Class: Puppet::Pops::Types::TypeCalculator

Inherits:

Object

• Object
• Puppet::Pops::Types::TypeCalculator

Defined in:

lib/puppet/pops/types/type_calculator.rb

Class Method Summary

• .assignable?(t1, t2) ⇒ Boolean
• .callable?(callable, args) ⇒ Boolan

  Answers, does the given callable accept the arguments given in args (an array or a tuple).

• .debug_string(t) ⇒ Object
• .enumerable(t) ⇒ Object
• .generalize(o) ⇒ Object
• .infer(o) ⇒ Object
• .infer_set(o) ⇒ Object
• .instance?(t, o) ⇒ Boolean

  Answers ‘is o an instance of type t’.

• .is_kind_of_callable?(t, optional = true) ⇒ Boolean private
• .iterable(t) ⇒ Object
• .singleton ⇒ TypeCalculator private

  The singleton instance.

• .string(t) ⇒ String

  Produces a String representation of the given type.

Instance Method Summary

• #assignable?(t, t2) ⇒ Boolean

  Answers ‘can an instance of type t2 be assigned to a variable of type t’.

• #callable?(callable, args) ⇒ Boolean

  Answers, does the given callable accept the arguments given in args (an array or a tuple).

• #common_type(t1, t2) ⇒ Object

  Answers, ‘What is the common type of t1 and t2?’.

• #debug_string(t) ⇒ Object

  Produces a debug string representing the type (possibly with more information that the regular string format).

• #enumerable(t) ⇒ Object

  Returns an iterable if the t represents something that can be iterated.

• #equals(left, right) ⇒ Object

  Answers if the two given types describe the same type.

• #generalize(o) ⇒ Object

  Generalizes value specific types.

• #infer(o) ⇒ Object

  Answers ‘what is the single common Puppet Type describing o’, or if o is an Array or Hash, what is the single common type of the elements (or keys and elements for a Hash).

• #infer_and_reduce_type(enumerable) ⇒ Object

  Reduce an enumerable of objects to a single common type.

• #infer_Array(o) ⇒ Object private
• #infer_Binary(o) ⇒ Object private
• #infer_Closure(o) ⇒ Object private
• #infer_FalseClass(o) ⇒ Object private
• #infer_Float(o) ⇒ Object private
• #infer_Function(o) ⇒ Object private
• #infer_generic(o) ⇒ Object
• #infer_Hash(o) ⇒ Object private
• #infer_Integer(o) ⇒ Object private
• #infer_Iterator(o) ⇒ Object private
• #infer_Module(o) ⇒ Object private

  The type of all modules is PType.

• #infer_NilClass(o) ⇒ Object private
• #infer_Object(o) ⇒ Object private
• #infer_PAnyType(o) ⇒ Object private

  The type of all types is PType.

• #infer_Proc(o) ⇒ Object private
• #infer_PType(o) ⇒ Object private

  The type of all types is PType This is the metatype short circuit.

• #infer_PuppetProc(o) ⇒ Object private
• #infer_Regexp(o) ⇒ Object private
• #infer_Resource(o) ⇒ Object private

  A Puppet::Parser::Resource, or Puppet::Resource.

• #infer_Sensitive(o) ⇒ Object private
• #infer_set(o) ⇒ Object

  Answers ‘what is the set of Puppet Types of o’.

• #infer_set_Array(o) ⇒ Object
• #infer_set_Hash(o) ⇒ Object
• #infer_set_Object(o) ⇒ Object

  Common case for everything that intrinsically only has a single type.

• #infer_set_Version(o) ⇒ Object private
• #infer_String(o) ⇒ Object private
• #infer_Symbol(o) ⇒ Object private

  Inference of :default as PDefaultType, and all other are Ruby.

• #infer_Timespan(o) ⇒ Object private
• #infer_Timestamp(o) ⇒ Object private
• #infer_TrueClass(o) ⇒ Object private
• #infer_Version(o) ⇒ Object private
• #infer_VersionRange(o) ⇒ Object private
• #initialize ⇒ TypeCalculator constructor

  A new instance of TypeCalculator.

