;;; sql.el --- specialized comint.el for SQL interpreters -*- lexical-binding: t -*- ;; Copyright (C) 1998-2024 Free Software Foundation, Inc. ;; Author: Alex Schroeder ;; Maintainer: Michael Mauger ;; Version: 3.6 ;; Keywords: comm languages processes ;; 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: ;; Please send bug reports and bug fixes to the mailing list at ;; bug-gnu-emacs@gnu.org. ;; See also the general help list at ;; https://lists.gnu.org/mailman/listinfo/help-gnu-emacs ;; I monitor this list actively. If you send an e-mail ;; to Alex Schroeder it usually makes it to me when Alex has a chance ;; to forward them along (Thanks, Alex). ;; This file provides a sql-mode and a sql-interactive-mode. The ;; original goals were two simple modes providing syntactic ;; highlighting. The interactive mode had to provide a command-line ;; history; the other mode had to provide "send region/buffer to SQL ;; interpreter" functions. "simple" in this context means easy to ;; use, easy to maintain and little or no bells and whistles. This ;; has changed somewhat as experience with the mode has accumulated. ;; Support for different flavors of SQL and command interpreters was ;; available in early versions of sql.el. This support has been ;; extended and formalized in later versions. Part of the impetus for ;; the improved support of SQL flavors was borne out of the current ;; maintainers consulting experience. In the past twenty years, I ;; have used Oracle, Sybase, Informix, MySQL, Postgres, and SQLServer. ;; On some assignments, I have used two or more of these concurrently. ;; If anybody feels like extending this sql mode, take a look at the ;; above mentioned modes and write a sqlx-mode on top of this one. If ;; this proves to be difficult, please suggest changes that will ;; facilitate your plans. Facilities have been provided to add ;; products and product-specific configuration. ;; sql-interactive-mode is used to interact with a SQL interpreter ;; process in a SQLi buffer (usually called `*SQL*'). The SQLi buffer ;; is created by calling a SQL interpreter-specific entry function or ;; sql-product-interactive. Do *not* call sql-interactive-mode by ;; itself. ;; The list of currently supported interpreters and the corresponding ;; entry function used to create the SQLi buffers is shown with ;; `sql-help' (M-x sql-help). ;; Since sql-interactive-mode is built on top of the general ;; command-interpreter-in-a-buffer mode (comint mode), it shares a ;; common base functionality, and a common set of bindings, with all ;; modes derived from comint mode. This makes these modes easier to ;; use. ;; sql-mode can be used to keep editing SQL statements. The SQL ;; statements can be sent to the SQL process in the SQLi buffer. ;; For documentation on the functionality provided by comint mode, and ;; the hooks available for customizing it, see the file `comint.el'. ;; Hint for newbies: take a look at `dabbrev-expand', `abbrev-mode', and ;; `imenu-add-menubar-index'. ;;; Bugs: ;; sql-ms now uses osql instead of isql. Osql flushes its error ;; stream more frequently than isql so that error messages are ;; available. There is no prompt and some output still is buffered. ;; This improves the interaction under Emacs but it still is somewhat ;; awkward. ;; Quoted identifiers are not supported for highlighting. Most ;; databases support the use of double quoted strings in place of ;; identifiers; ms (Microsoft SQLServer) also supports identifiers ;; enclosed within brackets []. ;;; Product Support: ;; To add support for additional SQL products the following steps ;; must be followed ("xyz" is the name of the product in the examples ;; below): ;; 1) Add the product to the list of known products. ;; (sql-add-product 'xyz "XyzDB" ;; '(:free-software t)) ;; 2) Define font lock settings. All ANSI keywords will be ;; highlighted automatically, so only product specific keywords ;; need to be defined here. ;; (defvar my-sql-mode-xyz-font-lock-keywords ;; '(("\\b\\(red\\|orange\\|yellow\\)\\b" ;; . font-lock-keyword-face)) ;; "XyzDB SQL keywords used by font-lock.") ;; (sql-set-product-feature 'xyz ;; :font-lock ;; 'my-sql-mode-xyz-font-lock-keywords) ;; 3) Define any special syntax characters including comments and ;; identifier characters. ;; (sql-set-product-feature 'xyz ;; :syntax-alist ((?# . "_"))) ;; 4) Define the interactive command interpreter for the database ;; product. ;; (defcustom my-sql-xyz-program "ixyz" ;; "Command to start ixyz by XyzDB." ;; :type 'file ;; :group 'SQL) ;; ;; (sql-set-product-feature 'xyz ;; :sqli-program 'my-sql-xyz-program) ;; (sql-set-product-feature 'xyz ;; :prompt-regexp "^xyzdb> ") ;; (sql-set-product-feature 'xyz ;; :prompt-length 7) ;; 5) Define login parameters and command line formatting. ;; (defcustom my-sql-xyz-login-params '(user password server database) ;; "Login parameters to needed to connect to XyzDB." ;; :type 'sql-login-params ;; :group 'SQL) ;; ;; (sql-set-product-feature 'xyz ;; :sqli-login 'my-sql-xyz-login-params) ;; (defcustom my-sql-xyz-options '("-X" "-Y" "-Z") ;; "List of additional options for `sql-xyz-program'." ;; :type '(repeat string) ;; :group 'SQL) ;; ;; (sql-set-product-feature 'xyz ;; :sqli-options 'my-sql-xyz-options)) ;; (defun my-sql-comint-xyz (product options &optional buf-name) ;; "Connect ti XyzDB in a comint buffer." ;; ;; ;; Do something with `sql-user', `sql-password', ;; ;; `sql-database', and `sql-server'. ;; (let ((params ;; (append ;; (if (not (string= "" sql-user)) ;; (list "-U" sql-user)) ;; (if (not (string= "" sql-password)) ;; (list "-P" sql-password)) ;; (if (not (string= "" sql-database)) ;; (list "-D" sql-database)) ;; (if (not (string= "" sql-server)) ;; (list "-S" sql-server)) ;; options))) ;; (sql-comint product params buf-name))) ;; ;; (sql-set-product-feature 'xyz ;; :sqli-comint-func 'my-sql-comint-xyz) ;; 6) Define a convenience function to invoke the SQL interpreter. ;; (defun my-sql-xyz (&optional buffer) ;; "Run ixyz by XyzDB as an inferior process." ;; (interactive "P") ;; (sql-product-interactive 'xyz buffer)) ;;; To Do: ;; Improve keyword highlighting for individual products. I have tried ;; to update those database that I use. Feel free to send me updates, ;; or direct me to the reference manuals for your favorite database. ;; When there are no keywords defined, the ANSI keywords are ;; highlighted. ANSI keywords are highlighted even if the keyword is ;; not used for your current product. This should help identify ;; portability concerns. ;; Add different highlighting levels. ;; Add support for listing available tables or the columns in a table. ;;; Thanks to all the people who helped me out: ;; Alex Schroeder -- the original author ;; Kai Blauberg ;; ;; Yair Friedman ;; Gregor Zych ;; nino ;; Berend de Boer ;; Adam Jenkins ;; Michael Mauger -- improved product support ;; Drew Adams -- Emacs 20 support ;; Harald Maier -- sql-send-string ;; Stefan Monnier -- font-lock corrections; ;; code polish; on-going guidance and mentorship ;; Paul Sleigh -- MySQL keyword enhancement ;; Andrew Schein -- sql-port bug ;; Ian Bjorhovde -- db2 escape newlines ;; incorrectly enabled by default ;; Roman Scherer -- Connection documentation ;; Mark Wilkinson -- file-local variables ignored ;; Simen Heggestøyl -- Postgres database completion ;; Robert Cochran -- MariaDB support ;; Alex Harsanyi -- sql-indent package and support ;; Roy Mathew -- bug in `sql-send-string' ;; ;;; Code: (require 'cl-lib) (require 'comint) (require 'thingatpt) (require 'view) (eval-when-compile (require 'subr-x)) ; string-empty-p ;;; Allow customization (defgroup SQL nil "Running a SQL interpreter from within Emacs buffers." :version "20.4" :group 'languages :group 'processes) ;; These five variables will be used as defaults, if set. (defcustom sql-user "" "Default username." :type 'string :safe 'stringp) (defcustom sql-password "" "Default password. If you customize this, the value will be stored in your init file. Since that is a plaintext file, this could be dangerous." :type 'string :risky t) (defcustom sql-database "" "Default database." :type 'string :safe 'stringp) (defcustom sql-server "" "Default server or host." :type 'string :safe 'stringp) (defcustom sql-port 0 "Default port for connecting to a MySQL or Postgres server." :version "24.1" :type 'natnum :safe 'natnump) (defcustom sql-default-directory nil "Default directory for SQL processes." :version "25.1" :type '(choice (const nil) string) :safe 'stringp) ;; Login parameter type ;; This seems too prescriptive. It probably fails to match some of ;; the possible combinations. It would probably be better to just use ;; plist for most of it. (define-widget 'sql-login-params 'lazy "Widget definition of the login parameters list" :tag "Login Parameters" :type '(set :tag "Login Parameters" (choice :tag "user" :value user (const user) (list :tag "Specify a default" (const user) (list :tag "Default" :inline t (const :default) string))) (const password) (choice :tag "server" :value server (const server) (list :tag "Specify a default" (const server) (list :tag "Default" :inline t (const :default) string)) (list :tag "file" (const :format "" server) (const :format "" :file) regexp) (list :tag "completion" (const :format "" server) (const :format "" :completion) (const :format "" :must-match) (restricted-sexp :match-alternatives (listp stringp)))) (choice :tag "database" :value database (const database) (list :tag "Specify a default" (const database) (list :tag "Default" :inline t (const :default) string)) (list :tag "file" (const :format "" database) (const :format "" :file) (choice (const nil) regexp) (const :format "" :must-match) (symbol :tag ":must-match")) (list :tag "completion" (const :format "" database) (const :format "" :default) (string :tag ":default") (const :format "" :completion) (sexp :tag ":completion") (const :format "" :must-match) (symbol :tag ":must-match"))) (const port))) ;; SQL Product support (defvar sql-interactive-product nil "Product under `sql-interactive-mode'.") (defvar sql-connection nil "Connection name if interactive session started by `sql-connect'.") (defvar sql-product-alist '((ansi :name "ANSI" :font-lock sql-mode-ansi-font-lock-keywords :statement sql-ansi-statement-starters) (db2 :name "DB2" :font-lock sql-mode-db2-font-lock-keywords :sqli-program sql-db2-program :sqli-options sql-db2-options :sqli-login sql-db2-login-params :sqli-comint-func sql-comint-db2 :prompt-regexp "^db2 => " :prompt-length 7 :prompt-cont-regexp "^db2 (cont\\.) => " :input-filter sql-escape-newlines-filter) (informix :name "Informix" :font-lock sql-mode-informix-font-lock-keywords :sqli-program sql-informix-program :sqli-options sql-informix-options :sqli-login sql-informix-login-params :sqli-comint-func sql-comint-informix :prompt-regexp "^> " :prompt-length 2 :syntax-alist ((?{ . "<") (?} . ">"))) (ingres :name "Ingres" :font-lock sql-mode-ingres-font-lock-keywords :sqli-program sql-ingres-program :sqli-options sql-ingres-options :sqli-login sql-ingres-login-params :sqli-comint-func sql-comint-ingres :prompt-regexp "^\\* " :prompt-length 2 :prompt-cont-regexp "^\\* ") (interbase :name "Interbase" :font-lock sql-mode-interbase-font-lock-keywords :sqli-program sql-interbase-program :sqli-options sql-interbase-options :sqli-login sql-interbase-login-params :sqli-comint-func sql-comint-interbase :prompt-regexp "^SQL> " :prompt-length 5) (linter :name "Linter" :font-lock sql-mode-linter-font-lock-keywords :sqli-program sql-linter-program :sqli-options sql-linter-options :sqli-login sql-linter-login-params :sqli-comint-func sql-comint-linter :prompt-regexp "^SQL>" :prompt-length 4) (mariadb :name "MariaDB" :free-software t :font-lock sql-mode-mariadb-font-lock-keywords :sqli-program sql-mariadb-program :sqli-options sql-mariadb-options :sqli-login sql-mariadb-login-params :sqli-comint-func sql-comint-mariadb :list-all "SHOW TABLES;" :list-table "DESCRIBE %s;" :prompt-regexp "^MariaDB \\[.*]> " :prompt-cont-regexp "^ [\"'`-]> " :syntax-alist ((?# . "< b")) :input-filter sql-remove-tabs-filter) (ms :name "Microsoft" :font-lock sql-mode-ms-font-lock-keywords :sqli-program sql-ms-program :sqli-options sql-ms-options :sqli-login sql-ms-login-params :sqli-comint-func sql-comint-ms :prompt-regexp "^[0-9]*>" :prompt-cont-regexp "^[0-9]*>" :prompt-length 5 :syntax-alist ((?@ . "_")) :terminator ("^go" . "go")) (mysql :name "MySQL" :free-software t :font-lock sql-mode-mysql-font-lock-keywords :sqli-program sql-mysql-program :sqli-options sql-mysql-options :sqli-login sql-mysql-login-params :sqli-comint-func sql-comint-mysql :list-all "SHOW TABLES;" :list-table "DESCRIBE %s;" :prompt-regexp "^mysql> " :prompt-length 6 :prompt-cont-regexp "^ -> " :syntax-alist ((?# . "< b") (?\\ . "\\")) :input-filter sql-remove-tabs-filter) (oracle :name "Oracle" :font-lock sql-mode-oracle-font-lock-keywords :sqli-program sql-oracle-program :sqli-options sql-oracle-options :sqli-login sql-oracle-login-params :sqli-comint-func sql-comint-oracle :list-all sql-oracle-list-all :list-table sql-oracle-list-table :completion-object sql-oracle-completion-object :prompt-regexp "^SQL> " :prompt-length 5 :prompt-cont-regexp "^\\(?:[ ][ ][1-9]\\|[ ][1-9][0-9]\\|[1-9][0-9]\\{2\\}\\)[ ]\\{2\\}" :statement sql-oracle-statement-starters :syntax-alist ((?$ . "_") (?# . "_")) :terminator ("\\(^/\\|;\\)" . "/") :input-filter sql-placeholders-filter) (postgres :name "Postgres" :free-software t :font-lock sql-mode-postgres-font-lock-keywords :sqli-program sql-postgres-program :sqli-options sql-postgres-options :sqli-login sql-postgres-login-params :sqli-comint-func sql-comint-postgres :list-all ("\\d+" . "\\dS+") :list-table ("\\d+ %s" . "\\dS+ %s") :completion-object sql-postgres-completion-object :prompt-regexp "^[-[:alnum:]_]*[-=][#>] " :prompt-length 5 :prompt-cont-regexp "^[-[:alnum:]_]*[-'(][#>] " :statement sql-postgres-statement-starters :input-filter sql-remove-tabs-filter :terminator ("\\(^\\s-*\\\\g\\|;\\)" . "\\g")) (solid :name "Solid" :font-lock sql-mode-solid-font-lock-keywords :sqli-program sql-solid-program :sqli-options sql-solid-options :sqli-login sql-solid-login-params :sqli-comint-func sql-comint-solid :prompt-regexp "^" :prompt-length 0) (sqlite :name "SQLite" :free-software t :font-lock sql-mode-sqlite-font-lock-keywords :sqli-program sql-sqlite-program :sqli-options sql-sqlite-options :sqli-login sql-sqlite-login-params :sqli-comint-func sql-comint-sqlite :list-all ".tables" :list-table ".schema %s" :completion-object sql-sqlite-completion-object :prompt-regexp "^sqlite> " :prompt-length 8 :prompt-cont-regexp "^ \\.\\.\\.> ") (sybase :name "Sybase" :font-lock sql-mode-sybase-font-lock-keywords :sqli-program sql-sybase-program :sqli-options sql-sybase-options :sqli-login sql-sybase-login-params :sqli-comint-func sql-comint-sybase :prompt-regexp "^SQL> " :prompt-length 5 :syntax-alist ((?@ . "_")) :terminator ("^go" . "go")) (vertica :name "Vertica" :sqli-program sql-vertica-program :sqli-options sql-vertica-options :sqli-login sql-vertica-login-params :sqli-comint-func sql-comint-vertica :list-all ("\\d" . "\\dS") :list-table "\\d %s" :prompt-regexp "^[[:alnum:]_]*=[#>] " :prompt-length 5 :prompt-cont-regexp "^[[:alnum:]_]*[-(][#>] ") ) "An alist of product specific configuration settings. Without an entry in this list a product will not be properly highlighted and will not support `sql-interactive-mode'. Each element in the list is in the following format: (PRODUCT FEATURE VALUE ...) where PRODUCT is the appropriate value of `sql-product'. The product name is then followed by FEATURE-VALUE pairs. If a FEATURE is not specified, its VALUE is treated as nil. FEATURE may be any one of the following: :name string containing the displayable name of the product. :free-software is the product Free (as in Freedom) software? :font-lock name of the variable containing the product specific font lock highlighting patterns. :sqli-program name of the variable containing the product specific interactive program name. :sqli-options name of the variable containing the list of product specific options. :sqli-login name of the variable containing the list of login parameters (i.e., user, password, database and server) needed to connect to the database. :sqli-comint-func function of two arguments, PRODUCT and OPTIONS, that will open a comint buffer and connect to the database. PRODUCT is the first argument to be passed to `sql-comint', and OPTIONS should be included in its second argument. The function should use the values of `sql-user', `sql-password', `sql-database', `sql-server' and `sql-port' to . Do product specific configuration of comint in this function. See `sql-comint-oracle' for an example of such a function. :list-all Command string or function which produces a listing of all objects in the database. If it's a cons cell, then the car produces the standard list of objects and the cdr produces an enhanced list of objects. What \"enhanced\" means is dependent on the SQL product and may not exist. In general though, the \"enhanced\" list should include visible objects from other schemas. :list-table Command string or function which produces a detailed listing of a specific database table. If its a cons cell, then the car produces the standard list and the cdr produces an enhanced list. :completion-object A function that returns a list of objects. Called with a single parameter--if nil then list objects accessible in the current schema, if not-nil it is the name of a schema whose objects should be listed. :completion-column A function that returns a list of columns. Called with a single parameter--if nil then list objects accessible in the current schema, if not-nil it is the name of a schema whose objects should be listed. :prompt-regexp regular expression string that matches the prompt issued by the product interpreter. :prompt-length length of the prompt on the line. :prompt-cont-regexp regular expression string that matches the continuation prompt issued by the product interpreter. :input-filter function which can filter strings sent to the command interpreter. It is also used by the `sql-send-string', `sql-send-region', `sql-send-paragraph' and `sql-send-buffer' functions. The function is passed the string sent to the command interpreter and must return the filtered string. May also be a list of such functions. :statement name of a variable containing a regexp that matches the beginning of SQL statements. :terminator the terminator to be sent after a `sql-send-string', `sql-send-region', `sql-send-paragraph' and `sql-send-buffer' command. May be the literal string or a cons of a regexp to match an existing terminator in the string and the terminator to be used if its absent. By default \";\". :syntax-alist alist of syntax table entries to enable special character treatment by font-lock and imenu. Other features can be stored but they will be ignored. However, you can develop new functionality which is product independent by using `sql-get-product-feature' to lookup the product specific settings.") (defvar sql-indirect-features '(:font-lock :sqli-program :sqli-options :sqli-login :statement)) (defcustom sql-connection-alist nil "An alist of connection parameters for interacting with a SQL product. Each element of the alist is as follows: (CONNECTION \(SQL-VARIABLE VALUE) ...) Where CONNECTION is a case-insensitive string identifying the connection, SQL-VARIABLE is the symbol name of a SQL mode variable, and VALUE is the value to be assigned to the variable. The most common SQL-VARIABLE settings associated with a connection are: `sql-product', `sql-user', `sql-password', `sql-port', `sql-server', and `sql-database'. If a SQL-VARIABLE is part of the connection, it will not be prompted for during login. The command `sql-connect' starts a predefined SQLi session using the parameters from this list. Connections defined here appear in the submenu SQL->Start... for making new SQLi sessions." :type `(alist :key-type (string :tag "Connection") :value-type (set (group (const :tag "Product" sql-product) (choice ,@(mapcar (lambda (prod-info) `(const :tag ,(or (plist-get (cdr prod-info) :name) (capitalize (symbol-name (car prod-info)))) (quote ,(car prod-info)))) sql-product-alist))) (group (const :tag "Username" sql-user) string) (group (const :tag "Password" sql-password) string) (group (const :tag "Server" sql-server) string) (group (const :tag "Database" sql-database) string) (group (const :tag "Port" sql-port) integer) (repeat :inline t (list :tab "Other" (symbol :tag " Variable Symbol") ;; FIXME: Why "Value *Expression*"? (sexp :tag "Value Expression"))))) :version "24.1") (defun sql-add-connection (connection params) "Add a new connection to `sql-connection-alist'. If CONNECTION already exists, it is replaced with PARAMS." (setq sql-connection-alist (assoc-delete-all connection sql-connection-alist)) (push (cons connection params) sql-connection-alist)) (defvaralias 'sql-dialect 'sql-product) (defcustom sql-product 'ansi "Select the SQL database product used. This allows highlighting buffers properly when you open them." :type `(choice ,@(mapcar (lambda (prod-info) `(const :tag ,(or (plist-get (cdr prod-info) :name) (capitalize (symbol-name (car prod-info)))) ,(car prod-info))) sql-product-alist)) :safe 'symbolp) ;; SQL indent support (defcustom sql-use-indent-support t "If non-nil then use the SQL indent support features of sql-indent. The `sql-indent' package in ELPA provides indentation support for SQL statements with easy customizations to support varied layout requirements. The package must be available to be loaded and activated." :link '(url-link "https://elpa.gnu.org/packages/sql-indent.html") :type 'boolean :version "27.1") (defun sql-indent-enable () "Enable `sqlind-minor-mode' if available and requested." (condition-case nil (when (fboundp 'sqlind-minor-mode) (sqlind-minor-mode (if sql-use-indent-support +1 -1))) (error nil))) ;; Secure Password wallet (require 'auth-source) (defun sql-auth-source-search-wallet (wallet product user server database port) "Read auth source WALLET to locate the USER secret. Sets `auth-sources' to WALLET and uses `auth-source-search' to locate the entry. The DATABASE and SERVER are concatenated with a slash between them as the host key." (let* ((auth-sources wallet) host secret h-secret sd-secret) ;; product (setq product (symbol-name product)) ;; user (setq user (unless (string-empty-p user) user)) ;; port (setq port (when (and port (numberp port) (not (zerop port))) (number-to-string port))) ;; server (setq server (unless (string-empty-p server) server)) ;; database (setq database (unless (string-empty-p database) database)) ;; host (setq host (if server (if database (concat server "/" database) server) database)) ;; Perform search (dolist (s (auth-source-search :max 1000)) (when (and ;; Is PRODUCT specified, in the entry, and they are equal (if product (if (plist-member s :product) (equal (plist-get s :product) product) t) t) ;; Is USER specified, in the entry, and they are equal (if user (if (plist-member s :user) (equal (plist-get s :user) user) t) t) ;; Is PORT specified, in the entry, and they are equal (if port (if (plist-member s :port) (equal (plist-get s :port) port) t) t)) ;; Is HOST specified, in the entry, and they are equal ;; then the H-SECRET list (if (and host (plist-member s :host) (equal (plist-get s :host) host)) (push s h-secret) ;; Are SERVER and DATABASE specified, present, and equal ;; then the SD-SECRET list (if (and server (plist-member s :server) database (plist-member s :database) (equal (plist-get s :server) server) (equal (plist-get s :database) database)) (push s sd-secret) ;; Is SERVER specified, in the entry, and they are equal ;; then the base SECRET list (if (and server (plist-member s :server) (equal (plist-get s :server) server)) (push s secret) ;; Is DATABASE specified, in the entry, and they are equal ;; then the base SECRET list (if (and database (plist-member s :database) (equal (plist-get s :database) database)) (push s secret))))))) (setq secret (or h-secret sd-secret secret)) ;; If we found a single secret, return the password (when (= 1 (length secret)) (setq secret (car secret)) (if (plist-member secret :secret) (plist-get secret :secret) nil)))) (defcustom sql-password-wallet (let (wallet w) (dolist (ext '(".json.gpg" ".gpg" ".json" "") wallet) (unless wallet (setq w (locate-user-emacs-file (concat "sql-wallet" ext) (concat ".sql-wallet" ext))) (when (file-exists-p w) (setq wallet (list w)))))) "Identification of the password wallet. See `sql-password-search-wallet-function' to understand how this value is used to locate the password wallet." :type (plist-get (symbol-plist 'auth-sources) 'custom-type) :version "27.1") (defvar sql-password-search-wallet-function #'sql-auth-source-search-wallet "Function to handle the lookup of the database password. The specified function will be called as: (wallet-func WALLET PRODUCT USER SERVER DATABASE PORT) It is expected to return either a string containing the password, a function returning the password, or nil. If you want to support another format of password file, then implement a different search wallet function and identify the location of the password store with `sql-password-wallet'.") ;; misc customization of sql.el behavior (defcustom sql-electric-stuff nil "Treat some input as electric. If set to the symbol `semicolon', then hitting `;' will send current input in the SQLi buffer to the process. If set to the symbol `go', then hitting `go' on a line by itself will send current input in the SQLi buffer to the process. If set to nil, then you must use \\[comint-send-input] in order to send current input in the SQLi buffer to the process." :type '(choice (const :tag "Nothing" nil) (const :tag "The semicolon `;'" semicolon) (const :tag "The string `go' by itself" go)) :version "20.8") (defcustom sql-send-terminator nil "When non-nil, add a terminator to text sent to the SQL interpreter. When text is sent to the SQL interpreter (via `sql-send-string', `sql-send-region', `sql-send-paragraph' or `sql-send-buffer'), a command terminator can be automatically sent as well. The terminator is not sent, if the string sent already ends with the terminator. If this value is t, then the default command terminator for the SQL interpreter is sent. If this value is a string, then the string is sent. If the value is a cons cell of the form (PAT . TERM), then PAT is a regexp used to match the terminator in the string and TERM is the terminator to be sent. This form is useful if the SQL interpreter has more than one way of submitting a SQL command. The PAT regexp can match any of them, and TERM is the way we do it automatically." :type '(choice (const :tag "No Terminator" nil) (const :tag "Default Terminator" t) (string :tag "Terminator String") (cons :tag "Terminator Pattern and String" (regexp :tag "Terminator Pattern") (string :tag "Terminator String"))) :version "22.2") (defvar sql-contains-names nil "When non-nil, the current buffer contains database names. Globally should be set to nil; it will be non-nil in `sql-mode', `sql-interactive-mode' and list all buffers.") (defvar sql-login-delay 7.5 ;; Secs "Maximum number of seconds you are willing to wait for a login connection.") (defvaralias 'sql-pop-to-buffer-after-send-region 'sql-display-sqli-buffer-function) (defcustom sql-display-sqli-buffer-function #'display-buffer "Function to be called to display a SQLi buffer after `sql-send-*'. When set to a function, it will be called to display the buffer. When set to t, the default function `pop-to-buffer' will be called. If not set, no attempt will be made to display the buffer." :type '(choice (const :tag "Default" t) (const :tag "No display" nil) (function :tag "Display Buffer function")) :version "27.1") ;; imenu support for sql-mode. (defvar sql-imenu-generic-expression ;; Items are in reverse order because they are rendered in reverse. '(("Rules/Defaults" "^\\s-*create\\s-+\\(?:\\w+\\s-+\\)*\\(?:rule\\|default\\)\\(?:if\\s-+not\\s-+exists\\s-+\\)?