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September 4, 2011 21:56
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Classes to calculate Tile coordinates
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#!/usr/bin/env python | |
############################################################################### | |
# $Id$ | |
# | |
# Project: GDAL2Tiles, Google Summer of Code 2007 & 2008 | |
# Global Map Tiles Classes | |
# Purpose: Convert a raster into TMS tiles, create KML SuperOverlay EPSG:4326, | |
# generate a simple HTML viewers based on Google Maps and OpenLayers | |
# Author: Klokan Petr Pridal, klokan at klokan dot cz | |
# Web: http://www.klokan.cz/projects/gdal2tiles/ | |
# | |
############################################################################### | |
# Copyright (c) 2008 Klokan Petr Pridal. All rights reserved. | |
# | |
# Permission is hereby granted, free of charge, to any person obtaining a | |
# copy of this software and associated documentation files (the "Software"), | |
# to deal in the Software without restriction, including without limitation | |
# the rights to use, copy, modify, merge, publish, distribute, sublicense, | |
# and/or sell copies of the Software, and to permit persons to whom the | |
# Software is furnished to do so, subject to the following conditions: | |
# | |
# The above copyright notice and this permission notice shall be included | |
# in all copies or substantial portions of the Software. | |
# | |
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS | |
# OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, | |
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL | |
# THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER | |
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING | |
# FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER | |
# DEALINGS IN THE SOFTWARE. | |
############################################################################### | |
# Modifications from the original | |
# accessed from http://www.maptiler.org/google-maps-coordinates-tile-bounds-projection/ | |
# 2011-09-04 | |
# Copyright 2011 University of California at Berkeley | |
# | |
# Licensed under the Apache License, Version 2.0 (the "License"); | |
# you may not use this file except in compliance with the License. | |
# You may obtain a copy of the License at | |
# | |
# http://www.apache.org/licenses/LICENSE-2.0 | |
# | |
# Unless required by applicable law or agreed to in writing, software | |
# distributed under the License is distributed on an "AS IS" BASIS, | |
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. | |
# See the License for the specific language governing permissions and | |
# limitations under the License. | |
__author__ = "Aaron Steele and John Wieczorek" | |
""" | |
globalmaptiles.py | |
Global Map Tiles as defined in Tile Map Service (TMS) Profiles | |
============================================================== | |
Functions necessary for generation of global tiles used on the web. | |
It contains classes implementing coordinate conversions for: | |
- GlobalMercator (based on EPSG:900913 = EPSG:3785) | |
for Google Maps, Yahoo Maps, Microsoft Maps compatible tiles | |
- GlobalGeodetic (based on EPSG:4326) | |
for OpenLayers Base Map and Google Earth compatible tiles | |
More info at: | |
http://wiki.osgeo.org/wiki/Tile_Map_Service_Specification | |
http://wiki.osgeo.org/wiki/WMS_Tiling_Client_Recommendation | |
http://msdn.microsoft.com/en-us/library/bb259689.aspx | |
http://code.google.com/apis/maps/documentation/overlays.html#Google_Maps_Coordinates | |
Created by Klokan Petr Pridal on 2008-07-03. | |
Google Summer of Code 2008, project GDAL2Tiles for OSGEO. | |
