use malachite_base::num::conversion::traits::ConvertibleFrom;
use malachite_base::test_util::bench::{BenchmarkType, run_benchmark};
use malachite_base::test_util::generators::common::{GenConfig, GenMode};
use malachite_base::test_util::runner::Runner;
use malachite_float::test_util::bench::bucketers::{
float_complexity_bucketer, pair_2_float_complexity_bucketer,
};
use malachite_float::test_util::generators::{float_gen, float_gen_rm};
use malachite_float::{ComparableFloat, ComparableFloatRef};
use malachite_q::Rational;
pub(crate) fn register(runner: &mut Runner) {
register_demo!(runner, demo_rational_try_from_float);
register_demo!(runner, demo_rational_try_from_float_debug);
register_demo!(runner, demo_rational_try_from_float_ref);
register_demo!(runner, demo_rational_try_from_float_ref_debug);
register_demo!(runner, demo_rational_convertible_from_float);
register_demo!(runner, demo_rational_convertible_from_float_debug);
register_bench!(
runner,
benchmark_rational_try_from_float_evaluation_strategy
);
register_bench!(runner, benchmark_rational_try_from_float_library_comparison);
register_bench!(runner, benchmark_rational_convertible_from_float);
}
fn demo_rational_try_from_float(gm: GenMode, config: &GenConfig, limit: usize) {
for f in float_gen().get(gm, config).take(limit) {
println!(
"Rational::try_from({}) = {:?}",
f.clone(),
Rational::try_from(f)
);
}
}
fn demo_rational_try_from_float_debug(gm: GenMode, config: &GenConfig, limit: usize) {
for f in float_gen().get(gm, config).take(limit) {
println!(
"Rational::try_from({:#x}) = {:#x?}",
ComparableFloat(f.clone()),
Rational::try_from(f)
);
}
}
fn demo_rational_try_from_float_ref(gm: GenMode, config: &GenConfig, limit: usize) {
for f in float_gen().get(gm, config).take(limit) {
println!("Rational::try_from(&{}) = {:?}", f, Rational::try_from(&f));
}
}
fn demo_rational_try_from_float_ref_debug(gm: GenMode, config: &GenConfig, limit: usize) {
for f in float_gen().get(gm, config).take(limit) {
println!(
"Rational::try_from(&{:#x}) = {:#x?}",
ComparableFloatRef(&f),
Rational::try_from(&f)
);
}
}
fn demo_rational_convertible_from_float(gm: GenMode, config: &GenConfig, limit: usize) {
for f in float_gen().get(gm, config).take(limit) {
println!(
"{} is {}convertible to a Rational",
f,
if Rational::convertible_from(&f) {
""
} else {
"not "
},
);
}
}
fn demo_rational_convertible_from_float_debug(gm: GenMode, config: &GenConfig, limit: usize) {
for f in float_gen().get(gm, config).take(limit) {
println!(
"{:#x} is {}convertible to a Rational",
ComparableFloatRef(&f),
if Rational::convertible_from(&f) {
""
} else {
"not "
},
);
}
}
#[allow(unused_must_use)]
fn benchmark_rational_try_from_float_evaluation_strategy(
gm: GenMode,
config: &GenConfig,
limit: usize,
file_name: &str,
) {
run_benchmark(
"Rational::try_from(Float)",
BenchmarkType::EvaluationStrategy,
float_gen().get(gm, config),
gm.name(),
limit,
file_name,
&float_complexity_bucketer("x"),
&mut [
("Rational::try_from(Float)", &mut |f| {
no_out!(Rational::try_from(f));
}),
("Rational::try_from(&Float)", &mut |f| {
no_out!(Rational::try_from(&f));
}),
],
);
}
#[allow(unused_must_use)]
fn benchmark_rational_try_from_float_library_comparison(
gm: GenMode,
config: &GenConfig,
limit: usize,
file_name: &str,
) {
run_benchmark(
"Rational::try_from(Float)",
BenchmarkType::LibraryComparison,
float_gen_rm().get(gm, config),
gm.name(),
limit,
file_name,
&pair_2_float_complexity_bucketer("x"),
&mut [
("Malachite", &mut |(_, f)| no_out!(Rational::try_from(f))),
("rug", &mut |(f, _)| no_out!(rug::Rational::try_from(&f))),
],
);
}
fn benchmark_rational_convertible_from_float(
gm: GenMode,
config: &GenConfig,
limit: usize,
file_name: &str,
) {
run_benchmark(
"Rational::convertible_from(&Float)",
BenchmarkType::Single,
float_gen().get(gm, config),
gm.name(),
limit,
file_name,
&float_complexity_bucketer("x"),
&mut [("Malachite", &mut |f| {
no_out!(Rational::convertible_from(&f));
})],
);
}