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multi.lua
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multi.lua
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-- This is an example Lua transform for a multi style
-- It is not intended for use directly with --tag-transform-script but
-- for use from multi.style.json
--
-- See docs/lua.md and docs/multi.md
-- These are copied from default.style
-- If new "tags" are being generated in the Lua code they should normally be
-- added here. This is why name_.* is dropped. In the raw OSM data
-- multi-lingual names are stored in name:*.
delete_tags = {'name_.*', 'note', 'note:.*', 'source', 'source_ref', 'source:.*',
'attribution', 'comment', 'fixme', 'created_by', 'odbl',
'odbl:note', 'SK53_bulk:load', 'tiger:.*', 'NHD:.*', 'nhd:.*',
'gnis:.*', 'geobase:.*', 'accuracy:meters', 'sub_sea:type',
'waterway:type', 'KSJ2:.*', 'yh:.*', 'osak:.*', 'kms:.*', 'ngbe:.*',
'naptan:.*', 'CLC:.*', '3dshapes:ggmodelk', 'AND_nosr_r',
'import', 'it:fvg:.*'}
-- In a real transform the Lua code might be split into multiple files with
-- common code included with "dofile" but a single file is easier for an example
-- A function to determine if the tags make the object "interesting" to the
-- buildings table
function building_interesting (kv)
return kv["building"] and kv["building"] ~= "no"
end
function building_transform (kv)
kv["name_en"] = name_lang(kv, "en")
kv["name_de"] = name_lang(kv, "de")
kv["name_fr"] = name_lang(kv, "fr")
return kv
end
-- If we weren't generating multilingual names we could omit building_transform
function building_ways (kv, num_keys)
return generic_ways(building_interesting, kv, true, building_transform)
end
function building_rels (kv, num_keys)
return generic_rels(building_interesting, kv)
end
function building_rel_members (kv, keyvaluemembers, roles, membercount)
return generic_rel_members(building_interesting, kv, keyvaluemembers, roles, membercount, building_transform)
end
-- A function to determine if the tags make the object "interesting" to the
-- bus stop table
function bus_interesting (kv)
return kv["highway"] == "bus_stop"
end
function bus_transform (kv)
kv["shelter"] = yesno(kv["shelter"])
kv["bench"] = yesno(kv["bench"])
kv["wheelchair"] = yesno(kv["wheelchair"])
kv["name_en"] = name_lang(kv, "en")
kv["name_de"] = name_lang(kv, "de")
kv["name_fr"] = name_lang(kv, "fr")
return kv
end
function bus_nodes (kv, num_keys)
return generic_nodes(bus_interesting, kv, bus_transform)
end
-- lookup tables for highways. Using an enum would be better in some ways, but
-- would require creating the type before importing with osm2pgsql, which is
-- not well suited to an example.
highway_lookup = {motorway = 0,
trunk = 1,
primary = 2,
secondary = 3,
tertiary = 4,
unclassified = 5,
residential = 5}
link_lookup = {motorway_link = 0,
trunk_link = 1,
primary_link = 2,
secondary_link = 3,
tertiary_link = 4}
function highway_interesting (kv)
-- The kv["highway"] check is not necessary but helps performance
return kv["highway"] and (highway_lookup[kv["highway"]] or link_lookup[kv["highway"]])
end
function highway_transform (kv)
-- Thanks to highway_interesting we know that kv["highway"] is in one of
-- highway_lookup or link_lookup
kv["road_class"] = highway_lookup[kv["highway"]] or link_lookup[kv["highway"]]
-- This is a lua way of doing an inline conditional
kv["road_type"] = highway_lookup[kv["highway"]] and "road" or "link"
kv["name_en"] = name_lang(kv, "en")
kv["name_de"] = name_lang(kv, "de")
kv["name_fr"] = name_lang(kv, "fr")
return kv
end
function highway_ways (kv, num_keys)
return generic_ways(highway_interesting, kv, false, highway_transform)
end
-- Some generic and utility helper functions
-- This function normalizes a tag to true/false. It turns no or false into
-- false and anything else to true. The result can then be used with a
-- boolean column.
