pub trait ObligationProcessor {
type Obligation: ForestObligation;
type Error: Debug;
fn needs_process_obligation(&self, obligation: &Self::Obligation) -> bool;
fn process_obligation(
&mut self,
obligation: &mut Self::Obligation
) -> ProcessResult<Self::Obligation, Self::Error>;
fn process_backedge<'c, I>(
&mut self,
cycle: I,
_marker: PhantomData<&'c Self::Obligation>
)
where
I: Clone + Iterator<Item = &'c Self::Obligation>;
}Required Associated Types
Required Methods
source
fn needs_process_obligation(&self, obligation: &Self::Obligation) -> bool
sourcefn process_obligation(
fn process_obligation(
&mut self,
obligation: &mut Self::Obligation
) -> ProcessResult<Self::Obligation, Self::Error>
sourcefn process_backedge<'c, I>(
&mut self,
cycle: I,
_marker: PhantomData<&'c Self::Obligation>
)where
I: Clone + Iterator<Item = &'c Self::Obligation>,
fn process_backedge<'c, I>(
&mut self,
cycle: I,
_marker: PhantomData<&'c Self::Obligation>
)where
I: Clone + Iterator<Item = &'c Self::Obligation>,
As we do the cycle check, we invoke this callback when we
encounter an actual cycle. cycle is an iterator that starts
at the start of the cycle in the stack and walks toward the
top.
In other words, if we had O1 which required O2 which required O3 which required O1, we would give an iterator yielding O1, O2, O3 (O1 is not yielded twice).