assq v vars))))
|
|
vs)))
|
|
(if env (macroexp-let* env exp) exp)))))
|
|
|
|
;; It's very tempting to use `pcase' below, tho obviously, it'd create
|
|
;; bootstrapping problems.
|
|
(defun pcase--u1 (matches code vars rest)
|
|
"Return code that runs CODE (with VARS) if MATCHES match.
|
|
Otherwise, it defers to REST which is a list of branches of the form
|
|
\(ELSE-MATCH ELSE-CODE . ELSE-VARS)."
|
|
;; Depending on the order in which we choose to check each of the MATCHES,
|
|
;; the resulting tree may be smaller or bigger. So in general, we'd want
|
|
;; to be careful to chose the "optimal" order. But predicate
|
|
;; patterns make this harder because they create dependencies
|
|
;; between matches. So we don't bother trying to reorder anything.
|
|
(cond
|
|
((null matches) (funcall code vars))
|
|
((eq :pcase--fail (car matches)) (pcase--u rest))
|
|
((eq :pcase--succeed (car matches))
|
|
(pcase--u1 (cdr matches) code vars rest))
|
|
((eq 'and (caar matches))
|
|
(pcase--u1 (append (cdar matches) (cdr matches)) code vars rest))
|
|
((eq 'or (caar matches))
|
|
(let* ((alts (cdar matches))
|
|
(var (if (eq (caar alts) 'match) (cadr (car alts))))
|
|
(simples '()) (others '()) (mem-fun 'memq))
|
|
(when var
|
|
(dolist (alt alts)
|
|
(if (and (eq (car alt) 'match) (eq var (cadr alt))
|
|
(let ((upat (cddr alt)))
|
|
(eq (car-safe upat) 'quote)))
|
|
(let ((val (cadr (cddr alt))))
|
|
(cond ((integerp val)
|
|
(when (eq mem-fun 'memq)
|
|
(setq mem-fun 'memql)))
|
|
((not (symbolp val))
|
|
(setq mem-fun 'member)))
|
|
(push val simples))
|
|
(push alt others))))
|
|
(cond
|
|
((null alts) (error "Please avoid it") (pcase--u rest))
|
|
;; Yes, we can use `memql' (or `member')!
|
|
((> (length simples) 1)
|
|
(pcase--u1 (cons `(match ,var
|
|
. (pred (pcase--flip ,mem-fun ',simples)))
|
|
(cdr matches))
|
|
code vars
|
|
(if (null others) rest
|
|
(cons (cons
|
|
(pcase--and (if (cdr others)
|
|
(cons 'or (nreverse others))
|
|
(car others))
|
|
(cdr matches))
|
|
(cons code vars))
|
|
rest))))
|
|
(t
|
|
(pcase--u1 (cons (pop alts) (cdr matches)) code vars
|
|
(if (null alts) (progn (error "Please avoid it") rest)
|
|
(cons (cons
|
|
(pcase--and (if (cdr alts)
|
|
(cons 'or alts) (car alts))
|
|
(cdr matches))
|
|
(cons code vars))
|
|
rest)))))))
|
|
((eq 'match (caar matches))
|
|
(let* ((popmatches (pop matches))
|
|
(_op (car popmatches)) (cdrpopmatches (cdr popmatches))
|
|
(sym (car cdrpopmatches))
|
|
(upat (cdr cdrpopmatches)))
|
|
(cond
|
|
((memq upat '(t _))
|
|
(let ((code (pcase--u1 matches code vars rest)))
|
|
(if (eq upat '_) code
|
|
(macroexp--warn-and-return
|
|
"Pattern t is deprecated. Use `_' instead"
|
|
code))))
|
|
((eq upat 'pcase--dontcare) :pcase--dontcare)
|
|
((memq (car-safe upat) '(guard pred))
|
|
(if (eq (car upat) 'pred) (pcase--mark-used sym))
|
|
(let* ((splitrest
|
|
(pcase--split-rest
|
|
sym (lambda (pat) (pcase--split-pred vars upat pat)) rest))
|
|
(then-rest (car splitrest))
|
|
(else-rest (cdr splitrest)))
|
|
(pcase--if (if (eq (car upat) 'pred)
|
|
(pcase--funcall (cadr upat) sym vars)
|
|
(pcase--eval (cadr upat) vars))
|
|
(pcase--u1 matches code vars then-rest)
|
|
(pcase--u else-rest))))
|
|
((and (symbolp upat) upat)
|
|
(pcase--mark-used sym)
|
|
(if (not (assq upat vars))
|
|
(pcase--u1 matches code (cons (cons upat sym) vars) rest)
|
|
;; Non-linear pattern. Turn it into an `eq' test.
|
|
(pcase--u1 (cons `(match ,sym . (pred (eq ,(cdr (assq upat vars)))))
|
|
matches)
|
|
code vars rest)))
|
|
((eq (car-safe upat) 'let)
|
|
;; A upat of the form (let VAR EXP).