• #injectable_class(klazz) ⇒ Class^?

  Answers the question ‘is it possible to inject an instance of the given class’ A class is injectable if it has a special *assisted inject* class method called ‘inject` taking an injector and a scope as argument, or if it has a zero args `initialize` method.

• #instance?(t, o) ⇒ Boolean

  Answers ‘is o an instance of type t’.

• #is_pnil?(t) ⇒ Boolean

  Answers if t represents the puppet type PUndefType.

• #is_ptype?(t) ⇒ Boolean

  Answers if t is a puppet type.

• #iterable(t) ⇒ Object

  Returns an iterable if the t represents something that can be iterated.

• #max(a, b) ⇒ Object
• #min(a, b) ⇒ Object
• #reduce_type(enumerable) ⇒ Object

  Reduces an enumerable of types to a single common type.

• #size_as_type(collection) ⇒ Object
• #size_range(range) ⇒ Object

  Transform int range to a size constraint if range == nil the constraint is 1,1 if range.from == nil min size = 1 if range.to == nil max size == Infinity.

• #string(t) ⇒ Object

  Produces a string representing the type.

• #superclasses(c) ⇒ Object

  Produces the superclasses of the given class, including the class.

• #to_s ⇒ Object

  Debugging to_s to reduce the amount of output.

• #tuple_entry_at(tuple_t, from, to, index) ⇒ Object private

  Produces the tuple entry at the given index given a tuple type, its from/to constraints on the last type, and an index.

• #type(c) ⇒ Object

  Answers ‘what is the Puppet Type corresponding to the given Ruby class’.

• #unwrap_single_variant(possible_variant) ⇒ Object

Constructor Details

#initialize ⇒ TypeCalculator

Returns a new instance of TypeCalculator.

# File 'lib/puppet/pops/types/type_calculator.rb', line 170

def initialize
  @@infer_visitor ||= Visitor.new(nil, 'infer',0,0)
  @@extract_visitor ||= Visitor.new(nil, 'extract',0,0)
end

Class Method Details

.assignable?(t1, t2) ⇒ Boolean

Returns:

• (Boolean)

# File 'lib/puppet/pops/types/type_calculator.rb', line 104

def self.assignable?(t1, t2)
  singleton.assignable?(t1,t2)
end

.callable?(callable, args) ⇒ Boolan

Answers, does the given callable accept the arguments given in args (an array or a tuple)

Parameters:

• callable (PCallableType) —

  • the callable

• args (PArrayType, PTupleType) —

  args optionally including a lambda callable at the end

Returns:

• (Boolan) —

  true if the callable accepts the arguments

# File 'lib/puppet/pops/types/type_calculator.rb', line 114

def self.callable?(callable, args)
  singleton.callable?(callable, args)
end

.debug_string(t) ⇒ Object

# File 'lib/puppet/pops/types/type_calculator.rb', line 145

def self.debug_string(t)
  Puppet.deprecation_warning('TypeCalculator.debug_string is deprecated. Use TypeFormatter')
  TypeFormatter.debug_string(t)
end

.enumerable(t) ⇒ Object

# File 'lib/puppet/pops/types/type_calculator.rb', line 151

def self.enumerable(t)
  Puppet.deprecation_warning('TypeCalculator.enumerable is deprecated. Use iterable')
  singleton.iterable(t)
end

.generalize(o) ⇒ Object

# File 'lib/puppet/pops/types/type_calculator.rb', line 135

def self.generalize(o)
  singleton.generalize(o)
end

.infer(o) ⇒ Object

# File 'lib/puppet/pops/types/type_calculator.rb', line 130

def self.infer(o)
  singleton.infer(o)
end

.infer_set(o) ⇒ Object

# File 'lib/puppet/pops/types/type_calculator.rb', line 140

def self.infer_set(o)
  singleton.infer_set(o)
end

.instance?(t, o) ⇒ Boolean

Answers ‘is o an instance of type t’

Returns:

• (Boolean)

# File 'lib/puppet/pops/types/type_calculator.rb', line 325

def self.instance?(t, o)
  singleton.instance?(t,o)
end

.is_kind_of_callable?(t, optional = true) ⇒ Boolean

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

Returns:

• (Boolean)

# File 'lib/puppet/pops/types/type_calculator.rb', line 784

def self.is_kind_of_callable?(t, optional = true)
  t.is_a?(PAnyType) && t.kind_of_callable?(optional)
end

.iterable(t) ⇒ Object

# File 'lib/puppet/pops/types/type_calculator.rb', line 157

def self.iterable(t)
  singleton.iterable(t)
end

.singleton ⇒ TypeCalculator

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

Returns the singleton instance.

