Class: Solargraph::ComplexType::UniqueType

Inherits:

Object

• Object
• Solargraph::ComplexType::UniqueType

Includes:

TypeMethods, Equality

Defined in:

lib/solargraph/complex_type/unique_type.rb

Overview

An individual type signature. A complex type can consist of multiple unique types.

Constant Summary

UNDEFINED =

UniqueType.new('undefined', rooted: false)

BOOLEAN =

UniqueType.new('Boolean', rooted: true)

Constants included from TypeMethods

TypeMethods::PARAMETERS_TYPE_BY_STARTING_TAG

Instance Attribute Summary

• #all_params ⇒ Object readonly

  Returns the value of attribute all_params.

• #key_types ⇒ Object readonly

  Returns the value of attribute key_types.

• #subtypes ⇒ Object readonly

  Returns the value of attribute subtypes.

Attributes included from TypeMethods

#name, #parameters_type

Class Method Summary

• .can_root_name?(name) ⇒ Boolean
• .parse(name, substring = '', make_rooted: nil) ⇒ UniqueType

  Create a UniqueType with the specified name and an optional substring.

Instance Method Summary

• #==(other) ⇒ Object
• #all_rooted? ⇒ Boolean
• #can_root_name?(name_to_check = name) ⇒ Boolean
• #desc ⇒ Object
• #eql?(other) ⇒ Boolean
• #force_rooted ⇒ self
• #generic? ⇒ Boolean
• #hash ⇒ Object
• #initialize(name, key_types = [], subtypes = [], rooted:, parameters_type: nil) ⇒ UniqueType constructor

  A new instance of UniqueType.

• #items ⇒ Array<UniqueType>
• #map {|t| ... } ⇒ Array<self>
• #parameters? ⇒ Boolean
• #parameters_as_rbs ⇒ String
• #qualify(api_map, context = '') ⇒ self, ...

  Generate a ComplexType that fully qualifies this type’s namespaces.

• #rbs_name ⇒ String
• #rbs_union(types) ⇒ String
• #recreate(new_name: nil, make_rooted: nil, new_key_types: nil, new_subtypes: nil) ⇒ self
• #resolve_generics(definitions, context_type) ⇒ UniqueType, ComplexType

  Probe the concrete type for each of the generic type parameters used in this type, and return a new type if possible.

• #resolve_generics_from_context(generics_to_resolve, context_type, resolved_generic_values: {}) ⇒ UniqueType, ComplexType
• #resolve_param_generics_from_context(generics_to_resolve, context_type, resolved_generic_values) ⇒ Array<ComplexType>
• #rooted? ⇒ Boolean
• #rooted_tags ⇒ String
• #self_to_type(dst) ⇒ self
• #selfy? ⇒ Boolean
• #tags ⇒ String
• #to_a ⇒ Array<UniqueType>
• #to_rbs ⇒ String
• #to_s ⇒ Object
• #transform(new_name = nil) {|t| ... } ⇒ self

  Apply the given transformation to each subtype and then finally to this type.

Methods included from Equality

#freeze

Methods included from TypeMethods

#defined?, #duck_type?, #each_unique_type, #erase_generics, #fixed_parameters?, #generate_substring_from, #hash_parameters?, #list_parameters?, #namespace, #namespace_type, #nil_type?, #rooted_name, #rooted_namespace, #rooted_substring, #rooted_tag, #scope, #substring, #tag, #tuple?, #undefined?, #value_types, #void?

Constructor Details

#initialize(name, key_types = [], subtypes = [], rooted:, parameters_type: nil) ⇒ UniqueType

Returns a new instance of UniqueType.

