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I'm using a script I found online to convert some files through parsing some XML. The script was built in Python 2.6 and it's using a module that I believe doesn't come with 2.6 through what I've read on the web. I'm wondering if there's a work around. The error I am getting is:

No Module name EXT

In the following script, I think it's getting hung up on import xml.dom.ext and it only seems to use this object at the very end to PrettyPrint (See the very last Try statement) I'm wondering if there's a workaround for this in 2.6? I can't seem to find a module that contains the EXT object which I can import.

The script is:

from xml.dom.minidom import Document
import xml.dom.ext
import string
import os
import arcpy

#Read input parameters from GP dialog
output = arcpy.GetParameterAsText(0)

#Create an output qgs file
f = open(output, "w")

# Create the minidom
doc = Document()

# Create the <qgis> base element
qgis = doc.createElement("qgis")
qgis.setAttribute("projectname", " ")
qgis.setAttribute("version", "1.6.0-Capiapo")
doc.appendChild(qgis)

# Create the <title> element
title = doc.createElement("title")
qgis.appendChild(title)

# Assign current document
mxd = arcpy.mapping.MapDocument("CURRENT")

print 'Converting mxd........'

# Dataframe elements

df = arcpy.mapping.ListDataFrames(mxd)[0]
unit = doc.createTextNode(df.mapUnits)
xmin1 = doc.createTextNode(str(df.extent.XMin))
ymin1 = doc.createTextNode(str(df.extent.YMin))
xmax1 = doc.createTextNode(str(df.extent.XMax))
ymax1 = doc.createTextNode(str(df.extent.YMax))
# srsid = doc.createTextNode
srid1 = doc.createTextNode(str(df.spatialReference.factoryCode))
srid2 = doc.createTextNode(str(df.spatialReference.factoryCode))
epsg1 = doc.createTextNode(str(df.spatialReference.factoryCode))
epsg2 = doc.createTextNode(str(df.spatialReference.factoryCode))
description1 = doc.createTextNode(str(df.spatialReference.name))
description2 = doc.createTextNode(str(df.spatialReference.name))
ellipsoidacronym1 = doc.createTextNode(str(df.spatialReference.name))
ellipsoidacronym2 = doc.createTextNode(str(df.spatialReference.name))
geographicflag1 = doc.createTextNode("true")
geographicflag2 = doc.createTextNode("true")

authid2 = doc.createTextNode("EPSG:"+str(df.spatialReference.factoryCode))
authid3 = doc.createTextNode("EPSG:"+str(df.spatialReference.factoryCode))

# Layerlist elements
lyrlist = arcpy.mapping.ListLayers(df)
count1 = str(len(lyrlist))

# mapcanvas
def map_canvas():
    # Create the <mapcanvas> element
    mapcanvas = doc.createElement("mapcanvas")
    qgis.appendChild(mapcanvas)

    # Create the <units> element
    units = doc.createElement("units")
    units.appendChild(unit)
    mapcanvas.appendChild(units)


    # Create the <extent> element
    extent = doc.createElement("extent")
    mapcanvas.appendChild(extent)

    # Create the <xmin> element
    xmin = doc.createElement("xmin")
    xmin.appendChild(xmin1)
    extent.appendChild(xmin)


    # Create the <ymin> element
    ymin = doc.createElement("ymin")
    ymin.appendChild(ymin1)
    extent.appendChild(ymin)


    # Create the <xmax> element
    xmax = doc.createElement("xmax")
    xmax.appendChild(xmax1)
    extent.appendChild(xmax)


    # Create the <ymax> element
    ymax = doc.createElement("ymax")
    ymax.appendChild(ymax1)
    extent.appendChild(ymax)


    # Create the <projections> element
    projections = doc.createElement("projections")
    mapcanvas.appendChild(projections)

    # Create the <destinationsrs> element
    destinationsrs = doc.createElement("destinationsrs")
    mapcanvas.appendChild(destinationsrs)

    # Create the <spatialrefsys> element
    spatialrefsys = doc.createElement("spatialrefsys")
    destinationsrs.appendChild(spatialrefsys)

    # Create the <proj4> element
    proj4 = doc.createElement("proj4")
    spatialrefsys.appendChild(proj4)

    # Create the <srsid> element
    srsid = doc.createElement("srsid")
    spatialrefsys.appendChild(srsid)

    # Create the <srid> element
    srid = doc.createElement("srid")
    srid.appendChild(srid1)
    spatialrefsys.appendChild(srid)