\\s-+\\(\\(?:\\w+\\s-*[.]\\s-*\\)*\\w+\\)" 1) ("Sequences" "^\\s-*create\\s-+\\(?:\\w+\\s-+\\)*sequence\\s-+\\(?:if\\s-+not\\s-+exists\\s-+\\)?\\(\\(?:\\w+\\s-*[.]\\s-*\\)*\\w+\\)" 1) ("Triggers" "^\\s-*create\\s-+\\(?:\\w+\\s-+\\)*trigger\\s-+\\(?:if\\s-+not\\s-+exists\\s-+\\)?\\(\\(?:\\w+\\s-*[.]\\s-*\\)*\\w+\\)" 1) ("Functions" "^\\s-*\\(?:create\\s-+\\(?:\\w+\\s-+\\)*\\)?function\\s-+\\(?:if\\s-+not\\s-+exists\\s-+\\)?\\(\\(?:\\w+\\s-*[.]\\s-*\\)*\\w+\\)" 1) ("Procedures" "^\\s-*\\(?:create\\s-+\\(?:\\w+\\s-+\\)*\\)?proc\\(?:edure\\)?\\s-+\\(?:if\\s-+not\\s-+exists\\s-+\\)?\\(\\(?:\\w+\\s-*[.]\\s-*\\)*\\w+\\)" 1) ("Packages" "^\\s-*create\\s-+\\(?:\\w+\\s-+\\)*package\\s-+\\(?:body\\s-+\\)?\\(?:if\\s-+not\\s-+exists\\s-+\\)?\\(\\(?:\\w+\\s-*[.]\\s-*\\)*\\w+\\)" 1) ("Types" "^\\s-*create\\s-+\\(?:\\w+\\s-+\\)*type\\s-+\\(?:body\\s-+\\)?\\(?:if\\s-+not\\s-+exists\\s-+\\)?\\(\\(?:\\w+\\s-*[.]\\s-*\\)*\\w+\\)" 1) ("Indexes" "^\\s-*create\\s-+\\(?:\\w+\\s-+\\)*index\\s-+\\(?:if\\s-+not\\s-+exists\\s-+\\)?\\(\\(?:\\w+\\s-*[.]\\s-*\\)*\\w+\\)" 1) ("Tables/Views" "^\\s-*create\\s-+\\(?:\\w+\\s-+\\)*\\(?:table\\|view\\)\\s-+\\(?:if\\s-+not\\s-+exists\\s-+\\)?\\(\\(?:\\w+\\s-*[.]\\s-*\\)*\\w+\\)" 1)) "Define interesting points in the SQL buffer for `imenu'. This is used to set `imenu-generic-expression' when SQL mode is entered. Subsequent changes to `sql-imenu-generic-expression' will not affect existing SQL buffers because `imenu-generic-expression' is a local variable.") ;; history file (defcustom sql-input-ring-file-name nil "If non-nil, name of the file to read/write input history. You have to set this variable if you want the history of your commands saved from one Emacs session to the next. If this variable is set, exiting the SQL interpreter in an SQLi buffer will write the input history to the specified file. Starting a new process in a SQLi buffer will read the input history from the specified file. This is used to initialize `comint-input-ring-file-name'. Note that the size of the input history is determined by the variable `comint-input-ring-size'." :type '(choice (const :tag "none" nil) (file))) (defcustom sql-input-ring-separator "\n--\n" "Separator between commands in the history file. If set to \"\\n\", each line in the history file will be interpreted as one command. Multi-line commands are split into several commands when the input ring is initialized from a history file. This variable used to initialize `comint-input-ring-separator'." :type 'string) ;; The usual hooks (defcustom sql-interactive-mode-hook '(sql-indent-enable) "Hook for customizing `sql-interactive-mode'." :type 'hook :version "27.1") (defcustom sql-mode-hook '(sql-indent-enable) "Hook for customizing `sql-mode'." :type 'hook :version "27.1") (defcustom sql-set-sqli-hook '() "Hook for reacting to changes of `sql-buffer'. This is called by `sql-set-sqli-buffer' when the value of `sql-buffer' is changed." :type 'hook) (defcustom sql-login-hook '() "Hook for interacting with a buffer in `sql-interactive-mode'. This hook is invoked in a buffer once it is ready to accept input for the first time." :version "24.1" :type 'hook) ;; Customization for Oracle (defcustom sql-oracle-program "sqlplus" "Command to start sqlplus by Oracle. Starts `sql-interactive-mode' after doing some setup. On Windows, \"sqlplus\" usually starts the sqlplus \"GUI\". In order to start the sqlplus console, use \"plus33\" or something similar. You will find the file in your Orant\\bin directory." :type 'file) (defcustom sql-oracle-options '("-L") "List of additional options for `sql-oracle-program'." :type '(repeat string) :version "24.4") (defcustom sql-oracle-login-params '(user password database) "List of login parameters needed to connect to Oracle." :type 'sql-login-params :version "24.1") (defcustom sql-oracle-scan-on t "Non-nil if placeholders should be replaced in Oracle SQLi. When non-nil, Emacs will scan text sent to sqlplus and prompt for replacement text for & placeholders as sqlplus does. This is needed on Windows where SQL*Plus output is buffered and the prompts are not shown until after the text is entered. You need to issue the following command in SQL*Plus to be safe: SET DEFINE OFF In older versions of SQL*Plus, this was the SET SCAN OFF command." :version "24.1" :type 'boolean) (defcustom sql-db2-escape-newlines nil "Non-nil if newlines should be escaped by a backslash in DB2 SQLi. When non-nil, Emacs will automatically insert a space and backslash prior to every newline in multi-line SQL statements as they are submitted to an interactive DB2 session." :version "24.3" :type 'boolean) ;; Customization for SQLite (defcustom sql-sqlite-program (or (executable-find "sqlite3") (executable-find "sqlite") "sqlite") "Command to start SQLite. Starts `sql-interactive-mode' after doing some setup." :type 'file) (defcustom sql-sqlite-options nil "List of additional options for `sql-sqlite-program'." :type '(repeat string) :version "20.8") (defcustom sql-sqlite-login-params '((database :file nil :must-match confirm)) "List of login parameters needed to connect to SQLite." :type 'sql-login-params :version "26.1") ;; Customization for MariaDB ;; MariaDB is a drop-in replacement for MySQL, so just make the ;; MariaDB variables aliases of the MySQL ones. (defvaralias 'sql-mariadb-program 'sql-mysql-program) (defvaralias 'sql-mariadb-options 'sql-mysql-options) (defvaralias 'sql-mariadb-login-params 'sql-mysql-login-params) ;; Customization for MySQL (defcustom sql-mysql-program "mysql" "Command to start mysql by Oracle. Starts `sql-interactive-mode' after doing some setup." :type 'file) (defcustom sql-mysql-options nil "List of additional options for `sql-mysql-program'. The following list of options is reported to make things work on Windows: \"-C\" \"-t\" \"-f\" \"-n\"." :type '(repeat string) :version "20.8") (defcustom sql-mysql-login-params '(user password database server) "List of login parameters needed to connect to MySQL." :type 'sql-login-params :version "24.1") ;; Customization for Solid (defcustom sql-solid-program "solsql" "Command to start SOLID SQL Editor. Starts `sql-interactive-mode' after doing some setup." :type 'file) (defcustom sql-solid-login-params '(user password server) "List of login parameters needed to connect to Solid." :type 'sql-login-params :version "24.1") ;; Customization for Sybase (defcustom sql-sybase-program "isql" "Command to start isql by Sybase. Starts `sql-interactive-mode' after doing some setup." :type 'file) (defcustom sql-sybase-options nil "List of additional options for `sql-sybase-program'. Some versions of isql might require the -n option in order to work." :type '(repeat string) :version "20.8") (defcustom sql-sybase-login-params '(server user password database) "List of login parameters needed to connect to Sybase." :type 'sql-login-params :version "24.1") ;; Customization for Informix (defcustom sql-informix-program "dbaccess" "Command to start dbaccess by Informix. Starts `sql-interactive-mode' after doing some setup." :type 'file) (defcustom sql-informix-login-params '(database) "List of login parameters needed to connect to Informix." :type 'sql-login-params :version "24.1") ;; Customization for Ingres (defcustom sql-ingres-program "sql" "Command to start sql by Ingres. Starts `sql-interactive-mode' after doing some setup." :type 'file) (defcustom sql-ingres-login-params '(database) "List of login parameters needed to connect to Ingres." :type 'sql-login-params :version "24.1") ;; Customization for Microsoft ;; Microsoft documentation seems to indicate that ISQL and OSQL are ;; going away and being replaced by SQLCMD. If anyone has experience ;; using SQLCMD, modified product configuration and feedback on its ;; use would be greatly appreciated. (defcustom sql-ms-program "osql" "Command to start osql by Microsoft. Starts `sql-interactive-mode' after doing some setup." :type 'file) (defcustom sql-ms-options '("-w" "300" "-n") ;; -w is the linesize "List of additional options for `sql-ms-program'." :type '(repeat string) :version "22.1") (defcustom sql-ms-login-params '(user password server database) "List of login parameters needed to connect to Microsoft." :type 'sql-login-params :version "24.1") ;; Customization for Postgres (defcustom sql-postgres-program "psql" "Command to start psql by Postgres. Starts `sql-interactive-mode' after doing some setup." :type 'file) (defcustom sql-postgres-options '("-P" "pager=off") "List of additional options for `sql-postgres-program'. The default -P option is equivalent to the --pset option. If you want psql to prompt you for a user name, add the string \"-u\" to the list of options. If you want to provide a user name on the command line, add your name with a \"-U\" prefix (such as \"-Umark\") to the list." :type '(repeat string) :version "20.8") (defcustom sql-postgres-login-params `((user :default ,(user-login-name)) (database :default ,(user-login-name) :completion ,(completion-table-dynamic (lambda (_) (sql-postgres-list-databases))) :must-match confirm) server) "List of login parameters needed to connect to Postgres." :type 'sql-login-params :version "26.1") (defun sql-postgres-list-databases () "Return a list of available PostgreSQL databases." (when (executable-find sql-postgres-program) (let ((res '())) (ignore-errors (dolist (row (process-lines sql-postgres-program "--list" "--no-psqlrc" "--tuples-only")) (when (string-match "^ \\([^ |]+\\) +|.*" row) (push (match-string 1 row) res)))) (nreverse res)))) ;; Customization for Interbase (defcustom sql-interbase-program "isql" "Command to start isql by Interbase. Starts `sql-interactive-mode' after doing some setup." :type 'file) (defcustom sql-interbase-options nil "List of additional options for `sql-interbase-program'." :type '(repeat string) :version "20.8") (defcustom sql-interbase-login-params '(user password database) "List of login parameters needed to connect to Interbase." :type 'sql-login-params :version "24.1") ;; Customization for DB2 (defcustom sql-db2-program "db2" "Command to start db2 by IBM. Starts `sql-interactive-mode' after doing some setup." :type 'file) (defcustom sql-db2-options nil "List of additional options for `sql-db2-program'." :type '(repeat string) :version "20.8") (defcustom sql-db2-login-params nil "List of login parameters needed to connect to DB2." :type 'sql-login-params :version "24.1") ;; Customization for Linter (defcustom sql-linter-program "inl" "Command to start inl by RELEX. Starts `sql-interactive-mode' after doing some setup." :type 'file) (defcustom sql-linter-options nil "List of additional options for `sql-linter-program'." :type '(repeat string) :version "21.3") (defcustom sql-linter-login-params '(user password database server) "Login parameters to needed to connect to Linter." :type 'sql-login-params :version "24.1") ;;; Variables which do not need customization (defvar sql-user-history nil "History of usernames used.") (defvar sql-database-history nil "History of databases used.") (defvar sql-server-history nil "History of servers used.") ;; Passwords are not kept in a history. (defvar sql-product-history nil "History of products used.") (defvar sql-connection-history nil "History of connections used.") (defvar sql-buffer nil "Current SQLi buffer. The global value of `sql-buffer' is the name of the latest SQLi buffer created. Any SQL buffer created will make a local copy of this value. See `sql-interactive-mode' for more on multiple sessions. If you want to change the SQLi buffer a SQL mode sends its SQL strings to, change the local value of `sql-buffer' using \\[sql-set-sqli-buffer].") (defvar sql-prompt-regexp nil "Prompt used to initialize `comint-prompt-regexp'. You can change `sql-prompt-regexp' on `sql-interactive-mode-hook'.") (defvar sql-prompt-length 0 "Prompt used to set `left-margin' in `sql-interactive-mode'. You can change `sql-prompt-length' on `sql-interactive-mode-hook'.") (defvar sql-prompt-cont-regexp nil "Prompt pattern of statement continuation prompts.") (defvar sql-alternate-buffer-name nil "Buffer-local string used to possibly rename the SQLi buffer. Used by `sql-rename-buffer'.") (defun sql-buffer-live-p (buffer &optional product connection) "Return non-nil if the process associated with buffer is live. BUFFER can be a buffer object or a buffer name. The buffer must be a live buffer, have a running process attached to it, be in `sql-interactive-mode', and, if PRODUCT or CONNECTION are specified, it's `sql-product' or `sql-connection' must match." (when buffer (setq buffer (get-buffer buffer)) (and buffer (buffer-live-p buffer) (comint-check-proc buffer) (with-current-buffer buffer (and (derived-mode-p 'sql-interactive-mode) (or (not product) (eq product sql-product)) (or (not connection) (and (stringp connection) (string= connection sql-connection)))))))) (defun sql-is-sqli-buffer-p (buffer) "Return non-nil if buffer is a SQLi buffer." (when buffer (setq buffer (get-buffer buffer)) (and buffer (buffer-live-p buffer) (with-current-buffer buffer (derived-mode-p 'sql-interactive-mode))))) ;; Keymap for sql-interactive-mode. (defvar-keymap sql-interactive-mode-map :doc "Mode map used for `sql-interactive-mode'. Based on `comint-mode-map'." :parent comint-mode-map "C-j" #'sql-accumulate-and-indent "C-c C-w" #'sql-copy-column "O" #'sql-magic-go "o" #'sql-magic-go ";" #'sql-magic-semicolon "C-c C-l a" #'sql-list-all "C-c C-l t" #'sql-list-table) ;; Keymap for sql-mode. (defvar-keymap sql-mode-map :doc "Mode map used for `sql-mode'." "C-c C-c" #'sql-send-paragraph "C-c C-r" #'sql-send-region "C-c C-s" #'sql-send-string "C-c C-b" #'sql-send-buffer "C-c C-n" #'sql-send-line-and-next "C-c C-i" #'sql-product-interactive "C-c C-z" #'sql-show-sqli-buffer "C-c C-l a" #'sql-list-all "C-c C-l t" #'sql-list-table " " #'sql-beginning-of-statement " " #'sql-end-of-statement) ;; easy menu for sql-mode. (easy-menu-define sql-mode-menu sql-mode-map "Menu for `sql-mode'." `("SQL" ["Send Paragraph" sql-send-paragraph (sql-buffer-live-p sql-buffer)] ["Send Region" sql-send-region (and mark-active (sql-buffer-live-p sql-buffer))] ["Send Buffer" sql-send-buffer (sql-buffer-live-p sql-buffer)] ["Send String" sql-send-string (sql-buffer-live-p sql-buffer)] "--" ["List all objects" sql-list-all (and (sql-buffer-live-p sql-buffer) (sql-get-product-feature sql-product :list-all))] ["List table details" sql-list-table (and (sql-buffer-live-p sql-buffer) (sql-get-product-feature sql-product :list-table))] "--" ["Start SQLi session" sql-product-interactive :visible (not sql-connection-alist) :enable (sql-get-product-feature sql-product :sqli-comint-func)] ("Start..." :visible sql-connection-alist :filter sql-connection-menu-filter "--" ["New SQLi Session" sql-product-interactive (sql-get-product-feature sql-product :sqli-comint-func)]) ["--" :visible sql-connection-alist] ["Show SQLi buffer" sql-show-sqli-buffer t] ["Set SQLi buffer" sql-set-sqli-buffer t] ["Pop to SQLi buffer after send" sql-toggle-pop-to-buffer-after-send-region :style toggle :selected sql-pop-to-buffer-after-send-region] ["--" nil nil] ("Product" ,@(mapcar (lambda (prod-info) (let* ((prod (pop prod-info)) (name (or (plist-get prod-info :name) (capitalize (symbol-name prod)))) (cmd (intern (format "sql-highlight-%s-keywords" prod)))) (fset cmd `(lambda () ,(format "Highlight %s SQL keywords." name) (interactive) (sql-set-product ',prod))) (vector name cmd :style 'radio :selected `(eq sql-product ',prod)))) sql-product-alist)))) ;; easy menu for sql-interactive-mode. (easy-menu-define sql-interactive-mode-menu sql-interactive-mode-map "Menu for `sql-interactive-mode'." '("SQL" ["Rename Buffer" sql-rename-buffer t] ["Save Connection" sql-save-connection (not sql-connection)] "--" ["List all objects" sql-list-all (sql-get-product-feature sql-product :list-all)] ["List table details" sql-list-table (sql-get-product-feature sql-product :list-table)])) ;; Abbreviations -- if you want more of them, define them in your init ;; file. Abbrevs have to be enabled in your init file, too. (define-abbrev-table 'sql-mode-abbrev-table '(("ins" "insert" nil nil t) ("upd" "update" nil nil t) ("del" "delete" nil nil t) ("sel" "select" nil nil t) ("proc" "procedure" nil nil t) ("func" "function" nil nil t) ("cr" "create" nil nil t)) "Abbrev table used in `sql-mode' and `sql-interactive-mode'.") ;; Syntax Table (defvar sql-mode-syntax-table (let ((table (make-syntax-table))) ;; C-style comments /**/ (see elisp manual "Syntax Flags")) (modify-syntax-entry ?/ ". 14" table) (modify-syntax-entry ?* ". 23" table) ;; double-dash starts comments (modify-syntax-entry ?- ". 12b" table) ;; newline and formfeed end comments (modify-syntax-entry ?\n "> b" table) (modify-syntax-entry ?\f "> b" table) ;; single quotes (') delimit strings (modify-syntax-entry ?' "\"" table) ;; double quotes (") don't delimit strings (modify-syntax-entry ?\" "." table) ;; Make these all punctuation (mapc (lambda (c) (modify-syntax-entry c "." table)) (string-to-list "!#$%&+,.:;<=>?@\\|")) table) "Syntax table used in `sql-mode' and `sql-interactive-mode'.") ;; Motion Function Keywords (defvar sql-ansi-statement-starters (regexp-opt '("create" "alter" "drop" "select" "insert" "update" "delete" "merge" "grant" "revoke")) "Regexp of keywords that start SQL commands. All products share this list; products should define a regexp to identify additional keywords in a variable defined by the :statement feature.") (defvar sql-oracle-statement-starters (regexp-opt '("declare" "begin" "with")) "Additional statement-starting keywords in Oracle.") (defvar sql-postgres-statement-starters (regexp-opt '("with")) "Additional statement-starting keywords in Postgres.") ;; Font lock support (defvar sql-mode-font-lock-object-name (eval-when-compile (list (concat "^\\s-*\\(?:create\\|drop\\|alter\\)\\s-+" ;; lead off with CREATE, DROP or ALTER "\\(?:\\w+\\s-+\\)*" ;; optional intervening keywords "\\(?:table\\|view\\|\\(?:package\\|type\\)\\(?:\\s-+body\\)?\\|proc\\(?:edure\\)?" "\\|function\\|trigger\\|sequence\\|rule\\|default\\)\\s-+" "\\(?:if\\s-+not\\s-+exists\\s-+\\)?" ;; IF NOT EXISTS "\\(\\w+\\(?:\\s-*[.]