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Cagire/tests/forth/temporal.rs
Raphaël Forment 53167e35b6 Feat: optimizations
2026-02-05 23:15:46 +01:00

210 lines
6.5 KiB
Rust
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use super::harness::*;
use std::collections::HashMap;
fn parse_params(output: &str) -> HashMap<String, f64> {
let mut params = HashMap::new();
let parts: Vec<&str> = output.trim_start_matches('/').split('/').collect();
let mut i = 0;
while i + 1 < parts.len() {
if let Ok(v) = parts[i + 1].parse::<f64>() {
params.insert(parts[i].to_string(), v);
}
i += 2;
}
params
}
fn get_deltas(outputs: &[String]) -> Vec<f64> {
outputs
.iter()
.map(|o| parse_params(o).get("delta").copied().unwrap_or(0.0))
.collect()
}
fn get_durs(outputs: &[String]) -> Vec<f64> {
outputs
.iter()
.map(|o| parse_params(o).get("dur").copied().unwrap_or(0.0))
.collect()
}
fn get_sounds(outputs: &[String]) -> Vec<String> {
outputs
.iter()
.map(|o| {
let parts: Vec<&str> = o.trim_start_matches('/').split('/').collect();
if parts.len() >= 2 && parts[0] == "sound" {
parts[1].to_string()
} else {
String::new()
}
})
.collect()
}
const EPSILON: f64 = 1e-9;
fn approx_eq(a: f64, b: f64) -> bool {
(a - b).abs() < EPSILON
}
#[test]
fn stepdur_baseline() {
let f = run("stepdur");
assert!(approx_eq(stack_float(&f), 0.125));
}
#[test]
fn single_emit() {
let outputs = expect_outputs(r#""kick" s ."#, 1);
let deltas = get_deltas(&outputs);
assert!(approx_eq(deltas[0], 0.0), "single emit at start should have delta 0");
}
#[test]
fn multiple_emits_all_at_zero() {
let outputs = expect_outputs(r#""kick" s . . . ."#, 4);
let deltas = get_deltas(&outputs);
for (i, delta) in deltas.iter().enumerate() {
assert!(approx_eq(*delta, 0.0), "emit {}: expected delta 0, got {}", i, delta);
}
}
#[test]
fn sound_persists() {
let outputs = expect_outputs(r#""kick" s . . "hat" s . ."#, 4);
let sounds = get_sounds(&outputs);
assert_eq!(sounds[0], "kick");
assert_eq!(sounds[1], "kick");
assert_eq!(sounds[2], "hat");
assert_eq!(sounds[3], "hat");
}
#[test]
fn alternating_sounds() {
let outputs = expect_outputs(r#""kick" s . "snare" s . "kick" s . "snare" s ."#, 4);
let sounds = get_sounds(&outputs);
assert_eq!(sounds, vec!["kick", "snare", "kick", "snare"]);
}
#[test]
fn dur_is_step_duration() {
let outputs = expect_outputs(r#""kick" s ."#, 1);
let durs = get_durs(&outputs);
assert!(approx_eq(durs[0], 0.5), "dur should be 4 * step_duration (0.5), got {}", durs[0]);
}
#[test]
fn cycle_picks_by_runs() {
for runs in 0..4 {
let ctx = ctx_with(|c| c.runs = runs);
let f = forth();
let outputs = f.evaluate(r#""kick" s { . } { } 2 cycle"#, &ctx).unwrap();
if runs % 2 == 0 {
assert_eq!(outputs.len(), 1, "runs={}: emit should be picked", runs);
} else {
assert_eq!(outputs.len(), 0, "runs={}: no-op should be picked", runs);
}
}
}
#[test]
fn pcycle_picks_by_iter() {
for iter in 0..4 {
let ctx = ctx_with(|c| c.iter = iter);
let f = forth();
let outputs = f.evaluate(r#""kick" s { . } { } 2 pcycle"#, &ctx).unwrap();
if iter % 2 == 0 {
assert_eq!(outputs.len(), 1, "iter={}: emit should be picked", iter);
