NAME
IO::Prompter - Prompt for input, read it, clean it, return it.
VERSION
This document describes IO::Prompter version 0.005001
SYNOPSIS
use IO::Prompter;
while (prompt -num, 'Enter a number') {
say "You entered: $_";
}
my $passwd
= prompt 'Enter your password', -echo=>'*';
my $selection
= prompt 'Choose wisely...', -menu => {
wealth => [ 'moderate', 'vast', 'incalculable' ],
health => [ 'hale', 'hearty', 'rude' ],
wisdom => [ 'cosmic', 'folk' ],
}, '>';
CAVEATS
Several features of this module are known to have problems under Windows. If using that platform, you may have more success (and less distress) by trying IO::Prompt::Tiny, IO::Prompt::Simple, or IO::Prompt::Hooked first.
By default the
prompt()
subroutine does not return a string; it returns an object with overloaded string and boolean conversions. This object always evaluates true in boolean contexts, unless the read operation actually failed. This means that the object evaluates true even when the input value is zero or an empty string. See "Returning raw data" to turn off this (occasionally counter-intuitive) behaviour.
DESCRIPTION
IO::Prompter exports a single subroutine, prompt
, that prints a prompt (but only if the program's selected input and output streams are connected to a terminal), then reads some input, then chomps it, and finally returns an object representing that text.
The prompt()
subroutine expects zero-or-more arguments.
Any argument that starts with a hyphen (-
) is treated as a named option (many of which require an associated value, that may be passed as the next argument). See "Summary of options" and "Options reference" for details of the available options.
Any other argument that is a string is treated as (part of) the prompt to be displayed. All such arguments are concatenated together before the prompt is issued. If no prompt string is provided, the string '> '
is used instead.
Normally, when prompt()
is called in either list or scalar context, it returns an opaque object that autoconverts to a string. In scalar boolean contexts this return object evaluates true if the input operation succeeded. In list contexts, if the input operation fails prompt()
returns an empty list instead of a return object. This allows failures in list context to behave correctly (i.e. be false).
If you particularly need a list-context call to prompt()
to always return a value (i.e. even on failure), prefix the call with scalar
:
# Only produces as many elements
# as there were successful inputs...
my @data = (
prompt(' Name:'),
prompt(' Age:'),
prompt('Score:'),
);
# Always produces exactly three elements
# (some of which may be failure objects)...
my @data = (
scalar prompt(' Name:'),
scalar prompt(' Age:'),
scalar prompt('Score:'),
);
In void contexts, prompt()
still requests input, but also issues a warning about the general uselessness of performing an I/O operation whose results are then immediately thrown away. See "Useful useless uses of prompt()
" for an exception to this.
The prompt()
function also sets $_
if it is called in a boolean context but its return value is not assigned to a variable. Hence, it is designed to be a drop-in replacement for readline
or <>
.
INTERFACE
All the options for prompt()
start with a hyphen (-
). Most have both a short and long form. The short form is always the first letter of the long form.
Most options have some associated value. For short-form options, this value is specified as a string appended to the option itself. The associated value for long-form options is always specified as a separated argument, immediately following the option (typically separated from it by a =>
).
Note that this implies that short-form options may not be able to specify every possible associated value (for example, the short-form -d
option cannot specify defaults with values 'efault'
or '$%^!'
). In such cases, just use the long form of the option (for example: -def => 'efault'
or -default=>'$%^!'
).
Summary of options
Note: For options preceded by an asterisk, the short form is actually a Perl file operator, and hence cannot be used by itself. Either use the long form of these options, or bundle them with another option, or add a "no-op" to them.
Short Long
form form Effect
===== ============= ======================================
-a -argv Prompt for @ARGV data if !@ARGV
-cancel=>SPEC Immediately fail if input char smartmatches value
-comp[lete]=>SPEC Complete input on <TAB>, as specified
-dSTR -def[ault]=>STR What to return if only <ENTER> typed
-DEF[AULT]=>STR (as above, but skip any -must checking)
* -e[STR] -echo=>STR Echo string for each character typed
-echostyle=>SPEC What colour/style to echo input in
* -f -filenames Input should be name of a readable file
-fail=>VALUE Return failure if completed input smartmatches value
-guar[antee]=>SPEC Only allow the specified words to be entered
-h[STR] -hist[ory][=>SPEC] Specify the history set this call belongs to
-in=>HANDLE Read from specified handle
-i -integer[=>SPEC] Accept only valid integers (that smartmatch SPEC)
-k -keyletters Accept only keyletters (as specified in prompt)
* -l -line Don't autochomp
-menu=>SPEC Specify a menu of responses to be displayed
-must=>HASHREF Specify requirements/constraints on input
-monitor=>SUBREF Specify a sub to be called on every character input
-n -num[ber][=>SPEC] Accept only valid numbers (that smartmatch SPEC)
-out=>HANDLE Prompt to specified handle
-prefill=>STR Start with the specified string pre-entered
-prompt=>STR Specify prompt explicitly
* -rSTR -ret[urn]=>STR After input, echo this string instead of <CR>
* -s -1 -sing[le] Return immediately after first key pressed
-stdio Use STDIN and STDOUT for prompting
-style=>SPEC What colour/style to display the prompt text in
-tNUM -time[out]=>NUM Specify a timeout on the input operation
-v -verb[atim] Return the input string (no context sensitivity)
-void Don't complain in void context
* -w -wipe Clear screen
-wipefirst Clear screen on first prompt() call only
* -y -yes [=> NUM] Return true if [yY] entered, false otherwise
-yn -yesno [=> NUM] Return true if [yY] entered, false if [nN]
-Y -Yes [=> NUM] Return true if Y entered, false otherwise
-YN -YesNo [=> NUM] Return true if Y entered, false if N
* -_ No-op (handy for bundling ambiguous short forms)
Automatic options
Any of the options listed above (and described in detail below) can be automatically applied to every call to prompt()
in the current lexical scope, by passing them (via an array reference) as the arguments to a use IO::Prompter
statement.
