src/chart/mesh.rs - platform/external/rust/crates/plotters - Git at Google

 use std::marker::PhantomData;

 use super::builder::LabelAreaPosition;
 use super::context::ChartContext;
 use crate::coord::cartesian::{Cartesian2d, MeshLine};
 use crate::coord::ranged1d::{BoldPoints, LightPoints, Ranged, ValueFormatter};
 use crate::drawing::DrawingAreaErrorKind;
 use crate::style::{
     AsRelative, Color, FontDesc, FontFamily, FontStyle, IntoTextStyle, RGBColor, ShapeStyle,
     SizeDesc, TextStyle,
 };

 use plotters_backend::DrawingBackend;

 /// The style used to describe the mesh and axis for a secondary coordinate system.
 pub struct SecondaryMeshStyle<'a, 'b, X: Ranged, Y: Ranged, DB: DrawingBackend> {
     style: MeshStyle<'a, 'b, X, Y, DB>,
 }

 impl<'a, 'b, XT, YT, X: Ranged<ValueType = XT>, Y: Ranged<ValueType = YT>, DB: DrawingBackend>
     SecondaryMeshStyle<'a, 'b, X, Y, DB>
 where
     X: ValueFormatter<XT>,
     Y: ValueFormatter<YT>,
 {
     pub(super) fn new(target: &'b mut ChartContext<'a, DB, Cartesian2d<X, Y>>) -> Self {
         let mut style = target.configure_mesh();
         style.draw_x_mesh = false;
         style.draw_y_mesh = false;
         Self { style }
     }

     /// Set the style definition for the axis
     /// - `style`: The style for the axis
     pub fn axis_style<T: Into<ShapeStyle>>(&mut self, style: T) -> &mut Self {
         self.style.axis_style(style);
         self
     }

     /// The offset of x labels. This is used when we want to place the label in the middle of
     /// the grid. This is used to adjust label position for histograms, but since plotters 0.3, this
     /// use case is deprecated, see [CentricDiscreteRanged coord decorator](../coord/trait.IntoCentric.html) for more details
     /// - `value`: The offset in pixel
     pub fn x_label_offset<S: SizeDesc>(&mut self, value: S) -> &mut Self {
         self.style.x_label_offset(value);
         self
     }

     /// The offset of y labels. This is used when we want to place the label in the middle of
     /// the grid. This is used to adjust label position for histograms, but since plotters 0.3, this
     /// use case is deprecated, see [CentricDiscreteRanged coord decorator](../coord/trait.IntoCentric.html) for more details
     /// - `value`: The offset in pixel
     pub fn y_label_offset<S: SizeDesc>(&mut self, value: S) -> &mut Self {
         self.style.y_label_offset(value);
         self
     }

     /// Set how many labels for the X axis at most
     /// - `value`: The maximum desired number of labels in the X axis
     pub fn x_labels(&mut self, value: usize) -> &mut Self {
         self.style.x_labels(value);
         self
     }

     /// Set how many label for the Y axis at most
     /// - `value`: The maximum desired number of labels in the Y axis
     pub fn y_labels(&mut self, value: usize) -> &mut Self {
         self.style.y_labels(value);
         self
     }

     /// Set the formatter function for the X label text
     /// - `fmt`: The formatter function
     pub fn x_label_formatter(&mut self, fmt: &'b dyn Fn(&X::ValueType) -> String) -> &mut Self {
         self.style.x_label_formatter(fmt);
         self
     }

     /// Set the formatter function for the Y label text
     /// - `fmt`: The formatter function
     pub fn y_label_formatter(&mut self, fmt: &'b dyn Fn(&Y::ValueType) -> String) -> &mut Self {
         self.style.y_label_formatter(fmt);
         self
     }

     /// Set the axis description's style. If not given, use label style instead.
     /// - `style`: The text style that would be applied to descriptions
     pub fn axis_desc_style<T: IntoTextStyle<'b>>(&mut self, style: T) -> &mut Self {
         self.style
             .axis_desc_style(style.into_text_style(&self.style.parent_size));
         self
     }

     /// Set the X axis's description
     /// - `desc`: The description of the X axis
     pub fn x_desc<T: Into<String>>(&mut self, desc: T) -> &mut Self {
         self.style.x_desc(desc);
         self
     }

     /// Set the Y axis's description
     /// - `desc`: The description of the Y axis
     pub fn y_desc<T: Into<String>>(&mut self, desc: T) -> &mut Self {
         self.style.y_desc(desc);
         self
     }

     /// Draw the axes for the secondary coordinate system
     pub fn draw(&mut self) -> Result<(), DrawingAreaErrorKind<DB::ErrorType>> {
         self.style.draw()
     }

