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from Thuban import _ |
from Thuban import _ |
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from wxPython.wx import wxMemoryDC, wxEmptyBitmap, \ |
from wxPython.wx import wxPoint, wxRect, wxPen, wxBrush, wxFont, \ |
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wxPoint, wxRect, wxPen, wxBrush, wxFont, \ |
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wxTRANSPARENT_PEN, wxTRANSPARENT_BRUSH, \ |
wxTRANSPARENT_PEN, wxTRANSPARENT_BRUSH, \ |
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wxBLACK_PEN, wxRED_PEN, wxBLACK, \ |
wxBLACK_PEN, wxBLACK, wxSOLID, wxCROSS_HATCH, wxSWISS, wxNORMAL, \ |
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wxSOLID, wxCROSS_HATCH, wxSWISS, wxNORMAL, \ |
wxBitmapFromImage, wxImageFromStream, wxBITMAP_TYPE_BMP |
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wxBitmap, wxImageFromBitmap, wxBitmapFromImage, \ |
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wxImageFromStream, wxBITMAP_TYPE_BMP |
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from wxproj import draw_polygon_shape, draw_polygon_init |
from wxproj import draw_polygon_shape, draw_polygon_init |
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from Thuban.UI.classifier import ClassDataPreviewer |
from Thuban.UI.classifier import ClassDataPreviewer |
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from Thuban.UI.scalebar import ScaleBar |
from Thuban.UI.scalebar import ScaleBar |
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from Thuban.Model.layer import Layer, RasterLayer |
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from Thuban.Model.data import SHAPETYPE_POLYGON, SHAPETYPE_ARC, SHAPETYPE_POINT |
from Thuban.Model.data import SHAPETYPE_POLYGON, SHAPETYPE_ARC, SHAPETYPE_POINT |
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from Thuban.Model.label import ALIGN_CENTER, ALIGN_TOP, ALIGN_BOTTOM, \ |
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ALIGN_LEFT, ALIGN_RIGHT, ALIGN_BASELINE |
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from Thuban.Model.classification import Classification |
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from Thuban.Model.color import Transparent |
from Thuban.Model.color import Transparent |
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import Thuban.Model.resource |
import Thuban.Model.resource |
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if Thuban.Model.resource.has_gdal_support(): |
from baserenderer import BaseRenderer |
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from gdalwarp import ProjectRasterFile |
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class MapRenderer: |
class MapRenderer(BaseRenderer): |
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"""Class to render a map onto a wxDC""" |
"""Class to render a map onto a wxDC""" |
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honor_visibility = 1 |
TRANSPARENT_PEN = wxTRANSPARENT_PEN |
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TRANSPARENT_BRUSH = wxTRANSPARENT_BRUSH |
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def __init__(self, dc, scale, offset, resolution = 72.0, |
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honor_visibility = None): |
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"""Inititalize the renderer. |
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dc -- the wxPython DC to render on |
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scale, offset -- the scale factor and translation to convert |
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between projected coordinates and the DC coordinates |
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resolution -- the assumed resolution of the DC. Used to convert |
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absolute lengths like font sizes to DC coordinates |
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honor_visibility -- boolean. If true, honor the visibility flag |
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of the layers, otherwise draw all layers. If None, use |
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the renderer's default. |
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""" |
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# resolution in pixel/inch |
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self.dc = dc |
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self.scale = scale |
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self.offset = offset |
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if honor_visibility is not None: |
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self.honor_visibility = honor_visibility |
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# store the resolution in pixel/point because it's more useful |
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# later. |
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self.resolution = resolution / 72.0 |
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def render_map(self, map): |
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self.map = map |
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seenRaster = True |
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self.dc.BeginDrawing() |
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# |
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# This is only a good optimization if there is only one |
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# raster layer and the image covers the entire window (as |
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# it currently does). We note if there is a raster layer |
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# and only begin drawing layers once we have drawn it. |
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# That way we avoid drawing layers that won't be seen. |
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# |
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if Thuban.Model.resource.has_gdal_support(): |
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for layer in map.Layers(): |
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if isinstance(layer, RasterLayer) and layer.Visible(): |
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seenRaster = False |
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break |
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for layer in map.Layers(): |
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# if honor_visibility is true, only draw visible layers, |
