Bertin.js is a JavaScript library for visualizing geospatial data and make thematic maps for the web.
The project is under active development. Some of features and options are subject to change. We welcome contributions of all kinds: bug reports, code contributions and documentation.
- Introduction
- Who is Bertin?
- Installation
- Usage
- Drawing a map
- Map types
- Map components
- Other functions
Bertin.js is an easy to use JavaScript library mainly based on D3.js makes creating thematic maps simple. The principle is to work with layers stacked on top of one other. Much like in Geographic Information Software (GIS) software, Bertin.js displays layers with a specific hierarchy. The layer at bottom are rendered and then followed by the layer right above it. Some of the layers are used to display various components of a map, some of common layers are: header, footer, graticule, outline, choro, typo, prop, shadow, scalebar, text etc.
Who is Bertin?
Jacques Bertin (1918-2010) was a French cartographer, whose major contribution was a theoretical and practical reflection on all graphic representations (diagrams, maps and graphs), forming the subject of a fundamental treatise, Graphic Semiology, originally published in 1967. Bertin's influence remains strong not only in academics, teaching of cartography today, but also among statisticians and data visualization specialists.
Installation
In browser
Latest version
<script src="https://cdn.jsdelivr.net/npm/bertin" charset="utf-8">script>
Pinned version
<script
src="https://cdn.jsdelivr.net/npm/[email protected]"
charset="utf-8"
>script>
In Observable
Latest version
bertin = require("bertin");
Pinned version
bertin = require("[email protected]");
Usage
In browser
<script src="https://cdn.jsdelivr.net/npm/d3@7">script>
<script src="https://cdn.jsdelivr.net/npm/d3-geo-projection@4">script>
<script src="https://cdn.jsdelivr.net/npm/bertin">script>
<script>
let geojson =
"https://raw.githubusercontent.com/neocarto/bertin/main/data/world.geojson";
d3.json(geojson).then((r) =>
document.body.appendChild(
bertin.draw({
params: {
projection: d3.geoVanDerGrinten4(),
clip: true,
},
layers: [
{ geojson: r, tooltip: ["$ISO3", "$NAMEen"] },
{ type: "outline" },
{ type: "graticule" },
],
})
)
);
script>
See examples: Example 1, Example 2 and Example 3.
In Observable Notebook
The bertin.js library is really easy to use within an Observable notebook. You'll find many examples in this notebook collection. Feel free to fork, copy, modify with your own data.
Drawing a map
draw() is the main function of the library. It allows you to make various thematic maps. It allows to display and overlay different types of layers listed below. The layers written on top are displayed first. Source Example
Global parameters
In the section params, we define the global parameters of the map: its size, projection, background color, etc. To have access to a large number of projections, you will need to load the d3-geo-projection@4 library. This section is optional.
Code
bertin.draw({
params: {
projection: d3.geoBertin1953(),
width: 750,
},
layers: [...]
})
Parameters
- projection: a d3 function or string defining the map projection. Refer d3-geo-projection and spatialreference.org for more detailed explanation. (default: d3.geoEquirectangular() except if you use tiles. in this case, the projection is automatically set to d3.geoMercator()). Moreover, if you define projection as "user", you can display a basemap already projected. Example. Note alsa that custom projections are available. Try "Polar", "Spilhaus" or "HoaXiaoguang".
- width: width of the map (default:1000);
- extent: a feature or a bbox array defining the extent e.g. a country or [[112, -43],[153, -9]] (default: null)
- margin: margin around features to be displayed. This option can be useful if the stroke is very heavy (default: 1)
- background: color of the background (default: "none")
- clip: a boolean to avoid artifacts of discontinuous projection (default: "false")
Map types
Simple layer
The layer type allows to display a simple geojson layer (points, lines or polygons). Source. Example 1 and Example 2.
