; docformat = 'rst' ; ; NAME: ; cgImage2KML ; ; PURPOSE: ; This program creates a KML file that can be opened in Google Earth to display the ; image drapped over the Google Earth terrain. A corresponding image file is also ; produced. The KML and image file must be in the same directory to use them with ; Google Earth. ; ;******************************************************************************************; ; ; ; Copyright (c) 2012, by Fanning Software Consulting, Inc. All rights reserved. ; ; ; ; Redistribution and use in source and binary forms, with or without ; ; modification, are permitted provided that the following conditions are met: ; ; ; ; * Redistributions of source code must retain the above copyright ; ; notice, this list of conditions and the following disclaimer. ; ; * Redistributions in binary form must reproduce the above copyright ; ; notice, this list of conditions and the following disclaimer in the ; ; documentation and/or other materials provided with the distribution. ; ; * Neither the name of Fanning Software Consulting, Inc. nor the names of its ; ; contributors may be used to endorse or promote products derived from this ; ; software without specific prior written permission. ; ; ; ; THIS SOFTWARE IS PROVIDED BY FANNING SOFTWARE CONSULTING, INC. ''AS IS'' AND ANY ; ; EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES ; ; OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT ; ; SHALL FANNING SOFTWARE CONSULTING, INC. BE LIABLE FOR ANY DIRECT, INDIRECT, ; ; INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED ; ; TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; ; ; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ; ; ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ; ; (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS ; ; SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. ; ;******************************************************************************************; ; ;+ ; This program creates a KML file that can be opened in Google Earth to display the ; image drapped over the Google Earth terrain. A corresponding image file is also ; produced. The KML and image file must be in the same directory to use them with ; Google Earth. ; ; .. image:: cgimage2kml.png ; ; :Categories: ; Graphics, FileIO, Maps ; ; :Params: ; ; image: in, optional ; A 2D image or a 24-bit image with or without an alpha channel. If an alpha ; channel is present, it will be modified by the program if the `Transparent` ; keyword is used. An image is required unless the `GeoTiff` keyword is used ; to obtain an image. ; ; mapcoord: in, optional, type=object ; A map coordinate object (cgMap) from which map projection information and map ; boundaries for the image overlay can be obtained. This parameter is required ; unless the `GeoTiff` keyword is used to obtain a map coordinate object. ; ; :Keywords: ; ; addtofile: in, optional, type=object ; If this keyword contains a cgKML_File object, the image is added to the file ; as a cgLoadCT, 4, /BREWER, /REVERSE, RGB_TABLE=palette ; IDL> tImage = cgTransparentImage( cgDemoData(7), PALETTE=palette) ; ; The default is to use whatever colors are loaded in the current hardware color table. ; A palette applies only to 2D input images. ; ; placename: in, optional, type=string ; This is the element in a Feature object. It is user-defined text that is used as ; the label for an object in Google Earth. ; ; resize_factor: in, optional, type=float ; Setting this keyword to a value allows the user to resize the image prior to making the ; PNG image file that will be output with the KML file. This is especially helpful with ; very large images. Setting the factor to 0.5 will reduce the image to half it's normal ; size before processing. Setting the factor to 2.0 will increase the size by a factor ; of 2 before processing. The image is resized with nearest neighbor sampling. ; ; reverse: in, optional, type=boolean, default=0 ; Set this keyword to reverse the color table vectors selected with the `CTIndex` keyword. ; ; transparent: in, optional, type=integer, default=50 ; The percentage of transparency desired in the output image. A number ; between 0 and 100. ; ; :Examples: ; Here is how you can put an AVHRR NDVI