class MILayer():
def __init__(self, layer=None, shapetype=None):
if layer is None:
if shapetype is None:
print 'shapetype must be specified!'
else:
type = ShapeTypes.Point
if shapetype == 'line':
type = ShapeTypes.Polyline
elif shapetype == 'polygon':
type = ShapeTypes.Polygon
self.layer = VectorLayer(type)
self.shapetype = type
self.proj = KnownCoordinateSystems.geographic.world.WGS1984
else:
self.layer = layer
self.shapetype = layer.getShapeType()
self.proj = layer.getProjInfo()
def __repr__(self):
return self.layer.getLayerInfo()
def isvectorlayer(self):
return self.layer.getLayerType() == LayerTypes.VectorLayer
def cellvalue(self, fieldname, shapeindex):
v = self.layer.getCellValue(fieldname, shapeindex)
if isinstance(v, Date):
cal = Calendar.getInstance()
cal.setTime(v)
year = cal.get(Calendar.YEAR)
month = cal.get(Calendar.MONTH) + 1
day = cal.get(Calendar.DAY_OF_MONTH)
hour = cal.get(Calendar.HOUR_OF_DAY)
minute = cal.get(Calendar.MINUTE)
second = cal.get(Calendar.SECOND)
dt = datetime(year, month, day, hour, minute, second)
return dt
else:
return v
def setcellvalue(self, fieldname, shapeindex, value):
self.layer.editCellValue(fieldname, shapeindex, value)
def shapes(self):
return self.layer.getShapes()
def shapenum(self):
return self.layer.getShapeNum()
def legend(self):
return self.layer.getLegendScheme()
def setlegend(self, legend):
self.layer.setLegendScheme(legend)
def addfield(self, fieldname, dtype, values=None):
dt = TableUtil.toDataTypes(dtype)
self.layer.editAddField(fieldname, dt)
if not values is None:
n = self.shapenum()
for i in range(n):
if i < len(values):
self.layer.editCellValue(fieldname, i, values[i])
def delfield(self, fieldname):
self.layer.editRemoveField(fieldname)
def renamefield(self, fieldname, newfieldname):
self.layer.editRenameField(fieldname, newfieldname)
def addshape(self, x, y, fields=None):
type = 'point'
if self.shapetype == ShapeTypes.Polyline:
type = 'line'
elif self.shapetype == ShapeTypes.Polygon:
type = 'polygon'
shapes = miutil.makeshapes(x, y, type)
if len(shapes) == 1:
self.layer.editAddShape(shapes[0], fields)
else:
for shape, field in zip(shapes, fields):
self.layer.editAddShape(shape, field)
def addlabels(self, fieldname, **kwargs):
labelset = self.layer.getLabelSet()
labelset.setFieldName(fieldname)
fontname = kwargs.pop('fontname', 'Arial')
fontsize = kwargs.pop('fontsize', 14)
bold = kwargs.pop('bold', False)
if bold:
font = Font(fontname, Font.BOLD, fontsize)
else:
font = Font(fontname, Font.PLAIN, fontsize)
labelset.setLabelFont(font)
xoffset = kwargs.pop('xoffset', 0)
labelset.setXOffset(xoffset)
yoffset = kwargs.pop('yoffset', 0)
labelset.setYOffset(yoffset)
avoidcoll = kwargs.pop('avoidcoll', True)
labelset.setAvoidCollision(avoidcoll)
self.layer.addLabels()
def getlabel(self, text):
return self.layer.getLabel(text)
def movelabel(self, label, x=0, y=0):
self.layer.moveLabel(label, x, y)
def project(self, toproj):
r = ProjectionManage.projectLayer(self.layer, toproj)
return MILayer(r)
def clip(self, clipobj):
if isinstance(clipobj, PolygonShape):
clipobj = [clipobj]
r = self.layer.clip(clipobj)
return MILayer(r)
def clone(self):
return MILayer(self.layer.clone())
def save(self, fn=None):
if fn is None:
if self.layer.getFileName().strip() == '':
print 'File name is needed to save the layer!'
else:
self.layer.saveFile()
else:
self.layer.saveFile(fn)
class MILayer():
'''
Map layer
:param layer: (*MapLayer*) MapLayer object.
:param shapetype: (*ShapeTypes*) Shape type ['point' | 'line' | 'polygon']
'''
def __init__(self, layer=None, shapetype=None):
if layer is None:
if shapetype is None:
print 'shapetype must be specified!'
else:
type = ShapeTypes.Point
if shapetype == 'line':
type = ShapeTypes.Polyline
elif shapetype == 'polygon':
type = ShapeTypes.Polygon
self.layer = VectorLayer(type)
self.shapetype = type
self.proj = KnownCoordinateSystems.geographic.world.WGS1984
else:
self.layer = layer
self.shapetype = layer.getShapeType()
self.proj = layer.getProjInfo()
def __repr__(self):
return self.layer.getLayerInfo()
def isvectorlayer(self):
'''
Check this layer is VectorLayer or not.
:returns: (*boolean*) Is VectorLayer or not.
'''
return self.layer.getLayerType() == LayerTypes.VectorLayer
def gettable(self):
'''
Get attribute table.
:returns: (*PyTableData') Attribute table.
'''
r = self.layer.getAttributeTable().getTable()
return minum.datatable(r)
def cellvalue(self, fieldname, shapeindex):
'''
Get attribute table cell value.
:param fieldname: (*string*) Field name.
:param shapeindex: (*int*) Shape index.