Parameters:

• name (String)
• key_types (Array<ComplexType>) (defaults to: [])
• subtypes (Array<ComplexType>) (defaults to: [])
• rooted (Boolean)
• parameters_type (Symbol, nil) (defaults to: nil)

# File 'lib/solargraph/complex_type/unique_type.rb', line 70

def initialize(name, key_types = [], subtypes = [], rooted:, parameters_type: nil)
  if parameters_type.nil?
    raise "You must supply parameters_type if you provide parameters" unless key_types.empty? && subtypes.empty?
  end
  raise "Please remove leading :: and set rooted instead - #{name.inspect}" if name.start_with?('::')
  @name = name
  @key_types = key_types
  @subtypes = subtypes
  @rooted = rooted
  @all_params = []
  @all_params.concat key_types
  @all_params.concat subtypes
  @parameters_type = parameters_type
end

Instance Attribute Details

#all_params ⇒ Object (readonly)

Returns the value of attribute all_params.

# File 'lib/solargraph/complex_type/unique_type.rb', line 12

def all_params
  @all_params
end

#key_types ⇒ Object (readonly)

Returns the value of attribute key_types.

# File 'lib/solargraph/complex_type/unique_type.rb', line 12

def key_types
  @key_types
end

#subtypes ⇒ Object (readonly)

Returns the value of attribute subtypes.

# File 'lib/solargraph/complex_type/unique_type.rb', line 12

def subtypes
  @subtypes
end

Class Method Details

.can_root_name?(name) ⇒ Boolean

Parameters:

• name (String)

Returns:

• (Boolean)

# File 'lib/solargraph/complex_type/unique_type.rb', line 377

def self.can_root_name?(name)
  # name is not lowercase
  !name.empty? && name != name.downcase
end

.parse(name, substring = '', make_rooted: nil) ⇒ UniqueType

Create a UniqueType with the specified name and an optional substring. The substring is the parameter section of a parametrized type, e.g., for the type ‘Array<String>`, the name is `Array` and the substring is `<String>`.

Parameters:

• name (String) —

  The name of the type

• substring (String) (defaults to: '') —

  The substring of the type

• make_rooted (Boolean, nil) (defaults to: nil)

Returns:

• (UniqueType)

# File 'lib/solargraph/complex_type/unique_type.rb', line 28

def self.parse name, substring = '', make_rooted: nil
  if name.start_with?(':::')
    raise "Illegal prefix: #{name}"
  end
  if name.start_with?('::')
    name = name[2..-1]
    rooted = true
  elsif !can_root_name?(name)
    rooted = true
  else
    rooted = false
  end
  rooted = make_rooted unless make_rooted.nil?

  # @type [Array<ComplexType>]
  key_types = []
  # @type [Array<ComplexType>]
  subtypes = []
  parameters_type = nil
  unless substring.empty?
    subs = ComplexType.parse(substring[1..-2], partial: true)
    parameters_type = PARAMETERS_TYPE_BY_STARTING_TAG.fetch(substring[0])
    if parameters_type == :hash
      raise ComplexTypeError, "Bad hash type" unless !subs.is_a?(ComplexType) and subs.length == 2 and !subs[0].is_a?(UniqueType) and !subs[1].is_a?(UniqueType)
      # @todo should be able to resolve map; both types have it
      #   with same return type
      # @sg-ignore
      key_types.concat(subs[0].map { |u| ComplexType.new([u]) })
      # @sg-ignore
      subtypes.concat(subs[1].map { |u| ComplexType.new([u]) })
    else
      subtypes.concat subs
    end
  end
  new(name, key_types, subtypes, rooted: rooted, parameters_type: parameters_type)
end

Instance Method Details

#==(other) ⇒ Object

# File 'lib/solargraph/complex_type/unique_type.rb', line 99

def ==(other)
  eql?(other)
end

#all_rooted? ⇒ Boolean

Returns:

• (Boolean)

# File 'lib/solargraph/complex_type/unique_type.rb', line 363

def all_rooted?
  return true if name == GENERIC_TAG_NAME
  rooted? && all_params.all?(&:rooted?)
end

#can_root_name?(name_to_check = name) ⇒ Boolean

Returns:

• (Boolean)

# File 'lib/solargraph/complex_type/unique_type.rb', line 372

def can_root_name?(name_to_check = name)
  self.class.can_root_name?(name_to_check)
end

