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package TUWF::Validate::Interop;
use strict;
use warnings;
use TUWF::Validate;
use Exporter 'import';
use Carp 'croak';
our @EXPORT_OK = ('analyze');
our $VERSION = '1.5';
# Analyzed ("flattened") object:
# { type => scalar | bool | num | int | array | hash | any
# , min, max, minlength, maxlength, required, regexes
# , keys, values, unknown
# }
sub _merge_type {
my($c, $o) = @_;
my $n = $c->{name}||'';
return if $o->{type} eq 'int' || $o->{type} eq 'bool';
$o->{type} = 'int' if $n eq 'int' || $n eq 'uint';
$o->{type} = 'bool' if $n eq 'anybool' || $n eq 'undefbool' || $n eq 'jsonbool';
$o->{type} = 'num' if $n eq 'num';
}
sub _merge {
my($c, $o) = @_;
_merge_type $c, $o;
$o->{required} = 1 if ($c->{name}||'') eq 'anybool';
$o->{values} = _merge_toplevel($c->{schema}{values}, $o->{values}||{}) if $c->{schema}{values};
if($c->{schema}{keys}) {
$o->{keys} ||= {};
$o->{keys}{$_} = _merge_toplevel($c->{schema}{keys}{$_}, $o->{keys}{$_}||{}) for keys %{$c->{schema}{keys}};
}
$o->{minlength} = $c->{schema}{_analyze_minlength} if defined $c->{schema}{_analyze_minlength} && (!defined $o->{minlength} || $o->{minlength} < $c->{schema}{_analyze_minlength});
$o->{maxlength} = $c->{schema}{_analyze_maxlength} if defined $c->{schema}{_analyze_maxlength} && (!defined $o->{maxlength} || $o->{maxlength} > $c->{schema}{_analyze_maxlength});
$o->{min} = $c->{schema}{_analyze_min} if defined $c->{schema}{_analyze_min} && (!defined $o->{min} || $o->{min} < $c->{schema}{_analyze_min} );
$o->{max} = $c->{schema}{_analyze_max} if defined $c->{schema}{_analyze_max} && (!defined $o->{max} || $o->{max} > $c->{schema}{_analyze_max} );
push @{$o->{regexes}}, $c->{schema}{_analyze_regex} if defined $c->{schema}{_analyze_regex};
_merge($_, $o) for @{$c->{validations}};
}
sub _merge_toplevel {
my($c, $o) = @_;
$o->{required} ||= !exists $c->{schema}{default};
$o->{unknown} ||= $c->{schema}{unknown};
$o->{default} = $c->{schema}{default} if exists $c->{schema}{default};
$o->{type} = $c->{schema}{type} if !$o->{type} || $o->{type} eq 'any';
_merge $c, $o;
bless $o, __PACKAGE__;
}
sub analyze {
my $c = shift;
$c->{analysis} ||= _merge_toplevel $c, {};
$c->{analysis}
}
# Assumes that $obj already has the required format/structure, odd things may
# happen if this is not the case.
# unknown => remove|reject|pass
sub coerce_for_json {
my($o, $obj, %opt) = @_;
$opt{unknown} ||= $o->{unknown};
return undef if !defined $obj;
return $obj+0 if $o->{type} eq 'num';
return int $obj if $o->{type} eq 'int';
return $obj ? \1 : \0 if $o->{type} eq 'bool';
return "$obj" if $o->{type} eq 'scalar';
return [map $o->{values}->coerce_for_json($_, %opt), @$obj] if $o->{type} eq 'array' && $o->{values};
return {map {
$o->{keys}{$_} ? ($_, $o->{keys}{$_}->coerce_for_json($obj->{$_}, %opt)) :
$opt{unknown} eq 'pass' ? ($_, $obj->{$_}) :
$opt{unknown} eq 'remove' ? ()
: croak "Unknown key '$_' in hash in coerce_for_json()"
} keys %$obj} if $o->{type} eq 'hash' && $o->{keys};
$obj
}
# Returns a Cpanel::JSON::XS::Type; Behavior is subtly different compared to coerce_for_json():
# - Unknown keys in hashes will cause Cpanel::JSON::XS to die()
# - Numbers are always formatted as floats (e.g. 10.0) even if it's a round nunmber
sub json_type {
my $o = shift;
require Cpanel::JSON::XS::Type;
return Cpanel::JSON::XS::Type::JSON_TYPE_FLOAT_OR_NULL() if $o->{type} eq 'num';
return Cpanel::JSON::XS::Type::JSON_TYPE_INT_OR_NULL() if $o->{type} eq 'int';
return Cpanel::JSON::XS::Type::JSON_TYPE_BOOL_OR_NULL() if $o->{type} eq 'bool';
return Cpanel::JSON::XS::Type::JSON_TYPE_STRING_OR_NULL() if $o->{type} eq 'scalar';
return Cpanel::JSON::XS::Type::json_type_null_or_anyof(Cpanel::JSON::XS::Type::json_type_arrayof($o->{values} ? $o->{values}->json_type : undef)) if $o->{type} eq 'array';
return Cpanel::JSON::XS::Type::json_type_null_or_anyof({ map +($_, $o->{keys}{$_}->json_type), keys %{$o->{keys}} }) if $o->{type} eq 'hash' && $o->{keys};
return Cpanel::JSON::XS::Type::json_type_null_or_anyof(Cpanel::JSON::XS::Type::json_type_hashof(undef)) if $o->{type} eq 'hash';
