vendor/criterion-plot-0.4.4/src/curve.rs - toolchain/rustc - Git at Google

 //! Simple "curve" like plots

 use std::borrow::Cow;
 use std::iter::IntoIterator;

 use crate::data::Matrix;
 use crate::traits::{self, Data, Set};
 use crate::{
     Axes, Color, CurveDefault, Display, Figure, Label, LineType, LineWidth, Plot, PointSize,
     PointType, Script,
 };

 /// Properties common to simple "curve" like plots
 pub struct Properties {
     axes: Option<Axes>,
     color: Option<Color>,
     label: Option<Cow<'static, str>>,
     line_type: LineType,
     linewidth: Option<f64>,
     point_type: Option<PointType>,
     point_size: Option<f64>,
     style: Style,
 }

 impl CurveDefault<Style> for Properties {
     fn default(style: Style) -> Properties {
         Properties {
             axes: None,
             color: None,
             label: None,
             line_type: LineType::Solid,
             linewidth: None,
             point_size: None,
             point_type: None,
             style,
         }
     }
 }

 impl Script for Properties {
     fn script(&self) -> String {
         let mut script = if let Some(axes) = self.axes {
             format!("axes {} ", axes.display())
         } else {
             String::new()
         };

         script.push_str(&format!("with {} ", self.style.display()));
         script.push_str(&format!("lt {} ", self.line_type.display()));

         if let Some(lw) = self.linewidth {
             script.push_str(&format!("lw {} ", lw))
         }

         if let Some(color) = self.color {
             script.push_str(&format!("lc rgb '{}' ", color.display()))
         }

         if let Some(pt) = self.point_type {
             script.push_str(&format!("pt {} ", pt.display()))
         }

         if let Some(ps) = self.point_size {
             script.push_str(&format!("ps {} ", ps))
         }

         if let Some(ref label) = self.label {
             script.push_str("title '");
             script.push_str(label);
             script.push('\'')
         } else {
             script.push_str("notitle")
         }

         script
     }
 }

 impl Set<Axes> for Properties {
     /// Select the axes to plot against
     ///
     /// **Note** By default, the `BottomXLeftY` axes are used
     fn set(&mut self, axes: Axes) -> &mut Properties {
         self.axes = Some(axes);
         self
     }
 }

 impl Set<Color> for Properties {
     /// Sets the line color
     fn set(&mut self, color: Color) -> &mut Properties {
         self.color = Some(color);
         self
     }
 }

 impl Set<Label> for Properties {
     /// Sets the legend label
     fn set(&mut self, label: Label) -> &mut Properties {
         self.label = Some(label.0);
         self
     }
 }

 impl Set<LineType> for Properties {
     /// Changes the line type
     ///
     /// **Note** By default `Solid` lines are used
     fn set(&mut self, lt: LineType) -> &mut Properties {
         self.line_type = lt;
         self
     }
 }

 impl Set<LineWidth> for Properties {
     /// Changes the width of the line
     ///
     /// # Panics
     ///
     /// Panics if `width` is a non-positive value
     fn set(&mut self, lw: LineWidth) -> &mut Properties {
         let lw = lw.0;

         assert!(lw > 0.);

         self.linewidth = Some(lw);
         self
     }
 }

 impl Set<PointSize> for Properties {
     /// Changes the size of the points
     ///
     /// # Panics
     ///
     /// Panics if `size` is a non-positive value
     fn set(&mut self, ps: PointSize) -> &mut Properties {
         let ps = ps.0;

         assert!(ps > 0.);

         self.point_size = Some(ps);
         self
     }
 }

 impl Set<PointType> for Properties {
     /// Changes the point type
     fn set(&mut self, pt: PointType) -> &mut Properties {
         self.point_type = Some(pt);
         self
     }
 }

 /// Types of "curve" plots
 pub enum Curve<X, Y> {
     /// A minimally sized dot on each data point
     Dots {
         /// X coordinate of the data points
         x: X,
         /// Y coordinate of the data points
         y: Y,
     },
     /// A vertical "impulse" on each data point
     Impulses {
         /// X coordinate of the data points
         x: X,
         /// Y coordinate of the data points
         y: Y,
     },
     /// Line that joins the data points
     Lines {
         /// X coordinate of the data points
         x: X,
         /// Y coordinate of the data points
         y: Y,
     },
     /// Line with a point on each data point
     LinesPoints {
         /// X coordinate of the data points
         x: X,
         /// Y coordinate of the data points
         y: Y,
     },
     /// A point on each data point
     Points {
         /// X coordinate of the data points
         x: X,
         /// Y coordinate of the data points
         y: Y,
     },
     /// An step `_|` between each data point
     Steps {
         /// X coordinate of the data points
         x: X,
         /// Y coordinate of the data points
         y: Y,
     },
 }

