pub struct IndependentActiveLineageSampler<M: MathsCore, H: Habitat<M>, G: PrimeableRng<M>, X: EmigrationExit<M, H, G, IndependentLineageStore<M, H>>, D: DispersalSampler<M, H, G>, T: TurnoverRate<M, H>, N: SpeciationProbability<M, H>, J: EventTimeSampler<M, H, G, T>> { /* private fields */ }

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impl<M: MathsCore, H: Habitat<M>, G: PrimeableRng<M>, X: EmigrationExit<M, H, G, IndependentLineageStore<M, H>>, D: DispersalSampler<M, H, G>, T: TurnoverRate<M, H>, N: SpeciationProbability<M, H>, J: EventTimeSampler<M, H, G, T>> IndependentActiveLineageSampler<M, H, G, X, D, T, N, J>

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pub fn init_with_store_and_lineages<'h, O: TrustedOriginSampler<'h, M, Habitat = H>>( origin_sampler: O, event_time_sampler: J ) -> (IndependentLineageStore<M, H>, Self, Vec<Lineage>)
where H: 'h,

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pub fn resume_with_store_and_lineages<'h, O: UntrustedOriginSampler<'h, M, Habitat = H>>( origin_sampler: O, event_time_sampler: J, resume_time: NonNegativeF64 ) -> (IndependentLineageStore<M, H>, Self, Vec<Lineage>, Vec<ExceptionalLineage>)
where H: 'h,

Trait Implementations§

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impl<M: MathsCore, H: Habitat<M>, G: PrimeableRng<M>, X: EmigrationExit<M, H, G, IndependentLineageStore<M, H>>, D: DispersalSampler<M, H, G>, T: TurnoverRate<M, H>, N: SpeciationProbability<M, H>, J: EventTimeSampler<M, H, G, T>> ActiveLineageSampler<M, H, G, IndependentLineageStore<M, H>, X, D, IndependentCoalescenceSampler<M, H>, T, N, IndependentEventSampler<M, H, G, X, D, T, N>, NeverImmigrationEntry> for IndependentActiveLineageSampler<M, H, G, X, D, T, N, J>

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type LineageIterator<'a> = impl Iterator<Item = &'a Lineage> where H: 'a, G: 'a, X: 'a, D: 'a, T: 'a, N: 'a, J: 'a

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fn number_active_lineages(&self) -> usize

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fn iter_active_lineages_ordered<'a>( &'a self, habitat: &'a H, lineage_store: &'a S ) -> Self::LineageIterator<'a>

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fn get_last_event_time(&self) -> NonNegativeF64

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fn pop_active_lineage_and_event_time<P>( &mut self, simulation: &mut PartialSimulation<M, H, G, S, X, D, C, T, N, E>, rng: &mut G, early_peek_stop: P ) -> Option<(Lineage, PositiveF64)>
where P: FnOnce(PositiveF64) -> ControlFlow<()>,

Contracts Read more
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fn push_active_lineage( &mut self, lineage: Lineage, simulation: &mut PartialSimulation<M, H, G, S, X, D, C, T, N, E>, rng: &mut G )

Contracts Read more
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impl<M: MathsCore, H: Habitat<M>, G: PrimeableRng<M>, X: EmigrationExit<M, H, G, IndependentLineageStore<M, H>>, D: DispersalSampler<M, H, G>, T: TurnoverRate<M, H>, N: SpeciationProbability<M, H>, J: EventTimeSampler<M, H, G, T>> Backup for IndependentActiveLineageSampler<M, H, G, X, D, T, N, J>

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unsafe fn backup_unchecked(&self) -> Self

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fn backup(&self) -> BackedUp<Self>

