Struct plotters::chart::ChartContext

pub struct ChartContext<'a, DB: DrawingBackend, CT: CoordTranslate> { /* private fields */ }

The context of the chart. This is the core object of Plotters.

Any plot/chart is abstracted as this type, and any data series can be placed to the chart context.

• To draw a series on a chart context, use ChartContext::draw_series().
• To draw a single element on the chart, you may want to use ChartContext::plotting_area().

See crate::series::LineSeries and ChartContext::configure_series_labels() for more information and examples

Implementations

impl<'a, DB, XT, YT, X, Y> ChartContext<'a, DB, Cartesian2d<X, Y>>where DB: DrawingBackend, X: Ranged<ValueType = XT> + ValueFormatter<XT>, Y: Ranged<ValueType = YT> + ValueFormatter<YT>,

pub fn configure_mesh(&mut self) -> MeshStyle<'a, '_, X, Y, DB>

Initialize a mesh configuration object and mesh drawing can be finalized by calling the function MeshStyle::draw.

impl<'a, DB: DrawingBackend, X: Ranged, Y: Ranged> ChartContext<'a, DB, Cartesian2d<X, Y>>

pub fn x_range(&self) -> Range<X::ValueType>

Get the range of X axis

pub fn y_range(&self) -> Range<Y::ValueType>

Get range of the Y axis

pub fn backend_coord( &self, coord: &(X::ValueType, Y::ValueType) ) -> BackendCoord

Maps the coordinate to the backend coordinate. This is typically used with an interactive chart.

impl<'a, DB: DrawingBackend, X: Ranged, Y: Ranged> ChartContext<'a, DB, Cartesian2d<X, Y>>

pub fn set_secondary_coord<SX: AsRangedCoord, SY: AsRangedCoord>( self, x_coord: SX, y_coord: SY ) -> DualCoordChartContext<'a, DB, Cartesian2d<X, Y>, Cartesian2d<SX::CoordDescType, SY::CoordDescType>>

Convert this chart context into a dual axis chart context and attach a second coordinate spec on the chart context. For more detailed information, see documentation for struct DualCoordChartContext

• x_coord: The coordinate spec for the X axis
• y_coord: The coordinate spec for the Y axis
• returns The newly created dual spec chart context

impl<'a, DB, X, Y, Z, XT, YT, ZT> ChartContext<'a, DB, Cartesian3d<X, Y, Z>>where DB: DrawingBackend, X: Ranged<ValueType = XT> + ValueFormatter<XT>, Y: Ranged<ValueType = YT> + ValueFormatter<YT>, Z: Ranged<ValueType = ZT> + ValueFormatter<ZT>,

pub fn configure_axes(&mut self) -> Axes3dStyle<'a, '_, X, Y, Z, DB>

Create an axis configuration object, to set line styles, labels, sizes, etc.

Default values for axis configuration are set by function Axes3dStyle::new().

Example

use plotters::prelude::*;
let drawing_area = SVGBackend::new("configure_axes.svg", (300, 200)).into_drawing_area();
drawing_area.fill(&WHITE).unwrap();
let mut chart_builder = ChartBuilder::on(&drawing_area);
let mut chart_context = chart_builder.margin_bottom(30).build_cartesian_3d(0.0..4.0, 0.0..3.0, 0.0..2.7).unwrap();
chart_context.configure_axes().tick_size(8).x_labels(4).y_labels(3).z_labels(2)
    .max_light_lines(5).axis_panel_style(GREEN.mix(0.1)).bold_grid_style(BLUE.mix(0.3))
    .light_grid_style(BLUE.mix(0.2)).label_style(("Calibri", 10))
    .x_formatter(&|x| format!("x={x}")).draw().unwrap();

The resulting chart reflects the customizations specified through configure_axes():

All these customizations are Axes3dStyle methods.

In the chart, tick_size(8) produces tick marks 8 pixels long. You can use (5u32).percent().max(5).in_pixels(chart.plotting_area() to tell Plotters to calculate the tick mark size as a percentage of the dimensions of the figure. See crate::style::RelativeSize and crate::style::SizeDesc for more information.

x_labels(4) specifies a maximum of 4 tick marks and labels in the X axis. max_light_lines(5) specifies a maximum of 5 minor grid lines between any two tick marks. axis_panel_style(GREEN.mix(0.1)) specifies the style of the panels in the background, a light green color. bold_grid_style(BLUE.mix(0.3)) and light_grid_style(BLUE.mix(0.2)) specify the style of the major and minor grid lines, respectively. label_style() specifies the text style of the axis labels, and x_formatter(|x| format!("x={x}")) specifies the string format of the X axis labels.

See also

ChartContext::configure_mesh(), a similar function for 2D plots

impl<'a, DB, X: Ranged, Y: Ranged, Z: Ranged> ChartContext<'a, DB, Cartesian3d<X, Y, Z>>where DB: DrawingBackend,

pub fn with_projection<P: FnOnce(ProjectionMatrixBuilder) -> ProjectionMatrix>( &mut self, pf: P ) -> &mut Self

Override the 3D projection matrix. This function allows to override the default projection matrix.

