Module:Map/sandbox

local getArgs = require('Module:Arguments').getArgs local p = {}

function dbg(v, msg) mw.log((msg or '') .. mw.text.jsonEncode(v)) end

-- Parse all unnamed string parameters in a form of "latitude, longitude" into the real number pairs function getSequence(args) local coords = {} for ind, val in pairs( args ) do       if type(ind) == "number" then local valid = false local val2 = mw.text.split( val, ',', true ) -- allow for elevation if #val2 >= 2 and #val2 <= 3 then local lat = tonumber(val2[1]) local lon = tonumber(val2[2]) if lat ~= nil and lon ~= nil then table.insert(coords, { lon, lat } ) valid = true end end if not valid then error('Unnamed parameter #' .. ind .. ' "' .. val .. '" is not recognized as a valid "latitude,longitude" value') end end end return coords end

--  See http://geojson.org/geojson-spec.html -- Convert a comma and semicolon separated numbers into geojson coordinate arrays -- Each geotype expects a certain array depth: --  Point           - [ lon, lat ]  All other types use point as the basic type --  MultiPoint      - array of points: [ point, ... ] --  LineString      - array of 2 or more points: [ point, point, ... ] --  MultiLineString - array of LineStrings: [ [ point, point, ... ], ... ] --  Polygon         - [ [ point, point, point, point, ... ], ... ] --                    each LinearRing is an array of 4 or more points, where first and last must be the same --                    first LinearRing is the exterior ring, subsequent rings are holes in it --   MultiPolygon    - array of Polygons: [ [ [ point, point, point, point, ... ], ... ], ... ] -- -- For example, for the LineString, data "p1;p2;p3" would be converted to [p1,p2,p3] (each "p" is a [lon,lat] value) -- LineString has the depth of "1" -- array of points (each point being a two value array) -- For Polygon, the same sequence "p1;p2;p3" would be converted to p1,p2,p3 -- Which is an array of array of points. But sometimes we need to specify two subarrays of points: -- p1,p2],[p3 (last point is in a separate array), and we do it with "p1;p2;;p3" -- Similarly, for MultiPolygon, "p1;p2;;;p3" would generate [p1,p2,p3] -- function p.parseGeoSequence(args) local result = p._parseGeoSequence(args) if type(result) == 'string' then error(result) end return result end

function p._parseGeoSequence(args) local allTypes = { -- how many nested array levels until we get to the Point, -- second is the minimum number of values each Points array must have Point          = { 1, 1 }, MultiPoint     = { 1, 0 }, LineString     = { 1, 2 }, MultiLineString = { 2, 2 }, Polygon        = { 2, 4 }, MultiPolygon   = { 3, 4 }, }

if not allTypes[args.geotype] then return ('Unknown geotype ' .. args.geotype) end local levels, min = unpack(allTypes[args.geotype])

local result result = {} for i = 1, levels do result[i] = {} end local gap = 0

-- Example for levels==3, converting "p1 ; p2 ; ; ; p3 ; ; p4" => [p1, p2, p3],[p4] -- This function will be called after each gap, and all values are done, so the above will call: -- before p3: gap=2, [],[],[p1,p2]            => [p1,p2],[],[] -- before p4: gap=1, [p1,p2],[],[p3]      => [p1,p2],p3],[] -- the end,   gap=2, [p1,p2],p3],[p4] => [p1,p2,p3],[p4],[],[] -- Here, convert at "p1 ; ; " from ],[p1 local closeArrays = function (gap) if #result[levels] < min then error('Each points array must be at least ' .. min .. ' values') elseif min == 1 and #result[levels] ~= 1 then -- Point error('Point must have exactly one data point') end -- attach arrays in reverse order to the higher order ones for i = levels, levels-gap+1, -1 do           table.insert(result[i-1], result[i]) result[i] = {} end return 0 end