#desc ⇒ Object

# File 'lib/solargraph/complex_type/unique_type.rb', line 121

def desc
  rooted_tags
end

#eql?(other) ⇒ Boolean

Returns:

• (Boolean)

# File 'lib/solargraph/complex_type/unique_type.rb', line 89

def eql?(other)
  self.class == other.class &&
    @name == other.name &&
    @key_types == other.key_types &&
    @subtypes == other.subtypes &&
    @rooted == other.rooted? &&
    @all_params == other.all_params &&
    @parameters_type == other.parameters_type
end

#force_rooted ⇒ self

Returns:

• (self)

# File 'lib/solargraph/complex_type/unique_type.rb', line 304

def force_rooted
  transform do |t|
    t.recreate(make_rooted: true)
  end
end

#generic? ⇒ Boolean

Returns:

• (Boolean)

# File 'lib/solargraph/complex_type/unique_type.rb', line 182

def generic?
  name == GENERIC_TAG_NAME || all_params.any?(&:generic?)
end

#hash ⇒ Object

# File 'lib/solargraph/complex_type/unique_type.rb', line 103

def hash
  [self.class, @name, @key_types, @sub_types, @rooted, @all_params, @parameters_type].hash
end

#items ⇒ Array<UniqueType>

Returns:

• (Array<UniqueType>)

# File 'lib/solargraph/complex_type/unique_type.rb', line 108

def items
  [self]
end

#map {|t| ... } ⇒ Array<self>

Yield Parameters:

• t (self)

Yield Returns:

• (self)

Returns:

• (Array<self>)

# File 'lib/solargraph/complex_type/unique_type.rb', line 268

def map &block
  [block.yield(self)]
end

#parameters? ⇒ Boolean

Returns:

• (Boolean)

# File 'lib/solargraph/complex_type/unique_type.rb', line 156

def parameters?
  !all_params.empty?
end

#parameters_as_rbs ⇒ String

Returns:

• (String)

# File 'lib/solargraph/complex_type/unique_type.rb', line 171

def parameters_as_rbs
  return '' unless parameters?

  return "[#{all_params.map(&:to_rbs).join(', ')}]" if key_types.empty?

  # handle, e.g., Hash[K, V] case
  key_types_str = rbs_union(key_types)
  subtypes_str = rbs_union(subtypes)
  "[#{key_types_str}, #{subtypes_str}]"
end

#qualify(api_map, context = '') ⇒ self, ...

Generate a ComplexType that fully qualifies this type’s namespaces.

Parameters:

• api_map (ApiMap) —

  The ApiMap that performs qualification

• context (String) (defaults to: '') —

  The namespace from which to resolve names

Returns:

• (self, ComplexType, UniqueType) —

  The generated ComplexType

# File 'lib/solargraph/complex_type/unique_type.rb', line 335

def qualify api_map, context = ''
  transform do |t|
    next t if t.name == GENERIC_TAG_NAME
    next t if t.duck_type? || t.void? || t.undefined?
    recon = (t.rooted? ? '' : context)
    fqns = api_map.qualify(t.name, recon)
    if fqns.nil?
      next UniqueType::BOOLEAN if t.tag == 'Boolean'
      next UniqueType::UNDEFINED
    end
    t.recreate(new_name: fqns, make_rooted: true)
  end
end

#rbs_name ⇒ String

Returns:

• (String)

# File 'lib/solargraph/complex_type/unique_type.rb', line 113

def rbs_name
  if name == 'undefined'
    'untyped'
  else
    rooted_name
  end
end

#rbs_union(types) ⇒ String

Parameters:

• types (Array<UniqueType, ComplexType>)

Returns:

• (String)

# File 'lib/solargraph/complex_type/unique_type.rb', line 162

def rbs_union(types)
  if types.length == 1
    types.first.to_rbs
  else
    "(#{types.map(&:to_rbs).join(' | ')})"
  end
end

#recreate(new_name: nil, make_rooted: nil, new_key_types: nil, new_subtypes: nil) ⇒ self

Parameters:

