# frozen_string_literal: true require 'spec_helper' describe Sinclair::Caster::ClassMethods do subject(:caster) { Class.new(Sinclair::Caster) } describe '.cast_with' do let(:value) { instance_double('value', to_p: final_value) } let(:final_value) { Random.rand(100) } context 'when a proc is given' do it do expect { caster.cast_with(:problem, &:to_p) } .not_to raise_error end context 'when casting is called' do before { caster.cast_with(:problem, &:to_p) } it 'returns the cast value' do expect(caster.cast(value, :problem)).to eq(final_value) end end end context 'when a proc with two arguments is given' do it do expect { caster.cast_with(:problem) { |v, **_opts| v.to_p } } .not_to raise_error end context 'when casting is called' do before { caster.cast_with(:problem) { |v, sum:| v.to_p + sum } } it 'returns the cast value' do expect(caster.cast(value, :problem, sum: 2)) .to eq(final_value + 2) end end end context 'when a symbol is given' do let(:instance) { Sinclair::Caster.new(&:to_p) } it do expect { caster.cast_with(:problem, instance) } .not_to raise_error end context 'when casting is called' do before { caster.cast_with(:problem, instance) } it 'returns the cast value' do expect(caster.cast(value, :problem)).to eq(final_value) end end end context 'when a caster is given is given' do it do expect { caster.cast_with(:problem, :to_p) } .not_to raise_error end context 'when casting is called' do before { caster.cast_with(:problem, :to_p) } it 'returns the cast value' do expect(caster.cast(value, :problem)).to eq(final_value) end end end context 'when key is a class' do it do expect { caster.cast_with(Integer, :to_i) } .not_to raise_error end context 'when casting is called' do before { caster.cast_with(Integer, :to_i) } it 'returns the cast value' do expect(caster.cast('10', Integer)).to eq(10) end end end context 'when key is a module' do it do expect { caster.cast_with(JSON) { |value| JSON.parse(value) } } .not_to raise_error end context 'when casting is called' do before { caster.cast_with(JSON) { |value| JSON.parse(value) } } it 'returns the cast value' do expect(caster.cast('{"key":"value"}', JSON)) .to eq({ 'key' => 'value' }) end end end context 'when key is a superclass' do it do expect { caster.cast_with(Numeric, :to_i) } .not_to raise_error end context 'when casting is called with the child class' do before { caster.cast_with(Numeric, :to_i) } it 'returns the cast value' do expect(caster.cast('10', Integer)).to eq(10) end end end end describe '.caster_for' do context 'when the key has been defined with a symbol key' do before { caster.cast_with(:problem, :to_p) } it do expect(caster.caster_for(:problem)) .to be_a(Sinclair::Caster) end end context 'when the key has not been defined' do it do expect(caster.caster_for(:problem)) .to be_a(Sinclair::Caster) end end end describe '.cast' do let(:value) { values.sample } let(:values) do [Random.rand, 'some string', { key: 10 }, Object.new, Class.new, [2, 3]] end context 'when klass is nil' do it 'returns the value' do expect(caster.cast(value, nil)) .to eq(value) end end context 'when class is :string' do it 'returns the value as string' do expect(caster.cast(value, :string)) .to eq(value.to_s) end end context 'when class is :integer' do let(:value) { '10.5' } it 'returns the value as integer' do expect(caster.cast(value, :integer)) .to eq(10) end end context 'when class is :float' do let(:value) { '10.5' } it 'returns the value as float' do expect(caster.cast(value, :float)) .to eq(10.5) end end end describe '.master_caster!' do it 'ignores superclass registered casters' do expect { caster.master_caster! } .to change { caster.cast('10', :integer) } .from(10).to('10') end end end