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# otherwise draw all layers |
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if not self.honor_visibility or layer.Visible(): |
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if isinstance(layer, Layer) and seenRaster: |
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self.draw_shape_layer(layer) |
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elif isinstance(layer, RasterLayer) \ |
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and Thuban.Model.resource.has_gdal_support(): |
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self.draw_raster_layer(layer) |
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seenRaster = True |
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self.draw_label_layer(map.LabelLayer()) |
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self.dc.EndDrawing() |
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def draw_shape_layer(self, layer): |
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scale = self.scale |
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offx, offy = self.offset |
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map_proj = self.map.projection |
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layer_proj = layer.projection |
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shapetype = layer.ShapeType() |
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brush = wxTRANSPARENT_BRUSH |
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pen = wxTRANSPARENT_PEN |
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old_prop = None |
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old_group = None |
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lc = layer.GetClassification() |
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field = layer.GetClassificationColumn() |
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defaultGroup = lc.GetDefaultGroup() |
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make_point = wxPoint |
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def tools_for_property(self, prop): |
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if shapetype == SHAPETYPE_POINT: |
fill = prop.GetFill() |
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draw_func = self.draw_point_shape |
if fill is Transparent: |
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draw_func_param = layer |
brush = self.TRANSPARENT_BRUSH |
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else: |
else: |
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draw_func = draw_polygon_shape |
brush = wxBrush(Color2wxColour(fill), wxSOLID) |
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draw_func_param = self.polygon_render_param(layer) |
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table = layer.ShapeStore().Table() |
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for i in self.layer_ids(layer): |
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if field is None: |
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group = defaultGroup |
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else: |
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record = table.ReadRowAsDict(i) |
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assert record is not None |
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group = lc.FindGroup(record[field]) |
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if not group.IsVisible(): |
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continue |
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# don't recreate new objects if they are the same as before |
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if group is not old_group: |
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old_group = group |
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prop = group.GetProperties() |
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if prop != old_prop: |
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old_prop = prop |
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if shapetype == SHAPETYPE_ARC: |
stroke = prop.GetLineColor() |
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fill = Transparent |
if stroke is Transparent: |
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else: |
pen = self.TRANSPARENT_PEN |
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fill = prop.GetFill() |
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if fill is Transparent: |
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brush = wxTRANSPARENT_BRUSH |
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else: |
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color = Color2wxColour(fill) |
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brush = wxBrush(color, wxSOLID) |
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stroke = prop.GetLineColor() |
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stroke_width = prop.GetLineWidth() |
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if stroke is Transparent: |
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pen = wxTRANSPARENT_PEN |
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else: |
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color = Color2wxColour(stroke) |
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pen = wxPen(color, stroke_width, wxSOLID) |
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draw_func(draw_func_param, i, pen, brush) |
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def draw_raster_layer(self, layer): |
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data = None |
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offx, offy = self.offset |
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width, height = self.dc.GetSizeTuple() |
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inProj = "" |
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proj = layer.GetProjection() |
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if proj is not None: |
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for p in proj.GetAllParameters(): |
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inProj += "+" + p + " " |
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outProj = "" |
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proj = self.map.GetProjection() |
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if proj is not None: |
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for p in proj.GetAllParameters(): |
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outProj += "+" + p + " " |
