A quite advanced mapping tool by Dataninja, enhancement of the original Confiscati Bene choropleth, based on Leafletjs, d3js, and many more libraries.
git clone https://github.com/Dataninja/advanced-mapping-tool.git
# or download https://github.com/Dataninja/advanced-mapping-tool/archive/master.zip and unzip it
cd advanced-mapping-tool/
cp dataninja-advanced-mapping-tool.conf.sample.js dataninja-advanced-mapping-tool.conf.js
cp dataninja-advanced-mapping-tool.custom.sample.css dataninja-advanced-mapping-tool.custom.css
cp index.sample.html index.html
Edit the configuration file dataninja-advanced-mapping-tool.conf.js accordingly to your needs.
View the map browsing to index.html.
You can download the final application to work offline zipping it: zip -r map.zip . -x@.zipignore
,
or you can upload it to an AWS S3 bucket, if you have a working aws-cli:
bash -f -c 'aws s3 sync . s3://[BUCKET]/[PATH]/ --recursive --exclude $(xargs -a .awsignore | sed "s/ / --exclude /g")'
.
git clone https://github.com/Dataninja/advanced-mapping-tool.git
cd advanced-mapping-tool/
npm install
bower install
grunt
cp dataninja-advanced-mapping-tool.conf.sample.js dataninja-advanced-mapping-tool.conf.js
cp dataninja-advanced-mapping-tool.custom.sample.css dataninja-advanced-mapping-tool.custom.css
cp index.sample.html index.html
cp debug.sample.html debug.html
Debug file simply loads not minified versions of js and css files.
The dataninja-advanced-mapping-tool.conf.js is a simple js file that defines the mapConfig global object used for the customization of the map. In the sample version every parameters are commented, but here is a summary of possible configurations.
A simple boolean variable to activate / disactivate logging feature for browser development tools and a control on the map with useful information such as mouse position, map center, bounds coordinates and zoom level.
A string parameter for language codes in ISO 639-1:2002 format (ie. it or en) for default numbers and datetimes formatting. It acts only on the output format, not on the input when reading a file, for example.
The map already contains the Google Universal Analytics tracking code, to activate it simply set activate to true and ua to the tracking id of a valid property.
The map generates a lot of URLs, ie. for social sharing buttons with proper GET parameters. You can use an external URL shortener, at the moment only the self-hosted Yourls service is supported.
The appearance of the map on loading. Here you can define many initial options passed to the leaflet map on creation.
The bounds.init object is used only if zoom.init is not set. If center is not set, the bounds.init geometric center will be used. The bounds.max object and zoom min and max values limit user's panning and zooming actions.
Be aware of correct attributions to sources! You can list them in the attribution array of strings, using also simple html for links.
If you want to publish a quite long text to explain map data, you can use a nice column on the left or on the right of the map. It can be always visible (or always closed, not so useful), toggled by the user clicking on a top-right icon, or shown (or hidden) when a boolean summary GET parameter is present in the URL (useful when the map is published also into an iframe element).
The content can be an html string, you can concatenate more strings with + to have a more readable code.
If you want to show a simple tooltip when user move the mouse pointer into a region of a geo layer, you can activate the tooltip. At the moment its content is fixed: "[REGION NAME] \n [key]: [value]", where [key] is the name of the variable joined to the region, [value] is its value, [REGION NAME] comes from the label column of the geo layer (not from joined data).
If true, this setting can be override for specific geographic layers.
Legend is the control where the mapping between data and colors is shown after a binning process (intervals of data values are mapped to single colors of a chromatic scale). You can set the title (shown on top), a global description (shown on bottom and overridable for each dataset), the delimiter between the bin bounds, and the label shown as title attribute of each colored square (it has to be a function returning a string with min bin value, max bin value and the variable label as passed parameters).
All geo layers, datasets, and columns are shown in clickable menus on the top of the map. To avoid too long menus, you can set here a max number of items (default value is 3). For each menu, if there are fewer items, it is shown always open. If there are more, the menu collapses and behaves like a select element (only selected item is shown and all items appear only on mouseover or click).
An array of objects describing geographic layers available to the user. Two important attributes define the typology of layers: type (tile and thematic string values are supported) and source (tileserver, file and dkan string values are supported). Their specific attributes and options are inherited by the geo layer and can be overrided.
Specific informations about geo layer have to be stored in the schema object:
The tile type defines an active tile layer with a default source equal to tileserver (see below) and an options object to pass to the L.tileLayer() constructor. Below there are the default values you can override here. The simplest default tile layer is defined by { type: 'tile' }
.
