post :amf_read
assert_response :success
amf_parse_response
- assert_equal amf_result("/1")[0], id
+ way = amf_result("/1")
+ assert_equal way[0], 0
+ assert_equal way[2], id
end
def test_getway_invisible
assert_response :success
amf_parse_response
way = amf_result("/1")
- assert_equal way[0], id
- assert way[1].empty? and way[2].empty?
+ assert_equal way[0], -4
+ assert_equal way[1], "way"
+ assert_equal way[2], id
+ assert way[3].empty? and way[4].empty?
end
def test_getway_nonexistent
assert_response :success
amf_parse_response
way = amf_result("/1")
- assert_equal way[0], 0
- assert way[1].empty? and way[2].empty?
+ assert_equal way[0], -4
+ assert_equal way[1], "way"
+ assert_equal way[2], 0
+ assert way[3].empty? and way[4].empty?
end
def test_whichways
# check contents of message
map = amf_result "/1"
assert_equal 0, map[0], 'map error code should be 0'
+ assert_equal "", map[1], 'map error text should be empty'
# check the formatting of the message
- assert_equal 4, map.length, 'map should have length 4'
- assert_equal Array, map[1].class, 'map "ways" element should be an array'
- assert_equal Array, map[2].class, 'map "nodes" element should be an array'
- assert_equal Array, map[3].class, 'map "relations" element should be an array'
- map[1].each do |w|
+ assert_equal 5, map.length, 'map should have length 5'
+ assert_equal Array, map[2].class, 'map "ways" element should be an array'
+ assert_equal Array, map[3].class, 'map "nodes" element should be an array'
+ assert_equal Array, map[4].class, 'map "relations" element should be an array'
+ map[2].each do |w|
assert_equal 2, w.length, 'way should be (id, version) pair'
assert w[0] == w[0].floor, 'way ID should be an integer'
assert w[1] == w[1].floor, 'way version should be an integer'
end
- map[2].each do |n|
+ map[3].each do |n|
assert_equal 5, w.length, 'node should be (id, lat, lon, [tags], version) tuple'
assert n[0] == n[0].floor, 'node ID should be an integer'
assert n[1] >= minlat - 0.01, 'node lat should be greater than min'
assert n[4] == n[4].floor, 'node version should be an integer'
end
- map[3].each do |r|
+ map[4].each do |r|
assert_equal 2, r.length, 'relation should be (id, version) pair'
assert r[0] == r[0].floor, 'relation ID should be an integer'
assert r[1] == r[1].floor, 'relation version should be an integer'
# TODO: looks like amf_controller changed since this test was written
# so someone who knows what they're doing should check this!
- ways = map[1].collect { |x| x[0] }
+ ways = map[2].collect { |x| x[0] }
assert ways.include?(current_ways(:used_way).id),
"map should include used way"
assert !ways.include?(current_ways(:invisible_way).id),
# check contents of message
map = amf_result "/1"
assert_equal 0, map[0], 'first map element should be 0'
- assert_equal Array, map[1].class, 'second map element should be an array'
+ assert_equal "", map[1], 'second map element should be an empty string'
+ assert_equal Array, map[2].class, 'third map element should be an array'
# TODO: looks like amf_controller changed since this test was written
# so someone who knows what they're doing should check this!
- assert !map[1].include?(current_ways(:used_way).id),
+ assert !map[2].include?(current_ways(:used_way).id),
"map should not include used way"
- assert map[1].include?(current_ways(:invisible_way).id),
+ assert map[2].include?(current_ways(:invisible_way).id),
'map should include deleted way'
end
amf_parse_response
map = amf_result "/1"
- assert_boundary_error map, " The server said: The maximum bbox size is 0.25, and your request was too large. Either request a smaller area, or use planet.osm"
+ assert_deleted_boundary_error map, " The server said: The maximum bbox size is 0.25, and your request was too large. Either request a smaller area, or use planet.osm"
end
def test_getrelation
post :amf_read
assert_response :success
amf_parse_response
- assert_equal amf_result("/1")[0], id
+ rel = amf_result("/1")
+ assert_equal rel[0], 0
+ assert_equal rel[2], id
end
def test_getrelation_invisible
assert_response :success
amf_parse_response
rel = amf_result("/1")
- assert_equal rel[0], id
- assert rel[1].empty? and rel[2].empty?
