NAME
Data::Sah - Fast and featureful data structure validation
VERSION
This document describes version 0.908 of Data::Sah (from Perl
distribution Data-Sah), released on 2020-05-21.
SYNOPSIS
Non-OO interface:
use Data::Sah qw(
normalize_schema
gen_validator
);
my $v;
# generate a validator for schema
$v = gen_validator(["int*", min=>1, max=>10]);
# validate your data using the generated validator
say "valid" if $v->(5); # valid
say "valid" if $v->(11); # invalid
say "valid" if $v->(undef); # invalid
say "valid" if $v->("x"); # invalid
# generate validator which reports error message string
$v = gen_validator(["int*", min=>1, max=>10],
{return_type=>'str_errmsg', lang=>'id_ID'});
# ditto but the error message will be in Indonesian
$v = gen_validator(["int*", min=>1, max=>10],
{return_type=>'str_errmsg', lang=>'id_ID'});
say $v->(5); # ''
say $v->(12); # 'Data tidak boleh lebih besar dari 10'
# (in English: 'Data must not be larger than 10')
# normalize a schema
my $nschema = normalize_schema("int*"); # => ["int", {req=>1}, {}]
normalize_schema(["int*", min=>0]); # => ["int", {min=>0, req=>1}, {}]
OO interface (more advanced usage):
use Data::Sah;
my $sah = Data::Sah->new;
# get perl compiler
my $pl = $sah->get_compiler("perl");
# compile schema into Perl code
my $cd = $pl->compile(schema => ["int*", min=>0]);
say $cd->{result};
will print something like:
# req #0
(defined($data))
&&
# check type 'int'
(Scalar::Util::Numeric::isint($data))
&&
(# clause: min
($data >= 0))
To see the full validator code (with "sub {}" and all), you can do
something like:
% LOG_SAH_VALIDATOR_CODE=1 TRACE=1 perl -MLog::ger::LevelFromEnv -MLog::ger::Output=Screen -MData::Sah=gen_validator -E'gen_validator(["int*", min=>0])'
which will print log message like:
normalized schema=['int',{min => 0,req => 1},{}]
validator code:
1|do {
2| require Scalar::Util::Numeric;
3| sub {
4| my ($data) = @_;
5| my $_sahv_res =
|
7| # req #0
8| (defined($data))
|
10| &&
|
12| # check type 'int'
13| (Scalar::Util::Numeric::isint($data))
|
15| &&
|
17| (# clause: min
18| ($data >= 0));
|
20| return($_sahv_res);
21| }}
DESCRIPTION
This distribution, "Data-Sah", implements compilers for producing Perl
and JavaScript validators, as well as translatable human description
text from Sah schemas. Compiler approach is used instead of interpreter
for faster speed.
The generated validator code can run without the "Data::Sah::*" modules.
STATUS
Some features are not implemented yet:
* def/subschema
* obj: meths, attrs properties
* .prio, .err_msg, .ok_err_msg attributes
* .result_var attribute
* BaseType: more forms of if clause
Only the basic form of the "if" clause is implemented.
* BaseType: postfilters
* BaseType: prefilters.temp
* BaseType: check, prop, check_prop clauses
* HasElems: each_index, check_each_elem, check_each_index, exists
clauses
* HasElems: len, elems, indices properties
* hash: check_each_key, check_each_value, allowed_keys_re,
forbidden_keys_re clauses
* array: uniq clauses
* human compiler: markdown output
VARIABLES
$Log_Validator_Code (bool, default: 0)
MODULE ORGANIZATION
Data::Sah::Type::* roles specify Sah types, e.g. "Data::Sah::Type::bool"
specifies the bool type. It can also be used to name distributions that
introduce new types, e.g. "Data-Sah-Type-complex" which introduces
complex number type.
Data::Sah::FuncSet::* roles specify bundles of functions, e.g.
<Data::Sah::FuncSet::Core> specifies the core/standard functions.
Data::Sah::Compiler::$LANG:: namespace is for compilers. Each compiler
might further contain "::TH::*" (type handler) and "::FSH::*" (function
handler) subnamespaces to implement appropriate functionalities, e.g.
Data::Sah::Compiler::perl::TH::bool is the bool type handler for the
Perl compiler, Data::Sah::Compiler::perl::FSH::Core is the Core funcset
handler for Perl compiler.
