From 007716312bfff8acc5c8c31df49473a3644e1a21 Mon Sep 17 00:00:00 2001 From: Dane Springmeyer Date: Mon, 21 Nov 2011 02:35:35 -0800 Subject: [PATCH] convert trac code chunks to github style --- GettingStarted.md | 180 ++++++++++++++++++++++++---------------------- 1 file changed, 96 insertions(+), 84 deletions(-) diff --git a/GettingStarted.md b/GettingStarted.md index af05d3f..bb2f903 100644 --- a/GettingStarted.md +++ b/GettingStarted.md @@ -14,18 +14,20 @@ The simple check is to start python interpreter from a command line by typing py and then just type: - #!python - >>> import mapnik +```python +>>> import mapnik +``` and if you don't see any complaints, you're on the right track. If you do, you have to check your installation again. * Note: If you have built mapnik in debug mode you should see the available datasources listed, including: - #!python - >>> import mapnik - registered datasource : gdal - registered datasource : postgis - registered datasource : raster - registered datasource : shape +```python +>>> import mapnik +registered datasource : gdal +registered datasource : postgis +registered datasource : raster +registered datasource : shape +``` ## Step 2 @@ -34,73 +36,79 @@ The code below can be pasted into your python interpreter. Ideally paste line by Import the mapnik python toolkit and setup the basic map parameters - #!python - import mapnik - - # Instantiate a map object with given width, height and spatial reference system - m = mapnik.Map(600,300,"+proj=latlong +datum=WGS84") - # Set background colour to 'steelblue'. - # You can use 'named' colours, #rrggbb, #rgb or rgb(r%,g%,b%) format - m.background = mapnik.Color('steelblue') +``` +import mapnik + +# Instantiate a map object with given width, height and spatial reference system +m = mapnik.Map(600,300,"+proj=latlong +datum=WGS84") +# Set background colour to 'steelblue'. +# You can use 'named' colours, #rrggbb, #rgb or rgb(r%,g%,b%) format +m.background = mapnik.Color('steelblue') +``` * Note, Mapnik accepts any projection that Proj.4 handles. See http://spatialreference.org for the proj4 strings for various projections. For example http://spatialreference.org/ref/epsg/4326/mapnikpython/ will give you the exact parameters for EPSG 4326. Create the Styles and Rules for the map symbology - #!python - # Now lets create a style and add it to the Map. - s = mapnik.Style() - # A Style can have one or more rules. A rule consists of a filter, min/max scale - # demoninators and 1..N Symbolizers. If you don't specify filter and scale denominators - # you get default values : - # Filter = 'ALL' filter (meaning symbolizer(s) will be applied to all features) - # MinScaleDenominator = 0 - # MaxScaleDenominator = INF - # Lets keep things simple and use default value, but to create a map we - # we still must provide at least one Symbolizer. Here we want to fill countries polygons with - # greyish colour and draw outlines with a bit darker stroke. - - r=mapnik.Rule() - r.symbols.append(mapnik.PolygonSymbolizer(mapnik.Color('#f2eff9'))) - r.symbols.append(mapnik.LineSymbolizer(mapnik.Color('rgb(50%,50%,50%)'),0.1)) - s.rules.append(r) +```python +# Now lets create a style and add it to the Map. +s = mapnik.Style() +# A Style can have one or more rules. A rule consists of a filter, min/max scale +# demoninators and 1..N Symbolizers. If you don't specify filter and scale denominators +# you get default values : +# Filter = 'ALL' filter (meaning symbolizer(s) will be applied to all features) +# MinScaleDenominator = 0 +# MaxScaleDenominator = INF +# Lets keep things simple and use default value, but to create a map we +# we still must provide at least one Symbolizer. Here we want to fill countries polygons with +# greyish colour and draw outlines with a bit darker stroke. + +r=mapnik.Rule() +r.symbols.append(mapnik.PolygonSymbolizer(mapnik.Color('#f2eff9'))) +r.symbols.append(mapnik.LineSymbolizer(mapnik.Color('rgb(50%,50%,50%)'),0.1)) +s.rules.append(r) +``` Connect the style information to your map and your data - #!python - # Here we have to add our style to the Map, giving it a name. - m.append_style('My Style',s) - - # Here we instantiate our data layer, first by giving it a name and srs (proj4 projections string), and then by giving it a datasource. - lyr = mapnik.Layer('world',"+proj=latlong +datum=WGS84") - # Then provide the full filesystem path to a shapefile in WGS84 or EPSG 4326 projection without the .shp extension - # A sample shapefile can be downloaded from