Returns:

• (TypeCalculator) —

  the singleton instance

# File 'lib/puppet/pops/types/type_calculator.rb', line 164

def self.singleton
  @tc_instance ||= new
end

.string(t) ⇒ String

Produces a String representation of the given type.

Parameters:

• t (PAnyType) —

  the type to produce a string form

Returns:

• (String) —

  the type in string form

# File 'lib/puppet/pops/types/type_calculator.rb', line 124

def self.string(t)
  Puppet.deprecation_warning('TypeCalculator.string is deprecated. Use TypeFormatter')
  TypeFormatter.string(t)
end

Instance Method Details

#assignable?(t, t2) ⇒ Boolean

Answers ‘can an instance of type t2 be assigned to a variable of type t’. Does not accept nil/undef unless the type accepts it.

Returns:

• (Boolean)

# File 'lib/puppet/pops/types/type_calculator.rb', line 203

def assignable?(t, t2)
   if t.is_a?(Module)
     t = type(t)
   end
   t.is_a?(PAnyType) ? t.assignable?(t2) : false
end

#callable?(callable, args) ⇒ Boolean

Answers, does the given callable accept the arguments given in args (an array or a tuple)

Returns:

• (Boolean)

# File 'lib/puppet/pops/types/type_calculator.rb', line 224

def callable?(callable, args)
  callable.is_a?(PAnyType) && callable.callable?(args)
end

#common_type(t1, t2) ⇒ Object

Answers, ‘What is the common type of t1 and t2?’

TODO: The current implementation should be optimized for performance

Raises:

• (ArgumentError)

# File 'lib/puppet/pops/types/type_calculator.rb', line 359

def common_type(t1, t2)
  raise ArgumentError, 'two types expected' unless (is_ptype?(t1) || is_pnil?(t1)) && (is_ptype?(t2) || is_pnil?(t2))

  # TODO: This is not right since Scalar U Undef is Any
  # if either is nil, the common type is the other
  if is_pnil?(t1)
    return t2
  elsif is_pnil?(t2)
    return t1
  end

  # If either side is Unit, it is the other type
  if t1.is_a?(PUnitType)
    return t2
  elsif t2.is_a?(PUnitType)
    return t1
  end

  # Simple case, one is assignable to the other
  if assignable?(t1, t2)
    return t1
  elsif assignable?(t2, t1)
    return t2
  end

  # when both are arrays, return an array with common element type
  if t1.is_a?(PArrayType) && t2.is_a?(PArrayType)
    return PArrayType.new(common_type(t1.element_type, t2.element_type))
  end

  # when both are hashes, return a hash with common key- and element type
  if t1.is_a?(PHashType) && t2.is_a?(PHashType)
    key_type = common_type(t1.key_type, t2.key_type)
    value_type = common_type(t1.value_type, t2.value_type)
    return PHashType.new(key_type, value_type)
  end

  # when both are host-classes, reduce to PHostClass[] (since one was not assignable to the other)
  if t1.is_a?(PHostClassType) && t2.is_a?(PHostClassType)
    return PHostClassType::DEFAULT
  end

  # when both are resources, reduce to Resource[T] or Resource[] (since one was not assignable to the other)
  if t1.is_a?(PResourceType) && t2.is_a?(PResourceType)
    # only Resource[] unless the type name is the same
    return t1.type_name == t2.type_name ?  PResourceType.new(t1.type_name, nil) : PResourceType::DEFAULT
  end