     /// Set the label style for the secondary axis
     pub fn label_style<T: IntoTextStyle<'b>>(&mut self, style: T) -> &mut Self {
         self.style.label_style(style);
         self
     }

     /// Set all the tick mark to the same size
     /// `value`: The new size
     pub fn set_all_tick_mark_size<S: SizeDesc>(&mut self, value: S) -> &mut Self {
         let size = value.in_pixels(&self.style.parent_size);
         self.style.x_tick_size = [size, size];
         self.style.y_tick_size = [size, size];
         self
     }

     pub fn set_tick_mark_size<S: SizeDesc>(
         &mut self,
         pos: LabelAreaPosition,
         value: S,
     ) -> &mut Self {
         *match pos {
             LabelAreaPosition::Top => &mut self.style.x_tick_size[0],
             LabelAreaPosition::Bottom => &mut self.style.x_tick_size[1],
             LabelAreaPosition::Left => &mut self.style.y_tick_size[0],
             LabelAreaPosition::Right => &mut self.style.y_tick_size[1],
         } = value.in_pixels(&self.style.parent_size);
         self
     }
 }

 /// The struct that is used for tracking the configuration of a mesh of any chart
 pub struct MeshStyle<'a, 'b, X: Ranged, Y: Ranged, DB: DrawingBackend> {
     pub(super) parent_size: (u32, u32),
     pub(super) draw_x_mesh: bool,
     pub(super) draw_y_mesh: bool,
     pub(super) draw_x_axis: bool,
     pub(super) draw_y_axis: bool,
     pub(super) x_label_offset: i32,
     pub(super) y_label_offset: i32,
     pub(super) n_x_labels: usize,
     pub(super) n_y_labels: usize,
     pub(super) axis_desc_style: Option<TextStyle<'b>>,
     pub(super) x_desc: Option<String>,
     pub(super) y_desc: Option<String>,
     pub(super) bold_line_style: Option<ShapeStyle>,
     pub(super) light_line_style: Option<ShapeStyle>,
     pub(super) axis_style: Option<ShapeStyle>,
     pub(super) x_label_style: Option<TextStyle<'b>>,
     pub(super) y_label_style: Option<TextStyle<'b>>,
     pub(super) format_x: &'b dyn Fn(&X::ValueType) -> String,
     pub(super) format_y: &'b dyn Fn(&Y::ValueType) -> String,
     pub(super) target: Option<&'b mut ChartContext<'a, DB, Cartesian2d<X, Y>>>,
     pub(super) _phantom_data: PhantomData<(X, Y)>,
     pub(super) x_tick_size: [i32; 2],
     pub(super) y_tick_size: [i32; 2],
 }

 impl<'a, 'b, X, Y, XT, YT, DB> MeshStyle<'a, 'b, X, Y, DB>
 where
     X: Ranged<ValueType = XT> + ValueFormatter<XT>,
     Y: Ranged<ValueType = YT> + ValueFormatter<YT>,
     DB: DrawingBackend,
 {
     pub(crate) fn new(chart: &'b mut ChartContext<'a, DB, Cartesian2d<X, Y>>) -> Self {
         let base_tick_size = (5u32).percent().max(5).in_pixels(chart.plotting_area());

         let mut x_tick_size = [base_tick_size, base_tick_size];
         let mut y_tick_size = [base_tick_size, base_tick_size];

         for idx in 0..2 {
             if chart.is_overlapping_drawing_area(chart.x_label_area[idx].as_ref()) {
                 x_tick_size[idx] = -x_tick_size[idx];
             }
             if chart.is_overlapping_drawing_area(chart.y_label_area[idx].as_ref()) {
                 y_tick_size[idx] = -y_tick_size[idx];
             }
         }

         MeshStyle {
             parent_size: chart.drawing_area.dim_in_pixel(),
             axis_style: None,
             x_label_offset: 0,
             y_label_offset: 0,
             draw_x_mesh: true,
             draw_y_mesh: true,
             draw_x_axis: true,
             draw_y_axis: true,
             n_x_labels: 10,
             n_y_labels: 10,
             bold_line_style: None,
             light_line_style: None,
             x_label_style: None,
             y_label_style: None,
             format_x: &X::format,
             format_y: &Y::format,
             target: Some(chart),
             _phantom_data: PhantomData,
             x_desc: None,
             y_desc: None,
             axis_desc_style: None,
             x_tick_size,
             y_tick_size,
         }
     }
 }

 impl<'a, 'b, X, Y, DB> MeshStyle<'a, 'b, X, Y, DB>
 where
     X: Ranged,
     Y: Ranged,
     DB: DrawingBackend,
 {
     /// Set all the tick mark to the same size
     /// `value`: The new size
     pub fn set_all_tick_mark_size<S: SizeDesc>(&mut self, value: S) -> &mut Self {
         let size = value.in_pixels(&self.parent_size);
         self.x_tick_size = [size, size];
         self.y_tick_size = [size, size];
         self
     }

