@max_lon = 3.0
@max_lat = 4.0
- @bad_positive_boundary_bbox = %w(181,91,0,0 0,0,181,91)
- @bad_negative_boundary_bbox = %w(-181,-91,0,0 0,0,-181,-91)
- @bad_big_bbox = %w(-0.1,-0.1,1.1,1.1 10,10,11,11)
- @bad_malformed_bbox = %w(-0.1 hello 10N2W10.1N2.1W)
- @bad_lat_mixed_bbox = %w(0,0.1,0.1,0 -0.1,80,0.1,70 0.24,54.34,0.25,54.33)
- @bad_lon_mixed_bbox = %w(80,-0.1,70,0.1 54.34,0.24,54.33,0.25)
- @bad_limit_bbox = %w(-180.1,-90,180,90 -180,-90.1,180,90 -180,-90,180.1,90 -180,-90,180,90.1)
- @good_bbox = %w(-0.1,-0.1,0.1,0.1 51.1,-0.1,51.2,0 -0.1,%20-0.1,%200.1,%200.1
- -0.1edcd,-0.1d,0.1,0.1 -0.1E,-0.1E,0.1S,0.1N S0.1,W0.1,N0.1,E0.1)
-
- @expand_min_lon_array = %w(2,10,10,10 1,10,10,10 0,10,10,10 -1,10,10,10 -2,10,10,10 -8,10,10,10)
- @expand_min_lat_array = %w(10,2,10,10 10,1,10,10 10,0,10,10 10,-1,10,10 10,-2,10,10 10,-8,10,10)
- @expand_max_lon_array = %w(-2,-2,-1,-2 -2,-2,0,-2 -2,-2,1,-2 -2,-2,2,-2)
- @expand_max_lat_array = %w(-2,-2,-2,-1 -2,-2,-2,0 -2,-2,-2,1 -2,-2,-2,2)
+ @bad_positive_boundary_bbox = %w[181,91,0,0 0,0,181,91]
+ @bad_negative_boundary_bbox = %w[-181,-91,0,0 0,0,-181,-91]
+ @bad_big_bbox = %w[-0.1,-0.1,1.1,1.1 10,10,11,11]
+ @bad_malformed_bbox = %w[-0.1 hello 10N2W10.1N2.1W]
+ @bad_lat_mixed_bbox = %w[0,0.1,0.1,0 -0.1,80,0.1,70 0.24,54.34,0.25,54.33]
+ @bad_lon_mixed_bbox = %w[80,-0.1,70,0.1 54.34,0.24,54.33,0.25]
+ @bad_limit_bbox = %w[-180.1,-90,180,90 -180,-90.1,180,90 -180,-90,180.1,90 -180,-90,180,90.1]
+ @good_bbox = %w[-0.1,-0.1,0.1,0.1 51.1,-0.1,51.2,0 -0.1,%20-0.1,%200.1,%200.1
+ -0.1edcd,-0.1d,0.1,0.1 -0.1E,-0.1E,0.1S,0.1N S0.1,W0.1,N0.1,E0.1]
+
+ @expand_min_lon_array = %w[2,10,10,10 1,10,10,10 0,10,10,10 -1,10,10,10 -2,10,10,10 -8,10,10,10]
+ @expand_min_lat_array = %w[10,2,10,10 10,1,10,10 10,0,10,10 10,-1,10,10 10,-2,10,10 10,-8,10,10]
+ @expand_max_lon_array = %w[-2,-2,-1,-2 -2,-2,0,-2 -2,-2,1,-2 -2,-2,2,-2]
+ @expand_max_lat_array = %w[-2,-2,-2,-1 -2,-2,-2,0 -2,-2,-2,1 -2,-2,-2,2]
@expand_min_lon_margin_response = [[2, 10, 10, 10], [-7, 10, 10, 10], [-7, 10, 10, 10], [-7, 10, 10, 10], [-7, 10, 10, 10], [-25, 10, 10, 10]]
@expand_min_lat_margin_response = [[10, 2, 10, 10], [10, -7, 10, 10], [10, -7, 10, 10], [10, -7, 10, 10], [10, -7, 10, 10], [10, -25, 10, 10]]
@expand_max_lon_margin_response = [[-2, -2, -1, -2], [-2, -2, 1, -2], [-2, -2, 1, -2], [-2, -2, 5, -2]]
def test_good_bbox_boundaries
@good_bbox.each do |bbox_string|
- assert_nothing_raised(OSM::APIBadBoundingBox) { BoundingBox.from_s(bbox_string).check_boundaries }
+ assert_nothing_raised { BoundingBox.from_s(bbox_string).check_boundaries }
end
end
@bad_negative_boundary_bbox.each do |bbox_string|
bbox = BoundingBox.from_bbox_params(:bbox => bbox_string)
array = bbox.to_a
- assert_equal -180, [array[0], array[2]].min
- assert_equal -90, [array[1], array[3]].min
+ assert_equal(-180, [array[0], array[2]].min)
