Thuban/UI/renderer.py

# Copyright (c) 2001, 2002, 2003 by Intevation GmbH
# Authors:
# Bernhard Herzog <[email protected]>
# Jonathan Coles <[email protected]>
# Frank Koormann <[email protected]>
#
# This program is free software under the GPL (>=v2)
# Read the file COPYING coming with Thuban for details.

__version__ = "$Revision$"

import cStringIO

from Thuban import _

from wxPython.wx import wxMemoryDC, wxEmptyBitmap, \
    wxPoint, wxRect, wxPen, wxBrush, wxFont, \
    wxTRANSPARENT_PEN, wxTRANSPARENT_BRUSH, \
    wxBLACK_PEN, wxRED_PEN, wxBLACK, \
    wxSOLID, wxCROSS_HATCH, wxSWISS, wxNORMAL, \
    wxBitmap, wxImageFromBitmap, wxBitmapFromImage, \
    wxImageFromStream, wxBITMAP_TYPE_BMP

from wxproj import draw_polygon_shape, draw_polygon_init

from Thuban.UI.common import Color2wxColour
from Thuban.UI.classifier import ClassDataPreviewer
from Thuban.UI.scalebar import ScaleBar

from Thuban.Model.layer import Layer, RasterLayer, \
     SHAPETYPE_POLYGON, SHAPETYPE_ARC, SHAPETYPE_POINT
from Thuban.Model.label import ALIGN_CENTER, ALIGN_TOP, ALIGN_BOTTOM, \
     ALIGN_LEFT, ALIGN_RIGHT, ALIGN_BASELINE

from Thuban.Model.classification import Classification
from Thuban.Model.color import Transparent
import Thuban.Model.resource

if Thuban.Model.resource.has_gdal_support():
    from gdalwarp import ProjectRasterFile

class MapRenderer:

    """Class to render a map onto a wxDC"""

    honor_visibility = 1

    def __init__(self, dc, scale, offset, resolution = 72.0,
                 honor_visibility = None):
        """Inititalize the renderer.

        dc -- the wxPython DC to render on
        scale, offset -- the scale factor and translation to convert
                between projected coordinates and the DC coordinates

        resolution -- the assumed resolution of the DC. Used to convert
                absolute lengths like font sizes to DC coordinates

        honor_visibility -- boolean. If true, honor the visibility flag
                of the layers, otherwise draw all layers. If None, use
                the renderer's default.
        """
        # resolution in pixel/inch

        self.dc = dc
        self.scale = scale
        self.offset = offset
        if honor_visibility is not None:
            self.honor_visibility = honor_visibility
        # store the resolution in pixel/point because it's more useful
        # later.
        self.resolution = resolution / 72.0

    def render_map(self, map):
        self.map = map
        seenRaster = True

        if self.scale == 0:
            return

        #
        # This is only a good optimization if there is only one
        # raster layer and the image covers the entire window (as
        # it currently does). We note if there is a raster layer
        # and only begin drawing layers once we have drawn it. 
        # That way we avoid drawing layers that won't be seen.
        #
        if Thuban.Model.resource.has_gdal_support():
            for layer in map.Layers():
                if isinstance(layer, RasterLayer) and layer.Visible():
                    seenRaster = False
                    break

        for layer in map.Layers():
            # if honor_visibility is true, only draw visible layers,
            # otherwise draw all layers
            if not self.honor_visibility or layer.Visible():
                if isinstance(layer, Layer) and seenRaster:
                    self.draw_shape_layer(layer)
                elif isinstance(layer, RasterLayer) \
                    and Thuban.Model.resource.has_gdal_support():
                    self.draw_raster_layer(layer)
                    seenRaster = True

        self.draw_label_layer(map.LabelLayer())

    def draw_shape_layer(self, layer):
        scale = self.scale
        offx, offy = self.offset

        map_proj = self.map.projection
        layer_proj = layer.projection

        shapetype = layer.ShapeType()

        brush = wxTRANSPARENT_BRUSH
        pen   = wxTRANSPARENT_PEN

        old_prop = None
        old_group = None
        lc = layer.GetClassification()
        field = layer.GetClassificationColumn()
        defaultGroup = lc.GetDefaultGroup()


        if shapetype == SHAPETYPE_POINT:
            draw_func = self.draw_point_shape
            draw_func_param = layer
        else:
            draw_func = draw_polygon_shape
            draw_func_param = self.polygon_render_param(layer)

        table = layer.ShapeStore().Table()
        for i in self.layer_ids(layer):

            if field is None:
                group = defaultGroup
            else:
                record = table.ReadRowAsDict(i)
                assert record is not None
                group = lc.FindGroup(record[field])