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impl<M: Debug + MathsCore, H: Debug + Habitat<M>, G: Debug + PrimeableRng<M>, X: Debug + EmigrationExit<M, H, G, IndependentLineageStore<M, H>>, D: Debug + DispersalSampler<M, H, G>, T: Debug + TurnoverRate<M, H>, N: Debug + SpeciationProbability<M, H>, J: Debug + EventTimeSampler<M, H, G, T>> Debug for IndependentActiveLineageSampler<M, H, G, X, D, T, N, J>

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fn fmt(&self, f: &mut Formatter<'_>) -> Result

Formats the value using the given formatter. Read more
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impl<M: MathsCore, H, G, X, D, T, N, J> RustToCuda for IndependentActiveLineageSampler<M, H, G, X, D, T, N, J>
where J: RustToCuda + EventTimeSampler<M, H, G, T>, H: RustToCuda + Habitat<M>, G: RustToCuda + PrimeableRng<M>, X: RustToCuda + EmigrationExit<M, H, G, IndependentLineageStore<M, H>>, D: RustToCuda + DispersalSampler<M, H, G>, T: RustToCuda + TurnoverRate<M, H>, N: RustToCuda + SpeciationProbability<M, H>,

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type CudaRepresentation = IndependentActiveLineageSamplerCudaRepresentation<M, H, G, X, D, T, N, J>

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type CudaAllocation = CombinedCudaAlloc<<J as RustToCuda>::CudaAllocation, CombinedCudaAlloc<<Option<Lineage> as RustToCuda>::CudaAllocation, NoCudaAlloc>>

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impl<M: MathsCore, H, G, X, D, T, N, J> RustToCudaAsync for IndependentActiveLineageSampler<M, H, G, X, D, T, N, J>
where J: RustToCudaAsync + EventTimeSampler<M, H, G, T>, H: RustToCudaAsync + Habitat<M>, G: RustToCudaAsync + PrimeableRng<M>, X: RustToCudaAsync + EmigrationExit<M, H, G, IndependentLineageStore<M, H>>, D: RustToCudaAsync + DispersalSampler<M, H, G>, T: RustToCudaAsync + TurnoverRate<M, H>, N: RustToCudaAsync + SpeciationProbability<M, H>,

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impl<M: MathsCore, H: Habitat<M>, G: PrimeableRng<M>, X: EmigrationExit<M, H, G, IndependentLineageStore<M, H>>, D: DispersalSampler<M, H, G>, T: TurnoverRate<M, H>, N: SpeciationProbability<M, H>, J: EventTimeSampler<M, H, G, T>> SingularActiveLineageSampler<M, H, G, IndependentLineageStore<M, H>, X, D, IndependentCoalescenceSampler<M, H>, T, N, IndependentEventSampler<M, H, G, X, D, T, N>, NeverImmigrationEntry> for IndependentActiveLineageSampler<M, H, G, X, D, T, N, J>

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fn replace_active_lineage( &mut self, active_lineage: Option<Lineage> ) -> Option<Lineage>

Auto Trait Implementations§

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impl<M, H, G, X, D, T, N, J> Freeze for IndependentActiveLineageSampler<M, H, G, X, D, T, N, J>
where J: Freeze,

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impl<M, H, G, X, D, T, N, J> RefUnwindSafe for IndependentActiveLineageSampler<M, H, G, X, D, T, N, J>

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impl<M, H, G, X, D, T, N, J> Send for IndependentActiveLineageSampler<M, H, G, X, D, T, N, J>
where J: Send, H: Send, X: Send, D: Send, T: Send, N: Send,

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impl<M, H, G, X, D, T, N, J> Sync for IndependentActiveLineageSampler<M, H, G, X, D, T, N, J>
where J: Sync, H: Sync, G: Sync, X: Sync, D: Sync, T: Sync, N: Sync,

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impl<M, H, G, X, D, T, N, J> Unpin for IndependentActiveLineageSampler<M, H, G, X, D, T, N, J>
where J: Unpin, M: Unpin, H: Unpin, G: Unpin, X: Unpin, D: Unpin, T: Unpin, N: Unpin,