image of Africa on a Google Earth display:: ; ; ;; Download the image file from the Coyote web page. ; netObject = Obj_New('IDLnetURL') ; url = 'http://www.idlcoyote.com/data/AF03sep15b.n16-VIg.tif' ; returnName = netObject -> Get(URL=url, FILENAME='AF03sep15b.n16-VIg.tif') ; Obj_Destroy, netObject ; ; ;; Create the image overlay KML file. ; cgImage2KML, GeoTiff='AF03sep15b.n16-VIg.tif', Min_Value=0, CTIndex=11, $ ; /Brewer, /Reverse, Transparent=50, Filename='avhrr_ndvi.kml', $ ; Description='AVHRR NDVI Data from Africa' ; ; ;; Start Google Earth and open the KML file you just created. ; ; The output should look like the figure above. ; ; :Author: ; FANNING SOFTWARE CONSULTING:: ; David W. Fanning ; 1645 Sheely Drive ; Fort Collins, CO 80526 USA ; Phone: 970-221-0438 ; E-mail: david@idlcoyote.com ; Coyote's Guide to IDL Programming: http://www.idlcoyote.com ; ; :History: ; Change History:: ; Written, 30 October 2012 by David W. Fanning. ; Added DRAWORDER keyword and fixed a typo concerning MISSING_VALUE. 31 Oct 2012. DWF. ; Fixed a problem that was causing floating underflow warnings to be thrown. 5 Nov 2012. DWF. ; Images with values between 0 and 255 were not getting scaled properly. Fixed. 30 Nov 2012. DWF. ; Added a FlyTo keyword to allow the user to fly to a particular location on the Earth. 31 Dec 2012. DWF. ; Was not handling 24- or 32-bit images correctly, nor was the MISSING_COLOR keyword being ; interpreted correctly when expressed as a color string. 20 Feb 2013. DWF. ; Have been writing the absolute path to the image file into the KML file, when I should ; have been using a relative path. 22 Feb 2013. DWF. ; ; :Copyright: ; Copyright (c) 2012, Fanning Software Consulting, Inc. ;- PRO cgImage2KML, image, mapCoord, $ ADDTOFILE=addtofile, $ BREWER=brewer, $ CTINDEX=ctindex, $ DESCRIPTION=description, $ DRAWORDER=draworder, $ GEOTIFF=geotiff, $ FILENAME=filename, $ FLYTO=flyto, $ KMZ=kmz, $ LATLONBOX=latlonbox, $ MAX_VALUE=max_value, $ MIN_VALUE=min_value, $ MISSING_VALUE=missing_value, $ PALETTE=palette, $ PLACENAME=placename, $ RESIZE_FACTOR=resize_factor, $ REVERSE=reverse, $ TRANSPARENT=transparent Compile_Opt idl2 ; Error handling. Catch, theError IF theError NE 0 THEN BEGIN Catch, /CANCEL void = cgErrorMsg() RETURN ENDIF ; If the KMZ keyword is set, make sure this version of IDL supports it. IF Keyword_Set(kmz) THEN BEGIN IF Float(!Version.Release) LT 8.0 THEN BEGIN Message, 'The KMZ keyword is not supported in this version of IDL.', /Informational kmz = 0 ENDIF ENDIF ; If the user sets either the MIN_VALUE or MAX_VALUE keyword, then you should scale the image. IF (N_Elements(min_value) GT 0) || (N_Elements(max_value) GT 0) THEN scaleit = 1 ELSE scaleit = 0 ; Has the GEOTIFF keyword been used to obtain program variables? IF N_Elements(geotiff) NE 0 THEN BEGIN mapCoord = cgGeoMap(geotiff, $ BOUNDARY=boundary, $ ELLIPSOID=ellipsoid, $ IMAGE=image, $ LATLONBOX=latlonbox, $ MAP_PROJECTION=map_projection, $ PALETTE=palette) ENDIF ; Check required parameters. IF N_Elements(image) EQ 0 THEN Message, 'An image parameter is required to proceed.' IF N_Elements(mapCoord) EQ 0 THEN BEGIN IF N_Elements(latlonBox) EQ 0 THEN Message, 'A map coordinate object is required to proceed.' ENDIF ELSE BEGIN mapCoord -> GetProperty, $ BOUNDARY=boundary, $ ELLIPSOID=ellipsoid, $ LATLONBOX=latlonbox, $ MAP_PROJECTION=map_projection ENDELSE IF N_Elements(latlonBox) EQ 0 THEN Message, 'Map boundaries for the image cannot be obtained.' IF N_Elements(order) EQ 0 THEN order = 0 IF (N_Elements(missing_value) NE 0) && (N_Elements(transparent) EQ 0) THEN BEGIN transparent = 0 ENDIF ; Handle the flyTo values. IF N_Elements(flyTo) NE 0 THEN BEGIN IF N_Elements(flyTo) LT 2 THEN Message, 'FlyTo keyword should be 2- or 3-element array.' IF N_Elements(flyTo) EQ 2 THEN flyTo = [flyTo, 11000] IF N_Elements(flyTo) GT 3 THEN Message, 'FlyTo keyword should be 2- or 3-element array.' lookAtObj = Obj_New('cgKML_LookAt', LONGITUDE=flyTo[0], LATITUDE=flyTo[1], HEIGHT=flyTo[2]) ENDIF ; Need a filename? IF N_Elements(filename) EQ 0 THEN BEGIN CD, CURRENT=thisDir filename = Filepath(ROOT_DIR=thisDir, 'kml_image.kml') ENDIF ; Construct the image filename rootName = cgRootName(filename, DIRECTORY=thisDir, EXTENSION=ext) IF