Data::Sah::Coerce::$LANG::To_$TARGET_TYPE::From_$SOURCE_TYPE::$DESCRIPTI
ON contains coercion rules.
Data::Sah::Filter::$LANG::$TOPIC::$DESCRIPTION contains filtering rules.
Data::Sah::TypeX::$TYPENAME::$CLAUSENAME namespace can be used to name
distributions that extend an existing Sah type by introducing a new
clause for it. See Data::Sah::Manual::Extending for an example.
Data::Sah::Lang::$LANGCODE namespaces are for modules that contain
translations. They are further organized according to the organization
of other Data::Sah modules, e.g. Data::Sah::Lang::en_US::Type::int or
"Data::Sah::Lang::en_US::TypeX::str::is_palindrome".
Sah::Schema:: namespace is reserved for modules that contain schemas in
their $schema package variables. For example, Sah::Schema::posint.
Sah::Schemas::* are module names for distributions that bundle several
"Sah::Schema::*" modules. For example Sah::Schemas::Int contains various
schemas for integers such as Sah::Schema::uint, Sah::Schema::int8, and
so on.
Sah::SchemaR:: namespace is reserved to store resolved version of
schema. For example, Sah::Schema::unix::local_username contains the
definition for the schema "unix::local_username" which is
"unix::username" with some additional coerce rules. "unix::username" in
turn is defined in Sah::Schema::unix::username which is base type "str"
with some clauses like minimum and maximum length as well as regular
expression for valid pattern. To find out the base type of a schema
(which might be defined based on another schema), one has to perform one
to several lookups to "Sah::Schema::*" modules. A "Sah::SchemaR::*"
module, however, contains the "resolved" version of the definition, so
by looking at Sah::SchemaR::unix::local_username one can know that the
schema eventually is based on the base type "str". See
Dist::Zilla::Plugin::Sah::Schemas.
Sah::SchemaV:: namespace is reserved to store generated schema validator
code. See Dist::Zilla::Plugin::Rinci::GenValidator.
FUNCTIONS
None exported by default.
normalize_schema($schema) => ARRAY
Normalize $schema.
Can also be used as a method.
gen_validator($schema, \%opts) => CODE (or STR)
Generate validator code for $schema. Can also be used as a method. Known
options (unknown options will be passed to Perl schema compiler):
* accept_ref => BOOL (default: 0)
Normally the generated validator accepts data, as in:
$res = $vdr->($data);
$res = $vdr->(42);
If this option is set to true, validator accepts reference to data
instead, as in:
$res = $vdr->(\$data);
This allows $data to be modified by the validator (mainly, to set
default value specified in schema). For example:
my $data;
my $vdr = gen_validator([int => {min=>0, max=>10, default=>5}],
{accept_ref=>1});
my $res = $vdr->(\$data);
say $res; # => 1 (success)
say $data; # => 5
* source => BOOL (default: 0)
If set to 1, return source code string instead of compiled
subroutine. Usually only needed for debugging (but see also
$Log_Validator_Code and "LOG_SAH_VALIDATOR_CODE" if you want to log
validator source code).
ATTRIBUTES
compilers => HASH
A mapping of compiler name and compiler ("Data::Sah::Compiler::*")
objects.
METHODS
new() => OBJ
Create a new Data::Sah instance.
$sah->get_compiler($name) => OBJ
Get compiler object. "Data::Sah::Compiler::$name" will be loaded first
and instantiated if not already so. After that, the compiler object is
cached.
Example:
my $plc = $sah->get_compiler("perl"); # loads Data::Sah::Compiler::perl
$sah->normalize_schema($schema) => HASH
Normalize a schema, e.g. change "int*" into "[int => {req=>1}]", as well
as do some sanity checks on it. Returns the normalized schema if
succeeds, or dies on error.
Can also be used as a function.
Note: this functionality is implemented in Data::Sah::Normalize
(distributed separately in Data-Sah-Normalize). Use that module instead
if you just need normalizing schemas, to reduce dependencies.
$sah->normalize_clset($clset[, \%opts]) => HASH
Normalize a clause set, e.g. change "{"!match"=>"abc"}" into
"{"match"=>"abc", "match.op"=>"not"}". Produce a shallow copy of the
input clause set hash.
Can also be used as a function.
$sah->normalize_var($var) => STR
Normalize a variable name in expression into its fully
qualified/absolute form.
Not yet implemented (pending specification).
