\input texinfo @c -*-texinfo-*- @c %**start of header @setfilename ../../info/eshell.info @settitle Eshell: The Emacs Shell @include docstyle.texi @defindex cm @synindex vr fn @c %**end of header @copying This manual is for Eshell, the Emacs shell. Copyright @copyright{} 1999--2023 Free Software Foundation, Inc. @quotation Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.3 or any later version published by the Free Software Foundation; with no Invariant Sections, with the Front-Cover Texts being ``A GNU Manual'', and with the Back-Cover Texts as in (a) below. A copy of the license is included in the section entitled ``GNU Free Documentation License''. (a) The FSF's Back-Cover Text is: ``You have the freedom to copy and modify this GNU manual.'' @end quotation @end copying @dircategory Emacs misc features @direntry * Eshell: (eshell). A command shell implemented in Emacs Lisp. @end direntry @titlepage @sp 4 @c The title is printed in a large font. @center @titlefont{User's Guide} @sp 1 @center @titlefont{to} @sp 1 @center @titlefont{Eshell: The Emacs Shell} @ignore @sp 2 @center release 2.4 @c -release- @end ignore @sp 3 @center John Wiegley & Aidan Gauland @c -date- @page @vskip 0pt plus 1filll @insertcopying @end titlepage @contents @c ================================================================ @c The real text starts here @c ================================================================ @ifnottex @node Top @top Eshell Eshell is a shell-like command interpreter implemented in Emacs Lisp. It invokes no external processes except for those requested by the user. It is intended to be an alternative to the IELM (@pxref{Lisp Interaction, , , emacs, The Emacs Editor}) REPL@footnote{Short for ``Read-Eval-Print Loop''.} for Emacs @emph{and} with an interface similar to command shells such as @command{bash}, @command{zsh}, @command{rc}, or @command{4dos}. @c This manual is updated to release 2.4 of Eshell. @insertcopying @end ifnottex @menu * Introduction:: A brief introduction to the Emacs Shell. * Commands:: * Expansion:: * Input/Output:: * Extension modules:: * Bugs and ideas:: Known problems, and future ideas. * GNU Free Documentation License:: The license for this documentation. * Concept Index:: * Function and Variable Index:: * Command Index:: @ignore * Key Index:: @end ignore @end menu @node Introduction @chapter Introduction @section What is Eshell? @cindex what is Eshell? @cindex Eshell, what it is Eshell is a @dfn{command shell} written in Emacs Lisp. Everything it does, it uses Emacs's facilities to do. This means that Eshell is as portable as Emacs itself. It also means that cooperation with Lisp code is natural and seamless. What is a command shell? To properly understand the role of a shell, it's necessary to visualize what a computer does for you. Basically, a computer is a tool; in order to use that tool, you must tell it what to do---or give it ``commands.'' These commands take many forms, such as clicking with a mouse on certain parts of the screen. But that is only one form of command input. By far the most versatile way to express what you want the computer to do is by using an abbreviated language called @dfn{script}. In script, instead of telling the computer, ``list my files, please'', one writes a standard abbreviated command word---@samp{ls}. Typing @samp{ls} in a command shell is a script way of telling the computer to list your files.@footnote{This is comparable to viewing the contents of a folder using a graphical display.} The real flexibility of this approach is apparent only when you realize that there are many, many different ways to list files. Perhaps you want them sorted by name, sorted by date, in reverse order, or grouped by type. Most graphical browsers have simple ways to express this. But what about showing only a few files, or only files that meet a certain criteria? In very complex and specific situations, the request becomes too difficult to express using a mouse or pointing device. It is just these kinds of requests that are easily solved using a command shell. For example, what if you want to list every Word file on your hard drive, larger than 100 kilobytes in size, and which hasn't been looked at in over six months? That is a good candidate list for deletion, when you go to clean up your hard drive. But have you ever tried asking your computer for such a list? There is no way to do it! At least, not without using a command shell. The role of a command shell is to give you more control over what your computer does for you. Not everyone needs this amount of control, and it does come at a cost: Learning the necessary script commands to express what you want done. A complicated query, such as the example above, takes time to learn. But if you find yourself using your computer frequently enough, it is more than worthwhile in the long run. Any tool you use often deserves the time spent learning to master it. @footnote{For the understandably curious, here is what that command looks like: But don't let it fool you; once you know what's going on, it's easier than it looks: @code{ls -lt **/*.doc(Lk+50aM+5)}.} @menu * Contributors to Eshell:: People who have helped out! @end menu @node Contributors to Eshell @section Contributors to Eshell @cindex contributors @cindex authors Contributions to Eshell are welcome. I have limited time to work on this project, but I will gladly add any code you contribute to me to this package. The following persons have made contributions to Eshell. @itemize @bullet @item John Wiegley is the original author of Eshell. @item Eli Zaretskii made it possible for Eshell to run without requiring asynchronous subprocess support. This is important for MS-DOS, which does not have such support. @item Miles Bader contributed many fixes during the port to Emacs 21. @item Stefan Monnier fixed the things which bothered him, which of course made things better for all. @item Gerd Moellmann also helped to contribute bug fixes during the initial integration with Emacs 21. @item Alex Schroeder contributed code for interactively querying the user before overwriting files. @end itemize Apart from these, a lot of people have sent suggestions, ideas, requests, bug reports and encouragement. Thanks a lot! Without you there would be no new releases of Eshell. @node Commands @chapter Commands In a command shell, everything is done by invoking commands. This chapter covers command invocations in Eshell, including the command history and invoking commands in a script file. Unlike regular system shells, Eshell never invokes kernel functions directly, such as @code{exec(3)}. Instead, it uses the Lisp functions available in the Emacs Lisp library. It does this by transforming the input line into a callable Lisp form.@footnote{To see the Lisp form that will be invoked, type this as the Eshell prompt: @kbd{eshell-parse-command 'echo hello'}} @menu * Invocation:: * Arguments:: * Built-ins:: * Variables:: * Aliases:: * Remote Access:: * History:: * Completion:: * Control Flow:: * Scripts:: @end menu @node Invocation @section Invocation Eshell is both a command shell and an Emacs Lisp @acronym{REPL}. As a result, you can invoke commands in two different ways: in @dfn{command form} or in @dfn{Lisp form}. You can use the semicolon (@code{;}) to separate multiple command invocations on a single line, executing each in turn. You can also separate commands with @code{&&} or @code{||}. When using @code{&&}, Eshell will execute the second command only if the first succeeds (i.e.@: has an exit status of 0); with @code{||}, Eshell will execute the second command only if the first fails. A command invocation followed by an ampersand (@code{&}) will be run in the background. Eshell has no job control, so you can not suspend or background the current process, or bring a background process into the foreground. That said, background processes invoked from Eshell can be controlled the same way as any other background process in Emacs. @subsection Command form Command form looks much the same as in other shells. A command consists of arguments separated by spaces; the first argument is the command to run, with any subsequent arguments being passed to that command. @example ~ $ echo hello hello @end example @cindex order of looking for commands @cindex command lookup order The command can be either an Elisp function or an external command. Eshell looks for the command in the following order: @enumerate @item As a command alias (@pxref{Aliases}) @item As a built-in command (@pxref{Built-ins}) @item As an external program @item As an ordinary Lisp function @end enumerate @vindex eshell-prefer-lisp-functions If you would prefer to use ordinary Lisp functions over external programs, set the option @code{eshell-prefer-lisp-functions} to @code{t}. This will swap the lookup order of the last two items. You can also force Eshell to look for a command as an external program by prefixing its name with @kbd{*}, like @code{*@var{command}} (@pxref{Built-ins}). You can also group command forms together into a subcommand with curly braces (@code{@{@}}). This lets you use the output of a subcommand as an argument to another command, or within control flow statements (@pxref{Control Flow}). @example ~ $ echo @{echo hello; echo there@} hellothere @end example @subsection Lisp form Lisp form looks like ordinary Emacs Lisp code, because that's what it is. As a result, you can use any syntax normally available to an Emacs Lisp program (@pxref{Top, , , elisp, The Emacs Lisp Reference Manual}). @example ~ $ (format "hello, %s" user-login-name) hello, user @end example In addition, you can @emph{combine} command forms and Lisp forms together into single statements, letting you use whatever form is the most convenient for expressing your intentions. @example ~ $ ls *.patch > (format-time-string "%F.log") @end example This command writes a list of all files matching the glob pattern @code{*.patch} (@pxref{Globbing}) to a file named @code{@var{current-date}.log} (@pxref{Redirection}). @node Arguments @section Arguments Ordinarily, Eshell parses arguments in command form as either strings or numbers, depending on what the parser thinks they look like. To specify an argument of some other data type, you can use a Lisp form (@pxref{Invocation}): @example ~ $ echo (list 1 2 3) (1 2 3) @end example When calling external commands (and many built-in Eshell commands, too) Eshell will flatten the arguments the command receives, so passing a list as an argument will ``spread'' the elements into multiple arguments: @example ~ $ printnl (list 1 2) 3 1 2 3 @end example @subsection Quoting and escaping As with other shells, you can escape special characters and spaces by prefixing the character with a backslash (@samp{\}), or by surrounding the string with apostrophes (@samp{''}) or double quotes (@samp{""}). This is needed especially for file names with special characters like pipe (@samp{|}), which could be part of remote file names. When you escape a character with @samp{\} outside of any quotes, the result is the literal character immediately following it. For example, @code{\$10} means the literal string @code{$10}. Inside of double quotes, most characters have no special meaning. However, @samp{\}, @samp{"}, and @samp{$} are still special; to escape them, use backslash as above. Thus, if the value of the variable @var{answer} is @code{42}, then @code{"The answer is: \"$@var{answer}\""} returns the string @code{The answer is: "42"}. However, when escaping characters with no special meaning, the result is the full @code{\@var{c}} sequence. For example, @code{"foo\bar"} means the literal string @code{foo\bar}. Additionally, when escaping a newline, the whole escape sequence is removed by the parser. This lets you continue commands across multiple lines: @example ~ $ echo "foo\ bar" foobar @end example Inside apostrophes, escaping works differently. All characters between the apostrophes have their literal meaning except @samp{'}, which ends the quoted string. To insert a literal apostrophe, you can use @samp{''}, so @code{'It''s me'} means the literal string @code{It's me}. When using expansions (@pxref{Expansion}) in an Eshell command, the result may potentially be of any data type. To ensure that the result is always a string, the expansion can be surrounded by double quotes. @subsection Special argument types In addition to strings and numbers, Eshell supports a number of special argument types. These let you refer to various other Emacs Lisp data types, such as lists or buffers. @table @code @item #'@var{lisp-form} This refers to the quoted Emacs Lisp form @var{lisp-form}. Though this looks similar to the ``sharp quote'' syntax for functions (@pxref{Special Read Syntax, , , elisp, The Emacs Lisp Reference Manual}), it instead corresponds to @code{quote} and can be used for any quoted form.