} else {
assert_eq!(outputs.len(), 0, "iter={}: no-op should be picked", iter);
}
}
}
#[test]
fn cycle_with_sounds() {
for runs in 0..3 {
let ctx = ctx_with(|c| c.runs = runs);
let f = forth();
let outputs = f.evaluate(
r#"{ "kick" s . } { "hat" s . } { "snare" s . } 3 cycle"#,
&ctx
).unwrap();
assert_eq!(outputs.len(), 1, "runs={}: expected 1 output", runs);
let sounds = get_sounds(&outputs);
let expected = ["kick", "hat", "snare"][runs % 3];
assert_eq!(sounds[0], expected, "runs={}: expected {}", runs, expected);
}
}
#[test]
fn at_single_delta() {
let outputs = expect_outputs(r#"0.5 at "kick" s ."#, 1);
let deltas = get_deltas(&outputs);
let step_dur = 0.125;
assert!(approx_eq(deltas[0], 0.5 * step_dur), "expected delta at 0.5 of step, got {}", deltas[0]);
}
#[test]
fn at_list_deltas() {
let outputs = expect_outputs(r#"0 0.5 at "kick" s ."#, 2);
let deltas = get_deltas(&outputs);
let step_dur = 0.125;
assert!(approx_eq(deltas[0], 0.0), "expected delta 0, got {}", deltas[0]);
assert!(approx_eq(deltas[1], 0.5 * step_dur), "expected delta at 0.5 of step, got {}", deltas[1]);
}
#[test]
fn at_three_deltas() {
let outputs = expect_outputs(r#"0 0.33 0.67 at "kick" s ."#, 3);
let deltas = get_deltas(&outputs);
let step_dur = 0.125;
assert!(approx_eq(deltas[0], 0.0), "expected delta 0");
assert!((deltas[1] - 0.33 * step_dur).abs() < 0.001, "expected delta at 0.33 of step");
assert!((deltas[2] - 0.67 * step_dur).abs() < 0.001, "expected delta at 0.67 of step");
}
#[test]
fn at_persists_across_emits() {
let outputs = expect_outputs(r#"0 0.5 at "kick" s . "hat" s ."#, 4);
let sounds = get_sounds(&outputs);
assert_eq!(sounds, vec!["kick", "kick", "hat", "hat"]);
}
#[test]
fn at_reset_with_zero() {
let outputs = expect_outputs(r#"0 0.5 at "kick" s . 0.0 at "hat" s ."#, 3);
let sounds = get_sounds(&outputs);
assert_eq!(sounds, vec!["kick", "kick", "hat"]);
}
#[test]
fn clear_resets_at_deltas() {
let outputs = expect_outputs(r#"0 0.5 at "kick" s . clear "hat" s ."#, 3);
let sounds = get_sounds(&outputs);
assert_eq!(sounds, vec!["kick", "kick", "hat"]);
let deltas = get_deltas(&outputs);
assert!(approx_eq(deltas[2], 0.0), "after clear, hat should emit at delta 0, got {}", deltas[2]);
}
#[test]
fn at_records_selected_spans() {
use cagire::forth::ExecutionTrace;
let f = forth();
let mut trace = ExecutionTrace::default();
let script = r#"0 0.5 0.75 at "kick" s ."#;
f.evaluate_with_trace(script, &default_ctx(), &mut trace).unwrap();
// Should have 6 selected spans: 3 for at deltas + 3 for sound (one per emit)
assert_eq!(trace.selected_spans.len(), 6, "expected 6 selected spans (3 at + 3 sound)");
// Verify at delta spans (even indices: 0, 2, 4)
assert_eq!(&script[trace.selected_spans[0].start as usize..trace.selected_spans[0].end as usize], "0");
assert_eq!(&script[trace.selected_spans[2].start as usize..trace.selected_spans[2].end as usize], "0.5");
assert_eq!(&script[trace.selected_spans[4].start as usize..trace.selected_spans[4].end as usize], "0.75");
}
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