:returns: The value in attribute table identified by field name and shape index.
'''
v = self.layer.getCellValue(fieldname, shapeindex)
if isinstance(v, Date):
cal = Calendar.getInstance()
cal.setTime(v)
year = cal.get(Calendar.YEAR)
month = cal.get(Calendar.MONTH) + 1
day = cal.get(Calendar.DAY_OF_MONTH)
hour = cal.get(Calendar.HOUR_OF_DAY)
minute = cal.get(Calendar.MINUTE)
second = cal.get(Calendar.SECOND)
dt = datetime(year, month, day, hour, minute, second)
return dt
else:
return v
def setcellvalue(self, fieldname, shapeindex, value):
'''
Set cell value in attribute table.
:param fieldname: (*string*) Field name.
:param shapeindex: (*int*) Shape index.
:param value: (*object*) Cell value to be asigned.
'''
self.layer.editCellValue(fieldname, shapeindex, value)
def shapes(self):
return self.layer.getShapes()
def shapenum(self):
return self.layer.getShapeNum()
def legend(self):
return self.layer.getLegendScheme()
def setlegend(self, legend):
self.layer.setLegendScheme(legend)
def addfield(self, fieldname, dtype, values=None):
dt = TableUtil.toDataTypes(dtype)
self.layer.editAddField(fieldname, dt)
if not values is None:
n = self.shapenum()
for i in range(n):
if i < len(values):
self.layer.editCellValue(fieldname, i, values[i])
def delfield(self, fieldname):
self.layer.editRemoveField(fieldname)
def renamefield(self, fieldname, newfieldname):
self.layer.editRenameField(fieldname, newfieldname)
def addshape(self, x, y, fields=None, z=None, m=None):
type = 'point'
if self.shapetype == ShapeTypes.Polyline:
type = 'line'
elif self.shapetype == ShapeTypes.Polygon:
type = 'polygon'
shapes = makeshapes(x, y, type, z, m)
if len(shapes) == 1:
self.layer.editAddShape(shapes[0], fields)
else:
for shape, field in zip(shapes, fields):
self.layer.editAddShape(shape, field)
def addlabels(self, fieldname, **kwargs):
'''
Add labels
:param fieldname: (*string*) Field name
:param fontname: (*string*) Font name. Default is ``Arial``.
:param fontsize: (*string*) Font size. Default is ``14``.
:param bold: (*boolean*) Font bold or not. Default is ``False``.
:param color: (*color*) Label color. Default is ``None`` with black color.
:param xoffset: (*int*) X coordinate offset. Default is ``0``.
:param yoffset: (*int*) Y coordinate offset. Default is ``1``.
:param avoidcoll: (*boolean*) Avoid labels collision or not. Default is ``True``.
:param decimals: (*int*) Number of decimals of labels.
'''
labelset = self.layer.getLabelSet()
labelset.setFieldName(fieldname)
fontname = kwargs.pop('fontname', 'Arial')
fontsize = kwargs.pop('fontsize', 14)
bold = kwargs.pop('bold', False)
if bold:
font = Font(fontname, Font.BOLD, fontsize)
else:
font = Font(fontname, Font.PLAIN, fontsize)
labelset.setLabelFont(font)
color = kwargs.pop('color', None)
if not color is None:
color = miutil.getcolor(color)
labelset.setLabelColor(color)
xoffset = kwargs.pop('xoffset', 0)
labelset.setXOffset(xoffset)
yoffset = kwargs.pop('yoffset', 0)
labelset.setYOffset(yoffset)
avoidcoll = kwargs.pop('avoidcoll', True)
labelset.setAvoidCollision(avoidcoll)
decimals = kwargs.pop('decimals', None)
if not decimals is None:
labelset.setAutoDecimal(False)
labelset.setDecimalDigits(decimals)
self.layer.addLabels()
def getlabel(self, text):
return self.layer.getLabel(text)
def movelabel(self, label, x=0, y=0):
self.layer.moveLabel(label, x, y)
def project(self, toproj):
r = ProjectionManage.projectLayer(self.layer, toproj)
return MILayer(r)
def buffer(self, dist=0, merge=False):
r = self.layer.buffer(dist, False, merge)
return MILayer(r)
def clip(self, clipobj):
if isinstance(clipobj, PolygonShape):
clipobj = [clipobj]
elif isinstance(clipobj, MILayer):
clipobj = clipobj.layer
r = self.layer.clip(clipobj)
return MILayer(r)
def select(self, expression, seltype='new'):
'''
Select shapes by SQL expression.
:param expression: (*string*) SQL expression.
:param seltype: (*string*) Selection type ['new' | 'add_to_current' |
'remove_from_current' | 'select_from_current']
:returns: (*list of Shape*) Selected shape list.
'''
self.layer.sqlSelect(expression, seltype)
return self.layer.getSelectedShapes()
def clear_selection(self):
'''
Clear shape selection.
'''
self.layer.clearSelectedShapes()
def clone(self):
'''
Clone self.
'''
return MILayer(self.layer.clone())
def save(self, fn=None):
"""
Save layer as shape file.
:param fn: (*string*) Shape file name (.shp).
"""
if fn is None:
if self.layer.getFileName().strip() == '':
print 'File name is needed to save the layer!'
else:
self.layer.saveFile()
else:
self.layer.saveFile(fn)
def savekml(self, fn):
"""
Save layer as KML file.
:param fn: (*string*) KML file name.