Code
bertin.draw({
layers: [
{
type: "layer",
geojson: *a geojson here*,
fill: "#e6acdf",
}
]
})
Parameters
- geojson: a geojson (compulsory)
- fill: fill color (default: a random color)
- stroke: stroke color (default: "white")
- strokeWidth stroke width (default:0.5)
- strokeLinecap: stroke-linecap (default:"round")
- strokeLinejoin: stroke-linejoin (default:"round")
- strokeDasharray: stroke-dasharray (default:"none")
- fillOpacity: fill opacity (default:1)
- strokeOpacity: stroke opacity (default:1)
- symbol: if it is a dot layer, the type of symbol. "circle", "cross", "diamond", "square", "star", "triangle", "wye" (default: "circle")
- symbol_size: if it is a dot layer, a number indicating the size of the symbol (default: 5)
- symbol_shift: if it is a dot layer, use a value > 0 to switch symbols and avoid overlay (default: 0)
- symbol_iteration: Number of iteration to shift symbols (default: 200)
Parameters of the legend
- leg_x: position in x (if this value is not filled, the legend is not displayed)
- leg_y: position in y (if this value is not filled, the legend is not displayed)
- leg_w: width of the box (default: 30)
- leg_h: height of the box (default: 20)
- leg_title: title of the legend (default: null)
- leg_text: text of the box (default: "leg_text")
- leg_fontSize: title legend font size (default: 14)
- leg_fontSize2: values font size (default: 10)
- leg_fill: color of the box (same as the layer displayed)
- leg_stroke: stroke of the box (default: "black")
- leg_strokeWidth: stroke-width (default: 0.5)
- leg_fillOpacity: stroke opacity (same as the layer displayed)
- leg_txtcol: color of the text (default: "#363636")
Choropleth
The choro type aims to draw Choropleth maps. This kind of representation is especially suitable for relative quantitative data (rates, indices, densities). The choro type can be applied to the fill or stroke property of a simple layer. Example.
Code
bertin.draw({
layers: [
{
type: "layer",
geojson: data,
fill: {
type: "choro",
values: "gdppc",
nbreaks: 5,
method: "quantile",
colors: "RdYlGn",
leg_round: -1,
leg_title: `GDP per inh (in $)`,
leg_x: 100,
leg_y: 200
}
]
})
Parameters
- values: a string corresponding to the targeted variable in the properties (compulsory)
- nbreaks: Number of classes (default:5)
- breaks: Class breaks (default:null)
- colors: An array of colors or a palette of categorical colors (default: "Blues") See
- method: A method of classification. Jenks, q6, quantiles, msd (mean standard deviation), equal (default: quantiles). See statsbreaks example for method implementation in action.
- middle: for msd method only. middle class or not (default:false);
- k: for msd method only. number of sd. (default:1);
- col_missing: Color for missing values (default "#f5f5f5")
- txt_missing: Text for missing values (default "No data")
- stroke: stroke color (default: "white")
- strokeWidth: Stroke width (default: 0.5)
- fillOpacity: Fill opacity (default: 1)
Parameters of the legend
- leg_x: position in x (if this value is not filled, the legend is not displayed)
- leg_y: position in y (if this value is not filled, the legend is not displayed)
- leg_w: width of the box (default: 30)
- leg_h: height of the box (default:20)
- leg_text: text of the box (default: "leg_text")
- leg_fontSize: text font size (default: 10)
- leg_fill: color of the box (same as the layer displayed)
- leg_stroke: stroke of the box (default: "black")
- leg_strokeWidth: stroke-width (default: 0.5)
- leg_fillOpacity: stroke opacity (same as the layer displayed)
- leg_txtcol: color of the text (default: "#363636")
- leg_round: Number of digits (default: undefined)
Typology
The typo type allows to realize a qualitative map. The choro type can be applied to the fill or stroke property of a simple layer. Example.
Code
bertin.draw({
layers: [
{
type: "layer",
geojson: data,
fill: {
type: "typo",
values: "region",
pal: "Tableau10",
tooltip: ["$region", "$name"],
leg_title: `The Continents`,
leg_x: 55,
leg_y: 180
}
]
})
Parameters
- values: a string corresponding to the targeted variable in the properties (compulsory)
- colors: An array containing n colors for n types, or a a palette of categorical colors (default: "Tableau10"). See the handy color scheme reference for full list of palettes.
