use malachite_base::num::arithmetic::traits::{CeilingMod, CeilingModAssign, Mod, ModAssign};
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_q::test_util::arithmetic::mod_op::{ceiling_mod_naive, mod_op_naive, rem_naive};
use malachite_q::test_util::bench::bucketers::{
pair_1_rational_bit_bucketer, pair_2_pair_1_rational_bit_bucketer,
};
use malachite_q::test_util::generators::{rational_pair_gen_var_1, rational_pair_gen_var_1_nm};
pub(crate) fn register(runner: &mut Runner) {
register_demo!(runner, demo_rational_mod);
register_demo!(runner, demo_rational_mod_val_ref);
register_demo!(runner, demo_rational_mod_ref_val);
register_demo!(runner, demo_rational_mod_ref_ref);
register_demo!(runner, demo_rational_mod_assign);
register_demo!(runner, demo_rational_mod_assign_ref);
register_demo!(runner, demo_rational_rem);
register_demo!(runner, demo_rational_rem_val_ref);
register_demo!(runner, demo_rational_rem_ref_val);
register_demo!(runner, demo_rational_rem_ref_ref);
register_demo!(runner, demo_rational_rem_assign);
register_demo!(runner, demo_rational_rem_assign_ref);
register_demo!(runner, demo_rational_ceiling_mod);
register_demo!(runner, demo_rational_ceiling_mod_val_ref);
register_demo!(runner, demo_rational_ceiling_mod_ref_val);
register_demo!(runner, demo_rational_ceiling_mod_ref_ref);
register_demo!(runner, demo_rational_ceiling_mod_assign);
register_demo!(runner, demo_rational_ceiling_mod_assign_ref);
register_bench!(runner, benchmark_rational_mod_evaluation_strategy);
register_bench!(runner, benchmark_rational_mod_algorithms);
register_bench!(runner, benchmark_rational_mod_assign_evaluation_strategy);
register_bench!(runner, benchmark_rational_rem_library_comparison);
register_bench!(runner, benchmark_rational_rem_evaluation_strategy);
register_bench!(runner, benchmark_rational_rem_assign_evaluation_strategy);
register_bench!(runner, benchmark_rational_ceiling_mod_evaluation_strategy);
register_bench!(runner, benchmark_rational_ceiling_mod_algorithms);
register_bench!(
runner,
benchmark_rational_ceiling_mod_assign_evaluation_strategy
);
}
fn demo_rational_mod(gm: GenMode, config: &GenConfig, limit: usize) {
for (x, y) in rational_pair_gen_var_1().get(gm, config).take(limit) {
let x_old = x.clone();
let y_old = y.clone();
println!("{}.mod_op({}) = {}", x_old, y_old, x.mod_op(y));
}
}
fn demo_rational_mod_val_ref(gm: GenMode, config: &GenConfig, limit: usize) {
for (x, y) in rational_pair_gen_var_1().get(gm, config).take(limit) {
let x_old = x.clone();
println!("{}.mod_op(&{}) = {}", x_old, y, x.mod_op(&y));
}
}
fn demo_rational_mod_ref_val(gm: GenMode, config: &GenConfig, limit: usize) {
for (x, y) in rational_pair_gen_var_1().get(gm, config).take(limit) {
let y_old = y.clone();
println!("(&{}).mod_op({}) = {:?}", x, y_old, (&x).mod_op(y));
}
}
fn demo_rational_mod_ref_ref(gm: GenMode, config: &GenConfig, limit: usize) {