@footnote{Eshell would interpret a bare apostrophe (@code{'}) as the start of a single-quoted string.} @item `@var{lisp-form} This refers to the backquoted Emacs Lisp form @var{lisp-form} (@pxref{Backquote, , , elisp, The Emacs Lisp Reference Manual}). As in Emacs Lisp, you can use @samp{,} and @samp{,@@} to refer to non-constant values. @item # @itemx #<@var{name}> Return the buffer named @var{name}. This is equivalent to @samp{$(get-buffer-create "@var{name}")} (@pxref{Creating Buffers, , , elisp, The Emacs Lisp Reference Manual}). @item # Return the process named @var{name}. This is equivalent to @samp{$(get-process "@var{name}")} (@pxref{Process Information, , , elisp, The Emacs Lisp Reference Manual}). @end table @node Built-ins @section Built-in commands Eshell provides a number of built-in commands, many of them implementing common command-line utilities, but enhanced for Eshell. (These built-in commands are just ordinary Lisp functions whose names begin with @code{eshell/}.) In order to call the external variant of a built-in command @code{foo}, you could call @code{*foo}. Usually, this should not be necessary; if the Eshell version of a command doesn't support a particular option, it will automatically invoke the external command for you. Some built-in Eshell commands provide enhanced versions of regular Emacs Lisp functions. If you want to call the regular Emacs Lisp version, you can write your command in Lisp form (@pxref{Invocation}). To call the regular version in command form, you can use @code{funcall} or @code{apply}, e.g.@: @samp{funcall #'compile "make all"} (@pxref{Calling Functions,,, elisp, GNU Emacs Lisp Reference Manual}). You can check what will be applied by the @code{which} command: @example ~ $ which ls eshell/ls is a compiled Lisp function in `em-ls.el' ~ $ which *ls /bin/ls @end example If you want to discard a given built-in command, you could declare an alias (@pxref{Aliases}). For example: @example @group ~ $ alias ls '*ls $@@*' ~ $ which ls ls is an alias, defined as "*ls $@@*" @end group @group ~ $ alias compile 'apply #''compile $*' ~ $ which compile ls is an alias, defined as "apply #'compile $*" @end group @end example Some of the built-in commands have different behavior from their external counterparts, and some have no external counterpart. Most of these will print a usage message when given the @code{--help} option. In some cases, a built-in command's behavior can be configured via user settings, some of which are mentioned below. For example, certain commands have two user settings to allow them to overwrite files without warning and to ensure that they always prompt before overwriting files. If both settings are non-@code{nil}, the commands always prompt. If both settings are @code{nil} (the default), the commands signal an error. Several commands observe the value of @code{eshell-default-target-is-dot}. If non-@code{nil}, then the default target for the commands @command{cp}, @command{mv}, and @command{ln} is the current directory. A few commands are wrappers for more niche Emacs features, and can be loaded as part of the eshell-xtra module. @xref{Extension modules}. @table @code @item . @cmindex . Source an Eshell file in the current environment. This is not to be confused with the command @command{source}, which sources a file in a subshell environment. @item addpath @cmindex addpath Adds a given path or set of paths to the PATH environment variable, or, with no arguments, prints the current paths in this variable. @item alias @cmindex alias Define an alias (@pxref{Aliases}). This adds it to the aliases file. @item basename @cmindex basename Return a file name without its directory. @item cat @cmindex cat Concatenate file contents into standard output. If in a pipeline, or if the file is not a regular file, directory, or symlink, then this command reverts to the system's definition of @command{cat}. @item cd @cmindex cd This command changes the current working directory. Usually, it is invoked as @kbd{cd @var{dir}} where @file{@var{dir}} is the new working directory. But @command{cd} knows about a few special arguments: @itemize @minus{} @item When it receives no argument at all, it changes to the home directory. @item Giving the command @kbd{cd -} changes back to the previous working directory (this is the same as @kbd{cd $-}). @item The command @kbd{cd =} shows the directory ring. Each line is numbered. @item With @kbd{cd =foo}, Eshell searches the directory ring for a directory matching the regular expression @samp{foo}, and changes to that directory. @item With @kbd{cd -42}, you can access the directory stack slots by number. @item If @code{eshell-cd-shows-directory} is non-@code{nil}, @command{cd} will report the directory it changes to. If @code{eshell-list-files-after-cd} is non-@code{nil}, then @command{ls} is called with any remaining arguments after changing directories. @end itemize @item clear @cmindex clear Scrolls the contents of the Eshell window out of sight, leaving a blank window. If provided with an optional non-@code{nil} argument, the scrollback contents are cleared instead. @item clear-scrollback @cmindex clear-scrollback Clear the scrollback contents of the Eshell window. Unlike the command @command{clear}, this command deletes content in the Eshell buffer. @item compile @cmindex compile Run an external command, sending its output to a compilation buffer if the command would output to the screen and is not part of a pipeline or subcommand. This is particularly useful when defining aliases, so that interactively, the output shows up in a compilation buffer, but you can still pipe the output elsewhere if desired. For example, if you have a grep-like command on your system, you might define an alias for it like so: @samp{alias mygrep 'compile --mode=grep-mode -- mygrep $*'}. @item cp @cmindex cp Copy a file to a new location or copy multiple files to the same directory. If @code{eshell-cp-overwrite-files} is non-@code{nil}, then @command{cp} will overwrite files without warning. If @code{eshell-cp-interactive-query} is non-@code{nil}, then @command{cp} will ask before overwriting anything. @item date @cmindex date Print the current local time as a human-readable string. This command is similar to, but slightly different from, the GNU Coreutils @command{date} command. @item diff @cmindex diff Compare files using Emacs's internal @code{diff} (not to be confused with @code{ediff}). @xref{Comparing Files, , , emacs, The GNU Emacs Manual}. If @code{eshell-plain-diff-behavior} is non-@code{nil}, then this command does not use Emacs's internal @code{diff}. This is the same as using @samp{alias diff '*diff $@@*'}. @item dirname @cmindex dirname Return the directory component of a file name. @item dirs @cmindex dirs Prints the directory stack. Directories can be added or removed from the stack using the commands @command{pushd} and @command{popd}, respectively. @item du @cmindex du Summarize disk usage for each file. @item echo @cmindex echo Echoes its input. By default, this prints in a Lisp-friendly fashion (so that the value is useful to a Lisp command using the result of @command{echo} as an argument). If a single argument is passed, @command{echo} prints that; if multiple arguments are passed, it prints a list of all the arguments; otherwise, it prints the empty string. If @code{eshell-plain-echo-behavior} is non-@code{nil}, @command{echo} will try to behave more like a plain shell's @command{echo}, printing each argument as a string, separated by a space. @item env @cmindex env Prints the current environment variables. Unlike in Bash, this command does not yet support running commands with a modified environment. @item eshell-debug @cmindex eshell-debug Toggle debugging information for Eshell itself. You can pass this command the argument @code{errors} to enable/disable Eshell trapping errors when evaluating commands, or the argument @code{commands} to show/hide command execution progress in the buffer @code{*eshell last cmd*}. @item exit @cmindex exit Exit Eshell and save the history. By default, this command kills the Eshell buffer, but if @code{eshell-kill-on-exit} is @code{nil}, then the buffer is merely buried instead. @item export @cmindex export Set environment variables using input like Bash's @command{export}, as in @samp{export @var{var1}=@var{val1} @var{var2}=@var{val2} @dots{}}. @item grep @cmindex grep @itemx agrep @cmindex agrep @itemx egrep @cmindex egrep @itemx fgrep @cmindex fgrep @itemx rgrep @cmindex rgrep @itemx glimpse @cmindex glimpse The @command{grep} commands are compatible with GNU @command{grep}, but use Emacs's internal @code{grep} instead. @xref{Grep Searching, , , emacs, The GNU Emacs Manual}. If @code{eshell-plain-grep-behavior} is non-@code{nil}, then these commands do not use Emacs's internal @code{grep}. This is the same as using @samp{alias grep '*grep $@@*'}, though this setting applies to all of the built-in commands for which you would need to create a separate alias. @item history @cmindex history Prints Eshell's input history. With a numeric argument @var{N}, this command prints the @var{N} most recent items in the history. @item info @cmindex info Browse the available Info documentation. This command is the same as the external @command{info} command, but uses Emacs's internal Info reader. @xref{Misc Help, , , emacs, The GNU Emacs Manual}. @item jobs @cmindex jobs List subprocesses of the Emacs process, if any, using the function @code{list-processes}. @item kill @cmindex kill Kill processes. Takes a PID or a process object and an optional signal specifier which can either be a number or a signal name. @item listify @cmindex listify Eshell version of @code{list}. Allows you to create a list using Eshell syntax, rather than Elisp syntax. For example, @samp{listify foo bar} and @code{("foo" "bar")} both evaluate to @code{("foo" "bar")}. @item ln @cmindex ln Create links to files. If @code{eshell-ln-overwrite-files} is non-@code{nil}, @command{ln} will overwrite files without warning. If @code{eshell-ln-interactive-query} is non-@code{nil}, then @command{ln} will ask before overwriting files. @item locate @cmindex locate Alias to Emacs's @code{locate} function, which simply runs the external @command{locate} command and parses the results. @xref{Dired and Find, , , emacs, The GNU Emacs Manual}. If @code{eshell-plain-locate-behavior} is non-@code{nil}, then Emacs's internal @code{locate} is not used. This is the same as using @samp{alias locate '*locate $@@*'}. @item ls @cmindex ls Lists the contents of directories. If @code{eshell-ls-use-colors} is non-@code{nil}, the contents of a directory is color-coded according to file type and status. These colors and the regexps used to identify their corresponding files can be customized via @w{@kbd{M-x customize-group @key{RET} eshell-ls @key{RET}}}. The