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fix for #2848: exported style better in line with qgis style
git-svn-id: http://svn.osgeo.org/qgis/trunk@13894 c8812cc2-4d05-0410-92ff-de0c093fc19c
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rduivenvoorde committed Jul 6, 2010
1 parent 295f1e0 commit 4cec6fe1ba4577046612087ab6e9ca13de6dae33
Showing with 115 additions and 76 deletions.
  1. +115 −76 python/plugins/mapserver_export/ms_export.py
@@ -719,6 +719,61 @@ def getPrimaryKey(self, layerId, tableName):
# using a mapfile pre-processor, the proper id field can be substituted in the following:
return str("%" + tableName + "_id%")


# Get RGB code from a XML color node, returning string like '45 124 255'
def getRgbFromNode(self, symbolNode, elementName):
if symbolNode == None or symbolNode.getElementsByTagName(elementName).length == 0:
return ''
colorNode = symbolNode.getElementsByTagName(elementName)[0]
return colorNode.getAttribute('red').encode('utf-8') + ' ' + colorNode.getAttribute('green').encode('utf-8') + ' ' + colorNode.getAttribute('blue').encode('utf-8')


# Get a size (multiplied by symbolSizeMultiplier) from given sizeNode's child with elementName
def getSizeStringFromNode(self, symbolNode, elementName):
if symbolNode == None or symbolNode.getElementsByTagName(elementName).length == 0:
return ''
size = float(symbolNode.getElementsByTagName(elementName)[0].childNodes[0].nodeValue.encode('utf-8'))
symbolSize = size * symbolSizeMultiplier
return str(symbolSize)


def getSymbolProperty(self, symbolNode, elementName):
if symbolNode == None or symbolNode.getElementsByTagName(elementName).length == 0:
return ''
return str(symbolNode.getElementsByTagName(elementName)[0].childNodes[0].nodeValue.encode('utf-8'))


def writeClassStyleContent(self, symbolNode, geometry):
outlinecolor = self.getRgbFromNode(symbolNode, 'outlinecolor')
fillcolor = self.getRgbFromNode(symbolNode, 'fillcolor')
pointsize = self.getSizeStringFromNode(symbolNode, 'pointsize')
outlinewidth = self.getSizeStringFromNode(symbolNode, 'outlinewidth')
fillpattern = self.getSymbolProperty(symbolNode, 'fillpattern');

class_def = " STYLE\n"
# for POINT by SYMBOL and SIZE
if geometry == 'POINT':
# use the point symbol map to lookup the mapserver symbol type
symbol = self.msSymbol( geometry, symbolNode )
class_def += " SYMBOL " + symbol + " \n"
class_def += " SIZE " + pointsize + " \n"
# for LINE and POLYGON size define by WIDTH
else:
class_def += " WIDTH " + outlinewidth + " \n"

# for LINE defined by COLOR from outlinecolor
if geometry == 'LINE':
class_def += " COLOR " + outlinecolor + "\n"
# for POLYGON and POINT defined by COLOR from fillcolor and OUTLINECOLOR from outlinecolor
else:
class_def += " OUTLINECOLOR " + outlinecolor + "\n"
if 'NoBrush' != fillpattern:
class_def += " COLOR " + fillcolor + "\n"

class_def += " END\n"
return class_def


# Simple renderer ouput
# We need the layer node and symbol node
def simpleRenderer(self, layerNode, symbolNode):
@@ -729,20 +784,7 @@ def simpleRenderer(self, layerNode, symbolNode):

class_def += " NAME '" + layerNode.getElementsByTagName("layername")[0].childNodes[0].nodeValue.encode('utf-8').replace("\"", "") + "' \n"

class_def += " STYLE\n"
# use the point symbol map to lookup the mapserver symbol type
symbol = self.msSymbol( geometry, symbolNode )
class_def += " SYMBOL " + symbol + " \n"
class_def += self.getSymbolSizeString(symbolNode)

# outline color
outlineNode = symbolNode.getElementsByTagName('outlinecolor')[0]
class_def += " OUTLINECOLOR " + outlineNode.getAttribute('red').encode('utf-8') + ' ' + outlineNode.getAttribute('green').encode('utf-8') + ' ' + outlineNode.getAttribute('blue').encode('utf-8') + "\n"
# color
colorNode = symbolNode.getElementsByTagName('fillcolor')[0]
class_def += " COLOR " + colorNode.getAttribute('red').encode('utf-8') + ' ' + colorNode.getAttribute('green').encode('utf-8') + ' ' + colorNode.getAttribute('blue').encode('utf-8') + "\n"

class_def += " END\n"
class_def += self.writeClassStyleContent(symbolNode, geometry)

class_def += self.msLabel( layerNode )