     /// Set the tick mark size on the axes. When this is set to negative, the axis value label will
     /// become inward.
     ///
     /// - `pos`: The which label area we want to set
     /// - `value`: The size specification
     pub fn set_tick_mark_size<S: SizeDesc>(
         &mut self,
         pos: LabelAreaPosition,
         value: S,
     ) -> &mut Self {
         *match pos {
             LabelAreaPosition::Top => &mut self.x_tick_size[0],
             LabelAreaPosition::Bottom => &mut self.x_tick_size[1],
             LabelAreaPosition::Left => &mut self.y_tick_size[0],
             LabelAreaPosition::Right => &mut self.y_tick_size[1],
         } = value.in_pixels(&self.parent_size);
         self
     }

     /// The offset of x labels. This is used when we want to place the label in the middle of
     /// the grid. This is used to adjust label position for histograms, but since plotters 0.3, this
     /// use case is deprecated, see [CentricDiscreteRanged coord decorator](../coord/trait.IntoCentric.html) for more details
     /// - `value`: The offset in pixel
     pub fn x_label_offset<S: SizeDesc>(&mut self, value: S) -> &mut Self {
         self.x_label_offset = value.in_pixels(&self.parent_size);
         self
     }

     /// The offset of y labels. This is used when we want to place the label in the middle of
     /// the grid. This is used to adjust label position for histograms, but since plotters 0.3, this
     /// use case is deprecated, see [CentricDiscreteRanged coord decorator](../coord/trait.IntoCentric.html) for more details
     /// - `value`: The offset in pixel
     pub fn y_label_offset<S: SizeDesc>(&mut self, value: S) -> &mut Self {
         self.y_label_offset = value.in_pixels(&self.parent_size);
         self
     }

     /// Disable the mesh for the x axis.
     pub fn disable_x_mesh(&mut self) -> &mut Self {
         self.draw_x_mesh = false;
         self
     }

     /// Disable the mesh for the y axis
     pub fn disable_y_mesh(&mut self) -> &mut Self {
         self.draw_y_mesh = false;
         self
     }

     /// Disable drawing the X axis
     pub fn disable_x_axis(&mut self) -> &mut Self {
         self.draw_x_axis = false;
         self
     }

     /// Disable drawing the Y axis
     pub fn disable_y_axis(&mut self) -> &mut Self {
         self.draw_y_axis = false;
         self
     }

     /// Disable drawing all meshes
     pub fn disable_mesh(&mut self) -> &mut Self {
         self.disable_x_mesh().disable_y_mesh()
     }

     /// Disable drawing all axes
     pub fn disable_axes(&mut self) -> &mut Self {
         self.disable_x_axis().disable_y_axis()
     }

     /// Set the style definition for the axis
     /// - `style`: The style for the axis
     pub fn axis_style<T: Into<ShapeStyle>>(&mut self, style: T) -> &mut Self {
         self.axis_style = Some(style.into());
         self
     }
     /// Set how many labels for the X axis at most
     /// - `value`: The maximum desired number of labels in the X axis
     pub fn x_labels(&mut self, value: usize) -> &mut Self {
         self.n_x_labels = value;
         self
     }

     /// Set how many label for the Y axis at most
     /// - `value`: The maximum desired number of labels in the Y axis
     pub fn y_labels(&mut self, value: usize) -> &mut Self {
         self.n_y_labels = value;
         self
     }

     /// Set the style for the coarse grind grid
     /// - `style`: This is the coarse grind grid style
     pub fn bold_line_style<T: Into<ShapeStyle>>(&mut self, style: T) -> &mut Self {
         self.bold_line_style = Some(style.into());
         self
     }

     /// Set the style for the fine grind grid
     /// - `style`: The fine grind grid style
     pub fn light_line_style<T: Into<ShapeStyle>>(&mut self, style: T) -> &mut Self {
         self.light_line_style = Some(style.into());
         self
     }

     /// Set the style of the label text
     /// - `style`: The text style that would be applied to the labels
     pub fn label_style<T: IntoTextStyle<'b>>(&mut self, style: T) -> &mut Self {
         let style = style.into_text_style(&self.parent_size);
         self.x_label_style = Some(style.clone());
         self.y_label_style = Some(style);
         self
     }