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xmin = (0 - offx) / self.scale |
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ymin = (offy - height) / self.scale |
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xmax = (width - offx) / self.scale |
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ymax = (offy - 0) / self.scale |
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try: |
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data = ProjectRasterFile( |
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layer.GetImageFilename(), |
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inProj, |
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outProj, |
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(xmin, ymin, xmax, ymax), |
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"", (width, height)) |
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except IOError, (strerr): |
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print strerr |
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except (AttributeError, ValueError): |
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pass |
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else: |
else: |
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if data is not None: |
pen = wxPen(Color2wxColour(stroke), prop.GetLineWidth(), wxSOLID) |
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stream = cStringIO.StringIO(data) |
return pen, brush |
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image = wxImageFromStream(stream, wxBITMAP_TYPE_BMP) |
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bitmap = wxBitmapFromImage(image) |
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self.dc.DrawBitmap(bitmap, 0, 0) |
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def layer_ids(self, layer): |
def low_level_renderer(self, layer): |
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"""Return the shape ids of the given layer that have to be drawn. |
"""Override inherited method to provide more efficient renderers |
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The default implementation simply returns all ids in the layer. |
For point shapes, return self.draw_point_shape and layer just as |
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Override in derived classes to be more precise. |
the base class method. For arc and polygon use the more |
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efficient wxproj.draw_polygon_shape and its corresponding |
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parameter created with wxproj.draw_polygon_init. |
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""" |
""" |
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return range(layer.NumShapes()) |
shapetype = layer.ShapeType() |
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if shapetype == SHAPETYPE_POINT: |
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def polygon_render_param(self, layer): |
func = self.draw_point_shape |
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"""Return the low-lever render parameter for the layer""" |
param = layer |
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offx, offy = self.offset |
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return draw_polygon_init(layer.ShapeStore().Shapefile(), self.dc, |
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self.map.projection, |
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layer.projection, |
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self.scale, -self.scale, |
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offx, offy) |
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def draw_polygon_shape(self, draw_polygon_info, index, pen, brush): |
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draw_polygon_shape(draw_polygon_info, index, pen, brush) |
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def projected_points(self, layer, index): |
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proj = self.map.GetProjection() |
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if proj is not None: |
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forward = proj.Forward |
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else: |
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forward = None |
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proj = layer.GetProjection() |
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if proj is not None: |
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inverse = proj.Inverse |
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else: |
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inverse = None |
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shape = layer.Shape(index) |
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points = [] |
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scale = self.scale |
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offx, offy = self.offset |
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for x, y in shape.Points(): |
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if inverse: |
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x, y = inverse(x, y) |
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if forward: |
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x, y = forward(x, y) |
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points.append(wxPoint(x * scale + offx, |
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-y * scale + offy)) |
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return points |
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def draw_arc_shape(self, layer, index): |
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points = self.projected_points(layer, index) |
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self.dc.DrawLines(points) |
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def draw_point_shape(self, layer, index, pen, brush): |
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pp = self.projected_points(layer, index) |
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if len(pp) == 0: return # ignore Null Shapes which have no points |
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p = pp[0] |
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radius = self.resolution * 5 |
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self.dc.SetBrush(brush) |
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self.dc.SetPen(pen) |
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self.dc.DrawEllipse(p.x - radius, p.y - radius, 2*radius, 2*radius) |