            if not group.IsVisible():
                continue


            # don't recreate new objects if they are the same as before
            if group is not old_group:
                old_group = group

                prop = group.GetProperties()

                if prop != old_prop:
                    old_prop = prop

                    if shapetype == SHAPETYPE_ARC:
                        fill = Transparent
                    else:
                        fill = prop.GetFill()


                    if fill is Transparent:
                        brush = wxTRANSPARENT_BRUSH
                    else:
                        color = Color2wxColour(fill)
                        brush = wxBrush(color, wxSOLID)

                    stroke = prop.GetLineColor()
                    stroke_width = prop.GetLineWidth()
                    if stroke is Transparent:
                        pen = wxTRANSPARENT_PEN
                    else:
                        color = Color2wxColour(stroke)
                        pen = wxPen(color, stroke_width, wxSOLID)

            draw_func(draw_func_param, i, pen, brush)

    def draw_raster_layer(self, layer):
        data = None
        offx, offy = self.offset
        width, height = self.dc.GetSizeTuple()

        inProj = ""
        proj = layer.GetProjection()
        if proj is not None:
            for p in proj.GetAllParameters():
                inProj += "+" + p + " "

        outProj = ""
        proj = self.map.GetProjection()
        if proj is not None:
            for p in proj.GetAllParameters():
                outProj += "+" + p + " "

        xmin = (0 - offx) / self.scale
        ymin = (offy - height) / self.scale
        xmax = (width - offx) / self.scale
        ymax = (offy - 0) / self.scale

        try:
            data = ProjectRasterFile(
                layer.GetImageFilename(),
                inProj,
                outProj,
                (xmin, ymin, xmax, ymax), 
                "", (width, height))
        except IOError, (strerr):
            print strerr
        except (AttributeError, ValueError):
            pass
        else:
            if data is not None:
                stream = cStringIO.StringIO(data)
                image = wxImageFromStream(stream, wxBITMAP_TYPE_BMP)
                bitmap = wxBitmapFromImage(image)
                self.dc.BeginDrawing()
                self.dc.DrawBitmap(bitmap, 0, 0)
                self.dc.EndDrawing()

    def layer_ids(self, layer):
        """Return the shape ids of the given layer that have to be drawn.

        The default implementation simply returns all ids in the layer.
        Override in derived classes to be more precise.
        """
        return range(layer.NumShapes())

    def polygon_render_param(self, layer):
        """Return the low-lever render parameter for the layer"""
        offx, offy = self.offset
        return draw_polygon_init(layer.ShapeStore().Shapefile(), self.dc,
                                 self.map.projection,
                                 layer.projection,
                                 self.scale, -self.scale,
                                 offx, offy)

    def draw_polygon_shape(self, draw_polygon_info, index, pen, brush):
        draw_polygon_shape(draw_polygon_info, index, pen, brush)

    def projected_points(self, layer, index):
        proj = self.map.GetProjection()
        if proj is not None:
            forward = proj.Forward
        else:
            forward = None
        proj = layer.GetProjection()
        if proj is not None:
            inverse = proj.Inverse
        else:
            inverse = None
        shape = layer.Shape(index)
        points = []
        scale = self.scale
        offx, offy = self.offset
        for x, y in shape.Points():
            if inverse:
                x, y = inverse(x, y)
            if forward:
                x, y = forward(x, y)
            points.append(wxPoint(x * scale + offx,
                                  -y * scale + offy))
        return points

    def draw_arc_shape(self, layer, index):
        points = self.projected_points(layer, index)
        self.dc.DrawLines(points)

    def draw_point_shape(self, layer, index, pen, brush):
        pp = self.projected_points(layer, index)

        if len(pp) == 0: return # ignore Null Shapes which have no points

        p = pp[0]
        radius = self.resolution * 5
        self.dc.SetBrush(brush)
        self.dc.SetPen(pen)
        self.dc.DrawEllipse(p.x - radius, p.y - radius, 2*radius, 2*radius)

    def draw_label_layer(self, layer):
        scale = self.scale
        offx, offy = self.offset

        font = wxFont(self.resolution * 10, wxSWISS, wxNORMAL, wxNORMAL)
        self.dc.SetFont(font)

        map_proj = self.map.projection
        if map_proj is not None:
            forward = map_proj.Forward
        else:
            forward = None

        for label in layer.Labels():
            x = label.x
            y = label.y
            text = label.text
            if forward:
                x, y = forward(x, y)
            x = x * scale + offx
            y = -y * scale + offy
            width, height = self.dc.GetTextExtent(text)
            if label.halign == ALIGN_LEFT:
                # nothing to be done
                pass
            elif label.halign == ALIGN_RIGHT:
                x = x - width
            elif label.halign == ALIGN_CENTER:
                x = x - width/2
            if label.valign == ALIGN_TOP:
                # nothing to be done
                pass
            elif label.valign == ALIGN_BOTTOM:
                y = y - height
            elif label.valign == ALIGN_CENTER:
                y = y - height/2
            self.dc.DrawText(text, x, y)


class ScreenRenderer(MapRenderer):

    # On the screen we want to see only visible layers by default
    honor_visibility = 1
    
    def RenderMap(self, map, region, selected_layer, selected_shapes):
        """Render the map.