for (x, y) in rational_pair_gen_var_1().get(gm, config).take(limit) {
println!("(&{}).mod_op(&{}) = {:?}", x, y, (&x).mod_op(&y));
}
}
fn demo_rational_mod_assign(gm: GenMode, config: &GenConfig, limit: usize) {
for (mut x, y) in rational_pair_gen_var_1().get(gm, config).take(limit) {
let x_old = x.clone();
let y_old = y.clone();
x.mod_assign(y);
println!("x := {x_old}; x.mod_assign({y_old}); x = {x}");
}
}
fn demo_rational_mod_assign_ref(gm: GenMode, config: &GenConfig, limit: usize) {
for (mut x, y) in rational_pair_gen_var_1().get(gm, config).take(limit) {
let x_old = x.clone();
x.mod_assign(&y);
println!("x := {x_old}; x.mod_assign(&{y}); x = {x}");
}
}
fn demo_rational_rem(gm: GenMode, config: &GenConfig, limit: usize) {
for (x, y) in rational_pair_gen_var_1().get(gm, config).take(limit) {
let x_old = x.clone();
let y_old = y.clone();
println!("{} % {} = {:?}", x_old, y_old, x % y);
}
}
fn demo_rational_rem_val_ref(gm: GenMode, config: &GenConfig, limit: usize) {
for (x, y) in rational_pair_gen_var_1().get(gm, config).take(limit) {
let x_old = x.clone();
println!("{} % &{} = {:?}", x_old, y, x % &y);
}
}
fn demo_rational_rem_ref_val(gm: GenMode, config: &GenConfig, limit: usize) {
for (x, y) in rational_pair_gen_var_1().get(gm, config).take(limit) {
let y_old = y.clone();
println!("&{} % {} = {:?}", x, y_old, &x % y);
}
}
fn demo_rational_rem_ref_ref(gm: GenMode, config: &GenConfig, limit: usize) {
for (x, y) in rational_pair_gen_var_1().get(gm, config).take(limit) {
println!("&{} % &{} = {:?}", x, y, &x % &y);
}
}
fn demo_rational_rem_assign(gm: GenMode, config: &GenConfig, limit: usize) {
for (mut x, y) in rational_pair_gen_var_1().get(gm, config).take(limit) {
let x_old = x.clone();
let y_old = y.clone();
x %= y;
println!("x := {x_old}; x %= {y_old}; x = {x}");
}
}
fn demo_rational_rem_assign_ref(gm: GenMode, config: &GenConfig, limit: usize) {
for (mut x, y) in rational_pair_gen_var_1().get(gm, config).take(limit) {
let x_old = x.clone();
x %= &y;
println!("x := {x_old}; x %= &{y}; x = {x}");
}
}
fn demo_rational_ceiling_mod(gm: GenMode, config: &GenConfig, limit: usize) {
for (x, y) in rational_pair_gen_var_1().get(gm, config).take(limit) {
let x_old = x.clone();
let y_old = y.clone();
println!("{}.ceiling_mod({}) = {}", x_old, y_old, x.ceiling_mod(y));
}
}
fn demo_rational_ceiling_mod_val_ref(gm: GenMode, config: &GenConfig, limit: usize) {
for (x, y) in rational_pair_gen_var_1().get(gm, config).take(limit) {
let x_old = x.clone();
println!("{}.ceiling_mod(&{}) = {}", x_old, y, x.ceiling_mod(&y));
}
}
fn demo_rational_ceiling_mod_ref_val(gm: GenMode, config: &GenConfig, limit: usize) {
for (x, y) in rational_pair_gen_var_1().get(gm, config).take(limit) {
let y_old = y.clone();
println!("(&{}).ceiling_mod({}) = {}", x, y_old, (&x).ceiling_mod(y));
}
}
fn demo_rational_ceiling_mod_ref_ref(gm: GenMode, config: &GenConfig, limit: usize) {