     /// Set the style of the label X axis text
     /// - `style`: The text style that would be applied to the labels
     pub fn x_label_style<T: IntoTextStyle<'b>>(&mut self, style: T) -> &mut Self {
         self.x_label_style = Some(style.into_text_style(&self.parent_size));
         self
     }

     /// Set the style of the label Y axis text
     /// - `style`: The text style that would be applied to the labels
     pub fn y_label_style<T: IntoTextStyle<'b>>(&mut self, style: T) -> &mut Self {
         self.y_label_style = Some(style.into_text_style(&self.parent_size));
         self
     }

     /// Set the formatter function for the X label text
     /// - `fmt`: The formatter function
     pub fn x_label_formatter(&mut self, fmt: &'b dyn Fn(&X::ValueType) -> String) -> &mut Self {
         self.format_x = fmt;
         self
     }

     /// Set the formatter function for the Y label text
     /// - `fmt`: The formatter function
     pub fn y_label_formatter(&mut self, fmt: &'b dyn Fn(&Y::ValueType) -> String) -> &mut Self {
         self.format_y = fmt;
         self
     }

     /// Set the axis description's style. If not given, use label style instead.
     /// - `style`: The text style that would be applied to descriptions
     pub fn axis_desc_style<T: IntoTextStyle<'b>>(&mut self, style: T) -> &mut Self {
         self.axis_desc_style = Some(style.into_text_style(&self.parent_size));
         self
     }

     /// Set the X axis's description
     /// - `desc`: The description of the X axis
     pub fn x_desc<T: Into<String>>(&mut self, desc: T) -> &mut Self {
         self.x_desc = Some(desc.into());
         self
     }

     /// Set the Y axis's description
     /// - `desc`: The description of the Y axis
     pub fn y_desc<T: Into<String>>(&mut self, desc: T) -> &mut Self {
         self.y_desc = Some(desc.into());
         self
     }

     /// Draw the configured mesh on the target plot
     pub fn draw(&mut self) -> Result<(), DrawingAreaErrorKind<DB::ErrorType>> {
         let target = self.target.take().unwrap();

         let default_mesh_color_1 = RGBColor(0, 0, 0).mix(0.2);
         let default_mesh_color_2 = RGBColor(0, 0, 0).mix(0.1);
         let default_axis_color = RGBColor(0, 0, 0);
         let default_label_font = FontDesc::new(
             FontFamily::SansSerif,
             f64::from((12i32).percent().max(12).in_pixels(&self.parent_size)),
             FontStyle::Normal,
         );

         let bold_style = self
             .bold_line_style
             .clone()
             .unwrap_or_else(|| (&default_mesh_color_1).into());
         let light_style = self
             .light_line_style
             .clone()
             .unwrap_or_else(|| (&default_mesh_color_2).into());
         let axis_style = self
             .axis_style
             .clone()
             .unwrap_or_else(|| (&default_axis_color).into());

         let x_label_style = self
             .x_label_style
             .clone()
             .unwrap_or_else(|| default_label_font.clone().into());

         let y_label_style = self
             .y_label_style
             .clone()
             .unwrap_or_else(|| default_label_font.into());

         let axis_desc_style = self
             .axis_desc_style
             .clone()
             .unwrap_or_else(|| x_label_style.clone());

         target.draw_mesh(
             (
                 LightPoints::new(self.n_y_labels, self.n_y_labels * 10),
                 LightPoints::new(self.n_x_labels, self.n_x_labels * 10),
             ),
             &light_style,
             &x_label_style,
             &y_label_style,
             |_| None,
             self.draw_x_mesh,
             self.draw_y_mesh,
             self.x_label_offset,
             self.y_label_offset,
             false,
             false,
             &axis_style,
             &axis_desc_style,
             self.x_desc.clone(),
             self.y_desc.clone(),
             self.x_tick_size,
             self.y_tick_size,
         )?;

         target.draw_mesh(
             (BoldPoints(self.n_y_labels), BoldPoints(self.n_x_labels)),
             &bold_style,
             &x_label_style,
             &y_label_style,
             |m| match m {
                 MeshLine::XMesh(_, _, v) => {
                     if self.draw_x_axis {
                         Some((self.format_x)(v))
                     } else {
                         None
                     }
                 }
                 MeshLine::YMesh(_, _, v) => {
                     if self.draw_y_axis {
                         Some((self.format_y)(v))
                     } else {
                         None
                     }
                 }
             },
             self.draw_x_mesh,
             self.draw_y_mesh,
             self.x_label_offset,
             self.y_label_offset,
             self.draw_x_axis,
             self.draw_y_axis,
             &axis_style,
             &axis_desc_style,
             None,
             None,
             self.x_tick_size,
             self.y_tick_size,
         )
     }
 }
	use std::marker::PhantomData;

	use super::builder::LabelAreaPosition;
	use super::context::ChartContext;
	use crate::coord::cartesian::{Cartesian2d, MeshLine};
	use crate::coord::ranged1d::{BoldPoints, LightPoints, Ranged, ValueFormatter};
	use crate::drawing::DrawingAreaErrorKind;
	use crate::style::{
	AsRelative, Color, FontDesc, FontFamily, FontStyle, IntoTextStyle, RGBColor, ShapeStyle,
	SizeDesc, TextStyle,
	};

	use plotters_backend::DrawingBackend;