        Only the given region (a tuple in window coordinates as returned
        by a wxrect's asTuple method) needs to be redrawn. Highlight the
        shapes given by the ids in selected_shapes in the
        selected_layer.
        """
        self.update_region = region
        self.selected_layer = selected_layer
        self.selected_shapes = selected_shapes
        self.render_map(map)

    def draw_shape_layer(self, layer):
        MapRenderer.draw_shape_layer(self, layer)
        if layer is self.selected_layer and self.selected_shapes:
            pen = wxPen(wxBLACK, 3, wxSOLID)
            brush = wxBrush(wxBLACK, wxCROSS_HATCH)

            shapetype = layer.ShapeType()
            if shapetype == SHAPETYPE_POLYGON:
                offx, offy = self.offset
                renderparam = self.polygon_render_param(layer)
                func = self.draw_polygon_shape
                args = (pen, brush)
            elif shapetype == SHAPETYPE_ARC:
                renderparam = self.polygon_render_param(layer)
                func = self.draw_polygon_shape
                args = (pen, None)
            elif shapetype == SHAPETYPE_POINT:
                renderparam = layer
                self.dc.SetBrush(brush)
                self.dc.SetPen(pen)
                func = self.draw_point_shape
                args = ()
            else:
                raise TypeError(_("Unhandled shape type %s") % shapetype)

            for index in self.selected_shapes:
                func(renderparam, index, *args)


    def layer_ids(self, layer):
        """Return the shapeids covered by the region that has to be redrawn

        Call the layer's ShapesInRegion method to determine the ids so
        that it can use the quadtree.
        """
        # FIXME: the quad-tree should be built from the projected
        # coordinates not the lat-long ones because it's not trivial to
        # determine an appropriate rectangle in lat-long for a given
        # rectangle in projected coordinates which we have to start from
        # here.
        proj = self.map.projection
        if proj is not None:
            inverse = proj.Inverse
        else:
            inverse = None

        scale = self.scale
        offx, offy = self.offset
        xs = []
        ys = []
        x, y, width, height = self.update_region
        for winx, winy in ((x, y), (x + width, y),
                           (x + width, y + height), (x, y + height)):
            px = (winx - offx) / scale
            py = -(winy - offy) / scale
            if inverse:
                px, py = inverse(px, py)
            xs.append(px)
            ys.append(py)
        left = min(xs)
        right = max(xs)
        top = max(ys)
        bottom = min(ys)

        return layer.ShapesInRegion((left, bottom, right, top))


class ExportRenderer(ScreenRenderer):

    honor_visibility = 1
    
    def RenderMap(self, map, region, mapregion, 
                  selected_layer, selected_shapes ):
        """Render the map.

        The rendering device has been specified during initialisation.
        The device border distance was set in Thuban.UI.view.OutputTranform().
        
        RenderMap renders a frame set (one page frame, one around
        legend/scalebar and one around the map), the map, the legend and the 
        scalebar on the given DC. The map is rendered with the region displayed
        in the canvas view, centered on the area available for map display.
        """
        
        self.update_region = region
        self.selected_layer = selected_layer
        self.selected_shapes = selected_shapes

        # Get some dimensions 
        llx, lly, urx, ury = region
        self.mapregion = mapregion
        mminx, mminy, mmaxx, mmaxy = self.mapregion

        # Manipulate the offset to position the map 
        offx, offy = self.offset
        # 1. Shift to corner of map drawing area
        offx = offx + mminx 
        offy = offy + mminy

        # 2. Center the map on the map drawing area:
        # region identifies the region on the canvas view: 
        # center of map drawing area - half the size of region: rendering origin
        self.shiftx = (mmaxx - mminx)*0.5 - (urx - llx)*0.5
        self.shifty = (mmaxy - mminy)*0.5 - (ury - lly)*0.5

        self.offset = (offx+self.shiftx, offy+self.shifty)

        # Draw the map
        self.dc.BeginDrawing()
        self.dc.DestroyClippingRegion()
        self.dc.SetClippingRegion(mminx+self.shiftx, mminy+self.shifty, 
                                  urx, ury)
        self.render_map(map)
        self.dc.EndDrawing()