for (x, y) in rational_pair_gen_var_1().get(gm, config).take(limit) {
println!("(&{}).ceiling_mod(&{}) = {}", x, y, (&x).ceiling_mod(&y));
}
}
fn demo_rational_ceiling_mod_assign(gm: GenMode, config: &GenConfig, limit: usize) {
for (mut x, y) in rational_pair_gen_var_1().get(gm, config).take(limit) {
let x_old = x.clone();
let y_old = y.clone();
x.ceiling_mod_assign(y);
println!("x := {x_old}; x.ceiling_mod_assign({y_old}); x = {x}");
}
}
fn demo_rational_ceiling_mod_assign_ref(gm: GenMode, config: &GenConfig, limit: usize) {
for (mut x, y) in rational_pair_gen_var_1().get(gm, config).take(limit) {
let x_old = x.clone();
x.ceiling_mod_assign(&y);
println!("x := {x_old}; x.ceiling_mod_assign(&{y}); x = {x}");
}
}
fn benchmark_rational_mod_evaluation_strategy(
gm: GenMode,
config: &GenConfig,
limit: usize,
file_name: &str,
) {
run_benchmark(
"Rational.mod_op(Rational)",
BenchmarkType::EvaluationStrategy,
rational_pair_gen_var_1().get(gm, config),
gm.name(),
limit,
file_name,
&pair_1_rational_bit_bucketer("x"),
&mut [
("Rational.mod_op(Rational)", &mut |(x, y)| {
no_out!(x.mod_op(y));
}),
("Rational.mod_op(&Rational)", &mut |(x, y)| {
no_out!(x.mod_op(&y));
}),
("(&Rational).mod_op(Rational)", &mut |(x, y)| {
no_out!((&x).mod_op(y));
}),
("(&Rational).mod_op(&Rational)", &mut |(x, y)| {
no_out!((&x).mod_op(&y));
}),
],
);
}
fn benchmark_rational_mod_algorithms(
gm: GenMode,
config: &GenConfig,
limit: usize,
file_name: &str,
) {
run_benchmark(
"Rational.mod_op(Rational)",
BenchmarkType::Algorithms,
rational_pair_gen_var_1().get(gm, config),
gm.name(),
limit,
file_name,
&pair_1_rational_bit_bucketer("x"),
&mut [
("default", &mut |(x, y)| {
no_out!(x.mod_op(y));
}),
("naive", &mut |(x, y)| {
no_out!(mod_op_naive(x, y));
}),
],
);
}
fn benchmark_rational_mod_assign_evaluation_strategy(
gm: GenMode,
config: &GenConfig,
limit: usize,
file_name: &str,
) {
run_benchmark(
"Rational.mod_assign(Rational)",
BenchmarkType::EvaluationStrategy,
rational_pair_gen_var_1().get(gm, config),
gm.name(),
limit,
file_name,
&pair_1_rational_bit_bucketer("x"),
&mut [
("Rational.mod_assign(Rational)", &mut |(mut x, y)| {
no_out!(x.mod_assign(y));
}),
("Rational.mod_assign(&Rational)", &mut |(mut x, y)| {
no_out!(x.mod_assign(&y));
}),
],
);
}
#[allow(clippy::no_effect, clippy::unnecessary_operation, unused_must_use)]
fn benchmark_rational_rem_library_comparison(
gm: GenMode,
config: &GenConfig,
limit: usize,
file_name: &str,
) {
run_benchmark(
"Rational.rem(Rational)",
BenchmarkType::LibraryComparison,
rational_pair_gen_var_1_nm().get(gm, config),
gm.name(),
limit,
file_name,
&pair_2_pair_1_rational_bit_bucketer("x"),
&mut [
("Malachite", &mut |(_, (x, y))| no_out!(x % y)),
("num", &mut |((x, y), _)| no_out!(x % y)),
],
);
}
#[allow(clippy::no_effect, unused_must_use)]
fn benchmark_rational_rem_evaluation_strategy(
gm: GenMode,
config: &GenConfig,
limit: usize,
file_name: &str,
) {
run_benchmark(
"Rational.rem(Rational)",