- order: an array of values to set the order of the colors
- col_missing: Color for missing values (default "#f5f5f5")
- txt_missing: Text for missing values (default "No data")
- stroke: stroke color (default: "white")
- strokeWidth: Stroke width (default: 0.5)
- fillOpacity: Fill opacity (default: 1)
Parameters of the legend
- leg_x: position in x (if this value is not filled, the legend is not displayed)
- leg_y: position in y (if this value is not filled, the legend is not displayed)
- leg_w: width of the box (default: 30)
- leg_h: height of the box (default:20)
- leg_title: title of the legend (default; null)
- leg_fontSize: title legend font size (default: 14)
- leg_fontSize2: values font size (default: 10)
- leg_stroke: stroke of the box (default: "black")
- leg_strokeWidth: stroke-width (default: 0.5)
- leg_fillOpacity: stroke opacity (same as the layer displayed)
- leg_txtcol: color of the text (default: "#363636")
Bubble
The bubble type is used to draw a map by proportional circles. Source, Example.
Code
bertin.draw({
layers: [
{
type: "bubble",
geojson: countries,
values: "pop",
k: 60,
tooltip: ["$country", "$pop", "(inh.)"],
},
],
});
Parameters
- geojson: a geojson (compulsory)
- values: a string corresponding to the targeted variable in the properties(compulsory)
- k: size of the largest circle (default:50)
- fixmax: Max value to fix the size of the biggest circle, in order to make maps comparable (default:undefined)
- fill: fill color (default: random color)
- stroke: stroke color (default: "white")
- strokeWidth: stroke width (default: 0.5)
- fillOpacity: fill opacity (default: 1)
- dorling: a boolean (default:false)
- iteration: an integer to define the number of iteration for the Dorling method (default: 200)
- tooltip: an array of values defining what to display within the tooltip. If you use a $, the value within the geojson is displayed. Example.
Parameters of the legend
- leg_x: position in x (if this value is not filled, the legend is not displayed)
- leg_y: position in y (if this value is not filled, the legend is not displayed)
- leg_fill: color of the circles (default: "none")
- leg_stroke: stroke of the circles (default: "black")
- leg_strokeWidth: stoke-width (default: 0.8)
- leg_txtcol: color of the text (default: "#363636")
- leg_title: title of the legend (default var_data)
- leg_round: number of digits after the decimal point (default: undefined)
- leg_fontSize: title legend font size (default: 14)
- leg_fontSize2: values font size (default: 10)
Regular Bubble
The regularbubble type is used to draw a map by proportional circles in a regular grid. Source, Example.
Code
bertin.draw({
layers: [
{
type: "regularbubble",
geojson: countries,
step:20,
values: "pop",
k: 60,
tooltip: ["$country", "$pop", "(inh.)"],
},
],
});
Parameters
- step: Gap between the points (default:20)
All other parameters are the same as for the bubble layer
Stock and ratio
In thematic mapping, we often have to represent an absolute quantitative data with a size variation and relative quantitative data with color variations. For this we can use the bubble type and the choro type together. Example.
Code
bertin.draw({
params: { projection: d3.geoPolyhedralWaterman() },
layers: [
{
type: "bubble",
geojson: data,
leg_round: -2,
values: "pop",
fill: {
type: "choro",
method: "quantile",
nbreaks: 5,
values: "gdppc",
pal: "RdYlGn",
},
},
],
});
Stock and typo
In thematic mapping, we often have to represent an absolute quantitative data with a size variation and relative quantitative data with color variations. For this we can use the bubble type and the typo type together. Example.
Code
bertin.draw({
layers: [
{
type: "bubble",
geojson: data,
values: "pop",
fill: {
type: "typo",
values: "region",
},
},
],
});
Dorling cartogram
The dorling parameter can be used with the bubble type to design a Dorling cartogram. Example.
Code
bertin.draw({
layers: [
{
type: "bubble",
geojson: data,
values: "pop",
k: k,
dorling: true,
iteration: 100,
fill: "#E95B40",
},
],
});
Dot cartogram
The dotcartogram type is a method of map representation that follows Dorling's cartograms and dot density maps. The data from each territorial unit are dissolved in such a way that a dot represents a constant quantity, the same on the whole map. Source Example.