For example:
use IO::Prompter;
# This call has no automatically added options...
my $assent = prompt "Do you wish to take the test?", -yn;
{
use IO::Prompter [-yesno, -single, -style=>'bold'];
# These three calls all have: -yesno, -single, -style=>'bold' options
my $ready = prompt 'Are you ready to begin?';
my $prev = prompt 'Have you taken this test before?';
my $hints = prompt 'Do you want hints as we go?';
}
# This call has no automatically added options...
scalar prompt 'Type any key to start...', -single;
The current scope's lexical options are always prepended to the argument list of any call to prompt()
in that scope.
To turn off any existing automatic options for the rest of the current scope, use:
use IO::Prompter [];
Prebound options
You can also ask IO::Prompter to export modified versions of prompt()
with zero or more options prebound. For example, you can request an ask()
subroutine that acts exactly like prompt()
but has the - yn
option pre-specified, or a pause()
subroutine that is prompt()
with a "canned" prompt and the -echo
, -single
, and -void
options.
To specify such subroutines, pass a single hash reference when loading the module:
use IO::Prompter {
ask => [-yn],
pause => [-prompt=>'(Press any key to continue)', -echo, -single, -void],
}
Each key will be used as the name of a separate subroutine to be exported, and each value must be an array reference, containing the arguments that are to be automatically supplied.
The resulting subroutines are simply lexically scoped wrappers around prompt()
, with the specified arguments prepended to the normal argument list, equivalent to something like:
my sub ask {
return prompt(-yn, @_);
}
my sub pause {
return prompt(-prompt=>'(Press any key to continue)', -echo, -single, -void, @_);
}
Note that these subroutines are lexically scoped, so if you want to use them throughtout a source file, they should be declared in the outermost scope of your program.
Options reference
Specifying what to prompt
-prompt => STRING
-pSTRING
By default, any argument passed to prompt()
that does not begin with a hyphen is taken to be part of the prompt string to be displayed before the input operation. Moreover, if no such string is specified in the argument list, the function supplies a default prompt ('> '
) automatically.
The -prompt
option allows you to specify a prompt explicitly, thereby enabling you to use a prompt that starts with a hyphen:
my $input
= prompt -prompt=>'-echo';
or to disable prompting entirely:
my $input
= prompt -prompt => "";
Note that the use of the -prompt
option doesn't override other string arguments, it merely adds its argument to the collective prompt.
Prompt prettification
If the specified prompt ends in a non-whitespace character, prompt()
adds a single space after it, to better format the output. On the other hand, if the prompt ends in a newline, prompt()
removes that character, to keep the input position on the same line as the prompt.
You can use that second feature to override the first, if necessary. For example, if you wanted your prompt to look like:
Load /usr/share/dict/_
(where the _ represents the input cursor), then a call like:
$filename = prompt 'Load /usr/share/dict/';
would not work because it would automatically add a space, producing:
Load /usr/share/dict/ _
But since a terminal newline is removed, you could achieve the desired effect with:
$filename = prompt "Load /usr/share/dict/\n";
If for some reason you do want a newline at the end of the prompt (i.e. with the input starting on the next line) just put two newlines at the end of the prompt. Only the very last one will be removed.
Specifying how the prompt looks
-style => SPECIFICATION
If the Term::ANSIColor
module is available, this option can be used to specify the colour and styling (e.g. bold, inverse, underlined, etc.) in which the prompt is displayed.
You can can specify that styling as a single string:
prompt 'next:' -style=>'bold red on yellow';
or an array of styles:
prompt 'next:' -style=>['bold', 'red', 'on_yellow'];
The range of styles and colour names that the option understands is quite extensive. All of the following work as expected:
prompt 'next:' -style=>'bold red on yellow';
prompt 'next:' -style=>'strong crimson on gold';
prompt 'next:' -style=>'highlighted vermilion, background of cadmium';
prompt 'next:' -style=>'vivid russet over amber';
prompt 'next:' -style=>'gules fort on a field or';
However, because Term::ANSIColor
sometmes maps everything back to the standard eight ANSI text colours and seven ANSI text styles, all of the above may also be rendered identically. See that module's documentation for details.
If Term::ANSIColor
is not available, this option is silently ignored.
Please bear in mind that up to 10% of people using your interface will have some form of colour vision impairment, so its always a good idea to differentiate information by style and colour, rather than by colour alone. For example:
if ($dangerous_action) {
prompt 'Really proceed?', -style=>'bold red underlined';
}
else {
prompt 'Proceed?', -style=>'green';
}
Also bear in mind that (even though -style
does support the 'blink'
style) up to 99% of people using your interface will have Flashing Text Tolerance Deficiency. Just say "no".
Specifying where to prompt
-out => FILEHANDLE
-in => FILEHANDLE
-stdio
The -out
option (which has no short form) is used to specify where the prompt should be written to. If this option is not specified, prompts are written to the currently select
-ed filehandle. The most common usage is:
prompt(out => *STDERR)
The -in
option (which also has no short form) specifies where the input should be read from. If this option is not specified, input is read from the *ARGV
filehandle. The most common usage is:
prompt(in => *STDIN)
in those cases where *ARGV
has been opened to a file, but you still wish to interact with the terminal (assuming *STDIN
is opened to that terminal).
The -stdio
option (which again has no short form) is simply a shorthand for: -in => *STDIN, -out => *STDOUT
. This is particularly useful when there are arguments on the commandline, but you don't want prompt to treat those arguments as filenames for magic *ARGV
reads.
Specifying how long to wait for input
-timeout => N
-tN
Normally, the prompt()
function simply waits for input. However, you can use this option to specify a timeout on the read operation. If no input is received within the specified N seconds, the call to prompt()
either returns the value specified by the -default
option (if any), or else an object indicating the read failed.
Note that, if the short form is used, N must be an integer. If the long form is used, N may be an integer or floating point value.
You can determine whether an input operation timed out, even if a default value was returned, by calling the timedout()
method on the object returned by prompt()
:
if (prompt('Continue?', -y1, -timeout=>60) && !$_->timedout) {
...
}
If a time-out occurred, the return value of timedout()
is a string describing the timeout, such as:
"timed out after 60 seconds"
Prefilling the input
Normally, the cursor is placed immediately after the prompt in preparation for input. Initially, of course, there is no input.
However, using the -prefill
option it is possible to initialize the input buffer with an arbitrary string of text (rather than the usual empty string)...as if that text had already been entered.