    # Create the <authid> element
    authid = doc.createElement("authid")
    authid.appendChild(authid2)
    spatialrefsys.appendChild(authid)


    # Create the <description> element
    description = doc.createElement("description")
    description.appendChild(description1)
    spatialrefsys.appendChild(description)


    # Create the <projectionacronym> element
    projectionacronym = doc.createElement("projectionacronym")
    spatialrefsys.appendChild(projectionacronym)

    # Create the <ellipsoidacronym element
    ellipsoidacronym = doc.createElement("ellipsoidacronym")
    ellipsoidacronym.appendChild(ellipsoidacronym1)
    spatialrefsys.appendChild(ellipsoidacronym)



    # Create the <geographicflag> element
    geographicflag = doc.createElement("geographicflag")
    geographicflag.appendChild(geographicflag1)
    spatialrefsys.appendChild(geographicflag)




# Legend
def legend_func():

    # Create the <legend> element
    legend = doc.createElement("legend")
    qgis.appendChild(legend)

    for lyr in lyrlist:
        if(lyr.isGroupLayer == False):

            # Create the <legendlayer> element
            legendlayer = doc.createElement("legendlayer")
            legendlayer.setAttribute("open", "true")
            legendlayer.setAttribute("checked", "Qt::Checked")
            legendlayer.setAttribute("name",str(lyr.name))

            legend.appendChild(legendlayer)

            # Create the <filegroup> element
            filegroup = doc.createElement("filegroup")
            filegroup.setAttribute("open", "true")
            filegroup.setAttribute("hidden", "false")
            legendlayer.appendChild(filegroup)

            # Create the <legendlayerfile> element
            legendlayerfile = doc.createElement("legendlayerfile")
            legendlayerfile.setAttribute("isInOverview", "0")
            legendlayerfile.setAttribute("layerid", str(lyr.name)+str(20110427170816078))
            legendlayerfile.setAttribute("visible", "1")
            filegroup.appendChild(legendlayerfile)

# Project Layers
def project_layers():

    # Create the <projectlayers> element
    projectlayers = doc.createElement("projectlayers")
    projectlayers.setAttribute("layercount", count1)
    qgis.appendChild(projectlayers)

    for lyr in lyrlist:

        if(lyr.isGroupLayer == False and lyr.isRasterLayer == False):
            geometry1 = arcpy.Describe(lyr)
            geometry2 = str(geometry1.shapeType)
            ds = doc.createTextNode(str(lyr.dataSource))

            name1 = doc.createTextNode(str(lyr.name)+str(20110427170816078))
            name2 = doc.createTextNode(str(lyr.name))


           # Create the <maplayer> element
            maplayer = doc.createElement("maplayer")
            maplayer.setAttribute("minimumScale", "0")
            maplayer.setAttribute("maximumScale", "1e+08")
            maplayer.setAttribute("minLabelScale", "0")
            maplayer.setAttribute("maxLabelScale", "1e+08")
            maplayer.setAttribute("geometry", geometry2)
            if(lyr.isRasterLayer == True):
                maplayer.setAttribute("type", "raster")
            else:
                maplayer.setAttribute("type", "vector")
            maplayer.setAttribute("hasScaleBasedVisibilityFlag", "0")
            maplayer.setAttribute("scaleBasedLabelVisibilityFlag", "0")
            projectlayers.appendChild(maplayer)

            # Create the <id> element
            id = doc.createElement("id")
            id.appendChild(name1)
            maplayer.appendChild(id)

            # Create the <datasource> element
            datasource = doc.createElement("datasource")
            datasource.appendChild(ds)
            maplayer.appendChild(datasource)

            # Create the <layername> element
            layername = doc.createElement("layername")
            layername.appendChild(name2)
            maplayer.appendChild(layername)

            # Create the <srs> element
            srs = doc.createElement("srs")
            maplayer.appendChild(srs)

            # Create the <spatialrefsys> element
            spatialrefsys = doc.createElement("spatialrefsys")
            srs.appendChild(spatialrefsys)

            # Create the <proj4> element
            proj4 = doc.createElement("proj4")
            spatialrefsys.appendChild(proj4)

            # Create the <srsid> element
            srsid = doc.createElement("srsid")
            spatialrefsys.appendChild(srsid)

            # Create the <srid> element
            srid = doc.createElement("srid")
            srid.appendChild(srid2)
            spatialrefsys.appendChild(srid)


            # Create the <authid> element
            authid = doc.createElement("authid")
            authid.appendChild(authid3)
            spatialrefsys.appendChild(authid)