  # Integers have range, expand the range to the common range
  if t1.is_a?(PIntegerType) && t2.is_a?(PIntegerType)
    return PIntegerType.new([t1.numeric_from, t2.numeric_from].min, [t1.numeric_to, t2.numeric_to].max)
  end

  # Floats have range, expand the range to the common range
  if t1.is_a?(PFloatType) && t2.is_a?(PFloatType)
    return PFloatType.new([t1.numeric_from, t2.numeric_from].min, [t1.numeric_to, t2.numeric_to].max)
  end

  if t1.is_a?(PStringType) && (t2.is_a?(PStringType) || t2.is_a?(PEnumType))
    if(t2.is_a?(PEnumType))
      return t1.value.nil? ? PEnumType::DEFAULT : PEnumType.new(t2.values | [t1.value])
    end

    if t1.size_type.nil? || t2.size_type.nil?
      return t1.value.nil? || t2.value.nil? ? PStringType::DEFAULT : PEnumType.new([t1.value, t2.value])
    end

    return PStringType.new(common_type(t1.size_type, t2.size_type))
  end

  if t1.is_a?(PPatternType) && t2.is_a?(PPatternType)
    return PPatternType.new(t1.patterns | t2.patterns)
  end

  if t1.is_a?(PEnumType) && (t2.is_a?(PStringType) || t2.is_a?(PEnumType))
    # The common type is one that complies with either set
    if t2.is_a?(PEnumType)
      return PEnumType.new(t1.values | t2.values)
    end

    return t2.value.nil? ? PEnumType::DEFAULT : PEnumType.new(t1.values | [t2.value])
  end

  if t1.is_a?(PVariantType) && t2.is_a?(PVariantType)
    # The common type is one that complies with either set
    return PVariantType.maybe_create(t1.types | t2.types)
  end

  if t1.is_a?(PRegexpType) && t2.is_a?(PRegexpType)
    # if they were identical, the general rule would return a parameterized regexp
    # since they were not, the result is a generic regexp type
    return PRegexpType::DEFAULT
  end

  if t1.is_a?(PCallableType) && t2.is_a?(PCallableType)
    # They do not have the same signature, and one is not assignable to the other,
    # what remains is the most general form of Callable
    return PCallableType::DEFAULT
  end

  # Common abstract types, from most specific to most general
  if common_numeric?(t1, t2)
    return PNumericType::DEFAULT
  end

  if common_scalar?(t1, t2)
    return PScalarType::DEFAULT
  end

  if common_data?(t1,t2)
    return PDataType::DEFAULT
  end

  # Meta types Type[Integer] + Type[String] => Type[Data]
  if t1.is_a?(PType) && t2.is_a?(PType)
    return PType.new(common_type(t1.type, t2.type))
  end

  # If both are Runtime types
  if t1.is_a?(PRuntimeType) && t2.is_a?(PRuntimeType)
    if t1.runtime == t2.runtime && t1.runtime_type_name == t2.runtime_type_name
      return t1
    end
    # finding the common super class requires that names are resolved to class
    # NOTE: This only supports runtime type of :ruby
    c1 = ClassLoader.provide_from_type(t1)
    c2 = ClassLoader.provide_from_type(t2)
    if c1 && c2
      c2_superclasses = superclasses(c2)
      superclasses(c1).each do|c1_super|
        c2_superclasses.each do |c2_super|
          if c1_super == c2_super
            return PRuntimeType.new(:ruby, c1_super.name)
          end
        end
      end
    end
  end

  # They better both be Any type, or the wrong thing was asked and nil is returned
  t1.is_a?(PAnyType) && t2.is_a?(PAnyType) ? PAnyType::DEFAULT : nil
end

#debug_string(t) ⇒ Object

Produces a debug string representing the type (possibly with more information that the regular string format)

# File 'lib/puppet/pops/types/type_calculator.rb', line 523

def debug_string(t)
  Puppet.deprecation_warning('TypeCalculator.debug_string is deprecated. Use TypeFormatter')
  TypeFormatter.singleton.debug_string(t)
end