• new_name (String, nil) (defaults to: nil)
• make_rooted (Boolean, nil) (defaults to: nil)
• new_key_types (Array<UniqueType>, nil) (defaults to: nil)
• rooted (Boolean, nil)
• new_subtypes (Array<UniqueType>, nil) (defaults to: nil)

Returns:

• (self)

# File 'lib/solargraph/complex_type/unique_type.rb', line 283

def recreate(new_name: nil, make_rooted: nil, new_key_types: nil, new_subtypes: nil)
  raise "Please remove leading :: and set rooted instead - #{new_name}" if new_name&.start_with?('::')

  new_name ||= name
  new_key_types ||= @key_types
  new_subtypes ||= @subtypes
  make_rooted = @rooted if make_rooted.nil?
  UniqueType.new(new_name, new_key_types, new_subtypes, rooted: make_rooted, parameters_type: parameters_type)
end

#resolve_generics(definitions, context_type) ⇒ UniqueType, ComplexType

Probe the concrete type for each of the generic type parameters used in this type, and return a new type if possible.

Parameters:

• definitions (Pin::Namespace, Pin::Method) —

  The module/class/method which uses generic types

• context_type (ComplexType) —

  The receiver type

Returns:

• (UniqueType, ComplexType)

# File 'lib/solargraph/complex_type/unique_type.rb', line 241

def resolve_generics definitions, context_type
  return self if definitions.nil? || definitions.generics.empty?

  transform(name) do |t|
    if t.name == GENERIC_TAG_NAME
      idx = definitions.generics.index(t.subtypes.first&.name)
      next t if idx.nil?
      if context_type.parameters_type == :hash
        if idx == 0
          next ComplexType.new(context_type.key_types)
        elsif idx == 1
          next ComplexType.new(context_type.subtypes)
        else
          next ComplexType::UNDEFINED
        end
      else
        context_type.all_params[idx] || ComplexType::UNDEFINED
      end
    else
      t
    end
  end
end

#resolve_generics_from_context(generics_to_resolve, context_type, resolved_generic_values: {}) ⇒ UniqueType, ComplexType

Parameters:

• generics_to_resolve (Enumerable<String>)
• context_type (UniqueType, nil)
• resolved_generic_values (Hash{String => ComplexType}) (defaults to: {}) —

  Added to as types are encountered or resolved

Returns:

• (UniqueType, ComplexType)

# File 'lib/solargraph/complex_type/unique_type.rb', line 190

def resolve_generics_from_context generics_to_resolve, context_type, resolved_generic_values: {}
  if name == ComplexType::GENERIC_TAG_NAME
    type_param = subtypes.first&.name
    return self unless generics_to_resolve.include? type_param
    unless context_type.nil? || !resolved_generic_values[type_param].nil?
      new_binding = true
      resolved_generic_values[type_param] = context_type
    end
    if new_binding
      resolved_generic_values.transform_values! do |complex_type|
        complex_type.resolve_generics_from_context(generics_to_resolve, nil, resolved_generic_values: resolved_generic_values)
      end
    end
    return resolved_generic_values[type_param] || self
  end

  # @todo typechecking should complain when the method being called has no @yieldparam tag
  new_key_types = resolve_param_generics_from_context(generics_to_resolve, context_type, resolved_generic_values, &:key_types)
  new_subtypes = resolve_param_generics_from_context(generics_to_resolve, context_type, resolved_generic_values, &:subtypes)
  recreate(new_key_types: new_key_types, new_subtypes: new_subtypes)
end

#resolve_param_generics_from_context(generics_to_resolve, context_type, resolved_generic_values) ⇒ Array<ComplexType>

Parameters:

• generics_to_resolve (Enumerable<String>)
• context_type (UniqueType)
• resolved_generic_values (Hash{String => ComplexType})

Yield Returns:

• (Array<ComplexType>)

Returns:

• (Array<ComplexType>)

