\section read read - read line of input into variables \subsection read-synopsis Synopsis \fish{synopsis} read [OPTIONS] [VARIABLES...] \endfish \subsection read-description Description `read` reads from standard input and stores the result in one or more shell variables. By default it reads one line terminated by a newline but options are available to read up to a null character and to limit each "line" to a maximum number of characters. The following options are available: - `-c CMD` or `--command=CMD` sets the initial string in the interactive mode command buffer to `CMD`. - `-g` or `--global` makes the variables global. - `-l` or `--local` makes the variables local. - `-m NAME` or `--mode-name=NAME` specifies that the name NAME should be used to save/load the history file. If NAME is fish, the regular fish history will be available. - `-n NCHARS` or `--nchars=NCHARS` causes `read` to return after reading NCHARS characters rather than waiting for a complete line of input (either newline or null terminated). - `-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 "> ". - `-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. - `-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` reads up to NUL instead of newline. Disables interactive mode. `read` reads a single line of input from stdin, breaks it into tokens based on the `IFS` shell variable, 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 `-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 separator, it sets `$status` to 1. If not, it sets it to 0. Fish has a default limit of 10 MiB on the number of characters each `read` will consume. If you attempt to read more than that `$status` is set to 122 and the variable will be empty. You can modify that limit by setting the `FISH_READ_BYTE_LIMIT` variable at any time including in the environment before fish starts running. This is a safety mechanism to keep the shell from consuming an unreasonable amount of memory if the input is malformed. \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 \endfish