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def draw_label_layer(self, layer): |
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scale = self.scale |
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offx, offy = self.offset |
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font = wxFont(self.resolution * 10, wxSWISS, wxNORMAL, wxNORMAL) |
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self.dc.SetFont(font) |
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map_proj = self.map.projection |
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if map_proj is not None: |
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forward = map_proj.Forward |
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else: |
else: |
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forward = None |
offx, offy = self.offset |
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param = draw_polygon_init(layer.ShapeStore().Shapefile(), self.dc, |
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for label in layer.Labels(): |
self.map.projection, |
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x = label.x |
layer.projection, |
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y = label.y |
self.scale, -self.scale, |
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text = label.text |
offx, offy) |
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if forward: |
func = draw_polygon_shape |
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x, y = forward(x, y) |
return func, param |
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x = x * scale + offx |
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y = -y * scale + offy |
def label_font(self): |
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width, height = self.dc.GetTextExtent(text) |
return wxFont(self.resolution * 10, wxSWISS, wxNORMAL, wxNORMAL) |
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if label.halign == ALIGN_LEFT: |
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# nothing to be done |
def draw_raster_data(self, data): |
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pass |
stream = cStringIO.StringIO(data) |
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elif label.halign == ALIGN_RIGHT: |
image = wxImageFromStream(stream, wxBITMAP_TYPE_BMP) |
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x = x - width |
bitmap = wxBitmapFromImage(image) |
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elif label.halign == ALIGN_CENTER: |
self.dc.DrawBitmap(bitmap, 0, 0) |
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x = x - width/2 |
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if label.valign == ALIGN_TOP: |
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# nothing to be done |
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pass |
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elif label.valign == ALIGN_BOTTOM: |
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y = y - height |
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elif label.valign == ALIGN_CENTER: |
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y = y - height/2 |
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self.dc.DrawText(text, x, y) |
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class ScreenRenderer(MapRenderer): |
class ScreenRenderer(MapRenderer): |
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# On the screen we want to see only visible layers by default |
# On the screen we want to see only visible layers by default |
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honor_visibility = 1 |
honor_visibility = 1 |
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def RenderMap(self, map, region, selected_layer, selected_shapes): |
def RenderMap(self, map, region, selected_layer, selected_shapes): |
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"""Render the map. |
"""Render the map. |
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brush = wxBrush(wxBLACK, wxCROSS_HATCH) |
brush = wxBrush(wxBLACK, wxCROSS_HATCH) |
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shapetype = layer.ShapeType() |
shapetype = layer.ShapeType() |
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if shapetype == SHAPETYPE_POLYGON: |
func, param = self.low_level_renderer(layer) |
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offx, offy = self.offset |
args = (pen, brush) |
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renderparam = self.polygon_render_param(layer) |
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func = self.draw_polygon_shape |
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args = (pen, brush) |
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elif shapetype == SHAPETYPE_ARC: |
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renderparam = self.polygon_render_param(layer) |
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func = self.draw_polygon_shape |
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args = (pen, None) |
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elif shapetype == SHAPETYPE_POINT: |
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renderparam = layer |
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func = self.draw_point_shape |
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args = (pen, brush) |
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else: |
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raise TypeError(_("Unhandled shape type %s") % shapetype) |
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for index in self.selected_shapes: |
for index in self.selected_shapes: |
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func(renderparam, index, *args) |
func(param, index, *args) |
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def layer_ids(self, layer): |
def layer_ids(self, layer): |
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"""Return the shapeids covered by the region that has to be redrawn |
"""Return the shapeids covered by the region that has to be redrawn |
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class ExportRenderer(ScreenRenderer): |
class ExportRenderer(ScreenRenderer): |
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honor_visibility = 1 |
honor_visibility = 1 |
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def RenderMap(self, map, region, mapregion, |
def RenderMap(self, map, region, mapregion, |
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selected_layer, selected_shapes ): |