user option @code{eshell-ls-date-format} determines how the date is displayed when using the @option{-l} option. The date is produced using the function @code{format-time-string} (@pxref{Time Parsing,,, elisp, GNU Emacs Lisp Reference Manual}). The user option @code{eshell-ls-initial-args} contains a list of arguments to include with any call to @command{ls}. For example, you can include the option @option{-h} to always use a more human-readable format. The user option @code{eshell-ls-default-blocksize} determines the default blocksize used when displaying file sizes with the option @option{-s}. @item make @cmindex make Run @command{make} through @code{compile} when run asynchronously (e.g., @samp{make &}). @xref{Compilation, , , emacs, The GNU Emacs Manual}. Otherwise call the external @command{make} command. @item man @cmindex man Display Man pages using the Emacs @code{man} command. @xref{Man Page, , , emacs, The GNU Emacs Manual}. @item mkdir @cmindex mkdir Make new directories. @item mv @cmindex mv Move or rename files. If @code{eshell-mv-overwrite-files} is non-@code{nil}, @command{mv} will overwrite files without warning. If @code{eshell-mv-interactive-query} is non-@code{nil}, @command{mv} will prompt before overwriting anything. @item occur @cmindex occur Alias to Emacs's @code{occur}. @xref{Other Repeating Search, , , emacs, The GNU Emacs Manual}. @item popd @cmindex popd Pop a directory from the directory stack and switch to a another place in the stack. @item printnl @cmindex printnl Print the arguments separated by newlines. @item pushd @cmindex pushd Push the current directory onto the directory stack, then change to another directory. If @code{eshell-pushd-dunique} is non-@code{nil}, then only unique directories will be added to the stack. If @code{eshell-pushd-dextract} is non-@code{nil}, then @samp{pushd +@var{n}} will pop the @var{n}th directory to the top of the stack. @item pwd @cmindex pwd Prints the current working directory. @item rm @cmindex rm Removes files, buffers, processes, or Emacs Lisp symbols, depending on the argument. If @code{eshell-rm-interactive-query} is non-@code{nil}, @command{rm} will prompt before removing anything. If @code{eshell-rm-removes-directories} is non-@code{nil}, then @command{rm} can also remove directories. Otherwise, @command{rmdir} is required. @item rmdir @cmindex rmdir Removes directories if they are empty. @item set @cmindex set Set variable values, using the function @code{set} like a command (@pxref{Setting Variables,,, elisp, GNU Emacs Lisp Reference Manual}). A variable name can be a symbol, in which case it refers to a Lisp variable, or a string, referring to an environment variable (@pxref{Arguments}). @item setq @cmindex setq Set variable values, using the function @code{setq} like a command (@pxref{Setting Variables,,, elisp, GNU Emacs Lisp Reference Manual}). @item source @cmindex source Source an Eshell file in a subshell environment. This is not to be confused with the command @command{.}, which sources a file in the current environment. @item time @cmindex time Show the time elapsed during a command's execution. @item umask @cmindex umask Set or view the default file permissions for newly created files and directories. @item unset @cmindex unset Unset one or more variables. As with @command{set}, a variable name can be a symbol, in which case it refers to a Lisp variable, or a string, referring to an environment variable. @item wait @cmindex wait Wait until a process has successfully completed. @item which @cmindex which Identify a command and its location. @item whoami @cmindex whoami Print the current user. This Eshell version of @command{whoami} supports Tramp. @end table @subsection Defining new built-in commands While Eshell can run Lisp functions directly as commands, it may be more convenient to provide a special built-in command for Eshell. Built-in commands are just ordinary Lisp functions designed to be called from Eshell. When defining an Eshell-specific version of an existing function, you can give that function a name starting with @code{eshell/} so that Eshell knows to use it. @defmac eshell-eval-using-options name macro-args options body@dots{} This macro processes a list of @var{macro-args} for the command @var{name} using a set of command line @var{options}. If the arguments are parsed successfully, it will store the resulting values in local symbols and execute @var{body}; any remaining arguments will be available in the locally let-bound variable @code{args}. The return value is the value of the last form in @var{body}. If an unknown option was passed in @var{macro-args} and an external command was specified (see below), this macro will start a process for that command and throw the tag @code{eshell-external} with the new process as its value. @var{options} should be a list beginning with one or more elements of the following form, with each element representing a particular command-line switch: @example (@var{short} @var{long} @var{value} @var{symbol} @var{help-string}) @end example @table @var @item short This element, if non-@code{nil}, should be a character to be used as a short switch, like @code{-@var{short}}. At least one of this element and @var{long} must be non-@code{nil}. @item long This element, if non-@code{nil}, should be a string to be used as a long switch, like @code{--@var{long}}. @item value This element is the value associated with the option. It can be either: @table @asis @item @code{t} The option needs a value to be specified after the switch. @item @code{nil} The option is given the value @code{t}. @item anything else The option is given the specified value. @end table @item symbol This element is the Lisp symbol that will be bound to @var{value}. If @var{symbol} is @code{nil}, specifying this switch will instead call @code{eshell-show-usage}, and so is appropriate for an option like @code{--help}. @item help-string This element is a documentation string for the option, which will be displayed when @code{eshell-show-usage} is invoked. @end table After the list of command-line switch elements, @var{options} can include additional keyword arguments to control how @code{eshell-eval-using-options} behaves. Some of these take arguments, while others don't. The recognized keywords are: @table @code @item :external @var{string} Specify @var{string} as an external command to run if there are unknown switches in @var{macro-args}. @item :usage @var{string} Set @var{string} as the initial part of the command's documentation string. It appears before the options are listed. @item :post-usage @var{string} Set @var{string} to be the (optional) trailing part of the command's documentation string. It appears after the list of options, but before the final part of the documentation about the associated external command, if there is one. @item :show-usage If present, then show the usage message if the command is called with no arguments. @item :preserve-args Normally, @code{eshell-eval-using-options} flattens the list of arguments in @var{macro-args} and converts each to a string. If this keyword is present, avoid doing that, instead preserving the original arguments. This is useful for commands which want to accept arbitrary Lisp objects. @item :parse-leading-options-only If present, do not parse dash or switch arguments after the first positional argument. Instead, treat them as positional arguments themselves. @end table For example, you could handle a subset of the options for the @code{ls} command like this: @example (eshell-eval-using-options "ls" macro-args '((?a nil nil show-all "show all files") (?I "ignore" t ignore-pattern "ignore files matching pattern") (nil "help" nil nil "show this help message") :external "ls" :usage "[OPTION]... [FILE]... List information about FILEs (the current directory by default).") ;; List the files in ARGS somehow... ) @end example @end defmac @node Variables @section Variables @vindex eshell-prefer-lisp-variables Since Eshell is a combination of an Emacs @acronym{REPL} and a command shell, it can refer to variables from two different sources: ordinary Emacs Lisp variables, as well as environment variables. By default, when using a variable in Eshell, it will first look in the list of built-in variables, then in the list of environment variables, and finally in the list of Lisp variables. If you would prefer to use Lisp variables over environment variables, you can set @code{eshell-prefer-lisp-variables} to @code{t}. You can set variables in a few different ways. To set a Lisp variable, you can use the command @samp{setq @var{name} @var{value}}, which works much like its Lisp counterpart (@pxref{Setting Variables, , , elisp, The Emacs Lisp Reference Manual}). To set an environment variable, use @samp{export @var{name}=@var{value}}. You can also use @samp{set @var{variable} @var{value}}, which sets a Lisp variable if @var{variable} is a symbol, or an environment variable if it's a string (@pxref{Arguments}). Finally, you can temporarily set environment variables for a single command with @samp{@var{name}=@var{value} @var{command} @dots{}}. This is equivalent to: @example @{ export @var{name}=@var{value} @var{command} @dots{} @} @end example @subsection Built-in variables Eshell knows a few built-in variables: @table @code @vindex $PWD @vindex $+ @item $PWD @itemx $+ This variable always contains the current working directory. @vindex $OLDPWD @vindex $- @item $OLDPWD @itemx $- This variable always contains the previous working directory (the current working directory from before the last @code{cd} command). When using @code{$-}, you can also access older directories in the directory ring via subscripting, e.g.@: @samp{$-[1]} refers to the working directory @emph{before} the previous one. @vindex $PATH @item $PATH This specifies the directories to search for executable programs. Its value is a string, separated by @code{":"} for Unix and GNU systems, and @code{";"} for MS systems. This variable is connection-aware, so whenever you change the current directory to a different host (@pxref{Remote Files, , , emacs, The GNU Emacs Manual}), the value will automatically update to reflect the search path on that host. @vindex $UID @item $UID This returns the effective @acronym{UID} for the current user. This variable is connection-aware, so when the current directory is remote, its value will be @acronym{UID} for the user associated with that remote connection. @vindex $GID @item $GID This returns the effective @acronym{GID} for the current user. Like @code{$UID}, this variable is connection-aware, so when the current directory is remote, its value will be @acronym{GID} for the user associated with that remote connection. @vindex $_ @item $_ This refers to the last argument of the last command. With a subscript, you can access any argument of the last command. For example, @samp{$_[1]} refers to the second argument of the last command (excluding the command name itself). To get all arguments of the last command, you can use an index range like @samp{$_[..]