This is useful when a prompt is re-issued so as to allow the user to extend, truncate, or otherwise edit a previous input.
Providing a menu of responses
You can limit the allowable responses to a prompt, by providing a menu.
A menu is specified using the -menu
option, and the menu choices are specified as an argument to the option, either as a reference to an array, hash, or string, or else as a literal string.
If the menu is specified in a hash, prompt()
displays the keys of the hash, sorted alphabetically, and with each alternative marked with a single alphabetic character (its "selector key").
For example, given:
prompt 'Choose...',
-menu=>{ 'live free'=>1, 'die'=>0, 'transcend'=>-1 },
'>';
prompt()
will display:
Choose...
a. die
b. live free
c. transcend
> _
It will then only permit the user to enter a valid selector key (in the previous example: 'a', 'b', or 'c'). Once one of the alternatives is selected, prompt()
will return the corresponding value from the hash (0, 1, or -1, respectively, in this case).
Note that the use of alphabetics as selector keys inherently limits the number of usable menu items to 52. See "Numeric menus" for a way to overcome this limitation.
A menu is treated like a special kind of prompt, so that any other prompt strings in the prompt()
call will appear either before or after the menu of choices, depending on whether they appear before or after the menu specification in the call to prompt()
.
If an array is used to specify the choices:
prompt 'Choose...',
-menu=>[ 'live free', 'die', 'transcend' ],
'>';
then each array element is displayed (in the original array order) with a selector key:
Choose...
a. live free
b. die
c. transcend
> _
and prompt()
returns the element corresponding to the selection (i.e. it returns 'live free' if 'a' is entered, 'die' if 'b' is entered, or 'transcend' if 'c' is entered).
Hence, the difference between using an array and a hash is that the array allows you to control the order of items in the menu, whereas a hash allows you to show one thing (i.e. keys) but have something related (i.e. values) returned instead.
If the argument after -menu
is a string or a reference to a string, the option splits the string on newlines, and treats the resulting list as if it were an array of choices. This is useful, for example, to request the user select a filename:
my $files = `ls`;
prompt 'Select a file...', -menu=>$files, '>';
Numbered menus
As the previous examples indicate, each menu item is given a unique alphabetic selector key. However, if the -number
or -integer
option is specified as well:
prompt 'Choose...',
-number,
-menu=>{ 'live free'=>1, 'die'=>0, 'transcend'=>-1 },
'>';
prompt()
will number each menu item instead, using consecutive integers as the selector keys:
Choose...
1. die
2. live free
3. transcend
> _
This allows for an unlimited number of alternatives in a single menu, but prevents the use of -single
for one-key selection from menus if the menu has more than nine items.
Hierarchical menus
If you use a hash to specify a menu, the values of the hash do not have to be strings. Instead, they can be references to nested hashes or arrays.
This allows you to create hierarchical menus, where a selection at the top level may lead to a secondary menu, etc. until an actual choice is possible. For example, the following call to prompt:
my $choices = {
animates => {
animals => {
felines => [qw<cat lion lynx>],
canines => [qw<dog fox wolf>],
bovines => [qw<cow ox buffalo>],
},
fish => [qw<shark carp trout bream>],
},
inanimates => {
rocks => [qw<igneous metamorphic sedimentary>],
languages => [qw<Perl Python Ruby Tcl>],
},
};
my $result = prompt -1, 'Select a species...', -menu=>$choices, '> ';
might result in an interaction like this:
Select a species...
a. animates
b. inanimates
> a
Select from animates:
a. animals
b. fish
> b
Select from fish:
a. shark
b. carp
c. trout
d. bream
> c
At which point, prompt()
would return the string 'trout'
.
Note that you can nest an arbitrary number of hashes, but that each "bottom" level choice has to be either a single string, or an array of strings.
Navigating hierarchical menus
Within a hierarchical menu, the user must either select a valid option (by entering the corresponding letter), or else may request that they be taken back up a level in the hierarchy, by entering <ESC>
. Pressing <ESC>
at the top level of a menu causes the call to prompt()
to immediately return with failure.
Simulating a command-line
-argv
-a
The prompt()
subroutine can be used to request that the user provide command-line arguments interactively. When requested, the input operation is only carried out if @ARGV
is empty.
Whatever the user enters is broken into a list and assigned to @ARGV
.
The input is first glob
bed for file expansions, and has any environment variables (of the form $VARNAME
interpolated). The resulting string is then broken into individual words, except where parts of it contain single or double quotes, the contents of which are always treated as a single string.
This feature is most useful during development, to allow a program to be run from within an editor, and yet pass it a variety of command-lines. The typical usage is (at the start of a program):
use IO::Prompter;
BEGIN { prompt -argv }
However, because this pattern is so typical, there is a shortcut:
use IO::Prompter -argv;
You can also specify the name with which the program args, are to be prompted, in the usual way (i.e. by providing a prompt):
use IO::Prompter -argv, 'demo.pl';
Note, however, the critical difference between that shortcut (which calls prompt -argv
when the module is loaded) and:
use IO::Prompter [-argv];
(which sets -argv
as an automatic option for every subsequent call to prompt()
in the current lexical scope).
Note too that the -argv
option also implies -complete=
'filenames'>.
Input autocompletion
-comp[lete] => SPECIFICATION
When this option is specified, the prompt()
subroutine will complete input using the specified collection of strings. By default, when completion is active, word completion is requested using the <TAB>
key, but this can be changed by setting the $IO_PROMPTER_COMPLETE_KEY
environment variable. Once completion has been initiated, you can use the completion key or else <CTRL-N>
to advance to the next completion candidate. You can also use <CTRL-P>
to back up to the previous candidate.
The specific completion mechanism can be defined either using a subroutine, an array reference, a hash reference, or a special string:
Specification Possible completions supplied by...
sub {...} ...whatever non-subroutine specification
(as listed below) is returned when the
subroutine is called. The subroutine is passed
the words of the current input text, split on
whitespace, as its argument list.
[...] ...the elements of the array
{...} ...the keys of the hash
'filenames' ...the list of files supplied by globbing the
last whitespace-separated word of the input text
'dirnames' ...the list of directories supplied by globbing the
last whitespace-separated word of the input text
If an array or hash is used, only those elements or keys that begin with the last whitespace-separated word of the current input are offered as completions.