Code
bertin.draw({
params: { projection: d3.geoBertin1953() },
layers: [
{
type: "dotcartogram",
geojson: data,
onedot: 200000000000,
iteration: 200,
values: "gdp",
radius: radius,
span: span,
leg_fill: "none",
leg_stroke: "black",
leg_strokeWidth: 1.5,
leg_x: 800,
leg_y: 450,
leg_title: `GDP by world region`,
leg_txt: "200 billion $",
fill: "red",
tooltip: ["$name", "$region"],
},
],
});
Parameters
- geojson: a geojson (compulsory)
- values: a string corresponding to the targeted variable in the properties(compulsory)
- radius: radius of dots (default:4)
- nbmax: number max of circles on the map (default:200)
- onedot: dot value (if onedot is filled, nbmax is useless)
- span: spacing between dots (default 0.5)
- fill: fill color (default: random color)
- stroke: stroke color (default: "white")
- strokeWidth: stroke width (default: 0.5)
- fillOpacity: fill opacity (default: 1)
- tooltip an array of values defining what to display within the tooltip. If you use a $, the value within the geojson is displayed.
- iteration an integer to define the number of iteration for the Dorling method (default 200)
Parameters of the legend
- leg_x: position in x (if this value is not filled, the legend is not displayed)
- leg_y: position in y (if this value is not filled, the legend is not displayed)
- leg_fill: color of the circles (default: "none")
- leg_stroke: stroke of the circles (default: "black")
- leg_strokeWidth: stoke-width (default: 0.8)
- leg_txtcol: color of the text (default: "#363636")
- leg_title: title of the legend (default var_data)
- leg_txt: text in the legend (default onedot value)
- leg_fontSize: title legend font size (default: 14)
- leg_fontSize2: text font size (default: 10)
Mushroom
The mushroom type is used to draw a map with 2 superposed proportional semi-circles. This type of representation can be used when two data with the same order of magnitude need to be compressed. Source, Example.
Code
bertin.draw({
layers: [
{
type: "mushroom",
geojson: mygeojson,
top_values: "gdp_pct",
bottom_values: "pop_pct",
bottom_tooltip: ["name", "pop", "(thousands inh.)"],
top_tooltip: ["name", "gdp", "(million $)"],
},
],
});
Parameters
- geojson: a geojson (compulsory)
- top_values: a string corresponding to the targeted top variable in the properties (compulsory)
- bottom_values: a string corresponding to the targeted bottom variable in the properties(compulsory)
- top_fill: top fill color (default: "#d64f4f")
- bottom_fill: bottom fill color (default: "#4fabd6")
- k: size of the largest semi circle (default:50)
- stroke: stroke color (default: "white")
- strokeWidth: stroke width (default: 0.5)
- fillOpacity: fill opacity (default: 1)
- top_tooltip: an array of values defining what to display within the tooltip. If you use a $, the value within the geojson is displayed.
- bottom_tooltip: an array of values defining what to display within the tooltip. If you use a $, the value within the geojson is displayed.
Parameters of the legend
- leg_x: position in x (if this value is not filled, the legend is not displayed)
- leg_y: position in y (if this value is not filled, the legend is not displayed)
- leg_fontSize: title legend font size (default: 14)
- leg_fontSize2: values font size (default: 10)
- leg_round: number of digits after the decimal point (default: undefined)
- leg_txtcol: color of the text (default: "#363636")
- leg_title: title of the legend (default "Title, year")
- leg_stroke: stroke of the circles (default: "black")
- leg_top_txt title for the top variable (default top_var)
- leg_bottom_txt title for the bottom variable (default bottom_var)
- leg_top_fill color of top semi circles (default same as top_fill)
- leg_bottom_fill color of bottom semi circles (default same as bottom_fill)
- leg_strokeWidth stroke width of elements in the legend (default 0.8)
Dot Density
The dotdensity type allows to display a doty density layer geojson layer from polygons and attribute data. Source. Example
Code
bertin.draw({
layers: [
{
type: "dotdensity",
geojson: *a geojson here (polygon)*,
values: *a fiel here*
dotvalue: *a number*,
}
]
})
Parameters
- geojson: a geojson polygons or Multipolygons (compulsory)
- values: a string corresponding to the targeted variable in the properties(compulsory)
- dotvalue: a number representing the value of each point (default: a computed number so that there are no more than 1000 dots on the map.)