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impl<M, H, G, X, D, T, N, J> UnwindSafe for IndependentActiveLineageSampler<M, H, G, X, D, T, N, J>

Blanket Implementations§

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impl<T> Any for T
where T: 'static + ?Sized,

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fn type_id(&self) -> TypeId

Gets the TypeId of self. Read more
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impl<T> Borrow<T> for T
where T: ?Sized,

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fn borrow(&self) -> &T

Immutably borrows from an owned value. Read more
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impl<T> BorrowMut<T> for T
where T: ?Sized,

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fn borrow_mut(&mut self) -> &mut T

Mutably borrows from an owned value. Read more
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impl<T> ExtractDiscriminant for T

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type Discriminant = <T as ExtractDiscriminantSpec<<T as DiscriminantKind>::Discriminant>>::Ty

The type of the discriminant, which must satisfy the trait bounds required by core::mem::Discriminant. Read more
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impl<T> From<T> for T

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fn from(t: T) -> T

Returns the argument unchanged.

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impl<T, U> Into<U> for T
where U: From<T>,

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fn into(self) -> U

Calls U::from(self).

That is, this conversion is whatever the implementation of From<T> for U chooses to do.

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impl<T> LendToCuda for T
where T: RustToCuda,

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fn lend_to_cuda<O, E, F>(&self, inner: F) -> Result<O, E>

Lends an immutable borrow of &self to CUDA: Read more
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fn lend_to_cuda_mut<O, E, F>(&mut self, inner: F) -> Result<O, E>

Lends a mutable borrow of &mut self to CUDA iff Self is SafeMutableAliasing: Read more
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fn move_to_cuda<O, E, F>(self, inner: F) -> Result<O, E>

Moves self to CUDA iff Self is StackOnly. Read more
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impl<T> LendToCudaAsync for T
where T: RustToCudaAsync,

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fn lend_to_cuda_async<'stream, O, E, F>( &self, stream: Stream<'stream>, inner: F ) -> Result<O, E>
where E: From<CudaError>, F: FnOnce(Async<'_, 'stream, HostAndDeviceConstRef<'_, DeviceAccessible<<T as RustToCuda>::CudaRepresentation>>>) -> Result<O, E>, T: Sync,

Lends an immutable copy of &self to CUDA: Read more
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fn lend_to_cuda_mut_async<'a, 'stream, O, E, F, S>( this: OwningRefMut<'a, Box<S>, T>, stream: Stream<'stream>, inner: F ) -> Result<(Async<'a, 'stream, OwningRefMut<'a, Box<S>, T>, Box<dyn FnOnce(&mut T) -> Result<(), CudaError> + 'a>>, O), E>
where E: From<CudaError>, F: for<'b> FnOnce(Async<'b, 'stream, HostAndDeviceMutRef<'_, DeviceAccessible<<T as RustToCuda>::CudaRepresentation>>>) -> Result<O, E>, S: 'a, T: Sync + SafeMutableAliasing,

Lends a mutable borrow of &mut self to CUDA iff Self is SafeMutableAliasing: Read more
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fn move_to_cuda_async<'stream, O, E, F>( self, stream: Stream<'stream>, inner: F ) -> Result<O, E>

Moves self to CUDA iff self is StackOnly. Read more
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impl<T, U> TryFrom<U> for T
where U: Into<T>,

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type Error = Infallible

The type returned in the event of a conversion error.
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fn try_from(value: U) -> Result<T, <T as TryFrom<U>>::Error>

Performs the conversion.
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impl<T, U> TryInto<U> for T
where U: TryFrom<T>,

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type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.
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fn try_into(self) -> Result<U, <U as TryFrom<T>>::Error>

Performs the conversion.
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impl<T> Erased for T

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impl<T> PortableBitSemantics for T
where T: PortableBitSemantics + ?Sized,

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impl<T> StackOnly for T
where T: StackOnly,