In case you use this class in your product, translate it to another language | |
or find it usefull for your project please let me know. | |
My email: klokan at klokan dot cz. | |
I would like to know where it was used. | |
Class is available under the open-source GDAL license (www.gdal.org). | |
""" | |
import math | |
class GlobalMercator(object): | |
""" | |
TMS Global Mercator Profile | |
--------------------------- | |
Functions necessary for generation of tiles in Spherical Mercator projection, | |
EPSG:900913 (EPSG:gOOglE, Google Maps Global Mercator), EPSG:3785, OSGEO:41001. | |
Such tiles are compatible with Google Maps, Microsoft Virtual Earth, Yahoo Maps, | |
UK Ordnance Survey OpenSpace API, ... | |
and you can overlay them on top of base maps of those web mapping applications. | |
Pixel and tile coordinates are in TMS notation (origin [0,0] in bottom-left). | |
What coordinate conversions do we need for TMS Global Mercator tiles:: | |
LatLon <-> Meters <-> Pixels <-> Tile | |
WGS84 coordinates Spherical Mercator Pixels in pyramid Tiles in pyramid | |
lat/lon XY in metres XY pixels Z zoom XYZ from TMS | |
EPSG:4326 EPSG:900913 | |
.----. --------- -- TMS | |
\ / | | /--------/ QuadTree | |
----- --------- /------------/ | |
KML, public WebMapService Web Clients TileMapService | |
What is the coordinate extent of Earth in EPSG:900913? | |
[-20037508.342789244, -20037508.342789244, 20037508.342789244, 20037508.342789244] | |
Constant 20037508.342789244 comes from the circumference of the Earth in meters, | |
which is 40 thousand kilometers, the coordinate origin is in the middle of extent. | |
In fact you can calculate the constant as: 2 * math.pi * 6378137 / 2.0 | |
$ echo 180 85 | gdaltransform -s_srs EPSG:4326 -t_srs EPSG:900913 | |
Polar areas with abs(latitude) bigger then 85.05112878 are clipped off. | |
What are zoom level constants (pixels/meter) for pyramid with EPSG:900913? | |
whole region is on top of pyramid (zoom=0) covered by 256x256 pixels tile, | |
every lower zoom level resolution is always divided by two | |
initialResolution = 20037508.342789244 * 2 / 256 = 156543.03392804062 | |
What is the difference between TMS and Google Maps/QuadTree tile name convention? | |
The tile raster itself is the same (equal extent, projection, pixel size), | |
there is just different identification of the same raster tile. | |
Tiles in TMS are counted from [0,0] in the bottom-left corner, id is XYZ. | |
Google placed the origin [0,0] to the top-left corner, reference is XYZ. | |
Microsoft is referencing tiles by a QuadTree name, defined on the website: | |
http://msdn2.microsoft.com/en-us/library/bb259689.aspx | |
The lat/lon coordinates are using WGS84 datum, yeh? | |
Yes, all lat/lon we are mentioning should use WGS84 Geodetic Datum. | |
Well, the web clients like Google Maps are projecting those coordinates by | |
Spherical Mercator, so in fact lat/lon coordinates on sphere are treated as if | |
the were on the WGS84 ellipsoid. | |
From MSDN documentation: | |
To simplify the calculations, we use the spherical form of projection, not | |
the ellipsoidal form. Since the projection is used only for map display, | |
and not for displaying numeric coordinates, we don't need the extra precision | |
of an ellipsoidal projection. The spherical projection causes approximately | |
0.33 percent scale distortion in the Y direction, which is not visually noticable. | |
How do I create a raster in EPSG:900913 and convert coordinates with PROJ.4? | |
You can use standard GIS tools like gdalwarp, cs2cs or gdaltransform. | |
All of the tools supports -t_srs 'epsg:900913'. | |
For other GIS programs check the exact definition of the projection: | |
