\section read read - read line of input into variables \subsection read-synopsis Synopsis \fish{synopsis} read [OPTIONS] [VARIABLE ...] \endfish \subsection read-description Description `read` reads from standard input and either writes the result back to the terminal for use in command substitution or stores the result in one or more shell variables. By default, `read` reads up to the next newline and splits it into given variables on spaces or tabs. Alternatively, a null character or a maximum number of characters can be used to terminate the input, and other delimiters can be given. Unlike other shells, there is no default variable (such as `REPLY`) for storing the result. Instead, it is printed on stdout. The following options are available: - `-c CMD` or `--command=CMD` sets the initial string in the interactive mode command buffer to `CMD`. - `-d DELIMITER` or `--delimiter=DELIMITER` splits on DELIMITER. DELIMITER will be used as an entire string to split on, not a set of characters. - `-g` or `--global` makes the variables global. - `-s` or `--silent` masks characters written to the terminal, replacing them with asterisks. This is useful for reading things like passwords or other sensitive information. - `-l` or `--local` makes the variables local. - `-n NCHARS` or `--nchars=NCHARS` makes `read` return after reading NCHARS characters or the end of the line, whichever comes first. - `-p PROMPT_CMD` or `--prompt=PROMPT_CMD` uses the output of the shell command `PROMPT_CMD` as the prompt for the interactive mode. The default prompt command is set_color green; echo read; set_color normal; echo "> ". - `-P PROMPT_STR` or `--prompt-str=PROMPT_STR` uses the string as the prompt for the interactive mode. It is equivalent to echo PROMPT_STR and is provided solely to avoid the need to frame the prompt as a command. All special characters in the string are automatically escaped before being passed to the echo command. - `-R RIGHT_PROMPT_CMD` or `--right-prompt=RIGHT_PROMPT_CMD` uses the output of the shell command `RIGHT_PROMPT_CMD` as the right prompt for the interactive mode. There is no default right prompt command. - `-S` or `--shell` enables syntax highlighting, tab completions and command termination suitable for entering shellscript code in the interactive mode. NOTE: Prior to fish 3.0, the short opt for `--shell` was `-s`, but it has been changed for compatibility with bash's `-s` short opt for `--silent`. - `-u` or `--unexport` prevents the variables from being exported to child processes (default behaviour). - `-U` or `--universal` causes the specified shell variable to be made universal. - `-x` or `--export` exports the variables to child processes. - `-a` or `--array` stores the result as an array in a single variable. - `-z` or `--null` marks the end of the line with the NUL character, instead of newline. This also disables interactive mode. - `-L` or `--line` reads a single line at a time from the input stream and stores it in the `N` given variable. No more than `N` lines are consumed (one line per variable) from the input stream. - `-A` or `--all-lines` splits input into the given variables, separated by line breaks. The entire input stream is consumed and interactive mode is disabled. Probably only useful with `-a` to read all lines into a single array variable. Where possible, ` | while read --line` should be preferred over ` | read --all-lines` as the latter will block until the input stream has been consumed, leading to latency and decreased responsiveness. `read` reads a single line of input from stdin, breaks it into tokens based on the delimiter set via `-d`/`--delimiter` as a complete string (like `string split` or, if that has not been given the (deprecated) `IFS` shell variable as a set of characters, and then assigns one token to each variable specified in `VARIABLES`. If there are more tokens than variables, the complete remainder is assigned to the last variable. As a special case, if `IFS` is set to the empty string, each character of the input is considered a separate token. If no parameters are provided, `read` enters a special case that simply provides redirection from `stdin` to `stdout`, useful for command substitution. For instance, the fish shell command below can be used to read data that should be provided via a command line argument from the console instead of hardcoding it in the command itself, allowing the command to both be reused as-is in various contexts with different input values and preventing possibly sensitive text from being included in the shell history: `mysql -uuser -p(read)` When running in stdout redirect mode, `read` does not split the input in any way and text is redirected to standard output without any further processing or manipulation. If `-a` or `--array` is provided, only one variable name is allowed and the tokens are stored as an array in this variable. See the documentation for `set` for more details on the scoping rules for variables. When `read` reaches the end-of-file (EOF) instead of the terminator, the exit status is set to 1. Otherwise, it is set to 0. In order to protect the shell from consuming too many system resources, `read` will only consume a maximum of 10 MiB (1048576 bytes); if the terminator is not reached before this limit then VARIABLE is set to empty and the exit status is set to 122. This limit can be altered with the `fish_read_limit` variable. If set to 0 (zero), the limit is removed. \subsection read-history Using another read history file The `read` command supported the `-m` and `--mode-name` flags in fish versions prior to 2.7.0 to specify an alternative read history file. Those flags are now deprecated and ignored. Instead, set the `fish_history` variable to specify a history session ID. That will affect both the `read` history file and the fish command history file. You can set it to an empty string to specify that no history should be read or written. This is useful for presentations where you do not want possibly private or sensitive history to be exposed to the audience but do want history relevant to the presentation to be available. \subsection read-example Example The following code stores the value 'hello' in the shell variable `$foo`. \fish echo hello|read foo # This is a neat way to handle command output by-line: printf '%s\n' line1 line2 line3 line4 | while read -l foo echo "This is another line: $foo" end # Delimiters given via "-d" are taken as one string echo a==b==c | read -d == -l a b c echo $a # a echo $b # b echo $c # c \endfish