#enumerable(t) ⇒ Object

Returns an iterable if the t represents something that can be iterated

# File 'lib/puppet/pops/types/type_calculator.rb', line 211

def enumerable(t)
  Puppet.deprecation_warning('TypeCalculator.enumerable is deprecated. Use iterable')
  iterable(t)
end

#equals(left, right) ⇒ Object

Answers if the two given types describe the same type

# File 'lib/puppet/pops/types/type_calculator.rb', line 229

def equals(left, right)
  return false unless left.is_a?(PAnyType) && right.is_a?(PAnyType)
  # Types compare per class only - an extra test must be made if the are mutually assignable
  # to find all types that represent the same type of instance
  #
  left == right || (assignable?(right, left) && assignable?(left, right))
end

#generalize(o) ⇒ Object

Generalizes value specific types. The generalized type is returned.

# File 'lib/puppet/pops/types/type_calculator.rb', line 276

def generalize(o)
  o.is_a?(PAnyType) ? o.generalize : o
end

#infer(o) ⇒ Object

Answers ‘what is the single common Puppet Type describing o’, or if o is an Array or Hash, what is the single common type of the elements (or keys and elements for a Hash).

# File 'lib/puppet/pops/types/type_calculator.rb', line 284

def infer(o)
  # Optimize the most common cases into direct calls.
  case o
  when String
    infer_String(o)
  when Integer
    infer_Integer(o)
  when Array
    infer_Array(o)
  when Hash
    infer_Hash(o)
  when Evaluator::PuppetProc
    infer_PuppetProc(o)
  else
    @@infer_visitor.visit_this_0(self, o)
  end
end

#infer_and_reduce_type(enumerable) ⇒ Object

Reduce an enumerable of objects to a single common type

# File 'lib/puppet/pops/types/type_calculator.rb', line 539

def infer_and_reduce_type(enumerable)
  reduce_type(enumerable.map {|o| infer(o) })
end

#infer_Array(o) ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

# File 'lib/puppet/pops/types/type_calculator.rb', line 692

def infer_Array(o)
  if o.empty?
    PArrayType::EMPTY
  else
    PArrayType.new(infer_and_reduce_type(o), size_as_type(o))
  end
end

#infer_Binary(o) ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

# File 'lib/puppet/pops/types/type_calculator.rb', line 701

def infer_Binary(o)
  PBinaryType::DEFAULT
end

#infer_Closure(o) ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

# File 'lib/puppet/pops/types/type_calculator.rb', line 551

def infer_Closure(o)
  o.type
end

#infer_FalseClass(o) ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

# File 'lib/puppet/pops/types/type_calculator.rb', line 676

def infer_FalseClass(o)
  PBooleanType::DEFAULT
end

#infer_Float(o) ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

# File 'lib/puppet/pops/types/type_calculator.rb', line 598

def infer_Float(o)
  PFloatType.new(o, o)
end

#infer_Function(o) ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

# File 'lib/puppet/pops/types/type_calculator.rb', line 561

def infer_Function(o)
  o.class.dispatcher.to_type
end

#infer_generic(o) ⇒ Object

# File 'lib/puppet/pops/types/type_calculator.rb', line 302

def infer_generic(o)
  generalize(infer(o))
end

#infer_Hash(o) ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

# File 'lib/puppet/pops/types/type_calculator.rb', line 716

def infer_Hash(o)
  if o.empty?
    PHashType::EMPTY
  else
    ktype = infer_and_reduce_type(o.keys)
    etype = infer_and_reduce_type(o.values)
    PHashType.new(ktype, etype, size_as_type(o))
  end
end

#infer_Integer(o) ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

# File 'lib/puppet/pops/types/type_calculator.rb', line 603

def infer_Integer(o)
  PIntegerType.new(o, o)
end

#infer_Iterator(o) ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

# File 'lib/puppet/pops/types/type_calculator.rb', line 556

def infer_Iterator(o)
  PIteratorType.new(o.element_type)
end

#infer_Module(o) ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

The type of all modules is PType

# File 'lib/puppet/pops/types/type_calculator.rb', line 546

def infer_Module(o)
  PType::new(PRuntimeType.new(:ruby, o.name))
end

#infer_NilClass(o) ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

# File 'lib/puppet/pops/types/type_calculator.rb', line 613

def infer_NilClass(o)
  PUndefType::DEFAULT
end

#infer_Object(o) ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

# File 'lib/puppet/pops/types/type_calculator.rb', line 566

def infer_Object(o)
  if o.is_a?(PuppetObject)
    o._ptype
  else
    name = o.class.name
    ir = Loaders.implementation_registry
    type = ir.nil? ? nil : ir.type_for_module(name)
    type.nil? ? PRuntimeType.new(:ruby, name) : type
  end
end