More info at http://spatialreference.org/ref/user/google-projection/ | |
The same projection is degined as EPSG:3785. WKT definition is in the official | |
EPSG database. | |
Proj4 Text: | |
+proj=merc +a=6378137 +b=6378137 +lat_ts=0.0 +lon_0=0.0 +x_0=0.0 +y_0=0 | |
+k=1.0 +units=m +nadgrids=@null +no_defs | |
Human readable WKT format of EPGS:900913: | |
PROJCS["Google Maps Global Mercator", | |
GEOGCS["WGS 84", | |
DATUM["WGS_1984", | |
SPHEROID["WGS 84",6378137,298.2572235630016, | |
AUTHORITY["EPSG","7030"]], | |
AUTHORITY["EPSG","6326"]], | |
PRIMEM["Greenwich",0], | |
UNIT["degree",0.0174532925199433], | |
AUTHORITY["EPSG","4326"]], | |
PROJECTION["Mercator_1SP"], | |
PARAMETER["central_meridian",0], | |
PARAMETER["scale_factor",1], | |
PARAMETER["false_easting",0], | |
PARAMETER["false_northing",0], | |
UNIT["metre",1, | |
AUTHORITY["EPSG","9001"]]] | |
""" | |
def __init__(self, tileSize=256): | |
"Initialize the TMS Global Mercator pyramid" | |
self.tileSize = tileSize | |
self.initialResolution = 2 * math.pi * 6378137 / self.tileSize | |
# 156543.03392804062 for tileSize 256 pixels | |
self.originShift = 2 * math.pi * 6378137 / 2.0 | |
# 20037508.342789244 | |
def LatLonToMeters(self, lat, lon ): | |
"Converts given lat/lon in WGS84 Datum to XY in Spherical Mercator EPSG:900913" | |
mx = lon * self.originShift / 180.0 | |
my = math.log( math.tan((90 + lat) * math.pi / 360.0 )) / (math.pi / 180.0) | |
my = my * self.originShift / 180.0 | |
return mx, my | |
def MetersToLatLon(self, mx, my ): | |
"Converts XY point from Spherical Mercator EPSG:900913 to lat/lon in WGS84 Datum" | |
lon = (mx / self.originShift) * 180.0 | |
lat = (my / self.originShift) * 180.0 | |
lat = 180 / math.pi * (2 * math.atan( math.exp( lat * math.pi / 180.0)) - math.pi / 2.0) | |
return lat, lon | |
def PixelsToMeters(self, px, py, zoom): | |
"Converts pixel coordinates in given zoom level of pyramid to EPSG:900913" | |
res = self.Resolution( zoom ) | |
mx = px * res - self.originShift | |
my = py * res - self.originShift | |
return mx, my | |
def MetersToPixels(self, mx, my, zoom): | |
"Converts EPSG:900913 to pyramid pixel coordinates in given zoom level" | |
res = self.Resolution( zoom ) | |
px = (mx + self.originShift) / res | |
py = (my + self.originShift) / res | |
return px, py | |
def PixelsToTile(self, px, py): | |
"Returns a tile covering region in given pixel coordinates" | |
tx = int( math.ceil( px / float(self.tileSize) ) - 1 ) | |
ty = int( math.ceil( py / float(self.tileSize) ) - 1 ) | |
return tx, ty | |
def PixelsToRaster(self, px, py, zoom): | |
"Move the origin of pixel coordinates to top-left corner" | |
mapSize = self.tileSize << zoom | |
return px, mapSize - py | |
def MetersToTile(self, mx, my, zoom): | |
"Returns tile for given mercator coordinates" | |
px, py = self.MetersToPixels( mx, my, zoom) | |
return self.PixelsToTile( px, py) | |
def TileBounds(self, tx, ty, zoom): | |
"Returns bounds of the given tile in EPSG:900913 coordinates" | |
minx, miny = self.PixelsToMeters( tx*self.tileSize, ty*self.tileSize, zoom ) | |
maxx, maxy = self.PixelsToMeters( (tx+1)*self.tileSize, (ty+1)*self.tileSize, zoom ) | |
return ( minx, miny, maxx, maxy ) | |
def TileLatLonBounds(self, tx, ty, zoom ): | |
"Returns bounds of the given tile in latitude/longitude using WGS84 datum" | |
bounds = self.TileBounds( tx, ty, zoom) | |
minLat, minLon = self.MetersToLatLon(bounds[0], bounds[1]) | |
maxLat, maxLon = self.MetersToLatLon(bounds[2], bounds[3]) | |
return ( minLat, minLon, maxLat, maxLon ) | |
def Resolution(self, zoom ): | |
"Resolution (meters/pixel) for given zoom level (measured at Equator)" | |