} (@pxref{Dollars Expansion}). @vindex $$ @item $$ This is the result of the last command. For external commands, it is @code{t} if the exit code was 0 or @code{nil} otherwise. @vindex eshell-lisp-form-nil-is-failure @vindex $? @item $? This variable contains the exit code of the last command. If the last command was a Lisp function, it is 0 for successful completion or 1 otherwise. If @code{eshell-lisp-form-nil-is-failure} is non-@code{nil}, then a command with a Lisp form, like @samp{(@var{command} @var{args}@dots{})}, that returns @code{nil} will set this variable to 2. @vindex $COLUMNS @vindex $LINES @item $COLUMNS @itemx $LINES These variables tell the number of columns and lines, respectively, that are currently visible in the Eshell window. They are both copied to the environment, so external commands invoked from Eshell can consult them to do the right thing. @vindex $INSIDE_EMACS @item $INSIDE_EMACS This variable indicates to external commands that they are being invoked from within Emacs so they can adjust their behavior if necessary. By default, its value is @code{@var{emacs-version},eshell}. Other parts of Emacs, such as Tramp, may add extra information to this value. @end table @xref{Aliases}, for the built-in variables @samp{$*}, @samp{$1}, @samp{$2}, @dots{}, in alias definitions. @node Aliases @section Aliases @findex eshell-read-aliases-list Aliases are commands that expand to a longer input line. For example, @command{ll} is a common alias for @code{ls -l}. To define this alias in Eshell, you can use the command invocation @kbd{alias ll 'ls -l $@@*'}; with this defined, running @samp{ll foo} in Eshell will actually run @samp{ls -l foo}. Aliases defined (or deleted) by the @command{alias} command are automatically written to the file named by @code{eshell-aliases-file}, which you can also edit directly. After doing so, use @w{@kbd{M-x eshell-read-aliases-list}} to load the edited aliases. Note that unlike aliases in Bash, arguments must be handled explicitly. Within aliases, you can use the special variables @samp{$*}, @samp{$0}, @samp{$1}, @samp{$2}, etc. to refer to the arguments passed to the alias. @table @code @vindex $* @item $* This expands to the list of arguments passed to the alias. For example, if you run @code{my-alias 1 2 3}, then @samp{$*} would be the list @code{(1 2 3)}. Note that since this variable is a list, using @samp{$*} in an alias will pass this list as a single argument to the aliased command. Therefore, when defining an alias, you should usually use @samp{$@@*} to pass all arguments along, splicing them into your argument list (@pxref{Dollars Expansion}). @vindex $0 @item $0 This expands to the name of the alias currently being executed. @vindex $1, $2, @dots{}, $9 @item $1, $2, @dots{}, $9 These variables expand to the nth argument (starting at 1) passed to the alias. This lets you selectively use an alias's arguments, so @kbd{alias mcd 'mkdir $1 && cd $1'} would cause @kbd{mcd foo} to create and switch to a directory called @samp{foo}. @end table @node Remote Access @section Remote Access @cmindex remote access Since Eshell uses Emacs facilities for most of its functionality, you can access remote hosts transparently. To connect to a remote host, simply @code{cd} into it: @example ~ $ cd /ssh:user@@remote: /ssh:user@@remote:~ $ @end example Additionally, built-in Eshell commands (@pxref{Built-ins}) and ordinary Lisp functions accept remote file names, so you can access them even without explicitly connecting first. For example, to print the contents of a remote file, you could type @samp{cat /ssh:user@@remote:~/output.log}. However, this means that when using built-in commands or Lisp functions from a remote directory, you must be careful about specifying absolute file names: @samp{cat /var/output.log} will always print the contents of your @emph{local} @file{/var/output.log}, even from a remote directory. If you find this behavior annoying, you can enable the optional electric forward slash module (@pxref{Electric forward slash}). @vindex eshell-explicit-remote-commands When running commands, you can also make them explicitly remote by prefixing the command name with a remote identifier, e.g.@: @samp{/ssh:user@@remote:whoami}. This runs the command @code{whoami} over the SSH connection for @code{user@@remote}, no matter your current directory. If you want to explicitly run a @emph{local} command even when in a remote directory, you can prefix the command name with @kbd{/:}, like @samp{/:whoami}. In either case, you can also specify the absolute path to the program, e.g.@: @samp{/ssh:user@@remote:/usr/bin/whoami}. To disable this syntax, set the option @code{eshell-explicit-remote-commands} to @code{nil}. @node History @section History @cmindex history The @samp{history} command shows all commands kept in the history ring as numbered list. If the history ring contains @code{eshell-history-size} commands, those numbers change after every command invocation, therefore the @samp{history} command shall be applied before using the expansion mechanism with history numbers. The n-th entry of the history ring can be applied with the @samp{!n} command. If @code{n} is negative, the entry is counted from the end of the history ring. @cindex event designators @findex eshell-expand-history-references When history event designators are enabled (by adding @code{eshell-expand-history-references} to @code{eshell-expand-input-functions}), @samp{!foo} expands to the last command beginning with @code{foo}, and @samp{!?foo} to the last command containing @code{foo}. The n-th argument of the last command beginning with @code{foo} is accessible by @code{!foo:n}. The history ring is loaded from a file at the start of every session, and written back to the file at the end of every session. The file path is specified in @code{eshell-history-file-name}. Unlike other shells, such as Bash, Eshell can not be configured to keep a history ring of a different size than that of the history file. Since the default buffer navigation and searching key-bindings are still present in the Eshell buffer, the commands for history navigation and searching are bound to different keys: @table @kbd @item M-r @itemx M-s History I-search. @item M-p @itemx M-n Previous and next history line. If there is anything on the input line when you run these commands, they will instead jump to the previous or next line that begins with that string. @end table @node Completion @section Completion Eshell uses the pcomplete package for programmable completion, similar to that of other command shells. Argument completion differs depending on the preceding command: for example, possible completions for @command{rmdir} are only directories, while @command{rm} completions can be directories @emph{and} files. Eshell provides predefined completions for the built-in functions and some common external commands, and you can define your own for any command. Eshell completion also works for Lisp forms and glob patterns. If the point is on a Lisp form, then @key{TAB} will behave similarly to completion in @code{elisp-mode} and @code{lisp-interaction-mode}. For glob patterns, the pattern will be removed from the input line, and replaced by the completion. If you want to see the entire list of possible completions (e.g. when it's below the @code{completion-cycle-threshold}), press @kbd{M-?}. @subsection pcomplete Pcomplete, short for programmable completion, is the completion library originally written for Eshell, but usable for command completion@footnote{Command completion, as opposed to code completion, which is beyond the scope of pcomplete.} in other modes. Completions are defined as functions (with @code{defun}) named @code{pcomplete/COMMAND}, where @code{COMMAND} is the name of the command for which this function provides completions; you can also name the function @code{pcomplete/MAJOR-MODE/COMMAND} to define completions for a specific major mode. @node Control Flow @section Control Flow Because Eshell commands can not (easily) be combined with Lisp forms, Eshell provides command-oriented control flow statements for convenience. Most of Eshell's control flow statements accept a @var{conditional}. This can take a few different forms. If @var{conditional} is a dollar expansion, the condition is satisfied if the result is a non-@code{nil} value. If @var{conditional} is a @samp{@{ @var{subcommand} @}} or @samp{(@var{lisp form})}, the condition is satisfied if the command's exit status is 0. @table @code @item if @var{conditional} @{ @var{true-commands} @} @itemx if @var{conditional} @{ @var{true-commands} @} @{ @var{false-commands} @} Evaluate @var{true-commands} if @var{conditional} is satisfied; otherwise, evaluate @var{false-commands}. @item unless @var{conditional} @{ @var{false-commands} @} @itemx unless @var{conditional} @{ @var{false-commands} @} @{ @var{true-commands} @} Evaluate @var{false-commands} if @var{conditional} is not satisfied; otherwise, evaluate @var{true-commands}. @item while @var{conditional} @{ @var{commands} @} Repeatedly evaluate @var{commands} so long as @var{conditional} is satisfied. @item until @var{conditional} @{ @var{commands} @} Repeatedly evaluate @var{commands} until @var{conditional} is satisfied. @item for @var{var} in @var{list}@dots{} @{ @var{commands} @} Iterate over each element of @var{list}, storing the element in @var{var} and evaluating @var{commands}. If @var{list} is not a list, treat it as a list of one element. If you specify multiple @var{lists}, this will iterate over each of them in turn. @end table @node Scripts @section Scripts @cmindex source @fnindex eshell-source-file You can run Eshell scripts much like scripts for other shells; the main difference is that since Eshell is not a system command, you have to run it from within Emacs. An Eshell script is simply a file containing a sequence of commands, as with almost any other shell script. Scripts are invoked from Eshell with @command{source}, or from anywhere in Emacs with @code{eshell-source-file}. @cmindex . If you wish to load a script into your @emph{current} environment, rather than in a subshell, use the @code{.} command. @node Expansion @chapter Expansion Expansion in a command shell is somewhat like macro expansion in macro parsers (such as @command{cpp} and @command{m4}), but in a command shell, they are less often used for constants, and usually for using variables and string manipulation.@footnote{Eshell has no string-manipulation expansions because the Elisp library already provides many functions for this.} For example, @code{$@var{var}} on a line expands to the value of the variable @var{var} when the line is executed. Expansions are usually passed as arguments, but may also be used as commands.@footnote{E.g., entering just @samp{$@var{var}} at the prompt is equivalent to entering the value of @var{var} at the prompt.} You can concatenate expansions with regular string arguments or even other expansions. In the simplest case, when the expansion returns a string value, this is equivalent to ordinary string concatenation; for example, @samp{$@{echo "foo"@}bar} returns @samp{foobar}. The exact behavior depends on the types of each value being concatenated: @table @asis @item both strings Concatenate both values together. @item one or both numbers Concatenate the string representation of each value, converting back to a number if possible. @item one or both (non-@code{nil}) lists Concatenate ``adjacent'' elements of each value (possibly converting back to a number as above). For example, @samp{$(list "a" "b")c} returns @samp{("a" "bc")}. @item anything else Concatenate the string representation of each value. @end table @menu * Dollars Expansion:: * Globbing:: * Argument Predication and Modification:: @end menu @node Dollars Expansion @section Dollars Expansion Eshell has different @code{$} expansion syntax from other shells. There are some similarities, but don't let these lull you into a false sense of familiarity. @table @code @item $@var{var} Expands to the value bound to @var{var}. This is the main way to use variables in command invocations. @item $"@var{var}" @item $'@var{var}' Expands to the value bound to @var{var}. This is useful to disambiguate the variable name when concatenating it with another value, such as @samp{$"@var{var}"-suffix}. @item $(@var{lisp}) Expands to the result of evaluating the S-expression @code{(@var{lisp})}. On its own, this is identical to just @code{(@var{lisp})}, but with the @code{$}, it can be used inside double quotes or within a longer string, such as @samp{/some/path/$(@var{lisp}).txt}. @item $@{@var{command}@} Returns the output of @command{@var{command}}, which can be any valid Eshell command invocation, and may even contain expansions. Similar to @code{$(@var{lisp})}, this is identical to @code{@{@var{command}@}} when on its own, but the @code{$} allows it to be used inside double quotes or as part of a string. Normally, the output is split line-by-line, returning a list (or the first element if there's only one line of output); if @code{eshell-convert-numeric-arguments} is non-@code{nil} and every line of output looks like a number, convert each line to a number. However, when this expansion is surrounded by double quotes, it returns the output as a single string instead. @item $<@var{command}> As with @samp{$@{@var{command}@}}, evaluates the Eshell command invocation @command{@var{command}}, but writes the output to a temporary file and returns the file name. @item $@var{expr}[@var{i...