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Feat exact f64 #306

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bfc059f
feat: exact f64 from Real
lucascool12 Aug 2, 2024
443ad50
test: add tests for Real::exact_f64
lucascool12 Aug 2, 2024
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14 changes: 14 additions & 0 deletions z3/src/ast.rs
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Original file line number Diff line number Diff line change
Expand Up @@ -946,6 +946,20 @@ impl<'ctx> Real<'ctx> {
self.approx(17).parse().unwrap() // 17 decimal digits needed to get full f64 precision
}

pub fn exact_f64(&self) -> Option<f64> {
let res = unsafe { Z3_get_numeral_double(self.get_ctx().z3_ctx, self.z3_ast) };
if res == 0.0 {
let mut sacrifice_int = 0;
let int_res = unsafe {
Z3_get_numeral_int(self.get_ctx().z3_ctx, self.z3_ast, &mut sacrifice_int)
};
if !int_res || sacrifice_int != 0 {
return None;
}
}
Some(res)
}

pub fn from_int(ast: &Int<'ctx>) -> Real<'ctx> {
unsafe { Self::wrap(ast.ctx, Z3_mk_int2real(ast.ctx.z3_ctx, ast.z3_ast)) }
}
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31 changes: 31 additions & 0 deletions z3/tests/ops.rs
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Expand Up @@ -345,3 +345,34 @@ fn test_real_approx() {
assert_eq!(res.approx_f64(), res.approx(32).parse().unwrap());
assert_ne!(res.approx_f64(), res.approx(16).parse().unwrap());
}

#[test]
fn test_real_exact() {
let ctx = Context::new(&Config::default());
let x = Real::new_const(&ctx, "x");
let y = Real::new_const(&ctx, "y");
let z = Real::new_const(&ctx, "z");
let a = Real::new_const(&ctx, "a");
let xx = &x * &x;
let zero = Real::from_real(&ctx, 0, 1);
let two = Real::from_real(&ctx, 2, 1);
let s = Solver::new(&ctx);
s.assert(&x.ge(&zero));
s.assert(&xx._eq(&two));
s.assert(&y._eq(&Int::from_i64(&ctx, 5).to_real()));
s.assert(&z._eq(&Real::from_real(&ctx, 1, 2)));
s.assert(&a._eq(&Real::from_real(&ctx, 1, i32::MAX - 90)));
assert_eq!(s.check(), SatResult::Sat);
let m = s.get_model().unwrap();
let res_x = m.eval(&x, false).unwrap();
let res_y = m.eval(&y, false).unwrap();
let res_z = m.eval(&z, false).unwrap();
let res_a = m.eval(&a, false).unwrap();
assert_eq!(res_x.exact_f64(), None); // sqrt is irrational
println!("{:?}", res_y.exact_f64());
assert_eq!(res_y.exact_f64(), Some(5.0));
println!("{:?}", res_z.exact_f64());
assert_eq!(res_z.exact_f64(), Some(0.5));
println!("{:?}", res_a.exact_f64());
assert_eq!(res_a.exact_f64(), Some(1.0 / (i32::MAX - 90) as f64));
}