# return (2 * math.pi * 6378137) / (self.tileSize * 2**zoom) | |
return self.initialResolution / (2**zoom) | |
def ZoomForPixelSize(self, pixelSize ): | |
"Maximal scaledown zoom of the pyramid closest to the pixelSize." | |
for i in range(30): | |
if pixelSize > self.Resolution(i): | |
return i-1 if i!=0 else 0 # We don't want to scale up | |
def GoogleTileLatLonBounds(self, tx, ty, zoom ): | |
"Returns bounds of the given Google Tile in latitude/longitude using WGS84 datum" | |
tmsx, tmsy = self.GoogleTile(tx, ty, zoom) | |
return self.TileLatLonBounds(tmsx, tmsy, zoom) | |
def TMSTileFromGoogleTile(self, tx, ty, zoom): | |
"Converts Google Tile coordinates to TMS tile coordinates." | |
# coordinate origin is moved from top-left to bottom-left corner of the extent | |
return tx, ty - (2**zoom -1) | |
def GoogleTile(self, tx, ty, zoom): | |
"Converts TMS tile coordinates to Google Tile coordinates" | |
# coordinate origin is moved from bottom-left to top-left corner of the extent | |
return tx, (2**zoom - 1) - ty | |
def GoogleTileFromLatLng(self,lat,lng,zoom): | |
''' | |
Return the indexes of the Google Tile within which the lat, lng occurs at | |
the given zoom. | |
''' | |
mx, my = self.LatLonToMeters(lat, lng) | |
tx, ty = self.MetersToTile(mx, my, zoom) | |
return self.GoogleTile(tx, ty, zoom) | |
def LatLngToRaster(self,lat,lng,zoom): | |
''' | |
Return the offset from the origin of the Tile, in pixels, for the | |
location of the lat, lng at the given zoom. | |
''' | |
mx, my = self.LatLonToMeters(lat, lng) | |
px, py = self.MetersToPixels(mx, my, zoom) | |
rx, ry = self.PixelsToRaster(px, py, zoom) | |
return int(rx), int(ry) | |
def QuadTree(self, tx, ty, zoom ): | |
"Converts TMS tile coordinates to Microsoft QuadTree" | |
quadKey = "" | |
ty = (2**zoom - 1) - ty | |
for i in range(zoom, 0, -1): | |
digit = 0 | |
mask = 1 << (i-1) | |
if (tx & mask) != 0: | |
digit += 1 | |
if (ty & mask) != 0: | |
digit += 2 | |
quadKey += str(digit) | |
return quadKey | |
#--------------------- | |
class GlobalGeodetic(object): | |
""" | |
TMS Global Geodetic Profile | |
--------------------------- | |
Functions necessary for generation of global tiles in Plate Carre projection, | |
EPSG:4326, "unprojected profile". | |
Such tiles are compatible with Google Earth (as any other EPSG:4326 rasters) | |
and you can overlay the tiles on top of OpenLayers base map. | |
Pixel and tile coordinates are in TMS notation (origin [0,0] in bottom-left). | |
What coordinate conversions do we need for TMS Global Geodetic tiles? | |
Global Geodetic tiles are using geodetic coordinates (latitude,longitude) | |
directly as planar coordinates XY (it is also called Unprojected or Plate | |
Carre). We need only scaling to pixel pyramid and cutting to tiles. | |
Pyramid has on top level two tiles, so it is not square but rectangle. | |
Area [-180,-90,180,90] is scaled to 512x256 pixels. | |
TMS has coordinate origin (for pixels and tiles) in bottom-left corner. | |
Rasters are in EPSG:4326 and therefore are compatible with Google Earth. | |
LatLon <-> Pixels <-> Tiles | |
WGS84 coordinates Pixels in pyramid Tiles in pyramid | |
lat/lon XY pixels Z zoom XYZ from TMS | |
EPSG:4326 | |
.----. ---- | |
/ \ <-> /--------/ <-> TMS | |
\ / /--------------/ | |
----- /--------------------/ | |
WMS, KML Web Clients, Google Earth TileMapService | |
""" | |
def __init__(self, tileSize = 256): | |
self.tileSize = tileSize | |
def LatLonToPixels(self, lat, lon, zoom): | |
"Converts lat/lon to pixel coordinates in given zoom of the EPSG:4326 pyramid" | |
res = 180 / 256.0 / 2**zoom | |
px = (180 + lat) / res | |
py = (90 + lon) / res | |
return px, py | |
def PixelsToTile(self, px, py): | |
"Returns coordinates of the tile covering region in pixel coordinates" | |