            # Create the <description> element
            description = doc.createElement("description")
            description.appendChild(description2)
            spatialrefsys.appendChild(description)


            # Create the <projectionacronym> element
            projectionacronym = doc.createElement("projectionacronym")
            spatialrefsys.appendChild(projectionacronym)

            # Create the <ellipsoidacronym element
            ellipsoidacronym = doc.createElement("ellipsoidacronym")
            ellipsoidacronym.appendChild(ellipsoidacronym2)
            spatialrefsys.appendChild(ellipsoidacronym)


            # Create the <geographicflag> element
            geographicflag = doc.createElement("geographicflag")
            geographicflag.appendChild(geographicflag2)
            spatialrefsys.appendChild(geographicflag)

            # Create the <transparencyLevelInt> element
            transparencyLevelInt = doc.createElement("transparencyLevelInt")
            transparency2 = doc.createTextNode("255")
            transparencyLevelInt.appendChild(transparency2)
            maplayer.appendChild(transparencyLevelInt)

            # Create the <customproperties> element
            customproperties = doc.createElement("customproperties")
            maplayer.appendChild(customproperties)

            # Create the <provider> element
            provider = doc.createElement("provider")
            provider.setAttribute("encoding", "System")
            ogr = doc.createTextNode("ogr")
            provider.appendChild(ogr)
            maplayer.appendChild(provider)

            # Create the <singlesymbol> element
            singlesymbol = doc.createElement("singlesymbol")
            maplayer.appendChild(singlesymbol)

            # Create the <symbol> element
            symbol = doc.createElement("symbol")
            singlesymbol.appendChild(symbol)

            # Create the <lowervalue> element
            lowervalue = doc.createElement("lowervalue")
            symbol.appendChild(lowervalue)

            # Create the <uppervalue> element
            uppervalue = doc.createElement("uppervalue")
            symbol.appendChild(uppervalue)

            # Create the <label> element
            label = doc.createElement("label")
            symbol.appendChild(label)

            # Create the <rotationclassificationfieldname> element
            rotationclassificationfieldname = doc.createElement("rotationclassificationfieldname")
            symbol.appendChild(rotationclassificationfieldname)

            # Create the <scaleclassificationfieldname> element
            scaleclassificationfieldname = doc.createElement("scaleclassificationfieldname")
            symbol.appendChild(scaleclassificationfieldname)

            # Create the <symbolfieldname> element
            symbolfieldname = doc.createElement("symbolfieldname")
            symbol.appendChild(symbolfieldname)

             # Create the <outlinecolor> element
            outlinecolor = doc.createElement("outlinecolor")
            outlinecolor.setAttribute("red", "88")
            outlinecolor.setAttribute("blue", "99")
            outlinecolor.setAttribute("green", "37")
            symbol.appendChild(outlinecolor)

             # Create the <outlinestyle> element
            outlinestyle = doc.createElement("outlinestyle")
            outline = doc.createTextNode("SolidLine")
            outlinestyle.appendChild(outline)
            symbol.appendChild(outlinestyle)

             # Create the <outlinewidth> element
            outlinewidth = doc.createElement("outlinewidth")
            width = doc.createTextNode("0.26")
            outlinewidth.appendChild(width)
            symbol.appendChild(outlinewidth)

             # Create the <fillcolor> element
            fillcolor = doc.createElement("fillcolor")
            fillcolor.setAttribute("red", "90")
            fillcolor.setAttribute("blue", "210")
            fillcolor.setAttribute("green", "229")
            symbol.appendChild(fillcolor)

             # Create the <fillpattern> element
            fillpattern = doc.createElement("fillpattern")
            fill = doc.createTextNode("SolidPattern")
            fillpattern.appendChild(fill)
            symbol.appendChild(fillpattern)

             # Create the <texturepath> element
            texturepath = doc.createElement("texturepath")
            texturepath.setAttribute("null", "1")
            symbol.appendChild(texturepath)



map_canvas()
legend_func()
project_layers()


#  Write to qgis file

try:
    xml.dom.ext.PrettyPrint(doc, f)
finally:
    f.close()

print 'Done'
share|improve this question

1 Answer 1

The xml.dom.ext module was never added to the Python standard library.

It was only ever part of the PyXML distribution, but that has not seen any updates in years and I doubt it'll still work on Python 2.6.

Instead, just call the minidom .toprettyxml() method on your document to pretty print the output, then write that data out to the file:

f.write(doc.toprettyxml())
share|improve this answer

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