local usedSequence = false for val in mw.text.gsplit(args.data, ';', true) do       local val2 = mw.text.split(val, ',', true) -- allow for elevation if #val2 >= 2 and #val2 <= 3 and not usedSequence then if gap > 0 then gap = closeArrays(gap) end local lat = tonumber(val2[1]) local lon = tonumber(val2[2]) if lat == nil or lon == nil then return ('Bad data value "' .. val .. '"') end table.insert(result[levels], { lon, lat } ) else val = mw.text.trim(val) if val == '' then usedSequence = false gap = gap + 1 if (gap >= levels) then return ('Data must not skip more than ' .. levels-1 .. ' values') end elseif usedSequence then return ('Coordinates may not be added right after the named sequence') else if gap > 0 then gap = closeArrays(gap) elseif #result[levels] > 0 then return ('Named sequence "' .. val .. '" cannot be used in the middle of the sequence') end

-- Parse value as a sequence name. Eventually we can load data from external data sources if val == 'values' then val = getSequence(args) elseif min == 4 and val == 'world' then val = {{36000,-180}, {36000,180}, {-36000,180}, {-36000,-180}, {36000,-180}} elseif tonumber(val) ~= nil then return ('Not a valid coordinate or a sequence name: ' .. val) else return ('Sequence "' .. val .. '" is not known. Try "values" or "world" (for Polygons), or specify values as lat,lon;lat,lon;... pairs') end result[levels] = val usedSequence = true end end end -- allow one empty last value (some might close the list with an extra semicolon) if (gap > 1) then return ('Data values must not have blanks at the end') end closeArrays(levels-1) return args.geotype == 'Point' and result[1][1] or result[1] end

-- Run this function to check that the above works ok function p.parseGeoSequenceTest local testSeq = function(data, expected) local result = getSequence(data) if type(result) == 'table' then local actual = mw.text.jsonEncode(result) result = actual ~= expected and 'data="' .. mw.text.jsonEncode(data) .. '", actual="' .. actual .. '", expected="' .. expected .. '" \n' or '' else result = result .. ' \n' end return result end local test = function(geotype, data, expected, values) values = values or {} values.geotype = geotype; values.data = data; local result = p._parseGeoSequence(values) if type(result) == 'table' then local actual = mw.text.jsonEncode(result) result = actual ~= expected and 'geotype="' .. geotype .. '", data="' .. data .. '", actual="' .. actual .. '", expected="' .. expected .. '" \n' or '' else result = 'geotype="' .. geotype .. '", data="' .. data .. '", error="' .. result .. ' \n'       end        return result    end    local values = {' 9, 8 ','7,6'}    local result = '' ..            testSeq({}, '[]') ..            testSeq({'\t\n 1 \r,-10'}, '-10,1') ..            testSeq(values, '8,9],[6,7') ..            test('Point', '1,2', '[2,1]') ..            test('MultiPoint', '1,2;3,4;5,6', '2,1],[4,3],[6,5') ..            test('LineString', '1,2;3,4', '2,1],[4,3') ..            test('MultiLineString', '1,2;3,4', '[2,1],[4,3]') ..            test('MultiLineString', '1,2;3,4;;5,6;7,8', '[2,1],[4,3,6,5],[8,7]') ..            test('Polygon', '1,2;3,4;5,6;1,2', '[2,1],[4,3],[6,5],[2,1]') ..            test('MultiPolygon', '1,2;3,4;5,6;1,2', '[[2,1],[4,3],[6,5],[2,1]]') ..            test('MultiPolygon', '1,2;3,4;5,6;1,2;;11,12;13,14;15,16;11,12', '[[2,1],[4,3],[6,5],[2,1,12,11],[14,13],[16,15],[12,11]]') .. test('MultiPolygon', '1,2;3,4;5,6;1,2;;;11,12;13,14;15,16;11,12', '[[2,1],[4,3],[6,5],[2,1],[12,11],[14,13],[16,15],[12,11]]') .. test('MultiPolygon', '1,2;3,4;5,6;1,2;;;11,12;13,14;15,16;11,12;;21,22;23,24;25,26;21,22', '[[2,1],[4,3],[6,5],[2,1],[12,11],[14,13],[16,15],[12,11,22,21],[24,23],[26,25],[22,21]]') .. test('MultiLineString', 'values;;1,2;3,4', '[8,9],[6,7,2,1],[4,3]', values) .. test('Polygon', 'world;;world', '[36000,-180],[36000,180],[-36000,180],[-36000,-180],[36000,-180,36000,-180],[36000,180],[-36000,180],[-36000,-180],[36000,-180]') ..    return result ~=  and result or 'Tests passed' end