For example:
# Complete with the possible commands...
my $next_cmd
= prompt -complete => \%cmds;
# Complete with valid usernames...
my $user
= prompt -complete => \@usernames;
# Complete with valid directory names...
my $file
= prompt -complete => 'dirnames';
# Complete with cmds on the first word, and filenames on the rest...
my $cmdline
= prompt -complete => sub { @_ <= 1 ? \%cmds : 'filenames' };
Completing from your own input history
The prompt()
subroutine also tracks previous input and allows you to complete with that instead. No special option is required, as the feature is enabled by default.
At the start of a prompted input, the user can cycle backwards through previous inputs by pressing <CTRL-R>
(this can be changed externally by setting the $IO_PROMPTER_HISTORY_KEY
environment variable, or internally by assigning a new keyname to $ENV{IO_PROMPTER_HISTORY_KEY}
). After the first <CTRL-R>
, subsequent <CTRL-R>
's will recall earlier inputs. You can also use <CTRL-N>
and <CTRL-P>
(as in user-specified completions) to move back and forth through your input history.
If the user has already typed some input, the completion mechanism will only show previous inputs that begin with that partial input.
History sets
By default, IO::Prompter tracks every call to prompt()
within a program, and accumulates a single set of history completions for all of them. That means that, at any prompt, <CTRL-R>
will take the user back through every previous input, regardless of which call to prompt()
originally retrieved it.
Sometimes that's useful, but sometimes you might prefer that different calls to prompt()
retained distinct memories. For example, consider the following input loop:
while (my $name = prompt 'Name:') {
my $grade = prompt 'Grade:', -integer;
my $comment = prompt 'Comment:';
...
}
If you're entering a name, there's no point in prompt()
offering to complete it with previous grades or comments. In fact, that's just annoying.
IO::Prompter allows you to specify that a particular call to prompt()
belongs to a particular "history set". Then it completes input history using only the history of those calls belonging to the same history set.
So the previous example could be improved like so:
while (my $name = prompt 'Name:', -hNAME) {
my $grade = prompt 'Grade:', -hGRADE, -integer;
my $comment = prompt 'Comment:', -hOTHER;
...
}
Now, when prompting for a name, only those inputs in the 'NAME'
history set will be offered as history completions. Likewise only previous grades will be recalled when prompting for grades and earlier only comments when requesting comments.
If you specify the -h
or -history
option without providing the name of the required history set, prompt()
uses the prompt text itself as the name of the call's history set. So the previous example would work equally well if written:
while (my $name = prompt 'Name:', -h) {
my $grade = prompt 'Grade:', -h, -integer;
my $comment = prompt 'Comment:', -h;
...
}
though now the names of the respective history sets would now be 'Name: '
, 'Grade: '
, and 'Comment: '
. This is by far the more common method of specifying history sets, with explicitly named sets generally only being used when two or more separate calls to prompt()
have to share a common history despite using distinct prompts. For example:
for my $n (1..3) {
$address .= prompt "Address (line $n):", -hADDR;
}
If you specify 'NONE'
as the history set, the input is not recorded in the history. This is useful when inputting passwords.
Configuring the autocompletion interaction
By default, when user-defined autocompletion is requested, the prompt()
subroutine determines the list of possible completions, displays it above the prompt, and completes to the longest common prefix. If the completion key is pressed again immediately, the subroutine then proceeds to complete with each possible completion in a cyclic sequence. This is known as "list+longest full" mode.
On the other hand, when historical completion is requested, prompt()
just immediately cycles through previous full inputs. This is known as "full" mode.
You can change these behaviours by setting the $IO_PROMPTER_COMPLETE_MODES
and $IO_PROMPTER_HISTORY_MODES
environment variables before the module is loaded (either in your shell, or in a BEGIN
block before the module is imported).
Specifically, you can set the individual string values of either of these variables to a whitespace-separated sequence containing any of the following:
list List all options above the input line
longest Complete to the longest common prefix
full Complete with each full match in turn
For example:
# Just list options without actually completing...
BEGIN{ $ENV{IO_PROMPTER_COMPLETE_MODES} = 'list'; }
# Just cycle full alternatives on each <TAB>...
BEGIN{ $ENV{IO_PROMPTER_COMPLETE_MODES} = 'full'; }
# For history completion, always start with the
# longest common prefix on the first <CTRL-R>,
# then just list the alternatives on a subsequent press...
BEGIN{ $ENV{IO_PROMPTER_HISTORY_MODES} = 'longest list'; }
Specifying what to return by default
-DEF[AULT] => STRING
-def[ault] => STRING
-dSTRING
If a default value is specified, that value will be returned if the user enters an empty string at the prompt (i.e. if they just hit <ENTER>/<RETURN>
immediately) or if the input operation times out under the timeout
option.
Note that the default value is not added to the prompt, unless you do so yourself. A typical usage might therefore be:
my $frequency
= prompt "Enter polling frequency [default: $DEF_FREQ]",
-num, -def=>$DEF_FREQ;
You can determine if the default value was autoselected (as opposed to the same value being typed in explicitly) by calling the defaulted()
method on the object returned by prompt()
, like so:
if ($frequency->defaulted) {
say "Using default frequency";
}
If you use the -must
option any default value must also satisfy all the constraints you specify, unless you use the -DEFAULT
form, which skips constraint checking when the default value is selected.
If you use the -menu
option, the specified default value will be returned immediately <ENTER>/<RETURN>
is pressed, regardless of the depth you are within the menu. Note that the default value specifies the value to be returned, not the selector key to be entered. The default value does not even have to be one of the menu choices.
Specifying what to echo on input
-echo => STR
-eSTR
When this option is specified, the prompt()
subroutine will echo the specified string once for each character that is entered. Typically this would be used to shroud a password entry, like so:
# Enter password silently:
my $passwd
= prompt 'Password:', -echo=>"";
# Echo password showing only asterisks:
my $passwd
= prompt 'Password:', -echo=>"*";
As a special case, if the -echo
value contains a slash (/
) and the any of the <-yesno> options is also specified, the substring before the slash is taken as the string to echo for a 'yes' input, and the substring after the slash is echoed for a 'no' input.
Note that this option is only available when the Term::ReadKey module is installed. If it is used when that module is not available, a warning will be issued.