        # Draw the rest (frames, legend, scalebar)
        self.dc.BeginDrawing()
        self.dc.DestroyClippingRegion()

        # Force the font for Legend drawing
        font = wxFont(self.resolution * 10, wxSWISS, wxNORMAL, wxNORMAL)
        self.dc.SetFont(font)

        self.render_frame(region)
        self.render_legend(map)
        self.render_scalebar(map)
        self.dc.EndDrawing()

    def render_frame(self, region):
        """Render the frames for map and legend/scalebar."""

        dc = self.dc
        dc.SetPen(wxBLACK_PEN)
        dc.SetBrush(wxTRANSPARENT_BRUSH)

        # Dimension stuff
        width, height = dc.GetSizeTuple()
        mminx, mminy, mmaxx, mmaxy = self.mapregion

        # Page Frame
        dc.DrawRectangle(15,15,width-30, (mmaxy-mminy)+10)
        
        # Map Frame
        llx, lly, urx, ury = region
        dc.DrawRectangle(mminx + self.shiftx, mminy + self.shifty, urx, ury)
        
        # Legend Frame
        dc.DrawRectangle(mmaxx+10,mminy,(width-20) - (mmaxx+10), mmaxy-mminy)

        dc.DestroyClippingRegion()
        dc.SetClippingRegion(mmaxx+10,mminy,
                             (width-20) - (mmaxx+10), mmaxy-mminy)

    def render_legend(self, map):
        """Render the legend on the Map."""

        previewer = ClassDataPreviewer()
        dc = self.dc
        dc.SetPen(wxBLACK_PEN)
        dc.SetBrush(wxTRANSPARENT_BRUSH)

        # Dimension stuff
        width, height = dc.GetSizeTuple()
        mminx, mminy, mmaxx, mmaxy = self.mapregion
        textwidth, textheight = dc.GetTextExtent("0")
        iconwidth  = textheight
        iconheight = textheight
        stepy = textheight+3
        dx = 10
        posx = mmaxx + 10 + 5   # 10 pix distance mapframe/legend frame, 
                                # 5 pix inside legend frame
        posy = mminy + 5        # 5 pix inside legend frame
        
        # Render the legend
        dc.SetTextForeground(wxBLACK)
        if map.HasLayers():
            layers = map.Layers()
            layers.reverse()
            for l in layers:
                if l.Visible():
                    # Render title
                    dc.DrawText(l.Title(), posx, posy)
                    posy+=stepy
                    if l.HasClassification():
                        # Render classification
                        clazz = l.GetClassification()
                        shapeType = l.ShapeType()
                        for g in clazz:
                            if g.IsVisible():
                                previewer.Draw(dc, 
                                    wxRect(posx+dx, posy, 
                                           iconwidth, iconheight), 
                                    g.GetProperties(), shapeType)
                                dc.DrawText(g.GetDisplayText(), 
                                            posx+2*dx+iconwidth, posy)
                                posy+=stepy
        
    def render_scalebar(self, map):
        """Render the scalebar."""

        scalebar = ScaleBar(map)

        # Dimension stuff
        width, height = self.dc.GetSizeTuple()
        mminx, mminy, mmaxx, mmaxy = self.mapregion
       
        # Render the scalebar
        scalebar.DrawScaleBar(self.scale, self.dc, 
                             (mmaxx+10+5, mmaxy-25),
                             ((width-15-5) - (mmaxx+10+5),20)
                            )
        # 10 pix between map and legend frame, 5 pix inside legend frame
        # 25 pix from the legend frame bottom line
        # Width: 15 pix from DC border, 5 pix inside frame, 10, 5 as above
        # Height: 20

class PrinterRenderer(ExportRenderer):