\\s-*\\w+\\)*\\)") 1 'font-lock-function-name-face)) "Pattern to match the names of top-level objects. The pattern matches the name in a CREATE, DROP or ALTER statement. The format of variable should be a valid `font-lock-keywords' entry.") ;; While there are international and American standards for SQL, they ;; are not followed closely, and most vendors offer significant ;; capabilities beyond those defined in the standard specifications. ;; SQL mode provides support for highlighting based on the product. In ;; addition to highlighting the product keywords, any ANSI keywords not ;; used by the product are also highlighted. This will help identify ;; keywords that could be restricted in future versions of the product ;; or might be a problem if ported to another product. ;; To reduce the complexity and size of the regular expressions ;; generated to match keywords, ANSI keywords are filtered out of ;; product keywords if they are equivalent. To do this, we define a ;; function `sql-font-lock-keywords-builder' that removes any keywords ;; that are matched by the ANSI patterns and results in the same face ;; being applied. For this to work properly, we must play some games ;; with the execution and compile time behavior. This code is a ;; little tricky but works properly. ;; When defining the keywords for individual products you should ;; include all of the keywords that you want matched. The filtering ;; against the ANSI keywords will be automatic if you use the ;; `sql-font-lock-keywords-builder' function and follow the ;; implementation pattern used for the other products in this file. (defvar sql-mode-ansi-font-lock-keywords) (eval-and-compile (defun sql-font-lock-keywords-builder (face boundaries &rest keywords) "Generation of regexp matching any one of KEYWORDS." (let ((bdy (or boundaries '("\\b" . "\\b"))) kwd) ;; Remove keywords that are defined in ANSI (setq kwd keywords) ;; (dolist (k keywords) ;; (catch 'next ;; (dolist (a sql-mode-ansi-font-lock-keywords) ;; (when (and (eq face (cdr a)) ;; (eq (string-match (car a) k 0) 0) ;; (eq (match-end 0) (length k))) ;; (setq kwd (delq k kwd)) ;; (throw 'next nil))))) ;; Create a properly formed font-lock-keywords item (cons (concat (car bdy) (regexp-opt kwd t) (cdr bdy)) face))) (defun sql-regexp-abbrev (keyword) (let ((brk (string-search "~" keyword)) (len (length keyword)) (sep "\\(?:") re i) (if (not brk) keyword (setq re (substring keyword 0 brk) i (+ 2 brk) brk (1+ brk)) (while (<= i len) (setq re (concat re sep (substring keyword brk i)) sep "\\|" i (1+ i))) (concat re "\\)?")))) (defun sql-regexp-abbrev-list (&rest keyw-list) (let ((re nil) (sep "\\<\\(?:")) (while keyw-list (setq re (concat re sep (sql-regexp-abbrev (car keyw-list))) sep "\\|" keyw-list (cdr keyw-list))) (concat re "\\)\\>")))) (eval-when-compile (setq sql-mode-ansi-font-lock-keywords (list ;; ANSI Non Reserved keywords (sql-font-lock-keywords-builder 'font-lock-keyword-face nil "ada" "asensitive" "assignment" "asymmetric" "atomic" "between" "bitvar" "called" "catalog_name" "chain" "character_set_catalog" "character_set_name" "character_set_schema" "checked" "class_origin" "cobol" "collation_catalog" "collation_name" "collation_schema" "column_name" "command_function" "command_function_code" "committed" "condition_number" "connection_name" "constraint_catalog" "constraint_name" "constraint_schema" "contains" "cursor_name" "datetime_interval_code" "datetime_interval_precision" "defined" "definer" "dispatch" "dynamic_function" "dynamic_function_code" "existing" "exists" "final" "fortran" "generated" "granted" "hierarchy" "hold" "implementation" "infix" "insensitive" "instance" "instantiable" "invoker" "key_member" "key_type" "length" "m" "message_length" "message_octet_length" "message_text" "method" "more" "mumps" "name" "nullable" "number" "options" "overlaps" "overriding" "parameter_mode" "parameter_name" "parameter_ordinal_position" "parameter_specific_catalog" "parameter_specific_name" "parameter_specific_schema" "pascal" "pli" "position" "repeatable" "returned_length" "returned_octet_length" "returned_sqlstate" "routine_catalog" "routine_name" "routine_schema" "row_count" "scale" "schema_name" "security" "self" "sensitive" "serializable" "server_name" "similar" "simple" "source" "specific_name" "style" "subclass_origin" "sublist" "symmetric" "system" "table_name" "transaction_active" "transactions_committed" "transactions_rolled_back" "transform" "transforms" "trigger_catalog" "trigger_name" "trigger_schema" "type" "uncommitted" "unnamed" "user_defined_type_catalog" "user_defined_type_name" "user_defined_type_schema" ) ;; ANSI Reserved keywords (sql-font-lock-keywords-builder 'font-lock-keyword-face nil "absolute" "action" "add" "admin" "after" "aggregate" "alias" "all" "allocate" "alter" "and" "any" "are" "as" "asc" "assertion" "at" "authorization" "before" "begin" "both" "breadth" "by" "call" "cascade" "cascaded" "case" "catalog" "check" "class" "close" "collate" "collation" "column" "commit" "completion" "connect" "connection" "constraint" "constraints" "constructor" "continue" "corresponding" "create" "cross" "cube" "current" "cursor" "cycle" "data" "day" "deallocate" "declare" "default" "deferrable" "deferred" "delete" "depth" "deref" "desc" "describe" "descriptor" "destroy" "destructor" "deterministic" "diagnostics" "dictionary" "disconnect" "distinct" "domain" "drop" "dynamic" "each" "else" "end" "equals" "escape" "every" "except" "exception" "exec" "execute" "external" "false" "fetch" "first" "for" "foreign" "found" "free" "from" "full" "function" "general" "get" "global" "go" "goto" "grant" "group" "grouping" "having" "host" "hour" "identity" "ignore" "immediate" "in" "indicator" "initialize" "initially" "inner" "inout" "input" "insert" "intersect" "into" "is" "isolation" "iterate" "join" "key" "language" "last" "lateral" "leading" "left" "less" "level" "like" "limit" "local" "locator" "map" "match" "minute" "modifies" "modify" "module" "month" "names" "natural" "new" "next" "no" "none" "not" "null" "of" "off" "old" "on" "only" "open" "operation" "option" "or" "order" "ordinality" "out" "outer" "output" "pad" "parameter" "parameters" "partial" "path" "postfix" "prefix" "preorder" "prepare" "preserve" "primary" "prior" "privileges" "procedure" "public" "read" "reads" "recursive" "references" "referencing" "relative" "restrict" "result" "return" "returns" "revoke" "right" "role" "rollback" "rollup" "routine" "rows" "savepoint" "schema" "scroll" "search" "second" "section" "select" "sequence" "session" "set" "sets" "size" "some" "space" "specific" "specifictype" "sql" "sqlexception" "sqlstate" "sqlwarning" "start" "state" "statement" "static" "structure" "table" "temporary" "terminate" "than" "then" "timezone_hour" "timezone_minute" "to" "trailing" "transaction" "translation" "trigger" "true" "under" "union" "unique" "unknown" "unnest" "update" "usage" "using" "value" "values" "variable" "view" "when" "whenever" "where" "with" "without" "work" "write" "year" ) ;; ANSI Functions (sql-font-lock-keywords-builder 'font-lock-builtin-face nil "abs" "avg" "bit_length" "cardinality" "cast" "char_length" "character_length" "coalesce" "convert" "count" "current_date" "current_path" "current_role" "current_time" "current_timestamp" "current_user" "extract" "localtime" "localtimestamp" "lower" "max" "min" "mod" "nullif" "octet_length" "overlay" "placing" "session_user" "substring" "sum" "system_user" "translate" "treat" "trim" "upper" "user" ) ;; ANSI Data Types (sql-font-lock-keywords-builder 'font-lock-type-face nil "array" "binary" "bit" "blob" "boolean" "char" "character" "clob" "date" "dec" "decimal" "double" "float" "int" "integer" "interval" "large" "national" "nchar" "nclob" "numeric" "object" "precision" "real" "ref" "row" "scope" "smallint" "time" "timestamp" "varchar" "varying" "zone" )))) (defvar sql-mode-ansi-font-lock-keywords (eval-when-compile sql-mode-ansi-font-lock-keywords) "ANSI SQL keywords used by font-lock. This variable is used by `sql-mode' and `sql-interactive-mode'. The regular expressions are created during compilation by calling the function `regexp-opt'. Therefore, take a look at the source before you define your own `sql-mode-ansi-font-lock-keywords'. You may want to add functions and PL/SQL keywords.") (defun sql--oracle-show-reserved-words () ;; This function is for use by the maintainer of SQL.EL only. (if (or (and (not (derived-mode-p 'sql-mode)) (not (derived-mode-p 'sql-interactive-mode))) (not sql-buffer) (not (eq sql-product 'oracle))) (user-error "Not an Oracle buffer") (let ((b "*RESERVED WORDS*")) (sql-execute sql-buffer b (concat "SELECT " " keyword " ", reserved AS \"Res\" " ", res_type AS \"Type\" " ", res_attr AS \"Attr\" " ", res_semi AS \"Semi\" " ", duplicate AS \"Dup\" " "FROM V$RESERVED_WORDS " "WHERE length > 1 " "AND SUBSTR(keyword, 1, 1) BETWEEN 'A' AND 'Z' " "ORDER BY 2 DESC, 3 DESC, 4 DESC, 5 DESC, 6 DESC, 1;") nil nil) (with-current-buffer b (setq-local sql-product 'oracle) (sql-product-font-lock t nil) (font-lock-mode +1))))) (defvar sql-mode-oracle-font-lock-keywords (eval-when-compile (list ;; Oracle SQL*Plus Commands ;; Only recognized in they start in column 1 and the ;; abbreviation is followed by a space or the end of line. (list (concat "^" (sql-regexp-abbrev "rem~ark") "\\(?:\\s-.*\\)?$") 0 'font-lock-comment-face t) (list (concat "^\\(?:" (sql-regexp-abbrev-list "[@]\\{1,2\\}" "acc~ept" "a~ppend" "archive" "attribute" "bre~ak" "bti~tle" "c~hange" "cl~ear" "col~umn" "conn~ect" "copy" "def~ine" "del" "desc~ribe" "disc~onnect" "ed~it" "exec~ute" "exit" "get" "help" "ho~st" "[$]" "i~nput" "l~ist" "passw~ord" "pau~se" "pri~nt" "pro~mpt" "quit" "recover" "repf~ooter" "reph~eader" "r~un" "sav~e" "sho~w" "shutdown" "spo~ol" "sta~rt" "startup" "store" "tim~ing" "tti~tle" "undef~ine" "var~iable" "whenever") "\\|" (concat "\\(?:" (sql-regexp-abbrev "comp~ute") "\\s-+" (sql-regexp-abbrev-list "avg" "cou~nt" "min~imum" "max~imum" "num~ber" "sum" "std" "var~iance") "\\)") "\\|" (concat "\\(?:set\\s-+" (sql-regexp-abbrev-list "appi~nfo" "array~size" "auto~commit" "autop~rint" "autorecovery" "autot~race" "blo~ckterminator" "cmds~ep" "colsep" "com~patibility" "con~cat" "copyc~ommit" "copytypecheck" "def~ine" "describe" "echo" "editf~ile" "emb~edded" "esc~ape" "feed~back" "flagger" "flu~sh" "hea~ding" "heads~ep" "instance" "lin~esize" "lobof~fset" "long" "longc~hunksize" "mark~up" "newp~age" "null" "numf~ormat" "num~width" "pages~ize" "pau~se" "recsep" "recsepchar" "scan" "serverout~put" "shift~inout" "show~mode" "sqlbl~anklines" "sqlc~ase" "sqlco~ntinue" "sqln~umber" "sqlpluscompat~ibility" "sqlpre~fix" "sqlp~rompt" "sqlt~erminator" "suf~fix" "tab" "term~out" "ti~me" "timi~ng" "trim~out" "trims~pool" "und~erline" "ver~ify" "wra~p") "\\)") "\\)\\(?:\\s-.*\\)?\\(?:[-]\n.*\\)*$") 0 'font-lock-doc-face t) '("&?&\\(?:\\sw\\|\\s_\\)+[.]?" 0 font-lock-preprocessor-face t) ;; Oracle PL/SQL Attributes (Declare these first to match %TYPE correctly) (sql-font-lock-keywords-builder 'font-lock-builtin-face '("%" . "\\b") "bulk_exceptions" "bulk_rowcount" "found" "isopen" "notfound" "rowcount" "rowtype" "type" ) ;; Oracle Functions (sql-font-lock-keywords-builder 'font-lock-builtin-face nil "abs" "acos" "add_months" "appendchildxml" "ascii" "asciistr" "asin" "atan" "atan2" "avg" "bfilename" "bin_to_num" "bitand" "cardinality" "cast" "ceil" "chartorowid" "chr" "cluster_id" "cluster_probability" "cluster_set" "coalesce" "collect" "compose" "concat" "convert" "corr" "connect_by_root" "connect_by_iscycle" "connect_by_isleaf" "corr_k" "corr_s" "cos" "cosh" "count" "covar_pop" "covar_samp" "cube_table" "cume_dist" "current_date" "current_timestamp" "cv" "dataobj_to_partition" "dbtimezone" "decode" "decompose" "deletexml" "dense_rank" "depth" "deref" "dump" "empty_blob" "empty_clob" "existsnode" "exp" "extract" "extractvalue" "feature_id" "feature_set" "feature_value" "first" "first_value" "floor" "from_tz" "greatest" "grouping" "grouping_id" "group_id" "hextoraw" "initcap" "insertchildxml" "insertchildxmlafter" "insertchildxmlbefore" "insertxmlafter" "insertxmlbefore" "instr" "instr2" "instr4" "instrb" "instrc" "iteration_number" "lag" "last" "last_day" "last_value" "lead" "least" "length" "length2" "length4" "lengthb" "lengthc" "listagg" "ln" "lnnvl" "localtimestamp" "log" "lower" "lpad" "ltrim" "make_ref" "max" "median" "min" "mod" "months_between" "nanvl" "nchr" "new_time" "next_day" "nlssort" "nls_charset_decl_len" "nls_charset_id" "nls_charset_name" "nls_initcap" "nls_lower" "nls_upper" "nth_value" "ntile" "nullif" "numtodsinterval" "numtoyminterval" "nvl" "nvl2" "ora_dst_affected" "ora_dst_convert" "ora_dst_error" "ora_hash" "path" "percentile_cont" "percentile_disc" "percent_rank" "power" "powermultiset" "powermultiset_by_cardinality" "prediction" "prediction_bounds" "prediction_cost" "prediction_details" "prediction_probability" "prediction_set" "presentnnv" "presentv" "previous" "rank" "ratio_to_report" "rawtohex" "rawtonhex" "ref" "reftohex" "regexp_count" "regexp_instr" "regexp_like" "regexp_replace" "regexp_substr" "regr_avgx" "regr_avgy" "regr_count" "regr_intercept" "regr_r2" "regr_slope" "regr_sxx" "regr_sxy" "regr_syy" "remainder" "replace" "round" "rowidtochar" "rowidtonchar" "row_number" "rpad" "rtrim" "scn_to_timestamp" "sessiontimezone" "set" "sign" "sin" "sinh" "soundex" "sqrt" "stats_binomial_test" "stats_crosstab" "stats_f_test" "stats_ks_test" "stats_mode" "stats_mw_test" "stats_one_way_anova" "stats_t_test_indep" "stats_t_test_indepu" "stats_t_test_one" "stats_t_test_paired" "stats_wsr_test" "stddev" "stddev_pop" "stddev_samp" "substr" "substr2" "substr4" "substrb" "substrc" "sum" "sysdate" "systimestamp" "sys_connect_by_path" "sys_context" "sys_dburigen" "sys_extract_utc" "sys_guid" "sys_typeid" "sys_xmlagg" "sys_xmlgen" "tan" "tanh" "timestamp_to_scn" "to_binary_double" "to_binary_float" "to_blob" "to_char" "to_clob" "to_date" "to_dsinterval" "to_lob" "to_multi_byte" "to_nchar" "to_nclob" "to_number" "to_single_byte" "to_timestamp" "to_timestamp_tz" "to_yminterval" "translate" "treat" "trim" "trunc" "tz_offset" "uid" "unistr" "updatexml" "upper" "user" "userenv" "value" "variance" "var_pop" "var_samp" "vsize" "width_bucket" "xmlagg" "xmlcast" "xmlcdata" "xmlcolattval" "xmlcomment" "xmlconcat" "xmldiff" "xmlelement" "xmlexists" "xmlforest" "xmlisvalid" "xmlparse" "xmlpatch" "xmlpi" "xmlquery" "xmlroot" "xmlsequence" "xmlserialize" "xmltable" "xmltransform" ) ;; See the table V$RESERVED_WORDS ;; Oracle Keywords (sql-font-lock-keywords-builder 'font-lock-keyword-face nil "abort" "access" "accessed" "account" "activate" "add" "admin" "advise" "after" "agent" "aggregate" "all" "allocate" "allow" "alter" "always" "analyze" "ancillary" "and" "any" "apply" "archive" "archivelog" "array" "as" "asc" "associate" "at" "attribute" "attributes" "audit" "authenticated" "authid" "authorization" "auto" "autoallocate" "automatic" "availability" "backup" "before" "begin" "behalf" "between" "binding" "bitmap" "block" "blocksize" "body" "both" "buffer_pool" "build" "by" "cache" "call" "cancel" "cascade" "case" "category" "certificate" "chained" "change" "check" "checkpoint" "child" "chunk" "class" "clear" "clone" "close" "cluster" "column" "column_value" "columns" "comment" "commit" "committed" "compatibility" "compile" "complete" "composite_limit" "compress" "compute" "connect" "connect_time" "consider" "consistent" "constraint" "constraints" "constructor" "contents" "context" "continue" "controlfile" "corruption" "cost" "cpu_per_call" "cpu_per_session" "create" "cross" "cube" "current" "currval" "cycle" "dangling" "data" "database" "datafile" "datafiles" "day" "ddl" "deallocate" "debug" "default" "deferrable" "deferred" "definer" "delay" "delete" "demand" "desc" "determines" "deterministic" "dictionary" "dimension" "directory" "disable" "disassociate" "disconnect" "distinct" "distinguished" "distributed" "dml" "drop" "each" "element" "else" "enable" "end" "equals_path" "escape" "estimate" "except" "exceptions" "exchange" "excluding" "exists" "expire" "explain" "extent" "external" "externally" "failed_login_attempts" "fast" "file" "final" "finish" "flush" "for" "force" "foreign" "freelist" "freelists" "freepools" "fresh" "from" "full" "function" "functions" "generated" "global" "global_name" "globally" "grant" "group" "grouping" "groups" "guard" "hash" "hashkeys" "having" "heap" "hierarchy" "id" "identified" "identifier" "idle_time" "immediate" "in" "including" "increment" "index" "indexed" "indexes" "indextype" "indextypes" "indicator" "initial" "initialized" "initially" "initrans" "inner" "insert" "instance" "instantiable" "instead" "intersect" "into" "invalidate" "is" "isolation" "java" "join" "keep" "key" "kill" "language" "left" "less" "level" "levels" "library" "like" "like2" "like4" "likec" "limit" "link" "list" "lob" "local" "location" "locator" "lock" "log" "logfile" "logging" "logical" "logical_reads_per_call" "logical_reads_per_session" "managed" "management" "manual" "map" "mapping" "master" "matched" "materialized" "maxdatafiles" "maxextents" "maximize" "maxinstances" "maxlogfiles" "maxloghistory" "maxlogmembers" "maxsize" "maxtrans" "maxvalue" "member" "memory" "merge" "migrate" "minextents" "minimize" "minimum" "minus" "minvalue" "mode" "modify" "monitoring" "month" "mount" "move" "movement" "name" "named" "natural" "nested" "never" "new" "next" "nextval" "no" "noarchivelog" "noaudit" "nocache" "nocompress" "nocopy" "nocycle" "nodelay" "noforce" "nologging" "nomapping" "nomaxvalue" "nominimize" "nominvalue" "nomonitoring" "none" "noorder" "noparallel" "norely" "noresetlogs" "noreverse" "normal" "norowdependencies" "nosort" "noswitch" "not" "nothing" "notimeout" "novalidate" "nowait" "null" "nulls" "object" "of" "off" "offline" "oidindex" "old" "on" "online" "only" "open" "operator" "optimal" "option" "or" "order" "organization" "out" "outer" "outline" "over" "overflow" "overriding" "package" "packages" "parallel" "parallel_enable" "parameters" "parent" "partition" "partitions" "password" "password_grace_time" "password_life_time" "password_lock_time" "password_reuse_max" "password_reuse_time" "password_verify_function" "pctfree" "pctincrease" "pctthreshold" "pctused" "pctversion" "percent" "performance" "permanent" "pfile" "physical" "pipelined" "pivot" "plan" "post_transaction" "pragma" "prebuilt" "preserve" "primary" "private" "private_sga" "privileges" "procedure" "profile" "protection" "public" "purge" "query" "quiesce" "quota" "range" "read" "reads" "rebuild" "records_per_block" "recover" "recovery" "recycle" "reduced" "ref" "references" "referencing" "refresh" "register" "reject" "relational" "rely" "rename" "reset" "resetlogs" "resize" "resolve" "resolver" "resource" "restrict" "restrict_references" "restricted" "result" "resumable" "resume" "retention" "return" "returning" "reuse" "reverse" "revoke" "rewrite" "right" "rnds" "rnps" "role" "roles" "rollback" "rollup" "row" "rowdependencies" "rownum" "rows" "sample" "savepoint" "scan" "schema" "scn" "scope" "segment" "select" "selectivity" "self" "sequence" "serializable" "session" "sessions_per_user" "set" "sets" "settings" "shared" "shared_pool" "shrink" "shutdown" "siblings" "sid" "single" "size" "skip" "some" "sort" "source" "space" "specification" "spfile" "split" "standby" "start" "statement_id" "static" "statistics" "stop" "storage" "store" "structure" "subpartition" "subpartitions" "substitutable" "successful" "supplemental" "suspend" "switch" "switchover" "synonym" "sys" "system" "table" "tables" "tablespace" "tempfile" "template" "temporary" "test" "than" "then" "thread" "through" "time_zone" "timeout" "to" "trace" "transaction" "trigger" "triggers" "truncate" "trust" "type" "types" "unarchived" "under" "under_path" "undo" "uniform" "union" "unique" "unlimited" "unlock" "unpivot" "unquiesce" "unrecoverable" "until" "unusable" "unused" "update" "upgrade" "usage" "use" "using" "validate" "validation" "value" "values" "variable" "varray" "version" "view" "wait" "when" "whenever" "where" "with" "without" "wnds" "wnps" "work" "write" "xmldata" "xmlschema" "xmltype" ) ;; Oracle Data Types (sql-font-lock-keywords-builder 'font-lock-type-face nil "bfile" "binary_double" "binary_float" "blob" "byte" "char" "charbyte" "clob" "date" "day" "float" "interval" "local" "long" "longraw" "minute" "month" "nchar" "nclob" "number" "nvarchar2" "raw" "rowid" "second" "time" "timestamp" "urowid" "varchar2" "with" "year" "zone" ) ;; Oracle PL/SQL Functions (sql-font-lock-keywords-builder 'font-lock-builtin-face nil "delete" "trim" "extend" "exists" "first" "last" "count" "limit" "prior" "next" "sqlcode" "sqlerrm" ) ;; Oracle PL/SQL Reserved words (sql-font-lock-keywords-builder 'font-lock-keyword-face nil "all" "alter" "and" "any" "as" "asc" "at" "begin" "between" "by" "case" "check" "clusters" "cluster" "colauth" "columns" "compress" "connect" "crash" "create" "cursor" "declare" "default" "desc" "distinct" "drop" "else" "end" "exception" "exclusive" "fetch" "for" "from" "function" "goto" "grant" "group" "having" "identified" "if" "in" "index" "indexes" "insert" "intersect" "into" "is" "like" "lock" "minus" "mode" "nocompress" "not" "nowait" "null" "of" "on" "option" "or" "order" "overlaps" "procedure" "public" "resource" "revoke" "select" "share" "size" "sql" "start" "subtype" "tabauth" "table" "then" "to" "type" "union" "unique" "update" "values" "view" "views" "when" "where" "with" "true" "false" "raise_application_error" ) ;; Oracle PL/SQL Keywords (sql-font-lock-keywords-builder 'font-lock-keyword-face nil "a" "add" "agent" "aggregate" "array" "attribute" "authid" "avg" "bfile_base" "binary" "blob_base" "block" "body" "both" "bound" "bulk" "byte" "c" "call" "calling" "cascade" "char" "char_base" "character" "charset" "charsetform" "charsetid" "clob_base" "close" "collect" "comment" "commit" "committed" "compiled" "constant" "constructor" "context" "continue" "convert" "count" "current" "customdatum" "dangling" "data" "date" "date_base" "day" "define" "delete" "deterministic" "double" "duration" "element" "elsif" "empty" "escape" "except" "exceptions" "execute" "exists" "exit" "external" "final" "fixed" "float" "forall" "force" "general" "hash" "heap" "hidden" "hour" "immediate" "including" "indicator" "indices" "infinite" "instantiable" "int" "interface" "interval" "invalidate" "isolation" "java" "language" "large" "leading" "length" "level" "library" "like2" "like4" "likec" "limit" "limited" "local" "long" "loop" "map" "max" "maxlen" "member" "merge" "min" "minute" "mod" "modify" "month" "multiset" "name" "nan" "national" "native" "nchar" "new" "nocopy" "number_base" "object" "ocicoll" "ocidate" "ocidatetime" "ociduration" "ociinterval" "ociloblocator" "ocinumber" "ociraw" "ociref" "ocirefcursor" "ocirowid" "ocistring" "ocitype" "old" "only" "opaque" "open" "operator" "oracle" "oradata" "organization" "orlany" "orlvary" "others" "out" "overriding" "package" "parallel_enable" "parameter" "parameters" "parent" "partition" "pascal" "pipe" "pipelined" "pragma" "precision" "prior" "private" "raise" "range" "raw" "read" "record" "ref" "reference" "relies_on" "rem" "remainder" "rename" "result" "result_cache" "return" "returning" "reverse" "rollback" "row" "sample" "save" "savepoint" "sb1" "sb2" "sb4" "second" "segment" "self" "separate" "sequence" "serializable" "set" "short" "size_t" "some" "sparse" "sqlcode" "sqldata" "sqlname" "sqlstate" "standard" "static" "stddev" "stored" "string" "struct" "style" "submultiset" "subpartition" "substitutable" "sum" "synonym" "tdo" "the" "time" "timestamp" "timezone_abbr" "timezone_hour" "timezone_minute" "timezone_region" "trailing" "transaction" "transactional" "trusted" "ub1" "ub2" "ub4" "under" "unsigned" "untrusted" "use" "using" "valist" "value" "variable" "variance" "varray" "varying" "void" "while" "work" "wrapped" "write" "year" "zone" ;; Pragma "autonomous_transaction" "exception_init" "inline" "restrict_references" "serially_reusable" ) ;; Oracle PL/SQL Data Types (sql-font-lock-keywords-builder 'font-lock-type-face nil "\"BINARY LARGE OBJECT\"" "\"CHAR LARGE OBJECT\"" "\"CHAR VARYING\"" "\"CHARACTER LARGE OBJECT\"" "\"CHARACTER VARYING\"" "\"DOUBLE PRECISION\"" "\"INTERVAL DAY TO SECOND\"" "\"INTERVAL YEAR TO MONTH\"" "\"LONG RAW\"" "\"NATIONAL CHAR\"" "\"NATIONAL CHARACTER LARGE OBJECT\"" "\"NATIONAL CHARACTER\"" "\"NCHAR LARGE OBJECT\"" "\"NCHAR\"" "\"NCLOB\"" "\"NVARCHAR2\"" "\"TIME WITH TIME ZONE\"" "\"TIMESTAMP WITH LOCAL TIME ZONE\"" "\"TIMESTAMP WITH TIME ZONE\"" "bfile" "bfile_base" "binary_double" "binary_float" "binary_integer" "blob" "blob_base" "boolean" "char" "character" "char_base" "clob" "clob_base" "cursor" "date" "day" "dec" "decimal" "dsinterval_unconstrained" "float" "int" "integer" "interval" "local" "long" "mlslabel" "month" "natural" "naturaln" "nchar_cs" "number" "number_base" "numeric" "pls_integer" "positive" "positiven" "raw" "real" "ref" "rowid" "second" "signtype" "simple_double" "simple_float" "simple_integer" "smallint" "string" "time" "timestamp" "timestamp_ltz_unconstrained" "timestamp_tz_unconstrained" "timestamp_unconstrained" "time_tz_unconstrained" "time_unconstrained" "to" "urowid" "varchar" "varchar2" "with" "year" "yminterval_unconstrained" "zone" ) ;; Oracle PL/SQL Exceptions (sql-font-lock-keywords-builder 'font-lock-warning-face nil "access_into_null" "case_not_found" "collection_is_null" "cursor_already_open" "dup_val_on_index" "invalid_cursor" "invalid_number" "login_denied" "no_data_found" "no_data_needed" "not_logged_on" "program_error" "rowtype_mismatch" "self_is_null" "storage_error" "subscript_beyond_count" "subscript_outside_limit" "sys_invalid_rowid" "timeout_on_resource" "too_many_rows" "value_error" "zero_divide" ))) "Oracle SQL keywords used by font-lock. This variable is used by `sql-mode' and `sql-interactive-mode'. The regular expressions are created during compilation by calling the function `regexp-opt'. Therefore, take a look at the source before you define your own `sql-mode-oracle-font-lock-keywords'. You may want to add functions and PL/SQL keywords.") (defvar sql-mode-postgres-font-lock-keywords (eval-when-compile (list ;; Postgres psql commands '("^\\s-*\\\\.