Specifying how to echo on input
-echostyle => SPECIFICATION
The -echostyle
option works for the text the user types in the same way that the -style
option works for the prompt. That is, you can specify the style and colour in which the user's input will be rendered like so:
# Echo password showing only black asterisks on a red background:
my $passwd
= prompt 'Password:', -echo=>"*", -echostyle=>'black on red';
Note that -echostyle
is completely independent of -echo
:
# Echo user's name input in bold white:
my $passwd
= prompt 'Name:', -echostyle=>'bold white';
The -echostyle
option requires Term::ANSIColor
, and will be silently ignored if that module is not available.
Input editing
When the Term::ReadKey module is available, prompt()
also honours a subset of the usual input cursor motion commands:
CTRL-B
-
Move the cursor back one character
CTRL-F
-
Move the cursor forward one character
CTRL-A
-
Move the cursor to the start of the input
CTRL-E
-
Move the cursor to the end of the input
Specifying when input should fail
-fail => VALUE
-fSTRING
If this option is specified, the final input value is compared with the associated string or value, by smartmatching just before the call to prompt()
returns. If the two match, prompt()
returns a failure value. This means that instead of writing:
while (my $cmd = prompt '>') {
last if $cmd eq 'quit';
...
}
you can just write:
while (my $cmd = prompt '>', -fail=>'quit') {
...
}
Specifying when input should fail immediately
-cancel => VALUE
-fSTRING
If this option is specified, then each individual input character is compared with the associated string or value, by smartmatching during the input process. If any individual input character matches the string/value, prompt()
immediately returns a failure value.
Note that this is not the same as the behaviour -fail
option. A -fail
waits for the entire input to be completed (typically for a RETURN to be entered) and then tests for failure. A -cancel
tests each input character as it is entered and fails immediately if any input matches the cancellation condition.
Do, for example, to cancel a prompt whenever an ESCAPE character is entered:
my $input = prompt '>', -cancel => "\e";
Note that (as long as Term::ReadKey is available) the cancellation test is performed before any other internal processing, so you can set the cancellation criterion to be any character, including characters like CNTL-A or TAB, which otherwise have special meanings to prompt()
.
Note too that the cancellation criterion is tested against each individual character as it is entered, not against the cumulative input so far. If you need to cancel a call to prompt()
based on accumulated input, you need to track that yourself. For example, if your cancellation test is the presence of three consecutive exclamation marks:
my $input = prompt '>', -cancel => sub ($nextchar) {
state $input;
$input .= $nextchar;
return $input =~ /!!!/;
};
Constraining what can be typed
This option allows you to control what input users can provide. The specification can be a regex or a reference to an array or a hash.
If the specification is a regex, that regex is matched against the input so far, every time an extra character is input. If the regex ever fails to match, the guarantee fails.
If the specification is an array, the input so far is matched against the same number of characters from the start of each of the (string) elements of the array. If none of these substrings match the input, the guarantee fails.
If the specification is a hash, the input so far is matched against the same number of characters from the start of each key of the hash. If none of these substrings match the input, the guarantee fails.
If the guarantee fails, the input is rejected (just as the -must
option does). However, unlike -must
, -guarantee
rejects the input character-by-character as it typed, and before it is even echoed. For example, if your call to prompt()
is:
my $animal = prompt -guarantee=>['cat','dog','cow'];
then at the prompt:
> _
you will only be able to type in 'c' or 'd'. If you typed 'c', then you would only be able to type 'a' or 'o'. If you then typed 'o', you would only be able to type 'w'.
In other words, -guarantee
ensures that you can only type in a valid input, and simply ignores any typing that would not lead to such an input.
To help users get the input right, specifying -guarantee
as an array or hash reference also automatically specifies a -complete
option with the array or hash as its completion list as well. So, whenever a -guarantee
is in effect, the user can usually autocomplete the acceptable inputs.
Note, however, that -guarantee
can only reject (or autocomplete) input as it is typed if the Term::ReadKey module is available. If that module cannot be loaded, -guarantee
only applies its test after the <ENTER>/<RETURN>
key is pressed, and there will be no autocompletion available.
Constraining input to numbers
If any of these options are specified, prompt()
will only accept a valid integer or number as input, and will reprompt until one is entered.
If you need to restrict the kind of number further (say, to positive integers), you can supply an extra constraint as an argument to the long-form option. Any number entered must satisfy this constraint by successfully smart-matching it. For example:
$rep_count = prompt 'How many reps?', -integer => sub{ $_ > 0 };
$die_roll = prompt 'What did you roll?', -integer => [1..6];
$factor = prompt 'Prime factor:', -integer => \&is_prime;
$score = prompt 'Enter score:', -number => sub{ 0 <= $_ && $_ <= 100 };
If the constraint is specified as a subroutine, the entered number will be passed to it both as its single argument and in $_
.
You cannot pass a scalar value directly as a constraint, except those strings listed below. If you want a scalar value as a constraint, use a regex or array reference instead:
# Wrong...
$answer = prompt "What's the ultimate answer?",
-integer => 42;
# Use this instead...
$answer = prompt "What's the ultimate answer?",
-integer => qr/^42$/;
# Or this...
$answer = prompt "What's the ultimate answer?",
-integer => [42];
Only the following strings may be passed directly as scalar value constraints. They do mot match exactly, but instead act as specifiers for one or more built-in constraints. You can also pass a string that contains two or more of them, separated by whitespace, in which case they must all be satisfied. The specifiers are:
'pos'
or'positive'
-
The number must be greater than zero
'neg'
or'negative'
-
The number must be less than zero
'zero'
-
The number must be equal to zero
'even'
or'odd'
-
The number must have the correct parity
You can also prepend "non"
to any of the above to reverse their meaning.
For example:
$rep_count = prompt 'How much do you bid?', -number => 'positive';
$step_value = prompt 'Next step:', -integer => 'even nonzero';
Constraining input to filenames
You can tell prompt()
to accept only valid filenames, using the -filenames
option (or its shortcut: -f
).
This option is equivalent to the options:
-must => {
'File must exist' => sub { -e },
'File must be readable' => sub { -r },
},
-complete => 'filenames',
In other words -filenames
requires prompt()
to accept only the name of an existing, readable file, and it also activates filename completion.
