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6 Type::Tiny::Manual::Optimization - squeeze the most out of your CPU
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9 Type::Tiny is written with efficiency in mind, but there are techniques
10 you can use to get the best performance out of it.
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12 XS
13 The simplest thing you can do to increase performance of many of the
14 built-in type constraints is to install Type::Tiny::XS, a set of ultra-
15 fast type constraint checks implemented in C.
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17 Type::Tiny will attempt to load Type::Tiny::XS and use its type checks.
18 If Type::Tiny::XS is not available, it will then try to use Mouse if it
19 is already loaded, but Type::Tiny won't attempt to load Mouse for you.
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21 Certain type constraints can also be accelerated if you have
22 Ref::Util::XS installed.
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24 Types that can be accelerated by Type::Tiny::XS
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26 The following simple type constraints from Types::Standard will be
27 accelerated by Type::Tiny::XS: "Any", "ArrayRef", "Bool", "ClassName",
28 "CodeRef", "Defined", "FileHandle", "GlobRef", "HashRef", "Int",
29 "Item", "Object", "Map", "Ref", "ScalarRef", "Str", "Tuple", "Undef",
30 and "Value". (Note that "Num" and "RegexpRef" are not on that list.)
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32 The parameterized form of "Ref" cannot be accelerated.
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34 The parameterized forms of "ArrayRef", "HashRef", and "Map" can be
35 accelerated only if their parameters are.
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37 The parameterized form of "Tuple" can be accelerated if its parameters
38 are, it has no "Optional" components, and it does not use "slurpy".
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40 Certain type constraints may benefit partially from Type::Tiny::XS.
41 For example, "RoleName" inherits from "ClassName", so part of the type
42 check will be conducted by Type::Tiny::XS.
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44 The parameterized "InstanceOf", "HasMethods", and "Enum" type
45 constraints will be accelerated. So will Type::Tiny::Class,
46 Type::Tiny::Duck, and Type::Tiny::Enum objects. (But enums will only be
47 accelerated if the list of allowed string values consist entirely of
48 word characters and hyphens - that is: "not grep /[^\w-]/, @values".)
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50 The "PositiveInt" and "PositiveOrZeroInt" type constraints from
51 Types::Common::Numeric will be accelerated, as will the "NonEmptyStr"
52 type constraint from Types::Common::String.
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54 Type::Tiny::Union and Type::Tiny::Intersection will also be accelerated
55 if their constituent type constraints are.
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57 Types that can be accelerated by Mouse
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59 The following simple type constraints from Types::Standard will be
60 accelerated by Type::Tiny::XS: "Any", "ArrayRef", "Bool", "ClassName",
61 "CodeRef", "Defined", "FileHandle", "GlobRef", "HashRef", "Ref",
62 "ScalarRef", "Str", "Undef", and "Value". (Note that "Item", "Num",
63 "Int", "Object", and "RegexpRef" are not on that list.)
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65 The parameterized form of "Ref" cannot be accelerated.
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67 The parameterized forms of "ArrayRef" and "HashRef" can be accelerated
68 only if their parameters are.
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70 Certain type constraints may benefit partially from Mouse. For example,
71 "RoleName" inherits from "ClassName", so part of the type check will be
72 conducted by Mouse.
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74 The parameterized "InstanceOf" and "HasMethods" type constraints will
75 be accelerated. So will Type::Tiny::Class and Type::Tiny::Duck objects.
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77 Inlining Type Constraints
78 In the case of a type constraint like this:
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80 my $type = Int->where(sub { $_ >= 0 });
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82 Type::Tiny will need to call one sub to verify a value meets the Int
83 type constraint, and your coderef to check that the value is above
84 zero.
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86 Sub calls in Perl are relatively expensive in terms of memory and CPU
87 usage, so it would be good if it could be done all in one sub call.
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89 The Int type constraint knows how to create a string of Perl code that
90 checks an integer. It's something like the following. (It's actually
91 more complicated, but this is close enough as an example.)
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93 $_ =~ /^-?[0-9]+$/
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95 If you provide your check as a string instead of a coderef, like this:
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97 my $type = Int->where(q{ $_ >= 0 });
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99 Then Type::Tiny will be able to combine them into one string:
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101 ( $_ =~ /^-?[0-9]+$/ ) && ( $_ >= 0 )
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103 So Type::Tiny will be able to check values in one sub call. Providing
104 constraints as strings is a really simple and easy way of optimizing
105 type checks.
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107 But it can be made even more efficient. Type::Tiny needs to localize $_
108 and copy the value into it for the above check. If you're checking
109 ArrayRef[$type] this will be done for each element of the array. Things
110 could be made more efficient if Type::Tiny were able to directly check:
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112 ( $arrayref->[$i] =~ /^-?[0-9]+$/ ) && ( $arrayref->[$i] >= 0 )
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114 This can be done by providing an inlining sub. The sub is given a
115 variable name and can use that in the string of code it generates.