"""
self.layer.saveAsKMLFile(fn)
class MILayer():
'''
Map layer
:param layer: (*MapLayer*) MapLayer object.
:param shapetype: (*ShapeTypes*) Shape type ['point' | 'line' | 'polygon']
'''
def __init__(self, layer=None, shapetype=None):
if layer is None:
if shapetype is None:
print 'shapetype must be specified!'
else:
type = ShapeTypes.Point
if shapetype == 'line':
type = ShapeTypes.Polyline
elif shapetype == 'polygon':
type = ShapeTypes.Polygon
self.layer = VectorLayer(type)
self.shapetype = type
self.proj = KnownCoordinateSystems.geographic.world.WGS1984
else:
self.layer = layer
self.shapetype = layer.getShapeType()
self.proj = layer.getProjInfo()
def __repr__(self):
return self.layer.getLayerInfo()
def isvectorlayer(self):
return self.layer.getLayerType() == LayerTypes.VectorLayer
def cellvalue(self, fieldname, shapeindex):
'''
Get attribute table cell value.
:param fieldname: (*string*) Field name.
:param shapeindex: (*int*) Shape index.
:returns: The value in attribute table identified by field name and shape index.
'''
v = self.layer.getCellValue(fieldname, shapeindex)
if isinstance(v, Date):
cal = Calendar.getInstance()
cal.setTime(v)
year = cal.get(Calendar.YEAR)
month = cal.get(Calendar.MONTH) + 1
day = cal.get(Calendar.DAY_OF_MONTH)
hour = cal.get(Calendar.HOUR_OF_DAY)
minute = cal.get(Calendar.MINUTE)
second = cal.get(Calendar.SECOND)
dt = datetime(year, month, day, hour, minute, second)
return dt
else:
return v
def setcellvalue(self, fieldname, shapeindex, value):
'''
Set cell value in attribute table.
:param fieldname: (*string*) Field name.
:param shapeindex: (*int*) Shape index.
:param value: (*object*) Cell value to be asigned.
'''
self.layer.editCellValue(fieldname, shapeindex, value)
def shapes(self):
return self.layer.getShapes()
def shapenum(self):
return self.layer.getShapeNum()
def legend(self):
return self.layer.getLegendScheme()
def setlegend(self, legend):
self.layer.setLegendScheme(legend)
def addfield(self, fieldname, dtype, values=None):
dt = TableUtil.toDataTypes(dtype)
self.layer.editAddField(fieldname, dt)
if not values is None:
n = self.shapenum()
for i in range(n):
if i < len(values):
self.layer.editCellValue(fieldname, i, values[i])
def delfield(self, fieldname):
self.layer.editRemoveField(fieldname)
def renamefield(self, fieldname, newfieldname):
self.layer.editRenameField(fieldname, newfieldname)
def addshape(self, x, y, fields=None):
type = 'point'
if self.shapetype == ShapeTypes.Polyline:
type = 'line'
elif self.shapetype == ShapeTypes.Polygon:
type = 'polygon'
shapes = miutil.makeshapes(x, y, type)
if len(shapes) == 1:
self.layer.editAddShape(shapes[0], fields)
else:
for shape, field in zip(shapes, fields):
self.layer.editAddShape(shape, field)
def addlabels(self, fieldname, **kwargs):
labelset = self.layer.getLabelSet()
labelset.setFieldName(fieldname)
fontname = kwargs.pop('fontname', 'Arial')
fontsize = kwargs.pop('fontsize', 14)
bold = kwargs.pop('bold', False)
if bold:
font = Font(fontname, Font.BOLD, fontsize)
else:
font = Font(fontname, Font.PLAIN, fontsize)
labelset.setLabelFont(font)
xoffset = kwargs.pop('xoffset', 0)
labelset.setXOffset(xoffset)
yoffset = kwargs.pop('yoffset', 0)
labelset.setYOffset(yoffset)
avoidcoll = kwargs.pop('avoidcoll', True)
labelset.setAvoidCollision(avoidcoll)
self.layer.addLabels()
def getlabel(self, text):
return self.layer.getLabel(text)
def movelabel(self, label, x=0, y=0):
self.layer.moveLabel(label, x, y)
def project(self, toproj):
r = ProjectionManage.projectLayer(self.layer, toproj)
return MILayer(r)
def buffer(self, dist=0, merge=False):
r = self.layer.buffer(dist, False, merge)
return MILayer(r)
def clip(self, clipobj):
if isinstance(clipobj, PolygonShape):
clipobj = [clipobj]
elif isinstance(clipobj, MILayer):
clipobj = clipobj.layer
r = self.layer.clip(clipobj)
return MILayer(r)
def clone(self):
return MILayer(self.layer.clone())
def save(self, fn=None):
"""
Save layer as shape file.
:param fn: (*string*) Shape file name (.shp).
"""
if fn is None:
if self.layer.getFileName().strip() == '':
print 'File name is needed to save the layer!'
else:
self.layer.saveFile()
else:
self.layer.saveFile(fn)
def savekml(self, fn):
"""
Save layer as KML file.
:param fn: (*string*) KML file name.
"""
self.layer.saveAsKMLFile(fn)
class MILayer(object):
'''
Map layer
:param layer: (*MapLayer*) MapLayer object.
