# frozen_string_literal: true require 'dry/logic/operators' require 'dry/types/predicate_inferrer' require 'dry/types/primitive_inferrer' require 'dry/schema/macros/core' module Dry module Schema module Macros # Macro specialization used within the DSL # # @api public class DSL < Core include Dry::Logic::Operators undef :eql? undef :nil? # @!attribute [r] chain # Indicate if the macro should append its rules to the provided trace # @return [Boolean] # @api private option :chain, default: -> { true } # @!attribute [r] predicate_inferrer # PredicateInferrer is used to infer predicate type-check from a type spec # @return [PredicateInferrer] # @api private option :predicate_inferrer, default: proc { ::Dry::Types::PredicateInferrer.new(compiler.predicates) } # @!attribute [r] primitive_inferrer # PrimitiveInferrer used to get a list of primitive classes from configured type # @return [PrimitiveInferrer] # @api private option :primitive_inferrer, default: proc { ::Dry::Types::PrimitiveInferrer.new } # @overload value(*predicates, **predicate_opts) # Set predicates without and with arguments # # @param [Array] predicates # @param [Hash] predicate_opts # # @example with a predicate # required(:name).value(:filled?) # # @example with a predicate with arguments # required(:name).value(min_size?: 2) # # @example with a predicate with and without arguments # required(:name).value(:filled?, min_size?: 2) # # @example with a block # required(:name).value { filled? & min_size?(2) } # # @return [Macros::Core] # # @api public def value(*predicates, **opts, &block) append_macro(Macros::Value) do |macro| macro.call(*predicates, **opts, &block) end end # Prepends `:filled?` predicate # # @example with a type spec # required(:name).filled(:string) # # @example with a type spec and a predicate # required(:name).filled(:string, format?: /\w+/) # # @return [Macros::Core] # # @api public def filled(*args, **opts, &block) append_macro(Macros::Filled) do |macro| macro.call(*args, **opts, &block) end end # Specify a nested hash without enforced `hash?` type-check # # This is a simpler building block than `hash` macro, use it # when you want to provide `hash?` type-check with other rules # manually. # # @example # required(:tags).value(:hash, min_size?: 1).schema do # required(:name).value(:string) # end # # @return [Macros::Core] # # @api public def schema(*args, &block) append_macro(Macros::Schema) do |macro| macro.call(*args, &block) end end # Specify a nested hash with enforced `hash?` type-check # # @example # required(:tags).hash do # required(:name).value(:string) # end # # @api public def hash(*args, &block) append_macro(Macros::Hash) do |macro| macro.call(*args, &block) end end # Specify predicates that should be applied to each element of an array # # This is a simpler building block than `array` macro, use it # when you want to provide `array?` type-check with other rules # manually. # # @example a list of strings # required(:tags).value(:array, min_size?: 2).each(:str?) # # @example a list of hashes # required(:tags).value(:array, min_size?: 2).each(:hash) do # required(:name).filled(:string) # end # # @return [Macros::Core] # # @api public def each(*args, &block) append_macro(Macros::Each) do |macro| macro.value(*args, &block) end end # Like `each` but sets `array?` type-check # # @example a list of strings # required(:tags).array(:str?) # # @example a list of hashes # required(:tags).array(:hash) do # required(:name).filled(:string) # end # # @return [Macros::Core] # # @api public def array(*args, &block) append_macro(Macros::Array) do |macro| macro.value(*args, &block) end end # Set type spec # # @example # required(:name).type(:string).value(min_size?: 2) # # @param [Symbol, Array, Dry::Types::Type] spec # # @return [Macros::Key] # # @api public def type(spec) schema_dsl.set_type(name, spec) self end private # @api private def append_macro(macro_type) macro = macro_type.new(schema_dsl: schema_dsl, name: name) yield(macro) if chain trace << macro self else macro end end # @api private def extract_type_spec(*args, nullable: false, set_type: true) type_spec = args[0] is_type_spec = type_spec.is_a?(Dry::Schema::Processor) || type_spec.is_a?(Symbol) && type_spec.to_s.end_with?(QUESTION_MARK) type_spec = nil if is_type_spec predicates = Array(type_spec ? args[1..-1] : args) if type_spec resolved_type = resolve_type(type_spec, nullable) type(resolved_type) if set_type type_predicates = predicate_inferrer[resolved_type] predicates.replace(type_predicates + predicates) unless type_predicates.empty? return self if predicates.empty? end yield(*predicates, type_spec: type_spec) end # @api private def resolve_type(type_spec, nullable) resolved = schema_dsl.resolve_type(type_spec) if type_spec.is_a?(::Array) || !nullable || resolved.optional? resolved else schema_dsl.resolve_type([:nil, resolved]) end end end end end end