    # Printing as well as Export / Screen display only the visible layer.
    honor_visibility = 1

1	# Copyright (c) 2001, 2002, 2003 by Intevation GmbH
2	# Authors:
3	# Bernhard Herzog <[email protected]>
4	# Jonathan Coles <[email protected]>
5	# Frank Koormann <[email protected]>
6	#
7	# This program is free software under the GPL (>=v2)
8	# Read the file COPYING coming with Thuban for details.
9
10	__version__ = "$Revision$"
11
12	import cStringIO
13
14	from Thuban import _
15
16	from wxPython.wx import wxMemoryDC, wxEmptyBitmap, \
17	wxPoint, wxRect, wxPen, wxBrush, wxFont, \
18	wxTRANSPARENT_PEN, wxTRANSPARENT_BRUSH, \
19	wxBLACK_PEN, wxRED_PEN, wxBLACK, \
20	wxSOLID, wxCROSS_HATCH, wxSWISS, wxNORMAL, \
21	wxBitmap, wxImageFromBitmap, wxBitmapFromImage, \
22	wxImageFromStream, wxBITMAP_TYPE_BMP
23
24	from wxproj import draw_polygon_shape, draw_polygon_init
25
26	from Thuban.UI.common import Color2wxColour
27	from Thuban.UI.classifier import ClassDataPreviewer
28	from Thuban.UI.scalebar import ScaleBar
29
30	from Thuban.Model.layer import Layer, RasterLayer, \
31	SHAPETYPE_POLYGON, SHAPETYPE_ARC, SHAPETYPE_POINT
32	from Thuban.Model.label import ALIGN_CENTER, ALIGN_TOP, ALIGN_BOTTOM, \
33	ALIGN_LEFT, ALIGN_RIGHT, ALIGN_BASELINE
34
35	from Thuban.Model.classification import Classification
36	from Thuban.Model.color import Transparent
37	import Thuban.Model.resource
38
39	if Thuban.Model.resource.has_gdal_support():
40	from gdalwarp import ProjectRasterFile
41
42	class MapRenderer:
43
44	"""Class to render a map onto a wxDC"""
45
46	honor_visibility = 1
47
48	def __init__(self, dc, scale, offset, resolution = 72.0,
49	honor_visibility = None):
50	"""Inititalize the renderer.
51
52	dc -- the wxPython DC to render on
53	scale, offset -- the scale factor and translation to convert
54	between projected coordinates and the DC coordinates
55
56	resolution -- the assumed resolution of the DC. Used to convert
57	absolute lengths like font sizes to DC coordinates
58
59	honor_visibility -- boolean. If true, honor the visibility flag
60	of the layers, otherwise draw all layers. If None, use
61	the renderer's default.
62	"""
63	# resolution in pixel/inch
64
65	self.dc = dc
66	self.scale = scale
67	self.offset = offset
68	if honor_visibility is not None:
69	self.honor_visibility = honor_visibility
70	# store the resolution in pixel/point because it's more useful
71	# later.
72	self.resolution = resolution / 72.0
73
74	def render_map(self, map):
75	self.map = map
76	seenRaster = True
77
78	if self.scale == 0:
79	return
80
81	#
82	# This is only a good optimization if there is only one
83	# raster layer and the image covers the entire window (as
84	# it currently does). We note if there is a raster layer
85	# and only begin drawing layers once we have drawn it.
86	# That way we avoid drawing layers that won't be seen.
87	#
88	if Thuban.Model.resource.has_gdal_support():
89	for layer in map.Layers():
90	if isinstance(layer, RasterLayer) and layer.Visible():
91	seenRaster = False
92	break
93
94	for layer in map.Layers():
95	# if honor_visibility is true, only draw visible layers,
96	# otherwise draw all layers
97	if not self.honor_visibility or layer.Visible():
98	if isinstance(layer, Layer) and seenRaster:
99	self.draw_shape_layer(layer)
100	elif isinstance(layer, RasterLayer) \
101	and Thuban.Model.resource.has_gdal_support():
102	self.draw_raster_layer(layer)
103	seenRaster = True
104
105	self.draw_label_layer(map.LabelLayer())
106
107	def draw_shape_layer(self, layer):
108	scale = self.scale
109	offx, offy = self.offset
110
111	map_proj = self.map.projection
112	layer_proj = layer.projection
113
114	shapetype = layer.ShapeType()
115
116	brush = wxTRANSPARENT_BRUSH
117	pen = wxTRANSPARENT_PEN
118
119	old_prop = None
120	old_group = None
121	lc = layer.GetClassification()
122	field = layer.GetClassificationColumn()
123	defaultGroup = lc.GetDefaultGroup()
124
125
126	if shapetype == SHAPETYPE_POINT:
127	draw_func = self.draw_point_shape
128	draw_func_param = layer
129	else:
130	draw_func = draw_polygon_shape