:param shapetype: (*ShapeTypes*) Shape type ['point' | 'line' | 'polygon']
'''
def __init__(self, layer=None, shapetype=None):
if layer is None:
if shapetype is None:
print 'shapetype must be specified!'
else:
type = ShapeTypes.Point
if shapetype == 'line':
type = ShapeTypes.Polyline
elif shapetype == 'polygon':
type = ShapeTypes.Polygon
self.layer = VectorLayer(type)
self.shapetype = type
self.proj = KnownCoordinateSystems.geographic.world.WGS1984
else:
self.layer = layer
self.shapetype = layer.getShapeType()
self.proj = layer.getProjInfo()
self._coord_array = None
def __repr__(self):
return self.layer.getLayerInfo()
@property
def x_coord(self):
'''
Get X coordinate array.
:return: X coordinate array
'''
if self.isvectorlayer():
if self._coord_array is None:
self._coord_array = GeometryUtil.getCoordinates(self.layer)
return np.array(self._coord_array[0])
else:
return None
@property
def y_coord(self):
'''
Get Y coordinate array.
:return: Y coordinate array
'''
if self.isvectorlayer():
if self._coord_array is None:
self._coord_array = GeometryUtil.getCoordinates(self.layer)
return np.array(self._coord_array[1])
else:
return None
@property
def z_coord(self):
'''
Get Z coordinate array.
:return: Z coordinate array
'''
if self.isvectorlayer():
if self._coord_array is None:
self._coord_array = GeometryUtil.getCoordinates(self.layer)
return np.array(self._coord_array[2])
else:
return None
def isvectorlayer(self):
'''
Check this layer is VectorLayer or not.
:returns: (*boolean*) Is VectorLayer or not.
'''
return self.layer.getLayerType() == LayerTypes.VectorLayer
def get_encoding(self):
'''
Get encoding.
:returns: (*string*) Encoding
'''
return self.layer.getAttributeTable().getEncoding()
def gettable(self):
'''
Get attribute table.
:returns: (*PyTableData') Attribute table.
'''
r = self.layer.getAttributeTable().getTable()
return np.datatable(r)
def cellvalue(self, fieldname, shapeindex):
'''
Get attribute table cell value.
:param fieldname: (*string*) Field name.
:param shapeindex: (*int*) Shape index.
:returns: The value in attribute table identified by field name and shape index.
'''
v = self.layer.getCellValue(fieldname, shapeindex)
if isinstance(v, LocalDateTime):
dt = miutil.pydate(v)
return dt
else:
return v
def setcellvalue(self, fieldname, shapeindex, value):
'''
Set cell value in attribute table.
:param fieldname: (*string*) Field name.
:param shapeindex: (*int*) Shape index.
:param value: (*object*) Cell value to be asigned.
'''
self.layer.editCellValue(fieldname, shapeindex, value)
def shapes(self):
'''
Get shapes.
'''
return self.layer.getShapes()
def shapenum(self):
'''
Get shape number
'''
return self.layer.getShapeNum()
def legend(self):
'''
Get legend scheme.
'''
return self.layer.getLegendScheme()
def setlegend(self, legend):
'''
Set legend scheme.
:param legend: (*LegendScheme*) Legend scheme.
'''
self.layer.setLegendScheme(legend)
def update_legend(self, ltype, fieldname):
'''
Update legend scheme.
:param ltype: (*string*) Legend type [single | unique | graduate].
:param fieldname: (*string*) Field name.
'''
if ltype == 'single':
ltype = LegendType.SingleSymbol
elif ltype == 'unique':
ltype = LegendType.UniqueValue
elif ltyp == 'graduate':
ltype = LegendType.GraduatedColor
else:
raise ValueError(ltype)
self.layer.updateLegendScheme(ltype, fieldname)
return self.layer.getLegendScheme()
def addfield(self, fieldname, dtype, values=None):
'''
Add a field into the attribute table.
:param fieldname: (*string*) Field name.
:param dtype: (*string*) Field data type [string | int | float | double].
:param values: (*array_like*) Field values.
'''
dt = TableUtil.toDataTypes(dtype)
self.layer.editAddField(fieldname, dt)
if not values is None:
n = self.shapenum()
for i in range(n):
if i < len(values):
self.layer.editCellValue(fieldname, i, values[i])
def delfield(self, fieldname):
'''
Delete a field from the attribute table.
:param fieldname: (*string*) Filed name.
'''
self.layer.editRemoveField(fieldname)
def renamefield(self, fieldname, newfieldname):
'''
Rename the field.
:param fieldname: (*string*) The old field name.
:param newfieldname: (*string*) The new field name.
'''
self.layer.editRenameField(fieldname, newfieldname)
def addshape(self, x, y, fields=None, z=None, m=None):
'''
Add a shape.
:param x: (*array_like*) X coordinates of the shape points.
:param y: (*array_like*) Y coordinates of the shape points.
:param fields: (*array_like*) Field values of the shape.
:param z: (*array_like*) Optional, Z coordinates of the shape points.
:param m: (*array_like*) Optional, M coordinates of the shape points.
'''
type = 'point'
if self.shapetype == ShapeTypes.Polyline:
type = 'line'
elif self.shapetype == ShapeTypes.Polygon:
type = 'polygon'
shapes = geoutil.makeshapes(x, y, type, z, m)
if len(shapes) == 1:
self.layer.editAddShape(shapes[0], fields)
else:
for shape, field in zip(shapes, fields):
self.layer.editAddShape(shape, field)
def addlabels(self, fieldname, **kwargs):
'''
Add labels
:param fieldname: (*string*) Field name
:param fontname: (*string*) Font name. Default is ``Arial``.
:param fontsize: (*string*) Font size. Default is ``14``.
