;;; geiser-mode.el -- minor mode for scheme buffers ;; Copyright (C) 2009, 2010, 2011, 2012, 2013, 2014, 2015, 2016, 2017, 2020, 2022 Jose Antonio Ortega Ruiz ;; This program is free software; you can redistribute it and/or ;; modify it under the terms of the Modified BSD License. You should ;; have received a copy of the license along with this program. If ;; not, see . ;; Start date: Sun Feb 08, 2009 15:13 ;;; Code: (require 'geiser-repl) (require 'geiser-capf) (require 'geiser-menu) (require 'geiser-doc) (require 'geiser-compile) (require 'geiser-completion) (require 'geiser-xref) (require 'geiser-edit) (require 'geiser-autodoc) (require 'geiser-debug) (require 'geiser-syntax) (require 'geiser-impl) (require 'geiser-eval) (require 'geiser-popup) (require 'geiser-custom) (require 'geiser-base) ;;; Customization: (defgroup geiser-mode nil "Mode enabling Geiser abilities in Scheme buffers &co.." :group 'geiser) (geiser-custom--defcustom geiser-mode-auto-p t "Whether `geiser-mode' should be active by default in all scheme buffers." :group 'geiser-mode :type 'boolean) (geiser-custom--defcustom geiser-mode-start-repl-p nil "Whether a REPL should be automatically started if one is not active when `geiser-mode' is activated in a buffer." :group 'geiser-mode :type 'boolean) (geiser-custom--defcustom geiser-mode-autodoc-p t "Whether `geiser-autodoc-mode' gets enabled by default in Scheme buffers." :group 'geiser-mode :group 'geiser-autodoc :type 'boolean) (geiser-custom--defcustom geiser-mode-smart-tab-p nil "Whether `geiser-smart-tab-mode' gets enabled by default in Scheme buffers." :group 'geiser-mode :type 'boolean) (geiser-custom--defcustom geiser-mode-eval-last-sexp-to-buffer nil "Whether `eval-last-sexp' prints results to buffer" :group 'geiser-mode :type 'boolean) (geiser-custom--defcustom geiser-mode-eval-to-buffer-prefix " " "When `geiser-mode-eval-last-sexp-to-buffer', the prefix string which will be prepended to results." :group 'geiser-mode :type 'string) (geiser-custom--defcustom geiser-mode-eval-to-buffer-transformer nil "Transformer for results inserted in debug buffer. When `geiser-mode-eval-last-sexp-to-buffer', the result will be transformed using this function default behavior is just prepend with `geiser-mode-eval-to-buffer-prefix' takes two arguments: `msg' and `is-error?' `msg' is the result string going to be transformed, `is-error?' is a boolean indicating whether the result is an error msg." :group 'geiser-mode :type 'function) ;;; Evaluation commands: (defun geiser--go-to-repl () (switch-to-geiser nil nil (current-buffer)) (push-mark) (goto-char (point-max))) (defun geiser-wait-eval (req timeout) "Use REQ, the result of computing an evaluation, to wait for its result. TIMEOUT is the number of seconds to wait for evaluation completion. Functions returning a waitable REQ are `geiser-eval-region' and its derivatives evaluating buffers or individual sexps." (geiser-eval--wait req (* 1000 timeout))) (defun geiser-eval-region (start end &optional and-go raw nomsg) "Eval the current region in the Geiser REPL. With prefix, goes to the REPL buffer afterwards (as `geiser-eval-region-and-go'). The evaluation is performed asynchronously: this function's return value can be used to wait for its completion using `geiser-eval-wait'. See also `geiser-eval-region/wait' if you just need to eval a region programmatically in a synchronous way." (interactive "rP") (save-restriction (narrow-to-region start end) (check-parens)) (geiser-debug--send-region nil start end (and and-go 'geiser--go-to-repl) (not raw) nomsg)) (defun geiser-eval-region/wait (start end &optional timeout) "Like `geiser-eval-region', but waiting for the evaluation to finish. Returns its raw result, rather than displaying it. TIMEOUT is the number of seconds to wait for the evaluation to finish." (geiser-debug--send-region/wait nil start end (* 1000 (or timeout 10)))) (defun geiser-eval-region-and-go (start end) "Eval the current region in the Geiser REPL and visit it afterwads." (interactive "r") (geiser-eval-region start end t)) (geiser-impl--define-caller geiser-eval--bounds eval-bounds () "A pair with the bounds of a buffer to be evaluated, defaulting to (cons (point-min) . (point-max)).") (defun geiser-eval-buffer (&optional and-go raw nomsg) "Eval the current buffer in the Geiser REPL. With prefix, goes to the REPL buffer afterwards (as `geiser-eval-buffer-and-go')" (interactive "P") (let* ((bounds (geiser-eval--bounds geiser-impl--implementation)) (from (or (car bounds) (point-min))) (to (or (cdr bounds) (point-max)))) (geiser-eval-region from to and-go raw nomsg))) (defun geiser-eval-buffer-and-go () "Eval the current buffer in the Geiser REPL and visit it afterwads." (interactive) (geiser-eval-buffer t)) (defun geiser-eval-definition (&optional and-go) "Eval the current definition in the Geiser REPL. With prefix, goes to the REPL buffer afterwards (as `geiser-eval-definition-and-go')" (interactive "P") (save-excursion (end-of-defun) (let ((end (point))) (beginning-of-defun) (geiser-eval-region (point) end and-go t)))) (defun geiser-eval-definition-and-go () "Eval the current definition in the Geiser REPL and visit it afterwads." (interactive) (geiser-eval-definition t)) (defun geiser-eval-last-sexp (print-to-buffer-p) "Eval the previous sexp in the Geiser REPL. With a prefix, revert the effect of `geiser-mode-eval-last-sexp-to-buffer' " (interactive "P") (let* (bosexp (eosexp (save-excursion (backward-sexp) (setq bosexp (point)) (forward-sexp) (point))) (ret-transformer (or geiser-mode-eval-to-buffer-transformer (lambda (msg is-error?) (format "%s%s%s" geiser-mode-eval-to-buffer-prefix (if is-error? "ERROR" "") msg)))) (ret (save-excursion (geiser-eval-region bosexp ;beginning of sexp eosexp ;end of sexp nil t print-to-buffer-p))) (ret (geiser-wait-eval ret 30)) (err (geiser-eval--retort-error ret)) (will-eval-to-buffer (if print-to-buffer-p (not geiser-mode-eval-last-sexp-to-buffer) geiser-mode-eval-last-sexp-to-buffer)) (str (geiser-eval--retort-result-str ret (when will-eval-to-buffer "")))) (cond ((not will-eval-to-buffer) str) (err (insert (funcall ret-transformer (geiser-eval--error-str err) t))) ((string= "" str)) (t (push-mark) (insert (funcall ret-transformer str nil)))))) (defun geiser-compile-definition (&optional and-go) "Compile the current definition in the Geiser REPL. With prefix, goes to the REPL buffer afterwards (as `geiser-eval-definition-and-go')" (interactive "P") (save-excursion (end-of-defun) (let ((end (point))) (beginning-of-defun) (geiser-debug--send-region t (point) end (and and-go 'geiser--go-to-repl) t)))) (defun geiser-compile-definition-and-go () "Compile the current definition in the Geiser REPL and visit it afterwads." (interactive) (geiser-compile-definition t)) (defun geiser-expand-region (start end &optional all raw) "Macro-expand the current region and display it in a buffer. With prefix, recursively macro-expand the resulting expression." (interactive "rP") (geiser-debug--expand-region start end all (not raw))) (defun geiser-expand-definition (&optional all) "Macro-expand the current definition. With prefix, recursively macro-expand the resulting expression." (interactive "P") (save-excursion (end-of-defun) (let ((end (point))) (beginning-of-defun) (geiser-expand-region (point) end all t)))) (defun geiser-expand-last-sexp (&optional all) "Macro-expand the previous sexp. With prefix, recursively macro-expand the resulting expression." (interactive "P") (geiser-expand-region (save-excursion (backward-sexp) (point)) (point) all t)) (defun geiser-set-scheme () "Associates current buffer with a given Scheme implementation." (interactive) (save-excursion (geiser-syntax--remove-kws) (let ((impl (geiser-impl--read-impl))) (geiser-impl--set-buffer-implementation impl) (geiser-repl--set-up-repl impl) (geiser-syntax--add-kws) (geiser-syntax--fontify)))) (defun geiser-mode-switch-to-repl (arg) "Switches to Geiser REPL. With prefix, try to enter the current buffer's module." (interactive "P") (geiser-repl--switch-to-repl arg)) (defun geiser-mode-switch-to-repl-and-enter () "Switches to Geiser REPL and enters current buffer's module." (interactive) (geiser-mode-switch-to-repl t)) (defun geiser-restart-repl () "Restarts the REPL associated with the current buffer." (interactive) (let ((b (current-buffer)) (impl geiser-impl--implementation)) (when (buffer-live-p geiser-repl--repl) (geiser-mode-switch-to-repl nil) (comint-kill-subjob) (sit-for 0.1)) ;; ugly hack; but i don't care enough to fix it (run-geiser impl) (sit-for 0.2) (goto-char (point-max)) (pop-to-buffer b))) (defun geiser-exit-repl () "Issues the command `geiser-repl-exit' in this buffer's associated REPL." (interactive) (geiser-repl--call-in-repl #'geiser-repl-exit)) ;;; Keys: (defvar geiser-mode-map (let ((map (make-sparse-keymap))) (define-key map [menu-bar scheme] 'undefined) ;; (geiser-mode--triple-chord ?x ?m 'geiser-xref-generic-methods) (geiser-menu--defmenu geiserm map ("Eval sexp before point" "\C-x\C-e" geiser-eval-last-sexp) ("Eval definition" ("\M-\C-x" "\C-c\C-c") geiser-eval-definition) ("Eval definition and go" ("\C-c\M-e" "\C-c\M-e") geiser-eval-definition-and-go) ("Eval region" "\C-c\C-r" geiser-eval-region :enable mark-active) ("Eval region and go" "\C-c\M-r" geiser-eval-region-and-go geiser-eval-region :enable mark-active) ("Eval buffer" "\C-c\C-b" geiser-eval-buffer) ("Eval buffer and go" "\C-c\M-b" geiser-eval-buffer-and-go) ("Load scheme file..." "\C-c\C-l" geiser-load-file) ("Abort evaluation" ("\C-c\C-i" "\C-c\C-e\C-i" "\C-c\C-ei") geiser-eval-interrupt) (menu "Macroexpand" ("Sexp before point" ("\C-c\C-m\C-e" "\C-c\C-me") geiser-expand-last-sexp) ("Region" ("\C-c\C-m\C-r" "\C-c\C-mr") geiser-expand-region) ("Definition" ("\C-c\C-m\C-x" "\C-c\C-mx") geiser-expand-definition)) -- ("Symbol documentation" ("\C-c\C-d\C-d" "\C-c\C-dd") geiser-doc-symbol-at-point :enable (geiser--symbol-at-point)) ("Short symbol documentation" ("\C-c\C-d\C-s" "\C-c\C-ds") geiser-autodoc-show :enable (geiser--symbol-at-point)) ("Module documentation" ("\C-c\C-d\C-m" "\C-c\C-dm") geiser-doc-module) ("Symbol manual lookup" ("\C-c\C-d\C-i" "\C-c\C-di") geiser-doc-look-up-manual :enable (geiser-doc--manual-available-p)) (mode "Autodoc mode" ("\C-c\C-d\C-a" "\C-c\C-da") geiser-autodoc-mode) -- ("Compile buffer" "\C-c\C-k" geiser-compile-current-buffer) ("Switch to REPL" "\C-c\C-z" geiser-mode-switch-to-repl) ("Switch to REPL and enter module" "\C-c\C-a" geiser-mode-switch-to-repl-and-enter) ("Set Scheme..." "\C-c\C-s" geiser-set-scheme) ("Exit REPL or debugger" "\C-c\C-q" geiser-exit-repl) -- ("Edit symbol at point" "\M-." geiser-edit-symbol-at-point :enable (geiser--symbol-at-point)) ("Go to previous definition" "\M-," geiser-pop-symbol-stack) ("Complete symbol" ((kbd "M-TAB")) completion-at-point :enable (geiser--symbol-at-point)) ("Complete module name" ((kbd "M-`") (kbd "C-.")) geiser-capf-complete-module) ("Edit module" ("\C-c\C-e\C-m" "\C-c\C-em") geiser-edit-module) ("Add to load path..." ("\C-c\C-e\C-l" "\C-c\C-el") geiser-add-to-load-path) ("Toggle ()/[]" ("\C-c\C-e\C-[" "\C-c\C-e[") geiser-squarify) ("Insert λ" ("\C-c\\" "\C-c\C-\\") geiser-insert-lambda) -- ("Callers" ((kbd "C-c <")) geiser-xref-callers :enable (and (geiser-eval--supported-p 'callers) (geiser--symbol-at-point))) ("Callees" ((kbd "C-c >")) geiser-xref-callees :enable (and (geiser-eval--supported-p 'callees) (geiser--symbol-at-point))) -- (mode "Smart TAB mode" nil geiser-smart-tab-mode) -- (custom "Customize Geiser mode" geiser-mode)) map)) ;;; Geiser mode: (defvar-local geiser-mode-string nil "Modeline indicator for geiser-mode") (defun geiser-mode--lighter () (or geiser-mode-string (format " %s" (or (geiser-impl--impl-str) "G")))) (define-minor-mode geiser-mode "Toggle Geiser's mode. With no argument, this command toggles the mode. Non-null prefix argument turns on the mode. Null prefix argument turns off the mode. When Geiser mode is enabled, a host of nice utilities for interacting with the Geiser REPL is at your disposal. \\{geiser-mode-map}" :init-value nil :lighter (:eval (geiser-mode--lighter)) :group 'geiser-mode (when geiser-mode (geiser-impl--set-buffer-implementation nil t)) (setq geiser-autodoc-mode-string "/A") (setq geiser-smart-tab-mode-string "/T") (geiser-capf-setup geiser-mode) (when geiser-mode-autodoc-p (geiser-autodoc-mode (if geiser-mode 1 -1))) (when geiser-mode-smart-tab-p (geiser-smart-tab-mode (if geiser-mode 1 -1))) (geiser-syntax--add-kws) (when (and geiser-mode geiser-mode-start-repl-p (not (geiser-syntax--font-lock-buffer-p)) (not (geiser-repl--connection*))) (save-window-excursion (run-geiser geiser-impl--implementation)))) (defun turn-on-geiser-mode () "Enable `geiser-mode' (in a Scheme buffer)." (interactive) (geiser-mode 1)) (defun turn-off-geiser-mode () "Disable `geiser-mode' (in a Scheme buffer)." (interactive) (geiser-mode -1)) (defun geiser-mode--maybe-activate () (when (and geiser-mode-auto-p (eq major-mode 'scheme-mode)) (turn-on-geiser-mode))) ;;; Reload support: (defun geiser-mode--buffers () (let ((buffers)) (dolist (buffer (buffer-list)) (when (buffer-live-p buffer) (set-buffer buffer) (when geiser-mode (push (cons buffer geiser-impl--implementation) buffers)))) buffers)) (defun geiser-mode--restore (buffers) (dolist (b buffers) (when (buffer-live-p (car b)) (set-buffer (car b)) (when (cdr b) (geiser-impl--set-buffer-implementation (cdr b))) (geiser-mode 1)))) (defun geiser-mode-unload-function () (dolist (b (geiser-mode--buffers)) (with-current-buffer (car b) (geiser-mode nil)))) (provide 'geiser-mode)