	/// The style used to describe the mesh and axis for a secondary coordinate system.
	pub struct SecondaryMeshStyle<'a, 'b, X: Ranged, Y: Ranged, DB: DrawingBackend> {
	style: MeshStyle<'a, 'b, X, Y, DB>,
	}

	impl<'a, 'b, XT, YT, X: Ranged<ValueType = XT>, Y: Ranged<ValueType = YT>, DB: DrawingBackend>
	SecondaryMeshStyle<'a, 'b, X, Y, DB>
	where
	X: ValueFormatter<XT>,
	Y: ValueFormatter<YT>,
	{
	pub(super) fn new(target: &'b mut ChartContext<'a, DB, Cartesian2d<X, Y>>) -> Self {
	let mut style = target.configure_mesh();
	style.draw_x_mesh = false;
	style.draw_y_mesh = false;
	Self { style }
	}

	/// Set the style definition for the axis
	/// - `style`: The style for the axis
	pub fn axis_style<T: Into<ShapeStyle>>(&mut self, style: T) -> &mut Self {
	self.style.axis_style(style);
	self
	}

	/// The offset of x labels. This is used when we want to place the label in the middle of
	/// the grid. This is used to adjust label position for histograms, but since plotters 0.3, this
	/// use case is deprecated, see [CentricDiscreteRanged coord decorator](../coord/trait.IntoCentric.html) for more details
	/// - `value`: The offset in pixel
	pub fn x_label_offset<S: SizeDesc>(&mut self, value: S) -> &mut Self {
	self.style.x_label_offset(value);
	self
	}

	/// The offset of y labels. This is used when we want to place the label in the middle of
	/// the grid. This is used to adjust label position for histograms, but since plotters 0.3, this
	/// use case is deprecated, see [CentricDiscreteRanged coord decorator](../coord/trait.IntoCentric.html) for more details
	/// - `value`: The offset in pixel
	pub fn y_label_offset<S: SizeDesc>(&mut self, value: S) -> &mut Self {
	self.style.y_label_offset(value);
	self
	}

	/// Set how many labels for the X axis at most
	/// - `value`: The maximum desired number of labels in the X axis
	pub fn x_labels(&mut self, value: usize) -> &mut Self {
	self.style.x_labels(value);
	self
	}

	/// Set how many label for the Y axis at most
	/// - `value`: The maximum desired number of labels in the Y axis
	pub fn y_labels(&mut self, value: usize) -> &mut Self {
	self.style.y_labels(value);
	self
	}

	/// Set the formatter function for the X label text
	/// - `fmt`: The formatter function
	pub fn x_label_formatter(&mut self, fmt: &'b dyn Fn(&X::ValueType) -> String) -> &mut Self {
	self.style.x_label_formatter(fmt);
	self
	}

	/// Set the formatter function for the Y label text
	/// - `fmt`: The formatter function
	pub fn y_label_formatter(&mut self, fmt: &'b dyn Fn(&Y::ValueType) -> String) -> &mut Self {
	self.style.y_label_formatter(fmt);
	self
	}

	/// Set the axis description's style. If not given, use label style instead.
	/// - `style`: The text style that would be applied to descriptions
	pub fn axis_desc_style<T: IntoTextStyle<'b>>(&mut self, style: T) -> &mut Self {
	self.style
	.axis_desc_style(style.into_text_style(&self.style.parent_size));
	self
	}

	/// Set the X axis's description
	/// - `desc`: The description of the X axis
	pub fn x_desc<T: Into<String>>(&mut self, desc: T) -> &mut Self {
	self.style.x_desc(desc);
	self
	}

	/// Set the Y axis's description
	/// - `desc`: The description of the Y axis
	pub fn y_desc<T: Into<String>>(&mut self, desc: T) -> &mut Self {
	self.style.y_desc(desc);
	self
	}

	/// Draw the axes for the secondary coordinate system
	pub fn draw(&mut self) -> Result<(), DrawingAreaErrorKind<DB::ErrorType>> {
	self.style.draw()
	}