 impl<X, Y> Curve<X, Y> {
     fn style(&self) -> Style {
         match *self {
             Curve::Dots { .. } => Style::Dots,
             Curve::Impulses { .. } => Style::Impulses,
             Curve::Lines { .. } => Style::Lines,
             Curve::LinesPoints { .. } => Style::LinesPoints,
             Curve::Points { .. } => Style::Points,
             Curve::Steps { .. } => Style::Steps,
         }
     }
 }

 #[derive(Clone, Copy)]
 enum Style {
     Dots,
     Impulses,
     Lines,
     LinesPoints,
     Points,
     Steps,
 }

 impl Display<&'static str> for Style {
     fn display(&self) -> &'static str {
         match *self {
             Style::Dots => "dots",
             Style::Impulses => "impulses",
             Style::Lines => "lines",
             Style::LinesPoints => "linespoints",
             Style::Points => "points",
             Style::Steps => "steps",
         }
     }
 }

 impl<X, Y> traits::Plot<Curve<X, Y>> for Figure
 where
     X: IntoIterator,
     X::Item: Data,
     Y: IntoIterator,
     Y::Item: Data,
 {
     type Properties = Properties;

     fn plot<F>(&mut self, curve: Curve<X, Y>, configure: F) -> &mut Figure
     where
         F: FnOnce(&mut Properties) -> &mut Properties,
     {
         let style = curve.style();
         let (x, y) = match curve {
             Curve::Dots { x, y }
             | Curve::Impulses { x, y }
             | Curve::Lines { x, y }
             | Curve::LinesPoints { x, y }
             | Curve::Points { x, y }
             | Curve::Steps { x, y } => (x, y),
         };

         let mut props = CurveDefault::default(style);
         configure(&mut props);

         let (x_factor, y_factor) =
             crate::scale_factor(&self.axes, props.axes.unwrap_or(crate::Axes::BottomXLeftY));

         let data = Matrix::new(izip!(x, y), (x_factor, y_factor));
         self.plots.push(Plot::new(data, &props));
         self
     }
 }
	//! Simple "curve" like plots

	use std::borrow::Cow;
	use std::iter::IntoIterator;

	use crate::data::Matrix;
	use crate::traits::{self, Data, Set};
	use crate::{
	Axes, Color, CurveDefault, Display, Figure, Label, LineType, LineWidth, Plot, PointSize,
	PointType, Script,
	};

	/// Properties common to simple "curve" like plots
	pub struct Properties {
	axes: Option<Axes>,
	color: Option<Color>,
	label: Option<Cow<'static, str>>,
	line_type: LineType,
	linewidth: Option<f64>,
	point_type: Option<PointType>,
	point_size: Option<f64>,
	style: Style,
	}

	impl CurveDefault<Style> for Properties {
	fn default(style: Style) -> Properties {
	Properties {
	axes: None,
	color: None,
	label: None,
	line_type: LineType::Solid,
	linewidth: None,
	point_size: None,
	point_type: None,
	style,
	}
	}
	}

	impl Script for Properties {
	fn script(&self) -> String {
	let mut script = if let Some(axes) = self.axes {
	format!("axes {} ", axes.display())
	} else {
	String::new()
	};

	script.push_str(&format!("with {} ", self.style.display()));
	script.push_str(&format!("lt {} ", self.line_type.display()));

	if let Some(lw) = self.linewidth {
	script.push_str(&format!("lw {} ", lw))
	}

	if let Some(color) = self.color {
	script.push_str(&format!("lc rgb '{}' ", color.display()))
	}

	if let Some(pt) = self.point_type {
	script.push_str(&format!("pt {} ", pt.display()))
	}

	if let Some(ps) = self.point_size {
	script.push_str(&format!("ps {} ", ps))
	}

	if let Some(ref label) = self.label {
	script.push_str("title '");
	script.push_str(label);
	script.push('\'')
	} else {
	script.push_str("notitle")
	}

	script
	}
	}

	impl Set<Axes> for Properties {
	/// Select the axes to plot against
	///
	/// Note By default, the `BottomXLeftY` axes are used
	fn set(&mut self, axes: Axes) -> &mut Properties {
	self.axes = Some(axes);
	self
	}
	}