:param bold: (*boolean*) Font bold or not. Default is ``False``.
:param color: (*color*) Label color. Default is ``None`` with black color.
:param xoffset: (*int*) X coordinate offset. Default is ``0``.
:param yoffset: (*int*) Y coordinate offset. Default is ``0``.
:param avoidcoll: (*boolean*) Avoid labels collision or not. Default is ``True``.
:param decimals: (*int*) Number of decimals of labels.
'''
labelset = self.layer.getLabelSet()
labelset.setFieldName(fieldname)
fontname = kwargs.pop('fontname', 'Arial')
fontsize = kwargs.pop('fontsize', 14)
bold = kwargs.pop('bold', False)
if bold:
font = Font(fontname, Font.BOLD, fontsize)
else:
font = Font(fontname, Font.PLAIN, fontsize)
labelset.setLabelFont(font)
color = kwargs.pop('color', None)
if not color is None:
color = miutil.getcolor(color)
labelset.setLabelColor(color)
xoffset = kwargs.pop('xoffset', 0)
labelset.setXOffset(xoffset)
yoffset = kwargs.pop('yoffset', 0)
labelset.setYOffset(yoffset)
avoidcoll = kwargs.pop('avoidcoll', True)
labelset.setAvoidCollision(avoidcoll)
decimals = kwargs.pop('decimals', None)
if not decimals is None:
labelset.setAutoDecimal(False)
labelset.setDecimalDigits(decimals)
self.layer.addLabels()
def getlabel(self, text):
'''
Get a label.
:param text: (*string*) The label text.
'''
return self.layer.getLabel(text)
def movelabel(self, label, x=0, y=0):
'''
Move a label.
:param label: (*string*) The label text.
:param x: (*float*) X shift for moving in pixel unit.
:param y: (*float*) Y shift for moving in pixel unit.
'''
self.layer.moveLabel(label, x, y)
def add_charts(self, fieldnames, legend=None, **kwargs):
'''
Add charts
:param fieldnames: (*list of string*) Field name list.
:param legend: (*LegendScheme*) Chart legend.
:param charttype: (*string*) Chart type [bar | pie]. Default is ``bar``.
:param minsize: (*int*) Minimum chart size. Default is ``0``.
:param maxsize: (*int*) Maximum chart size. Default is ``50``.
:param barwidth: (*int*) Bar width. Only valid for bar chart. Default is ``8``.
:param xoffset: (*int*) X coordinate offset. Default is ``0``.
:param yoffset: (*int*) Y coordinate offset. Default is ``0``.
:param avoidcoll: (*boolean*) Avoid labels collision or not. Default is ``True``.
:param align: (*string*) Chart align type [center | left | right | none], Default is ``center``.
:param view3d: (*boolean*) Draw chart as 3D or not. Default is ``False``.
:param thickness: (*int*) 3D chart thickness. Default is ``5``.
:param drawlabel: (*boolean*) Draw label or not. Default is ``False``.
:param fontname: (*string*) Label font name.
:param fontsize: (*int*) Label font size.
:param bold: (*boolean*) Font bold or not. Default is ``False``.
:param labelcolor: (*color*) Label color.
:param decimals: (*int*) Number of decimals of labels.
'''
charttype = kwargs.pop('charttype', None)
minsize = kwargs.pop('minsize', None)
maxsize = kwargs.pop('maxsize', None)
barwidth = kwargs.pop('barwidth', None)
xoffset = kwargs.pop('xoffset', None)
yoffset = kwargs.pop('yoffset', None)
avoidcoll = kwargs.pop('avoidcoll', None)
align = kwargs.pop('align', None)
view3d = kwargs.pop('view3d', None)
thickness = kwargs.pop('thickness', None)
drawlabel = kwargs.pop('drawlabel', None)
fontname = kwargs.pop('fontname', 'Arial')
fontsize = kwargs.pop('fontsize', 12)
bold = kwargs.pop('bold', False)
if bold:
font = Font(fontname, Font.BOLD, fontsize)
else:
font = Font(fontname, Font.PLAIN, fontsize)
labelcolor = kwargs.pop('labelcolor', None)
decimals = kwargs.pop('decimals', None)
chartset = self.layer.getChartSet()
chartset.setFieldNames(fieldnames)
chartset.setLegendScheme(legend)
if not charttype is None:
chartset.setChartType(charttype)
if not minsize is None:
chartset.setMinSize(minsize)
if not maxsize is None:
chartset.setMaxSize(maxsize)
if not barwidth is None:
chartset.setBarWidth(barwidth)
if not xoffset is None:
chartset.setXShift(xoffset)
if not yoffset is None:
chartset.setYShift(yoffset)
if not avoidcoll is None:
chartset.setAvoidCollision(avoidcoll)
if not align is None:
chartset.setAlignType(align)
if not view3d is None:
chartset.setView3D(view3d)
if not thickness is None:
chartset.setThickness(thickness)
if not drawlabel is None:
chartset.setDrawLabel(drawlabel)
chartset.setLabelFont(font)
if not labelcolor is None:
chartset.setLabelColor(miutil.getcolor(labelcolor))
if not decimals is None:
chartset.setDecimalDigits(decimals)
self.layer.updateChartSet()
self.layer.addCharts()
return chartset
def get_chartlegend(self):
'''
Get legend of the chart graphics.
'''
return self.layer.getChartSet().getLegendScheme()
def get_chart(self, index):
'''
Get a chart graphic.
:param index: (*int*) Chart index.