131	draw_func_param = self.polygon_render_param(layer)
132
133	table = layer.ShapeStore().Table()
134	for i in self.layer_ids(layer):
135
136	if field is None:
137	group = defaultGroup
138	else:
139	record = table.ReadRowAsDict(i)
140	assert record is not None
141	group = lc.FindGroup(record[field])
142
143
144	if not group.IsVisible():
145	continue
146
147
148	# don't recreate new objects if they are the same as before
149	if group is not old_group:
150	old_group = group
151
152	prop = group.GetProperties()
153
154	if prop != old_prop:
155	old_prop = prop
156
157	if shapetype == SHAPETYPE_ARC:
158	fill = Transparent
159	else:
160	fill = prop.GetFill()
161
162
163	if fill is Transparent:
164	brush = wxTRANSPARENT_BRUSH
165	else:
166	color = Color2wxColour(fill)
167	brush = wxBrush(color, wxSOLID)
168
169	stroke = prop.GetLineColor()
170	stroke_width = prop.GetLineWidth()
171	if stroke is Transparent:
172	pen = wxTRANSPARENT_PEN
173	else:
174	color = Color2wxColour(stroke)
175	pen = wxPen(color, stroke_width, wxSOLID)
176
177	draw_func(draw_func_param, i, pen, brush)
178
179	def draw_raster_layer(self, layer):
180	data = None
181	offx, offy = self.offset
182	width, height = self.dc.GetSizeTuple()
183
184	inProj = ""
185	proj = layer.GetProjection()
186	if proj is not None:
187	for p in proj.GetAllParameters():
188	inProj += "+" + p + " "
189
190	outProj = ""
191	proj = self.map.GetProjection()
192	if proj is not None:
193	for p in proj.GetAllParameters():
194	outProj += "+" + p + " "
195
196	xmin = (0 - offx) / self.scale
197	ymin = (offy - height) / self.scale
198	xmax = (width - offx) / self.scale
199	ymax = (offy - 0) / self.scale
200
201	try:
202	data = ProjectRasterFile(
203	layer.GetImageFilename(),
204	inProj,
205	outProj,
206	(xmin, ymin, xmax, ymax),
207	"", (width, height))
208	except IOError, (strerr):
209	print strerr
210	except (AttributeError, ValueError):
211	pass
212	else:
213	if data is not None:
214	stream = cStringIO.StringIO(data)
215	image = wxImageFromStream(stream, wxBITMAP_TYPE_BMP)
216	bitmap = wxBitmapFromImage(image)
217	self.dc.BeginDrawing()
218	self.dc.DrawBitmap(bitmap, 0, 0)
219	self.dc.EndDrawing()
220
221	def layer_ids(self, layer):
222	"""Return the shape ids of the given layer that have to be drawn.
223
224	The default implementation simply returns all ids in the layer.
225	Override in derived classes to be more precise.
226	"""
227	return range(layer.NumShapes())
228
229	def polygon_render_param(self, layer):
230	"""Return the low-lever render parameter for the layer"""
231	offx, offy = self.offset
232	return draw_polygon_init(layer.ShapeStore().Shapefile(), self.dc,
233	self.map.projection,
234	layer.projection,
235	self.scale, -self.scale,
236	offx, offy)
237
238	def draw_polygon_shape(self, draw_polygon_info, index, pen, brush):
239	draw_polygon_shape(draw_polygon_info, index, pen, brush)
240
241	def projected_points(self, layer, index):
242	proj = self.map.GetProjection()
243	if proj is not None:
244	forward = proj.Forward
245	else:
246	forward = None
247	proj = layer.GetProjection()
248	if proj is not None:
249	inverse = proj.Inverse
250	else:
251	inverse = None
252	shape = layer.Shape(index)
253	points = []
254	scale = self.scale
255	offx, offy = self.offset
256	for x, y in shape.Points():
257	if inverse:
258	x, y = inverse(x, y)
259	if forward:
260	x, y = forward(x, y)
261	points.append(wxPoint(x * scale + offx,
262	-y * scale + offy))
263	return points
264
265	def draw_arc_shape(self, layer, index):
266	points = self.projected_points(layer, index)
267	self.dc.DrawLines(points)
268
269	def draw_point_shape(self, layer, index, pen, brush):
270	pp = self.projected_points(layer, index)
271
272	if len(pp) == 0: return # ignore Null Shapes which have no points
273
274	p = pp[0]
275	radius = self.resolution * 5
276	self.dc.SetBrush(brush)
277	self.dc.SetPen(pen)
278	self.dc.DrawEllipse(p.x - radius, p.y - radius, 2radius, 2radius)
279
280	def draw_label_layer(self, layer):
281	scale = self.scale
282	offx, offy = self.offset
283
284	font = wxFont(self.resolution * 10, wxSWISS, wxNORMAL, wxNORMAL)