@@ -752,12 +794,6 @@ def simpleRenderer(self, layerNode, symbolNode):
return class_def


def getSymbolSizeString(self, symbolNode):
size = float(symbolNode.getElementsByTagName('pointsize')[0].childNodes[0].nodeValue.encode('utf-8'))
symbolSize = size * symbolSizeMultiplier
return " SIZE " + str(symbolSize) + " \n"


# Graduated symbol renderer output
def graduatedRenderer(self, layerNode, symbolNode):
# get the layers geometry type
@@ -785,22 +821,7 @@ def graduatedRenderer(self, layerNode, symbolNode):

class_def += " EXPRESSION ( ([" + classField + "] >= " + lower + ") AND ([" + classField + "] <= " + upper + ") )\n"

class_def += " STYLE\n"
symbol = self.msSymbol( geometry, symbolNode )
class_def += " SYMBOL " + symbol + "\n"

# Symbol size
if geometry == 'POINT' or geometry == 'LINE':
class_def += self.getSymbolSizeString(cls)

# outline color
outlineNode = cls.getElementsByTagName('outlinecolor')[0]
class_def += " OUTLINECOLOR " + outlineNode.getAttribute('red').encode('utf-8') + ' ' + outlineNode.getAttribute('green').encode('utf-8') + ' ' + outlineNode.getAttribute('blue').encode('utf-8') + "\n"
# color
colorNode = cls.getElementsByTagName('fillcolor')[0]
class_def += " COLOR " + colorNode.getAttribute('red').encode('utf-8') + ' ' + colorNode.getAttribute('green').encode('utf-8') + ' ' + colorNode.getAttribute('blue').encode('utf-8') + "\n"

class_def += " END\n"
class_def += self.writeClassStyleContent(cls, geometry)

# label
class_def += self.msLabel( layerNode )
@@ -810,6 +831,7 @@ def graduatedRenderer(self, layerNode, symbolNode):

return class_def


# Continuous symbol renderer output
def continuousRenderer(self, layerNode, symbolNode):
# get the layers geometry type
@@ -827,8 +849,8 @@ def continuousRenderer(self, layerNode, symbolNode):
# color
lower = symbolNode.getElementsByTagName('lowestsymbol')[0].getElementsByTagName('symbol')[0]
upper = symbolNode.getElementsByTagName('highestsymbol')[0].getElementsByTagName('symbol')[0]
lowerColor = lower.getElementsByTagName('fillcolor')[0]
upperColor = upper.getElementsByTagName('fillcolor')[0]
lowerColor = lower.getElementsByTagName('outlinecolor')[0]
upperColor = upper.getElementsByTagName('outlinecolor')[0]

# outline color
outlineNode = lower.getElementsByTagName('outlinecolor')[0]
@@ -842,11 +864,43 @@ def continuousRenderer(self, layerNode, symbolNode):
class_def += " DATARANGE " + lower.getElementsByTagName('lowervalue')[0].childNodes[0].nodeValue.encode('utf-8') + ' ' + upper.getElementsByTagName('lowervalue')[0].childNodes[0].nodeValue.encode('utf-8') + '\n'

class_def += " RANGEITEM '" + classField + "'\n"
class_def += " END\n"

class_def += " STYLE\n"
class_def += " OUTLINECOLOR " + outlineNode.getAttribute('red').encode('utf-8') + " " + outlineNode.getAttribute('green').encode('utf-8') + " " + outlineNode.getAttribute('blue').encode('utf-8') + "\n"

# upper and lower have same size
outlinecolor = self.getRgbFromNode(upper, 'outlinecolor')
fillcolor = self.getRgbFromNode(upper, 'fillcolor')
outlinewidth = self.getSizeStringFromNode(upper, 'outlinewidth')

size = float(lower.getElementsByTagName('pointsize')[0].childNodes[0].nodeValue.encode('utf-8'))
pointsize = 2 * size * symbolSizeMultiplier


# for POINT by SYMBOL and SIZE
if geometry == 'POINT':
# use the point symbol map to lookup the mapserver symbol type
symbol = self.msSymbol( geometry, symbolNode )
class_def += " SYMBOL " + symbol + " \n"
class_def += " SIZE " + str(pointsize) + " \n"
# for LINE and POLYGON size define by WIDTH
else:
class_def += " WIDTH " + outlinewidth + " \n"

# for LINE defined by COLOR from outlinecolor
if geometry == 'LINE':
class_def += " COLOR " + outlinecolor + "\n"
# for POLYGON and POINT defined by COLOR from fillcolor and OUTLINECOLOR from outlinecolor
else:
class_def += " COLOR " + fillcolor + "\n"

class_def += " END\n"