undef
}
# Attempts to convert a stringified Perl regex into something that is compatible with JS.
# - @ should not be escaped
# - (?^: is a perl alias for (?d-imnsx:
# - Javascript doesn't officially support embedded modifiers in the first place, so these are removed
# Regexes compiled with any of /imsx will not work properly.
sub _re_compat {
local $_ = $_[0];
s/\\@/@/g;
s{\(\?\^?[alupimnsx]*(?:-[imnsx]+)?(?=[:\)])}{(?}g;
$_
}
sub _join_regexes {
my %r = map +($_,1), @{$_[0]};
my @r = sort keys %r;
_re_compat join('', map "(?=$_)", @r[0..$#r-1]).$r[$#r]
}
# Returns a few HTML5 validation properties. Doesn't include the 'type'
sub html5_validation {
my $o = shift;
+(
$o->{required} ? (required => 'required') : (),
defined $o->{minlength} ? (minlength => $o->{minlength}) : (),
defined $o->{maxlength} ? (maxlength => $o->{maxlength}) : (),
defined $o->{min} ? (min => $o->{min} ) : (),
defined $o->{max} ? (max => $o->{max} ) : (),
$o->{regexes} ? (pattern => _join_regexes $o->{regexes}) : (),
);
}
# The elm_ are experimental, unstable, not very well-tested and for Elm 0.19
# Options: required any array values keys indent level
sub elm_type {
my($o, %opt) = @_;
my $par = delete $opt{_need_parens} ? sub { "($_[0])" } : sub { $_[0] };
return $par->('Maybe ' . $o->elm_type(%opt, required => 1, _need_parens => 1)) if (ref $o->{default} eq 'CODE' || (!$o->{required} && !defined $o->{default})) && !$opt{required};
delete $opt{required};
return 'String' if $o->{type} eq 'scalar';
return 'Bool' if $o->{type} eq 'bool';
return 'Float' if $o->{type} eq 'num';
return 'Int' if $o->{type} eq 'int';
return $opt{any} if $o->{type} eq 'any' && $opt{any};
return $par->( ($opt{array} || 'List') . ' ' . ($opt{values} || $o->{values}->elm_type(%opt, _need_parens => 1)) )
if $o->{type} eq 'array' && ($opt{values} || $o->{values});
if($o->{type} eq 'hash' && ($o->{keys} || $opt{keys})) {
$opt{indent} //= 2;
$opt{level} //= 1;
my $len = 0;
$len = length $_ > $len ? length $_ : $len for keys %{$o->{keys}};
my $r = "\n{ " . join("\n, ", map {
sprintf "%-*s : %s", $len, $_, $opt{keys}{$_} || $o->{keys}{$_}->elm_type(%opt, level => $opt{level}+1);
} sort keys %{$o->{keys}}) . "\n}";;
$r =~ s/\n/$opt{indent} ? "\n" . (' 'x($opt{indent}*$opt{level})) : ''/eg;
return $r;
}
croak "Unknown type '$o->{type}' or missing option";
}
# Elm JSON encoder for values of elm_type()
# options: elm_type() options + json_encode var_prefix
sub elm_encoder {
my($o, %opt) = @_;
$opt{json_encode} //= '';
$opt{var_prefix} //= 'e';
$opt{var_num} //= 0;
return sprintf '(Maybe.withDefault %snull << Maybe.map %s)',
$opt{json_encode}, $opt{values} || $o->elm_encoder(%opt, required => 1)
if (ref $o->{default} eq 'CODE' || (!$o->{required} && !defined $o->{default})) && !$opt{required};
delete $opt{required};
return "$opt{json_encode}string" if $o->{type} eq 'scalar';
return "$opt{json_encode}bool" if $o->{type} eq 'bool';
return "$opt{json_encode}float" if $o->{type} eq 'num';
return "$opt{json_encode}int" if $o->{type} eq 'int';
return $opt{any} if $o->{type} eq 'any' && $opt{any};
return sprintf '(%slist %s)', $opt{json_encode}, $opt{values} || $o->{values}->elm_encoder(%opt)
if $o->{type} eq 'array' && ($opt{values} || $o->{values});
if($o->{type} eq 'hash' && ($o->{keys} || $opt{keys})) {
$opt{indent} //= 2;
$opt{level} //= 1;
my $len = 0;
$len = length $_ > $len ? length $_ : $len for keys %{$o->{keys}};
my $var = $opt{var_prefix}.$opt{var_num};