+ assert_equal rel[0], -4
+ assert_equal rel[1], "relation"
+ assert_equal rel[2], id
+ assert rel[3].empty? and rel[4].empty?
end
def test_getrelation_nonexistent
assert_response :success
amf_parse_response
rel = amf_result("/1")
- assert_equal rel[0], id
- assert rel[1].empty? and rel[2].empty?
+ assert_equal rel[0], -4
+ assert_equal rel[1], "relation"
+ assert_equal rel[2], id
+ assert rel[3].empty? and rel[4].empty?
end
def test_getway_old
assert_response :success
amf_parse_response
returned_way = amf_result("/1")
- assert_equal way.id, returned_way[1]
+ assert_equal 0, returned_way[0]
+ assert_equal way.id, returned_way[2]
# API returns the *latest* version, even for old ways...
- assert_equal latest.version, returned_way[4]
+ assert_equal latest.version, returned_way[5]
end
end
assert_response :success
amf_parse_response
returned_way = amf_result("/1")
- assert returned_way[2].empty?
+ assert_equal -1, returned_way[0]
assert returned_way[3].empty?
- assert returned_way[4] < 0
+ assert returned_way[4].empty?
+ assert returned_way[5].nil?
end
end
assert_response :success
amf_parse_response
returned_way = amf_result("/1")
- assert returned_way[2].empty?
+ assert_equal -1, returned_way[0]
assert returned_way[3].empty?
- assert returned_way[4] < 0
+ assert returned_way[4].empty?
+ assert returned_way[5].nil?
end
end
result = amf_result("/1")
assert_equal 0, result[0]
- assert_equal nd.id, result[1]
+ assert_equal "", result[1]
assert_equal nd.id, result[2]
- assert_equal nd.version+1, result[3]
+ assert_equal nd.id, result[3]
+ assert_equal nd.version+1, result[4]
# Now try to update again, with a different lat/lon, using the updated version number
lat = nd.lat+0.1
result = amf_result("/2")
assert_equal 0, result[0]
- assert_equal nd.id, result[1]
+ assert_equal "", result[1]
assert_equal nd.id, result[2]
- assert_equal nd.version+2, result[3]
+ assert_equal nd.id, result[3]
+ assert_equal nd.version+2, result[4]
end
# Check that we can create a no valid poi
result = amf_result("/1")
# check the array returned by the amf
- assert_equal 4, result.size
+ assert_equal 5, result.size
assert_equal 0, result[0], "expected to get the status ok from the amf"
- assert_equal 0, result[1], "The old id should be 0"
- assert result[2] > 0, "The new id should be greater than 0"
- assert_equal 1, result[3], "The new version should be 1"
+ assert_equal 0, result[2], "The old id should be 0"
+ assert result[3] > 0, "The new id should be greater than 0"
+ assert_equal 1, result[4], "The new version should be 1"
# Finally check that the node that was saved has saved the data correctly
# in both the current and history tables
# First check the current table
- current_node = Node.find(result[2])
+ current_node = Node.find(result[3])
assert_in_delta lat, current_node.lat, 0.00001, "The latitude was not retreieved correctly"
assert_in_delta lon, current_node.lon, 0.00001, "The longitude was not retreived correctly"
assert_equal 0, current_node.tags.size, "There seems to be a tag that has been added to the node"
- assert_equal result[3], current_node.version, "The version returned, is different to the one returned by the amf"
+ assert_equal result[4], current_node.version, "The version returned, is different to the one returned by the amf"
# Now check the history table
- historic_nodes = Node.find(:all, :conditions => { :id => result[2] })
+ historic_nodes = Node.find(:all, :conditions => { :id => result[3] })
assert_equal 1, historic_nodes.size, "There should only be one historic node created"
first_historic_node = historic_nodes.first
assert_in_delta lat, first_historic_node.lat, 0.00001, "The latitude was not retreived correctly"