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|
;; (pcase--u1 matches code
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|
;; (cons (cons (nth 1 upat) (nth 2 upat)) vars) rest)
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|
(macroexp-let2
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|
macroexp-copyable-p sym
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|
(pcase--eval (nth 2 upat) vars)
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|
(pcase--u1 (cons (pcase--match sym (nth 1 upat)) matches)
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|
code vars rest)))
|
|
((eq (car-safe upat) 'app)
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|
;; A upat of the form (app FUN PAT)
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|
(pcase--mark-used sym)
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|
(let* ((fun (nth 1 upat))
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|
(nsym (gensym "x"))
|
|
(body
|
|
;; We don't change `matches' to reuse the newly computed value,
|
|
;; because we assume there shouldn't be such redundancy in there.
|
|
(pcase--u1 (cons (pcase--match nsym (nth 2 upat)) matches)
|
|
code vars
|
|
(pcase--app-subst-rest rest sym fun nsym))))
|
|
(if (not (get nsym 'pcase-used))
|
|
body
|
|
(macroexp-let*
|
|
`((,nsym ,(pcase--funcall fun sym vars)))
|
|
body))))
|
|
((eq (car-safe upat) 'quote)
|
|
(pcase--mark-used sym)
|
|
(let* ((val (cadr upat))
|
|
(splitrest (pcase--split-rest
|
|
sym (lambda (pat) (pcase--split-equal val pat)) rest))
|
|
(then-rest (car splitrest))
|
|
(else-rest (cdr splitrest)))
|
|
(pcase--if (cond
|
|
((null val) `(null ,sym))
|
|
((integerp val) `(eql ,sym ,val))
|
|
((symbolp val)
|
|
(if (pcase--self-quoting-p val)
|
|
`(eq ,sym ,val)
|
|
`(eq ,sym ',val)))
|
|
(t `(equal ,sym ',val)))
|
|
(pcase--u1 matches code vars then-rest)
|
|
(pcase--u else-rest))))
|
|
((eq (car-safe upat) 'not)
|
|
;; FIXME: The implementation below is naive and results in
|
|
;; inefficient code.
|
|
;; To make it work right, we would need to turn pcase--u1's
|
|
;; `code' and `vars' into a single argument of the same form as
|
|
;; `rest'. We would also need to split this new `then-rest' argument
|
|
;; for every test (currently we don't bother to do it since
|
|
;; it's only useful for odd patterns like (and `(PAT1 . PAT2)
|
|
;; `(PAT3 . PAT4)) which the programmer can easily rewrite
|
|
;; to the more efficient `(,(and PAT1 PAT3) . ,(and PAT2 PAT4))).
|
|
(pcase--u1 `((match ,sym . ,(cadr upat)))
|
|
;; FIXME: This codegen is not careful to share its
|
|
;; code if used several times: code blow up is likely.
|
|
(lambda (_vars)
|
|
;; `vars' will likely contain bindings which are
|
|
;; not always available in other paths to
|
|
;; `rest', so there' no point trying to pass
|
|
;; them down.
|
|
(pcase--u rest))
|
|
vars
|
|
(list `((and . ,matches) ,code . ,vars))))
|
|
(t (error "Unknown pattern `%S'" upat)))))
|
|
(t (error "Incorrect MATCH %S" (car matches)))))
|
|
|
|
(def-edebug-spec
|
|
pcase-QPAT
|
|
;; Cf. edebug spec for `backquote-form' in edebug.el.
|
|
(&or ("," pcase-PAT)
|
|
(pcase-QPAT [&rest [¬ ","] pcase-QPAT]
|
|
. [&or nil pcase-QPAT])
|
|
(vector &rest pcase-QPAT)
|
|
sexp))
|
|
|
|
(pcase-defmacro \` (qpat)
|
|
"Backquote-style pcase patterns: \\=`QPAT
|
|
QPAT can take the following forms:
|
|
(QPAT1 . QPAT2) matches if QPAT1 matches the car and QPAT2 the cdr.
|
|
[QPAT1 QPAT2..QPATn] matches a vector of length n and QPAT1..QPATn match
|
|
its 0..(n-1)th elements, respectively.
|
|
,PAT matches if the `pcase' pattern PAT matches.
|
|
SYMBOL matches if EXPVAL is `equal' to SYMBOL.
|
|
KEYWORD likewise for KEYWORD.
|
|
NUMBER likewise for NUMBER.
|
|
STRING likewise for STRING.
|
|
|
|
The list or vector QPAT is a template. The predicate formed
|
|
by a backquote-style pattern is a combination of those
|
|
formed by any sub-patterns, wrapped in a top-level condition:
|
|
EXPVAL must be \"congruent\" with the template. For example:
|
|
|
|
\\=`(technical ,forum)
|
|
|
|
The predicate is the logical-AND of:
|
|
- Is EXPVAL a list of two elements?
|
|
- Is the first element the symbol `technical'?
|
|
- True! (The second element can be anything, and for the sake
|
|
of the body forms, its value is bound to the symbol `forum'.)"
|
|
(declare (debug (pcase-QPAT)))
|
|
(cond
|
|
((eq (car-safe qpat) '\,) (cadr qpat))
|
|
((vectorp qpat)
|
|
`(and (pred vectorp)
|
|
(app length ,(length qpat))
|
|
,@(let ((upats nil))
|
|
(dotimes (i (length qpat))
|
|
(push `(app (pcase--flip aref ,i) ,(list '\` (aref qpat i)))
|
|
upats))
|
|
(nreverse upats))))
|
|
((consp qpat)
|
|
`(and (pred consp)
|
|
(app car ,(list '\` (car qpat)))
|
|
(app cdr ,(list '\` (cdr qpat)))))
|
|
((or (stringp qpat) (numberp qpat) (symbolp qpat)) `',qpat)
|
|
;; In all other cases just raise an error so we can't break
|
|
;; backward compatibility when adding \` support for other
|
|
;; compounded values that are not `consp'
|
|
(t (error "Unknown QPAT: %S" qpat))))
|
|
|
|
(provide 'pcase)
|
|
;;; pcase.el ends here
|