tx = int( math.ceil( px / float(self.tileSize) ) - 1 ) | |
ty = int( math.ceil( py / float(self.tileSize) ) - 1 ) | |
return tx, ty | |
def Resolution(self, zoom ): | |
"Resolution (arc/pixel) for given zoom level (measured at Equator)" | |
return 180 / 256.0 / 2**zoom | |
#return 180 / float( 1 << (8+zoom) ) | |
def TileBounds(self, tx, ty, zoom): | |
"Returns bounds of the given tile" | |
res = 180 / 256.0 / 2**zoom | |
return ( | |
tx*256*res - 180, | |
ty*256*res - 90, | |
(tx+1)*256*res - 180, | |
(ty+1)*256*res - 90 | |
) | |
if __name__ == "__main__": | |
import sys, os | |
def Usage(s = ""): | |
print "Usage: globalmaptiles.py [-profile 'mercator'|'geodetic'] zoomlevel lat lon [latmax lonmax]" | |
if s: | |
print s | |
print "This utility prints for given WGS84 lat/lon coordinates (or bounding box) the list of tiles" | |
print "covering specified area. Tiles are in the given 'profile' (default is Google Maps 'mercator')" | |
print "and in the given pyramid 'zoomlevel'." | |
print "For each tile several information is printed including bonding box in EPSG:900913 and WGS84." | |
sys.exit(1) | |
profile = 'mercator' | |
zoomlevel = None | |
lat, lon, latmax, lonmax = None, None, None, None | |
boundingbox = False | |
argv = sys.argv | |
i = 1 | |
while i < len(argv): | |
arg = argv[i] | |
if arg == '-profile': | |
i = i + 1 | |
profile = argv[i] | |
if zoomlevel is None: | |
zoomlevel = int(argv[i]) | |
elif lat is None: | |
lat = float(argv[i]) | |
elif lon is None: | |
lon = float(argv[i]) | |
elif latmax is None: | |
latmax = float(argv[i]) | |
elif lonmax is None: | |
lonmax = float(argv[i]) | |
else: | |
Usage("ERROR: Too many parameters") | |
i = i + 1 | |
if profile != 'mercator': | |
Usage("ERROR: Sorry, given profile is not implemented yet.") | |
if zoomlevel == None or lat == None or lon == None: | |
Usage("ERROR: Specify at least 'zoomlevel', 'lat' and 'lon'.") | |
if latmax is not None and lonmax is None: | |
Usage("ERROR: Both 'latmax' and 'lonmax' must be given.") | |
if latmax != None and lonmax != None: | |
if latmax < lat: | |
Usage("ERROR: 'latmax' must be bigger then 'lat'") | |
if lonmax < lon: | |
Usage("ERROR: 'lonmax' must be bigger then 'lon'") | |
boundingbox = (lon, lat, lonmax, latmax) | |
tz = zoomlevel | |
mercator = GlobalMercator() | |
mx, my = mercator.LatLonToMeters( lat, lon ) | |
print "Spherical Mercator (ESPG:900913) coordinates for lat/lon: " | |
print (mx, my) | |
tminx, tminy = mercator.MetersToTile( mx, my, tz ) | |
if boundingbox: | |
mx, my = mercator.LatLonToMeters( latmax, lonmax ) | |
print "Spherical Mercator (ESPG:900913) cooridnate for maxlat/maxlon: " | |
print (mx, my) | |
tmaxx, tmaxy = mercator.MetersToTile( mx, my, tz ) | |
else: | |
tmaxx, tmaxy = tminx, tminy | |
for ty in range(tminy, tmaxy+1): | |
for tx in range(tminx, tmaxx+1): | |
tilefilename = "%s/%s/%s" % (tz, tx, ty) | |
print tilefilename, "( TileMapService: z / x / y )" | |
gx, gy = mercator.GoogleTile(tx, ty, tz) | |
print "\tGoogle:", gx, gy | |
quadkey = mercator.QuadTree(tx, ty, tz) | |
print "\tQuadkey:", quadkey, '(',int(quadkey, 4),')' | |
bounds = mercator.TileBounds( tx, ty, tz) | |
print "\tEPSG:900913 Extent: ", bounds | |
wgsbounds = mercator.TileLatLonBounds( tx, ty, tz) | |
print "\tWGS84 Extent:", wgsbounds | |
print "\tgdalwarp -ts 256 256 -te %s %s %s %s %s %s_%s_%s.tif" % ( | |
bounds[0], bounds[1], bounds[2], bounds[3], "<your-raster-file-in-epsg900913.ext>", tz, tx, ty) | |
it seems here https://gist.github.com/tucotuco/1193577#file-globalmaptiles-py-L370 is type and you should swap lon
and lat
. As well put -
before lat
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