}] Expands to the @var{i}th element of the result of @var{expr}, an expression in one of the above forms listed here. If multiple indices are supplied, this will return a list containing the elements for each index. The exact behavior depends on the type of @var{expr}'s value: @table @asis @item a sequence Expands to the element at the (zero-based) index @var{i} of the sequence (@pxref{Sequences Arrays Vectors, , , elisp, The Emacs Lisp Reference Manual}). If @var{i} is negative, @var{i} counts from the end, so -1 refers to the last element of the sequence. If @var{i} is a range like @code{@var{start}..@var{end}}, this expands to a subsequence from the indices @var{start} to @var{end}, where @var{end} is excluded@footnote{This behavior is different from ranges in Bash (where both the start and end are included in the range), but matches the behavior of similar Emacs Lisp functions, like @code{substring} (@pxref{Creating Strings, , , elisp, The Emacs Lisp Reference Manual}).}. @var{start} and/or @var{end} can also be omitted, which is equivalent to the start and/or end of the entire list. For example, @samp{$@var{expr}[-2..]} expands to the last two values of @var{expr}. @item a string Split the string at whitespace, and then expand to the @var{i}th element of the resulting sequence. As above, @var{i} can be a range like @code{@var{start}..@var{end}}. @item an alist If @var{i} is a non-numeric value, expand to the value associated with the key @code{"@var{i}"} in the alist. For example, if @var{var} is @samp{(("dog" . "fido") ("cat" . "felix"))}, then @samp{$@var{var}[dog]} expands to @code{"fido"}. Otherwise, this behaves as with sequences; e.g., @samp{$@var{var}[0]} expands to @code{("dog" . "fido")}. @xref{Association List Type, Association Lists, , elisp, The Emacs Lisp Reference Manual}. @item anything else Signals an error. @end table Multiple sets of indices can also be specified. For example, if @var{var} is @samp{((1 2) (3 4))}, then @samp{$@var{var}[0][1]} will expand to @code{2}, i.e.@: the second element of the first list member (all indices are zero-based). @item $@var{expr}[@var{regexp} @var{i...}] As above (when @var{expr} expands to a string), but use @var{regexp} to split the string. @var{regexp} can be any form other than a number. For example, @samp{$@var{var}[: 0]} will return the first element of a colon-delimited string. @cindex length operator, in variable expansion @item $#@var{expr} This is the @dfn{length operator}. It expands to the length of the result of @var{expr}, an expression in one of the above forms. For example, @samp{$#@var{var}} returns the length of the variable @var{var} and @samp{$#@var{var}[0]} returns the length of the first element of @var{var}. Again, signals an error if the result of @var{expr} is not a string or a sequence. @cindex splice operator, in variable expansion @item $@@@var{expr} This is the @dfn{splice operator}. It ``splices'' the elements of @var{expr} (an expression of one of the above forms) into the resulting list of arguments, much like the @samp{,@@} marker in Emacs Lisp (@pxref{Backquote, , , elisp, The Emacs Lisp Reference Manual}). The elements of @var{expr} become arguments at the same level as the other arguments around it. For example, if @var{numbers} is the list @code{(1 2 3)}, then: @example @group ~ $ echo 0 $numbers (0 (1 2 3)) @end group @group ~ $ echo 0 $@@numbers (0 1 2 3) @end group @end example @end table @node Globbing @section Globbing Eshell's globbing syntax is very similar to that of Zsh (@pxref{Filename Generation, , , zsh, The Z Shell Manual}). Users coming from Bash can still use Bash-style globbing, as there are no incompatibilities. @vindex eshell-glob-case-insensitive Globs are case sensitive by default, except on MS-DOS/MS-Windows systems. You can control this behavior via the @code{eshell-glob-case-insensitive} option. @vindex eshell-glob-splice-results By default, Eshell expands the results of a glob as a sublist into the list of arguments. You can change this to splice the results in-place by setting @code{eshell-glob-splice-results} to a non-@code{nil} value. If you want to splice a glob in-place for just one use, you can use a subcommand form like @samp{$@@@{listify @var{my-glob}@}}. (Conversely, you can explicitly expand a glob as a sublist via @samp{$@{listify @var{my-glob}@}}.) You can further customize the syntax and behavior of globbing in Eshell via the Customize group @code{eshell-glob} (@pxref{Easy Customization, , , emacs, The GNU Emacs Manual}). @table @samp @item * Matches any string (including the empty string). For example, @samp{*.el} matches any file with the @file{.el} extension. @item ? Matches any single character. For example, @samp{?at} matches @file{cat} and @file{bat}, but not @file{goat}. @item **/ Matches zero or more subdirectories in a file name. For example, @samp{**/foo.el} matches @file{foo.el}, @file{bar/foo.el}, @file{bar/baz/foo.el}, etc. Note that this cannot be combined with any other patterns in the same file name segment, so while @samp{foo/**/bar.el} is allowed, @samp{foo**/bar.el} is not. @item ***/ Like @samp{**/}, but follows symlinks as well. @cindex character sets, in Eshell glob patterns @cindex character classes, in Eshell glob patterns @item [ @dots{} ] Defines a @dfn{character set} (@pxref{Regexps, , , emacs, The GNU Emacs Manual}). A character set matches characters between the two brackets; for example, @samp{[ad]} matches @file{a} and @file{d}. You can also include ranges of characters in the set by separating the start and end with @samp{-}. Thus, @samp{[a-z]} matches any lower-case @acronym{ASCII} letter. Note that, unlike in Zsh, character ranges are interpreted in the Unicode codepoint order, not in the locale-dependent collation order. Additionally, you can include @dfn{character classes} in a character set. A @samp{[:} and balancing @samp{:]} enclose a character class inside a character set. For instance, @samp{[[:alnum:]]} matches any letter or digit. @xref{Char Classes, , , elisp, The Emacs Lisp Reference Manual}, for a list of character classes. @cindex complemented character sets, in Eshell glob patterns @item [^ @dots{} ] Defines a @dfn{complemented character set}. This behaves just like a character set, but matches any character @emph{except} the ones specified. @cindex groups, in Eshell glob patterns @item ( @dots{} ) Defines a @dfn{group}. A group matches the pattern between @samp{(} and @samp{)}. Note that a group can only match a single file name component, so a @samp{/} inside a group will signal an error. @item @var{x}|@var{y} Inside of a group, matches either @var{x} or @var{y}. For example, @samp{e(m|sh)-*} matches any file beginning with @file{em-} or @file{esh-}. @item @var{x}# Matches zero or more copies of the glob pattern @var{x}. For example, @samp{fo#.el} matches @file{f.el}, @file{fo.el}, @file{foo.el}, etc. @item @var{x}## Matches one or more copies of the glob pattern @var{x}. Thus, @samp{fo#.el} matches @file{fo.el}, @file{foo.el}, @file{fooo.el}, etc. @item @var{x}~@var{y} Matches anything that matches the pattern @var{x} but not @var{y}. For example, @samp{[[:digit:]]#~4?} matches @file{1} and @file{12}, but not @file{42}. Note that unlike in Zsh, only a single @samp{~} operator can be used in a pattern, and it cannot be inside of a group like @samp{(@var{x}~@var{y})}. @end table @node Argument Predication and Modification @section Argument Predication and Modification @cindex argument predication @cindex argument modification Eshell supports @dfn{argument predication}, to filter elements of a glob, and @dfn{argument modification}, to manipulate argument values. These are similar to glob qualifiers in Zsh (@pxref{Glob Qualifiers, , , zsh, The Z Shell Manual}). Predicates and modifiers are introduced with @samp{(@var{filters})} after any list argument, where @var{filters} is a list of predicates or modifiers. For example, @samp{*(.)} expands to all regular files in the current directory and @samp{*(^@@:U^u0)} expands to all non-symlinks not owned by @code{root}, upper-cased. Some predicates and modifiers accept string parameters, such as @samp{*(u'@var{user}')}, which matches all files owned by @var{user}. These parameters must be surrounded by delimiters; you can use any of the following pairs of delimiters: @code{"@dots{}"}, @code{'@dots{}'}, @code{/@dots{}/}, @code{|@dots{}|}, @code{(@dots{})}, @code{[@dots{}]}, @code{<@dots{}>}, or @code{@{@dots{}@}}. You can customize the syntax and behavior of predicates and modifiers in Eshell via the Customize group @code{eshell-pred} (@pxref{Easy Customization, , , emacs, The GNU Emacs Manual}). @menu * Argument Predicates:: * Argument Modifiers:: @end menu @node Argument Predicates @subsection Argument Predicates You can use argument predicates to filter lists of file names based on various properties of those files. This is most useful when combined with globbing, but can be used on any list of files names. Eshell supports the following argument predicates: @table @asis @item @samp{/} Matches directories. @item @samp{.} @r{(Period)} Matches regular files. @item @samp{@@} Matches symbolic links. @item @samp{=} Matches sockets. @item @samp{p} Matches named pipes. @item @samp{%} Matches block or character devices. @item @samp{%b} Matches block devices. @item @samp{%c} Matches character devices. @item @samp{*} Matches regular files that can be executed by the current user. @item @samp{r} @item @samp{A} @item @samp{R} Matches files that are readable by their owners (@samp{r}), their groups (@samp{A}), or the world (@samp{R}). @item @samp{w} @item @samp{I} @item @samp{W} Matches files that are writable by their owners (@samp{w}), their groups (@samp{I}), or the world (@samp{W}). @item @samp{x} @item @samp{E} @item @samp{X} Matches files that are executable by their owners (@samp{x}), their groups (@samp{E}), or the world (@samp{X}). @item @samp{s} Matches files with the setuid flag set. @item @samp{S} Matches files with the setgid flag set. @item @samp{t} Matches files with the sticky bit set. @item @samp{U} Matches files owned by the current effective user ID. @item @samp{G} Matches files owned by the current effective group ID. @item @samp{l@option{[+-]}@var{n}} Matches files with @var{n} links. With @option{+} (or @option{-}), matches files with more than (or less than) @var{n} links, respectively. @item @samp{u@var{uid}} @item @samp{u'@var{user-name}'} Matches files owned by user ID @var{uid} or user name @var{user-name}. @item @samp{g@var{gid}} @item @samp{g'@var{group-name}'} Matches files owned by group ID @var{gid} or group name @var{group-name}. @item @samp{a@option{[@var{unit}]}@option{[+-]}@var{n}} @item @samp{a@option{[+-]}'@var{file}'} Matches files last accessed exactly @var{n} days ago. With @option{+} (or @option{-}), matches files accessed more than (or less than) @var{n} days ago, respectively. With @var{unit}, @var{n} is a quantity in that unit of time, so @samp{aw-1} matches files last accessed within one