:returns: Chart graphic
'''
return self.layer.getChartPoints()[index]
def move_chart(self, index, x=0, y=0):
'''
Move a chart graphic.
:param index: (*int*) Chart index.
:param x: (*float*) X shift for moving.
:param y: (*float*) Y shift for moving.
'''
s = self.layer.getChartPoints()[index].getShape()
p = s.getPoint()
p.X = p.X + x
p.Y = p.Y + y
s.setPoint(p)
def set_avoidcoll(self, avoidcoll):
'''
Set if avoid collision or not. Only valid for VectorLayer with Point shapes.
:param avoidcoll: (*boolean*) Avoid collision or not.
'''
self.layer.setAvoidCollision(avoidcoll)
def project(self, toproj):
'''
Project to another projection.
:param toproj: (*ProjectionInfo*) The projection to be projected.
'''
ProjectionUtil.projectLayer(self.layer, toproj)
def buffer(self, dist=0, merge=False):
'''
Get the buffer layer.
:param dist: (*float*) Buffer value.
:param merge: (*boolean*) Merge the buffered shapes or not.
:returns: (*MILayer*) Buffered layer.
'''
r = self.layer.buffer(dist, False, merge)
return MILayer(r)
def clip(self, clipobj):
'''
Clip this layer by polygon or another polygon layer.
:param clipobj: (*PolygonShape or MILayer*) Clip object.
:returns: (*MILayer*) Clipped layer.
'''
if isinstance(clipobj, PolygonShape):
clipobj = [clipobj]
elif isinstance(clipobj, MILayer):
clipobj = clipobj.layer
r = self.layer.clip(clipobj)
return MILayer(r)
def select(self, expression, seltype='new'):
'''
Select shapes by SQL expression.
:param expression: (*string*) SQL expression.
:param seltype: (*string*) Selection type ['new' | 'add_to_current' |
'remove_from_current' | 'select_from_current']
:returns: (*list of Shape*) Selected shape list.
'''
self.layer.sqlSelect(expression, seltype)
return self.layer.getSelectedShapes()
def clear_selection(self):
'''
Clear shape selection.
'''
self.layer.clearSelectedShapes()
def clone(self):
'''
Clone self.
'''
return MILayer(self.layer.clone())
def save(self, fn=None, encoding=None):
"""
Save layer as shape file.
:param fn: (*string*) Shape file name (.shp).
:param encoding: (*string*) Encoding.
"""
if fn is None:
fn = self.layer.getFileName()
if fn.strip() == '':
print 'File name is needed to save the layer!'
raise IOError
else:
if encoding is None:
self.layer.saveFile(fn)
else:
self.layer.saveFile(fn, encoding)
def savekml(self, fn):
"""
Save layer as KML file.
:param fn: (*string*) KML file name.
"""
self.layer.saveAsKMLFile(fn)
class MILayer(object):
'''
Map layer
:param layer: (*MapLayer*) MapLayer object.
:param shapetype: (*ShapeTypes*) Shape type ['point' | 'line' | 'polygon']
'''
def __init__(self, layer=None, shapetype=None):
if layer is None:
if shapetype is None:
print 'shapetype must be specified!'
else:
type = ShapeTypes.Point
if shapetype == 'line':
type = ShapeTypes.Polyline
elif shapetype == 'polygon':
type = ShapeTypes.Polygon
self.layer = VectorLayer(type)
self.shapetype = type
self.proj = KnownCoordinateSystems.geographic.world.WGS1984
else:
self.layer = layer
self.shapetype = layer.getShapeType()
self.proj = layer.getProjInfo()
def __repr__(self):
return self.layer.getLayerInfo()
def isvectorlayer(self):
'''
Check this layer is VectorLayer or not.
:returns: (*boolean*) Is VectorLayer or not.
'''
return self.layer.getLayerType() == LayerTypes.VectorLayer
def get_encoding(self):
'''
Get encoding.
:returns: (*string*) Encoding
'''
return self.layer.getAttributeTable().getEncoding()
def gettable(self):
'''
Get attribute table.
:returns: (*PyTableData') Attribute table.
'''
r = self.layer.getAttributeTable().getTable()
return minum.datatable(r)
def cellvalue(self, fieldname, shapeindex):
'''
Get attribute table cell value.
:param fieldname: (*string*) Field name.
:param shapeindex: (*int*) Shape index.
:returns: The value in attribute table identified by field name and shape index.
'''
v = self.layer.getCellValue(fieldname, shapeindex)
if isinstance(v, Date):
cal = Calendar.getInstance()
cal.setTime(v)
year = cal.get(Calendar.YEAR)
month = cal.get(Calendar.MONTH) + 1
day = cal.get(Calendar.DAY_OF_MONTH)
hour = cal.get(Calendar.HOUR_OF_DAY)
minute = cal.get(Calendar.MINUTE)
second = cal.get(Calendar.SECOND)
dt = datetime(year, month, day, hour, minute, second)
return dt
else:
return v
def setcellvalue(self, fieldname, shapeindex, value):
'''
Set cell value in attribute table.
:param fieldname: (*string*) Field name.
:param shapeindex: (*int*) Shape index.
:param value: (*object*) Cell value to be asigned.
'''
self.layer.editCellValue(fieldname, shapeindex, value)
def shapes(self):
'''
Get shapes.
'''
return self.layer.getShapes()
def shapenum(self):
'''
Get shape number
'''
return self.layer.getShapeNum()
def legend(self):
'''
Get legend scheme.
