def test_start_slant_legal_joint(): # Create a joint that is only legal because of the start slant. p = Pen() p.outline_mode(1.0, 0.1) p.move_to((0, 0)) p.turn_to(0) p.line_forward(0.8, start_slant=-45) p.turn_left(90) p.outline_mode(2.0, 0.1) p.line_forward(5)
def test_start_slant_legal_joint(): # Create a joint that is only legal because of the start slant. p = Pen() p.outline_mode(1.0, 0.1) p.move_to((0, 0)) p.turn_to(0) p.line_forward(0.8, start_slant=-45) p.turn_left(90) p.outline_mode(2.0, 0.1) p.line_forward(5)
def test_outline(): p = Pen() p.move_to((0, 0)) p.turn_to(0) p.outline_mode(1.0, 0.2) p.line_forward(3) assert_path_data( p, 1, ( 'M-0.1,-0.6 L-0.1,0.6 L3.1,0.6 L3.1,-0.6 L-0.1,-0.6 z ' 'M0.1,-0.4 L2.9,-0.4 L2.9,0.4 L0.1,0.4 L0.1,-0.4 z' ) )
def test_outline(): p = Pen() p.move_to((0, 0)) p.turn_to(0) p.outline_mode(1.0, 0.2) p.line_forward(3) assert_path_data( p, 1, ( 'M-0.1,-0.6 L-0.1,0.6 L3.1,0.6 L3.1,-0.6 L-0.1,-0.6 z ' 'M0.1,-0.4 L2.9,-0.4 L2.9,0.4 L0.1,0.4 L0.1,-0.4 z' ) )
def test_change_outline_width(): # Changing the outline width starts a new path. p = Pen() p.move_to((0, 0)) p.turn_to(0) p.outline_mode(1.0, 0.2) p.line_forward(3) p.outline_mode(1.0, 0.4) p.line_forward(3) assert_path_data( p, 1, [ ( 'M-0.1,-0.6 L-0.1,0.6 L3.1,0.6 L3.1,-0.6 L-0.1,-0.6 z ' 'M0.1,-0.4 L2.9,-0.4 L2.9,0.4 L0.1,0.4 L0.1,-0.4 z' ), ( 'M2.8,-0.7 L2.8,0.7 L6.2,0.7 L6.2,-0.7 L2.8,-0.7 z ' 'M3.2,-0.3 L5.8,-0.3 L5.8,0.3 L3.2,0.3 L3.2,-0.3 z' ), ] )
def test_change_outline_width(): # Changing the outline width starts a new path. p = Pen() p.move_to((0, 0)) p.turn_to(0) p.outline_mode(1.0, 0.2) p.line_forward(3) p.outline_mode(1.0, 0.4) p.line_forward(3) assert_path_data( p, 1, [ ( 'M-0.1,-0.6 L-0.1,0.6 L3.1,0.6 L3.1,-0.6 L-0.1,-0.6 z ' 'M0.1,-0.4 L2.9,-0.4 L2.9,0.4 L0.1,0.4 L0.1,-0.4 z' ), ( 'M2.8,-0.7 L2.8,0.7 L6.2,0.7 L6.2,-0.7 L2.8,-0.7 z ' 'M3.2,-0.3 L5.8,-0.3 L5.8,0.3 L3.2,0.3 L3.2,-0.3 z' ), ] )