*$" . font-lock-doc-face) ;; Postgres unreserved words but may have meaning (sql-font-lock-keywords-builder 'font-lock-builtin-face nil "a" "abs" "absent" "according" "ada" "alias" "allocate" "are" "array_agg" "asensitive" "atomic" "attribute" "attributes" "avg" "base64" "bernoulli" "bit_length" "bitvar" "blob" "blocked" "bom" "breadth" "c" "call" "cardinality" "catalog_name" "ceil" "ceiling" "char_length" "character_length" "character_set_catalog" "character_set_name" "character_set_schema" "characters" "checked" "class_origin" "clob" "cobol" "collation" "collation_catalog" "collation_name" "collation_schema" "collect" "column_name" "columns" "command_function" "command_function_code" "completion" "condition" "condition_number" "connect" "connection_name" "constraint_catalog" "constraint_name" "constraint_schema" "constructor" "contains" "control" "convert" "corr" "corresponding" "count" "covar_pop" "covar_samp" "cube" "cume_dist" "current_default_transform_group" "current_path" "current_transform_group_for_type" "cursor_name" "datalink" "datetime_interval_code" "datetime_interval_precision" "db" "defined" "degree" "dense_rank" "depth" "deref" "derived" "describe" "descriptor" "destroy" "destructor" "deterministic" "diagnostics" "disconnect" "dispatch" "dlnewcopy" "dlpreviouscopy" "dlurlcomplete" "dlurlcompleteonly" "dlurlcompletewrite" "dlurlpath" "dlurlpathonly" "dlurlpathwrite" "dlurlscheme" "dlurlserver" "dlvalue" "dynamic" "dynamic_function" "dynamic_function_code" "element" "empty" "end-exec" "equals" "every" "exception" "exec" "existing" "exp" "file" "filter" "final" "first_value" "flag" "floor" "fortran" "found" "free" "fs" "fusion" "g" "general" "generated" "get" "go" "goto" "grouping" "hex" "hierarchy" "host" "id" "ignore" "implementation" "import" "indent" "indicator" "infix" "initialize" "instance" "instantiable" "integrity" "intersection" "iterate" "k" "key_member" "key_type" "lag" "last_value" "lateral" "lead" "length" "less" "library" "like_regex" "link" "ln" "locator" "lower" "m" "map" "matched" "max" "max_cardinality" "member" "merge" "message_length" "message_octet_length" "message_text" "method" "min" "mod" "modifies" "modify" "module" "more" "multiset" "mumps" "namespace" "nclob" "nesting" "new" "nfc" "nfd" "nfkc" "nfkd" "nil" "normalize" "normalized" "nth_value" "ntile" "nullable" "number" "occurrences_regex" "octet_length" "octets" "old" "open" "operation" "ordering" "ordinality" "others" "output" "overriding" "p" "pad" "parameter" "parameter_mode" "parameter_name" "parameter_ordinal_position" "parameter_specific_catalog" "parameter_specific_name" "parameter_specific_schema" "parameters" "pascal" "passing" "passthrough" "percent_rank" "percentile_cont" "percentile_disc" "permission" "pli" "position_regex" "postfix" "power" "prefix" "preorder" "public" "rank" "reads" "recovery" "ref" "referencing" "regr_avgx" "regr_avgy" "regr_count" "regr_intercept" "regr_r2" "regr_slope" "regr_sxx" "regr_sxy" "regr_syy" "requiring" "respect" "restore" "result" "return" "returned_cardinality" "returned_length" "returned_octet_length" "returned_sqlstate" "rollup" "routine" "routine_catalog" "routine_name" "routine_schema" "row_count" "row_number" "scale" "schema_name" "scope" "scope_catalog" "scope_name" "scope_schema" "section" "selective" "self" "sensitive" "server_name" "sets" "size" "source" "space" "specific" "specific_name" "specifictype" "sql" "sqlcode" "sqlerror" "sqlexception" "sqlstate" "sqlwarning" "sqrt" "state" "static" "stddev_pop" "stddev_samp" "structure" "style" "subclass_origin" "sublist" "submultiset" "substring_regex" "sum" "system_user" "t" "table_name" "tablesample" "terminate" "than" "ties" "timezone_hour" "timezone_minute" "token" "top_level_count" "transaction_active" "transactions_committed" "transactions_rolled_back" "transform" "transforms" "translate" "translate_regex" "translation" "trigger_catalog" "trigger_name" "trigger_schema" "trim_array" "uescape" "under" "unlink" "unnamed" "unnest" "untyped" "upper" "uri" "usage" "user_defined_type_catalog" "user_defined_type_code" "user_defined_type_name" "user_defined_type_schema" "var_pop" "var_samp" "varbinary" "variable" "whenever" "width_bucket" "within" "xmlagg" "xmlbinary" "xmlcast" "xmlcomment" "xmldeclaration" "xmldocument" "xmlexists" "xmliterate" "xmlnamespaces" "xmlquery" "xmlschema" "xmltable" "xmltext" "xmlvalidate" ) ;; Postgres non-reserved words (sql-font-lock-keywords-builder 'font-lock-builtin-face nil "abort" "absolute" "access" "action" "add" "admin" "after" "aggregate" "also" "alter" "always" "assertion" "assignment" "at" "attribute" "backward" "before" "begin" "between" "by" "cache" "called" "cascade" "cascaded" "catalog" "chain" "characteristics" "checkpoint" "class" "close" "cluster" "coalesce" "comment" "comments" "commit" "committed" "configuration" "connection" "constraints" "content" "continue" "conversion" "copy" "cost" "createdb" "createrole" "createuser" "csv" "current" "cursor" "cycle" "data" "database" "day" "deallocate" "dec" "declare" "defaults" "deferred" "definer" "delete" "delimiter" "delimiters" "dictionary" "disable" "discard" "document" "domain" "drop" "each" "enable" "encoding" "encrypted" "enum" "escape" "exclude" "excluding" "exclusive" "execute" "exists" "explain" "extension" "external" "extract" "family" "first" "float" "following" "force" "forward" "function" "functions" "global" "granted" "greatest" "handler" "header" "hold" "hour" "identity" "if" "immediate" "immutable" "implicit" "including" "increment" "index" "indexes" "inherit" "inherits" "inline" "inout" "input" "insensitive" "insert" "instead" "invoker" "isolation" "key" "label" "language" "large" "last" "lc_collate" "lc_ctype" "leakproof" "least" "level" "listen" "load" "local" "location" "lock" "login" "mapping" "match" "maxvalue" "minute" "minvalue" "mode" "month" "move" "names" "national" "nchar" "next" "no" "nocreatedb" "nocreaterole" "nocreateuser" "noinherit" "nologin" "none" "noreplication" "nosuperuser" "nothing" "notify" "nowait" "nullif" "nulls" "object" "of" "off" "oids" "operator" "option" "options" "out" "overlay" "owned" "owner" "parser" "partial" "partition" "passing" "password" "plans" "position" "preceding" "precision" "prepare" "prepared" "preserve" "prior" "privileges" "procedural" "procedure" "quote" "range" "read" "reassign" "recheck" "recursive" "ref" "reindex" "relative" "release" "rename" "repeatable" "replace" "replica" "replication" "reset" "restart" "restrict" "returns" "revoke" "role" "rollback" "row" "rows" "rule" "savepoint" "schema" "scroll" "search" "second" "security" "sequence" "serializable" "server" "session" "set" "setof" "share" "show" "simple" "snapshot" "stable" "standalone" "start" "statement" "statistics" "stdin" "stdout" "storage" "strict" "strip" "substring" "superuser" "sysid" "system" "tables" "tablespace" "temp" "template" "temporary" "transaction" "treat" "trim" "truncate" "trusted" "type" "types" "unbounded" "uncommitted" "unencrypted" "unlisten" "unlogged" "until" "update" "vacuum" "valid" "validate" "validator" "value" "values" "varying" "version" "view" "volatile" "whitespace" "without" "work" "wrapper" "write" "xmlattributes" "xmlconcat" "xmlelement" "xmlexists" "xmlforest" "xmlparse" "xmlpi" "xmlroot" "xmlserialize" "year" "yes" "zone" ) ;; Postgres Reserved (sql-font-lock-keywords-builder 'font-lock-keyword-face nil "all" "analyse" "analyze" "and" "array" "asc" "as" "asymmetric" "authorization" "binary" "both" "case" "cast" "check" "collate" "column" "concurrently" "constraint" "create" "cross" "current_catalog" "current_date" "current_role" "current_schema" "current_time" "current_timestamp" "current_user" "default" "deferrable" "desc" "distinct" "do" "else" "end" "except" "false" "fetch" "foreign" "for" "freeze" "from" "full" "grant" "group" "having" "ilike" "initially" "inner" "in" "intersect" "into" "isnull" "is" "join" "leading" "left" "like" "limit" "localtime" "localtimestamp" "natural" "notnull" "not" "null" "offset" "only" "on" "order" "or" "outer" "overlaps" "over" "placing" "primary" "references" "returning" "right" "select" "session_user" "similar" "some" "symmetric" "table" "then" "to" "trailing" "true" "union" "unique" "user" "using" "variadic" "verbose" "when" "where" "window" "with" ) ;; Postgres PL/pgSQL (sql-font-lock-keywords-builder 'font-lock-keyword-face nil "assign" "if" "case" "loop" "while" "for" "foreach" "exit" "elsif" "return" "raise" "execsql" "dynexecute" "perform" "getdiag" "open" "fetch" "move" "close" ) ;; Postgres Data Types (sql-font-lock-keywords-builder 'font-lock-type-face nil "bigint" "bigserial" "bit" "bool" "boolean" "box" "bytea" "char" "character" "cidr" "circle" "date" "daterange" "decimal" "double" "float4" "float8" "inet" "int" "int2" "int4" "int4range" "int8" "int8range" "integer" "interval" "jsonb" "jsonpath" "line" "lseg" "macaddr" "macaddr8" "money" "name" "numeric" "numrange" "oid" "path" "point" "polygon" "precision" "real" "regclass" "regcollation" "regconfig" "regdictionary" "regnamespace " "regoper" "regoperator" "regproc" "regprocedure" "regrole" "regtype" "sequences" "serial" "serial4" "serial8" "smallint" "smallserial" "text" "time" "timestamp" "timestamptz" "timetz" "tsquery" "tsrange" "tstzrange" "tsvector" "txid_snapshot" "unknown" "uuid" "varbit" "varchar" "varying" "without" "xml" "zone" ))) "Postgres SQL keywords used by font-lock. This variable is used by `sql-mode' and `sql-interactive-mode'. The regular expressions are created during compilation by calling the function `regexp-opt'. Therefore, take a look at the source before you define your own `sql-mode-postgres-font-lock-keywords'.") (defvar sql-mode-linter-font-lock-keywords (eval-when-compile (list ;; Linter Keywords (sql-font-lock-keywords-builder 'font-lock-keyword-face nil "autocommit" "autoinc" "autorowid" "cancel" "cascade" "channel" "committed" "count" "countblob" "cross" "current" "data" "database" "datafile" "datafiles" "datesplit" "dba" "dbname" "default" "deferred" "denied" "description" "device" "difference" "directory" "error" "escape" "euc" "exclusive" "external" "extfile" "false" "file" "filename" "filesize" "filetime" "filter" "findblob" "first" "foreign" "full" "fuzzy" "global" "granted" "ignore" "immediate" "increment" "indexes" "indexfile" "indexfiles" "indextime" "initial" "integrity" "internal" "key" "last_autoinc" "last_rowid" "limit" "linter" "linter_file_device" "linter_file_size" "linter_name_length" "ln" "local" "login" "maxisn" "maxrow" "maxrowid" "maxvalue" "message" "minvalue" "module" "names" "national" "natural" "new" "new_table" "no" "node" "noneuc" "nulliferror" "numbers" "off" "old" "old_table" "only" "operation" "optimistic" "option" "page" "partially" "password" "phrase" "plan" "precision" "primary" "priority" "privileges" "proc_info_size" "proc_par_name_len" "protocol" "quant" "range" "raw" "read" "record" "records" "references" "remote" "rename" "replication" "restart" "rewrite" "root" "row" "rule" "savepoint" "security" "sensitive" "sequence" "serializable" "server" "since" "size" "some" "startup" "statement" "station" "success" "sys_guid" "tables" "test" "timeout" "trace" "transaction" "translation" "trigger" "trigger_info_size" "true" "trunc" "uncommitted" "unicode" "unknown" "unlimited" "unlisted" "user" "utf8" "value" "varying" "volumes" "wait" "windows_code" "workspace" "write" "xml" ) ;; Linter Reserved (sql-font-lock-keywords-builder 'font-lock-keyword-face nil "access" "action" "add" "address" "after" "all" "alter" "always" "and" "any" "append" "as" "asc" "ascic" "async" "at_begin" "at_end" "audit" "aud_obj_name_len" "backup" "base" "before" "between" "blobfile" "blobfiles" "blobpct" "brief" "browse" "by" "case" "cast" "check" "clear" "close" "column" "comment" "commit" "connect" "contains" "correct" "create" "delete" "desc" "disable" "disconnect" "distinct" "drop" "each" "ef" "else" "enable" "end" "event" "except" "exclude" "execute" "exists" "extract" "fetch" "finish" "for" "from" "get" "grant" "group" "having" "identified" "in" "index" "inner" "insert" "instead" "intersect" "into" "is" "isolation" "join" "left" "level" "like" "lock" "mode" "modify" "not" "nowait" "null" "of" "on" "open" "or" "order" "outer" "owner" "press" "prior" "procedure" "public" "purge" "rebuild" "resource" "restrict" "revoke" "right" "role" "rollback" "rownum" "select" "session" "set" "share" "shutdown" "start" "stop" "sync" "synchronize" "synonym" "sysdate" "table" "then" "to" "union" "unique" "unlock" "until" "update" "using" "values" "view" "when" "where" "with" "without" ) ;; Linter Functions (sql-font-lock-keywords-builder 'font-lock-builtin-face nil "abs" "acos" "asin" "atan" "atan2" "avg" "ceil" "cos" "cosh" "divtime" "exp" "floor" "getbits" "getblob" "getbyte" "getlong" "getraw" "getstr" "gettext" "getword" "hextoraw" "lenblob" "length" "log" "lower" "lpad" "ltrim" "max" "min" "mod" "monthname" "nvl" "octet_length" "power" "rand" "rawtohex" "repeat_string" "right_substr" "round" "rpad" "rtrim" "sign" "sin" "sinh" "soundex" "sqrt" "sum" "tan" "tanh" "timeint_to_days" "to_char" "to_date" "to_gmtime" "to_localtime" "to_number" "trim" "upper" "decode" "substr" "substring" "chr" "dayname" "days" "greatest" "hex" "initcap" "instr" "least" "multime" "replace" "width" ) ;; Linter Data Types (sql-font-lock-keywords-builder 'font-lock-type-face nil "bigint" "bitmap" "blob" "boolean" "char" "character" "date" "datetime" "dec" "decimal" "double" "float" "int" "integer" "nchar" "number" "numeric" "real" "smallint" "varbyte" "varchar" "byte" "cursor" "long" ))) "Linter SQL keywords used by font-lock. This variable is used by `sql-mode' and `sql-interactive-mode'. The regular expressions are created during compilation by calling the function `regexp-opt'.") (defvar sql-mode-ms-font-lock-keywords (eval-when-compile (list ;; MS isql/osql Commands (cons (concat "^\\(?:\\(?:set\\s-+\\(?:" (regexp-opt '( "datefirst" "dateformat" "deadlock_priority" "lock_timeout" "concat_null_yields_null" "cursor_close_on_commit" "disable_def_cnst_chk" "fips_flagger" "identity_insert" "language" "offsets" "quoted_identifier" "arithabort" "arithignore" "fmtonly" "nocount" "noexec" "numeric_roundabort" "parseonly" "query_governor_cost_limit" "rowcount" "textsize" "ansi_defaults" "ansi_null_dflt_off" "ansi_null_dflt_on" "ansi_nulls" "ansi_padding" "ansi_warnings" "forceplan" "showplan_all" "showplan_text" "statistics" "implicit_transactions" "remote_proc_transactions" "transaction" "xact_abort" ) t) "\\)\\)\\|go\\s-*\\|use\\s-+\\|setuser\\s-+\\|dbcc\\s-+\\).*$") 'font-lock-doc-face) ;; MS Reserved (sql-font-lock-keywords-builder 'font-lock-keyword-face nil "absolute" "add" "all" "alter" "and" "any" "as" "asc" "authorization" "avg" "backup" "begin" "between" "break" "browse" "bulk" "by" "cascade" "case" "check" "checkpoint" "close" "clustered" "coalesce" "column" "commit" "committed" "compute" "confirm" "constraint" "contains" "containstable" "continue" "controlrow" "convert" "count" "create" "cross" "current" "current_date" "current_time" "current_timestamp" "current_user" "database" "deallocate" "declare" "default" "delete" "deny" "desc" "disk" "distinct" "distributed" "double" "drop" "dummy" "dump" "else" "end" "errlvl" "errorexit" "escape" "except" "exec" "execute" "exists" "exit" "fetch" "file" "fillfactor" "first" "floppy" "for" "foreign" "freetext" "freetexttable" "from" "full" "goto" "grant" "group" "having" "holdlock" "identity" "identity_insert" "identitycol" "if" "in" "index" "inner" "insert" "intersect" "into" "is" "isolation" "join" "key" "kill" "last" "left" "level" "like" "lineno" "load" "max" "min" "mirrorexit" "national" "next" "nocheck" "nolock" "nonclustered" "not" "null" "nullif" "of" "off" "offsets" "on" "once" "only" "open" "opendatasource" "openquery" "openrowset" "option" "or" "order" "outer" "output" "over" "paglock" "percent" "perm" "permanent" "pipe" "plan" "precision" "prepare" "primary" "print" "prior" "privileges" "proc" "procedure" "processexit" "public" "raiserror" "read" "readcommitted" "readpast" "readtext" "readuncommitted" "reconfigure" "references" "relative" "repeatable" "repeatableread" "replication" "restore" "restrict" "return" "revoke" "right" "rollback" "rowcount" "rowguidcol" "rowlock" "rule" "save" "schema" "select" "serializable" "session_user" "set" "shutdown" "some" "statistics" "sum" "system_user" "table" "tablock" "tablockx" "tape" "temp" "temporary" "textsize" "then" "to" "top" "tran" "transaction" "trigger" "truncate" "tsequal" "uncommitted" "union" "unique" "update" "updatetext" "updlock" "use" "user" "values" "view" "waitfor" "when" "where" "while" "with" "work" "writetext" "collate" "function" "openxml" "returns" ) ;; MS Functions (sql-font-lock-keywords-builder 'font-lock-builtin-face nil "@@connections" "@@cpu_busy" "@@cursor_rows" "@@datefirst" "@@dbts" "@@error" "@@fetch_status" "@@identity" "@@idle" "@@io_busy" "@@langid" "@@language" "@@lock_timeout" "@@max_connections" "@@max_precision" "@@nestlevel" "@@options" "@@pack_received" "@@pack_sent" "@@packet_errors" "@@procid" "@@remserver" "@@rowcount" "@@servername" "@@servicename" "@@spid" "@@textsize" "@@timeticks" "@@total_errors" "@@total_read" "@@total_write" "@@trancount" "@@version" "abs" "acos" "and" "app_name" "ascii" "asin" "atan" "atn2" "avg" "case" "cast" "ceiling" "char" "charindex" "coalesce" "col_length" "col_name" "columnproperty" "containstable" "convert" "cos" "cot" "count" "current_timestamp" "current_user" "cursor_status" "databaseproperty" "datalength" "dateadd" "datediff" "datename" "datepart" "day" "db_id" "db_name" "degrees" "difference" "exp" "file_id" "file_name" "filegroup_id" "filegroup_name" "filegroupproperty" "fileproperty" "floor" "formatmessage" "freetexttable" "fulltextcatalogproperty" "fulltextserviceproperty" "getansinull" "getdate" "grouping" "host_id" "host_name" "ident_incr" "ident_seed" "identity" "index_col" "indexproperty" "is_member" "is_srvrolemember" "isdate" "isnull" "isnumeric" "left" "len" "log" "log10" "lower" "ltrim" "max" "min" "month" "nchar" "newid" "nullif" "object_id" "object_name" "objectproperty" "openquery" "openrowset" "parsename" "patindex" "patindex" "permissions" "pi" "power" "quotename" "radians" "rand" "replace" "replicate" "reverse" "right" "round" "rtrim" "session_user" "sign" "sin" "soundex" "space" "sqrt" "square" "stats_date" "stdev" "stdevp" "str" "stuff" "substring" "sum" "suser_id" "suser_name" "suser_sid" "suser_sname" "system_user" "tan" "textptr" "textvalid" "typeproperty" "unicode" "upper" "user" "user_id" "user_name" "var" "varp" "year" ) ;; MS Variables '("\\b@[a-zA-Z0-9_]*\\b" . font-lock-variable-name-face) ;; MS Types (sql-font-lock-keywords-builder 'font-lock-type-face nil "binary" "bit" "char" "character" "cursor" "datetime" "dec" "decimal" "double" "float" "image" "int" "integer" "money" "national" "nchar" "ntext" "numeric" "numeric" "nvarchar" "precision" "real" "smalldatetime" "smallint" "smallmoney" "text" "timestamp" "tinyint" "uniqueidentifier" "varbinary" "varchar" "varying" ))) "Microsoft SQLServer SQL keywords used by font-lock. This variable is used by `sql-mode' and `sql-interactive-mode'. The regular expressions are created during compilation by calling the function `regexp-opt'. Therefore, take a look at the source before you define your own `sql-mode-ms-font-lock-keywords'.") (defvar sql-mode-sybase-font-lock-keywords nil "Sybase SQL keywords used by font-lock. This variable is used by `sql-mode' and `sql-interactive-mode'. The regular expressions are created during compilation by calling the function `regexp-opt'. Therefore, take a look at the source before you define your own `sql-mode-sybase-font-lock-keywords'.") (defvar sql-mode-informix-font-lock-keywords nil "Informix SQL keywords used by font-lock. This variable is used by `sql-mode' and `sql-interactive-mode'. The regular expressions are created during compilation by calling the function `regexp-opt'. Therefore, take a look at the source before you define your own `sql-mode-informix-font-lock-keywords'.") (defvar sql-mode-interbase-font-lock-keywords nil "Interbase SQL keywords used by font-lock. This variable is used by `sql-mode' and `sql-interactive-mode'. The regular expressions are created during compilation by calling the function `regexp-opt'. Therefore, take a look at the source before you define your own `sql-mode-interbase-font-lock-keywords'.") (defvar sql-mode-ingres-font-lock-keywords nil "Ingres SQL keywords used by font-lock. This variable is used by `sql-mode' and `sql-interactive-mode'. The regular expressions are created during compilation by calling the function `regexp-opt'. Therefore, take a look at the source before you define your own `sql-mode-interbase-font-lock-keywords'.") (defvar sql-mode-solid-font-lock-keywords nil "Solid SQL keywords used by font-lock. This variable is used by `sql-mode' and `sql-interactive-mode'. The regular expressions are created during compilation by calling the function `regexp-opt'. Therefore, take a look at the source before you define your own `sql-mode-solid-font-lock-keywords'.") (defvaralias 'sql-mode-mariadb-font-lock-keywords 'sql-mode-mysql-font-lock-keywords "MariaDB is SQL compatible with MySQL.") (defvar sql-mode-mysql-font-lock-keywords (eval-when-compile (list ;; MySQL Functions (sql-font-lock-keywords-builder 'font-lock-builtin-face nil "acos" "adddate" "addtime" "aes_decrypt" "aes_encrypt" "area" "asbinary" "ascii" "asin" "astext" "aswkb" "aswkt" "atan" "atan2" "avg" "bdmpolyfromtext" "bdmpolyfromwkb" "bdpolyfromtext" "bdpolyfromwkb" "benchmark" "bin" "binlog_gtid_pos" "bit_and" "bit_count" "bit_length" "bit_or" "bit_xor" "both" "boundary" "buffer" "cast" "ceil" "ceiling" "centroid" "character_length" "char_length" "charset" "coalesce" "coercibility" "column_add" "column_check" "column_create" "column_delete" "column_exists" "column_get" "column_json" "column_list" "compress" "concat" "concat_ws" "connection_id" "conv" "convert" "convert_tz" "convexhull" "cos" "cot" "count" "crc32" "crosses" "cume_dist" "cume_dist" "curdate" "current_date" "current_time" "current_timestamp" "curtime" "date_add" "datediff" "date_format" "date_sub" "dayname" "dayofmonth" "dayofweek" "dayofyear" "decode" "decode_histogram" "degrees" "dense_rank" "dense_rank" "des_decrypt" "des_encrypt" "dimension" "disjoint" "div" "elt" "encode" "encrypt" "endpoint" "envelope" "exp" "export_set" "exteriorring" "extractvalue" "field" "find_in_set" "floor" "format" "found_rows" "from" "from_base64" "from_days" "from_unixtime" "geomcollfromtext" "geomcollfromwkb" "geometrycollectionfromtext" "geometrycollectionfromwkb" "geometryfromtext" "geometryfromwkb" "geometryn" "geometrytype" "geomfromtext" "geomfromwkb" "get_format" "get_lock" "glength" "greatest" "group_concat" "hex" "ifnull" "inet6_aton" "inet6_ntoa" "inet_aton" "inet_ntoa" "instr" "interiorringn" "intersects" "interval" "isclosed" "isempty" "is_free_lock" "is_ipv4" "is_ipv4_compat" "is_ipv4_mapped" "is_ipv6" "isnull" "isring" "issimple" "is_used_lock" "json_array" "json_array_append" "json_array_insert" "json_compact" "json_contains" "json_contains_path" "json_depth" "json_detailed" "json_exists" "json_extract" "json_insert" "json_keys" "json_length" "json_loose" "json_merge" "json_object" "json_query" "json_quote" "json_remove" "json_replace" "json_search" "json_set" "json_type" "json_unquote" "json_valid" "json_value" "lag" "last_day" "last_insert_id" "lastval" "last_value" "last_value" "lcase" "lead" "leading" "least" "length" "linefromtext" "linefromwkb" "linestringfromtext" "linestringfromwkb" "ln" "load_file" "locate" "log" "log10" "log2" "lower" "lpad" "ltrim" "makedate" "make_set" "maketime" "master_gtid_wait" "master_pos_wait" "max" "mbrcontains" "mbrdisjoint" "mbrequal" "mbrintersects" "mbroverlaps" "mbrtouches" "mbrwithin" "md5" "median" "mid" "min" "mlinefromtext" "mlinefromwkb" "monthname" "mpointfromtext" "mpointfromwkb" "mpolyfromtext" "mpolyfromwkb" "multilinestringfromtext" "multilinestringfromwkb" "multipointfromtext" "multipointfromwkb" "multipolygonfromtext" "multipolygonfromwkb" "name_const" "nextval" "now" "nth_value" "ntile" "ntile" "nullif" "numgeometries" "numinteriorrings" "numpoints" "oct" "octet_length" "old_password" "ord" "percentile_cont" "percentile_disc" "percent_rank" "percent_rank" "period_add" "period_diff" "pi" "pointfromtext" "pointfromwkb" "pointn" "pointonsurface" "polyfromtext" "polyfromwkb" "polygonfromtext" "polygonfromwkb" "position" "pow" "power" "quote" "radians" "rand" "rank" "rank" "regexp" "regexp_instr" "regexp_replace" "regexp_substr" "release_lock" "repeat" "replace" "reverse" "rlike" "row_number" "row_number" "rpad" "rtrim" "sec_to_time" "setval" "sha" "sha1" "sha2" "sign" "sin" "sleep" "soundex" "space" "spider_bg_direct_sql" "spider_copy_tables" "spider_direct_sql" "spider_flush_table_mon_cache" "sqrt" "srid" "st_area" "startpoint" "st_asbinary" "st_astext" "st_aswkb" "st_aswkt" "st_boundary" "st_buffer" "st_centroid" "st_contains" "st_convexhull" "st_crosses" "std" "stddev" "stddev_pop" "stddev_samp" "st_difference" "st_dimension" "st_disjoint" "st_distance" "st_endpoint" "st_envelope" "st_equals" "st_exteriorring" "st_geomcollfromtext" "st_geomcollfromwkb" "st_geometrycollectionfromtext" "st_geometrycollectionfromwkb" "st_geometryfromtext" "st_geometryfromwkb" "st_geometryn" "st_geometrytype" "st_geomfromtext" "st_geomfromwkb" "st_interiorringn" "st_intersection" "st_intersects" "st_isclosed" "st_isempty" "st_isring" "st_issimple" "st_length" "st_linefromtext" "st_linefromwkb" "st_linestringfromtext" "st_linestringfromwkb" "st_numgeometries" "st_numinteriorrings" "st_numpoints" "st_overlaps" "st_pointfromtext" "st_pointfromwkb" "st_pointn" "st_pointonsurface" "st_polyfromtext" "st_polyfromwkb" "st_polygonfromtext" "st_polygonfromwkb" "strcmp" "st_relate" "str_to_date" "st_srid" "st_startpoint" "st_symdifference" "st_touches" "st_union" "st_within" "st_x" "st_y" "subdate" "substr" "substring" "substring_index" "subtime" "sum" "sysdate" "tan" "timediff" "time_format" "timestampadd" "timestampdiff" "time_to_sec" "to_base64" "to_days" "to_seconds" "touches" "trailing" "trim" "ucase" "uncompress" "uncompressed_length" "unhex" "unix_timestamp" "updatexml" "upper" "user" "utc_date" "utc_time" "utc_timestamp" "uuid" "uuid_short" "variance" "var_pop" "var_samp" "version" "weekday" "weekofyear" "weight_string" "within" ) ;; MySQL Keywords (sql-font-lock-keywords-builder 'font-lock-keyword-face nil "accessible" "action" "add" "after" "against" "all" "alter" "analyze" "and" "as" "asc" "auto_increment" "avg_row_length" "bdb" "between" "body" "by" "cascade" "case" "change" "character" "check" "checksum" "close" "collate" "collation" "column" "columns" "comment" "committed" "concurrent" "condition" "constraint" "create" "cross" "data" "database" "databases" "default" "delayed" "delay_key_write" "delete" "desc" "directory" "disable" "distinct" "distinctrow" "do" "drop" "dual" "dumpfile" "duplicate" "else" "elseif" "elsif" "enable" "enclosed" "end" "escaped" "exists" "exit" "explain" "fields" "first" "for" "force" "foreign" "from" "full" "fulltext" "global" "group" "handler" "having" "heap" "high_priority" "history" "if" "ignore" "ignore_server_ids" "in" "index" "infile" "inner" "insert" "insert_method" "into" "is" "isam" "isolation" "join" "key" "keys" "kill" "last" "leave" "left" "level" "like" "limit" "linear" "lines" "load" "local" "lock" "long" "loop" "low_priority" "master_heartbeat_period" "master_ssl_verify_server_cert" "match" "max_rows" "maxvalue" "merge" "min_rows" "mode" "modify" "mrg_myisam" "myisam" "natural" "next" "no" "not" "no_write_to_binlog" "null" "offset" "oj" "on" "open" "optimize" "optionally" "or" "order" "outer" "outfile" "over" "package" "pack_keys" "partial" "partition" "password" "period" "prev" "primary" "procedure" "purge" "quick" "raid0" "raid_type" "raise" "range" "read" "read_write" "references" "release" "rename" "repeatable" "require" "resignal" "restrict" "returning" "right" "rollback" "rollup" "row_format" "rowtype" "savepoint" "schemas" "select" "separator" "serializable" "session" "set" "share" "show" "signal" "slow" "spatial" "sql_big_result" "sql_buffer_result" "sql_cache" "sql_calc_found_rows" "sql_no_cache" "sql_small_result" "ssl" "starting" "straight_join" "striped" "system_time" "table" "tables" "temporary" "terminated" "then" "to" "transaction" "truncate" "type" "uncommitted" "undo" "union" "unique" "unlock" "update" "use" "using" "values" "versioning" "when" "where" "while" "window" "with" "write" "xor" ) ;; MySQL Data Types (sql-font-lock-keywords-builder 'font-lock-type-face nil "bigint" "binary" "bit" "blob" "bool" "boolean" "byte" "char" "curve" "date" "datetime" "day" "day_hour" "day_microsecond" "day_minute" "day_second" "dec" "decimal" "double" "enum" "fixed" "float" "float4" "float8" "geometry" "geometrycollection" "hour" "hour_microsecond" "hour_minute" "hour_second" "int" "int1" "int2" "int3" "int4" "int8" "integer" "json" "line" "linearring" "linestring" "longblob" "longtext" "mediumblob" "mediumint" "mediumtext" "microsecond" "middleint" "minute" "minute_microsecond" "minute_second" "month" "multicurve" "multilinestring" "multipoint" "multipolygon" "multisurface" "national" "numeric" "point" "polygon" "precision" "quarter" "real" "second" "second_microsecond" "signed" "smallint" "surface" "text" "time" "timestamp" "tinyblob" "tinyint" "tinytext" "unsigned" "varbinary" "varchar" "varcharacter" "week" "year" "year2" "year4" "year_month" "zerofill" ))) "MySQL SQL keywords used by font-lock. This variable is used by `sql-mode' and `sql-interactive-mode'. The regular expressions are created during compilation by calling the function `regexp-opt'. Therefore, take a look at the source before you define your own `sql-mode-mysql-font-lock-keywords'.") (defvar sql-mode-sqlite-font-lock-keywords (eval-when-compile (list ;; SQLite commands '("^[.].