require_relative '../../spec_helper' describe "Range#step" do before :each do ScratchPad.record [] end it "returns self" do r = 1..2 r.step { }.should equal(r) end it "raises TypeError if step" do obj = mock("mock") -> { (1..10).step(obj) { } }.should raise_error(TypeError) end it "calls #to_int to coerce step to an Integer" do obj = mock("Range#step") obj.should_receive(:to_int).and_return(1) (1..2).step(obj) { |x| ScratchPad << x } ScratchPad.recorded.should eql([1, 2]) end it "raises a TypeError if step does not respond to #to_int" do obj = mock("Range#step non-integer") -> { (1..2).step(obj) { } }.should raise_error(TypeError) end it "raises a TypeError if #to_int does not return an Integer" do obj = mock("Range#step non-integer") obj.should_receive(:to_int).and_return("1") -> { (1..2).step(obj) { } }.should raise_error(TypeError) end it "coerces the argument to integer by invoking to_int" do (obj = mock("2")).should_receive(:to_int).and_return(2) res = [] (1..10).step(obj) {|x| res << x} res.should == [1, 3, 5, 7, 9] end it "raises a TypeError if the first element does not respond to #succ" do obj = mock("Range#step non-comparable") obj.should_receive(:<=>).with(obj).and_return(1) -> { (obj..obj).step { |x| x } }.should raise_error(TypeError) end it "raises an ArgumentError if step is 0" do -> { (-1..1).step(0) { |x| x } }.should raise_error(ArgumentError) end it "raises an ArgumentError if step is 0.0" do -> { (-1..1).step(0.0) { |x| x } }.should raise_error(ArgumentError) end it "raises an ArgumentError if step is negative" do -> { (-1..1).step(-2) { |x| x } }.should raise_error(ArgumentError) end describe "with inclusive end" do describe "and Integer values" do it "yields Integer values incremented by 1 and less than or equal to end when not passed a step" do (-2..2).step { |x| ScratchPad << x } ScratchPad.recorded.should eql([-2, -1, 0, 1, 2]) end it "yields Integer values incremented by an Integer step" do (-5..5).step(2) { |x| ScratchPad << x } ScratchPad.recorded.should eql([-5, -3, -1, 1, 3, 5]) end it "yields Float values incremented by a Float step" do (-2..2).step(1.5) { |x| ScratchPad << x } ScratchPad.recorded.should eql([-2.0, -0.5, 1.0]) end end describe "and Float values" do it "yields Float values incremented by 1 and less than or equal to end when not passed a step" do (-2.0..2.0).step { |x| ScratchPad << x } ScratchPad.recorded.should eql([-2.0, -1.0, 0.0, 1.0, 2.0]) end it "yields Float values incremented by an Integer step" do (-5.0..5.0).step(2) { |x| ScratchPad << x } ScratchPad.recorded.should eql([-5.0, -3.0, -1.0, 1.0, 3.0, 5.0]) end it "yields Float values incremented by a Float step" do (-1.0..1.0).step(0.5) { |x| ScratchPad << x } ScratchPad.recorded.should eql([-1.0, -0.5, 0.0, 0.5, 1.0]) end it "returns Float values of 'step * n + begin <= end'" do (1.0..6.4).step(1.8) { |x| ScratchPad << x } (1.0..12.7).step(1.3) { |x| ScratchPad << x } ScratchPad.recorded.should eql([1.0, 2.8, 4.6, 6.4, 1.0, 2.3, 3.6, 4.9, 6.2, 7.5, 8.8, 10.1, 11.4, 12.7]) end it "handles infinite values at either end" do (-Float::INFINITY..0.0).step(2) { |x| ScratchPad << x; break if ScratchPad.recorded.size == 3 } ScratchPad.recorded.should eql([-Float::INFINITY, -Float::INFINITY, -Float::INFINITY]) ScratchPad.record [] (0.0..Float::INFINITY).step(2) { |x| ScratchPad << x; break if ScratchPad.recorded.size == 3 } ScratchPad.recorded.should eql([0.0, 2.0, 4.0]) end end describe "and Integer, Float values" do it "yields Float values incremented by 1 and less than or equal to end when not passed a step" do (-2..2.0).step { |x| ScratchPad << x } ScratchPad.recorded.should eql([-2.0, -1.0, 0.0, 1.0, 2.0]) end it "yields Float values incremented by an Integer step" do (-5..5.0).step(2) { |x| ScratchPad << x } ScratchPad.recorded.should eql([-5.0, -3.0, -1.0, 1.0, 3.0, 5.0]) end it "yields Float values incremented by a Float step" do (-1..1.0).step(0.5) { |x| ScratchPad << x } ScratchPad.recorded.should eql([-1.0, -0.5, 0.0, 0.5, 1.0]) end end describe "and Float, Integer