use malachite_base::num::arithmetic::traits::Parity;
use malachite_base::num::basic::floats::PrimitiveFloat;
use malachite_base::num::basic::integers::PrimitiveInt;
use malachite_base::num::basic::signeds::PrimitiveSigned;
use malachite_base::num::basic::unsigneds::PrimitiveUnsigned;
use malachite_base::num::float::NiceFloat;
use malachite_base::test_util::generators::{
primitive_float_pair_gen, primitive_float_signed_pair_gen, signed_unsigned_pair_gen_var_15,
unsigned_pair_gen_var_29,
};
#[test]
fn test_pow() {
fn test_primitive_int<T: PrimitiveInt>(x: T, y: u64, out: T) {
assert_eq!(x.pow(y), out);
let mut x = x;
x.pow_assign(y);
assert_eq!(x, out);
}
test_primitive_int::<u8>(0, 0, 1);
test_primitive_int::<u64>(123, 0, 1);
test_primitive_int::<u64>(123, 1, 123);
test_primitive_int::<u16>(0, 123, 0);
test_primitive_int::<u16>(1, 123, 1);
test_primitive_int::<i16>(-1, 123, -1);
test_primitive_int::<i16>(-1, 124, 1);
test_primitive_int::<u8>(3, 3, 27);
test_primitive_int::<i32>(-10, 9, -1000000000);
test_primitive_int::<i32>(-10, 8, 100000000);
fn test_i64_primitive_float<T: PrimitiveFloat>(x: T, y: i64, out: T) {
assert_eq!(NiceFloat(x.pow(y)), NiceFloat(out));
let mut x = x;
x.pow_assign(y);
assert_eq!(NiceFloat(x), NiceFloat(out));
}
test_i64_primitive_float::<f32>(2.0, 5, 32.0);
fn test_primitive_float_primitive_float<T: PrimitiveFloat>(x: T, y: T, out: T) {
assert_eq!(NiceFloat(x.pow(y)), NiceFloat(out));
let mut x = x;
x.pow_assign(y);
assert_eq!(NiceFloat(x), NiceFloat(out));
}
test_primitive_float_primitive_float::<f32>(2.0, 5.0, 32.0);
}
fn pow_assign_properties_helper_unsigned<T: PrimitiveUnsigned>() {
unsigned_pair_gen_var_29::<T>().test_properties(|(x, y)| {
let mut power = x;
power.pow_assign(y);
assert_eq!(power, x.pow(y));
if x > T::ONE {
assert_eq!(power.checked_log_base(x), Some(y));
}
if y != 0 {
assert_eq!(power.checked_root(y), Some(x));
}
});
}
fn pow_assign_properties_helper_signed<T: PrimitiveSigned>() {
signed_unsigned_pair_gen_var_15::<T>().test_properties(|(x, y)| {
let mut power = x;
power.pow_assign(y);
assert_eq!(power, x.pow(y));
if y != 0 {
assert_eq!(
power.checked_root(y),
Some(if y.even() { x.abs() } else { x })
);
}
});
}
fn pow_assign_properties_helper_primitive_float<T: PrimitiveFloat>() {
primitive_float_signed_pair_gen::<T, i64>().test_properties(|(x, y)| {
let mut power = x;
power.pow_assign(y);
assert_eq!(NiceFloat(power), NiceFloat(x.pow(y)));
});
primitive_float_pair_gen::<T>().test_properties(|(x, y)| {
let mut power = x;
power.pow_assign(y);
assert_eq!(NiceFloat(power), NiceFloat(x.pow(y)));
});
}
#[test]
fn pow_assign_properties() {
apply_fn_to_unsigneds!(pow_assign_properties_helper_unsigned);
apply_fn_to_signeds!(pow_assign_properties_helper_signed);
apply_fn_to_primitive_floats!(pow_assign_properties_helper_primitive_float);
}