*$" . font-lock-doc-face) ;; SQLite Keyword (sql-font-lock-keywords-builder 'font-lock-keyword-face nil "abort" "action" "add" "after" "all" "alter" "analyze" "and" "as" "asc" "attach" "autoincrement" "before" "begin" "between" "by" "cascade" "case" "cast" "check" "collate" "column" "commit" "conflict" "constraint" "create" "cross" "database" "default" "deferrable" "deferred" "delete" "desc" "detach" "distinct" "drop" "each" "else" "end" "escape" "except" "exclusive" "exists" "explain" "fail" "for" "foreign" "from" "full" "glob" "group" "having" "if" "ignore" "immediate" "in" "index" "indexed" "initially" "inner" "insert" "instead" "intersect" "into" "is" "isnull" "join" "key" "left" "like" "limit" "match" "natural" "no" "not" "notnull" "null" "of" "offset" "on" "or" "order" "outer" "plan" "pragma" "primary" "query" "raise" "references" "regexp" "reindex" "release" "rename" "replace" "restrict" "right" "rollback" "row" "savepoint" "select" "set" "table" "temp" "temporary" "then" "to" "transaction" "trigger" "union" "unique" "update" "using" "vacuum" "values" "view" "virtual" "when" "where" ) ;; SQLite Data types (sql-font-lock-keywords-builder 'font-lock-type-face nil "int" "integer" "tinyint" "smallint" "mediumint" "bigint" "unsigned" "big" "int2" "int8" "character" "varchar" "varying" "nchar" "native" "nvarchar" "text" "clob" "blob" "real" "double" "precision" "float" "numeric" "number" "decimal" "boolean" "date" "datetime" ) ;; SQLite Functions (sql-font-lock-keywords-builder 'font-lock-builtin-face nil ;; Core functions "abs" "changes" "coalesce" "glob" "ifnull" "hex" "last_insert_rowid" "length" "like" "load_extension" "lower" "ltrim" "max" "min" "nullif" "quote" "random" "randomblob" "replace" "round" "rtrim" "soundex" "sqlite_compileoption_get" "sqlite_compileoption_used" "sqlite_source_id" "sqlite_version" "substr" "total_changes" "trim" "typeof" "upper" "zeroblob" ;; Date/time functions "time" "julianday" "strftime" "current_date" "current_time" "current_timestamp" ;; Aggregate functions "avg" "count" "group_concat" "max" "min" "sum" "total" ))) "SQLite SQL keywords used by font-lock. This variable is used by `sql-mode' and `sql-interactive-mode'. The regular expressions are created during compilation by calling the function `regexp-opt'. Therefore, take a look at the source before you define your own `sql-mode-sqlite-font-lock-keywords'.") (defvar sql-mode-db2-font-lock-keywords nil "DB2 SQL keywords used by font-lock. This variable is used by `sql-mode' and `sql-interactive-mode'. The regular expressions are created during compilation by calling the function `regexp-opt'. Therefore, take a look at the source before you define your own `sql-mode-db2-font-lock-keywords'.") (defvar sql-mode-font-lock-keywords nil "SQL keywords used by font-lock. Setting this variable directly no longer has any affect. Use `sql-product' and `sql-add-product-keywords' to control the highlighting rules in SQL mode.") ;;; SQL Product support functions (defun sql-read-product (prompt &optional initial) "Read a valid SQL product." (let ((init (or (and initial (symbol-name initial)) "ansi"))) (intern (completing-read prompt (mapcar (lambda (info) (symbol-name (car info))) sql-product-alist) nil 'require-match init 'sql-product-history init)))) (defun sql-add-product (product display &rest plist) "Add support for a database product in `sql-mode'. Add PRODUCT to `sql-product-alist' which enables `sql-mode' to properly support syntax highlighting and interactive interaction. DISPLAY is the name of the SQL product that will appear in the menu bar and in messages. PLIST initializes the product configuration." ;; Don't do anything if the product is already supported (if (assoc product sql-product-alist) (user-error "Product `%s' is already defined" product) ;; Add product to the alist (add-to-list 'sql-product-alist `(,product :name ,display . ,plist)) ;; Add a menu item to the SQL->Product menu (easy-menu-add-item sql-mode-menu '("Product") ;; Each product is represented by a radio ;; button with it's display name. `[,display (sql-set-product ',product) :style radio :selected (eq sql-product ',product)] ;; Maintain the product list in ;; (case-insensitive) alphabetic order of the ;; display names. Loop thru each keymap item ;; looking for an item whose display name is ;; after this product's name. (let ((next-item) (down-display (downcase display))) (map-keymap (lambda (k b) (when (and (not next-item) (string-lessp down-display (downcase (cadr b)))) (setq next-item k))) (easy-menu-get-map sql-mode-menu '("Product"))) next-item)) product)) (defun sql-del-product (product) "Remove support for PRODUCT in `sql-mode'." ;; Remove the menu item based on the display name (easy-menu-remove-item sql-mode-menu '("Product") (sql-get-product-feature product :name)) ;; Remove the product alist item (setq sql-product-alist (assq-delete-all product sql-product-alist)) nil) (defun sql-set-product-feature (product feature newvalue) "Set FEATURE of database PRODUCT to NEWVALUE. The PRODUCT must be a symbol which identifies the database product. The product must have already exist on the product list. See `sql-add-product' to add new products. The FEATURE argument must be a plist keyword accepted by `sql-product-alist'." (let* ((p (assoc product sql-product-alist)) ;; (PRODUCT :f v ...) (v (plist-member (cdr p) feature))) ;; (:FEATURE value ...) or null (if p (if (member feature sql-indirect-features) ; is indirect (if v (if (car (cdr v)) (if (symbolp (car (cdr v))) ;; Indirect reference (set (car (cdr v)) newvalue) ;; indirect is not a symbol (error "The value of `%s' for `%s' is not a symbol" feature product)) ;; keyword present, set the indirect variable name (if (symbolp newvalue) (if (cdr v) (setf (car (cdr v)) newvalue) (setf (cdr v) (list newvalue))) (error "The indirect variable of `%s' for `%s' must be a symbol" feature product))) ;; not present; insert list (setq v (list feature newvalue)) (setf (cdr (cdr v)) (cdr p)) (setf (cdr p) v)) ;; Not an indirect feature (if v (if (cdr v) (setf (car (cdr v)) newvalue) (setf (cdr v) (list newvalue))) ;; no value; insert into the list (setq v (list feature newvalue)) (setf (cdr (cdr v)) (cdr p)) (setf (cdr p) v))) (error "`%s' is not a known product; use `sql-add-product' to add it first" product)))) (defun sql-get-product-feature (product feature &optional fallback not-indirect) "Lookup FEATURE associated with a SQL PRODUCT. If the FEATURE is nil for PRODUCT, and FALLBACK is specified, then the FEATURE associated with the FALLBACK product is returned. If the FEATURE is in the list `sql-indirect-features', and the NOT-INDIRECT parameter is not set, then the value of the symbol stored in the connect alist is returned. See `sql-product-alist' for a list of products and supported features." (let* ((p (assoc product sql-product-alist)) (v (plist-get (cdr p) feature))) (if p ;; If no value and fallback, lookup feature for fallback (if (and (not v) fallback (not (eq product fallback))) (sql-get-product-feature fallback feature) (if (and (member feature sql-indirect-features) (not not-indirect) (symbolp v)) (symbol-value v) v)) (error "`%s' is not a known product; use `sql-add-product' to add it first" product) nil))) (defun sql-product-font-lock (keywords-only imenu) "Configure font-lock and imenu with product-specific settings. The KEYWORDS-ONLY flag is passed to font-lock to specify whether only keywords should be highlighted and syntactic highlighting skipped. The IMENU flag indicates whether `imenu' should also be configured." (let ;; Get the product-specific syntax-alist. ((syntax-alist (sql-product-font-lock-syntax-alist))) ;; Get the product-specific keywords. (setq-local sql-mode-font-lock-keywords (append (unless (eq sql-product 'ansi) (sql-get-product-feature sql-product :font-lock)) ;; Always highlight ANSI keywords (sql-get-product-feature 'ansi :font-lock) ;; Fontify object names in CREATE, DROP and ALTER DDL ;; statements (list sql-mode-font-lock-object-name))) ;; Setup font-lock. Force re-parsing of `font-lock-defaults'. (kill-local-variable 'font-lock-set-defaults) (setq-local font-lock-defaults (list 'sql-mode-font-lock-keywords keywords-only t syntax-alist)) ;; Force font lock to reinitialize if it is already on ;; Otherwise, we can wait until it can be started. (when font-lock-mode (font-lock-mode-internal nil) (font-lock-mode-internal t)) ;; Setup imenu; it needs the same syntax-alist. (when imenu (setq imenu-syntax-alist syntax-alist)))) ;;;###autoload (defun sql-add-product-keywords (product keywords &optional append) "Add highlighting KEYWORDS for SQL PRODUCT. PRODUCT should be a symbol, the name of a SQL product, such as `oracle'. KEYWORDS should be a list; see the variable `font-lock-keywords'. By default they are added at the beginning of the current highlighting list. If optional argument APPEND is `set', they are used to replace the current highlighting list. If APPEND is any other non-nil value, they are added at the end of the current highlighting list. For example: (sql-add-product-keywords \\='ms \\='((\"\\\\b\\\\w+_t\\\\b\" . font-lock-type-face))) adds a fontification pattern to fontify identifiers ending in `_t' as data types." (let* ((sql-indirect-features nil) (font-lock-var (sql-get-product-feature product :font-lock)) (old-val)) (setq old-val (symbol-value font-lock-var)) (set font-lock-var (if (eq append 'set) keywords (if append (append old-val keywords) (append keywords old-val)))))) (defun sql-for-each-login (login-params body) "Iterate through login parameters and return a list of results." (delq nil (mapcar (lambda (param) (let ((token (or (car-safe param) param)) (plist (cdr-safe param))) (funcall body token plist))) login-params))) ;;; Functions to switch highlighting (defun sql-product-syntax-table () (let ((table (copy-syntax-table sql-mode-syntax-table))) (mapc (lambda (entry) (modify-syntax-entry (car entry) (cdr entry) table)) (sql-get-product-feature sql-product :syntax-alist)) table)) (defun sql-product-font-lock-syntax-alist () (append ;; Change all symbol character to word characters (mapcar (lambda (entry) (if (string= (substring (cdr entry) 0 1) "_") (cons (car entry) (concat "w" (substring (cdr entry) 1))) entry)) (sql-get-product-feature sql-product :syntax-alist)) '((?_ . "w")))) (defun sql-highlight-product () "Turn on the font highlighting for the SQL product selected." (when (derived-mode-p 'sql-mode) ;; Enhance the syntax table for the product (set-syntax-table (sql-product-syntax-table)) ;; Setup font-lock (sql-product-font-lock nil t) ;; Set the mode name to include the product. (setq mode-name (concat "SQL[" (or (sql-get-product-feature sql-product :name) (symbol-name sql-product)) "]")))) (defun sql-set-product (product) "Set `sql-product' to PRODUCT and enable appropriate highlighting." (interactive (list (sql-read-product "SQL product: "))) (if (stringp product) (setq product (intern product))) (when (not (assoc product sql-product-alist)) (user-error "SQL product %s is not supported; treated as ANSI" product) (setq product 'ansi)) ;; Save product setting and fontify. (setq sql-product product) (sql-highlight-product)) (defalias 'sql-set-dialect 'sql-set-product) (defun sql-buffer-hidden-p (buf) "Is the buffer hidden?" (string-prefix-p " " (cond ((stringp buf) (when (get-buffer buf) buf)) ((bufferp buf) (buffer-name buf)) (t nil)))) (defun sql-display-buffer (buf) "Display a SQLi buffer based on `sql-display-sqli-buffer-function'. If BUF is hidden or `sql-display-sqli-buffer-function' is nil, then the buffer will not be displayed. Otherwise the BUF is displayed." (unless (sql-buffer-hidden-p buf) (cond ((eq sql-display-sqli-buffer-function t) (pop-to-buffer buf)) ((not sql-display-sqli-buffer-function) nil) ((functionp sql-display-sqli-buffer-function) (funcall sql-display-sqli-buffer-function buf)) (t (message "Invalid setting of `sql-display-sqli-buffer-function'") (pop-to-buffer buf))))) (defun sql-make-progress-reporter (buf message &optional min-value max-value current-value min-change min-time) "Make a progress reporter if BUF is not hidden." (unless (or (sql-buffer-hidden-p buf) (not sql-display-sqli-buffer-function)) (make-progress-reporter message min-value max-value current-value min-change min-time))) (defun sql-progress-reporter-update (reporter &optional value) "Report progress of an operation in the echo area." (when reporter (progress-reporter-update reporter value))) (defun sql-progress-reporter-done (reporter) "Print reporter’s message followed by word \"done\" in echo area." (when reporter (progress-reporter-done reporter))) ;;; SMIE support ;; Needs a lot more love than I can provide. --Stef ;; (require 'smie) ;; (defconst sql-smie-grammar ;; (smie-prec2->grammar ;; (smie-bnf->prec2 ;; ;; Partly based on https://www.h2database.com/html/grammar.html ;; '((cmd ("SELECT" select-exp "FROM" select-table-exp) ;; ) ;; (select-exp ("*") (exp) (exp "AS" column-alias)) ;; (column-alias) ;; (select-table-exp (table-exp "WHERE" exp) (table-exp)) ;; (table-exp) ;; (exp ("CASE" exp "WHEN" exp "THEN" exp "ELSE" exp "END") ;; ("CASE" exp "WHEN" exp "THEN" exp "END")) ;; ;; Random ad-hoc additions. ;; (foo (foo "," foo)) ;; ) ;; '((assoc ","))))) ;; (defun sql-smie-rules (kind token) ;; (pcase (cons kind token) ;; (`(:list-intro . ,_) t) ;; (`(:before . "(") (smie-rule-parent)))) ;;; Motion Functions (defun sql-statement-regexp (prod) (let* ((ansi-stmt (or (sql-get-product-feature 'ansi :statement) "select")) (prod-stmt (sql-get-product-feature prod :statement))) (concat "^\\<" (if prod-stmt (concat "\\(" ansi-stmt "\\|" prod-stmt "\\)") ansi-stmt) "\\>"))) (defun sql-beginning-of-statement (arg) "Move to the beginning of the current SQL statement." (interactive "p") (let ((here (point)) (regexp (sql-statement-regexp sql-product)) last next) ;; Go to the end of the statement before the start we desire (setq last (or (sql-end-of-statement (- arg)) (point-min))) ;; And find the end after that (setq next (or (sql-end-of-statement 1) (point-max))) ;; Our start must be between them (goto-char last) ;; Find a beginning-of-stmt that's not in a string or comment (while (and (re-search-forward regexp next t 1) (or (nth 3 (syntax-ppss)) (nth 7 (syntax-ppss)))) (goto-char (match-end 0))) (goto-char (if (match-data) (match-beginning 0) last)) (beginning-of-line) ;; If we didn't move, try again (when (= here (point)) (sql-beginning-of-statement (* 2 (cl-signum arg)))))) (defun sql-end-of-statement (arg) "Move to the end of the current SQL statement." (interactive "p") (let ((term (or (sql-get-product-feature sql-product :terminator) ";")) (re-search (if (> 0 arg) 're-search-backward 're-search-forward)) (here (point)) (n 0)) (when (consp term) (setq term (car term))) ;; Iterate until we've moved the desired number of stmt ends (while (not (= (cl-signum arg) 0)) ;; if we're looking at the terminator, jump by 2 (if (or (and (> 0 arg) (looking-back term nil)) (and (< 0 arg) (looking-at term))) (setq n 2) (setq n 1)) ;; If we found another end-of-stmt (if (not (apply re-search term nil t n nil)) (setq arg 0) ;; count it if we're not in a string or comment (unless (or (nth 3 (syntax-ppss)) (nth 7 (syntax-ppss))) (setq arg (- arg (cl-signum arg)))))) (goto-char (if (match-data) (match-end 0) here)))) ;;; Small functions (defun sql-magic-go (arg) "Insert \"o\" and call `comint-send-input'. `sql-electric-stuff' must be the symbol `go'." (interactive "P") (self-insert-command (prefix-numeric-value arg)) (if (and (equal sql-electric-stuff 'go) (save-excursion (comint-bol nil) (looking-at "go\\b"))) (comint-send-input))) (put 'sql-magic-go 'delete-selection t) (defun sql-magic-semicolon (arg) "Insert semicolon and call `comint-send-input'. `sql-electric-stuff' must be the symbol `semicolon'." (interactive "P") (self-insert-command (prefix-numeric-value arg)) (if (equal sql-electric-stuff 'semicolon) (comint-send-input))) (put 'sql-magic-semicolon 'delete-selection t) (defun sql-accumulate-and-indent () "Continue SQL statement on the next line." (interactive) (comint-accumulate) (indent-according-to-mode)) (defun sql-help-list-products (indent freep) "Generate listing of products available for use under SQLi. List products with :free-software attribute set to FREEP. Indent each line with INDENT." (let (sqli-func doc) (setq doc "") (dolist (p sql-product-alist) (setq sqli-func (intern (concat "sql-" (symbol-name (car p))))) (if (and (fboundp sqli-func) (eq (sql-get-product-feature (car p) :free-software) freep)) (setq doc (concat doc indent (or (sql-get-product-feature (car p) :name) (symbol-name (car p))) ":\t" "\\[" (symbol-name sqli-func) "]\n")))) doc)) (defun sql-help () "Show short help for the SQL modes." (interactive) (describe-function 'sql-help)) (put 'sql-help 'function-documentation '(sql--make-help-docstring)) (defvar sql--help-docstring "Show short help for the SQL modes. Use an entry function to open an interactive SQL buffer. This buffer is usually named `*SQL*'. The name of the major mode is SQLi. Use the following commands to start a specific SQL interpreter: \\\\FREE Other non-free SQL implementations are also supported: \\\\NONFREE But we urge you to choose a free implementation instead of these. You can also use \\[sql-product-interactive] to invoke the interpreter for the current `sql-product'. Once you have the SQLi buffer, you can enter SQL statements in the buffer. The output generated is appended to the buffer and a new prompt is generated. See the In/Out menu in the SQLi buffer for some functions that help you navigate through the buffer, the input history, etc. If you have a really complex SQL statement or if you are writing a procedure, you can do this in a separate buffer. Put the new buffer in `sql-mode' by calling \\[sql-mode]. The name of this buffer can be anything. The name of the major mode is SQL. In this SQL buffer (SQL mode), you can send the region or the entire buffer to the interactive SQL buffer (SQLi mode). The results are appended to the SQLi buffer without disturbing your SQL buffer.") (defun sql--make-help-docstring () "Return a docstring for `sql-help' listing loaded SQL products." (let ((doc sql--help-docstring)) ;; Insert FREE software list (when (string-match "^\\(\\s-*\\)[\\][\\]FREE\\s-*$" doc 0) (setq doc (replace-match (sql-help-list-products (match-string 1 doc) t) t t doc 0))) ;; Insert non-FREE software list (when (string-match "^\\(\\s-*\\)[\\][\\]NONFREE\\s-*$" doc 0) (setq doc (replace-match (sql-help-list-products (match-string 1 doc) nil) t t doc 0))) doc)) (defun sql-default-value (var) "Fetch the value of a variable. If the current buffer is in `sql-interactive-mode', then fetch the global value, otherwise use the buffer local value." (if (derived-mode-p 'sql-interactive-mode) (default-value var) (buffer-local-value var (current-buffer)))) (defun sql-get-login-ext (symbol prompt history-var plist) "Prompt user with extended login parameters. The global value of SYMBOL is the last value and the global value of the SYMBOL is set based on the user's input. If PLIST is nil, then the user is simply prompted for a string value. The property `:default' specifies the default value. If the `:number' property is non-nil then ask for a number. The `:file' property prompts for a file name that must match the regexp pattern specified in its value. The `:completion' property prompts for a string specified by its value. (The property value is used as the PREDICATE argument to `completing-read'.) For both `:file' and `:completion', there can also be a `:must-match' property that controls REQUIRE-MATCH parameter to `completing-read'." (set-default symbol (let* ((default (plist-get plist :default)) (last-value (sql-default-value symbol)) (prompt-def (format-prompt prompt default)) (use-dialog-box nil)) (cond ((plist-member plist :file) (let ((file-name (read-file-name prompt-def (file-name-directory last-value) default (if (plist-member plist :must-match) (plist-get plist :must-match) t) (file-name-nondirectory last-value) (when (plist-get plist :file) `(lambda (f) (if (not (file-regular-p f)) t (string-match (concat "\\<" ,(plist-get plist :file) "\\>") (file-name-nondirectory f)))))))) (if (string= file-name "") "" (expand-file-name file-name)))) ((plist-member plist :completion) (completing-read prompt-def (plist-get plist :completion) nil (if (plist-member plist :must-match) (plist-get plist :must-match) t) last-value history-var default)) ((plist-get plist :number) (read-number (concat prompt ": ") (or default last-value 0))) (t (read-string prompt-def last-value history-var default)))))) (defun sql-get-login (&rest what) "Get username, password and database from the user. The variables `sql-user', `sql-password', `sql-server', and `sql-database' can be customized. They are used as the default values. Usernames, servers and databases are stored in `sql-user-history', `sql-server-history' and `database-history'. Passwords are not stored in a history. Parameter WHAT is a list of tokens passed as arguments in the function call. The function asks for the username if WHAT contains the symbol `user', for the password if it contains the symbol `password', for the server if it contains the symbol `server', and for the database if it contains the symbol `database'. The members of WHAT are processed in the order in which they are provided. If the `sql-password-wallet' is non-nil and WHAT contains the `password' token, then the `password' token will be pushed to the end to be sure that all of the values can be fed to the wallet. Each token may also be a list with the token in the car and a plist of options as the cdr. The following properties are supported: :file :completion :default :number t In order to ask the user for username, password and database, call the function like this: (sql-get-login \\='user \\='password \\='database)." ;; Push the password to the end if we have a wallet (when (and sql-password-wallet (fboundp sql-password-search-wallet-function) (member 'password what)) (setq