+ assert_equal(-90, [array[1], array[3]].min)
end
end
def test_good_bbox_size
@good_bbox.each do |bbox_string|
- assert_nothing_raised(OSM::APIBadBoundingBox) { BoundingBox.from_s(bbox_string).check_size }
+ assert_nothing_raised { BoundingBox.from_s(bbox_string).check_size }
end
end
def test_size_to_big
@bad_big_bbox.each do |bbox_string|
bbox = nil
- assert_nothing_raised(OSM::APIBadBoundingBox) { bbox = BoundingBox.from_bbox_params(:bbox => bbox_string).check_boundaries }
+ assert_nothing_raised { bbox = BoundingBox.from_bbox_params(:bbox => bbox_string).check_boundaries }
exception = assert_raise(OSM::APIBadBoundingBox) { bbox.check_size }
assert_equal(@size_error_message, exception.message)
end
end
def test_complete
- assert !@bbox_from_nils.complete?, "should contain a nil"
+ assert_not @bbox_from_nils.complete?, "should contain a nil"
assert @bbox_from_string.complete?, "should not contain a nil"
end
def test_add_bounds_to_no_underscore
bounds = @bbox_from_string.add_bounds_to({})
assert_equal 4, bounds.size
- assert_equal @min_lon.to_s, bounds["minlon"]
- assert_equal @min_lat.to_s, bounds["minlat"]
- assert_equal @max_lon.to_s, bounds["maxlon"]
- assert_equal @max_lat.to_s, bounds["maxlat"]
+ assert_equal format("%<lon>.7f", :lon => @min_lon), bounds["minlon"]
+ assert_equal format("%<lat>.7f", :lat => @min_lat), bounds["minlat"]
+ assert_equal format("%<lon>.7f", :lon => @max_lon), bounds["maxlon"]
+ assert_equal format("%<lat>.7f", :lat => @max_lat), bounds["maxlat"]
end
def test_add_bounds_to_with_underscore
bounds = @bbox_from_string.add_bounds_to({}, "_")
assert_equal 4, bounds.size
- assert_equal @min_lon.to_s, bounds["min_lon"]
- assert_equal @min_lat.to_s, bounds["min_lat"]
- assert_equal @max_lon.to_s, bounds["max_lon"]
- assert_equal @max_lat.to_s, bounds["max_lat"]
+ assert_equal format("%<lon>.7f", :lon => @min_lon), bounds["min_lon"]
+ assert_equal format("%<lat>.7f", :lat => @min_lat), bounds["min_lat"]
+ assert_equal format("%<lon>.7f", :lon => @max_lon), bounds["max_lon"]
+ assert_equal format("%<lat>.7f", :lat => @max_lat), bounds["max_lat"]
end
def test_to_scaled
def check_expand(bbox, array_string, margin = 0, result = nil)
array = array_string.split(",").collect(&:to_f)
- result = array unless result
+ result ||= array
bbox.expand!(BoundingBox.new(array[0], array[1], array[2], array[3]), margin)
check_bbox(bbox, result)
end
def check_bbox(bbox, result)
- assert_equal result[0], bbox.min_lon, "min_lon"
- assert_equal result[1], bbox.min_lat, "min_lat"
- assert_equal result[2], bbox.max_lon, "max_lon"
- assert_equal result[3], bbox.max_lat, "max_lat"
+ assert_equal_allowing_nil result[0], bbox.min_lon, "min_lon"
+ assert_equal_allowing_nil result[1], bbox.min_lat, "min_lat"
+ assert_equal_allowing_nil result[2], bbox.max_lon, "max_lon"
+ assert_equal_allowing_nil result[3], bbox.max_lat, "max_lat"
end
end