	impl Set<Color> for Properties {
	/// Sets the line color
	fn set(&mut self, color: Color) -> &mut Properties {
	self.color = Some(color);
	self
	}
	}

	impl Set<Label> for Properties {
	/// Sets the legend label
	fn set(&mut self, label: Label) -> &mut Properties {
	self.label = Some(label.0);
	self
	}
	}

	impl Set<LineType> for Properties {
	/// Changes the line type
	///
	/// Note By default `Solid` lines are used
	fn set(&mut self, lt: LineType) -> &mut Properties {
	self.line_type = lt;
	self
	}
	}

	impl Set<LineWidth> for Properties {
	/// Changes the width of the line
	///
	/// # Panics
	///
	/// Panics if `width` is a non-positive value
	fn set(&mut self, lw: LineWidth) -> &mut Properties {
	let lw = lw.0;

	assert!(lw > 0.);

	self.linewidth = Some(lw);
	self
	}
	}

	impl Set<PointSize> for Properties {
	/// Changes the size of the points
	///
	/// # Panics
	///
	/// Panics if `size` is a non-positive value
	fn set(&mut self, ps: PointSize) -> &mut Properties {
	let ps = ps.0;

	assert!(ps > 0.);

	self.point_size = Some(ps);
	self
	}
	}

	impl Set<PointType> for Properties {
	/// Changes the point type
	fn set(&mut self, pt: PointType) -> &mut Properties {
	self.point_type = Some(pt);
	self
	}
	}

	/// Types of "curve" plots
	pub enum Curve<X, Y> {
	/// A minimally sized dot on each data point
	Dots {
	/// X coordinate of the data points
	x: X,
	/// Y coordinate of the data points
	y: Y,
	},
	/// A vertical "impulse" on each data point
	Impulses {
	/// X coordinate of the data points
	x: X,
	/// Y coordinate of the data points
	y: Y,
	},
	/// Line that joins the data points
	Lines {
	/// X coordinate of the data points
	x: X,
	/// Y coordinate of the data points
	y: Y,
	},
	/// Line with a point on each data point
	LinesPoints {
	/// X coordinate of the data points
	x: X,
	/// Y coordinate of the data points
	y: Y,
	},
	/// A point on each data point
	Points {
	/// X coordinate of the data points
	x: X,
	/// Y coordinate of the data points
	y: Y,
	},
	/// An step `_\|` between each data point
	Steps {
	/// X coordinate of the data points
	x: X,
	/// Y coordinate of the data points
	y: Y,
	},
	}

	impl<X, Y> Curve<X, Y> {
	fn style(&self) -> Style {
	match *self {
	Curve::Dots { .. } => Style::Dots,
	Curve::Impulses { .. } => Style::Impulses,
	Curve::Lines { .. } => Style::Lines,
	Curve::LinesPoints { .. } => Style::LinesPoints,
	Curve::Points { .. } => Style::Points,
	Curve::Steps { .. } => Style::Steps,
	}
	}
	}

	#[derive(Clone, Copy)]
	enum Style {
	Dots,
	Impulses,
	Lines,
	LinesPoints,
	Points,
	Steps,
	}

	impl Display<&'static str> for Style {
	fn display(&self) -> &'static str {
	match *self {
	Style::Dots => "dots",
	Style::Impulses => "impulses",
	Style::Lines => "lines",
	Style::LinesPoints => "linespoints",
	Style::Points => "points",
	Style::Steps => "steps",
	}
	}
	}

	impl<X, Y> traits::Plot<Curve<X, Y>> for Figure
	where
	X: IntoIterator,
	X::Item: Data,
	Y: IntoIterator,
	Y::Item: Data,
	{
	type Properties = Properties;

	fn plot<F>(&mut self, curve: Curve<X, Y>, configure: F) -> &mut Figure
	where
	F: FnOnce(&mut Properties) -> &mut Properties,
	{
	let style = curve.style();
	let (x, y) = match curve {
	Curve::Dots { x, y }
	\| Curve::Impulses { x, y }
	\| Curve::Lines { x, y }
	\| Curve::LinesPoints { x, y }
	\| Curve::Points { x, y }
	\| Curve::Steps { x, y } => (x, y),
	};

	let mut props = CurveDefault::default(style);
	configure(&mut props);

	let (x_factor, y_factor) =
	crate::scale_factor(&self.axes, props.axes.unwrap_or(crate::Axes::BottomXLeftY));

	let data = Matrix::new(izip!(x, y), (x_factor, y_factor));
	self.plots.push(Plot::new(data, &props));
	self
	}
	}