what (append (cl-delete 'password what) '(password)))) ;; Prompt for each parameter (dolist (w what) (let ((plist (cdr-safe w))) (pcase (or (car-safe w) w) ('user (sql-get-login-ext 'sql-user "User" 'sql-user-history plist)) ('password (setq-default sql-password (if (and sql-password-wallet (fboundp sql-password-search-wallet-function)) (let ((password (funcall sql-password-search-wallet-function sql-password-wallet sql-product sql-user sql-server sql-database sql-port))) (if password password (read-passwd "Password: " nil (sql-default-value 'sql-password)))) (read-passwd "Password: " nil (sql-default-value 'sql-password))))) ('server (sql-get-login-ext 'sql-server "Server" 'sql-server-history plist)) ('database (sql-get-login-ext 'sql-database "Database" 'sql-database-history plist)) ('port (sql-get-login-ext 'sql-port "Port" nil (append '(:number t) plist))))))) (defun sql-find-sqli-buffer (&optional product connection) "Return the name of the current default SQLi buffer or nil. In order to qualify, the SQLi buffer must be alive, be in `sql-interactive-mode' and have a process." (let ((buf sql-buffer) (prod (or product sql-product))) (or ;; Current sql-buffer, if there is one. (and (sql-buffer-live-p buf prod connection) buf) ;; Global sql-buffer (and (setq buf (default-value 'sql-buffer)) (sql-buffer-live-p buf prod connection) buf) ;; Look thru each buffer (car (apply #'append (mapcar (lambda (b) (and (sql-buffer-live-p b prod connection) (list (buffer-name b)))) (buffer-list))))))) (defun sql-set-sqli-buffer-generally () "Set SQLi buffer for all SQL buffers that have none. This function checks all SQL buffers for their SQLi buffer. If their SQLi buffer is nonexistent or has no process, it is set to the current default SQLi buffer. The current default SQLi buffer is determined using `sql-find-sqli-buffer'. If `sql-buffer' is set, `sql-set-sqli-hook' is run." (interactive) (save-excursion (let ((buflist (buffer-list)) (default-buffer (sql-find-sqli-buffer))) (setq-default sql-buffer default-buffer) (while (not (null buflist)) (let ((candidate (car buflist))) (set-buffer candidate) (if (and (derived-mode-p 'sql-mode) (not (sql-buffer-live-p sql-buffer))) (progn (setq sql-buffer default-buffer) (when default-buffer (run-hooks 'sql-set-sqli-hook))))) (setq buflist (cdr buflist)))))) (defun sql-set-sqli-buffer () "Set the SQLi buffer SQL strings are sent to. Call this function in a SQL buffer in order to set the SQLi buffer SQL strings are sent to. Calling this function sets `sql-buffer' and runs `sql-set-sqli-hook'. If you call it from a SQL buffer, this sets the local copy of `sql-buffer'. If you call it from anywhere else, it sets the global copy of `sql-buffer'." (interactive) (let ((default-buffer (sql-find-sqli-buffer))) (if (null default-buffer) (sql-product-interactive) (let ((new-buffer (read-buffer "New SQLi buffer: " default-buffer t))) (if (null (sql-buffer-live-p new-buffer)) (user-error "Buffer %s is not a working SQLi buffer" new-buffer) (when new-buffer (setq sql-buffer new-buffer) (run-hooks 'sql-set-sqli-hook))))))) (defun sql-show-sqli-buffer () "Display the current SQLi buffer. This is the buffer SQL strings are sent to. It is stored in the variable `sql-buffer'. I See also `sql-help' on how to create such a buffer." (interactive) (unless (and sql-buffer (buffer-live-p (get-buffer sql-buffer)) (get-buffer-process sql-buffer)) (sql-set-sqli-buffer)) (display-buffer sql-buffer)) (defun sql-make-alternate-buffer-name (&optional product) "Return a string that can be used to rename a SQLi buffer. This is used to set `sql-alternate-buffer-name' within `sql-interactive-mode'. If the session was started with `sql-connect' then the alternate name would be the name of the connection. Otherwise, it uses the parameters identified by the :sqlilogin parameter. If all else fails, the alternate name would be the user and server/database name." (let ((name "")) ;; Build a name using the :sqli-login setting (setq name (apply #'concat (cdr (apply #'append nil (sql-for-each-login (sql-get-product-feature (or product sql-product) :sqli-login) (lambda (token plist) (pcase token ('user (unless (string= "" sql-user) (list "/" sql-user))) ('port (unless (or (not (numberp sql-port)) (= 0 sql-port)) (list ":" (number-to-string sql-port)))) ('server (unless (string= "" sql-server) (list "." (if (plist-member plist :file) (file-name-nondirectory sql-server) sql-server)))) ('database (unless (string= "" sql-database) (list "@" (if (plist-member plist :file) (file-name-nondirectory sql-database) sql-database)))) ;; (`password nil) (_ nil)))))))) ;; If there's a connection, use it and the name thus far (if sql-connection (format "<%s>%s" sql-connection (or name "")) ;; If there is no name, try to create something meaningful (if (string= "" (or name "")) (concat (if (string= "" sql-user) (if (string= "" (user-login-name)) () (concat (user-login-name) "/")) (concat sql-user "/")) (if (string= "" sql-database) (if (string= "" sql-server) (system-name) sql-server) sql-database)) ;; Use the name we've got name)))) (defun sql-generate-unique-sqli-buffer-name (product base) "Generate a new, unique buffer name for a SQLi buffer. Append a sequence number until a unique name is found." (let ((base-name (substring-no-properties (if base (if (stringp base) base (format "%S" base)) (or (sql-get-product-feature product :name) (symbol-name product))))) buf-fmt-1st buf-fmt-rest) ;; Calculate buffer format (if (string-blank-p base-name) (setq buf-fmt-1st "*SQL*" buf-fmt-rest "*SQL-%d*") (setq buf-fmt-1st (format "*SQL: %s*" base-name) buf-fmt-rest (format "*SQL: %s-%%d*" base-name))) ;; See if we can find an unused buffer (let ((buf-name buf-fmt-1st) (i 1)) (while (if (sql-is-sqli-buffer-p buf-name) (comint-check-proc buf-name) (buffer-live-p (get-buffer buf-name))) ;; Check a sequence number on the BASE (setq buf-name (format buf-fmt-rest i) i (1+ i))) buf-name))) (defun sql-rename-buffer (&optional new-name) "Rename a SQL interactive buffer. Prompts for the new name if command is preceded by \\[universal-argument]. If no buffer name is provided, then the `sql-alternate-buffer-name' is used. The actual buffer name set will be \"*SQL: NEW-NAME*\". If NEW-NAME is empty, then the buffer name will be \"*SQL*\"." (interactive "P") (if (not (derived-mode-p 'sql-interactive-mode)) (user-error "Current buffer is not a SQL interactive buffer") (setq sql-alternate-buffer-name (substring-no-properties (cond ((stringp new-name) new-name) ((consp new-name) (read-string "Buffer name (\"*SQL: XXX*\"; enter `XXX'): " sql-alternate-buffer-name)) (t sql-alternate-buffer-name)))) (rename-buffer (sql-generate-unique-sqli-buffer-name sql-product sql-alternate-buffer-name) t))) (defun sql-copy-column () "Copy current column to the end of buffer. Inserts SELECT or commas if appropriate." (interactive) (let ((column)) (save-excursion (setq column (buffer-substring-no-properties (progn (forward-char 1) (backward-sexp 1) (point)) (progn (forward-sexp 1) (point)))) (goto-char (point-max)) (let ((bol (comint-line-beginning-position))) (cond ;; if empty command line, insert SELECT ((= bol (point)) (insert "SELECT ")) ;; else if appending to INTO .* (, SELECT or ORDER BY, insert a comma ((save-excursion (re-search-backward "\\b\\(\\(into\\s-+\\S-+\\s-+(\\)\\|select\\|order by\\) .+" bol t)) (insert ", ")) ;; else insert a space (t (if (eq (preceding-char) ?\s) nil (insert " "))))) ;; in any case, insert the column (insert column) (message "%s" column)))) ;; On Windows, SQL*Plus for Oracle turns on full buffering for stdout ;; if it is not attached to a character device; therefore placeholder ;; replacement by SQL*Plus is fully buffered. The workaround lets ;; Emacs query for the placeholders. (defvar sql-placeholder-history nil "History of placeholder values used.") (defun sql-placeholders-filter (string) "Replace placeholders in STRING. Placeholders are words starting with an ampersand like &this." (when sql-oracle-scan-on (let ((start 0) (replacement "")) (while (string-match "&?&\\(\\(?:\\sw\\|\\s_\\)+\\)[.]?" string start) (setq replacement (read-from-minibuffer (format "Enter value for %s: " (propertize (match-string 1 string) 'face 'font-lock-variable-name-face)) nil nil nil 'sql-placeholder-history) string (replace-match replacement t t string) start (+ (match-beginning 1) (length replacement)))))) string) ;; Using DB2 interactively, newlines must be escaped with " \". ;; The space before the backslash is relevant. (defun sql-escape-newlines-filter (string) "Escape newlines in STRING. Every newline in STRING will be preceded with a space and a backslash." (if (not sql-db2-escape-newlines) string (let ((result "") (start 0) mb me) (while (string-match "\n" string start) (setq mb (match-beginning 0) me (match-end 0) result (concat result (substring string start mb) (if (and (> mb 1) (string-equal " \\" (substring string (- mb 2) mb))) "" " \\\n")) start me)) (concat result (substring string start))))) ;;; Input sender for SQLi buffers (defvar sql-output-newline-count 0 "Number of newlines in the input string. Allows the suppression of continuation prompts.") (defun sql-input-sender (proc string) "Send STRING to PROC after applying filters." (let* ((product (buffer-local-value 'sql-product (process-buffer proc))) (filter (sql-get-product-feature product :input-filter))) ;; Apply filter(s) (cond ((not filter) nil) ((functionp filter) (setq string (funcall filter string))) ((listp filter) (mapc (lambda (f) (setq string (funcall f string))) filter)) (t nil)) ;; Count how many newlines in the string (setq sql-output-newline-count (apply #'+ (mapcar (lambda (ch) (if (eq ch ?\n) 1 0)) string))) ;; Send the string (comint-simple-send proc string))) ;;; Strip out continuation prompts (defvar sql-preoutput-hold nil) (defun sql-interactive-remove-continuation-prompt (oline) "Strip out continuation prompts out of the OLINE. Added to the `comint-preoutput-filter-functions' hook in a SQL interactive buffer. The complication to this filter is that the continuation prompts may arrive in multiple chunks. If they do, then the function saves any unfiltered output in a buffer and prepends that buffer to the next chunk to properly match the broken-up prompt. The filter goes into play only if something is already accumulated, or we're waiting for continuation prompts (`sql-output-newline-count' is positive). In this case: - Accumulate process output into `sql-preoutput-hold'. - Remove any complete prompts / continuation prompts that we're waiting for. - In case we're expecting more prompts - return all currently accumulated _complete_ lines, leaving the rest for the next invocation. They will appear in the output immediately. This way we don't accumulate large chunks of data for no reason. - If we found all expected prompts - just return all current accumulated data." (when (and comint-prompt-regexp ;; We either already have something held, or expect ;; prompts (or sql-preoutput-hold (and sql-output-newline-count (> sql-output-newline-count 0)))) (save-match-data ;; Add this text to what's left from the last pass (setq oline (concat sql-preoutput-hold oline) sql-preoutput-hold nil) ;; If we are looking for prompts (when (and sql-output-newline-count (> sql-output-newline-count 0)) ;; Loop thru each starting prompt and remove it (while (and (not (string-empty-p oline)) (> sql-output-newline-count 0) (string-match comint-prompt-regexp oline)) (setq oline (replace-match "" nil nil oline) sql-output-newline-count (1- sql-output-newline-count))) ;; If we've found all the expected prompts, stop looking (if (= sql-output-newline-count 0) (setq sql-output-newline-count nil) ;; Still more possible prompts, leave them for the next pass (setq sql-preoutput-hold oline oline ""))) ;; Lines that are now complete may be passed further (when sql-preoutput-hold (let ((last-nl 0)) (while (string-match "\n" sql-preoutput-hold last-nl) (setq last-nl (match-end 0))) ;; Return up to last nl, hold after the last nl (setq oline (substring sql-preoutput-hold 0 last-nl) sql-preoutput-hold (substring sql-preoutput-hold last-nl)) (when (string-empty-p sql-preoutput-hold) (setq sql-preoutput-hold nil)))))) oline) ;;; Sending the region to the SQLi buffer. (defvar sql-debug-send nil "Display text sent to SQL process pragmatically.") (defun sql-send-string (str) "Send the string STR to the SQL process." (interactive "sSQL Text: ") (let ((comint-input-sender-no-newline nil) (s (replace-regexp-in-string "[[:space:]\n\r]+\\'" "" str))) (if (sql-buffer-live-p sql-buffer) (progn ;; Ignore the hoping around... (save-excursion ;; Set product context (with-current-buffer sql-buffer ;; Make sure point is at EOB before sending input to SQL. (goto-char (point-max)) (when sql-debug-send (message ">>SQL> %S" s)) (insert "\n") (comint-set-process-mark) ;; Send the string (trim the trailing whitespace) (sql-input-sender (get-buffer-process (current-buffer)) s) ;; Send a command terminator if we must (sql-send-magic-terminator sql-buffer s sql-send-terminator) (when sql-pop-to-buffer-after-send-region (message "Sent string to buffer %s" sql-buffer)))) ;; Display the sql buffer (sql-display-buffer sql-buffer)) ;; We don't have no stinkin' sql (user-error "No SQL process started")))) (defun sql-send-region (start end) "Send a region to the SQL process." (interactive "r") (sql-send-string (buffer-substring-no-properties start end))) (defun sql-send-paragraph () "Send the current paragraph to the SQL process." (interactive) (let ((start (save-excursion (backward-paragraph) (point))) (end (save-excursion (forward-paragraph) (point)))) (sql-send-region start end))) (defun sql-send-buffer () "Send the buffer contents to the SQL process." (interactive) (sql-send-region (point-min) (point-max))) (defun sql-send-line-and-next () "Send the current line to the SQL process and go to the next line." (interactive) (sql-send-region (line-beginning-position 1) (line-beginning-position 2)) (beginning-of-line 2) (while (forward-comment 1))) ; skip all comments and whitespace (defun sql-send-magic-terminator (buf str terminator) "Send TERMINATOR to buffer BUF if its not present in STR." (let (comint-input-sender-no-newline pat term) ;; If flag is merely on(t), get product-specific terminator (if (eq terminator t) (setq terminator (sql-get-product-feature sql-product :terminator))) ;; If there is no terminator specified, use default ";" (unless terminator (setq terminator ";")) ;; Parse the setting into the pattern and the terminator string (cond ((stringp terminator) (setq pat (regexp-quote terminator) term terminator)) ((consp terminator) (setq pat (car terminator) term (cdr terminator))) (t nil)) ;; Check to see if the pattern is present in the str already sent (unless (and pat term (string-match-p (concat pat "\\'") str)) (sql-input-sender (get-buffer-process buf) term)))) (defun sql-remove-tabs-filter (str) "Replace tab characters with spaces." (string-replace "\t" " " str)) (defun sql-toggle-pop-to-buffer-after-send-region (&optional value) "Toggle `sql-pop-to-buffer-after-send-region'. If given the optional parameter VALUE, sets `sql-toggle-pop-to-buffer-after-send-region' to VALUE." (interactive "P") (if value (setq sql-pop-to-buffer-after-send-region value) (setq sql-pop-to-buffer-after-send-region (null sql-pop-to-buffer-after-send-region)))) ;;; Redirect output functions (defvar sql-debug-redirect nil "If non-nil, display messages related to the use of redirection.") (defun sql-str-literal (s) (concat "'" (string-replace "[']" "''" s) "'")) (defun sql-redirect (sqlbuf command &optional outbuf save-prior) "Execute the SQL command and send output to OUTBUF. SQLBUF must be an active SQL interactive buffer. OUTBUF may be an existing buffer, or the name of a non-existing buffer. If omitted the output is sent to a temporary buffer which will be killed after the command completes. COMMAND should be a string of commands accepted by the SQLi program. COMMAND may also be a list of SQLi command strings." (let* ((visible (and outbuf (not (sql-buffer-hidden-p outbuf)))) (this-save save-prior) (next-save t)) (when visible (message "Executing SQL command...")) (if (consp command) (dolist (onecmd command) (sql-redirect-one sqlbuf onecmd outbuf this-save) (setq this-save next-save)) (sql-redirect-one sqlbuf command outbuf save-prior)) (when visible (message "Executing SQL command...done")) nil)) (defun sql-redirect-one (sqlbuf command outbuf save-prior) (when command (with-current-buffer sqlbuf (let ((buf (get-buffer-create (or outbuf " *SQL-Redirect*"))) (proc (get-buffer-process (current-buffer))) (comint-prompt-regexp (sql-get-product-feature sql-product :prompt-regexp)) (start nil)) (with-current-buffer buf (setq-local view-no-disable-on-exit t) (read-only-mode -1) (unless save-prior (erase-buffer)) (goto-char (point-max)) (unless (zerop (buffer-size)) (insert "\n")) (setq start (point))) (when sql-debug-redirect (message ">>SQL> %S" command)) ;; Run the command (let ((inhibit-quit t) comint-preoutput-filter-functions) (with-local-quit (comint-redirect-send-command-to-process command buf proc nil t) (while (or quit-flag (null comint-redirect-completed)) (accept-process-output nil 1))) (if quit-flag (comint-redirect-cleanup) ;; Clean up the output results (with-current-buffer buf ;; Remove trailing whitespace (goto-char (point-max)) (when (looking-back "[ \t\f\n\r]*" start) (delete-region (match-beginning 0) (match-end 0))) ;; Remove echo if there was one (goto-char start) (when (looking-at (concat "^" (regexp-quote command) "[\\n]")) (delete-region (match-beginning 0) (match-end 0))) ;; Remove Ctrl-Ms (goto-char start) (while (re-search-forward "\r+$" nil t) (replace-match "" t t)) (goto-char start)))))))) (defun sql-redirect-value (sqlbuf command &optional regexp regexp-groups) "Execute the SQL command and return part of result. SQLBUF must be an active SQL interactive buffer. COMMAND should be a string of commands accepted by the SQLi program. From the output, the REGEXP is repeatedly matched and the list of REGEXP-GROUPS submatches is returned. This behaves much like \\[comint-redirect-results-list-from-process] but instead of returning a single submatch it returns a list of each submatch for each match." (let ((outbuf " *SQL-Redirect-values*") (results nil)) (sql-redirect sqlbuf command outbuf nil) (with-current-buffer outbuf (while (re-search-forward (or regexp "^.+$") nil t) (push (cond ;; no groups-return all of them ((null regexp-groups) (let ((i (/ (length (match-data)) 2)) (r nil)) (while (> i 0) (setq i (1- i)) (push (match-string i) r)) r)) ;; one group specified ((numberp regexp-groups) (match-string regexp-groups)) ;; list of numbers; return the specified matches only ((consp regexp-groups) (mapcar (lambda (c) (cond ((numberp c) (match-string c)) ((stringp c) (match-substitute-replacement c)) (t (error "sql-redirect-value: Unknown REGEXP-GROUPS value - %s" c)))) regexp-groups)) ;; String is specified; return replacement string ((stringp regexp-groups) (match-substitute-replacement regexp-groups)) (t (error "sql-redirect-value: Unknown REGEXP-GROUPS value - %s" regexp-groups))) results))) (when sql-debug-redirect (message ">>SQL> = %S" (reverse results))) (nreverse results))) (defun sql-execute (sqlbuf outbuf command enhanced arg) "Execute a command in a SQL interactive buffer and capture the output. The commands are run in SQLBUF and the output saved in OUTBUF. COMMAND must be a string, a function or a list of such elements. Functions are called with SQLBUF, OUTBUF and ARG as parameters; strings are formatted with ARG and executed. If the results are empty the OUTBUF is deleted, otherwise the buffer is popped into a view window." (mapc (lambda (c) (cond ((stringp c) (sql-redirect sqlbuf (if arg (format c arg) c) outbuf) t) ((functionp c) (apply c sqlbuf outbuf enhanced arg nil)) (t (error "Unknown sql-execute item %s" c)))) (if (consp command) command (cons command nil))) (setq outbuf (get-buffer outbuf)) (if (zerop (buffer-size outbuf)) (kill-buffer outbuf) (let ((one-win (eq (selected-window) (get-lru-window)))) (with-current-buffer outbuf (set-buffer-modified-p nil) (setq-local revert-buffer-function (lambda (_ignore-auto _noconfirm) (sql-execute sqlbuf (buffer-name outbuf) command enhanced arg))) (special-mode)) (pop-to-buffer outbuf) (when one-win (shrink-window-if-larger-than-buffer))))) (defun sql-execute-feature (sqlbuf outbuf feature enhanced arg) "List objects or details in a separate display buffer." (let (command (product (buffer-local-value 'sql-product (get-buffer sqlbuf)))) (setq command (sql-get-product-feature product feature)) (unless command (error "%s does not support %s" product feature)) (when (consp command) (setq command (if enhanced (cdr command) (car command)))) (sql-execute sqlbuf outbuf command enhanced arg))) (defvar sql-completion-object nil "A list of database objects used for completion. The list is maintained in SQL interactive buffers.") (defvar sql-completion-column nil "A list of column names used for completion. The list is maintained in SQL interactive buffers.") (defun sql-build-completions-1 (schema completion-list feature) "Generate a list of objects in the database for use as completions." (let ((f (sql-get-product-feature sql-product feature))) (when f (set completion-list (let (cl) (dolist (e (append (symbol-value completion-list) (apply f (current-buffer) (cons schema nil))) cl) (unless (member e cl) (setq cl (cons e cl)))) (sort cl #'string<)))))) (defun sql-build-completions (schema) "Generate a list of names in the database for use as completions." (sql-build-completions-1 schema 'sql-completion-object :completion-object) (sql-build-completions-1 schema 'sql-completion-column :completion-column)) (defvar sql-completion-sqlbuf nil) (defun sql--completion-table (string pred action) (when sql-completion-sqlbuf (with-current-buffer sql-completion-sqlbuf (let ((schema (and (string-match "\\`\\(\\sw\\(?:\\sw\\|\\s_\\)*\\)[.]" string) (downcase (match-string 1 string))))) ;; If we haven't loaded any object name yet, load local schema (unless sql-completion-object (sql-build-completions nil)) ;; If they want another schema, load it if we haven't yet (when schema (let ((schema-dot (concat schema ".")) (schema-len (1+ (length schema))) (names sql-completion-object) has-schema) (while (and (not has-schema) names) (setq has-schema (and (>= (length (car names)) schema-len) (string= schema-dot (downcase (substring (car names) 0 schema-len)))) names (cdr names))) (unless has-schema (sql-build-completions schema))))) ;; Try to find the completion (complete-with-action action sql-completion-object string pred)))) (defun sql-read-table-name (prompt) "Read the name of a database table." (let* ((tname (and (buffer-local-value 'sql-contains-names (current-buffer)) (thing-at-point-looking-at (concat "\\_<\\sw\\(:?\\sw\\|\\s_\\)*" "\\(?:[.]+\\sw\\(?:\\sw\\|\\s_\\)*\\)*\\_>")) (buffer-substring-no-properties (match-beginning 0) (match-end 0)))) (sql-completion-sqlbuf (sql-find-sqli-buffer)) (product (when sql-completion-sqlbuf (with-current-buffer sql-completion-sqlbuf sql-product))) (completion-ignore-case t)) (if product (if (sql-get-product-feature product :completion-object) (completing-read prompt #'sql--completion-table nil nil tname) (read-from-minibuffer prompt tname)) (user-error "There is no active SQLi buffer")))) (defun sql-list-all (&optional enhanced) "List all database objects. With optional prefix argument ENHANCED, displays additional details or extends the listing to include other schemas objects." (interactive "P") (let ((sqlbuf (sql-find-sqli-buffer))) (unless sqlbuf (user-error "No SQL interactive buffer found")) (sql-execute-feature sqlbuf "*List All*" :list-all enhanced nil) (with-current-buffer sqlbuf ;; Contains the name of database objects (setq-local sql-contains-names t) (setq-local sql-buffer sqlbuf)))) (defun sql-list-table (name &optional enhanced) "List the details of a database table named NAME. Displays the columns in the relation. With optional prefix argument ENHANCED, displays additional details about each column." (interactive (list (sql-read-table-name "Table name: ") current-prefix-arg)) (let ((sqlbuf (sql-find-sqli-buffer))) (unless sqlbuf (user-error "No SQL interactive buffer found")) (unless name (user-error "No table name specified")) (sql-execute-feature sqlbuf (format "*List %s*" name) :list-table enhanced name))) ;;; SQL mode -- uses SQL interactive mode ;;;###autoload (define-derived-mode sql-mode prog-mode "SQL" "Major mode to edit SQL. You can send SQL statements to the SQLi buffer using \\[sql-send-region]. Such a buffer must exist before you can do this. See `sql-help' on how to create SQLi buffers. \\{sql-mode-map} Customization: Entry to this mode runs the `sql-mode-hook'. When you put a buffer in SQL mode, the buffer stores the last SQLi buffer created as its destination in the variable `sql-buffer'. This will be the buffer \\[sql-send-region] sends the region to. If this SQLi buffer is killed, \\[sql-send-region] is no longer able to determine where the strings should be sent to. You can set the value of `sql-buffer' using \\[sql-set-sqli-buffer]. For information on how to create multiple SQLi buffers, see `sql-interactive-mode'. Note that SQL doesn't have an escape character unless you specify one. If you specify backslash as escape character in SQL, you must tell Emacs. Here's how to do that in your init file: \(add-hook \\='sql-mode-hook (lambda () (modify-syntax-entry ?