assert_in_delta lon, first_historic_node.lon, 0.00001, "The longitude was not retreuved correctly"
assert_equal 0, first_historic_node.tags.size, "There seems to be a tag that have been attached to this node"
- assert_equal result[3], first_historic_node.version, "The version returned, is different to the one returned by the amf"
+ assert_equal result[4], first_historic_node.version, "The version returned, is different to the one returned by the amf"
####
# This node has some tags
result = amf_result("/2")
# check the array returned by the amf
- assert_equal 4, result.size
+ assert_equal 5, result.size
assert_equal 0, result[0], "Expected to get the status ok in the amf"
- assert_equal 0, result[1], "The old id should be 0"
- assert result[2] > 0, "The new id should be greater than 0"
- assert_equal 1, result[3], "The new version should be 1"
+ assert_equal 0, result[2], "The old id should be 0"
+ assert result[3] > 0, "The new id should be greater than 0"
+ assert_equal 1, result[4], "The new version should be 1"
# Finally check that the node that was saved has saved the data correctly
# in both the current and history tables
# First check the current table
- current_node = Node.find(result[2])
+ current_node = Node.find(result[3])
assert_in_delta lat, current_node.lat, 0.00001, "The latitude was not retreieved correctly"
assert_in_delta lon, current_node.lon, 0.00001, "The longitude was not retreived correctly"
assert_equal 2, current_node.tags.size, "There seems to be a tag that has been added to the node"
assert_equal({ "key" => "value", "ping" => "pong" }, current_node.tags, "tags are different")
- assert_equal result[3], current_node.version, "The version returned, is different to the one returned by the amf"
+ assert_equal result[4], current_node.version, "The version returned, is different to the one returned by the amf"
# Now check the history table
- historic_nodes = Node.find(:all, :conditions => { :id => result[2] })
+ historic_nodes = Node.find(:all, :conditions => { :id => result[3] })
assert_equal 1, historic_nodes.size, "There should only be one historic node created"
first_historic_node = historic_nodes.first
assert_in_delta lat, first_historic_node.lat, 0.00001, "The latitude was not retreived correctly"
assert_in_delta lon, first_historic_node.lon, 0.00001, "The longitude was not retreuved correctly"
assert_equal 2, first_historic_node.tags.size, "There seems to be a tag that have been attached to this node"
assert_equal({ "key" => "value", "ping" => "pong" }, first_historic_node.tags, "tags are different")
- assert_equal result[3], first_historic_node.version, "The version returned, is different to the one returned by the amf"
+ assert_equal result[4], first_historic_node.version, "The version returned, is different to the one returned by the amf"
end
def test_putpoi_delete_valid
end
end
- # this should be what AMF controller returns when the bbox of a request
- # is invalid or too large.
+ # this should be what AMF controller returns when the bbox of a
+ # whichways request is invalid or too large.
def assert_boundary_error(map, msg=nil, error_hint=nil)
- expected_map = [-2, "Sorry - I can't get the map for that area.#{msg}"]
+ expected_map = [-2, "Sorry - I can't get the map for that area.#{msg}", [], [], []]
+ assert_equal expected_map, map, "AMF controller should have returned an error. (#{error_hint})"
+ end
+
+ # this should be what AMF controller returns when the bbox of a
+ # whichways_deleted request is invalid or too large.
+ def assert_deleted_boundary_error(map, msg=nil, error_hint=nil)
+ expected_map = [-2, "Sorry - I can't get the map for that area.#{msg}", []]
assert_equal expected_map, map, "AMF controller should have returned an error. (#{error_hint})"
end
end