- fill: fill color (default: a random color)
- stroke: stroke color (default: "white")
- strokeWidth stroke width (default:0.5)
- fillOpacity: fill opacity (default:1)
- strokeOpacity: stroke opacity (default:1)
- symbol: if it is a dot layer, the type of symbol. "circle", "cross", "diamond", "square", "star", "triangle", "wye" (default: "circle")
- symbol_size: if it is a dot layer, a number indicating the size of the symbol (default: 5)
- symbol_shift: if it is a dot layer, use a value > 0 to switch symbols and avoid overlay (default: 0)
- symbol_iteration: Number of iteration to shift symbols (default: 200)
Parameters of the legend
- leg_x: position in x (if this value is not filled, the legend is not displayed)
- leg_y: position in y (if this value is not filled, the legend is not displayed)
- leg_w: width of the box (default: 30)
- leg_h: height of the box (default:20)
- leg_title: title of the legend (default: null)
- leg_text: text in the legend (default: dot value)
- leg_fontSize: title legend font size (default: 14)
- leg_fontSize2: values font size (default: 10)
- leg_fill: color of the box (same as the layer displayed)
- leg_stroke: stroke of the box (default: "black")
- leg_strokeWidth: stroke-width (default: 0.5)
- leg_fillOpacity: stroke opacity (same as the layer displayed)
- leg_txtcol: color of the text (default: "#363636")
Spikes
The spikes type is used to draw a map with spikes. Source, Example.
Code
bertin.draw({
layers: [
{
type: "spikes",
geojson: countries,
values: "pop",
k: 60,
w: 8,
tooltip: ["$country", "$pop", "(inh.)"],
},
],
});
Parameters
- geojson: a geojson (compulsory)
- values: a string corresponding to the targeted variable in the properties(compulsory)
- k: height of the highest peak (default:50)
- w: width of the spikes (default:10)
- fill: fill color (default: #a31d88)
- stroke: stroke color (default: #a31d88)
- strokeWidth: stroke width (default: 0.7)
- fillOpacity: fill opacity (default: 0.3)
- tooltip an array of values defining what to display within the tooltip. If you use a $, the value within the geojson is displayed.
Parameters of the legend
- leg_x: position in x (if this value is not filled, the legend is not displayed)
- leg_y: position in y (if this value is not filled, the legend is not displayed)
- leg_fill: color of the circles (default: "none")
- leg_stroke: stroke of the circles (default: "black")
- leg_strokeWidth: stoke-width (default: 0.8)
- leg_txtcol: color of the text (default: "#363636")
- leg_title: title of the legend (default var_data)
- leg_round: rounding (default: undefined)
- leg_fontSize: title legend font size (default: 14)
- leg_fontSize2: values font size (default: 10)
Thickness
On each layer, you can dynamically vary the thickness of the paths. This can be useful to make for example flow maps or discontinuity maps. Source
Code - Constant Thickness
In order for each object to have the same thickness.
bertin.draw({
layers: [
{
type: "layer",
geojson: *a geojson here*,
strokeWidth: 3,
}
]
})
Code - Linear variation
To vary the thickness proportionally to an quantitative data.
bertin.draw({
layers: [
{
type: "layer",
geojson: *a geojson here*,
strokeWidth: {type:"linear",values:"migration"},
}
]
})
Parameters
- values: a string corresponding to the targeted variable in the properties(compulsory)
- k: thicken with the largest line (default:10)
- fixmax: Max value to fix the size of the thickest line, in order to make maps comparable (default:undefined)
- fixmin: Min value to fix the size of the thinest line. If true, the value is the min data. (default:0)
Code - Discrete variation
To vary the thickness according to classes values
bertin.draw({
layers: [
{
type: "layer",
geojson: *a geojson here*,
strokeWidth: {type:"discr",values:"migration", method: "q6"},
}
]
})
Parameters
- values: a string corresponding to the targeted variable in the properties(compulsory)
- k: thicken with the largest line (default:10)
- nbreaks: Number of classes (default:5)
- breaks: Class breaks (default:null)
- method: A method of classification. Jenks, q6, quantiles, msd (mean standard deviation), equal (default: quantiles).
- middle: for msd method only. middle class or not (default:false).
- sizes: an array definig the sizes of each classes.
- nbsd: for msd method only. number of sd. (default:1)
- sizes: an array of thicknesses.
Code - Categories
To vary the thickness according to qualitative data.
bertin.draw({
layers: [
{
type: "layer",
geojson: *a geojson here*,
strokeWidth: {type:"quali",values:"flow", categories: ["low", "medium", "high", "very high"]},
}
]
})
Parameters
- values: a string corresponding to the targeted variable in the properties(compulsory)
- k: thicken with the largest line (default:10)
- categories: an array containing categories
- sizes: an array definig the sizes of each classes.