• pf: A function that takes the default projection matrix configuration and returns the projection matrix. This function will allow you to adjust the pitch, yaw angle and the centeral point of the projection, etc. You can also build a projection matrix which is not relies on the default configuration as well.

pub fn set_3d_pixel_range(&mut self, size: (i32, i32, i32)) -> &mut Self

Sets the 3d coordinate pixel range.

impl<'a, DB: DrawingBackend, CT: ReverseCoordTranslate> ChartContext<'a, DB, CT>

pub fn into_coord_trans(self) -> impl Fn(BackendCoord) -> Option<CT::From>

Convert the chart context into an closure that can be used for coordinate translation

impl<'a, DB: DrawingBackend, CT: CoordTranslate> ChartContext<'a, DB, CT>

pub fn configure_series_labels<'b>( &'b mut self ) -> SeriesLabelStyle<'a, 'b, DB, CT>where DB: 'a,

Configure the styles for drawing series labels in the chart

Example

use plotters::prelude::*;
let data = [(1.0, 3.3), (2., 2.1), (3., 1.5), (4., 1.9), (5., 1.0)];
let drawing_area = SVGBackend::new("configure_series_labels.svg", (300, 200)).into_drawing_area();
drawing_area.fill(&WHITE).unwrap();
let mut chart_builder = ChartBuilder::on(&drawing_area);
chart_builder.margin(7).set_left_and_bottom_label_area_size(20);
let mut chart_context = chart_builder.build_cartesian_2d(0.0..5.5, 0.0..5.5).unwrap();
chart_context.configure_mesh().draw().unwrap();
chart_context.draw_series(LineSeries::new(data, BLACK)).unwrap().label("Series 1")
    .legend(|(x,y)| Rectangle::new([(x - 15, y + 1), (x, y)], BLACK));
chart_context.configure_series_labels().position(SeriesLabelPosition::UpperRight).margin(20)
    .legend_area_size(5).border_style(BLUE).background_style(BLUE.mix(0.1)).label_font(("Calibri", 20)).draw().unwrap();

The result is a chart with one data series labeled “Series 1” in a blue legend box:

See also

See crate::series::LineSeries for more information and examples

pub fn plotting_area(&self) -> &DrawingArea<DB, CT>

Get a reference of underlying plotting area

pub fn as_coord_spec(&self) -> &CT

Cast the reference to a chart context to a reference to underlying coordinate specification.

pub fn draw_series<B, E, R, S>( &mut self, series: S ) -> Result<&mut SeriesAnno<'a, DB>, DrawingAreaErrorKind<DB::ErrorType>>where B: CoordMapper, for<'b> &'b E: PointCollection<'b, CT::From, B>, E: Drawable<DB, B>, R: Borrow<E>, S: IntoIterator<Item = R>,

Draws a data series. A data series in Plotters is abstracted as an iterator of elements.

See crate::series::LineSeries and ChartContext::configure_series_labels() for more information and examples.

impl<'a, DB: DrawingBackend, CT: CoordTranslate> ChartContext<'a, DB, CT>

pub fn into_chart_state(self) -> ChartState<CT>

Convert a chart context into a chart state, by doing so, the chart context is consumed and a saved chart state is created for later use. This is typically used in incrmental rendering. See documentation of ChartState for more detailed example.

pub fn into_shared_chart_state(self) -> ChartState<Arc<CT>>

Convert the chart context into a sharable chart state. Normally a chart state can not be clone, since the coordinate spec may not be able to be cloned. In this case, we can use an Arc get the coordinate wrapped thus the state can be cloned and shared by multiple chart context

impl<'a, DB: DrawingBackend, CT: CoordTranslate + Clone> ChartContext<'a, DB, CT>

pub fn to_chart_state(&self) -> ChartState<CT>

Make the chart context, do not consume the chart context and clone the coordinate spec

Trait Implementations

impl<'a, DB: DrawingBackend, CT1: CoordTranslate, CT2: CoordTranslate> Borrow<ChartContext<'a, DB, CT1>> for DualCoordChartContext<'a, DB, CT1, CT2>

fn borrow(&self) -> &ChartContext<'a, DB, CT1>

Immutably borrows from an owned value.

impl<'a, DB: DrawingBackend, CT1: CoordTranslate, CT2: CoordTranslate> BorrowMut<ChartContext<'a, DB, CT1>> for DualCoordChartContext<'a, DB, CT1, CT2>

fn borrow_mut(&mut self) -> &mut ChartContext<'a, DB, CT1>

Mutably borrows from an owned value.

impl<'a, DB, CT> From<&ChartContext<'a, DB, CT>> for ChartState<CT>where DB: DrawingBackend, CT: CoordTranslate + Clone,

fn from(chart: &ChartContext<'a, DB, CT>) -> ChartState<CT>

Converts to this type from the input type.

impl<'a, DB: DrawingBackend, CT: CoordTranslate> From<ChartContext<'a, DB, CT>> for ChartState<CT>

fn from(chart: ChartContext<'a, DB, CT>) -> ChartState<CT>

Converts to this type from the input type.