285	self.dc.SetFont(font)
286
287	map_proj = self.map.projection
288	if map_proj is not None:
289	forward = map_proj.Forward
290	else:
291	forward = None
292
293	for label in layer.Labels():
294	x = label.x
295	y = label.y
296	text = label.text
297	if forward:
298	x, y = forward(x, y)
299	x = x * scale + offx
300	y = -y * scale + offy
301	width, height = self.dc.GetTextExtent(text)
302	if label.halign == ALIGN_LEFT:
303	# nothing to be done
304	pass
305	elif label.halign == ALIGN_RIGHT:
306	x = x - width
307	elif label.halign == ALIGN_CENTER:
308	x = x - width/2
309	if label.valign == ALIGN_TOP:
310	# nothing to be done
311	pass
312	elif label.valign == ALIGN_BOTTOM:
313	y = y - height
314	elif label.valign == ALIGN_CENTER:
315	y = y - height/2
316	self.dc.DrawText(text, x, y)
317
318
319	class ScreenRenderer(MapRenderer):
320
321	# On the screen we want to see only visible layers by default
322	honor_visibility = 1
323
324	def RenderMap(self, map, region, selected_layer, selected_shapes):
325	"""Render the map.
326
327	Only the given region (a tuple in window coordinates as returned
328	by a wxrect's asTuple method) needs to be redrawn. Highlight the
329	shapes given by the ids in selected_shapes in the
330	selected_layer.
331	"""
332	self.update_region = region
333	self.selected_layer = selected_layer
334	self.selected_shapes = selected_shapes
335	self.render_map(map)
336
337	def draw_shape_layer(self, layer):
338	MapRenderer.draw_shape_layer(self, layer)
339	if layer is self.selected_layer and self.selected_shapes:
340	pen = wxPen(wxBLACK, 3, wxSOLID)
341	brush = wxBrush(wxBLACK, wxCROSS_HATCH)
342
343	shapetype = layer.ShapeType()
344	if shapetype == SHAPETYPE_POLYGON:
345	offx, offy = self.offset
346	renderparam = self.polygon_render_param(layer)
347	func = self.draw_polygon_shape
348	args = (pen, brush)
349	elif shapetype == SHAPETYPE_ARC:
350	renderparam = self.polygon_render_param(layer)
351	func = self.draw_polygon_shape
352	args = (pen, None)
353	elif shapetype == SHAPETYPE_POINT:
354	renderparam = layer
355	self.dc.SetBrush(brush)
356	self.dc.SetPen(pen)
357	func = self.draw_point_shape
358	args = ()
359	else:
360	raise TypeError(_("Unhandled shape type %s") % shapetype)
361
362	for index in self.selected_shapes:
363	func(renderparam, index, *args)
364
365
366	def layer_ids(self, layer):
367	"""Return the shapeids covered by the region that has to be redrawn
368
369	Call the layer's ShapesInRegion method to determine the ids so
370	that it can use the quadtree.
371	"""
372	# FIXME: the quad-tree should be built from the projected
373	# coordinates not the lat-long ones because it's not trivial to
374	# determine an appropriate rectangle in lat-long for a given
375	# rectangle in projected coordinates which we have to start from
376	# here.
377	proj = self.map.projection
378	if proj is not None:
379	inverse = proj.Inverse
380	else:
381	inverse = None
382
383	scale = self.scale
384	offx, offy = self.offset
385	xs = []
386	ys = []
387	x, y, width, height = self.update_region
388	for winx, winy in ((x, y), (x + width, y),
389	(x + width, y + height), (x, y + height)):
390	px = (winx - offx) / scale
391	py = -(winy - offy) / scale
392	if inverse:
393	px, py = inverse(px, py)
394	xs.append(px)
395	ys.append(py)
396	left = min(xs)
397	right = max(xs)
398	top = max(ys)
399	bottom = min(ys)
400
401	return layer.ShapesInRegion((left, bottom, right, top))
402
403
404	class ExportRenderer(ScreenRenderer):
405
406	honor_visibility = 1
407
408	def RenderMap(self, map, region, mapregion,
409	selected_layer, selected_shapes ):
410	"""Render the map.
411
412	The rendering device has been specified during initialisation.
413	The device border distance was set in Thuban.UI.view.OutputTranform().
414
415	RenderMap renders a frame set (one page frame, one around
416	legend/scalebar and one around the map), the map, the legend and the
417	scalebar on the given DC. The map is rendered with the region displayed
418	in the canvas view, centered on the area available for map display.
419	"""
420
421	self.update_region = region