week. @var{unit} can be @samp{M} (30-day months), @samp{w} (weeks), @samp{h} (hours), @samp{m} (minutes), or @samp{s} (seconds). If @var{file} is specified instead, compare against the modification time of @file{file}. Thus, @samp{a-'hello.txt'} matches all files accessed after @file{hello.txt} was last accessed. @item @samp{m@option{[@var{unit}]}@option{[+-]}@var{n}} @item @samp{m@option{[+-]}'@var{file}'} Like @samp{a}, but examines modification time. @item @samp{c@option{[@var{unit}]}@option{[+-]}@var{n}} @item @samp{c@option{[+-]}'@var{file}'} Like @samp{a}, but examines status change time. @item @samp{L@option{[@var{unit}]}@option{[+-]}@var{n}} Matches files exactly @var{n} bytes in size. With @option{+} (or @option{-}), matches files larger than (or smaller than) @var{n} bytes, respectively. With @var{unit}, @var{n} is a quantity in that unit of size, so @samp{Lm+5} matches files larger than 5 MiB in size. @var{unit} can be one of the following (case-insensitive) characters: @samp{m} (megabytes), @samp{k} (kilobytes), or @samp{p} (512-byte blocks). @end table The @samp{^} and @samp{-} operators are not argument predicates themselves, but they modify the behavior of all subsequent predicates. @samp{^} inverts the meaning of subsequent predicates, so @samp{*(^RWX)} expands to all files whose permissions disallow the world from accessing them in any way (i.e., reading, writing to, or modifying them). When examining a symbolic link, @samp{-} applies the subsequent predicates to the link's target instead of the link itself. @node Argument Modifiers @subsection Argument Modifiers You can use argument modifiers to manipulate argument values. For example, you can sort lists, remove duplicate values, capitalize words, etc. All argument modifiers are prefixed by @samp{:}, so @samp{$exec-path(:h:u:x/^\/home/)} lists all of the unique parent directories of the elements in @code{exec-path}, excluding those in @file{/home}. @table @samp @item E Re-evaluates the value as an Eshell argument. For example, if @var{foo} is @code{"$@{echo hi@}"}, then the result of @samp{$foo(:E)} is @code{hi}. @item L Converts the value to lower case. @item U Converts the value to upper case. @item C Capitalizes the value. @item h Treating the value as a file name, gets the directory name (the ``head''). For example, @samp{foo/bar/baz.el(:h)} expands to @samp{foo/bar/}. @item t Treating the value as a file name, gets the base name (the ``tail''). For example, @samp{foo/bar/baz.el(:t)} expands to @samp{baz.el}. @item e Treating the value as a file name, gets the final extension of the file, excluding the dot. For example, @samp{foo.tar.gz(:e)} expands to @code{gz}. @item r Treating the value as a file name, gets the file name excluding the final extension. For example, @samp{foo/bar/baz.tar.gz(:r)} expands to @samp{foo/bar/baz.tar}. @item q Marks that the value should be interpreted by Eshell literally, so that any special characters like @samp{$} no longer have any special meaning. @item s/@var{pattern}/@var{replace}/ Replaces the first instance of the regular expression @var{pattern} with @var{replace}. Signals an error if no match is found. As with other modifiers taking string parameters, you can use different delimiters to separate @var{pattern} and @var{replace}, such as @samp{s'@dots{}'@dots{}'}, @samp{s[@dots{}][@dots{}]}, or even @samp{s[@dots{}]/@dots{}/}. @item gs/@var{pattern}/@var{replace}/ Replaces all instances of the regular expression @var{pattern} with @var{replace}. @item i/@var{pattern}/ Filters a list of values to include only the elements matching the regular expression @var{pattern}. @item x/@var{pattern}/ Filters a list of values to exclude all the elements matching the regular expression @var{pattern}. @item S @item S/@var{pattern}/ Splits the value using the regular expression @var{pattern} as a delimiter. If @var{pattern} is omitted, split on spaces. @item j @item j/@var{delim}/ Joins a list of values, inserting the string @var{delim} between each value. If @var{delim} is omitted, use a single space as the delimiter. @item o Sorts a list of strings in ascending lexicographic order, comparing pairs of characters according to their character codes (@pxref{Text Comparison, , , elisp, The Emacs Lisp Reference Manual}). @item O Sorts a list of strings in descending lexicographic order. @item u Removes any duplicate elements from a list of values. @item R Reverses the order of a list of values. @end table @node Input/Output @chapter Input/Output Since Eshell does not communicate with a terminal like most command shells, IO is a little different. @menu * Visual Commands:: * Redirection:: * Pipelines:: @end menu @node Visual Commands @section Visual Commands If you try to run programs from within Eshell that are not line-oriented, such as programs that use ncurses, you will just get garbage output, since the Eshell buffer is not a terminal emulator. Eshell solves this problem by running such programs in Emacs's terminal emulator. Programs that need a terminal to display output properly are referred to in this manual as ``visual commands'', because they are not simply line-oriented. You must tell Eshell which commands are visual, by adding them to @code{eshell-visual-commands}; for commands that are visual for only certain @emph{sub}-commands -- e.g., @samp{git log} but not @samp{git status} -- use @code{eshell-visual-subcommands}; and for commands that are visual only when passed certain options, use @code{eshell-visual-options}. Caution: Some tools such as Git use the pager @samp{less} by default to paginate their output but call it with its @samp{-F} option. This option causes @samp{less} to echo the output instead of paginating it if the output is less than one page long. This causes undesirable behavior if, e.g., @samp{git diff}, is defined as a visual subcommand. It'll work if the output is big enough and fail if it is less than one page long. If that occurs to you, search for configuration options for calling @samp{less} without the @samp{-F} option. For Git, you can do that using @samp{git config --global core.pager 'less -+F'}. @vindex eshell-destroy-buffer-when-process-dies If you want the buffers created by visual programs killed when the program exits, customize the variable @code{eshell-destroy-buffer-when-process-dies} to a non-@code{nil} value; the default is @code{nil}. @node Redirection @section Redirection Redirection in Eshell is similar to that of other command shells. You can use the output redirection operators @code{>} and @code{>>}, but there is not yet any support for input redirection. In the cases below, @var{fd} specifies the file descriptor to redirect; if not specified, file descriptor 1 (standard output) will be used by default. @table @code @item > @var{dest} @itemx @var{fd}> @var{dest} Redirect output to @var{dest}, overwriting its contents with the new output. @item >> @var{dest} @itemx @var{fd}>> @var{dest} Redirect output to @var{dest}, appending it to the existing contents of @var{dest}. @item >>> @var{dest} @itemx @var{fd}>>> @var{dest} Redirect output to @var{dest}, inserting it at the current mark if @var{dest} is a buffer, at the beginning of the file if @var{dest} is a file, or otherwise behaving the same as @code{>>}. @item &> @var{dest} @itemx >& @var{dest} Redirect both standard output and standard error to @var{dest}, overwriting its contents with the new output. @item &>> @var{dest} @itemx >>& @var{dest} Redirect both standard output and standard error to @var{dest}, appending it to the existing contents of @var{dest}. @item &>>> @var{dest} @itemx >>>& @var{dest} Redirect both standard output and standard error to @var{dest}, inserting it like with @code{>>> @var{dest}}. @item >&@var{other-fd} @itemx @var{fd}>&@var{other-fd} Duplicate the file descriptor @var{other-fd} to @var{fd} (or 1 if unspecified). The order in which this is used is significant, so @example @var{command} > @var{file} 2>&1 @end example redirects both standard output and standard error to @var{file}, whereas @example @var{command} 2>&1 > @var{file} @end example only redirects standard output to @var{file} (and sends standard error to the display via standard output's original handle). @end table Eshell supports redirecting output to several different types of targets: @itemize @bullet @item files, including virtual targets (see below); @item buffers (@pxref{Buffers, , , elisp, GNU Emacs Lisp Reference Manual}); @item markers (@pxref{Markers, , , elisp, GNU Emacs Lisp Reference Manual}); @item processes (@pxref{Processes, , , elisp, GNU Emacs Lisp Reference Manual}); and @item symbols (@pxref{Symbols, , , elisp, GNU Emacs Lisp Reference Manual}). @end itemize @subsection Virtual Targets Virtual targets are mapping of device names to functions. Eshell comes with four virtual devices: @table @file @item /dev/null Does nothing with the output passed to it. @item /dev/eshell Writes the text passed to it to the display. @item /dev/kill Adds the text passed to it to the kill ring. @item /dev/clip Adds the text passed to it to the clipboard. @end table @vindex eshell-virtual-targets You can, of course, define your own virtual targets. They are defined by adding a list of the form @samp{("/dev/name" @var{function} @var{mode})} to @code{eshell-virtual-targets}. The first element is the device name; @var{function} may be either a lambda or a function name. If @var{mode} is @code{nil}, then the function is the output function; if it is non-@code{nil}, then the function is passed the redirection mode as a symbol--@code{overwrite} for @code{>}, @code{append} for @code{>>}, or @code{insert} for @code{>>>}--and the function is expected to return the output function. The output function is called once on each line of output until @code{nil} is passed, indicating end of output. @node Pipelines @section Pipelines As with most other shells, Eshell supports pipelines to pass the output of one command the input of the next command. You can send the standard output of one command to the standard input of another using the @code{|} operator. For example, @example ~ $ echo hello | rev olleh @end example To send both the standard output and standard error of a command to another command's input, you can use the @code{|&} operator. @subsection Running Shell Pipelines Natively When constructing shell pipelines that will move a lot of data, it is a good idea to bypass Eshell's own pipelining support and use the operating system shell's instead. This is especially relevant when executing commands on a remote machine using Eshell's Tramp integration: using the remote shell's pipelining avoids copying the data which will flow through the pipeline to local Emacs buffers and then right back again. Eshell recognizes a special syntax to make it easier to convert pipelines so as to bypass Eshell's pipelining. Prefixing at least one @code{|}, @code{<} or @code{>} with an asterisk marks a command as intended for the operating system shell. To make it harder to invoke this functionality accidentally, it is also required that the asterisk be preceded by whitespace or located at the start of input. For example, @example cat *.ogg *| my-cool-decoder >file @end example Executing this command will not copy all the data in the *.ogg files, nor the decoded data, into Emacs buffers, as would normally happen. The command is interpreted as extending up to the next @code{|} character which is not preceded by an unescaped asterisk following whitespace, or the end of the input if there is no such character. Thus, all @code{<} and @code{>} redirections occurring before the next asterisk-unprefixed @code{|} are implicitly prefixed with (whitespace and) asterisks. An exception is that Eshell-specific redirects right at the end of the command are excluded. This allows input like this: @example foo *| baz ># @end example @noindent which is equivalent to input like this: @example sh -c "foo | baz" ># @end example @node Extension modules @chapter Extension modules Eshell provides a facility for defining extension modules so that they can be disabled and enabled without having to unload and reload them, and to provide a common parent Customize group for the modules.