\\\\ \"\\\\\" sql-mode-syntax-table)))" :abbrev-table sql-mode-abbrev-table ;; (smie-setup sql-smie-grammar #'sql-smie-rules) (setq-local comment-start "--") ;; Make each buffer in sql-mode remember the "current" SQLi buffer. (make-local-variable 'sql-buffer) ;; Add imenu support for sql-mode. Note that imenu-generic-expression ;; is buffer-local, so we don't need a local-variable for it. SQL is ;; case-insensitive, that's why we have to set imenu-case-fold-search. (setq imenu-generic-expression sql-imenu-generic-expression imenu-case-fold-search t) ;; Make `sql-send-paragraph' work on paragraphs that contain indented ;; lines. (setq-local paragraph-separate "[\f]*$") (setq-local paragraph-start "[\n\f]") ;; Abbrevs (setq-local abbrev-all-caps 1) ;; Contains the name of database objects (setq-local sql-contains-names t) (setq-local escaped-string-quote "'") (setq-local syntax-propertize-function (eval '(syntax-propertize-rules ;; Handle escaped apostrophes within strings. ((if (eq sql-product 'mysql) "\\\\'" "''") (0 (if (save-excursion (nth 3 (syntax-ppss (match-beginning 0)))) (string-to-syntax ".") (forward-char -1) nil))) ;; Propertize rules to not have /- and -* start comments. ("\\(/-\\)" (1 ".")) ("\\(-\\*\\)" (1 (if (save-excursion (not (ppss-comment-depth (syntax-ppss (match-beginning 1))))) ;; If we're outside a comment, we don't let -* ;; start a comment. (string-to-syntax ".") ;; Inside a comment, ignore it to avoid -*/ not ;; being interpreted as a comment end. (forward-char -1) nil)))) t)) ;; Set syntax and font-face highlighting ;; Catch changes to sql-product and highlight accordingly (sql-set-product (or sql-product 'ansi)) ; Fixes bug#13591 (add-hook 'hack-local-variables-hook #'sql-highlight-product t t)) ;;; SQL interactive mode (put 'sql-interactive-mode 'mode-class 'special) (put 'sql-interactive-mode 'custom-mode-group 'SQL) (define-derived-mode sql-interactive-mode comint-mode "SQLi[?]" "Major mode to use a SQL interpreter interactively. Do not call this function by yourself. The environment must be initialized by an entry function specific for the SQL interpreter. See `sql-help' for a list of available entry functions. \\[comint-send-input] after the end of the process' output sends the text from the end of process to the end of the current line. \\[comint-send-input] before end of process output copies the current line minus the prompt to the end of the buffer and sends it. \\[comint-copy-old-input] just copies the current line. Use \\[sql-accumulate-and-indent] to enter multi-line statements. If you want to make multiple SQL buffers, rename the `*SQL*' buffer using \\[rename-buffer] or \\[rename-uniquely] and start a new process. See `sql-help' for a list of available entry functions. The last buffer created by such an entry function is the current SQLi buffer. SQL buffers will send strings to the SQLi buffer current at the time of their creation. See `sql-mode' for details. Sample session using two connections: 1. Create first SQLi buffer by calling an entry function. 2. Rename buffer \"*SQL*\" to \"*Connection 1*\". 3. Create a SQL buffer \"test1.sql\". 4. Create second SQLi buffer by calling an entry function. 5. Rename buffer \"*SQL*\" to \"*Connection 2*\". 6. Create a SQL buffer \"test2.sql\". Now \\[sql-send-region] in buffer \"test1.sql\" will send the region to buffer \"*Connection 1*\", \\[sql-send-region] in buffer \"test2.sql\" will send the region to buffer \"*Connection 2*\". If you accidentally suspend your process, use \\[comint-continue-subjob] to continue it. On some operating systems, this will not work because the signals are not supported. \\{sql-interactive-mode-map} Customization: Entry to this mode runs the hooks on `comint-mode-hook' and `sql-interactive-mode-hook' (in that order). Before each input, the hooks on `comint-input-filter-functions' are run. After each SQL interpreter output, the hooks on `comint-output-filter-functions' are run. Variable `sql-input-ring-file-name' controls the initialization of the input ring history. Variables `comint-output-filter-functions', a hook, and `comint-scroll-to-bottom-on-input' and `comint-scroll-to-bottom-on-output' control whether input and output cause the window to scroll to the end of the buffer. If you want to make SQL buffers limited in length, add the function `comint-truncate-buffer' to `comint-output-filter-functions'. Here is an example for your init file. It keeps the SQLi buffer a certain length. \(add-hook \\='sql-interactive-mode-hook (lambda () (setq comint-output-filter-functions #\\='comint-truncate-buffer))) Here is another example. It will always put point back to the statement you entered, right above the output it created. \(setq comint-output-filter-functions (lambda (STR) (comint-show-output)))" :syntax-table sql-mode-syntax-table ;; FIXME: The doc above uses `setq' on `comint-output-filter-functions', ;; whereas hooks should be manipulated with things like `add/remove-hook'. :after-hook (sql--adjust-interactive-setup) ;; Get the `sql-product' for this interactive session. (setq-local sql-product (or sql-interactive-product sql-product)) ;; Setup the mode. (setq mode-name (concat "SQLi[" (or (sql-get-product-feature sql-product :name) (symbol-name sql-product)) "]")) ;; Note that making KEYWORDS-ONLY nil will cause havoc if you try ;; SELECT 'x' FROM DUAL with SQL*Plus, because the title of the column ;; will have just one quote. Therefore syntactic highlighting is ;; disabled for interactive buffers. No imenu support. (sql-product-font-lock t nil) ;; Enable commenting and uncommenting of the region. (setq-local comment-start "--") ;; Abbreviation table init and case-insensitive. It is not activated ;; by default. (setq local-abbrev-table sql-mode-abbrev-table) (setq abbrev-all-caps 1) ;; Exiting the process will call sql-stop. (let ((proc (get-buffer-process (current-buffer)))) (when proc (set-process-sentinel proc #'sql-stop))) ;; Save the connection and login params (setq-local sql-user sql-user) (setq-local sql-database sql-database) (setq-local sql-server sql-server) (setq-local sql-port sql-port) (setq-local sql-connection sql-connection) (setq-default sql-connection nil) ;; Contains the name of database objects (setq-local sql-contains-names t) ;; Keep track of existing object names (setq-local sql-completion-object nil) (setq-local sql-completion-column nil) ;; Create a useful name for renaming this buffer later. (setq-local sql-alternate-buffer-name (sql-make-alternate-buffer-name)) ;; User stuff. Initialize before the hook. (setq-local sql-prompt-regexp (or (sql-get-product-feature sql-product :prompt-regexp) "^")) (setq-local sql-prompt-length (sql-get-product-feature sql-product :prompt-length)) (setq-local sql-prompt-cont-regexp (sql-get-product-feature sql-product :prompt-cont-regexp)) (make-local-variable 'sql-output-newline-count) (make-local-variable 'sql-preoutput-hold) (add-hook 'comint-preoutput-filter-functions #'sql-interactive-remove-continuation-prompt nil t) (make-local-variable 'sql-input-ring-separator) (make-local-variable 'sql-input-ring-file-name)) (defun sql--adjust-interactive-setup () "Finish the mode's setup after running the mode hook." ;; Set comint based on user overrides. (setq comint-prompt-regexp (if sql-prompt-cont-regexp (concat "\\(?:\\(?:" sql-prompt-regexp "\\)" "\\|\\(?:" sql-prompt-cont-regexp "\\)\\)") sql-prompt-regexp)) (setq left-margin (or sql-prompt-length 0)) ;; Install input sender (setq-local comint-input-sender #'sql-input-sender) ;; People wanting a different history file for each ;; buffer/process/client/whatever can change separator and file-name ;; on the sql-interactive-mode-hook. (let ((comint-input-ring-separator sql-input-ring-separator) (comint-input-ring-file-name sql-input-ring-file-name)) (comint-read-input-ring t))) (defun sql-stop (process event) "Called when the SQL process is stopped. Writes the input history to a history file using `comint-write-input-ring' and inserts a short message in the SQL buffer. This function is a sentinel watching the SQL interpreter process. Sentinels will always get the two parameters PROCESS and EVENT." (when (buffer-live-p (process-buffer process)) (with-current-buffer (process-buffer process) (let ((comint-input-ring-separator sql-input-ring-separator) (comint-input-ring-file-name sql-input-ring-file-name)) (comint-write-input-ring)) (if (not buffer-read-only) (insert (format "\nProcess %s %s\n" process event)) (message "Process %s %s" process event))))) ;;; Connection handling (defun sql-read-connection (prompt &optional initial default) "Read a connection name." (let ((completion-ignore-case t)) (completing-read prompt (mapcar #'car sql-connection-alist) nil t initial 'sql-connection-history default))) ;;;###autoload (defun sql-connect (connection &optional buf-name) "Connect to an interactive session using CONNECTION settings. See `sql-connection-alist' to see how to define connections and their settings. The user will not be prompted for any login parameters if a value is specified in the connection settings." ;; Prompt for the connection from those defined in the alist (interactive (if sql-connection-alist (list (sql-read-connection "Connection: ") current-prefix-arg) (user-error "No SQL Connections defined"))) ;; Are there connections defined (if sql-connection-alist ;; Was one selected (when connection ;; Get connection settings (let ((connect-set (cdr (assoc-string connection sql-connection-alist t)))) ;; Settings are defined (if connect-set ;; Set the desired parameters (let (param-var login-params set-vars rem-vars) ;; Set the parameters and start the interactive session (dolist (vv connect-set) (let ((var (car vv)) (val (cadr vv))) (set-default var (eval val)))) ;FIXME: Why `eval'? (setq-default sql-connection connection) ;; :sqli-login params variable (setq param-var (sql-get-product-feature sql-product :sqli-login nil t)) ;; :sqli-login params value (setq login-params (symbol-value param-var)) ;; Params set in the connection (setq set-vars (mapcar (lambda (v) (pcase (car v) ('sql-user 'user) ('sql-password 'password) ('sql-server 'server) ('sql-database 'database) ('sql-port 'port) (s s))) connect-set)) ;; the remaining params (w/o the connection params) (setq rem-vars (sql-for-each-login login-params (lambda (var vals) (unless (member var set-vars) (if vals (cons var vals) var))))) ;; Start the SQLi session with revised list of login parameters (cl-progv (list param-var) (list rem-vars) (sql-product-interactive sql-product (or buf-name (format "<%s>" connection))))) (user-error "SQL Connection <%s> does not exist" connection) nil))) (user-error "No SQL Connections defined") nil)) (defun sql-save-connection (name) "Captures the connection information of the current SQLi session. The information is appended to `sql-connection-alist' and optionally is saved to the user's init file." (interactive "sNew connection name: ") (unless (derived-mode-p 'sql-interactive-mode) (user-error "Not in a SQL interactive mode!")) ;; Capture the buffer local settings (let* ((buf (current-buffer)) (connection (buffer-local-value 'sql-connection buf)) (product (buffer-local-value 'sql-product buf)) (user (buffer-local-value 'sql-user buf)) (database (buffer-local-value 'sql-database buf)) (server (buffer-local-value 'sql-server buf)) (port (buffer-local-value 'sql-port buf))) (if connection (message "This session was started by a connection; it's already been saved.") (let ((login (sql-get-product-feature product :sqli-login)) (alist sql-connection-alist) connect) ;; Remove the existing connection if the user says so (when (and (assoc name alist) (yes-or-no-p (format "Replace connection definition <%s>? " name))) (setq alist (assq-delete-all name alist))) ;; Add the new connection if it doesn't exist (if (assoc name alist) (user-error "Connection <%s> already exists" name) (setq connect (cons name (sql-for-each-login `(product ,@login) (lambda (token _plist) (pcase token ('product `(sql-product ',product)) ('user `(sql-user ,user)) ('database `(sql-database ,database)) ('server `(sql-server ,server)) ('port `(sql-port ,port))))))) (setq alist (append alist (list connect))) ;; confirm whether we want to save the connections (if (yes-or-no-p "Save the connections for future sessions? ") (customize-save-variable 'sql-connection-alist alist) (customize-set-variable 'sql-connection-alist alist))))))) (defun sql-connection-menu-filter (tail) "Generate menu entries for using each connection." (append (mapcar (lambda (conn) (vector (format "Connection <%s>\t%s" (car conn) (let ((sql-user "") (sql-database "") (sql-server "") (sql-port 0)) (cl-progv (mapcar #'car (cdr conn)) (mapcar #'cadr (cdr conn)) (sql-make-alternate-buffer-name)))) (list 'sql-connect (car conn)) t)) sql-connection-alist) tail)) ;;; Entry functions for different SQL interpreters. ;;;###autoload (defun sql-product-interactive (&optional product new-name) "Run PRODUCT interpreter as an inferior process. If buffer `*SQL*' exists but no process is running, make a new process. If buffer exists and a process is running, just make sure buffer `*SQL*' is displayed. To specify the SQL product, prefix the call with \\[universal-argument]. To set the buffer name as well, prefix the call to \\[sql-product-interactive] with \\[universal-argument] \\[universal-argument]. \(Type \\[describe-mode] in the SQL buffer for a list of commands.)" (interactive "P") ;; Handle universal arguments if specified (when (not (or executing-kbd-macro noninteractive)) (when (>= (prefix-numeric-value product) 16) (when (not new-name) (setq new-name '(4))) (setq product '(4)))) ;; Get the value of product that we need (setq product (cond ((= (prefix-numeric-value product) 4) ; C-u, prompt for product (sql-read-product "SQL product: " sql-product)) ((assoc product sql-product-alist) ; Product specified product) (t sql-product))) ; Default to sql-product ;; If we have a product and it has an interactive mode (if product (when (sql-get-product-feature product :sqli-comint-func) ;; If no new name specified or new name in buffer name, ;; try to pop to an active SQL interactive for the same product (let ((buf (sql-find-sqli-buffer product sql-connection))) (if (and buf (or (not new-name) (and (stringp new-name) (string-match-p (regexp-quote new-name) buf)))) (sql-display-buffer buf) ;; We have a new name or sql-buffer doesn't exist or match ;; Start by remembering where we start (let ((start-buffer (current-buffer)) new-sqli-buffer rpt) ;; Get credentials. (apply #'sql-get-login (sql-get-product-feature product :sqli-login)) ;; Connect to database. (setq rpt (sql-make-progress-reporter nil "Login")) (let ((sql-user (default-value 'sql-user)) (sql-password (default-value 'sql-password)) (sql-server (default-value 'sql-server)) (sql-database (default-value 'sql-database)) (sql-port (default-value 'sql-port)) (default-directory (or sql-default-directory default-directory))) ;; The password wallet returns a function which supplies the password. (when (functionp sql-password) (setq sql-password (funcall sql-password))) ;; Call the COMINT service (funcall (sql-get-product-feature product :sqli-comint-func) product (sql-get-product-feature product :sqli-options) ;; generate a buffer name (cond ((not new-name) (sql-generate-unique-sqli-buffer-name product nil)) ((consp new-name) (sql-generate-unique-sqli-buffer-name product (read-string "Buffer name (\"*SQL: XXX*\"; enter `XXX'): " (sql-make-alternate-buffer-name product)))) ((stringp new-name) (if (or (string-prefix-p " " new-name) (string-match-p "\\`[*].*[*]\\'" new-name)) new-name (sql-generate-unique-sqli-buffer-name product new-name))) (t (sql-generate-unique-sqli-buffer-name product new-name))))) ;; Set SQLi mode. (let ((sql-interactive-product product)) (sql-interactive-mode)) ;; Set the new buffer name (setq new-sqli-buffer (current-buffer)) (setq-local sql-buffer (buffer-name new-sqli-buffer)) ;; Set `sql-buffer' in the start buffer (with-current-buffer start-buffer (when (derived-mode-p 'sql-mode) (setq sql-buffer (buffer-name new-sqli-buffer)) (run-hooks 'sql-set-sqli-hook))) ;; Also set the global value. (setq-default sql-buffer (buffer-name new-sqli-buffer)) ;; Make sure the connection is complete ;; (Sometimes start up can be slow) ;; and call the login hook (let ((proc (get-buffer-process new-sqli-buffer)) (secs sql-login-delay) (step 0.3)) (while (and proc (memq (process-status proc) '(open run)) (or (accept-process-output proc step) (<= 0.0 (setq secs (- secs step)))) (progn (goto-char (point-max)) (not (re-search-backward sql-prompt-regexp 0 t)))) (sql-progress-reporter-update rpt))) (goto-char (point-max)) (when (re-search-backward sql-prompt-regexp nil t) (run-hooks 'sql-login-hook)) ;; All done. (sql-progress-reporter-done rpt) (goto-char (point-max)) (let ((sql-display-sqli-buffer-function t)) (sql-display-buffer new-sqli-buffer)) (get-buffer new-sqli-buffer))))) (user-error "No default SQL product defined: set `sql-product'"))) (defun sql-comint-automatic-password (_) "Intercept password prompts when we know the password. This must also do the job of detecting password prompts." (when (and sql-password (not (string= "" sql-password))) sql-password)) (defun sql-comint (product params &optional buf-name) "Set up a comint buffer to run the SQL processor. PRODUCT is the SQL product. PARAMS is a list of strings which are passed as command line arguments. BUF-NAME is the name of the new buffer. If nil, a name is chosen for it." (let ((program (sql-get-product-feature product :sqli-program))) ;; Make sure we can find the program. `executable-find' does not ;; work for remote hosts; we suppress the check there. (unless (or (file-remote-p default-directory) (executable-find program)) (error "Unable to locate SQL program `%s'" program)) ;; Make sure buffer name is unique. ;; if not specified, try *SQL* then *SQL-product*, then *SQL-product1*, ... ;; otherwise, use *buf-name* (if buf-name (unless (or (string-prefix-p " " buf-name) (string-match-p "\\`[*].*[*]\\'" buf-name)) (setq buf-name (concat "*" buf-name "*"))) (setq buf-name (sql-generate-unique-sqli-buffer-name product nil))) (set-text-properties 0 (length buf-name) nil buf-name) ;; Create the buffer first, because we want to set it up before ;; comint starts to run. (set-buffer (get-buffer-create buf-name)) ;; Set up the automatic population of passwords, if supported. (when (sql-get-product-feature product :password-in-comint) (setq comint-password-function #'sql-comint-automatic-password)) ;; Start the command interpreter in the buffer ;; PROC-NAME is BUF-NAME without enclosing asterisks (let ((proc-name (replace-regexp-in-string "\\`[*]\\(.*\\)[*]\\'" "\\1" buf-name))) (set-buffer (apply #'make-comint-in-buffer proc-name buf-name program nil params))))) ;;;###autoload (defun sql-oracle (&optional buffer) "Run sqlplus by Oracle as an inferior process. If buffer `*SQL*' exists but no process is running, make a new process. If buffer exists and a process is running, just switch to buffer `*SQL*'. Interpreter used comes from variable `sql-oracle-program'. Login uses the variables `sql-user', `sql-password', and `sql-database' as defaults, if set. Additional command line parameters can be stored in the list `sql-oracle-options'. The buffer is put in SQL interactive mode, giving commands for sending input. See `sql-interactive-mode'. To set the buffer name directly, use \\[universal-argument] before \\[sql-oracle]. Once session has started, \\[sql-rename-buffer] can be called separately to rename the buffer. To specify a coding system for converting non-ASCII characters in the input and output to the process, use \\[universal-coding-system-argument] before \\[sql-oracle]. You can also specify this with \\[set-buffer-process-coding-system] in the SQL buffer, after you start the process. The default comes from `process-coding-system-alist' and `default-process-coding-system'. \(Type \\[describe-mode] in the SQL buffer for a list of commands.)" (interactive "P") (sql-product-interactive 'oracle buffer)) (defun sql-comint-oracle (product options &optional buf-name) "Create comint buffer and connect to Oracle." ;; Produce user/password@database construct. Password without user ;; is meaningless; database without user/password is meaningless, ;; because "@param" will ask sqlplus to interpret the script ;; "param". (let (parameter nlslang coding) (if (not (string= "" sql-user)) (if (not (string= "" sql-password)) (setq parameter (concat sql-user "/" sql-password)) (setq parameter sql-user))) (if (and parameter (not (string= "" sql-database))) (setq parameter (concat parameter "@" sql-database))) ;; options must appear before the logon parameters (if parameter (setq parameter (append options (list parameter))) (setq parameter options)) (sql-comint product parameter buf-name) ;; Set process coding system to agree with the interpreter (setq nlslang (or (getenv "NLS_LANG") "") coding (dolist (cs ;; Are we missing any common NLS character sets '(("US8PC437" . cp437) ("EL8PC737" . cp737) ("WE8PC850" . cp850) ("EE8PC852" . cp852) ("TR8PC857" . cp857) ("WE8PC858" . cp858) ("IS8PC861" . cp861) ("IW8PC1507" . cp862) ("N8PC865" . cp865) ("RU8PC866" . cp866) ("US7ASCII" . us-ascii) ("UTF8" . utf-8) ("AL32UTF8" . utf-8) ("AL16UTF16" . utf-16)) (or coding 'utf-8)) (when (string-match (format "\\.%s\\'" (car cs)) nlslang) (setq coding (cdr cs))))) (set-process-coding-system (get-buffer-process (current-buffer)) coding coding))) (defun sql-oracle-save-settings (sqlbuf) "Save most SQL*Plus settings so they may be reset by \\[sql-redirect]." ;; Note: does not capture the following settings: ;; ;; APPINFO ;; BTITLE ;; COMPATIBILITY ;; COPYTYPECHECK ;; MARKUP ;; RELEASE ;; REPFOOTER ;; REPHEADER ;; SQLPLUSCOMPATIBILITY ;; TTITLE ;; USER ;; (append ;; (apply #'concat (append ;; '("SET") ;; option value... (sql-redirect-value sqlbuf (concat "SHOW ARRAYSIZE AUTOCOMMIT AUTOPRINT AUTORECOVERY AUTOTRACE" " CMDSEP COLSEP COPYCOMMIT DESCRIBE ECHO EDITFILE EMBEDDED" " ESCAPE FLAGGER FLUSH HEADING INSTANCE LINESIZE LNO LOBOFFSET" " LOGSOURCE LONG LONGCHUNKSIZE NEWPAGE NULL NUMFORMAT NUMWIDTH" " PAGESIZE PAUSE PNO RECSEP SERVEROUTPUT SHIFTINOUT SHOWMODE" " SPOOL SQLBLANKLINES SQLCASE SQLCODE SQLCONTINUE SQLNUMBER" " SQLPROMPT SUFFIX TAB TERMOUT TIMING TRIMOUT TRIMSPOOL VERIFY") "^.+$" "SET \\&") ;; option "c" (hex xx) (sql-redirect-value sqlbuf (concat "SHOW BLOCKTERMINATOR CONCAT DEFINE SQLPREFIX SQLTERMINATOR" " UNDERLINE HEADSEP RECSEPCHAR") "^\\(.+\\) (hex ..)$" "SET \\1") ;; FEEDBACK ON for 99 or more rows ;; feedback OFF (sql-redirect-value sqlbuf "SHOW FEEDBACK" "^\\(?:FEEDBACK ON for \\([[:digit:]]+\\) or more rows\\|feedback \\(OFF\\)\\)" "SET FEEDBACK \\1\\2") ;; wrap : lines will be wrapped ;; wrap : lines will be truncated (list (concat "SET WRAP " (if (string= (car (sql-redirect-value sqlbuf "SHOW WRAP" "^wrap : lines will be \\(wrapped\\|truncated\\)" 1)) "wrapped") "ON" "OFF"))))) (defun sql-oracle-restore-settings (sqlbuf saved-settings) "Restore the SQL*Plus settings in SAVED-SETTINGS." ;; Remove any settings that haven't changed (mapc (lambda (one-cur-setting) (setq saved-settings (delete one-cur-setting saved-settings))) (sql-oracle-save-settings sqlbuf)) ;; Restore the changed settings (sql-redirect sqlbuf saved-settings)) (defun sql-oracle--list-object-name (obj-name) (format "CASE WHEN REGEXP_LIKE (%s, q'/^[A-Z0-9_#$]+$/','c') THEN %s ELSE '\"'|| %s ||'\"' END " obj-name obj-name obj-name)) (defun sql-oracle-list-all (sqlbuf outbuf enhanced _table-name) ;; Query from USER_OBJECTS or ALL_OBJECTS (let ((settings (sql-oracle-save-settings sqlbuf)) (simple-sql (concat "SELECT INITCAP(x.object_type) AS SQL_EL_TYPE " ", " (sql-oracle--list-object-name "x.object_name") " AS SQL_EL_NAME " "FROM user_objects x " "WHERE x.object_type NOT LIKE '%% BODY' " "ORDER BY 2, 1;")) (enhanced-sql (concat "SELECT INITCAP(x.object_type) AS SQL_EL_TYPE " ", " (sql-oracle--list-object-name "x.owner") " ||'.'