use super::*;
#[test]
fn backward_slice_requires_caller_supplied_shape() {
let shape = ProgramGraphShape::new(64, 128);
let p = backward_slice(shape, "sink_in", "slice_out");
let buffer_count = |name: &str| {
p.buffers
.iter()
.find(|buffer| buffer.name() == name)
.map(|buffer| buffer.count)
.unwrap_or_else(|| panic!("{name} buffer must be declared"))
};
assert_eq!(
buffer_count("sink_in"),
2,
"Fix: backward slice input frontier must be sized to the caller's full node domain."
);
assert_eq!(
buffer_count("slice_out"),
2,
"Fix: backward slice output frontier must be sized to the caller's full node domain."
);
assert_eq!(
buffer_count("pg_edge_targets"),
128,
"Fix: backward slice CSR target buffer must preserve the caller's full edge domain."
);
assert_eq!(
buffer_count("pg_edge_offsets"),
65,
"Fix: backward slice CSR offset buffer must contain node_count + 1 offsets."
);
}
#[test]
fn slice_closure_into_reuses_output_storage_across_iterations() {
let calls = std::cell::Cell::new(0_u32);
let saw_reused_slot = std::cell::Cell::new(false);
let dispatch =
|_: &Program, inputs: &[&[u8]], _: Option<[u32; 3]>, outputs: &mut Vec<Vec<u8>>| {
if inputs.len() < 6 {
return crate::fixed_point_closure::fallback_bitset_equal_dispatch(inputs, outputs);
}
let call = calls.get();
if call > 0 && outputs.len() == 1 {
saw_reused_slot.set(true);
}
calls.set(call + 1);
let frontier = u32::from_le_bytes(inputs[5][..4].try_into().unwrap());
let next = if frontier & 0b10 != 0 {
frontier | 0b01
} else {
frontier
};
if outputs.is_empty() {
outputs.push(Vec::new());
}
outputs[0].clear();
outputs[0].extend_from_slice(&next.to_le_bytes());
Ok(())
};
let mut scratch = crate::fixed_point_scratch::FixedPointScratch::default();
let result = slice_closure_borrowed_into_with_scratch_via(
&dispatch,
2,
&[0, 1, 1],
&[1],
&[vyre_primitives::predicate::edge_kind::CONTROL],
&[0b10],
4,
&mut scratch,
)
.expect("slice closure into dispatch must converge");
assert_eq!(result, vec![0b11]);
assert_eq!(calls.get(), 2);
assert!(saw_reused_slot.get());
assert!(scratch.frontier_word_capacity() >= 1);
}
#[test]
fn slice_closure_into_result_reuses_caller_result_storage() {
let dispatch =
|_: &Program, inputs: &[&[u8]], _: Option<[u32; 3]>, outputs: &mut Vec<Vec<u8>>| {
if inputs.len() < 6 {
return crate::fixed_point_closure::fallback_bitset_equal_dispatch(inputs, outputs);
}
let frontier = u32::from_le_bytes(inputs[5][..4].try_into().unwrap());
let next = if frontier & 0b10 != 0 {
frontier | 0b01
} else {
frontier
};
if outputs.is_empty() {
outputs.push(Vec::new());
}
outputs[0].clear();
outputs[0].extend_from_slice(&next.to_le_bytes());
Ok(())
};
let mut scratch = crate::fixed_point_scratch::FixedPointScratch::default();
let mut result = Vec::with_capacity(1);
let result_ptr = result.as_ptr();
let result_capacity = result.capacity();
slice_closure_borrowed_into_result_with_scratch_via(
&dispatch,
2,
&[0, 1, 1],
&[1],
&[vyre_primitives::predicate::edge_kind::CONTROL],
&[0b10],
4,
&mut scratch,
&mut result,
)
.expect("slice closure must fill caller-owned result");
assert_eq!(result, vec![0b11]);
assert_eq!(result.as_ptr(), result_ptr);
assert_eq!(result.capacity(), result_capacity);
}
#[test]
#[allow(deprecated)]
fn deprecated_alias_emits_same_program_shape() {
let shape = ProgramGraphShape::new(32, 64);
let canonical = backward_slice(shape, "fin", "fout");
let alias = backward_slice_with_shape(shape, "fin", "fout");
assert_eq!(canonical.workgroup_size, alias.workgroup_size);
assert_eq!(canonical.buffers.len(), alias.buffers.len());
}