Constraining input to "keyletters"
A common interaction is to offer the user a range of actions, each of which is specified by keying a unique letter, like so:
INPUT:
given (prompt '[S]ave, (R)evert, or (D)iscard:', -default=>'S') {
when (/R/i) { revert_file() }
when (/D/i) { discard_file() }
when (/S/i) { save_file() }
default { goto INPUT; }
}
This can be cleaned up (very slightly) by using a guarantee:
given (prompt '[S]ave, (R)evert, or (D)iscard:', -default=>'S',
-guarantee=>qr/[SRD]/i
) {
when (/R/i) { revert_file() }
when (/D/i) { discard_file() }
default { save_file() }
}
However, it's still annoying to have to specify the three key letters twice (and the default choice three times) within the call to prompt()
. So IO::Prompter provides an option that extracts this information directly from the prompt itself:
given (prompt '[S]ave, (R)evert, or (D)iscard:', -keyletters) {
when (/R/i) { revert_file() }
when (/D/i) { discard_file() }
default { save_file() }
}
This option scans the prompt string and extracts any purely alphanumeric character sequences that are enclosed in balanced brackets of any kind (square, angle, round, or curly). It then makes each of these character sequences a valid input (by implicitly setting the -guarantee
option), and adds the first option in square brackets (if any) as the -default
value of the prompt.
Note that the key letters don't have to be at the start of a word, don't have to be a single character, and can be either upper or lower case. For example:
my $action = prompt -k, '(S)ave, Save(a)ll, (Ex)it without saving';
Multi-character key letters are often a good choice for options with serious or irreversible consequences.
A common idiom with key letters is to use the -single
option as well, so that pressing any key letter immediately completes the input, without the user having to also press <ENTER>/<RETURN>
:
given (prompt -k1, '[S]ave, (R)evert, or (D)iscard:') {
when (/R/i) { revert_file() }
when (/D/i) { discard_file() }
default { save_file() }
}
Monitoring input
This option allows you to specify a subroutine that will be called after each character is input. This subroutine will be passed two arguments: a string containing the input so far, and a hash reference containing various options passed into the call to prompt()
(specifically: -prompt
, -style
, and -echostyle
).
The hashref contains an extra key (-cursor_pos
) whose value is the current location of the input cursor within the string. This is typically one character past the end of the string, but see "Input editing".
The subroutine can perform any actions you choose: set variables, validate input, print out a response to each input character.
If the subroutine prints anything out that will, of course, mess up the prompt and input echoing, so in that case the prompt will automatically be redrawn. The prompt is also redrawn if the monitor subroutine throws an exception.
Monitor subroutines are useful for prvoding extra information during an input process. For example, when prompting for a filepath, as the path is being typed in you could echo all (partially) matching files with something like:
my $path = prompt 'File path:',
-monitor => sub ($path, $opts) {
clear_screen();
say for glob("$path*");
};
Preserving terminal newlines
The (encapsulated) string returned by prompt()
is automatically chomped by default. To prevent that chomping, specify this option.
Constraining what can be returned
This option allows you to specify requirements and constraints on the input string that is returned by prompt()
. These limitations are specified as the values of a hash.
If the -must
option is specified, once input is complete every value in the specified hash is smartmatched against the input text. If any of them fail to match, the input is discarded, the corresponding hash key is printed as an error message, and the prompt is repeated.
Note that the values of the constraint hash cannot be single strings or numbers, except for certain strings (such as 'pos'
, 'nonzero'
, or 'even'
, as described in "Constraining input to numbers").
If you want to constrain the input to a single string or number (a very unusual requirement), just place the value in an array, or match it with a regex:
# This doesn't work...
my $magic_word = prompt "What's the magic word?",
-must => { 'be polite' => 'please' };
# Use this instead...
my $magic_word = prompt "What's the magic word?",
-must => { 'be polite' => ['please'] };
# Or, better still...
my $magic_word = prompt "What's the magic word?",
-must => { 'be polite' => qr/please/i };
The -must
option allows you to test inputs against multiple conditions and have the appropriate error messages for each displayed. It also ensures that, when prompt()
eventually returns, you are guaranteed that the input meets all the specified conditions.
For example, suppose the user is required to enter a positive odd prime number less than 100. You could enforce that with:
my $opnlt100 = prompt 'Enter your guess:',
-integer,
-must => { 'be odd' => 'odd',
'be in range' => [1..100],
'It must also be prime:' => \&isprime,
};
Note that, if the error message begins with anything except an uppercase character, the prompt is reissued followed by the error message in parentheses with the word "must" prepended (where appropriate). Otherwise, if the error message does start with an uppercase character, the prompt is not reissued and the error message is printed verbatim. So a typical input sequence for the previous example might look like:
Enter your guess: 101
Enter your guess: (must be in range) 42
It must also be prime: 2
Enter your guess: (must be odd) 7
at which point, the call to prompt()
would accept the input and return.
See also the -guarantee
option, which allows you to constrain inputs as they are typed, rather than after they are entered.
Changing how returns are echoed
When <ENTER>/<RETURN>
is pressed, prompt()
usually echoes a carriage return. However, if this option is given, prompt()
echoes the specified string instead. If the string is omitted, it defaults to "\n"
.
For example:
while (1) {
my $expr = prompt 'Calculate:', -ret=>' = ';
say evaluate($expr);
}
would prompt for something like this:
Calculate: 2*3+4^5_
and when the <ENTER>/<RETURN>
key is pressed, respond with:
Calculate: 2*3+4^5 = 1030
Calculate: _
The string specified with -return
is also automatically echoed if the -single
option is used, or if an input is cancelled via the -cancel
option. So if you don't want the automatic carriage return that -single
mode or -cancel
supplies, specify -return=>""
.
Single-character input
This option causes prompt()
to return immediately once any single character is input. The user does not have to push the <ENTER>/<RETURN>
key to complete the input operation. -single
mode input is only available if the Term::ReadKey module can be loaded.
By default, prompt()
echoes the single character that is entered. Use the -echo
option to change or prevent that.