- nbsd: for msd method only. number of sd. (default:1)
- sizes: an array of thicknesses.
Parameters of the legends
- leg_x: position in x (if this value is not filled, the legend is not displayed)
- leg_y: position in y (if this value is not filled, the legend is not displayed)
- leg_w: width of the lines (default: 30)
- leg_text: text of the box (default: "leg_text")
- leg_fontSize: text font size (default: 10)
- leg_fill: color of the box (same as the layer displayed)
- leg_stroke: stroke of the box (default: "black")
- leg_strokeWidth: stroke-width (default: 0.5)
- leg_fillOpacity: stroke opacity (same as the layer displayed)
- leg_txtcol: color of the text (default: "#363636")
- leg_round: Number of digits (default: undefined)
Map components
Footer
The footer type allows to display text under the map. This is useful to display sources. Source.
Code
bertin.draw({
layers: [
{
type: "footer",
text: "Source: Worldbank, 2021",
fontSize: 10,
},
],
});
Parameters
- text: text to be displayed (default:"")
- anchor: text anchor. start, middle, end (default:"end")
- fontSize: size of the text (default:15)
- fill: color of the text (default:"#9e9696")
- background: background color (default: "white")
- backgroundOpacity: background opacity (default: 1)
Graticule
The graticule type allows you to display the latitude and longitude lines. Source.
Code
bertin.draw({
layers: [
{
type: "graticule",
fill: "#644580",
step: [20, 10],
},
],
});
Parameters
- stroke: stroke color (default:"white")
- strokeWidth: stroke width (default:0.8)
- strokeopacity: stroke opacity (default:0.5)
- strokedasharray: stroke-dasharray (default:2)
- step: gap between graticules. The value can be a number or an array of two values (default: [10, 10])
hatch (or hatching)
The hatch type only allows to add hatchings on the whole page to make it a bit prettier. Source.
Code
bertin.draw({
layers: [
{
type: "hatch",
angle: 45,
},
],
});
Parameters
- stroke: stroke color (default: "#786d6c")
- strokeWidth: stroke color (default: 2)
- strokeOpacity: stroke-opacity (default: 45)
- strokeDasharray: stroke-dasharray (default:"none")
- angle: orientation of lines (default: 45)
- spacing: spacing between lines (default: 8)
Water lines
The waterlines type only allows allows to display lines spaced by a defined distance. It's just a graphic trick to make the maps look nice. Source.
Code
bertin.draw({
layers: [
{
type: "hatch",
angle: 45,
},
],
});
Parameters
- dist: distancve between lines (default: 200)
- unit: unit (default: "kilometers")
- nb: number of lines (default: 5)
- stroke: stroke. If more than 1 value is defined, a linear scale is done beetwen values (default:"#5d81ba")
- strokeOpacity: stroke-opacity. If more than 1 value is defined, a linear scale is done beetwen values (default: [1, 0.1])
- strokeWidth: stroke-width. If more than 1 value is defined, a linear scale is done beetwen values(default: [1.2, 0.2])
- strokeDasharray: stroke-dasharray (default: "none")
- strokeLinecap: stroke-linecap (default: "round")
- strokeLinejoin: stroke-linejoin (default: "round")
Header
The header type allows to display a title above the map. Source.
Code
bertin.draw({
layers: [
{
type: "header",
text: "Title of the map",
fontSize: 40,
},
],
});
Parameters
- text: text to be displayed (default:"")
- anchor: text anchor. start, middle, end (default:"middle")
- fontSize: size of the text (default:20)
- fill: color of the text (default:"#9e9696")
- background: background color (default: "white")
- backgroundOpacity: background opacity (default: 1)
Labels
The label type allows to display labels from a geojson. Source, Example.