values" do it "yields Float values incremented by 1 and less than or equal to end when not passed a step" do (-2.0..2).step { |x| ScratchPad << x } ScratchPad.recorded.should eql([-2.0, -1.0, 0.0, 1.0, 2.0]) end it "yields Float values incremented by an Integer step" do (-5.0..5).step(2) { |x| ScratchPad << x } ScratchPad.recorded.should eql([-5.0, -3.0, -1.0, 1.0, 3.0, 5.0]) end it "yields Float values incremented by a Float step" do (-1.0..1).step(0.5) { |x| ScratchPad << x } ScratchPad.recorded.should eql([-1.0, -0.5, 0.0, 0.5, 1.0]) end end describe "and String values" do it "yields String values incremented by #succ and less than or equal to end when not passed a step" do ("A".."E").step { |x| ScratchPad << x } ScratchPad.recorded.should == ["A", "B", "C", "D", "E"] end it "yields String values incremented by #succ called Integer step times" do ("A".."G").step(2) { |x| ScratchPad << x } ScratchPad.recorded.should == ["A", "C", "E", "G"] end it "raises a TypeError when passed a Float step" do -> { ("A".."G").step(2.0) { } }.should raise_error(TypeError) end it "calls #succ on begin and each element returned by #succ" do obj = mock("Range#step String start") obj.should_receive(:<=>).exactly(3).times.and_return(-1, -1, -1, 0) obj.should_receive(:succ).exactly(2).times.and_return(obj) (obj..obj).step { |x| ScratchPad << x } ScratchPad.recorded.should == [obj, obj, obj] end end end describe "with exclusive end" do describe "and Integer values" do it "yields Integer values incremented by 1 and less than end when not passed a step" do (-2...2).step { |x| ScratchPad << x } ScratchPad.recorded.should eql([-2, -1, 0, 1]) end it "yields Integer values incremented by an Integer step" do (-5...5).step(2) { |x| ScratchPad << x } ScratchPad.recorded.should eql([-5, -3, -1, 1, 3]) end it "yields Float values incremented by a Float step" do (-2...2).step(1.5) { |x| ScratchPad << x } ScratchPad.recorded.should eql([-2.0, -0.5, 1.0]) end end describe "and Float values" do it "yields Float values incremented by 1 and less than end when not passed a step" do (-2.0...2.0).step { |x| ScratchPad << x } ScratchPad.recorded.should eql([-2.0, -1.0, 0.0, 1.0]) end it "yields Float values incremented by an Integer step" do (-5.0...5.0).step(2) { |x| ScratchPad << x } ScratchPad.recorded.should eql([-5.0, -3.0, -1.0, 1.0, 3.0]) end it "yields Float values incremented by a Float step" do (-1.0...1.0).step(0.5) { |x| ScratchPad << x } ScratchPad.recorded.should eql([-1.0, -0.5, 0.0, 0.5]) end it "returns Float values of 'step * n + begin < end'" do (1.0...6.4).step(1.8) { |x| ScratchPad << x } (1.0...55.6).step(18.2) { |x| ScratchPad << x } ScratchPad.recorded.should eql([1.0, 2.8, 4.6, 1.0, 19.2, 37.4]) end it "handles infinite values at either end" do (-Float::INFINITY...0.0).step(2) { |x| ScratchPad << x; break if ScratchPad.recorded.size == 3 } ScratchPad.recorded.should eql([-Float::INFINITY, -Float::INFINITY, -Float::INFINITY]) ScratchPad.record [] (0.0...Float::INFINITY).step(2) { |x| ScratchPad << x; break if ScratchPad.recorded.size == 3 } ScratchPad.recorded.should eql([0.0, 2.0, 4.0]) end end describe "and Integer, Float values" do it "yields Float values incremented by 1 and less than end when not passed a step" do (-2...2.0).step { |x| ScratchPad << x } ScratchPad.recorded.should eql([-2.0, -1.0, 0.0, 1.0]) end it "yields Float values incremented by an Integer step" do (-5...5.0).step(2) { |x| ScratchPad << x } ScratchPad.recorded.should eql([-5.0, -3.0, -1.0, 1.0, 3.0]) end it "yields an Float and then Float values incremented by a Float step" do (-1...1.0).step(0.5) { |x| ScratchPad << x } ScratchPad.recorded.should eql([-1.0, -0.5, 0.0, 0.5]) end end describe "and Float, Integer values" do it "yields Float values incremented by 1 and less than end when not passed a step" do (-2.0...2).step { |x| ScratchPad << x } ScratchPad.recorded.should eql([-2.0, -1.0, 0.0, 1.0]) end it "yields Float values incremented by an Integer step" do (-5.0...5).step(2) { |x| ScratchPad << x } ScratchPad.recorded.should