#infer_PAnyType(o) ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

The type of all types is PType

# File 'lib/puppet/pops/types/type_calculator.rb', line 580

def infer_PAnyType(o)
  PType.new(o)
end

#infer_Proc(o) ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

Parameters:

• o (Proc)

# File 'lib/puppet/pops/types/type_calculator.rb', line 619

def infer_Proc(o)
  min = 0
  max = 0
  mapped_types = o.parameters.map do |p|
    case p[0]
    when :rest
      max = :default
      break PAnyType::DEFAULT
    when :req
      min += 1
    end
    max += 1
    PAnyType::DEFAULT
  end
  param_types = Types::PTupleType.new(mapped_types, Types::PIntegerType.new(min, max))
  Types::PCallableType.new(param_types)
end

#infer_PType(o) ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

The type of all types is PType This is the metatype short circuit.

# File 'lib/puppet/pops/types/type_calculator.rb', line 588

def infer_PType(o)
  PType.new(o)
end

#infer_PuppetProc(o) ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

# File 'lib/puppet/pops/types/type_calculator.rb', line 638

def infer_PuppetProc(o)
  infer_Closure(o.closure)
end

#infer_Regexp(o) ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

# File 'lib/puppet/pops/types/type_calculator.rb', line 608

def infer_Regexp(o)
  PRegexpType.new(o.source)
end

#infer_Resource(o) ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

A Puppet::Parser::Resource, or Puppet::Resource

# File 'lib/puppet/pops/types/type_calculator.rb', line 683

def infer_Resource(o)
  # Only Puppet::Resource can have a title that is a symbol :undef, a PResource cannot.
  # A mapping must be made to empty string. A nil value will result in an error later
  title = o.title
  title = '' if :undef == title
  PType.new(PResourceType.new(o.type.to_s, title))
end

#infer_Sensitive(o) ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

# File 'lib/puppet/pops/types/type_calculator.rb', line 656

def infer_Sensitive(o)
  PSensitiveType.new(infer(o.unwrap))
end

#infer_set(o) ⇒ Object

Answers ‘what is the set of Puppet Types of o’

# File 'lib/puppet/pops/types/type_calculator.rb', line 309

def infer_set(o)
  case o
    when Array
      infer_set_Array(o)
    when Hash
      infer_set_Hash(o)
    when SemanticPuppet::Version
      infer_set_Version(o)
    else
      infer_set_Object(o)
  end
end

#infer_set_Array(o) ⇒ Object

# File 'lib/puppet/pops/types/type_calculator.rb', line 736

def infer_set_Array(o)
  if o.empty?
    PArrayType::EMPTY
  else
    PTupleType.new(o.map {|x| infer_set(x) })
  end
end

#infer_set_Hash(o) ⇒ Object

# File 'lib/puppet/pops/types/type_calculator.rb', line 744

def infer_set_Hash(o)
  if o.empty?
    PHashType::EMPTY
  elsif o.keys.all? {|k| PStringType::NON_EMPTY.instance?(k) }
    PStructType.new(o.each_pair.map { |k,v| PStructElement.new(PStringType.new(k), infer_set(v)) })
  else
    ktype = PVariantType.maybe_create(o.keys.map {|k| infer_set(k) })
    etype = PVariantType.maybe_create(o.values.map {|e| infer_set(e) })
    PHashType.new(unwrap_single_variant(ktype), unwrap_single_variant(etype), size_as_type(o))
  end
end