# only outlines for polygons
outline = symbolNode.getElementsByTagName('polygonoutline')
if geometry == 'POLYGON' and outline is not None and '1' == outline[0].childNodes[0].nodeValue.encode('utf-8'):
class_def += " STYLE\n"
class_def += " WIDTH 1 " + "\n"
class_def += " OUTLINECOLOR 0 0 0" + "\n"
class_def += " END\n"

# label
class_def += self.msLabel( layerNode )
@@ -855,7 +909,7 @@ def continuousRenderer(self, layerNode, symbolNode):
class_def += " END\n"

return class_def


# Unique value renderer output
def uniqueRenderer(self, layerNode, symbolNode):
@@ -882,47 +936,23 @@ def uniqueRenderer(self, layerNode, symbolNode):
# If there's a label use it, otherwise autogenerate one
try:
label = cls.getElementsByTagName('label')[0].childNodes[0].nodeValue.encode('utf-8')
class_def += " NAME '" + label + "'\n"
class_def += ' NAME "' + label + '"\n'
except:
class_def += " NAME '" + classField + " = " + lower + "' \n"
class_def += ' NAME "' + classField + ' = ' + lower + '" \n'

class_def += " EXPRESSION '" + lower + "' \n"
class_def += ' EXPRESSION "' + lower + '" \n'

# Get the symbol name
symbol = self.msSymbol( geometry, symbolNode )

class_def += " STYLE\n"
class_def += " SYMBOL " + symbol + "\n"

# Symbol size
if geometry == 'POINT' or geometry == 'LINE':
class_def += self.getSymbolSizeString(cls)

# outline color
outlineNode = cls.getElementsByTagName('outlinecolor')[0]
class_def += " OUTLINECOLOR " \
+ outlineNode.getAttribute('red').encode('utf-8') + ' ' \
+ outlineNode.getAttribute('green').encode('utf-8') + ' ' \
+ outlineNode.getAttribute('blue').encode('utf-8') \
+ "\n"

# color
colorNode = cls.getElementsByTagName('fillcolor')[0]
class_def += " COLOR " \
+ colorNode.getAttribute('red').encode('utf-8') + ' ' \
+ colorNode.getAttribute('green').encode('utf-8') + ' ' \
+ colorNode.getAttribute('blue').encode('utf-8') \
+ "\n"
class_def += " END\n"
class_def += self.writeClassStyleContent(cls, geometry)

# label
class_def += self.msLabel( layerNode )

# end of CLASS
class_def += " END\n"

return class_def



# Utility method to format a proj4 text string into mapserver format
def formatProj4(self, proj4text):
parms = proj4text.split(" ")
@@ -932,6 +962,7 @@ def formatProj4(self, proj4text):
ret = ret + " '" + p + "'\n"
return ret


def getProj4(self, proj4text):
"""Returns the proj4 string as a dictionary with key value pairs."""
parms = proj4text.split(" ")
@@ -950,6 +981,7 @@ def getProj4(self, proj4text):
ret[key] = value
return ret


# Determines the symbol name and adds it to the symbol queue
def msSymbol(self, geometry, symbolNode):
# contains the same markup for a layer regardless of type
@@ -958,9 +990,11 @@ def msSymbol(self, geometry, symbolNode):
symbol = '0'

if geometry == 'POLYGON':
symbol = '0'
#symbol = '0'
pass
elif geometry == 'LINE':
symbol = '0'
#symbol = '0'
pass
elif geometry == 'POINT':
try:
symbolName = qgis2map_symbol[symbolNode.getElementsByTagName('pointsymbol')[0].childNodes[0].nodeValue.encode('utf-8')]
@@ -1083,7 +1117,12 @@ def msLabel(self, layerNode):
# qgis uses a fill color around the label
# Note that buffer only works for truetype fonts
buffer = labelNode.getElementsByTagName('buffersize')[0].getAttribute('value').encode('utf-8')
labelBlock += " BUFFER " + buffer + "\n"
bufferon = labelNode.getElementsByTagName('bufferenabled')[0].getAttribute('on').encode('utf-8')
buffercolor= self.getRgbFromNode(labelNode, 'buffercolor')
if bufferon is not None and '1' == bufferon:
# not sure if we should use this BUFFER
#labelBlock += " BUFFER " + buffer + "\n"
labelBlock += " BACKGROUNDCOLOR " + buffercolor + "\n"

# alignment in QGis corresponds to position in MapServer
alignment = labelNode.getElementsByTagName('alignment')[0].getAttribute('value').encode('utf-8')

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