Code
bertin.draw({
layers: [
{
type: "label",
geojson: countries,
label: "name",
},
],
});
Parameters
- geojson: a geojson (compulsory)
- values: a string corresponding to the targeted variable in the properties (compulsory)
- fill: fill color (default: "#474342")
- fontSize: font size (default: 10)
- fontFamily: font family. "Pacifico","Roboto","Rubik","Ubuntu" (default: "Robotto")
- textDecoration: text decoration. "none", "underline", "line-through", "overline" (default:"none")
- fontWeight: font weight. "normal", "bold", "bolder", "lighter" (default: "normal")
- fontStyle: font style. "normal", "italic", "oblique" (default: "normal")
- opacity: opacity (default: 1)
- halo: boolean to display a halo below the text (default: false)
- halo_style: an array defining the halo style. [color, thickness, opacity] (default: ["white","4, 0.5)
Missing
The missing type displays any missing data when creating a map by proportional symbols. The highlight of graphical elements (in white under the symbols) allows for clear data comprehension of gaps in data. Source.
Code
bertin.draw({
layers: [
{
type: "missing",
geojson: countries,
values: "pop"
]
})
Parameters
- geojson: a geojson (compulsory)
- values: a string corresponding to the targeted variable in the properties (compulsory)
- fill: fill color (default: "white")
- stroke: stroke color (default: "white")
- strokeWidth: stroke width (default: 0.5)
- fillOpacity: fill opacity (default: 1)
Parameters of the legend
- leg_x: position in x (if this value is not filled, the legend is not displayed)
- leg_y: position in y (if this value is not filled, the legend is not displayed)
- leg_w: width of the box (default: 30)
- leg_h: height of the box (default:20)
- leg_text: text of the box (default: "leg_text")
- leg_fontSize: text font size (default: 10)
- leg_fill: color of the box (same as the layer displayed)
- leg_stroke: stroke of the box (default: "black")
- leg_strokeWidth: stroke-width (default: 0.5)
- leg_fillOpacity: stroke opacity (same as the layer displayed)
- leg_txtcol: color of the text (default: "#363636")
Outline
The outline type is used to display the limits of the earth area in the given projection. Source.
Code
bertin.draw({
layers: [
{
type: "outline",
fill: "#4269ad",
},
],
});
Parameters
- fill: fill color of the outline (default: "#add8f7")
- opacity: opacity (default:1)
- stroke: stroke color (default:"none")
- strokeWidth: stroke width (default: 1)
Scalebar
The scalebar type allows to display a scale bar in miles or kilometers. Source.
Code
bertin.draw({
layers: [
{
type: "scalebar",
units: "miles",
},
],
});
Parameters
- x: position in x (if this value is not filled, the legend is displayed on the left)
- y: position in x (if this value is not filled, the legend is displayed at the bottom)
- units: distance unit, miles or kilometers (default: "kilometers")
Shadow
The shadow type allows to display a shadow under a layer to give it a relief effect. Source.
Code
bertin.draw({
layers: [
{
type: "shadow",
geojson: JPN,
dx: 5,
dy: 5,
},
],
});
Parameters
- col: color (default: "#35383d")
- dx: shift in x (default: 3)
- dy: shift in y (default: 3)
- stdDeviation: blur (default: 1.5)
- opacity: opacity (default: 0.7)
Texts
The text type simply allows you to display text anywhere on the map. Source. Example.
Code
bertin.draw({
layers: [
{
type: "text",
text: "This is my text",
position: "bottomright",
fontSize: 20,
frame_stroke: "red",
margin: 4,
},
],
});
Parameters
- position: position of the text. It can be an array with x,y coordinates. For example [100,200]. It can be also a string defining the position. "topleft", "top", "topright", "left", "middle", "right", "bottomleft", "bottom", "bottomright" (default: "topleft")
- text: text to display. With the backticks, it is possible to display a text on several lines (default: "Your text here!")
- fontSize: text size (default: 15)
- fontFamily: font family. "Pacifico","Roboto","Rubik","Ubuntu" (default: "Robotto")
- textDecoration: text decoration. "none", "underline", "line-through", "overline" (default:"none")
- fontWeight: font weight. "normal", "bold", "bolder", "lighter" (default: "normal")
- fontStyle: font style. "normal", "italic", "oblique" (default: "normal")
- margin: margin around the text (default: 0)
- anchor: text anchor. start, middle, end (default: "start")
- fill: text color (default: "#474342")
- stroke: stroke color (default: "none")
- frame_fill: frame background color (default:"none")
- frame_stroke: frame stroke color (default: "none")
- frame_strokeWidth: thickness of the frame contour (default: 1)
- frame_opacity: frame opacity (default: 1)
Mercator Tiles
The tiles type allow to display a raster basemap. Source. Example.