#infer_set_Object(o) ⇒ Object

Common case for everything that intrinsically only has a single type

# File 'lib/puppet/pops/types/type_calculator.rb', line 732

def infer_set_Object(o)
  infer(o)
end

#infer_set_Version(o) ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

# File 'lib/puppet/pops/types/type_calculator.rb', line 757

def infer_set_Version(o)
  PSemVerType.new([SemanticPuppet::VersionRange.new(o, o)])
end

#infer_String(o) ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

# File 'lib/puppet/pops/types/type_calculator.rb', line 593

def infer_String(o)
  PStringType.new(o)
end

#infer_Symbol(o) ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

Inference of :default as PDefaultType, and all other are Ruby

# File 'lib/puppet/pops/types/type_calculator.rb', line 644

def infer_Symbol(o)
  case o
  when :default
    PDefaultType::DEFAULT
  when :undef
    PUndefType::DEFAULT
  else
    infer_Object(o)
  end
end

#infer_Timespan(o) ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

# File 'lib/puppet/pops/types/type_calculator.rb', line 661

def infer_Timespan(o)
  PTimespanType.new(o, o)
end

#infer_Timestamp(o) ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

# File 'lib/puppet/pops/types/type_calculator.rb', line 666

def infer_Timestamp(o)
  PTimestampType.new(o, o)
end

#infer_TrueClass(o) ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

# File 'lib/puppet/pops/types/type_calculator.rb', line 671

def infer_TrueClass(o)
  PBooleanType::DEFAULT
end

#infer_Version(o) ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

# File 'lib/puppet/pops/types/type_calculator.rb', line 706

def infer_Version(o)
  PSemVerType::DEFAULT
end

#infer_VersionRange(o) ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

# File 'lib/puppet/pops/types/type_calculator.rb', line 711

def infer_VersionRange(o)
  PSemVerRangeType::DEFAULT
end

#injectable_class(klazz) ⇒ Class^?

Answers the question ‘is it possible to inject an instance of the given class’ A class is injectable if it has a special *assisted inject* class method called ‘inject` taking an injector and a scope as argument, or if it has a zero args `initialize` method.

Parameters:

• klazz (Class, PRuntimeType) —

  the class/type to check if it is injectable

Returns:

• (Class, nil) —

  the injectable Class, or nil if not injectable

# File 'lib/puppet/pops/types/type_calculator.rb', line 183

def injectable_class(klazz)
  # Handle case when we get a PType instead of a class
  if klazz.is_a?(PRuntimeType)
    klazz = ClassLoader.provide(klazz)
  end

  # data types can not be injected (check again, it is not safe to assume that given RubyRuntime klazz arg was ok)
  return false unless type(klazz).is_a?(PRuntimeType)
  if (klazz.respond_to?(:inject) && klazz.method(:inject).arity == -4) || klazz.instance_method(:initialize).arity == 0
    klazz
  else
    nil
  end
end

#instance?(t, o) ⇒ Boolean

Answers ‘is o an instance of type t’

Returns:

• (Boolean)

# File 'lib/puppet/pops/types/type_calculator.rb', line 332

def instance?(t, o)
  if t.is_a?(Module)
    t = type(t)
  end
  t.is_a?(PAnyType) ? t.instance?(o) : false
end

#is_pnil?(t) ⇒ Boolean

Answers if t represents the puppet type PUndefType

Returns:

• (Boolean)

# File 'lib/puppet/pops/types/type_calculator.rb', line 349

def is_pnil?(t)
  t.nil? || t.is_a?(PUndefType)
end

#is_ptype?(t) ⇒ Boolean

Answers if t is a puppet type

Returns:

• (Boolean)

# File 'lib/puppet/pops/types/type_calculator.rb', line 342

def is_ptype?(t)
  t.is_a?(PAnyType)
end

#iterable(t) ⇒ Object

Returns an iterable if the t represents something that can be iterated

# File 'lib/puppet/pops/types/type_calculator.rb', line 217

def iterable(t)
  # Create an iterable on the type if possible
  Iterable.on(t)
end

#max(a, b) ⇒ Object

# File 'lib/puppet/pops/types/type_calculator.rb', line 788

def max(a,b)
  a >=b ? a : b
end

#min(a, b) ⇒ Object

# File 'lib/puppet/pops/types/type_calculator.rb', line 792

def min(a,b)
  a <= b ? a : b
end

#reduce_type(enumerable) ⇒ Object

Reduces an enumerable of types to a single common type.