@footnote{ERC provides a similar module facility.} @menu * Optional modules:: * Writing a module:: @end menu @node Optional modules @section Optional modules In addition to the various modules enabled by default (documented above), Eshell provides several other modules which are @emph{not} enabled by default. If you want to enable these, you can add them to @code{eshell-modules-list}. @menu * Key rebinding:: * Smart scrolling:: * Electric forward slash:: * Tramp extensions:: * Extra built-in commands:: @end menu @node Key rebinding @subsection Key rebinding This module allows for special keybindings that only take effect while the point is in a region of input text. The default keybindings mimic the bindings used in other shells when the user is editing new input text. To enable this module, add @code{eshell-rebind} to @code{eshell-modules-list}. For example, it binds @kbd{C-u} to kill the current input text and @kbd{C-w} to @code{backward-kill-word}. If the history module is enabled, it also binds @kbd{C-p} and @kbd{C-n} to move through the input history. If @code{eshell-confine-point-to-input} is non-@code{nil}, this module prevents certain commands from causing the point to leave the input area, such as @code{backward-word}, @code{previous-line}, etc. @node Smart scrolling @subsection Smart scrolling This module combines the facility of normal, modern shells with some of the edit/review concepts inherent in the design of Plan 9's 9term. To enable it, add @code{eshell-smart} to @code{eshell-modules-list}. @itemize @bullet @item When you invoke a command, it is assumed that you want to read the output of that command. @item If the output is not what you wanted, it is assumed that you will want to edit, and then resubmit a refined version of that command. @item If the output is valid, pressing any self-inserting character key will jump to end of the buffer and insert that character, in order to begin entry of a new command. @item If you show an intention to edit the previous command -- by moving around within it -- then the next self-inserting characters will insert *there*, instead of at the bottom of the buffer. @item If you show an intention to review old commands, such as @kbd{M-p} or @kbd{M-r}, point will jump to the bottom of the buffer before invoking that command. @item If none of the above has happened yet (i.e.@: your point is just sitting on the previous command), you can use @kbd{SPC} and @kbd{BACKSPACE} (or @kbd{Delete}) to page forward and backward @emph{through the output of the last command only}. It will constrain the movement of the point and window so that the maximum amount of output is always displayed at all times. @item While output is being generated from a command, the window will be constantly reconfigured (until it would otherwise make no difference) in order to always show you the most output from the command possible. This happens if you change window sizes, scroll, etc. @end itemize @node Electric forward slash @subsection Electric forward slash To help with supplying absolute file name arguments to remote commands, you can add the @code{eshell-elecslash} module to @code{eshell-modules-list}. Then, typing @kbd{/} as the first character of a command line argument will automatically insert the Tramp prefix @file{/method:host:}. If this is not what you want (e.g.@: because you want to refer to a local file), you can type another @kbd{/} to undo the automatic insertion. Typing @kbd{~/} also inserts the Tramp prefix. The automatic insertion applies only when @code{default-directory} is remote and the command is a Lisp function. In particular, typing arguments to external commands doesn't insert the prefix. The result is that in most cases of supplying absolute file name arguments to commands you should see the Tramp prefix inserted automatically only when that's what you'd reasonably expect. This frees you from having to keep track of whether commands are Lisp functions or external when typing command line arguments. For example, suppose you execute @example cd /ssh:root@@example.com: find /etc -name "*gnu*" @end example @noindent and in reviewing the output of the command, you identify a file @file{/etc/gnugnu} that should be moved somewhere else. So you type @example mv /etc/gnugnu /tmp @end example @noindent But since @command{mv} refers to the local Lisp function @code{eshell/mv}, not a remote shell command, to say this is to request that the local file @file{/etc/gnugnu} be moved into the local @file{/tmp} directory. After you add @code{eshell-elecslash} to @code{eshell-modules-list}, then when you type the above @command{mv} invocation you will get the following input, which is what you intended: @example mv /ssh:root@@example.com:/etc/gnugnu /ssh:root@@example.com:/tmp @end example The code that determines whether or not the Tramp prefix should be inserted uses simple heuristics. A limitation of the current implementation is that it inspects whether only the command at the very beginning of input is a Lisp function or external program. Thus when chaining commands with the operators @code{&&}, @code{||}, @code{|} and @code{;}, the electric forward slash is active only within the first command. @node Tramp extensions @subsection Tramp extensions This module adds built-in commands that use Tramp to handle running other commands as different users, replacing the corresponding external commands. To enable it, add @code{eshell-tramp} to @code{eshell-modules-list}. @table @code @item su @cmindex su @itemx sudo @cmindex sudo @itemx doas @cmindex doas Uses TRAMP's @command{su}, @command{sudo}, or @command{doas} method (@pxref{Inline methods, , , tramp, The Tramp Manual}) to run a command via @command{su}, @command{sudo}, or @command{doas}. @end table @node Extra built-in commands @subsection Extra built-in commands This module provides several extra built-in commands documented below, primarily for working with lists of strings in Eshell. To enable it, add @code{eshell-xtra} to @code{eshell-modules-list}. @table @code @item count @cmindex count A wrapper around the function @code{cl-count} (@pxref{Searching Sequences,,, cl, GNU Emacs Common Lisp Emulation}). This command can be used for comparing lists of strings. @item expr @cmindex expr An implementation of @command{expr} using the Calc package. @xref{Top,,, calc, The GNU Emacs Calculator}. @item ff @cmindex ff Shorthand for the the function @code{find-name-dired} (@pxref{Dired and Find, , , emacs, The Emacs Editor}). @item gf @cmindex gf Shorthand for the the function @code{find-grep-dired} (@pxref{Dired and Find, , , emacs, The Emacs Editor}). @item intersection @cmindex intersection A wrapper around the function @code{cl-intersection} (@pxref{Lists as Sets,,, cl, GNU Emacs Common Lisp Emulation}). This command can be used for comparing lists of strings. @item mismatch @cmindex mismatch A wrapper around the function @code{cl-mismatch} (@pxref{Searching Sequences,,, cl, GNU Emacs Common Lisp Emulation}). This command can be used for comparing lists of strings. @item set-difference @cmindex set-difference A wrapper around the function @code{cl-set-difference} (@pxref{Lists as Sets,,, cl, GNU Emacs Common Lisp Emulation}). This command can be used for comparing lists of strings. @item set-exclusive-or @cmindex set-exclusive-or A wrapper around the function @code{cl-set-exclusive-or} (@pxref{Lists as Sets,,, cl, GNU Emacs Common Lisp Emulation}). This command can be used for comparing lists of strings. @item substitute @cmindex substitute A wrapper around the function @code{cl-substitute} (@pxref{Sequence Functions,,, cl, GNU Emacs Common Lisp Emulation}). This command can be used for comparing lists of strings. @item union @cmindex union A wrapper around the function @code{cl-union} (@pxref{Lists as Sets,,, cl, GNU Emacs Common Lisp Emulation}). This command can be used for comparing lists of strings. @end table @node Writing a module @section Writing a module An Eshell module is defined the same as any other library but with two additional requirements: first, the module's source file should be named @file{em-@var{name}.el}; second, the module must define an autoloaded Customize group (@pxref{Customization, , , elisp, The Emacs Lisp Reference Manual}) with @code{eshell-module} as the parent group. In order to properly autoload this group, you should wrap its definition with @code{progn} as follows: @example ;;;###autoload (progn (defgroup eshell-my-module nil "My module lets you do very cool things in Eshell." :tag "My module" :group 'eshell-module)) @end example Even if you don't have any Customize options in your module, you should still define the group so that Eshell can include your module in the Customize interface for @code{eshell-modules-list}. @node Bugs and ideas @chapter Bugs and ideas @cindex reporting bugs and ideas @cindex bugs, how to report them @cindex author, how to reach @cindex email to the author @cindex FAQ @cindex problems, list of common @cindex known bugs @cindex bugs, known If you find a bug or misfeature, don't hesitate to report it, by using @kbd{M-x report-emacs-bug}. The same applies to feature requests. It is best to discuss one thing at a time. If you find several unrelated bugs, please report them separately. @ignore If you have ideas for improvements, or if you have written some extensions to this package, I would like to hear from you. I hope you find this package useful! @end ignore Below is a list of some known problems with Eshell version 2.4.2, which is the version included with Emacs 22. @table @asis @item Differentiate between aliases and functions Allow for a Bash-compatible syntax, such as: @example alias arg=blah function arg () @{ blah $@@* @} @end example @item Pcomplete sometimes gets stuck You press @key{TAB}, but no completions appear, even though the directory has matching files. This behavior is rare. @item @samp{grep python $} doesn't work, but using @samp{*grep} does This happens because the @code{grep} Lisp function returns immediately, and then the asynchronous @command{grep} process expects to examine the temporary file, which has since been deleted. @item Backspace doesn't scroll back after continuing (in smart mode) Hitting space during a process invocation, such as @command{make}, will cause it to track the bottom of the output; but backspace no longer scrolls back. @item Menu support was removed, but never put back @item If an interactive process is currently running, @kbd{M-!} doesn't work @item Use a timer instead of @code{sleep-for} when killing child processes @item Piping to a Lisp function is not supported Make it so that the Lisp command on the right of the pipe is repeatedly called with the input strings as arguments. This will require changing @code{eshell-do-pipelines} to handle non-process targets. @item Input redirection is not supported See the above entry. @item Problem running @command{less} without arguments on Windows The result in the Eshell buffer is: @example Spawning child process: invalid argument @end example Also a new @command{less} buffer was created with nothing in it@dots{} (presumably this holds the output of @command{less}). If @command{less.exe} is invoked from the Eshell command line, the expected output is written to the buffer. Note that this happens on NT-Emacs 20.6.1 on Windows 2000. The term.el package and the supplied shell both use the @command{cmdproxy} program for running shells. @item Implement @samp{-r}, @samp{-n} and @samp{-s} switches for @command{cp} @item @samp{mv @var{dir} @var{file}.tar} does not remove directories This is because the tar option --remove-files doesn't do so. Should it be Eshell's job? @item Bind @code{standard-output} and @code{standard-error} This would be so that if a Lisp function calls @code{print}, everything will happen as it should (albeit slowly). @item Make sure syntax table is correct in Eshell mode So that @kbd{M-@key{DEL}} acts in a predictable manner, etc. @item Allow all Eshell buffers to share the same history and list-dir @item Split up parsing of text after @samp{$} in @file{esh-var.el} Make it similar to the way that @file{esh-arg.el} is structured. Then add parsing of @samp{$[?