Global inherited configurations:
{
active: true,
source: 'tileserver',
options: {
attribution: '',
opacity: 0.7
}
}
The thematic type defines an active vector layer of polygons suitable to be joined to one or more datasets. At the moment only choropleth maps are supported: you can color polygons from data after a binning process to couple data values to color bins. Two main options are required (but default values are provided, see Global inherited configurations > Geographic layers types below): classification sets the binning algorithm (implemented by geostatsjs library, available values are the names of functions listed in the Classification section of its README, without the 'get' prefix, or an explicit array of bins' bounds), style expects three options objects for default style, highlight style (shown on mouseover) and selected style (shown on click). The attributes of these last two override those of default style. You can also disable infowindow and/or tooltip for this layer and block the zoom level (in case of data not suitable to a too much detailed view, for example). Below there are the default values you can override here. This type doesn't define a source its own, so you have to provide it explicitly.
Global inherited configurations:
{
active: true,
classification: 'Jenks',
infowindow: true,
tooltip: true,
zoom: 0,
style: {
default: {
weight: 0.5,
opacity: 1,
color: 'white',
fillOpacity: 0.7,
fillColor: 'none'
},
highlight: {},
selected: {
weight: 2,
color: '#666'
}
}
}
The tileserver source defines the URL template to pass to the L.tileLayer() function, tipically in the form http://{s}.*domain*/{z}/{x}/{y}.png. Default service is OSM Mapnik basic map, but many more open services are available. You can customize the URL template simply defining a domain and a path. Final URL will be build concatening these two strings (but you can customize also the url() function, if needed). Below there are the default values you can override here.
Global inherited configurations:
{
domain: 'http://{s}.tile.openstreetmap.org',
path: '/{z}/{x}/{y}.png',
url: function() {
return this.domain + this.path;
}
}
The file source defines the local (or remote) path to shape files containing the vector layer definition. At the moment, only geojson and topojson formats are supported.
The URL are built by an url() function concatenating domain, path and filename string attributes. If filename is not defined, the concatenation of the geo layer name and the format attribute will be used instead. You have to specify also the format of the file in the format attribute.
[TODO] To the url() function three additional parameters are also passed: the region (the geo layer name), a filter key and a filter value. Without a fixed filename, the returned string is the concatenation of domain, path, a basename, a period and format. The basename are built from the origin, filter key and filter value strings, these last two set by appropriate GET parameters. [/TODO]
Files are loaded asyncronously via the d3.json() method, and in the callback function you can perform a transformation of result by the transform() function (the original file can be an array of geojsons, for example, so a valid json but not a valid geojson: within the transform() function you can prepare the results to further uses by the application, selecting only the useful geojson from the original array).
Global inherited configurations:
{
domain: '',
path: '',
format: 'geojson',
filename: '',
url: function(region, filterKey, filterValue) {
return this.domain +
this.path +
(this.filename || (region + (filterKey && filterValue ? '_'+filterKey+'-'+filterValue : '') + "." + this.format));
},
transform: function(res) {
return res;
}
}
An array of objects descriping datasets available to the user. Two important attributes define the typology of layers: type (only choropleth is supported at the moment) and source (shape, file and dkan string values are supported). Their specific attributes and options are inherited by the dataset and can be overrided.
You can customize three functions that act to the loaded dataset in reading and writing phases.
Specific informations about dataset have to be stored in the schema object:
Often a dataset (a table) contains a lot of columns but not all are suitable to be shown as a thematic map. You can define which column can be selected by the user and so can color the map in the menu array of objects. Each object represents a column of the table:
If the table has a lot of columns, often some of them are related and can be grouped (ie. age classes). You can define these groups and the columns belong to them with a groups object that has groups' names as keys and arrays of column names as values.
For a choropleth map you have to provide the color palette, the binning algorithm and the number of the bins. The first one is defined by the Color Brewer sets, so you have to use simply the name of the chosen palette. The second one is set globally for the geo layer in the geo thematic type. The last one is an integer greater than 2.
With real data, binning bounds are horrible numbers with many digits not so nice to read on a legend. With precision you can prettify these bounds, setting the lower meaningful digit in power of tens. Original bins calculated by the given algorithm are so slightly changed: it's a matter of equilibrium between mathematical strictness and ease of reading.
These are global settings for the whole dataset: you can override the values of palette and bins in each column definition of the menu array.
Global inherited configurations:
{
palette: 'Reds',
precision: 0,
bins: 3
}
[TODO]...[/TODO]
No external files, data are embedded in the geo layer features' properties. No inherited configurations.
See the Geographic sources > file section.
[TODO]...[/TODO]
[TODO]...[/TODO]