'''
return self.layer.getLegendScheme()
def setlegend(self, legend):
'''
Set legend scheme.
:param legend: (*LegendScheme*) Legend scheme.
'''
self.layer.setLegendScheme(legend)
def update_legend(self, ltype, fieldname):
'''
Update legend scheme.
:param ltype: (*string*) Legend type [single | unique | graduate].
:param fieldname: (*string*) Field name.
'''
if ltype == 'single':
ltype = LegendType.SingleSymbol
elif ltype == 'unique':
ltype = LegendType.UniqueValue
elif ltyp == 'graduate':
ltype = LegendType.GraduatedColor
else:
raise ValueError(ltype)
self.layer.updateLegendScheme(ltype, fieldname)
return self.layer.getLegendScheme()
def addfield(self, fieldname, dtype, values=None):
'''
Add a field into the attribute table.
:param fieldname: (*string*) Field name.
:param dtype: (*string*) Field data type [string | int | float | double].
:param values: (*array_like*) Field values.
'''
dt = TableUtil.toDataTypes(dtype)
self.layer.editAddField(fieldname, dt)
if not values is None:
n = self.shapenum()
for i in range(n):
if i < len(values):
self.layer.editCellValue(fieldname, i, values[i])
def delfield(self, fieldname):
'''
Delete a field from the attribute table.
:param fieldname: (*string*) Filed name.
'''
self.layer.editRemoveField(fieldname)
def renamefield(self, fieldname, newfieldname):
'''
Rename the field.
:param fieldname: (*string*) The old field name.
:param newfieldname: (*string*) The new field name.
'''
self.layer.editRenameField(fieldname, newfieldname)
def addshape(self, x, y, fields=None, z=None, m=None):
'''
Add a shape.
:param x: (*array_like*) X coordinates of the shape points.
:param y: (*array_like*) Y coordinates of the shape points.
:param fields: (*array_like*) Field values of the shape.
:param z: (*array_like*) Optional, Z coordinates of the shape points.
:param m: (*array_like*) Optional, M coordinates of the shape points.
'''
type = 'point'
if self.shapetype == ShapeTypes.Polyline:
type = 'line'
elif self.shapetype == ShapeTypes.Polygon:
type = 'polygon'
shapes = geoutil.makeshapes(x, y, type, z, m)
if len(shapes) == 1:
self.layer.editAddShape(shapes[0], fields)
else:
for shape, field in zip(shapes, fields):
self.layer.editAddShape(shape, field)
def addlabels(self, fieldname, **kwargs):
'''
Add labels
:param fieldname: (*string*) Field name
:param fontname: (*string*) Font name. Default is ``Arial``.
:param fontsize: (*string*) Font size. Default is ``14``.
:param bold: (*boolean*) Font bold or not. Default is ``False``.
:param color: (*color*) Label color. Default is ``None`` with black color.
:param xoffset: (*int*) X coordinate offset. Default is ``0``.
:param yoffset: (*int*) Y coordinate offset. Default is ``0``.
:param avoidcoll: (*boolean*) Avoid labels collision or not. Default is ``True``.
:param decimals: (*int*) Number of decimals of labels.
'''
labelset = self.layer.getLabelSet()
labelset.setFieldName(fieldname)
fontname = kwargs.pop('fontname', 'Arial')
fontsize = kwargs.pop('fontsize', 14)
bold = kwargs.pop('bold', False)
if bold:
font = Font(fontname, Font.BOLD, fontsize)
else:
font = Font(fontname, Font.PLAIN, fontsize)
labelset.setLabelFont(font)
color = kwargs.pop('color', None)
if not color is None:
color = miutil.getcolor(color)
labelset.setLabelColor(color)
xoffset = kwargs.pop('xoffset', 0)
labelset.setXOffset(xoffset)
yoffset = kwargs.pop('yoffset', 0)
labelset.setYOffset(yoffset)
avoidcoll = kwargs.pop('avoidcoll', True)
labelset.setAvoidCollision(avoidcoll)
decimals = kwargs.pop('decimals', None)
if not decimals is None:
labelset.setAutoDecimal(False)
labelset.setDecimalDigits(decimals)
self.layer.addLabels()
def getlabel(self, text):
'''
Get a label.
:param text: (*string*) The label text.
'''
return self.layer.getLabel(text)
def movelabel(self, label, x=0, y=0):
'''
Move a label.
:param label: (*string*) The label text.
:param x: (*float*) X shift for moving in pixel unit.
:param y: (*float*) Y shift for moving in pixel unit.
'''
self.layer.moveLabel(label, x, y)
def add_charts(self, fieldnames, legend=None, **kwargs):
'''
Add charts
:param fieldnames: (*list of string*) Field name list.
:param legend: (*LegendScheme*) Chart legend.
:param charttype: (*string*) Chart type [bar | pie]. Default is ``bar``.
:param minsize: (*int*) Minimum chart size. Default is ``0``.
:param maxsize: (*int*) Maximum chart size. Default is ``50``.
:param barwidth: (*int*) Bar width. Only valid for bar chart. Default is ``8``.
:param xoffset: (*int*) X coordinate offset. Default is ``0``.
:param yoffset: (*int*) Y coordinate offset. Default is ``0``.
:param avoidcoll: (*boolean*) Avoid labels collision or not. Default is ``True``.
:param align: (*string*) Chart align type [center | left | right | none], Default is ``center``.
:param view3d: (*boolean*) Draw chart as 3D or not. Default is ``False``.