BenchmarkType::EvaluationStrategy,
rational_pair_gen_var_1().get(gm, config),
gm.name(),
limit,
file_name,
&pair_1_rational_bit_bucketer("x"),
&mut [
("Rational % Rational", &mut |(x, y)| no_out!(x % y)),
("Rational % &Rational", &mut |(x, y)| no_out!(x % &y)),
("&Rational % Rational", &mut |(x, y)| no_out!(&x % y)),
("&Rational % &Rational", &mut |(x, y)| no_out!(&x % &y)),
],
);
}
#[allow(unused)]
fn benchmark_rational_rem_algorithms(
gm: GenMode,
config: &GenConfig,
limit: usize,
file_name: &str,
) {
run_benchmark(
"Rational % Rational",
BenchmarkType::Algorithms,
rational_pair_gen_var_1().get(gm, config),
gm.name(),
limit,
file_name,
&pair_1_rational_bit_bucketer("x"),
&mut [
("default", &mut |(x, y)| {
no_out!(x % y);
}),
("naive", &mut |(x, y)| {
no_out!(rem_naive(x, y));
}),
],
);
}
fn benchmark_rational_rem_assign_evaluation_strategy(
gm: GenMode,
config: &GenConfig,
limit: usize,
file_name: &str,
) {
run_benchmark(
"Rational.rem_assign(Rational)",
BenchmarkType::EvaluationStrategy,
rational_pair_gen_var_1().get(gm, config),
gm.name(),
limit,
file_name,
&pair_1_rational_bit_bucketer("x"),
&mut [
("Rational %= Rational", &mut |(mut x, y)| x %= y),
("Rational %= &Rational", &mut |(mut x, y)| x %= &y),
],
);
}
fn benchmark_rational_ceiling_mod_evaluation_strategy(
gm: GenMode,
config: &GenConfig,
limit: usize,
file_name: &str,
) {
run_benchmark(
"Rational.ceiling_mod(Rational)",
BenchmarkType::EvaluationStrategy,
rational_pair_gen_var_1().get(gm, config),
gm.name(),
limit,
file_name,
&pair_1_rational_bit_bucketer("x"),
&mut [
("Rational.ceiling_mod(Rational)", &mut |(x, y)| {
no_out!(x.ceiling_mod(y));
}),
("Rational.ceiling_mod(&Rational)", &mut |(x, y)| {
no_out!(x.ceiling_mod(&y));
}),
("(&Rational).ceiling_mod(Rational)", &mut |(x, y)| {
no_out!((&x).ceiling_mod(y));
}),
("(&Rational).ceiling_mod(&Rational)", &mut |(x, y)| {
no_out!((&x).ceiling_mod(&y));
}),
],
);
}
fn benchmark_rational_ceiling_mod_algorithms(
gm: GenMode,
config: &GenConfig,
limit: usize,
file_name: &str,
) {
run_benchmark(
"Rational.ceiling_mod(Rational)",
BenchmarkType::Algorithms,
rational_pair_gen_var_1().get(gm, config),
gm.name(),
limit,
file_name,
&pair_1_rational_bit_bucketer("x"),
&mut [
("default", &mut |(x, y)| {
no_out!(x.ceiling_mod(y));
}),
("naive", &mut |(x, y)| {
no_out!(ceiling_mod_naive(x, y));
}),
],
);
}
fn benchmark_rational_ceiling_mod_assign_evaluation_strategy(
gm: GenMode,
config: &GenConfig,
limit: usize,
file_name: &str,
) {
run_benchmark(
"Rational.ceiling_mod_assign(Rational)",
BenchmarkType::EvaluationStrategy,
rational_pair_gen_var_1().get(gm, config),
gm.name(),
limit,
file_name,
&pair_1_rational_bit_bucketer("x"),
&mut [
(
"Rational.ceiling_mod_assign(Rational)",
&mut |(mut x, y)| {
no_out!(x.ceiling_mod_assign(y));
},
),
(
"Rational.ceiling_mod_assign(&Rational)",
&mut |(mut x, y)| {
no_out!(x.ceiling_mod_assign(&y));
},
),
],
);
}