	/// Set the label style for the secondary axis
	pub fn label_style<T: IntoTextStyle<'b>>(&mut self, style: T) -> &mut Self {
	self.style.label_style(style);
	self
	}

	/// Set all the tick mark to the same size
	/// `value`: The new size
	pub fn set_all_tick_mark_size<S: SizeDesc>(&mut self, value: S) -> &mut Self {
	let size = value.in_pixels(&self.style.parent_size);
	self.style.x_tick_size = [size, size];
	self.style.y_tick_size = [size, size];
	self
	}

	pub fn set_tick_mark_size<S: SizeDesc>(
	&mut self,
	pos: LabelAreaPosition,
	value: S,
	) -> &mut Self {
	*match pos {
	LabelAreaPosition::Top => &mut self.style.x_tick_size[0],
	LabelAreaPosition::Bottom => &mut self.style.x_tick_size[1],
	LabelAreaPosition::Left => &mut self.style.y_tick_size[0],
	LabelAreaPosition::Right => &mut self.style.y_tick_size[1],
	} = value.in_pixels(&self.style.parent_size);
	self
	}
	}

	/// The struct that is used for tracking the configuration of a mesh of any chart
	pub struct MeshStyle<'a, 'b, X: Ranged, Y: Ranged, DB: DrawingBackend> {
	pub(super) parent_size: (u32, u32),
	pub(super) draw_x_mesh: bool,
	pub(super) draw_y_mesh: bool,
	pub(super) draw_x_axis: bool,
	pub(super) draw_y_axis: bool,
	pub(super) x_label_offset: i32,
	pub(super) y_label_offset: i32,
	pub(super) n_x_labels: usize,
	pub(super) n_y_labels: usize,
	pub(super) axis_desc_style: Option<TextStyle<'b>>,
	pub(super) x_desc: Option<String>,
	pub(super) y_desc: Option<String>,
	pub(super) bold_line_style: Option<ShapeStyle>,
	pub(super) light_line_style: Option<ShapeStyle>,
	pub(super) axis_style: Option<ShapeStyle>,
	pub(super) x_label_style: Option<TextStyle<'b>>,
	pub(super) y_label_style: Option<TextStyle<'b>>,
	pub(super) format_x: &'b dyn Fn(&X::ValueType) -> String,
	pub(super) format_y: &'b dyn Fn(&Y::ValueType) -> String,
	pub(super) target: Option<&'b mut ChartContext<'a, DB, Cartesian2d<X, Y>>>,
	pub(super) _phantom_data: PhantomData<(X, Y)>,
	pub(super) x_tick_size: [i32; 2],
	pub(super) y_tick_size: [i32; 2],
	}

	impl<'a, 'b, X, Y, XT, YT, DB> MeshStyle<'a, 'b, X, Y, DB>
	where
	X: Ranged<ValueType = XT> + ValueFormatter<XT>,
	Y: Ranged<ValueType = YT> + ValueFormatter<YT>,
	DB: DrawingBackend,
	{
	pub(crate) fn new(chart: &'b mut ChartContext<'a, DB, Cartesian2d<X, Y>>) -> Self {
	let base_tick_size = (5u32).percent().max(5).in_pixels(chart.plotting_area());

	let mut x_tick_size = [base_tick_size, base_tick_size];
	let mut y_tick_size = [base_tick_size, base_tick_size];

	for idx in 0..2 {
	if chart.is_overlapping_drawing_area(chart.x_label_area[idx].as_ref()) {
	x_tick_size[idx] = -x_tick_size[idx];
	}
	if chart.is_overlapping_drawing_area(chart.y_label_area[idx].as_ref()) {
	y_tick_size[idx] = -y_tick_size[idx];
	}
	}

	MeshStyle {
	parent_size: chart.drawing_area.dim_in_pixel(),
	axis_style: None,
	x_label_offset: 0,
	y_label_offset: 0,
	draw_x_mesh: true,
	draw_y_mesh: true,
	draw_x_axis: true,
	draw_y_axis: true,
	n_x_labels: 10,
	n_y_labels: 10,
	bold_line_style: None,
	light_line_style: None,
	x_label_style: None,
	y_label_style: None,
	format_x: &X::format,
	format_y: &Y::format,
	target: Some(chart),
	_phantom_data: PhantomData,
	x_desc: None,
	y_desc: None,
	axis_desc_style: None,
	x_tick_size,
	y_tick_size,
	}
	}
	}

	impl<'a, 'b, X, Y, DB> MeshStyle<'a, 'b, X, Y, DB>
	where
	X: Ranged,
	Y: Ranged,
	DB: DrawingBackend,
	{
	/// Set all the tick mark to the same size
	/// `value`: The new size
	pub fn set_all_tick_mark_size<S: SizeDesc>(&mut self, value: S) -> &mut Self {
	let size = value.in_pixels(&self.parent_size);
	self.x_tick_size = [size, size];
	self.y_tick_size = [size, size];
	self
	}