# Let user navigate through maze by single, silent keypresses...
while ($nextdir = prompt "\n", -single, -echo, -guarantee=>qr/[nsew]/) {
move_player($nextdir);
}
Unless echoing has been disabled, by default prompt()
also supplies a carriage return after the input character. Use the -return
option to change that behaviour. For example, this:
my $question = <<END_QUESTION;
Bast is the goddess of: (a) dogs (b) cats (c) cooking (d) war?
Your answer:
END_QUESTION
my $response = prompt $question, -1, -return=>' is ', -g=>['a'..'d'];
say $response eq $answer ? 'CORRECT' : 'incorrect';
prompts like this:
Bast is the goddess of: (a) dogs (b) cats (c) cooking (d) war?
Your answer: _
accepts a single character, like so:
Bast is the goddess of: (a) dogs (b) cats (c) cooking (d) war?
Your answer: b_
and completes the line thus:
Bast is the goddess of: (a) dogs (b) cats (c) cooking (d) war?
Your answer: b is CORRECT
_
Returning raw data
Normally, prompt()
returns a special object that contains the text input, the success value, and other information such as whether the default was selected and whether the input operation timed out.
However, if you prefer to have prompt()
just return the input text string directly, you can specify this option.
Note however that, under -verbatim
, the input is still autochomped (unless you also specify the -line
option.
Prompting on a clear screen
If this option is present, prompt()
prints 1000 newlines before printing its prompt, effectively wiping the screen clear of other text.
If the -wipefirst
variant is used, the wipe will only occur if the particular call to prompt()
is the first such call anywhere in your program. This is useful if you'd like the screen cleared at the start of input only, but you're not sure which call to prompt()
will happen first: just use -wipefirst
on all possible initial calls and only the actual first call will wipe the screen.
Requesting confirmations
This option invokes a special mode that can be used to confirm (or deny) something. If one of these options is specified, prompt
still returns the user's input, but the success or failure of the object returned now depends on what the user types in.
A true result is returned if 'y'
is the first character entered. If the flag includes an n
or N
, a false result is returned if 'n'
is the first character entered (and any other input causes the prompt to be reissued). If the option doesn't contain an n
or N
, any input except 'y'
is treated as a "no" and a false value is returned.
If the option is capitalized (-Y
or -YN
), the first letter of the input must be likewise a capital (this is a handy means of slowing down automatic unthinking y
..."Oh no!" responses to potentially serious decisions).
This option is most often used in conjunction with the -single
option, like so:
$continue = prompt("Continue? ", -yn1);
so that the user can just hit y
or n
to continue, without having to hit <ENTER>/<RETURN>
as well.
If the optional COUNT argument is supplied, the prompting is repeated that many times, with increasingly insistent requests for confirmation. The answer must be "yes" in each case for the final result to be true. For example:
$rm_star = prompt("Do you want to delete all files? ", -Yes=>3 );
might prompt:
Do you want to delete all files? Y
Really? Y
Are you sure? Y
Bundling short-form options
You can bundle together any number of short-form options, including those that take string arguments. For example, instead of writing:
if (prompt "Continue? ", -yes, -1, -t10, -dn) {
you could just write:
if (prompt "Continue? ", -y1t10dn) {...}
This often does not improve readability (as the preceding example demonstrates), but is handy for common usages such as -y1
("ask for confirmation, don't require an <ENTER>/<RETURN>
) or -vl
("Return a verbatim and unchomped string").
Escaping otherwise-magic options
-_
The -_
option exists only to be an explicit no-op. It allows you to specify short-form options that would otherwise be interpreted as Perl file operators or other special constructs, simply by prepending or appending a _
to them. For example:
my $input
= prompt -l_; # option -l, not the -l file operator.
The following single-letter options require an underscore to chaperone them when they're on their own: -e
, -l
, -r
, -s
, -w
, and -y
. However, an underscore is not required if two or more are bundled together.
Useful useless uses of prompt()
Normally, in a void context, a call to prompt()
issues a warning that you are doing an input operation whose input is immediately thrown away.
There is, however, one situation where this useless use of prompt()
in a void context is actually useful:
say $data;
prompt('END OF DATA. Press any key to exit', -echo, -single);
exit;
Here, we're using prompt simply to pause the application after the data is printed. It doesn't matter what the user types in; the typing itself is the message (and the message is "move along").
In such cases, the "useless use..." warning can be suppressed using the -void
option:
say $data;
prompt('END OF DATA. Press any key to exit', -echo, -single, -void);
exit;
Simulating input
IO::Prompter provides a mechanism with which you can "script" a sequence of inputs to an application. This is particularly useful when demonstrating software during a presentation, as you do not have to remember what to type, or concentrate on typing at all.
If you pass a string as an argument to use IO::Prompter
, the individual lines of that string are used as successive input lines to any call to prompt()
. So for example, you could specify several sets of input data, like so:
use IO::Prompter <<END_DATA
Leslie
45
165
Jessie
28
178
Dana
12
120
END_DATA
and then read this data in an input loop:
while (my $name = prompt 'Name:') {
my $age = prompt 'Age:';
my $height = prompt 'Height:';
process($name, $age, $height);
}
Because the use IO::Prompter
supplies input data, the three calls to prompt()
will no longer read data from *ARGV
. Instead they will read it from the supplied input data.
Moreover, each call to prompt()
will simulate the typing-in process automatically. That is, prompt()
uses a special input mode where, each time you press a keyboard letter, it echoes not that character, but rather the next character from the specified input. The effect is that you can just type on the keyboard at random, but have the correct input appear. This greatly increases the convincingness of the simulation.
If at any point, you hit <ENTER>/<RETURN>
on the keyboard, prompt()
finishes typing in the input for you (using a realistic typing speed), and returns the input string. So you can also just hit <ENTER>/<RETURN>
when the prompt first appears, to have the entire line of input typed for you.
Alternatively, if you hit <ESC>
at any point, prompt()
escapes from the simulated input mode for that particular call to prompt()
, and allows you to (temporarily) type text in directly. If you enter only a single <ESC>
, then prompt()
throws away the current line of simulated input; if you enter two <ESC>
's, the simulated input is merely deferred to the next call to prompt()
.
All these keyboard behaviours require the Term::ReadKey module to be available. If it isn't, prompt()
falls back on a simpler simulation, where it just autotypes each entire line for you and pauses at the end of the line, waiting for you to hit <ENTER>/<RETURN>
manually.