# File 'lib/solargraph/complex_type/unique_type.rb', line 217

def resolve_param_generics_from_context(generics_to_resolve, context_type, resolved_generic_values)
  types = yield self
  types.each_with_index.flat_map do |ct, i|
    ct.items.flat_map do |ut|
      context_params = yield context_type if context_type
      if context_params && context_params[i]
        type_arg = context_params[i]
        type_arg.map do |new_unique_context_type|
          ut.resolve_generics_from_context generics_to_resolve, new_unique_context_type, resolved_generic_values: resolved_generic_values
        end
      else
        ut.resolve_generics_from_context generics_to_resolve, nil, resolved_generic_values: resolved_generic_values
      end
    end
  end
end

#rooted? ⇒ Boolean

Returns:

• (Boolean)

# File 'lib/solargraph/complex_type/unique_type.rb', line 368

def rooted?
  !can_root_name? || @rooted
end

#rooted_tags ⇒ String

Returns:

• (String)

# File 'lib/solargraph/complex_type/unique_type.rb', line 294

def rooted_tags
  rooted_tag
end

#self_to_type(dst) ⇒ self

Parameters:

• dst (ComplexType)

Returns:

• (self)

# File 'lib/solargraph/complex_type/unique_type.rb', line 355

def self_to_type dst
  object_type_dst = dst.reduce_class_type
  transform do |t|
    next t if t.name != 'self'
    object_type_dst
  end
end

#selfy? ⇒ Boolean

Returns:

• (Boolean)

# File 'lib/solargraph/complex_type/unique_type.rb', line 349

def selfy?
  @name == 'self' || @key_types.any?(&:selfy?) || @subtypes.any?(&:selfy?)
end

#tags ⇒ String

Returns:

• (String)

# File 'lib/solargraph/complex_type/unique_type.rb', line 299

def tags
  tag
end

#to_a ⇒ Array<UniqueType>

Returns:

• (Array<UniqueType>)

# File 'lib/solargraph/complex_type/unique_type.rb', line 273

def to_a
  [self]
end

#to_rbs ⇒ String

Returns:

• (String)

# File 'lib/solargraph/complex_type/unique_type.rb', line 126

def to_rbs
  if duck_type?
    'untyped'
  elsif name == 'Boolean'
    'bool'
  elsif name.downcase == 'nil'
    'nil'
  elsif name == GENERIC_TAG_NAME
    all_params.first.name
  elsif ['Class', 'Module'].include?(name)
    rbs_name
  elsif ['Tuple', 'Array'].include?(name) && fixed_parameters?
    # tuples don't have a name; they're just [foo, bar, baz].
    if substring == '()'
      # but there are no zero element tuples, so we go with an array
      if rooted?
        '::Array[]'
      else
        'Array[]'
      end
    else
      # already generated surrounded by []
      parameters_as_rbs
    end
  else
    "#{rbs_name}#{parameters_as_rbs}"
  end
end

#to_s ⇒ Object

# File 'lib/solargraph/complex_type/unique_type.rb', line 85

def to_s
  tag
end

#transform(new_name = nil) {|t| ... } ⇒ self

Apply the given transformation to each subtype and then finally to this type

Parameters:

• new_name (String, nil) (defaults to: nil)

Yield Parameters:

• t (UniqueType)

Yield Returns:

• (self)

Returns:

• (self)

# File 'lib/solargraph/complex_type/unique_type.rb', line 316

def transform(new_name = nil, &transform_type)
  raise "Please remove leading :: and set rooted with recreate() instead - #{new_name}" if new_name&.start_with?('::')
  if name == ComplexType::GENERIC_TAG_NAME
    # doesn't make sense to manipulate the name of the generic
    new_key_types = @key_types
    new_subtypes = @subtypes
  else
    new_key_types = @key_types.flat_map { |ct| ct.items.map { |ut| ut.transform(&transform_type) } }
    new_subtypes = @subtypes.flat_map { |ct| ct.items.map { |ut| ut.transform(&transform_type) } }
  end
  new_type = recreate(new_name: new_name || name, new_key_types: new_key_types, new_subtypes: new_subtypes, make_rooted: @rooted)
  yield new_type
end