pub struct NestedRange<Primary, Secondary>where
Primary: DiscreteRanged,
Secondary: Ranged,{ /* private fields */ }
Expand description
A nested coordinate spec which is a discrete coordinate on the top level and for each value in discrete value, there is a secondary coordinate system. And the value is defined as a tuple of primary coordinate value and secondary coordinate value
Trait Implementations§
source§impl<P, S> DiscreteRanged for NestedRange<P, S>where
P: DiscreteRanged,
S: DiscreteRanged,
impl<P, S> DiscreteRanged for NestedRange<P, S>where
P: DiscreteRanged,
S: DiscreteRanged,
source§fn size(&self) -> usize
fn size(&self) -> usize
Get the number of element in the range
Note: we assume that all the ranged discrete coordinate has finite value Read more
source§fn index_of(
&self,
value: &<NestedRange<P, S> as Ranged>::ValueType
) -> Option<usize>
fn index_of( &self, value: &<NestedRange<P, S> as Ranged>::ValueType ) -> Option<usize>
Map a value to the index Read more
source§fn from_index(
&self,
index: usize
) -> Option<<NestedRange<P, S> as Ranged>::ValueType>
fn from_index( &self, index: usize ) -> Option<<NestedRange<P, S> as Ranged>::ValueType>
Reverse map the index to the value Read more
source§fn values(&self) -> DiscreteValueIter<'_, Self>where
Self: Sized,
fn values(&self) -> DiscreteValueIter<'_, Self>where
Self: Sized,
Return a iterator that iterates over the all possible values Read more
source§impl<P, S> Ranged for NestedRange<P, S>where
P: DiscreteRanged,
S: Ranged,
impl<P, S> Ranged for NestedRange<P, S>where
P: DiscreteRanged,
S: Ranged,
§type FormatOption = NoDefaultFormatting
type FormatOption = NoDefaultFormatting
This marker decides if Plotters default ValueFormatter implementation should be used.
This associated type can be one of the following two types: Read more
§type ValueType = NestedValue<<P as Ranged>::ValueType, <S as Ranged>::ValueType>
type ValueType = NestedValue<<P as Ranged>::ValueType, <S as Ranged>::ValueType>
The type of this value in this range specification
source§fn range(&self) -> Range<<NestedRange<P, S> as Ranged>::ValueType>
fn range(&self) -> Range<<NestedRange<P, S> as Ranged>::ValueType>
Get the range of this value
source§fn map(
&self,
value: &<NestedRange<P, S> as Ranged>::ValueType,
limit: (i32, i32)
) -> i32
fn map( &self, value: &<NestedRange<P, S> as Ranged>::ValueType, limit: (i32, i32) ) -> i32
This function maps the value to i32, which is the drawing coordinate
source§fn key_points<Hint>(
&self,
hint: Hint
) -> Vec<<NestedRange<P, S> as Ranged>::ValueType>where
Hint: KeyPointHint,
fn key_points<Hint>(
&self,
hint: Hint
) -> Vec<<NestedRange<P, S> as Ranged>::ValueType>where
Hint: KeyPointHint,
This function gives the key points that we can draw a grid based on this
source§impl<PT, ST, P, S> ValueFormatter<NestedValue<PT, ST>> for NestedRange<P, S>where
P: Ranged<ValueType = PT> + DiscreteRanged + ValueFormatter<PT>,
S: Ranged<ValueType = ST> + ValueFormatter<ST>,
impl<PT, ST, P, S> ValueFormatter<NestedValue<PT, ST>> for NestedRange<P, S>where
P: Ranged<ValueType = PT> + DiscreteRanged + ValueFormatter<PT>,
S: Ranged<ValueType = ST> + ValueFormatter<ST>,
source§fn format(value: &NestedValue<PT, ST>) -> String
fn format(value: &NestedValue<PT, ST>) -> String
Format the value
source§fn format_ext(&self, value: &V) -> String
fn format_ext(&self, value: &V) -> String
Determine how we can format a value in a coordinate system by default
Auto Trait Implementations§
impl<Primary, Secondary> RefUnwindSafe for NestedRange<Primary, Secondary>where
Primary: RefUnwindSafe,
Secondary: RefUnwindSafe,
impl<Primary, Secondary> Send for NestedRange<Primary, Secondary>
impl<Primary, Secondary> Sync for NestedRange<Primary, Secondary>
impl<Primary, Secondary> Unpin for NestedRange<Primary, Secondary>
impl<Primary, Secondary> UnwindSafe for NestedRange<Primary, Secondary>where
Primary: UnwindSafe,
Secondary: UnwindSafe,
Blanket Implementations§
source§impl<T> AsRangedCoord for Twhere
T: Ranged,
impl<T> AsRangedCoord for Twhere
T: Ranged,
source§impl<T> BindKeyPointMethod for Twhere
T: AsRangedCoord,
impl<T> BindKeyPointMethod for Twhere
T: AsRangedCoord,
source§fn with_key_point_func<F>(
self,
func: F
) -> WithKeyPointMethod<Self::CoordDescType>
fn with_key_point_func<F>( self, func: F ) -> WithKeyPointMethod<Self::CoordDescType>
Bind a existing coordinate spec with a given key points algorithm. See WithKeyPointMethod for more details.
Example: Read more
source§impl<T> BindKeyPoints for Twhere
T: AsRangedCoord,
impl<T> BindKeyPoints for Twhere
T: AsRangedCoord,
source§fn with_key_points(
self,
points: Vec<Self::Value>
) -> WithKeyPoints<Self::CoordDescType>
fn with_key_points( self, points: Vec<Self::Value> ) -> WithKeyPoints<Self::CoordDescType>
Bind a existing coordinate spec with a given key points vector. See WithKeyPoints for more details.
Example: Read more
source§impl<T> BorrowMut<T> for Twhere
T: ?Sized,
impl<T> BorrowMut<T> for Twhere
T: ?Sized,
source§fn borrow_mut(&mut self) -> &mut T
fn borrow_mut(&mut self) -> &mut T
Mutably borrows from an owned value. Read more
source§impl<T> IntoLinspace for Twhere
T: AsRangedCoord,
impl<T> IntoLinspace for Twhere
T: AsRangedCoord,
source§impl<R> IntoPartialAxis for Rwhere
R: AsRangedCoord,
impl<R> IntoPartialAxis for Rwhere
R: AsRangedCoord,
source§fn partial_axis(
self,
axis_range: Range<<Self::CoordDescType as Ranged>::ValueType>
) -> PartialAxis<Self::CoordDescType>
fn partial_axis( self, axis_range: Range<<Self::CoordDescType as Ranged>::ValueType> ) -> PartialAxis<Self::CoordDescType>
Make the partial axis Read more