422	self.selected_layer = selected_layer
423	self.selected_shapes = selected_shapes
424
425	# Get some dimensions
426	llx, lly, urx, ury = region
427	self.mapregion = mapregion
428	mminx, mminy, mmaxx, mmaxy = self.mapregion
429
430	# Manipulate the offset to position the map
431	offx, offy = self.offset
432	# 1. Shift to corner of map drawing area
433	offx = offx + mminx
434	offy = offy + mminy
435
436	# 2. Center the map on the map drawing area:
437	# region identifies the region on the canvas view:
438	# center of map drawing area - half the size of region: rendering origin
439	self.shiftx = (mmaxx - mminx)0.5 - (urx - llx)0.5
440	self.shifty = (mmaxy - mminy)0.5 - (ury - lly)0.5
441
442	self.offset = (offx+self.shiftx, offy+self.shifty)
443
444	# Draw the map
445	self.dc.BeginDrawing()
446	self.dc.DestroyClippingRegion()
447	self.dc.SetClippingRegion(mminx+self.shiftx, mminy+self.shifty,
448	urx, ury)
449	self.render_map(map)
450	self.dc.EndDrawing()
451
452	# Draw the rest (frames, legend, scalebar)
453	self.dc.BeginDrawing()
454	self.dc.DestroyClippingRegion()
455
456	# Force the font for Legend drawing
457	font = wxFont(self.resolution * 10, wxSWISS, wxNORMAL, wxNORMAL)
458	self.dc.SetFont(font)
459
460	self.render_frame(region)
461	self.render_legend(map)
462	self.render_scalebar(map)
463	self.dc.EndDrawing()
464
465	def render_frame(self, region):
466	"""Render the frames for map and legend/scalebar."""
467
468	dc = self.dc
469	dc.SetPen(wxBLACK_PEN)
470	dc.SetBrush(wxTRANSPARENT_BRUSH)
471
472	# Dimension stuff
473	width, height = dc.GetSizeTuple()
474	mminx, mminy, mmaxx, mmaxy = self.mapregion
475
476	# Page Frame
477	dc.DrawRectangle(15,15,width-30, (mmaxy-mminy)+10)
478
479	# Map Frame
480	llx, lly, urx, ury = region
481	dc.DrawRectangle(mminx + self.shiftx, mminy + self.shifty, urx, ury)
482
483	# Legend Frame
484	dc.DrawRectangle(mmaxx+10,mminy,(width-20) - (mmaxx+10), mmaxy-mminy)
485
486	dc.DestroyClippingRegion()
487	dc.SetClippingRegion(mmaxx+10,mminy,
488	(width-20) - (mmaxx+10), mmaxy-mminy)
489
490	def render_legend(self, map):
491	"""Render the legend on the Map."""
492
493	previewer = ClassDataPreviewer()
494	dc = self.dc
495	dc.SetPen(wxBLACK_PEN)
496	dc.SetBrush(wxTRANSPARENT_BRUSH)
497
498	# Dimension stuff
499	width, height = dc.GetSizeTuple()
500	mminx, mminy, mmaxx, mmaxy = self.mapregion
501	textwidth, textheight = dc.GetTextExtent("0")
502	iconwidth = textheight
503	iconheight = textheight
504	stepy = textheight+3
505	dx = 10
506	posx = mmaxx + 10 + 5 # 10 pix distance mapframe/legend frame,
507	# 5 pix inside legend frame
508	posy = mminy + 5 # 5 pix inside legend frame
509
510	# Render the legend
511	dc.SetTextForeground(wxBLACK)
512	if map.HasLayers():
513	layers = map.Layers()
514	layers.reverse()
515	for l in layers:
516	if l.Visible():
517	# Render title
518	dc.DrawText(l.Title(), posx, posy)
519	posy+=stepy
520	if l.HasClassification():
521	# Render classification
522	clazz = l.GetClassification()
523	shapeType = l.ShapeType()
524	for g in clazz:
525	if g.IsVisible():
526	previewer.Draw(dc,
527	wxRect(posx+dx, posy,
528	iconwidth, iconheight),
529	g.GetProperties(), shapeType)
530	dc.DrawText(g.GetDisplayText(),
531	posx+2*dx+iconwidth, posy)
532	posy+=stepy
533
534	def render_scalebar(self, map):
535	"""Render the scalebar."""
536
537	scalebar = ScaleBar(map)
538
539	# Dimension stuff
540	width, height = self.dc.GetSizeTuple()
541	mminx, mminy, mmaxx, mmaxy = self.mapregion
542
543	# Render the scalebar
544	scalebar.DrawScaleBar(self.scale, self.dc,
545	(mmaxx+10+5, mmaxy-25),
546	((width-15-5) - (mmaxx+10+5),20)
547	)
548	# 10 pix between map and legend frame, 5 pix inside legend frame
549	# 25 pix from the legend frame bottom line
550	# Width: 15 pix from DC border, 5 pix inside frame, 10, 5 as above
551	# Height: 20
552
553	class PrinterRenderer(ExportRenderer):
554
555	# Printing as well as Export / Screen display only the visible layer.
556	honor_visibility = 1
557
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svn:keywords	Author Date Id Revision