# File 'lib/puppet/pops/types/type_calculator.rb', line 532

def reduce_type(enumerable)
  enumerable.reduce(nil) {|memo, t| common_type(memo, t) }
end

#size_as_type(collection) ⇒ Object

# File 'lib/puppet/pops/types/type_calculator.rb', line 726

def size_as_type(collection)
  size = collection.size
  PIntegerType.new(size, size)
end

#size_range(range) ⇒ Object

Transform int range to a size constraint if range == nil the constraint is 1,1 if range.from == nil min size = 1 if range.to == nil max size == Infinity

# File 'lib/puppet/pops/types/type_calculator.rb', line 774

def size_range(range)
  return [1,1] if range.nil?
  from = range.from
  to = range.to
  x = from.nil? ? 1 : from
  y = to.nil? ? TheInfinity : to
  [x, y]
end

#string(t) ⇒ Object

Produces a string representing the type

# File 'lib/puppet/pops/types/type_calculator.rb', line 515

def string(t)
  Puppet.deprecation_warning('TypeCalculator.string is deprecated. Use TypeFormatter')
  TypeFormatter.singleton.string(t)
end

#superclasses(c) ⇒ Object

Produces the superclasses of the given class, including the class

# File 'lib/puppet/pops/types/type_calculator.rb', line 503

def superclasses(c)
  result = [c]
  while s = c.superclass
    result << s
    c = s
  end
  result
end

#to_s ⇒ Object

Debugging to_s to reduce the amount of output

# File 'lib/puppet/pops/types/type_calculator.rb', line 816

def to_s
  '[a TypeCalculator]'
end

#tuple_entry_at(tuple_t, from, to, index) ⇒ Object

This method is part of a private API. You should avoid using this method if possible, as it may be removed or be changed in the future.

Produces the tuple entry at the given index given a tuple type, its from/to constraints on the last type, and an index. Produces nil if the index is out of bounds from must be less than to, and from may not be less than 0

# File 'lib/puppet/pops/types/type_calculator.rb', line 803

def tuple_entry_at(tuple_t, from, to, index)
  regular = (tuple_t.types.size - 1)
  if index < regular
    tuple_t.types[index]
  elsif index < regular + to
    # in the varargs part
    tuple_t.types[-1]
  else
    nil
  end
end

#type(c) ⇒ Object

Answers ‘what is the Puppet Type corresponding to the given Ruby class’

Parameters:

• c (Module) —

  the class for which a puppet type is wanted

Raises:

• (ArgumentError)

# File 'lib/puppet/pops/types/type_calculator.rb', line 241

def type(c)
  raise ArgumentError, 'Argument must be a Module' unless c.is_a? Module

  # Can't use a visitor here since we don't have an instance of the class
  case
  when c <= Integer
    type = PIntegerType::DEFAULT
  when c == Float
    type = PFloatType::DEFAULT
  when c == Numeric
    type = PNumericType::DEFAULT
  when c == String
    type = PStringType::DEFAULT
  when c == Regexp
    type = PRegexpType::DEFAULT
  when c == NilClass
    type = PUndefType::DEFAULT
  when c == FalseClass, c == TrueClass
    type = PBooleanType::DEFAULT
  when c == Class
    type = PType::DEFAULT
  when c == Array
    # Assume array of data values
    type = PArrayType::DATA
  when c == Hash
    # Assume hash with scalar keys and data values
    type = PHashType::DATA
 else
    type = PRuntimeType.new(:ruby, c.name)
  end
  type
end

#unwrap_single_variant(possible_variant) ⇒ Object

# File 'lib/puppet/pops/types/type_calculator.rb', line 761

def unwrap_single_variant(possible_variant)
  if possible_variant.is_a?(PVariantType) && possible_variant.types.size == 1
    possible_variant.types[0]
  else
    possible_variant
  end
end