\n]}. @item After pressing @kbd{M-@key{RET}}, redisplay before running the next command @item Argument predicates and modifiers should work anywhere in a path @example /usr/local/src/editors/vim $ vi **/CVS(/)/Root(.) Invalid regexp: "Unmatched ( or \\(" @end example With @command{zsh}, the glob above expands to all files named @file{Root} in directories named @file{CVS}. @item Typing @samp{echo $@{locate locate@}/bin@key{TAB}} results in a Lisp error Perhaps it should interpolate all permutations, and make that the globbing result, since otherwise hitting return here will result in ``(list of filenames)/bin'', which is never valuable. Thus, one could @command{cat} only C backup files by using @samp{ls $@{identity *.c@}~}. In that case, having an alias command name @command{glob} for @command{identity} would be useful. @item Once symbolic mode is supported for @command{umask}, implement @command{chmod} in Lisp @item Create @code{eshell-expand-file-name} This would use a data table to transform things such as @samp{~+}, @samp{...}, etc. @item Abstract @file{em-smart.el} into @file{smart-scroll.el} It only really needs: to be hooked onto the output filter and the pre-command hook, and to have the input-end and input-start markers. And to know whether the last output group was ``successful.'' @item Allow for fully persisting the state of Eshell This would include: variables, history, buffer, input, dir stack, etc. @item Implement D as an argument predicate It means that files beginning with a dot should be included in the glob match. @item A comma in a predicate list should mean OR At the moment, this is not supported. @item @samp{(+ @key{RET} @key{SPC} @key{TAB}} does not cause @code{indent-according-to-mode} to occur @item Create @code{eshell-auto-accumulate-list} This is a list of commands for which, if the user presses @kbd{RET}, the text is staged as the next Eshell command, rather than being sent to the current interactive process. @item Display file and line number if an error occurs in a script @item @command{wait} doesn't work with process ids at the moment @item Enable the direct-to-process input code in @file{em-term.el} @item Problem with repeating @samp{echo $@{find /tmp@}} With smart display active, if @kbd{RET} is held down, after a while it can't keep up anymore and starts outputting blank lines. It only happens if an asynchronous process is involved@dots{} I think the problem is that @code{eshell-send-input} is resetting the input target location, so that if the asynchronous process is not done by the time the next @kbd{RET} is received, the input processor thinks that the input is meant for the process; which, when smart display is enabled, will be the text of the last command line! That is a bug in itself. In holding down @kbd{RET} while an asynchronous process is running, there will be a point in between termination of the process, and the running of @code{eshell-post-command-hook}, which would cause @code{eshell-send-input} to call @code{eshell-copy-old-input}, and then process that text as a command to be run after the process. Perhaps there should be a way of killing pending input between the death of the process, and the @code{post-command-hook}. @item Allow for a more aggressive smart display mode Perhaps toggled by a command, that makes each output block a smart display block. @item Create more meta variables @table @samp @item $! The reason for the failure of the last disk command, or the text of the last Lisp error. @item $= A special associate array, which can take references of the form @samp{$=[REGEXP]}. It indexes into the directory ring. @end table @item Eshell scripts can't execute in the background @item Support zsh's ``Parameter Expansion'' syntax, i.e., @samp{$@{@var{name}:-@var{val}@}} @item Create a mode @code{eshell-browse} It would treat the Eshell buffer as an outline. Collapsing the outline hides all of the output text. Collapsing again would show only the first command run in each directory @item Allow other revisions of a file to be referenced using @samp{file@{rev@}} This would be expanded by @code{eshell-expand-file-name} (see above). @item Print ``You have new mail'' when the ``Mail'' icon is turned on @item Implement @kbd{M-|} for Eshell @item Implement input redirection If it's a Lisp function, input redirection implies @command{xargs} (in a way@dots{}). If input redirection is added, also update the @code{file-name-quote-list}, and the delimiter list. @item Allow @samp{#<@var{word} @var{arg}>} as a generic syntax With the handling of @emph{word} specified by an @code{eshell-special-alist}. @item In @code{eshell-eval-using-options}, allow a @code{:complete} tag It would be used to provide completion rules for that command. Then the macro will automagically define the completion function. @item For @code{eshell-command-on-region}, apply redirections to the result So that @samp{+ > 'blah} would cause the result of the @code{+} (using input from the current region) to be inserting into the symbol @code{blah}. If an external command is being invoked, the input is sent as standard input, as if a @samp{cat |} had been invoked. If a Lisp command, or an alias, is invoked, then if the line has no newline characters, it is divided by whitespace and passed as arguments to the Lisp function. Otherwise, it is divided at the newline characters. Thus, invoking @code{+} on a series of numbers will add them; @code{min} would display the smallest figure, etc. @item Write @code{eshell-script-mode} as a minor mode It would provide syntax, abbrev, highlighting and indenting support like @code{emacs-lisp-mode} and @code{shell-mode}. @item In the history mechanism, finish the Bash-style support This means @samp{!n}, @samp{!#}, @samp{!:%}, and @samp{!:1-} as separate from @samp{!:1*}. @item Support the -n command line option for @command{history} @item Implement @command{fc} in Lisp @item Specifying a frame as a redirection target should imply the currently active window's buffer @item Implement @samp{>@var{func-or-func-list}} This would allow for an ``output translators'', that take a function to modify output with, and a target. Devise a syntax that works well with pipes, and can accommodate multiple functions (i.e., @samp{>'(upcase regexp-quote)} or @samp{>'upcase}). @item Allow Eshell to read/write to/from standard input and output This would be optional, rather than always using the Eshell buffer. This would allow it to be run from the command line (perhaps). @item Write a @command{help} command It would call subcommands with @option{--help}, or @option{-h} or @option{/?}, as appropriate. @item Implement @command{stty} in Lisp @item Support @command{rc}'s matching operator, e.g., @samp{~ (@var{list}) @var{regexp}} @item Implement @command{bg} and @command{fg} as editors of @code{eshell-process-list} Using @command{bg} on a process that is already in the background does nothing. Specifying redirection targets replaces (or adds) to the list current being used. @item Have @command{jobs} print only the processes for the current shell @item How can Eshell learn if a background process has requested input? @item Make a customizable syntax table for redirects This way, the user could change it to use rc syntax: @samp{>[2=1]}. @item Copy ANSI code handling from @file{term.el} into @file{em-term.el} Make it possible for the user to send char-by-char to the underlying process. Ultimately, I should be able to move away from using term.el altogether, since everything but the ANSI code handling is already part of Eshell. Then, things would work correctly on MS-Windows as well (which doesn't have @file{/bin/sh}, although @file{term.el} tries to use it). @item Make the shell spawning commands be visual That is, make (@command{su}, @command{bash}, @command{ssh}, etc.)@: be part of @code{eshell-visual-commands}. The only exception is if the shell is being used to invoke a single command. Then, the behavior should be based on what that command is. @item Create a smart viewing command named @command{open} This would search for some way to open its argument (similar to opening a file in the Windows Explorer). @item Alias @command{read} to be the same as @command{open}, only read-only @item Write a @command{tail} command which uses @code{view-file} It would move point to the end of the buffer, and then turns on auto-revert mode in that buffer at frequent intervals---and a @command{head} alias which assumes an upper limit of @code{eshell-maximum-line-length} characters per line. @item Make @command{dgrep} load @code{dired}, mark everything, then invoke @code{dired-do-search} @item Write @file{mesh.c} This would run Emacs with the appropriate arguments to invoke Eshell only. That way, it could be listed as a login shell. @item Use an intangible @code{PS2} string for multi-line input prompts @item Auto-detect when a command is visual, by checking @code{TERMCAP} usage @item The first keypress after @kbd{M-x watson} triggers @code{eshell-send-input} @item Make @kbd{/} more electric @noindent so that it automatically expands and corrects file names, beyond what the @code{em-elecslash} module is able to do. Or make file name completion for Pcomplete auto-expand @samp{/u/i/std@key{TAB}} to @samp{/usr/include/std@key{TAB}}. @item Write the @command{pushd} stack to disk along with @code{last-dir-ring} @item Add options to @code{eshell/cat} which would allow it to sort and uniq @item Implement @command{wc} in Lisp Add support for counting sentences, paragraphs, pages, etc. @item Once piping is added, implement @command{sort} and @command{uniq} in Lisp @item Implement @command{touch} in Lisp @item Implement @command{comm} in Lisp @item Implement an @command{epatch} command in Lisp This would call @code{ediff-patch-file}, or @code{ediff-patch-buffer}, depending on its argument. @item Have an option such that @samp{ls -l} generates a dired buffer @item Write a version of @command{xargs} based on command rewriting That is, @samp{find X | xargs Y} would be indicated using @samp{Y $@{find X@}}. Maybe @code{eshell-do-pipelines} could be changed to perform this on-thy-fly rewriting. @item Write an alias for @command{less} that brings up a @code{view-mode} buffer Such that the user can press @key{SPC} and @key{DEL}, and then @kbd{q} to return to Eshell. It would be equivalent to: @samp{X > #; view-buffer #}. @item Make @code{eshell-mode} as much a full citizen as @code{shell-mode} Everywhere in Emacs where @code{shell-mode} is specially noticed, add @code{eshell-mode} there. @item Permit the umask to be selectively set on a @command{cp} target @item @kbd{M-@key{RET}} during a long command (using smart display) doesn't work Since it keeps the cursor up where the command was invoked. @end table @node GNU Free Documentation License @appendix GNU Free Documentation License @include doclicense.texi @node Concept Index @unnumbered Concept Index @printindex cp @node Function and Variable Index @unnumbered Function and Variable Index @printindex fn @node Command Index @unnumbered Command Index @printindex cm @c There are no @kindex entries in this manual; avoid generating an @c empty menu. @ignore @node Key Index @unnumbered Key Index @printindex ky @end ignore @bye