For example:
[int => {min => 10, 'max=' => '2*$min'}]
$min in the above expression will be normalized as "schema:clauses.min".
$sah->gen_validator($schema, \%opts) => CODE
Use the Perl compiler to generate validator code. Can also be used as a
function. See the documentation as a function for list of known options.
FAQ
See also Sah::FAQ.
Comparison to {JSON::Schema, Data::Rx, Data::FormValidator, ...}?
See Sah::FAQ.
Why is it so slow?
You probably do not reuse the compiled schema, e.g. you continually
destroy and recreate Data::Sah object, or repeatedly recompile the same
schema. To gain the benefit of compilation, you need to keep the
compiled result and use the generated Perl code repeatedly.
Can I generate another schema dynamically from within the schema?
For example:
// if first element is an integer, require the array to contain only integers,
// otherwise require the array to contain only strings.
["array", {"min_len": 1, "of=": "[is_int($_[0]) ? 'int':'str']"}]
Currently no, Data::Sah does not support expression on clauses that
contain other schemas. In other words, dynamically generated schemas are
not supported. To support this, if the generated code needs to run
independent of Data::Sah, it needs to contain the compiler code itself
(or an interpreter) to compile or evaluate the generated schema.
However, an "eval_schema()" Sah function which uses Data::Sah can be
trivially declared and target the Perl compiler.
How to display the validator code being generated?
Use the "source => 1" option in "gen_validator()".
If you use the OO interface, e.g.:
# generate perl code
my $cd = $plc->compile(schema=>..., ...);
then the generated code is in "$cd->{result}" and you can just print it.
If you generate validator using "gen_validator()", you can set
environment LOG_SAH_VALIDATOR_CODE or package variable
$Log_Validator_Code to true and the generated code will be logged at
trace level using Log::ger. The log can be displayed using, e.g.,
Log::ger::Output::Screen:
% LOG_SAH_VALIDATOR_CODE=1 TRACE=1 \
perl -MLog::ger::LevelFromEnv -MLog::ger::Output=Screen \
-MData::Sah=gen_validator -e '$sub = gen_validator([int => min=>1, max=>10])'
Sample output:
normalized schema=['int',{max => 10,min => 1},{}]
schema already normalized, skipped normalization
validator code:
1|do {
2| require Scalar::Util::Numeric;
3| sub {
4| my ($data) = @_;
5| my $_sahv_res =
|
7| # skip if undef
8| (!defined($data) ? 1 :
|
10| (# check type 'int'
11| (Scalar::Util::Numeric::isint($data))
|
13| &&
|
15| (# clause: min
16| ($data >= 1))
|
18| &&
|
20| (# clause: max
21| ($data <= 10))));
|
23| return($_sahv_res);
24| }}
Lastly, you can also use validate-with-sah CLI utility from the
App::SahUtils distribution (use the "--show-code" option).
How to show the validation error message? The validator only returns true/false!
Pass the "return_type=>"str_errmsg"" to get an error message string on
error, or "return_type=>"hash_details"" to get a hash of detailed error
messages. Note also that the error messages are translateable (e.g. use
"LANG" or "lang=>..." option. For example:
my $v = gen_validator([int => between => [1,10]], {return_type=>"str_errmsg"});
say "$_: ", $v->($_) for 1, "x", 12;
will output:
1:
"x": Input is not of type integer
12: Must be between 1 and 10
How to show all the error and warning messages?
If you pass "return_type=>"hash_details"" then the generated validator
code can return a hashref containing all the errors (in the "errors"
key) and warnings (in the "warnings" key) instead of just a boolean
(when "return_type=>"bool_valid"") or a string containing the first
encountered error message (when "return_type=>"str_errmsg"") .
How to get the data value with the default filled in, or coercion done?
If you use "return_type=>"hash_details"", the generated validator code
will also return the input data after the default is filled in or
coercion is done in the "value" key of the result hashref. Or, if you do
not need a validator that checks for all errors/warnings, you can use
"return_type=>"bool_valid+val"" or "return_type=>"str_errmsg+val"". For
example:
my $v = gen_validator(["date", {"x.perl.coerce_to"=>"DateTime"}],
{return_type=>"str_errmsg+val"});
my ($err, $val) = @{ $v->("2016-05-14") };
The validator will return an error message string (or an empty string if
validation succeeds) as well as the final value. In the example above,
$val will contain a DateTime object. This is convenient because the
final value is what is usually used further after validation process.