http://mapnik-utils.googlecode.com/svn/data/world_borders.zip - lyr.datasource = mapnik.Shapefile(file='/Users/path/to/your/data/world_borders') - lyr.styles.append('My Style') +```python +# Here we have to add our style to the Map, giving it a name. +m.append_style('My Style',s) + +# Here we instantiate our data layer, first by giving it a name and srs (proj4 projections string), and then by giving it a datasource. +lyr = mapnik.Layer('world',"+proj=latlong +datum=WGS84") +# Then provide the full filesystem path to a shapefile in WGS84 or EPSG 4326 projection without the .shp extension +# A sample shapefile can be downloaded from http://mapnik-utils.googlecode.com/svn/data/world_borders.zip +lyr.datasource = mapnik.Shapefile(file='/Users/path/to/your/data/world_borders') +lyr.styles.append('My Style') +``` Finally add the layers to the map and zoom to the full extent of the data layer - #!python +```python m.layers.append(lyr) m.zoom_to_box(lyr.envelope()) +``` Finish up by making the world map image - #!python - # Write the data to a png image called world.png in the base directory of your user - mapnik.render_to_file(m,'world.png', 'png') - - # Exit the python interpreter - exit() +```python +# Write the data to a png image called world.png in the base directory of your user +mapnik.render_to_file(m,'world.png', 'png') + +# Exit the python interpreter +exit() +``` Then back in your normal shell type: - #!sh - # On a mac - open world.png - # On windows - start world.png +``sh +# On a mac +open world.png +# On windows +start world.png +``` Or navigate to your base directory and open world.png and the result should look like this: [[BR]] @@ -113,30 +121,32 @@ The next logical step is to run the same code as a python script from your shell This can be done by adding a line at the top of the script like: - #!python - #!/usr/bin/env python +```sh +#!/usr/bin/env python +``` Copy this entire text below and save as a file called world.py. +```python +#!/usr/bin/env python + +import mapnik +m = mapnik.Map(600,300,"+proj=latlong +datum=WGS84") +m.background = mapnik.Color('steelblue') +s = mapnik.Style() +r=mapnik.Rule() +r.symbols.append(mapnik.PolygonSymbolizer(mapnik.Color('#f2eff9'))) +r.symbols.append(mapnik.LineSymbolizer(mapnik.Color('rgb(50%,50%,50%)'),0.1)) +s.rules.append(r) +m.append_style('My Style',s) +lyr = mapnik.Layer('world',"+proj=latlong +datum=WGS84") +lyr.datasource = mapnik.Shapefile(file='/Users/path/to/your/data/world_borders') +lyr.styles.append('My Style') +m.layers.append(lyr) +m.zoom_to_box(lyr.envelope()) +mapnik.render_to_file(m,'world.png', 'png') +``` - #!python - #!/usr/bin/env python - - import mapnik - m = mapnik.Map(600,300,"+proj=latlong +datum=WGS84") - m.background = mapnik.Color('steelblue') - s = mapnik.Style() - r=mapnik.Rule() - r.symbols.append(mapnik.PolygonSymbolizer(mapnik.Color('#f2eff9'))) - r.symbols.append(mapnik.LineSymbolizer(mapnik.Color('rgb(50%,50%,50%)'),0.1)) - s.rules.append(r) - m.append_style('My Style',s) - lyr = mapnik.Layer('world',"+proj=latlong +datum=WGS84") - lyr.datasource = mapnik.Shapefile(file='/Users/path/to/your/data/world_borders') - lyr.styles.append('My Style') - m.layers.append(lyr) - m.zoom_to_box(lyr.envelope()) - mapnik.render_to_file(m,'world.png', 'png') * Don't forget to change the path to your world_borders shapefile. * Note: Mapnik accepts both the absolute path to your data as well as the relative path * Note: Same goes for the path to where you want to save your file @@ -144,20 +154,22 @@ Copy this entire text below and save as a file called world.py. Next make the script executable. On Mac or Linux you would do this with the command: - #!sh +```sh chmod +x world.py +``` Finally run the script with the command: - #!sh - # You must be in the same directory as you saved the script - ./world.py - # Add a second optional command to open the resulting file with one keystroke - # On a mac - ./world.py; open world.png - # On windows - start world.py && start world.png +```sh +# You must be in the same directory as you saved the script +./world.py +# Add a second optional command to open the resulting file with one keystroke +# On a mac +./world.py; open world.png +# On windows +start world.py && start world.png +``` * Run this way the script will continually write over and open the world.png map. * Now you can easily open the script in a separate text editor and try changing the dimensions, colors, or datasource (remember to use the correct projection).