my $r = sprintf "(\\%s -> %sobject\n[ %s\n])", $var, $opt{json_encode}, join "\n, ", map {
sprintf '("%s",%s %s %s.%1$s)', $_,
' 'x($len-(length $_)),
$opt{keys}{$_} || $o->{keys}{$_}->elm_encoder(%opt, level => $opt{level}+1, var_num => $opt{var_num}+1),
$var;
} sort keys %{$o->{keys}};
$r =~ s/\n/$opt{indent} ? "\n" . (' 'x($opt{indent}*$opt{level})) : ''/eg;
return $r;
}
croak "Unknown type '$o->{type}' or missing option";
}
# Elm JSON decoder for values of elm_type()
# options: elm_type() options + json_decode var_prefix
sub elm_decoder {
my($o, %opt) = @_;
$opt{json_decode} //= '';
$opt{var_prefix} //= 'd';
return sprintf '(%snullable %s)',
$opt{json_decode}, $opt{values} || $o->elm_decoder(%opt, required => 1)
if !$o->{required} && !defined $o->{default} && !$opt{required};
delete $opt{required};
return "$opt{json_decode}string" if $o->{type} eq 'scalar';
return "$opt{json_decode}bool" if $o->{type} eq 'bool';
return "$opt{json_decode}float" if $o->{type} eq 'num';
return "$opt{json_decode}int" if $o->{type} eq 'int';
return $opt{any} if $o->{type} eq 'any' && $opt{any};
return "$opt{json_decode}value" if $o->{type} eq 'any';
return sprintf '(%slist %s)', $opt{json_decode}, $opt{values} || $o->{values}->elm_decoder(%opt)
if $o->{type} eq 'array' && ($opt{values} || $o->{values});
if($o->{type} eq 'hash' && ($o->{keys} || $opt{keys})) {
$opt{indent} //= 2;
$opt{level} //= 1;
my $len = 0;
$len = length $_ > $len ? length $_ : $len for keys %{$o->{keys}};
my $r;
my $num = keys %{$o->{keys}};
my $varnum = 1;
my $getvar = sub { $opt{var_prefix}.($varnum++) };
# For 8 members or less we can use the simple Json.Decode.map* functions.
if($num <= 8) {
my(@fnarg, @assign, @fetch);
for (sort keys %{$o->{keys}}) {
my $var = $getvar->();
push @fnarg, $var;
push @assign, "$_ = $var";
push @fetch, sprintf '(%sfield "%s"%s %s)', $opt{json_decode}, $_,
' 'x($len-(length $_)),
$opt{keys}{$_} || $o->{keys}{$_}->elm_decoder(%opt, var_prefix => $var, level => $opt{level}+1);
}
$r = sprintf "(%smap%s\n(\\%s -> { %s })\n%s)",
$opt{json_decode}, $num == 1 ? '' : $num, join(' ', @fnarg), join(', ', @assign), join("\n", @fetch);
# For larger hashes we go through Json.Decode.dict and a little custom decoding logic.
# Json.Decode only allows failing with an error string, so the error messages aren't as good.
} else {
my($dict, $fn, $name, $dec, $next, $cap) = map $getvar->(), 1..6;
my(@assign, @fn);
for (sort keys %{$o->{keys}}) {
my $var = $getvar->();
push @assign, "$_ = $var";
push @fn, sprintf '%s "%s"%s %s (\%s ->', $fn, $_,
' 'x($len-(length $_)),
$opt{keys}{$_} || $o->{keys}{$_}->elm_decoder(%opt, var_prefix => "${var}_", level => $opt{level}+1),
$var;
}
my $spc = ' 'x(12 + length($fn) + length($name) + length($dec) + length($next));
$r = "($opt{json_decode}andThen (\\$dict -> \n"
."let $fn $name $dec $next = case Maybe.map ($opt{json_decode}decodeValue $dec) (Dict.get $name $dict) of\n"
."${spc}Nothing -> $opt{json_decode}fail (\"Missing key '\"++$name++\"'\")\n"
."${spc}Just (Err $cap) -> $opt{json_decode}fail (\"Error decoding value of '\"++$name++\"': \"++($opt{json_decode}errorToString $cap))\n"
."${spc}Just (Ok $cap) -> $next $cap\n"
."in ".join("\n ", @fn)."\n"
." $opt{json_decode}succeed { ".join(', ', @assign)." }\n"
.')'.(')'x@fn)." ($opt{json_decode}dict $opt{json_decode}value))";
}
$r =~ s/\n/$opt{indent} ? "\n" . (' 'x($opt{indent}*$opt{level})) : ''/eg;
return $r;
}
croak "Unknown type '$o->{type}' or missing option";
}
1;
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