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117 my $type = Type::Tiny->new(
118 parent => Int,
119 inlined => sub {
120 my ($self, $varname) = @_;
121 return sprintf(
122 '(%s) && ( %s >= 0 )',
123 $self->parent->inline_check($varname),
124 $varname,
125 );
126 }
127 );
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129 Because it's pretty common to want to call your parent's inline check
130 and "&&" your own string with it, Type::Tiny provides a shortcut for
131 this. Just return a list of strings to smush together with "&&", and
132 if the first one is "undef", Type::Tiny will fill in the blank with the
133 parent type check.
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135 my $type = Type::Tiny->new(
136 parent => Int,
137 inlined => sub {
138 my ($self, $varname) = @_;
139 return (
140 undef,
141 sprintf('%s >= 0', $varname),
142 );
143 }
144 );
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146 There is one further optimization which can be applied to this
147 particular case. You'll note that we're checking the string matches
148 "/^-?[0-9+]$/" and then checking it's greater than or equal to zero.
149 But a non-negative integer won't ever start with a minus sign, so we
150 could inline the check to something like:
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152 $_ =~ /^[0-9]+$/
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154 While an inlined check can call its parent type check, it is not
155 required to.
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157 my $type = Type::Tiny->new(
158 parent => Int,
159 inlined => sub {
160 my ($self, $varname) = @_;
161 return sprintf('%s =~ /^[0-9]+$/', $varname);
162 }
163 );
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165 If you opt not to call the parent type check, then you need to ensure
166 your own check is at least as rigorous.
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168 Inlining Coercions
169 Moo is the only object-oriented programming toolkit that fully supports
170 coercions being inlined, but even for Moose and Mouse, providing
171 coercions as strings can help Type::Tiny optimize its coercion
172 features.
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174 For Moo, if you want your coercion to be inlinable, all the types
175 you're coercing from and to need to be inlinable, plus the coercion
176 needs to be given as a string of Perl code.
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178 Common Sense
179 The "HashRef[ArrayRef]" type constraint can probably be checked faster
180 than "HashRef[ArrayRef[Num]]". If you find yourself using very complex
181 and slow type constraints, you should consider switching to simpler and
182 faster ones. (Though this means you have to place a little more trust
183 in your caller to not supply you with bad data.)
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185 (A counter-intuitive exception to this: even though "Int" is more
186 restrictive than "Num", in most circumstances "Int" checks will run
187 faster.)
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189 Devel::StrictMode
190 One possibility is to use strict type checks when you're running your
191 release tests, and faster, more permissive type checks at other times.
192 Devel::StrictMode can make this easier.
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194 This provides a "STRICT" constant that indicates whether your code is
195 operating in "strict mode" based on certain environment variables.
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197 Attributes
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199 use Types::Standard qw( ArrayRef Num );
200 use Devel::StrictMode qw( STRICT );
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202 has numbers => (
203 is => 'ro',
204 isa => STRICT ? ArrayRef[Num] : ArrayRef,
205 default => sub { [] },
206 );
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208 It is inadvisible to do this on attributes that have coercions because
209 it can lead to inconsistent and unpredictable behaviour.
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211 Type::Params
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213 use Types::Standard qw( Num Object );
214 use Type::Params qw( compile );
215 use Devel::StrictMode qw( STRICT );
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217 sub add_number {
218 state $check;
219 $check = compile(Object, Num) if STRICT;
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221 my ($self, $num) = STRICT ? $check->(@_) : @_;
222 push @{ $self->numbers }, $num;
223 return $self;
224 }
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226 Again, you need to be careful to ensure consistent behaviour if you're
227 using coercions, defaults, slurpies, etc.
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229 Ad-Hoc Type Checks
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231 ...;
232 my $x = get_some_number();
233 assert_Int($x) if STRICT;
234 return $x + 1;
235 ...;
236
238 Here's your next step:
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240 ยท Type::Tiny::Manual::Coercions
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242 Advanced information on coercions.
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245 Toby Inkster <tobyink@cpan.org>.
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248 This software is copyright (c) 2013-2014, 2017-2020 by Toby Inkster.
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250 This is free software; you can redistribute it and/or modify it under
251 the same terms as the Perl 5 programming language system itself.
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254 THIS PACKAGE IS PROVIDED "AS IS" AND WITHOUT ANY EXPRESS OR IMPLIED
255 WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED WARRANTIES OF
256 MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE.
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260perl v5.32.0 2020-09-17Type::Tiny::Manual::Optimization(3)