eql([-5.0, -3.0, -1.0, 1.0, 3.0]) end it "yields Float values incremented by a Float step" do (-1.0...1).step(0.5) { |x| ScratchPad << x } ScratchPad.recorded.should eql([-1.0, -0.5, 0.0, 0.5]) end end describe "and String values" do it "yields String values incremented by #succ and less than or equal to end when not passed a step" do ("A"..."E").step { |x| ScratchPad << x } ScratchPad.recorded.should == ["A", "B", "C", "D"] end it "yields String values incremented by #succ called Integer step times" do ("A"..."G").step(2) { |x| ScratchPad << x } ScratchPad.recorded.should == ["A", "C", "E"] end it "raises a TypeError when passed a Float step" do -> { ("A"..."G").step(2.0) { } }.should raise_error(TypeError) end end end describe "when no block is given" do describe "returned Enumerator" do describe "size" do it "raises a TypeError if step does not respond to #to_int" do obj = mock("Range#step non-integer") enum = (1..2).step(obj) -> { enum.size }.should raise_error(TypeError) end it "raises a TypeError if #to_int does not return an Integer" do obj = mock("Range#step non-integer") obj.should_receive(:to_int).and_return("1") enum = (1..2).step(obj) -> { enum.size }.should raise_error(TypeError) end ruby_version_is ""..."2.6" do it "raises an ArgumentError if step is 0" do enum = (-1..1).step(0) -> { enum.size }.should raise_error(ArgumentError) end it "raises an ArgumentError if step is 0.0" do enum = (-1..1).step(0.0) -> { enum.size }.should raise_error(ArgumentError) end it "raises an ArgumentError if step is negative" do enum = (-1..1).step(-2) -> { enum.size }.should raise_error(ArgumentError) end end ruby_version_is "2.6" do it "returns Float::INFINITY for zero step" do (-1..1).step(0).size.should == Float::INFINITY (-1..1).step(0.0).size.should == Float::INFINITY end end it "returns the ceil of range size divided by the number of steps" do (1..10).step(4).size.should == 3 (1..10).step(3).size.should == 4 (1..10).step(2).size.should == 5 (1..10).step(1).size.should == 10 (-5..5).step(2).size.should == 6 (1...10).step(4).size.should == 3 (1...10).step(3).size.should == 3 (1...10).step(2).size.should == 5 (1...10).step(1).size.should == 9 (-5...5).step(2).size.should == 5 end ruby_version_is "2.6" do it "returns the ceil of range size divided by the number of steps even if step is negative" do (-1..1).step(-1).size.should == 0 (1..-1).step(-1).size.should == 3 end end it "returns the correct number of steps when one of the arguments is a float" do (-1..1.0).step(0.5).size.should == 5 (-1.0...1.0).step(0.5).size.should == 4 end it "returns the range size when there's no step_size" do (-2..2).step.size.should == 5 (-2.0..2.0).step.size.should == 5 (-2..2.0).step.size.should == 5 (-2.0..2).step.size.should == 5 (1.0..6.4).step(1.8).size.should == 4 (1.0..12.7).step(1.3).size.should == 10 (-2...2).step.size.should == 4 (-2.0...2.0).step.size.should == 4 (-2...2.0).step.size.should == 4 (-2.0...2).step.size.should == 4 (1.0...6.4).step(1.8).size.should == 3 (1.0...55.6).step(18.2).size.should == 3 end it "returns nil with begin and end are String" do ("A".."E").step(2).size.should == nil ("A"..."E").step(2).size.should == nil ("A".."E").step.size.should == nil ("A"..."E").step.size.should == nil end it "return nil and not raises a TypeError if the first element does not respond to #succ" do obj = mock("Range#step non-comparable") obj.should_receive(:<=>).with(obj).and_return(1) enum = (obj..obj).step -> { enum.size }.should_not raise_error enum.size.should == nil end end describe "type" do ruby_version_is ""..."2.6" do it "returns an instance of Enumerator" do (1..10).step.class.should == Enumerator end end ruby_version_is "2.6" do context "when both begin and end are numerics" do it "returns an instance of Enumerator::ArithmeticSequence" do (1..10).step.class.should == Enumerator::ArithmeticSequence end end context "when begin and end are not numerics" do it "returns an instance of Enumerator" do ("a".."z").step.class.should == Enumerator end end end end end end end