What does the "@..." prefix that is sometimes shown on the error message mean?
It shows the path to data item that fails the validation, e.g.:
my $v = gen_validator([array => of => [int=>min=>5], {return_type=>"str_errmsg"});
say $v->([10, 5, "x"]);
prints:
@[2]: Input is not of type integer
which means that the third element (subscript 2) of the array fails the
validation. Another example:
my $v = gen_validator([array => of => [hash=>keys=>{a=>"int"}]]);
say $v->([{}, {a=>1.1}]);
prints:
@[1][a]: Input is not of type integer
Note that for validator that returns full result hashref
("return_type=>"hash_details"") the error messages in the "errors" key
are also keyed with data path, albeit in a slightly different format
(i.e. slash-separated, e.g. 2 and "1/a") for easier parsing.
How to show the process of validation by the compiled code?
If you are generating Perl code from schema, you can pass "debug=>1"
option so the code contains logging (Log::ger-based) and other debugging
information, which you can display. For example:
% TRACE=1 perl -MLog::ger::LevelFromEnv -MLog::ger::Output=Screen \
-MData::Sah=gen_validator -E'
$v = gen_validator([array => of => [hash => {req_keys=>["a"]}]],
{return_type=>"str_errmsg", debug=>1});
say "Validation result: ", $v->([{a=>1}, "x"]);'
will output:
...
[spath=[]]skip if undef ...
[spath=[]]check type 'array' ...
[spath=['of']]clause: {"of":["hash",{"req_keys":["a"]}]} ...
[spath=['of']]skip if undef ...
[spath=['of']]check type 'hash' ...
[spath=['of','req_keys']]clause: {"req_keys":["a"]} ...
[spath=['of']]skip if undef ...
[spath=['of']]check type 'hash' ...
Validation result: [spath=of]@1: Input is not of type hash
What else can I do with the compiled code?
Data::Sah offers some options in code generation. Beside compiling the
validator code into a subroutine, there are also some other options.
Examples:
* Dist::Zilla::Plugin::Rinci::Validate
This plugin inserts the generated code (without the "sub { ... }"
wrapper) to validate the content of %args right before "#
VALIDATE_ARG" or "# VALIDATE_ARGS" like below:
$SPEC{foo} = {
args => {
arg1 => { schema => ..., req=>1 },
arg2 => { schema => ... },
},
...
};
sub foo {
my %args = @_; # VALIDATE_ARGS
}
The schemas will be retrieved from the Rinci metadata ($SPEC{foo}
above). This means, subroutines in your built distribution will do
argument validation.
* Perinci::Sub::Wrapper
This module is part of the Perinci family. What the module does is
basically wrap your subroutine with a wrapper code that can include
validation code (among others). This is a convenient way to add
argument validation to an existing subroutine/code.
ENVIRONMENT
LOG_SAH_VALIDATOR_CODE => bool
If set to true, will log (using Log::ger, at the trace level) the
validator code being generated. See "SYNOPSIS" or "FAQ" for example on
how to see this log message.
HOMEPAGE
Please visit the project's homepage at
<https://metacpan.org/release/Data-Sah>.
SOURCE
Source repository is at <https://github.com/perlancar/perl-Data-Sah>.
BUGS
Please report any bugs or feature requests on the bugtracker website
<https://rt.cpan.org/Public/Dist/Display.html?Name=Data-Sah>
When submitting a bug or request, please include a test-file or a patch
to an existing test-file that illustrates the bug or desired feature.
SEE ALSO
Data::Sah::Tiny, Params::Sah
Other interpreted validators
Params::Validate is very fast, although minimal. Data::Rx, Kwalify,
Data::Verifier, Data::Validator, JSON::Schema, Validation::Class.
For Moo/Mouse/Moose stuffs: Moose type system, MooseX::Params::Validate,
among others.
Form-oriented: Data::FormValidator, FormValidator::Lite, among others.
Other compiled validators
Type::Tiny
Params::ValidationCompiler
AUTHOR
perlancar <perlancar@cpan.org>
COPYRIGHT AND LICENSE
This software is copyright (c) 2020, 2019, 2018, 2017, 2016, 2015, 2014,
2013, 2012 by perlancar@cpan.org.
This is free software; you can redistribute it and/or modify it under
the same terms as the Perl 5 programming language system itself.