-- > = yesno(nil)
-- nil
-- > = yesno("no")
-- false
-- > = yesno("false")
-- false
-- > = yesno("yes")
-- true
-- > = yesno("foo")
-- true
--
-- A typical usage would be on a tag like bridge, tunnel, or shelter, but not
-- a tag like oneway which could be yes, no, reverse, or unset
function yesno (v)
-- This is a way of doing an inline condition in Lua
return v ~= nil and ((v == "no" or v == "false") and "false" or "true") or nil
end
-- Converts a name and name:lang tag into one combined name
-- By passing an optional name_tag parameter it can also work with other
-- multi-lingual tags
function name_lang(kv, lang, name_tag)
if kv then
-- Default to the name tag, which is what this will generally be used on.
name_tag = name_tag or "name"
-- Defaulting to en is a bit of complete Anglo-centrism
lang = lang or "en"
name = kv[name_tag]
name_trans = kv[name_tag .. ":" .. lang]
-- If we don't have a translated name, just use the name (which may be blank)
if not name_trans then return name end
-- If we do have a translated name and not a local language name, use the translated
if not name then return name_trans end
-- if they're the same, return one of them
if name == name_trans then return name end
-- This method presents some problems when multiple names get put in the
-- name tag.
return name_trans .. "(" .. name .. ")"
end
end
-- This function gets rid of an object we don't care about
function drop_all (...)
return 1, {}
end
-- This eliminates tags to be deleted
function preprocess_tags (kv)
tags = {}
for k, v in pairs (kv) do
match = false
for _, d in ipairs(delete_tags) do
match = match or string.find(k, d)
end
if not match then
tags[k] = v
end
end
return tags
end
-- A generic way to process nodes, given a function which determines if tags are interesting
-- Takes an optional function to process tags
function generic_nodes (f, kv, t)
if f(kv) then
t = t or function (kv) return kv end
tags = t(kv)
return 0, tags
else
return 1, {}
end
end
-- A generic way to process ways, given a function which determines if tags are interesting
-- Takes an optional function to process tags.
function generic_ways (interesting, kv, area, transform)
if interesting(kv) then
t = transform or function (kv) return kv end
tags = t(preprocess_tags(kv))
return 0, tags, area and 1 or 0, 0
else
return 1, {}, 0, 0
end
end
-- A generic way to process relations, given a function which determines if
-- tags are interesting. The tag transformation work is done in
-- generic_rel_members so we don't need to pass in a transformation function.
function generic_rels (f, kv)
if kv["type"] == "multipolygon" and f(kv) then
tags = kv
return 0, tags
else
return 1, {}
end
end
-- Basically taken from style.lua, with the potential for a transform added
function generic_rel_members (f, keyvals, keyvaluemembers, roles, membercount, transform)
filter = 0
boundary = 0
polygon = 0
roads = 0
t = transform or function (kv) return kv end
--mark each way of the relation to tell the caller if its going
--to be used in the relation or by itself as its own standalone way
--we start by assuming each way will not be used as part of the relation
membersuperseded = {}
for i = 1, membercount do
membersuperseded[i] = 0
end
--remember the type on the relation and erase it from the tags
type = keyvals["type"]
keyvals["type"] = nil
if (type == "multipolygon") and keyvals["boundary"] == nil then
--check if this relation has tags we care about
polygon = 1
filter = f(keyvals)
--if the relation didn't have the tags we need go grab the tags from
--any members that are marked as outers of the multipolygon
if (filter == 1) then
for i = 1,membercount do
if (roles[i] == "outer") then
for j,k in ipairs(tags) do
v = keyvaluemembers[i][k]
if v then
keyvals[k] = v
filter = 0
end
end
end
end
end
if filter == 1 then
tags = t(keyvals)
return filter, tags, membersuperseded, boundary, polygon, roads
end
--for each tag of each member if the relation have the tag or has a non matching value for it
--then we say the member will not be used in the relation and is there for not superseded
--ie it is kept as a standalone way
for i = 1,membercount do
superseded = 1
for k,v in pairs(keyvaluemembers[i]) do
if ((keyvals[k] == nil) or (keyvals[k] ~= v)) then
superseded = 0;
break
end
end
membersuperseded[i] = superseded
end
end
tags = t(keyvals)
return filter, tags, membersuperseded, boundary, polygon, roads
end