function p._tag(args) local tagname = args.type or 'maplink' if tagname ~= 'maplink' and tagname ~= 'mapframe' then error('unknown type "' .. tagname .. '"') end

local geojson local tagArgs = { text = args.text, zoom = tonumber(args.zoom), latitude = tonumber(args.latitude), longitude = tonumber(args.longitude), group = args.group, show = args.show, }   if tagname == 'mapframe' then tagArgs.width = args.width == nil and 420 or args.width tagArgs.height = args.height == nil and 420 or args.height end

if args.data == '' then args.data = nil end if (not args.geotype) ~= (not args.data) then -- one is given, but not the other if args.data then error('Parameter "data" is given, but "geotype" is not set. Use one of these: Point, MultiPoint, LineString, MultiLineString, Polygon, MultiPolygon') elseif args.geotype == "Point" and tagArgs.latitude ~= nil and tagArgs.longitude ~= nil then -- For Point geotype, it is enough to set latitude and logitude, and data will be set up automatically args.data = tagArgs.latitude .. ',' .. tagArgs.longitude else error('Parameter data must be set. Use "values" to use all unnamed parameters as coordinates (lat,lon|lat,lon|...), "world" for the whole world, a combination to make a mask, e.g. "world;;values", or direct values "lat,lon;lat,lon..." with ";" as value separator') end end

-- Kartographer can now automatically calculate needed zoom & lat/long based on the data provided -- Current version ignores mapmasks, but that will also be fixed soon. Leaving this for now, but can be removed if all is good. -- tagArgs.zoom = tagArgs.zoom == nil and 14 or tagArgs.zoom -- tagArgs.latitude = tagArgs.latitude == nil and 51.47766 or tagArgs.latitude -- tagArgs.longitude = tagArgs.longitude == nil and -0.00115 or tagArgs.longitude

if args.image then args.description = (args.description or '') .. ''	end

if args.geotype then geojson = { type = "Feature", properties = { title = args.title, description = args.description, ['marker-size'] = args['marker-size'], ['marker-symbol'] = args['marker-symbol'], ['marker-color'] = args['marker-color'], stroke = args.stroke, ['stroke-opacity'] = tonumber(args['stroke-opacity']), ['stroke-width'] = tonumber(args['stroke-width']), fill = args.fill, ['fill-opacity'] = tonumber(args['fill-opacity']), },           geometry = { type = args.geotype, coordinates = p.parseGeoSequence(args) }       }    end

if args.debug ~= nil then local html = mw.html.create(tagname, not geojson and {selfClosing=true} or nil) :attr(tagArgs) if geojson then html:wikitext( mw.text.jsonEncode(geojson, mw.text.JSON_PRETTY) ) end return 'syntaxhighlight', tostring(html) .. mw.text.jsonEncode(geoJson, mw.text.JSON_PRETTY), { lang = 'json' } end

return tagname, geojson and mw.text.jsonEncode(geojson) or '', tagArgs end

function p.tag(frame) local args = getArgs(frame) local tag, geojson, tagArgs = p._tag(args) return frame:extensionTag(tag, geojson, tagArgs) end

return p