|| " (sql-oracle--list-object-name "x.object_name") " AS SQL_EL_NAME " "FROM all_objects x " "WHERE x.object_type NOT LIKE '%% BODY' " "AND x.owner <> 'SYS' " "ORDER BY 2, 1;"))) (sql-redirect sqlbuf (concat "SET LINESIZE 80 PAGESIZE 50000 TRIMOUT ON" " TAB OFF TIMING OFF FEEDBACK OFF")) (sql-redirect sqlbuf (list "COLUMN SQL_EL_TYPE HEADING \"Type\" FORMAT A19" "COLUMN SQL_EL_NAME HEADING \"Name\"" (format "COLUMN SQL_EL_NAME FORMAT A%d" (if enhanced 60 35)))) (sql-redirect sqlbuf (if enhanced enhanced-sql simple-sql) outbuf) (sql-redirect sqlbuf '("COLUMN SQL_EL_NAME CLEAR" "COLUMN SQL_EL_TYPE CLEAR")) (sql-oracle-restore-settings sqlbuf settings))) (defun sql-oracle-list-table (sqlbuf outbuf _enhanced table-name) "Implements :list-table under Oracle." (let ((settings (sql-oracle-save-settings sqlbuf))) (sql-redirect sqlbuf (format (concat "SET LINESIZE %d PAGESIZE 50000" " DESCRIBE DEPTH 1 LINENUM OFF INDENT ON") (max 65 (min 120 (window-width))))) (sql-redirect sqlbuf (format "DESCRIBE %s" table-name) outbuf) (sql-oracle-restore-settings sqlbuf settings))) (defcustom sql-oracle-completion-types '("FUNCTION" "PACKAGE" "PROCEDURE" "SEQUENCE" "SYNONYM" "TABLE" "TRIGGER" "TYPE" "VIEW") "List of object types to include for completion under Oracle. See the distinct values in ALL_OBJECTS.OBJECT_TYPE for possible values." :version "24.1" :type '(repeat string)) (defun sql-oracle-completion-object (sqlbuf schema) (sql-redirect-value sqlbuf (concat "SELECT CHR(1)||" (if schema (concat "CASE WHEN REGEXP_LIKE (owner, q'/^[A-Z0-9_#$]+$/','c') THEN owner ELSE '\"'|| owner ||'\"' END " "||'.'||" "CASE WHEN REGEXP_LIKE (object_name, q'/^[A-Z0-9_#$]+$/','c') THEN object_name ELSE '\"'|| object_name ||'\"' END " " AS o FROM all_objects " (format "WHERE owner = %s AND " (sql-str-literal (if (string-match "^[\"]\\(.+\\)[\"]$" schema) (match-string 1 schema) (upcase schema))))) (concat "CASE WHEN REGEXP_LIKE (object_name, q'/^[A-Z0-9_#$]+$/','c') THEN object_name ELSE '\"'|| object_name ||'\"' END " " AS o FROM user_objects WHERE ")) "temporary = 'N' AND generated = 'N' AND secondary = 'N' AND " "object_type IN (" (mapconcat (function sql-str-literal) sql-oracle-completion-types ",") ");") "^[\001]\\(.+\\)$" 1)) ;;;###autoload (defun sql-sybase (&optional buffer) "Run isql by Sybase as an inferior process. If buffer `*SQL*' exists but no process is running, make a new process. If buffer exists and a process is running, just switch to buffer `*SQL*'. Interpreter used comes from variable `sql-sybase-program'. Login uses the variables `sql-server', `sql-user', `sql-password', and `sql-database' as defaults, if set. Additional command line parameters can be stored in the list `sql-sybase-options'. The buffer is put in SQL interactive mode, giving commands for sending input. See `sql-interactive-mode'. To set the buffer name directly, use \\[universal-argument] before \\[sql-sybase]. Once session has started, \\[sql-rename-buffer] can be called separately to rename the buffer. To specify a coding system for converting non-ASCII characters in the input and output to the process, use \\[universal-coding-system-argument] before \\[sql-sybase]. You can also specify this with \\[set-buffer-process-coding-system] in the SQL buffer, after you start the process. The default comes from `process-coding-system-alist' and `default-process-coding-system'. \(Type \\[describe-mode] in the SQL buffer for a list of commands.)" (interactive "P") (sql-product-interactive 'sybase buffer)) (defun sql-comint-sybase (product options &optional buf-name) "Create comint buffer and connect to Sybase." ;; Put all parameters to the program (if defined) in a list and call ;; make-comint. (let ((params (append (if (not (string= "" sql-user)) (list "-U" sql-user)) (if (not (string= "" sql-password)) (list "-P" sql-password)) (if (not (string= "" sql-database)) (list "-D" sql-database)) (if (not (string= "" sql-server)) (list "-S" sql-server)) options))) (sql-comint product params buf-name))) ;;;###autoload (defun sql-informix (&optional buffer) "Run dbaccess by Informix as an inferior process. If buffer `*SQL*' exists but no process is running, make a new process. If buffer exists and a process is running, just switch to buffer `*SQL*'. Interpreter used comes from variable `sql-informix-program'. Login uses the variable `sql-database' as default, if set. The buffer is put in SQL interactive mode, giving commands for sending input. See `sql-interactive-mode'. To set the buffer name directly, use \\[universal-argument] before \\[sql-informix]. Once session has started, \\[sql-rename-buffer] can be called separately to rename the buffer. To specify a coding system for converting non-ASCII characters in the input and output to the process, use \\[universal-coding-system-argument] before \\[sql-informix]. You can also specify this with \\[set-buffer-process-coding-system] in the SQL buffer, after you start the process. The default comes from `process-coding-system-alist' and `default-process-coding-system'. \(Type \\[describe-mode] in the SQL buffer for a list of commands.)" (interactive "P") (sql-product-interactive 'informix buffer)) (defun sql-comint-informix (product options &optional buf-name) "Create comint buffer and connect to Informix." ;; username and password are ignored. (let ((db (if (string= "" sql-database) "-" (if (string= "" sql-server) sql-database (concat sql-database "@" sql-server))))) (sql-comint product (append `(,db "-") options) buf-name))) ;;;###autoload (defun sql-sqlite (&optional buffer) "Run sqlite as an inferior process. SQLite is free software. If buffer `*SQL*' exists but no process is running, make a new process. If buffer exists and a process is running, just switch to buffer `*SQL*'. Interpreter used comes from variable `sql-sqlite-program'. Login uses the variables `sql-user', `sql-password', `sql-database', and `sql-server' as defaults, if set. Additional command line parameters can be stored in the list `sql-sqlite-options'. The buffer is put in SQL interactive mode, giving commands for sending input. See `sql-interactive-mode'. To set the buffer name directly, use \\[universal-argument] before \\[sql-sqlite]. Once session has started, \\[sql-rename-buffer] can be called separately to rename the buffer. To specify a coding system for converting non-ASCII characters in the input and output to the process, use \\[universal-coding-system-argument] before \\[sql-sqlite]. You can also specify this with \\[set-buffer-process-coding-system] in the SQL buffer, after you start the process. The default comes from `process-coding-system-alist' and `default-process-coding-system'. \(Type \\[describe-mode] in the SQL buffer for a list of commands.)" (interactive "P") (sql-product-interactive 'sqlite buffer)) (defun sql-comint-sqlite (product options &optional buf-name) "Create comint buffer and connect to SQLite." ;; Put all parameters to the program (if defined) in a list and call ;; make-comint. (let ((params (append options (if (not (string= "" sql-database)) `(,(expand-file-name sql-database)))))) (sql-comint product params buf-name))) (defun sql-sqlite-completion-object (sqlbuf _schema) (sql-redirect-value sqlbuf ".tables" "\\sw\\(?:\\sw\\|\\s_\\)*" 0)) ;;;###autoload (defun sql-mysql (&optional buffer) "Run mysql by TcX as an inferior process. Mysql versions 3.23 and up are free software. If buffer `*SQL*' exists but no process is running, make a new process. If buffer exists and a process is running, just switch to buffer `*SQL*'. Interpreter used comes from variable `sql-mysql-program'. Login uses the variables `sql-user', `sql-password', `sql-database', and `sql-server' as defaults, if set. Additional command line parameters can be stored in the list `sql-mysql-options'. The buffer is put in SQL interactive mode, giving commands for sending input. See `sql-interactive-mode'. To set the buffer name directly, use \\[universal-argument] before \\[sql-mysql]. Once session has started, \\[sql-rename-buffer] can be called separately to rename the buffer. To specify a coding system for converting non-ASCII characters in the input and output to the process, use \\[universal-coding-system-argument] before \\[sql-mysql]. You can also specify this with \\[set-buffer-process-coding-system] in the SQL buffer, after you start the process. The default comes from `process-coding-system-alist' and `default-process-coding-system'. \(Type \\[describe-mode] in the SQL buffer for a list of commands.)" (interactive "P") (sql-product-interactive 'mysql buffer)) (defun sql-comint-mysql (product options &optional buf-name) "Create comint buffer and connect to MySQL." ;; Put all parameters to the program (if defined) in a list and call ;; make-comint. (let ((params (append options (if (not (string= "" sql-user)) (list (concat "--user=" sql-user))) (if (not (string= "" sql-password)) (list (concat "--password=" sql-password))) (if (not (= 0 sql-port)) (list (concat "--port=" (number-to-string sql-port)))) (if (not (string= "" sql-server)) (list (concat "--host=" sql-server))) (if (not (string= "" sql-database)) (list sql-database))))) (sql-comint product params buf-name))) ;;;###autoload (defun sql-mariadb (&optional buffer) "Run mysql by MariaDB as an inferior process. MariaDB is free software. If buffer `*SQL*' exists but no process is running, make a new process. If buffer exists and a process is running, just switch to buffer `*SQL*'. Interpreter used comes from variable `sql-mariadb-program'. Login uses the variables `sql-user', `sql-password', `sql-database', and `sql-server' as defaults, if set. Additional command line parameters can be stored in the list `sql-mariadb-options'. The buffer is put in SQL interactive mode, giving commands for sending input. See `sql-interactive-mode'. To set the buffer name directly, use \\[universal-argument] before \\[sql-mariadb]. Once session has started, \\[sql-rename-buffer] can be called separately to rename the buffer. To specify a coding system for converting non-ASCII characters in the input and output to the process, use \\[universal-coding-system-argument] before \\[sql-mariadb]. You can also specify this with \\[set-buffer-process-coding-system] in the SQL buffer, after you start the process. The default comes from `process-coding-system-alist' and `default-process-coding-system'. \(Type \\[describe-mode] in the SQL buffer for a list of commands.)" (interactive "P") (sql-product-interactive 'mariadb buffer)) (defun sql-comint-mariadb (product options &optional buf-name) "Create comint buffer and connect to MariaDB. Use the MySQL comint driver since the two are compatible." (sql-comint-mysql product options buf-name)) ;;;###autoload (defun sql-solid (&optional buffer) "Run solsql by Solid as an inferior process. If buffer `*SQL*' exists but no process is running, make a new process. If buffer exists and a process is running, just switch to buffer `*SQL*'. Interpreter used comes from variable `sql-solid-program'. Login uses the variables `sql-user', `sql-password', and `sql-server' as defaults, if set. The buffer is put in SQL interactive mode, giving commands for sending input. See `sql-interactive-mode'. To set the buffer name directly, use \\[universal-argument] before \\[sql-solid]. Once session has started, \\[sql-rename-buffer] can be called separately to rename the buffer. To specify a coding system for converting non-ASCII characters in the input and output to the process, use \\[universal-coding-system-argument] before \\[sql-solid]. You can also specify this with \\[set-buffer-process-coding-system] in the SQL buffer, after you start the process. The default comes from `process-coding-system-alist' and `default-process-coding-system'. \(Type \\[describe-mode] in the SQL buffer for a list of commands.)" (interactive "P") (sql-product-interactive 'solid buffer)) (defun sql-comint-solid (product options &optional buf-name) "Create comint buffer and connect to Solid." ;; Put all parameters to the program (if defined) in a list and call ;; make-comint. (let ((params (append (if (not (string= "" sql-server)) (list sql-server)) ;; It only makes sense if both username and password are there. (if (not (or (string= "" sql-user) (string= "" sql-password))) (list sql-user sql-password)) options))) (sql-comint product params buf-name))) ;;;###autoload (defun sql-ingres (&optional buffer) "Run sql by Ingres as an inferior process. If buffer `*SQL*' exists but no process is running, make a new process. If buffer exists and a process is running, just switch to buffer `*SQL*'. Interpreter used comes from variable `sql-ingres-program'. Login uses the variable `sql-database' as default, if set. The buffer is put in SQL interactive mode, giving commands for sending input. See `sql-interactive-mode'. To set the buffer name directly, use \\[universal-argument] before \\[sql-ingres]. Once session has started, \\[sql-rename-buffer] can be called separately to rename the buffer. To specify a coding system for converting non-ASCII characters in the input and output to the process, use \\[universal-coding-system-argument] before \\[sql-ingres]. You can also specify this with \\[set-buffer-process-coding-system] in the SQL buffer, after you start the process. The default comes from `process-coding-system-alist' and `default-process-coding-system'. \(Type \\[describe-mode] in the SQL buffer for a list of commands.)" (interactive "P") (sql-product-interactive 'ingres buffer)) (defun sql-comint-ingres (product options &optional buf-name) "Create comint buffer and connect to Ingres." ;; username and password are ignored. (sql-comint product (append (if (string= "" sql-database) nil (list sql-database)) options) buf-name)) ;;;###autoload (defun sql-ms (&optional buffer) "Run osql by Microsoft as an inferior process. If buffer `*SQL*' exists but no process is running, make a new process. If buffer exists and a process is running, just switch to buffer `*SQL*'. Interpreter used comes from variable `sql-ms-program'. Login uses the variables `sql-user', `sql-password', `sql-database', and `sql-server' as defaults, if set. Additional command line parameters can be stored in the list `sql-ms-options'. The buffer is put in SQL interactive mode, giving commands for sending input. See `sql-interactive-mode'. To set the buffer name directly, use \\[universal-argument] before \\[sql-ms]. Once session has started, \\[sql-rename-buffer] can be called separately to rename the buffer. To specify a coding system for converting non-ASCII characters in the input and output to the process, use \\[universal-coding-system-argument] before \\[sql-ms]. You can also specify this with \\[set-buffer-process-coding-system] in the SQL buffer, after you start the process. The default comes from `process-coding-system-alist' and `default-process-coding-system'. \(Type \\[describe-mode] in the SQL buffer for a list of commands.)" (interactive "P") (sql-product-interactive 'ms buffer)) (defun sql-comint-ms (product options &optional buf-name) "Create comint buffer and connect to Microsoft SQL Server." ;; Put all parameters to the program (if defined) in a list and call ;; make-comint. (let ((params (append (if (not (string= "" sql-user)) (list "-U" sql-user)) (if (not (string= "" sql-database)) (list "-d" sql-database)) (if (not (string= "" sql-server)) (list "-S" sql-server)) options))) (setq params (if (not (string= "" sql-password)) `("-P" ,sql-password ,@params) (if (string= "" sql-user) ;; If neither user nor password is provided, use system ;; credentials. `("-E" ,@params) ;; If -P is passed to ISQL as the last argument without a ;; password, it's considered null. `(,@params "-P")))) (sql-comint product params buf-name))) ;;;###autoload (defun sql-postgres (&optional buffer) "Run psql by Postgres as an inferior process. If buffer `*SQL*' exists but no process is running, make a new process. If buffer exists and a process is running, just switch to buffer `*SQL*'. Interpreter used comes from variable `sql-postgres-program'. Login uses the variables `sql-database' and `sql-server' as default, if set. Additional command line parameters can be stored in the list `sql-postgres-options'. The buffer is put in SQL interactive mode, giving commands for sending input. See `sql-interactive-mode'. To set the buffer name directly, use \\[universal-argument] before \\[sql-postgres]. Once session has started, \\[sql-rename-buffer] can be called separately to rename the buffer. To specify a coding system for converting non-ASCII characters in the input and output to the process, use \\[universal-coding-system-argument] before \\[sql-postgres]. You can also specify this with \\[set-buffer-process-coding-system] in the SQL buffer, after you start the process. The default comes from `process-coding-system-alist' and `default-process-coding-system'. If your output lines end with ^M, your might try undecided-dos as a coding system. If this doesn't help, Try to set `comint-output-filter-functions' like this: \(add-hook \\='comint-output-filter-functions #\\='comint-strip-ctrl-m \\='append) \(Type \\[describe-mode] in the SQL buffer for a list of commands.)" (interactive "P") (sql-product-interactive 'postgres buffer)) (defun sql-comint-postgres (product options &optional buf-name) "Create comint buffer and connect to Postgres." ;; username and password are ignored. Mark Stosberg suggests to add ;; the database at the end. Jason Beegan suggests using --pset and ;; pager=off instead of \\o|cat. The later was the solution by ;; Gregor Zych. Jason's suggestion is the default value for ;; sql-postgres-options. (let ((params (append (if (not (= 0 sql-port)) (list "-p" (number-to-string sql-port))) (if (not (string= "" sql-user)) (list "-U" sql-user)) (if (not (string= "" sql-server)) (list "-h" sql-server)) options (if (not (string= "" sql-database)) (list sql-database))))) (sql-comint product params buf-name))) (defun sql-postgres-completion-object (sqlbuf schema) (sql-redirect sqlbuf "\\t on") (let ((aligned (string= "aligned" (car (sql-redirect-value sqlbuf "\\a" "Output format is \\(.*\\)[.]$" 1))))) (when aligned (sql-redirect sqlbuf "\\a")) (let* ((fs (or (car (sql-redirect-value sqlbuf "\\f" "Field separator is \"\\(.\\)[.]$" 1)) "|")) (re (concat "^\\([^" fs "]*\\)" fs "\\([^" fs "]*\\)" fs "[^" fs "]*" fs "[^" fs "]*$")) (cl (if (not schema) (sql-redirect-value sqlbuf "\\d" re '(1 2)) (append (sql-redirect-value sqlbuf (format "\\dt %s.*" schema) re '(1 2)) (sql-redirect-value sqlbuf (format "\\dv %s.*" schema) re '(1 2)) (sql-redirect-value sqlbuf (format "\\ds %s.*" schema) re '(1 2)))))) ;; Restore tuples and alignment to what they were. (sql-redirect sqlbuf "\\t off") (when (not aligned) (sql-redirect sqlbuf "\\a")) ;; Return the list of table names (public schema name can be omitted) (mapcar (lambda (tbl) (if (string= (car tbl) "public") (format "\"%s\"" (cadr tbl)) (format "\"%s\".\"%s\"" (car tbl) (cadr tbl)))) cl)))) ;;;###autoload (defun sql-interbase (&optional buffer) "Run isql by Interbase as an inferior process. If buffer `*SQL*' exists but no process is running, make a new process. If buffer exists and a process is running, just switch to buffer `*SQL*'. Interpreter used comes from variable `sql-interbase-program'. Login uses the variables `sql-user', `sql-password', and `sql-database' as defaults, if set. The buffer is put in SQL interactive mode, giving commands for sending input. See `sql-interactive-mode'. To set the buffer name directly, use \\[universal-argument] before \\[sql-interbase]. Once session has started, \\[sql-rename-buffer] can be called separately to rename the buffer. To specify a coding system for converting non-ASCII characters in the input and output to the process, use \\[universal-coding-system-argument] before \\[sql-interbase]. You can also specify this with \\[set-buffer-process-coding-system] in the SQL buffer, after you start the process. The default comes from `process-coding-system-alist' and `default-process-coding-system'. \(Type \\[describe-mode] in the SQL buffer for a list of commands.)" (interactive "P") (sql-product-interactive 'interbase buffer)) (defun sql-comint-interbase (product options &optional buf-name) "Create comint buffer and connect to Interbase." ;; Put all parameters to the program (if defined) in a list and call ;; make-comint. (let ((params (append (if (not (string= "" sql-database)) (list sql-database)) ; Add to the front! (if (not (string= "" sql-password)) (list "-p" sql-password)) (if (not (string= "" sql-user)) (list "-u" sql-user)) options))) (sql-comint product params buf-name))) ;;;###autoload (defun sql-db2 (&optional buffer) "Run db2 by IBM as an inferior process. If buffer `*SQL*' exists but no process is running, make a new process. If buffer exists and a process is running, just switch to buffer `*SQL*'. Interpreter used comes from variable `sql-db2-program'. There is not automatic login. The buffer is put in SQL interactive mode, giving commands for sending input. See `sql-interactive-mode'. If you use \\[sql-accumulate-and-indent] to send multiline commands to db2, newlines will be escaped if necessary. If you don't want that, set `comint-input-sender' back to `comint-simple-send' by writing an after advice. See the elisp manual for more information. To set the buffer name directly, use \\[universal-argument] before \\[sql-db2]. Once session has started, \\[sql-rename-buffer] can be called separately to rename the buffer. To specify a coding system for converting non-ASCII characters in the input and output to the process, use \\[universal-coding-system-argument] before \\[sql-db2]. You can also specify this with \\[set-buffer-process-coding-system] in the SQL buffer, after you start the process. The default comes from `process-coding-system-alist' and `default-process-coding-system'. \(Type \\[describe-mode] in the SQL buffer for a list of commands.)" (interactive "P") (sql-product-interactive 'db2 buffer)) (defun sql-comint-db2 (product options &optional buf-name) "Create comint buffer and connect to DB2." ;; Put all parameters to the program (if defined) in a list and call ;; make-comint. (sql-comint product options buf-name)) ;;;###autoload (defun sql-linter (&optional buffer) "Run inl by RELEX as an inferior process. If buffer `*SQL*' exists but no process is running, make a new process. If buffer exists and a process is running, just switch to buffer `*SQL*'. Interpreter used comes from variable `sql-linter-program' - usually `inl'. Login uses the variables `sql-user', `sql-password', `sql-database' and `sql-server' as defaults, if set. Additional command line parameters can be stored in the list `sql-linter-options'. Run inl -h to get help on parameters. `sql-database' is used to set the LINTER_MBX environment variable for local connections, `sql-server' refers to the server name from the `nodetab' file for the network connection (dbc_tcp or friends must run for this to work). If `sql-password' is an empty string, inl will use an empty password. The buffer is put in SQL interactive mode, giving commands for sending input. See `sql-interactive-mode'. To set the buffer name directly, use \\[universal-argument] before \\[sql-linter]. Once session has started, \\[sql-rename-buffer] can be called separately to rename the buffer. \(Type \\[describe-mode] in the SQL buffer for a list of commands.)" (interactive "P") (sql-product-interactive 'linter buffer)) (defun sql-comint-linter (product options &optional buf-name) "Create comint buffer and connect to Linter." ;; Put all parameters to the program (if defined) in a list and call ;; make-comint. (let* ((login (if (not (string= "" sql-user)) (concat sql-user "/" sql-password))) (params (append (if (not (string= "" sql-server)) (list "-n" sql-server)) (list "-u" login) options))) (cl-letf (((getenv "LINTER_MBX") (unless (string= "" sql-database) sql-database))) (sql-comint product params buf-name)))) (defcustom sql-vertica-program "vsql" "Command to start the Vertica client." :version "25.1" :type 'file) (defcustom sql-vertica-options '("-P" "pager=off") "List of additional options for `sql-vertica-program'. The default value disables the internal pager." :version "25.1" :type '(repeat string)) (defcustom sql-vertica-login-params '(user password database server) "List of login parameters needed to connect to Vertica." :version "25.1" :type 'sql-login-params) (defun sql-comint-vertica (product options &optional buf-name) "Create comint buffer and connect to Vertica." (sql-comint product (nconc (and (not (string= "" sql-server)) (list "-h" sql-server)) (and (not (string= "" sql-database)) (list "-d" sql-database)) (and (not (string= "" sql-password)) (list "-w" sql-password)) (and (not (string= "" sql-user)) (list "-U" sql-user)) options) buf-name)) ;;;###autoload (defun sql-vertica (&optional buffer) "Run vsql as an inferior process." (interactive "P") (sql-product-interactive 'vertica buffer)) (provide 'sql) ; LocalWords: sql SQL SQLite sqlite Sybase Informix MySQL ; LocalWords: Postgres SQLServer SQLi ;;; sql.el ends here