**NB: ** It works only with the d3.geoMercator() projection. if tiles layer is used is the draw function, the projection is automaticaly setted to d3.geoMercator(). And you can't change it.
Code
bertin.draw({
params: {
projection: d3.geoMercator(),
extent: *a geojson*
},
layers: [
{
type: "tiles",
style: "worldphysical"
},
],
});
Parameters
- style: tile style: "openstreetmap", "opentopomap", "worldterrain", "worldimagery", "worldStreet", "worldphysical", "shadedrelief", "oceanbasemap". (default: "opentopomap")
- zoomDelta: zoom offset. See explanations here (default:0)
- tileSize: tile size. See explanations here (default:512)
- opacity: tile opacity (default:1) -clip: a geojson to clip the image
- source: position of the text. It can be an array with x,y coordinates. For example [100,200]. It can be also a string defining the position. "topleft", "top", "topright", "left", "middle", "right", "bottomleft", "bottom", "bottomright" (default: "topleft")
- increasetilesize: a value to slightly increase the size of the tiles solve the problem of gap between the tiles with chromium (deafault: 1)
Other functions
borders
borders is a function that extract borders from polygons, with ids. Source
Code
bertin.borders({geojson: world, id: "iso3", values: "population", type = "rel"})
Code
- geojson: a geojson
- id: id codes
- values: values
- type: type of discontinuities calculated: rel(relative), abs(absolute) (default:"rel")
bbox
bbox computes a geojson object form an array defining an extent in latitude and longitude.
Code
bertin.bbox([
[112, -43],
[153, -9],
]);
Quickdraw
quickdraw function displays one or more layers directly and easily. Source, Example.
Code
bertin.quickdraw(geojson);
bertin.quickdraw(geojson, 1000, 7);
Parameters
- param 1 : a geojson (compulsory)
- param 2 : width
- param 3 : margin
Match
match() is a function to evaluate the quality of a join between the data and the background map. It returns a chart. Source, Example.
Code
let testjoin = bertin.match(countries, "ISO3_CODE", maddison, "countrycode");
.matched returns an array containing matched ids
testjoin.matched;
.matched_data returns an array containing matched data ids
testjoin.matched_data;
.unmatched_data returns an array containing unmatched data ids
testjoin.unmatched_data;
.unmatched_geom returns an array containing unmatched geom ids
testjoin.unmatched_geom;
Parameters
- param 1 : a geojson (compulsory)
- param 2 : a string corresponding to the identifier of the features in the properties (compulsory)
- param 3 : a json (compulsory)
- param 4 : a string corresponding to the identifier of the features (compulsory)
Merge
merge is a function to join a geojson and a data file. This is the first step in the mapping process. Source, Example.
Code
const data = bertin.merge(
countries,
"ISO3_CODE",
maddison,
"countrycode",
true
);
Parameters
- param 1 : a geojson (compulsory)
- param 2 : a string corresponding to the identifier of the features in the properties (compulsory)
- param 3 : a json (compulsory)
- param 4 : a string corresponding to the identifier of the features (compulsory)
- param 5 : a boolean. If true, all geometries will be kept. If false, only matched data are kept (default: true)
links
links is a function that create links from geometries (polygons or points) and a data file (i,j,fij). Source Example.
Code
bertin.links({
geojson: world,
geojson_id: "ISO3",
data: migr2019,
data_i: "i",
data_j: "j",
});
Parameters
- geojson: a geojson
- geojson_id: id of the geojson
- data: inj,fij data
- data_i: i id
- data_j: j id
subgeo
subgeo function extracts a part of a geojson (e.g. world countries without antarctica). Source
Code
bertin.subgeo({
geojson: world,
field: "iso3",
operator: "!=",
array: ["ATA"],
});
Parameters
- geojson: a geojson (or topojson)
- field: a field in properties
- operator: an operator (default :"==")
- array: an array of values
table2geo
table2geo function converts a data table with lat/lon fields to a geojson. Source, Example.
Code
bertin.table2geo(cities, "lat", "lng");
Parameters
- param 1 : a geojson (compulsory)
- param 2 : latitude
- param 3 : longitude