	/// Set the tick mark size on the axes. When this is set to negative, the axis value label will
	/// become inward.
	///
	/// - `pos`: The which label area we want to set
	/// - `value`: The size specification
	pub fn set_tick_mark_size<S: SizeDesc>(
	&mut self,
	pos: LabelAreaPosition,
	value: S,
	) -> &mut Self {
	*match pos {
	LabelAreaPosition::Top => &mut self.x_tick_size[0],
	LabelAreaPosition::Bottom => &mut self.x_tick_size[1],
	LabelAreaPosition::Left => &mut self.y_tick_size[0],
	LabelAreaPosition::Right => &mut self.y_tick_size[1],
	} = value.in_pixels(&self.parent_size);
	self
	}

	/// The offset of x labels. This is used when we want to place the label in the middle of
	/// the grid. This is used to adjust label position for histograms, but since plotters 0.3, this
	/// use case is deprecated, see [CentricDiscreteRanged coord decorator](../coord/trait.IntoCentric.html) for more details
	/// - `value`: The offset in pixel
	pub fn x_label_offset<S: SizeDesc>(&mut self, value: S) -> &mut Self {
	self.x_label_offset = value.in_pixels(&self.parent_size);
	self
	}

	/// The offset of y labels. This is used when we want to place the label in the middle of
	/// the grid. This is used to adjust label position for histograms, but since plotters 0.3, this
	/// use case is deprecated, see [CentricDiscreteRanged coord decorator](../coord/trait.IntoCentric.html) for more details
	/// - `value`: The offset in pixel
	pub fn y_label_offset<S: SizeDesc>(&mut self, value: S) -> &mut Self {
	self.y_label_offset = value.in_pixels(&self.parent_size);
	self
	}

	/// Disable the mesh for the x axis.
	pub fn disable_x_mesh(&mut self) -> &mut Self {
	self.draw_x_mesh = false;
	self
	}

	/// Disable the mesh for the y axis
	pub fn disable_y_mesh(&mut self) -> &mut Self {
	self.draw_y_mesh = false;
	self
	}

	/// Disable drawing the X axis
	pub fn disable_x_axis(&mut self) -> &mut Self {
	self.draw_x_axis = false;
	self
	}

	/// Disable drawing the Y axis
	pub fn disable_y_axis(&mut self) -> &mut Self {
	self.draw_y_axis = false;
	self
	}

	/// Disable drawing all meshes
	pub fn disable_mesh(&mut self) -> &mut Self {
	self.disable_x_mesh().disable_y_mesh()
	}

	/// Disable drawing all axes
	pub fn disable_axes(&mut self) -> &mut Self {
	self.disable_x_axis().disable_y_axis()
	}

	/// Set the style definition for the axis
	/// - `style`: The style for the axis
	pub fn axis_style<T: Into<ShapeStyle>>(&mut self, style: T) -> &mut Self {
	self.axis_style = Some(style.into());
	self
	}
	/// Set how many labels for the X axis at most
	/// - `value`: The maximum desired number of labels in the X axis
	pub fn x_labels(&mut self, value: usize) -> &mut Self {
	self.n_x_labels = value;
	self
	}

	/// Set how many label for the Y axis at most
	/// - `value`: The maximum desired number of labels in the Y axis
	pub fn y_labels(&mut self, value: usize) -> &mut Self {
	self.n_y_labels = value;
	self
	}

	/// Set the style for the coarse grind grid
	/// - `style`: This is the coarse grind grid style
	pub fn bold_line_style<T: Into<ShapeStyle>>(&mut self, style: T) -> &mut Self {
	self.bold_line_style = Some(style.into());
	self
	}

	/// Set the style for the fine grind grid
	/// - `style`: The fine grind grid style
	pub fn light_line_style<T: Into<ShapeStyle>>(&mut self, style: T) -> &mut Self {
	self.light_line_style = Some(style.into());
	self
	}

	/// Set the style of the label text
	/// - `style`: The text style that would be applied to the labels
	pub fn label_style<T: IntoTextStyle<'b>>(&mut self, style: T) -> &mut Self {
	let style = style.into_text_style(&self.parent_size);
	self.x_label_style = Some(style.clone());
	self.y_label_style = Some(style);
	self
	}

