;; Copyright (c) 2013, 2014 Microsoft Corporation. All rights reserved. ;; Released under Apache 2.0 license as described in the file LICENSE. ;; ;; Author: Leonardo de Moura ;; Soonho Kong ;; (require 'cl-lib) (require 'generic-x) (require 'compile) (require 'flymake) (require 'lean-util) (require 'lean-settings) (require 'lean-flycheck) (require 'lean-input) (defun lean-compile-string (exe-name args file-name) "Concatenate exe-name, args, and file-name" (format "%s %s %s" exe-name args file-name)) (defun lean-create-temp-in-system-tempdir (filename prefix) "Create a temp lean file and return its name" (make-temp-file (or prefix "flymake") nil ".lean")) (defun lean-execute (&optional arg) "Execute Lean in the current buffer" (interactive "sarg: ") (let ((target-file-name (lean-get-this-if-true-or-that (buffer-file-name) (flymake-init-create-temp-buffer-copy 'lean-create-temp-in-system-tempdir)))) (compile (lean-compile-string (lean-get-executable lean-executable-name) (lean-get-this-if-true-or-that arg "") target-file-name)))) (defun lean-std-exe () (interactive) (lean-execute)) (defun lean-hott-exe () (interactive) (lean-execute "--hott")) (defun lean-set-keys () (local-set-key "\C-c\C-x" 'lean-std-exe) (local-set-key "\C-c\C-l" 'lean-std-exe) (local-set-key "\C-c\C-k" 'lean-hott-exe)) (define-abbrev-table 'lean-mode-abbrev-table '( ("var" "variable") ("vars" "variables") ("def" "definition") ("th" "theorem") )) (define-generic-mode 'lean-mode ;; name of the mode to create '("--") ;; comments start with '("import" "abbreviation" "opaque_hint" "tactic_hint" "definition" "renaming" "inline" "hiding" "exposing" "parameter" "parameters" "proof" "qed" "conjecture" "hypothesis" "lemma" "corollary" "variable" "variables" "print" "theorem" "axiom" "inductive" "with" "structure" "universe" "alias" "help" "environment" "options" "precedence" "postfix" "prefix" "calc_trans" "calc_subst" "calc_refl" "infix" "infixl" "infixr" "notation" "eval" "check" "exit" "coercion" "end" "private" "using" "namespace" "builtin" "including" "instance" "section" "set_option" "add_rewrite" "extends") ;; some keywords '(("\\_<\\(bool\\|int\\|nat\\|real\\|Prop\\|Type\\|ℕ\\|ℤ\\)\\_>" . 'font-lock-type-face) ("\\_<\\(calc\\|have\\|obtains\\|show\\|by\\|in\\|let\\|forall\\|fun\\|exists\\|if\\|then\\|else\\|assume\\|take\\|obtain\\|from\\)\\_>" . font-lock-keyword-face) ("\"[^\"]*\"" . 'font-lock-string-face) ("\\(->\\|↔\\|/\\\\\\|==\\|\\\\/\\|[*+/<=>¬∧∨≠≤≥-]\\)" . 'font-lock-constant-face) ("\\(λ\\|→\\|∃\\|∀\\|:\\|:=\\)" . font-lock-constant-face) ("\\_<\\(\\b.*_tac\\|Cond\\|or_else\\|t\\(?:hen\\|ry\\)\\|when\\|assumption\\|apply\\|b\\(?:ack\\|eta\\)\\|done\\|exact\\)\\_>" . 'font-lock-constant-face) ("\\_<\\(universe\\|inductive\\|theorem\\|axiom\\|lemma\\|hypothesis\\|abbreviation\\|definition\\|variable\\|parameter\\)\\_>[ \t\{\[]*\\([^ \t\n]*\\)" (2 'font-lock-function-name-face)) ("\\_<\\(variables\\|parameters\\)\\_>[ \t\(\{\[]*\\([^:]*\\)" (2 'font-lock-function-name-face)) ("\\(set_opaque\\|set_option\\)[ \t]*\\([^ \t\n]*\\)" (2 'font-lock-constant-face)) ("\\_<_\\_>" . 'font-lock-preprocessor-face) ("\\_" . 'font-lock-warning-face) ;; ) '("\\.lean$") ;; files for which to activate this mode '((lambda() (set-input-method "Lean") (set (make-local-variable 'lisp-indent-function) 'common-lisp-indent-function) (lean-set-keys) (setq local-abbrev-table lean-mode-abbrev-table) (abbrev-mode 1) (when (and lean-rule-column lean-show-rule-column-method) (cl-case lean-show-rule-column-method ('vline (require 'fill-column-indicator) (setq fci-rule-column lean-rule-column) (setq fci-rule-color lean-rule-color) (add-hook 'lean-mode-hook 'fci-mode)))) (if lean-delete-trailing-whitespace (progn (require 'whitespace-cleanup-mode) (add-hook 'lean-mode-hook 'whitespace-cleanup-mode)) (remove-hook 'lean-mode-hook 'whitespace-cleanup-mode)) )) "A mode for Lean files" ;; doc string for this mode ) (provide 'lean-mode) ; (regexp-opt '("Int" "Bool" "Nat" "Type" "Real") t) ; (regexp-opt '("let" "in" "have" "calc" "forall" "exists") t) ; (regexp-opt '("=" "->" "≠" "∨" "∧" "¬" "/\\" "\\/" "+" "-" "*" "/" "<" ">" "≤" "≥" "==" "∀" "∃" "→" "λ" ":") t) ; (regexp-opt '("apply" "exact" "trivial" "absurd" "beta" "apply" "unfold" "done" "back" "Try" "Then" "OrElse" "OrElse" "Cond" "When" "unfold_all" ) t)