Struct argmin::core::ArgminIterData [−][src]
pub struct ArgminIterData<O: ArgminOp> { /* fields omitted */ }
The datastructure which is returned by the next_iter
method of the Solver
trait.
TODO: Rename to IterResult?
Implementations
impl<O: ArgminOp> ArgminIterData<O>
[src]
impl<O: ArgminOp> ArgminIterData<O>
[src]pub fn new() -> Self
[src]
Constructor
pub fn param(self, param: O::Param) -> Self
[src]
Set parameter vector
pub fn cost(self, cost: O::Float) -> Self
[src]
Set cost function value
pub fn grad(self, grad: O::Param) -> Self
[src]
Set gradient
pub fn hessian(self, hessian: O::Hessian) -> Self
[src]
Set Hessian
pub fn jacobian(self, jacobian: O::Jacobian) -> Self
[src]
Set Jacobian
pub fn population(self, population: Vec<(O::Param, O::Float)>) -> Self
[src]
Set Population
pub fn kv(self, kv: ArgminKV) -> Self
[src]
Adds an ArgminKV
pub fn termination_reason(self, reason: TerminationReason) -> Self
[src]
Set termination reason
pub fn get_param(&self) -> Option<O::Param>
[src]
Get parameter vector
pub fn get_cost(&self) -> Option<O::Float>
[src]
Get cost function value
pub fn get_grad(&self) -> Option<O::Param>
[src]
Get gradient
pub fn get_hessian(&self) -> Option<O::Hessian>
[src]
Get Hessian
pub fn get_jacobian(&self) -> Option<O::Jacobian>
[src]
Get Jacobian
pub fn get_population(&self) -> Option<&Vec<(O::Param, O::Float)>>
[src]
Get reference to population
pub fn get_termination_reason(&self) -> Option<TerminationReason>
[src]
Get termination reason
pub fn get_kv(&self) -> ArgminKV
[src]
Return KV
Trait Implementations
impl<O: Clone + ArgminOp> Clone for ArgminIterData<O> where
O::Param: Clone,
O::Float: Clone,
O::Param: Clone,
O::Hessian: Clone,
O::Jacobian: Clone,
O::Param: Clone,
O::Float: Clone,
[src]
impl<O: Clone + ArgminOp> Clone for ArgminIterData<O> where
O::Param: Clone,
O::Float: Clone,
O::Param: Clone,
O::Hessian: Clone,
O::Jacobian: Clone,
O::Param: Clone,
O::Float: Clone,
[src]fn clone(&self) -> ArgminIterData<O>
[src]
pub fn clone_from(&mut self, source: &Self)
1.0.0[src]
Auto Trait Implementations
impl<O> RefUnwindSafe for ArgminIterData<O> where
<O as ArgminOp>::Float: RefUnwindSafe,
<O as ArgminOp>::Hessian: RefUnwindSafe,
<O as ArgminOp>::Jacobian: RefUnwindSafe,
<O as ArgminOp>::Param: RefUnwindSafe,
impl<O> RefUnwindSafe for ArgminIterData<O> where
<O as ArgminOp>::Float: RefUnwindSafe,
<O as ArgminOp>::Hessian: RefUnwindSafe,
<O as ArgminOp>::Jacobian: RefUnwindSafe,
<O as ArgminOp>::Param: RefUnwindSafe,
impl<O> Send for ArgminIterData<O> where
<O as ArgminOp>::Float: Send,
<O as ArgminOp>::Hessian: Send,
<O as ArgminOp>::Jacobian: Send,
<O as ArgminOp>::Param: Send,
impl<O> Send for ArgminIterData<O> where
<O as ArgminOp>::Float: Send,
<O as ArgminOp>::Hessian: Send,
<O as ArgminOp>::Jacobian: Send,
<O as ArgminOp>::Param: Send,
impl<O> Sync for ArgminIterData<O> where
<O as ArgminOp>::Float: Sync,
<O as ArgminOp>::Hessian: Sync,
<O as ArgminOp>::Jacobian: Sync,
<O as ArgminOp>::Param: Sync,
impl<O> Sync for ArgminIterData<O> where
<O as ArgminOp>::Float: Sync,
<O as ArgminOp>::Hessian: Sync,
<O as ArgminOp>::Jacobian: Sync,
<O as ArgminOp>::Param: Sync,
impl<O> Unpin for ArgminIterData<O> where
<O as ArgminOp>::Float: Unpin,
<O as ArgminOp>::Hessian: Unpin,
<O as ArgminOp>::Jacobian: Unpin,
<O as ArgminOp>::Param: Unpin,
impl<O> Unpin for ArgminIterData<O> where
<O as ArgminOp>::Float: Unpin,
<O as ArgminOp>::Hessian: Unpin,
<O as ArgminOp>::Jacobian: Unpin,
<O as ArgminOp>::Param: Unpin,
impl<O> UnwindSafe for ArgminIterData<O> where
<O as ArgminOp>::Float: UnwindSafe,
<O as ArgminOp>::Hessian: UnwindSafe,
<O as ArgminOp>::Jacobian: UnwindSafe,
<O as ArgminOp>::Param: UnwindSafe,
impl<O> UnwindSafe for ArgminIterData<O> where
<O as ArgminOp>::Float: UnwindSafe,
<O as ArgminOp>::Hessian: UnwindSafe,
<O as ArgminOp>::Jacobian: UnwindSafe,
<O as ArgminOp>::Param: UnwindSafe,
Blanket Implementations
impl<T> SendSyncUnwindSafe for T where
T: Send + Sync + UnwindSafe + ?Sized,
[src]
impl<T> SendSyncUnwindSafe for T where
T: Send + Sync + UnwindSafe + ?Sized,
[src]impl<V, T> VZip<V> for T where
V: MultiLane<T>,
impl<V, T> VZip<V> for T where
V: MultiLane<T>,