	/// Set the style of the label X axis text
	/// - `style`: The text style that would be applied to the labels
	pub fn x_label_style<T: IntoTextStyle<'b>>(&mut self, style: T) -> &mut Self {
	self.x_label_style = Some(style.into_text_style(&self.parent_size));
	self
	}

	/// Set the style of the label Y axis text
	/// - `style`: The text style that would be applied to the labels
	pub fn y_label_style<T: IntoTextStyle<'b>>(&mut self, style: T) -> &mut Self {
	self.y_label_style = Some(style.into_text_style(&self.parent_size));
	self
	}

	/// Set the formatter function for the X label text
	/// - `fmt`: The formatter function
	pub fn x_label_formatter(&mut self, fmt: &'b dyn Fn(&X::ValueType) -> String) -> &mut Self {
	self.format_x = fmt;
	self
	}

	/// Set the formatter function for the Y label text
	/// - `fmt`: The formatter function
	pub fn y_label_formatter(&mut self, fmt: &'b dyn Fn(&Y::ValueType) -> String) -> &mut Self {
	self.format_y = fmt;
	self
	}

	/// Set the axis description's style. If not given, use label style instead.
	/// - `style`: The text style that would be applied to descriptions
	pub fn axis_desc_style<T: IntoTextStyle<'b>>(&mut self, style: T) -> &mut Self {
	self.axis_desc_style = Some(style.into_text_style(&self.parent_size));
	self
	}

	/// Set the X axis's description
	/// - `desc`: The description of the X axis
	pub fn x_desc<T: Into<String>>(&mut self, desc: T) -> &mut Self {
	self.x_desc = Some(desc.into());
	self
	}

	/// Set the Y axis's description
	/// - `desc`: The description of the Y axis
	pub fn y_desc<T: Into<String>>(&mut self, desc: T) -> &mut Self {
	self.y_desc = Some(desc.into());
	self
	}

	/// Draw the configured mesh on the target plot
	pub fn draw(&mut self) -> Result<(), DrawingAreaErrorKind<DB::ErrorType>> {
	let target = self.target.take().unwrap();

	let default_mesh_color_1 = RGBColor(0, 0, 0).mix(0.2);
	let default_mesh_color_2 = RGBColor(0, 0, 0).mix(0.1);
	let default_axis_color = RGBColor(0, 0, 0);
	let default_label_font = FontDesc::new(
	FontFamily::SansSerif,
	f64::from((12i32).percent().max(12).in_pixels(&self.parent_size)),
	FontStyle::Normal,
	);

	let bold_style = self
	.bold_line_style
	.clone()
	.unwrap_or_else(\|\| (&default_mesh_color_1).into());
	let light_style = self
	.light_line_style
	.clone()
	.unwrap_or_else(\|\| (&default_mesh_color_2).into());
	let axis_style = self
	.axis_style
	.clone()
	.unwrap_or_else(\|\| (&default_axis_color).into());

	let x_label_style = self
	.x_label_style
	.clone()
	.unwrap_or_else(\|\| default_label_font.clone().into());

	let y_label_style = self
	.y_label_style
	.clone()
	.unwrap_or_else(\|\| default_label_font.into());

	let axis_desc_style = self
	.axis_desc_style
	.clone()
	.unwrap_or_else(\|\| x_label_style.clone());

	target.draw_mesh(
	(
	LightPoints::new(self.n_y_labels, self.n_y_labels * 10),
	LightPoints::new(self.n_x_labels, self.n_x_labels * 10),
	),
	&light_style,
	&x_label_style,
	&y_label_style,
	\|_\| None,
	self.draw_x_mesh,
	self.draw_y_mesh,
	self.x_label_offset,
	self.y_label_offset,
	false,
	false,
	&axis_style,
	&axis_desc_style,
	self.x_desc.clone(),
	self.y_desc.clone(),
	self.x_tick_size,
	self.y_tick_size,
	)?;

	target.draw_mesh(
	(BoldPoints(self.n_y_labels), BoldPoints(self.n_x_labels)),
	&bold_style,
	&x_label_style,
	&y_label_style,
	\|m\| match m {
	MeshLine::XMesh(_, _, v) => {
	if self.draw_x_axis {
	Some((self.format_x)(v))
	} else {
	None
	}
	}
	MeshLine::YMesh(_, _, v) => {
	if self.draw_y_axis {
	Some((self.format_y)(v))
	} else {
	None
	}
	}
	},
	self.draw_x_mesh,
	self.draw_y_mesh,
	self.x_label_offset,
	self.y_label_offset,
	self.draw_x_axis,
	self.draw_y_axis,
	&axis_style,
	&axis_desc_style,
	None,
	None,
	self.x_tick_size,
	self.y_tick_size,
	)
	}
	}