StrUpCase(ext) NE 'KML' THEN Message, 'The output filename must have a KML file extension.' imageFilename = Filepath(ROOT_DIR=thisDir, rootname + '.png') ; If you got this far, and you don't have a map coordinate object, you will have ; to create one. IF N_Elements(mapCoord) EQ 0 THEN BEGIN mapCoord = Obj_New('cgMap', 'Equirectangular', Ellipsoid='WGS 84', $ XRange=[latlonbox[2], latlonbox[3]], YRange=[latlonBox[1], latlonbox[0]], /LATLON_RANGES) mapCoord -> GetProperty, $ BOUNDARY=boundary, $ ELLIPSOID=ellipsoid, $ MAP_PROJECTION=map_projection ENDIF ; Are you loading a color table? IF N_Elements(ctindex) NE 0 THEN BEGIN cgLoadCT, ctindex, BREWER=brewer, REVERSE=reverse, RGB_TABLE=palette ENDIF ; Otherwise, let's use gray-scale colors for the image. IF N_Elements(palette) EQ 0 THEN cgLoadCT, 0, RGB_TABLE=palette ; How many dimensions does this image have? ndims = Size(image, /N_Dimensions) ; Should the image be reduced in size before displaying it? IF N_Elements(resize_factor) NE 0 THEN BEGIN dims = Image_Dimensions(image, XSIZE=xsize, YSIZE=ysize) warped = cgResizeImage(image, Long(xsize*resize_factor), Long(ysize*resize_factor)) ENDIF ELSE warped = image ; If the map projection is not "EQUIRECTANGULAR" or the ellipsoid is not "WGS84", then the ; image has to be warped into the correct map projection. IF (StrUpCase(map_projection) NE 'EQUIRECTANGULAR') || (StrUpCase(StrCompress(ellipsoid, /REMOVE_ALL)) NE 'WGS84') THEN BEGIN googleMapCoord = Obj_New('cgMap', 'Equirectangular', Ellipsoid='WGS 84') ndims = Size(warped, /N_Dimensions) IF ndims EQ 2 THEN thisMissingValue = 0 ELSE thisMissingValue=missing_value warped = cgChangeMapProjection(warped, mapCoord, MAPOUT=googleMapCoord, $ LATLONBOX=latlonbox, MISSING=thisMissingValue) ENDIF ; Byte scale the image. IF (N_Elements(missing_value) NE 0) THEN BEGIN IF ndims EQ 2 THEN BEGIN imgType = Size(warped, /TNAME) IF (imgType NE 'FLOAT') && (imgType NE 'DOUBLE') THEN warped = Float(warped) missing = Where(warped EQ missing_value, count) IF count GT 0 THEN warped[missing] = !Values.F_NAN IF (Min(warped, /NAN) LT 0) || (Max(warped, /NAN) GT 255) || scaleIt THEN BEGIN warped = BytScl(warped, MIN=min_value, MAX=max_value, /NAN, TOP=254) + 1B ENDIF IF count GT 0 THEN warped[missing] = 0B ENDIF ENDIF ELSE BEGIN IF (Min(warped) LT 0) || (Max(warped) GT 255) || scaleIt THEN BEGIN warped = BytScl(warped, MIN=min_value, MAX=max_value, /NAN) ENDIF ENDELSE ; If this is a 2D image, create a 24-bit image from the palette. r = Reform(palette[*,0]) g = Reform(palette[*,1]) b = Reform(palette[*,2]) IF (ndims EQ 2) THEN warped = [ [[r[warped]]], [[g[warped]]], [[b[warped]]]] ; Do we need transparency? IF N_Elements(transparent) NE 0 THEN BEGIN IF (ndims EQ 2) THEN BEGIN warped = cgTransparentImage(warped, TRANSPARENT=transparent, MISSING_VALUE=[r[0],g[0],b[0]]) ENDIF ELSE BEGIN warped = cgTransparentImage(warped, TRANSPARENT=transparent, MISSING_VALUE=missing_value) ENDELSE ENDIF ; Save the image as a PNG file. dims = Image_Dimensions(warped, XINDEX=xindex, YINDEX=yindex, TRUEINDEX=trueindex) IF trueindex GT 0 THEN warped = Transpose(warped, [trueindex, xindex, yindex]) IF cgObj_Isa(addtofile, 'cgKML_File') THEN BEGIN addToFile -> GetProperty, FILENAME=filename, COUNT=count rootname = cgRootName(filename, DIRECTORY=thisDir, EXTENSION=ext) imageFilename = FilePath(ROOT_DIR=thisDir, rootname + StrTrim(count+1,2) + '.png') ; Write the image file. Write_PNG, imageFilename, warped overlay = Obj_New('cgKML_GroundOverlay', $ HREF=File_BaseName(imageFilename), $ DESCRIPTION=description, $ LATLONBOX=latlonBox, $ PLACENAME=placename, $ DRAWORDER=draworder) addToFile -> Add, overlay ; Do you have a lookAt object? IF Obj_Valid(lookAtObj) THEN addToFile -> Add, lookAtObj ENDIF ELSE BEGIN ; Write the image file. Write_PNG, imageFilename, warped ; Write the KML file. kmlFile = Obj_New('cgKML_File', filename) overlay = Obj_New('cgKML_GroundOverlay', $ HREF=File_BaseName(imageFilename), $ DESCRIPTION=description, $ LATLONBOX=latlonBox, $ PLACENAME=placename, $ DRAWORDER=draworder) kmlFile -> Add, overlay ; Do you have a lookAt object? IF Obj_Valid(lookAtObj) THEN kmlFile -> Add, lookAtObj kmlFile -> Save, KMZ=Keyword_Set(kmz) kmlFile -> Destroy ENDELSE END