Note that any line of the simulated input that begins with a <CTRL-D> or <CTRL-Z> is treated as an input failure (just as if you'd typed that character as input).
DIAGNOSTICS
All non-fatal diagnostics can be disabled using a no warnings
with the appropriate category.
prompt(): Can't open *ARGV: %s
-
(F) By default,
prompt()
attempts to read input from the*ARGV
filehandle. However, it failed to open that filehandle. The reason is specified at the end of the message. prompt(): Missing value for %s (expected %s)
-
(F) A named option that requires an argument was specified, but no argument was provided after the option. See "Summary of options".
prompt(): Invalid value for %s (expected %s)
-
(F) The named option specified expects an particular type of argument, but found one of an incompatible type instead. See "Summary of options".
prompt(): Unknown option %s ignored
-
(W misc)
prompt()
was passed a string starting with a hyphen, but could not parse that string as a valid option. The option may have been misspelt. Alternatively, if the string was supposed to be (part of) the prompt, it will be necessary to use the-prompt
option to specify it. prompt(): Unexpected argument (% ref) ignored
-
(W reserved)
prompt()
was passed a reference to an array or hash or subroutine in a position where an option flag or a prompt string was expected. This may indicate that a string variable in the argument list didn't contain what was expected, or a reference variable was not properly dereferenced. Alternatively, the argument may have been intended as the argument to an option, but has become separated from it somehow, or perhaps the option was deleted without removing the argument as well. Useless use of prompt() in void context
-
(W void)
prompt()
was called but its return value was not stored or used in any way. Since the subroutine has no side effects in void context, calling it this way achieves nothing. Either make use of the return value directly or, if the usage is deliberate, put ascalar
in front of the call to remove the void context. prompt(): -default value does not satisfy -must constraints
-
(W misc) The
-must
flag was used to specify one or more input constraints. The-default
flag was also specified. Unfortunately, the default value provided did not satisfy the requirements specified by the-must
flag. The call toprompt()
will still go ahead (after issuing the warning), but the default value will never be returned, since the constraint check will reject it. It is probably better simply to include the default value in the list of constraints. prompt(): -keyletters found too many defaults
-
(W ambiguous) The
-keyletters
option was specified, but analysis of the prompt revealed two or more character sequences enclosed in square brackets. Since such sequences are taken to indicate a default value, having two or more makes the default ambiguous. The prompt should be rewritten with no more than one set of square brackets. Warning: next input will be in plaintext
-
(W bareword) The
prompt()
subroutine was called with the-echo
flag, but the Term::ReadKey module was not available to implement this feature. The input will proceed as normal, but this warning is issued to ensure that the user doesn't type in something secret, expecting it to remain hidden, which it won't. -
(W misc) A
-menu
was specified with more than 52 choices. Because, by default, menus use upper and lower- case alphabetic characters as their selectors, there were no available selectors for the extra items after the first 52. Either reduce the number of choices to 52 or less, or else add the-number
option to use numeric selectors instead.
CONFIGURATION AND ENVIRONMENT
IO::Prompter can be configured by setting any of the following environment variables:
$IO_PROMPTER_COMPLETE_KEY
-
Specifies the key used to initiate user-specified completions. Defaults to <TAB>
$IO_PROMPTER_HISTORY_KEY
-
Specifies the key used to initiate history completions. Defaults to <CTRL-R>
$IO_PROMPTER_COMPLETE_MODES
-
Specifies the response sequence for user-defined completions. Defaults to
'list+longest full'
$IO_PROMPTER_HISTORY_MODES
-
Specifies the response sequence for history completions. Defaults to
'full'
.
DEPENDENCIES
Requires the Contextual::Return module.
The module also works much better if Term::ReadKey is available (though this is not essential).
INCOMPATIBILITIES
This module does not play well with Moose (or more specifically, with Moose::Exporter) because both of them try to play sneaky games with Scalar::Util::blessed.
The current solution is to make sure that you load Moose before loading IO::Prompter. Even just doing this:
use Moose ();
use IO::Prompter;
is sufficient.
BUGS AND LIMITATIONS
No unresolved bugs have been reported.
Please report any bugs or feature requests to bug-io-prompter@rt.cpan.org
, or through the web interface at http://rt.cpan.org.
AUTHOR
Damian Conway <DCONWAY@CPAN.org>
LICENCE AND COPYRIGHT
Copyright (c) 2009, Damian Conway <DCONWAY@CPAN.org>
. All rights reserved.
This module is free software; you can redistribute it and/or modify it under the same terms as Perl itself. See perlartistic.
DISCLAIMER OF WARRANTY
BECAUSE THIS SOFTWARE IS LICENSED FREE OF CHARGE, THERE IS NO WARRANTY FOR THE SOFTWARE, TO THE EXTENT PERMITTED BY APPLICABLE LAW. EXCEPT WHEN OTHERWISE STATED IN WRITING THE COPYRIGHT HOLDERS AND/OR OTHER PARTIES PROVIDE THE SOFTWARE "AS IS" WITHOUT WARRANTY OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE ENTIRE RISK AS TO THE QUALITY AND PERFORMANCE OF THE SOFTWARE IS WITH YOU. SHOULD THE SOFTWARE PROVE DEFECTIVE, YOU ASSUME THE COST OF ALL NECESSARY SERVICING, REPAIR, OR CORRECTION.
IN NO EVENT UNLESS REQUIRED BY APPLICABLE LAW OR AGREED TO IN WRITING WILL ANY COPYRIGHT HOLDER, OR ANY OTHER PARTY WHO MAY MODIFY AND/OR REDISTRIBUTE THE SOFTWARE AS PERMITTED BY THE ABOVE LICENCE, BE LIABLE TO YOU FOR DAMAGES, INCLUDING ANY GENERAL, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES ARISING OUT OF THE USE OR INABILITY TO USE THE SOFTWARE (INCLUDING BUT NOT LIMITED TO LOSS OF DATA OR DATA BEING RENDERED INACCURATE OR LOSSES SUSTAINED BY YOU OR THIRD PARTIES OR A FAILURE OF THE SOFTWARE TO OPERATE WITH ANY OTHER SOFTWARE), EVEN IF SUCH HOLDER OR OTHER PARTY HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.