selected_layer, selected_shapes ): |
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"""Render the map. |
"""Render the map. |
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The rendering device has been specified during initialisation. |
The rendering device has been specified during initialisation. |
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The device border distance was set in Thuban.UI.view.OutputTranform(). |
The device border distance was set in Thuban.UI.view.OutputTranform(). |
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RenderMap renders a frame set (one page frame, one around |
RenderMap renders a frame set (one page frame, one around |
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legend/scalebar and one around the map), the map, the legend and the |
legend/scalebar and one around the map), the map, the legend and the |
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scalebar on the given DC. The map is rendered with the region displayed |
scalebar on the given DC. The map is rendered with the region displayed |
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in the canvas view, centered on the area available for map display. |
in the canvas view, centered on the area available for map display. |
| 172 |
""" |
""" |
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self.update_region = region |
self.update_region = region |
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self.selected_layer = selected_layer |
self.selected_layer = selected_layer |
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self.selected_shapes = selected_shapes |
self.selected_shapes = selected_shapes |
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| 178 |
# Get some dimensions |
# Get some dimensions |
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llx, lly, urx, ury = region |
llx, lly, urx, ury = region |
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self.mapregion = mapregion |
self.mapregion = mapregion |
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mminx, mminy, mmaxx, mmaxy = self.mapregion |
mminx, mminy, mmaxx, mmaxy = self.mapregion |
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| 183 |
# Manipulate the offset to position the map |
# Manipulate the offset to position the map |
| 184 |
offx, offy = self.offset |
offx, offy = self.offset |
| 185 |
# 1. Shift to corner of map drawing area |
# 1. Shift to corner of map drawing area |
| 186 |
offx = offx + mminx |
offx = offx + mminx |
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offy = offy + mminy |
offy = offy + mminy |
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| 189 |
# 2. Center the map on the map drawing area: |
# 2. Center the map on the map drawing area: |
| 190 |
# region identifies the region on the canvas view: |
# region identifies the region on the canvas view: |
| 191 |
# center of map drawing area - half the size of region: rendering origin |
# center of map drawing area - half the size of region: rendering origin |
| 192 |
self.shiftx = (mmaxx - mminx)*0.5 - (urx - llx)*0.5 |
self.shiftx = (mmaxx - mminx)*0.5 - (urx - llx)*0.5 |
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self.shifty = (mmaxy - mminy)*0.5 - (ury - lly)*0.5 |
self.shifty = (mmaxy - mminy)*0.5 - (ury - lly)*0.5 |
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# Draw the map |
# Draw the map |
| 198 |
self.dc.BeginDrawing() |
self.dc.BeginDrawing() |
| 199 |
self.dc.DestroyClippingRegion() |
self.dc.DestroyClippingRegion() |
| 200 |
self.dc.SetClippingRegion(mminx+self.shiftx, mminy+self.shifty, |
self.dc.SetClippingRegion(mminx+self.shiftx, mminy+self.shifty, |
| 201 |
urx, ury) |
urx, ury) |
| 202 |
self.render_map(map) |
self.render_map(map) |
| 203 |
self.dc.EndDrawing() |
self.dc.EndDrawing() |
| 228 |
|
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| 229 |
# Page Frame |
# Page Frame |
| 230 |
dc.DrawRectangle(15,15,width-30, (mmaxy-mminy)+10) |
dc.DrawRectangle(15,15,width-30, (mmaxy-mminy)+10) |
| 231 |
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| 232 |
# Map Frame |
# Map Frame |
| 233 |
llx, lly, urx, ury = region |
llx, lly, urx, ury = region |
| 234 |
dc.DrawRectangle(mminx + self.shiftx, mminy + self.shifty, urx, ury) |
dc.DrawRectangle(mminx + self.shiftx, mminy + self.shifty, urx, ury) |
| 235 |
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| 236 |
# Legend Frame |
# Legend Frame |
| 237 |
dc.DrawRectangle(mmaxx+10,mminy,(width-20) - (mmaxx+10), mmaxy-mminy) |
dc.DrawRectangle(mmaxx+10,mminy,(width-20) - (mmaxx+10), mmaxy-mminy) |
| 238 |
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|
| 256 |
iconheight = textheight |
iconheight = textheight |
| 257 |
stepy = textheight+3 |
stepy = textheight+3 |
| 258 |
dx = 10 |
dx = 10 |
| 259 |
posx = mmaxx + 10 + 5 # 10 pix distance mapframe/legend frame, |
posx = mmaxx + 10 + 5 # 10 pix distance mapframe/legend frame, |
| 260 |
# 5 pix inside legend frame |
# 5 pix inside legend frame |
| 261 |
posy = mminy + 5 # 5 pix inside legend frame |
posy = mminy + 5 # 5 pix inside legend frame |
| 262 |
|
|
| 263 |
# Render the legend |
# Render the legend |
| 264 |
dc.SetTextForeground(wxBLACK) |
dc.SetTextForeground(wxBLACK) |
| 265 |
if map.HasLayers(): |
if map.HasLayers(): |
| 276 |
shapeType = l.ShapeType() |
shapeType = l.ShapeType() |
| 277 |
for g in clazz: |
for g in clazz: |
| 278 |
if g.IsVisible(): |
if g.IsVisible(): |
| 279 |
previewer.Draw(dc, |
previewer.Draw(dc, |
| 280 |
wxRect(posx+dx, posy, |
wxRect(posx+dx, posy, |
| 281 |
iconwidth, iconheight), |
iconwidth, iconheight), |
| 282 |
g.GetProperties(), shapeType) |
g.GetProperties(), shapeType) |
| 283 |
dc.DrawText(g.GetDisplayText(), |
dc.DrawText(g.GetDisplayText(), |
| 284 |
posx+2*dx+iconwidth, posy) |
posx+2*dx+iconwidth, posy) |
| 285 |
posy+=stepy |
posy+=stepy |
| 286 |
|
|
| 287 |
def render_scalebar(self, map): |
def render_scalebar(self, map): |
| 288 |
"""Render the scalebar.""" |
"""Render the scalebar.""" |
| 289 |
|
|
| 292 |
# Dimension stuff |
# Dimension stuff |
| 293 |
width, height = self.dc.GetSizeTuple() |
width, height = self.dc.GetSizeTuple() |
| 294 |
mminx, mminy, mmaxx, mmaxy = self.mapregion |
mminx, mminy, mmaxx, mmaxy = self.mapregion |
| 295 |
|
|
| 296 |
# Render the scalebar |
# Render the scalebar |
| 297 |
scalebar.DrawScaleBar(self.scale, self.dc, |
scalebar.DrawScaleBar(self.scale, self.dc, |
| 298 |
(mmaxx+10+5, mmaxy-25), |
(mmaxx+10+5, mmaxy-25), |
| 299 |
((width-15-5) - (mmaxx+10+5),20) |
((width-15-5) - (mmaxx+10+5),20) |
| 300 |
) |
) |
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