:param thickness: (*int*) 3D chart thickness. Default is ``5``.
:param drawlabel: (*boolean*) Draw label or not. Default is ``False``.
:param fontname: (*string*) Label font name.
:param fontsize: (*int*) Label font size.
:param bold: (*boolean*) Font bold or not. Default is ``False``.
:param labelcolor: (*color*) Label color.
:param decimals: (*int*) Number of decimals of labels.
'''
charttype = kwargs.pop('charttype', None)
minsize = kwargs.pop('minsize', None)
maxsize = kwargs.pop('maxsize', None)
barwidth = kwargs.pop('barwidth', None)
xoffset = kwargs.pop('xoffset', None)
yoffset = kwargs.pop('yoffset', None)
avoidcoll = kwargs.pop('avoidcoll', None)
align = kwargs.pop('align', None)
view3d = kwargs.pop('view3d', None)
thickness = kwargs.pop('thickness', None)
drawlabel = kwargs.pop('drawlabel', None)
fontname = kwargs.pop('fontname', 'Arial')
fontsize = kwargs.pop('fontsize', 12)
bold = kwargs.pop('bold', False)
if bold:
font = Font(fontname, Font.BOLD, fontsize)
else:
font = Font(fontname, Font.PLAIN, fontsize)
labelcolor = kwargs.pop('labelcolor', None)
decimals = kwargs.pop('decimals', None)
chartset = self.layer.getChartSet()
chartset.setFieldNames(fieldnames)
chartset.setLegendScheme(legend)
if not charttype is None:
chartset.setChartType(charttype)
if not minsize is None:
chartset.setMinSize(minsize)
if not maxsize is None:
chartset.setMaxSize(maxsize)
if not barwidth is None:
chartset.setBarWidth(barwidth)
if not xoffset is None:
chartset.setXShift(xoffset)
if not yoffset is None:
chartset.setYShift(yoffset)
if not avoidcoll is None:
chartset.setAvoidCollision(avoidcoll)
if not align is None:
chartset.setAlignType(align)
if not view3d is None:
chartset.setView3D(view3d)
if not thickness is None:
chartset.setThickness(thickness)
if not drawlabel is None:
chartset.setDrawLabel(drawlabel)
chartset.setLabelFont(font)
if not labelcolor is None:
chartset.setLabelColor(miutil.getcolor(labelcolor))
if not decimals is None:
chartset.setDecimalDigits(decimals)
self.layer.updateChartSet()
self.layer.addCharts()
return chartset
def get_chartlegend(self):
'''
Get legend of the chart graphics.
'''
return self.layer.getChartSet().getLegendScheme()
def get_chart(self, index):
'''
Get a chart graphic.
:param index: (*int*) Chart index.
:returns: Chart graphic
'''
return self.layer.getChartPoints()[index]
def move_chart(self, index, x=0, y=0):
'''
Move a chart graphic.
:param index: (*int*) Chart index.
:param x: (*float*) X shift for moving.
:param y: (*float*) Y shift for moving.
'''
s = self.layer.getChartPoints()[index].getShape()
p = s.getPoint()
p.X = p.X + x
p.Y = p.Y + y
s.setPoint(p)
def set_avoidcoll(self, avoidcoll):
'''
Set if avoid collision or not. Only valid for VectorLayer with Point shapes.
:param avoidcoll: (*boolean*) Avoid collision or not.
'''
self.layer.setAvoidCollision(avoidcoll)
def project(self, toproj):
'''
Project to another projection.
:param toproj: (*ProjectionInfo*) The projection to be projected.
'''
ProjectionUtil.projectLayer(self.layer, toproj)
def buffer(self, dist=0, merge=False):
'''
Get the buffer layer.
:param dist: (*float*) Buffer value.
:param merge: (*boolean*) Merge the buffered shapes or not.
:returns: (*MILayer*) Buffered layer.
'''
r = self.layer.buffer(dist, False, merge)
return MILayer(r)
def clip(self, clipobj):
'''
Clip this layer by polygon or another polygon layer.
:param clipobj: (*PolygonShape or MILayer*) Clip object.
:returns: (*MILayer*) Clipped layer.
'''
if isinstance(clipobj, PolygonShape):
clipobj = [clipobj]
elif isinstance(clipobj, MILayer):
clipobj = clipobj.layer
r = self.layer.clip(clipobj)
return MILayer(r)
def select(self, expression, seltype='new'):
'''
Select shapes by SQL expression.
:param expression: (*string*) SQL expression.
:param seltype: (*string*) Selection type ['new' | 'add_to_current' |
'remove_from_current' | 'select_from_current']
:returns: (*list of Shape*) Selected shape list.
'''
self.layer.sqlSelect(expression, seltype)
return self.layer.getSelectedShapes()
def clear_selection(self):
'''
Clear shape selection.
'''
self.layer.clearSelectedShapes()
def clone(self):
'''
Clone self.
'''
return MILayer(self.layer.clone())
def save(self, fn=None, encoding=None):
"""
Save layer as shape file.
:param fn: (*string*) Shape file name (.shp).
:param encoding: (*string*) Encoding.
"""
if fn is None:
fn = self.layer.getFileName()
if fn.strip() == '':
print 'File name is needed to save the layer!'
raise IOError
else:
if encoding is None:
self.layer.saveFile(fn)
else:
self.layer.saveFile(fn, encoding)
def savekml(self, fn):
"""
Save layer as KML file.
:param fn: (*string*) KML file name.
"""
self.layer.saveAsKMLFile(fn)