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package net.glease.ggfab.util;
import static org.junit.jupiter.api.Assertions.assertEquals;
import static org.junit.jupiter.api.Assertions.assertNull;
import org.junit.jupiter.api.Test;
class OverclockHelperTest {
@Test
void normalOverclockImperfect() {
// fails recipe
assertNull(OverclockHelper.normalOverclock(10000, 10000, 1, false));
// no overclock
assertEquals(new OverclockHelper.OverclockOutput(30, 64), OverclockHelper.normalOverclock(30, 64, 32, false));
// imperfect overclock
assertEquals(new OverclockHelper.OverclockOutput(120, 32), OverclockHelper.normalOverclock(30, 64, 128, false));
// lots of overclock
assertEquals(
new OverclockHelper.OverclockOutput(30720, 2),
OverclockHelper.normalOverclock(30, 64, 32768, false));
// do not overclock beyond useful
assertEquals(
new OverclockHelper.OverclockOutput(122880, 1),
OverclockHelper.normalOverclock(30, 64, 524288, false));
}
@Test
void laserOverclock() {
// fails recipe
assertNull(OverclockHelper.laserOverclock(10000, 10000, 1, 5));
// no overclock
assertEquals(new OverclockHelper.OverclockOutput(30, 64), OverclockHelper.laserOverclock(30, 64, 32, 0.5f));
// 0.3 amp overclock. 0.25 amp would be not in current tier so no point in testing that
assertEquals(new OverclockHelper.OverclockOutput(10, 64), OverclockHelper.laserOverclock(10, 64, 32, 0.5f));
// laser overclock
assertEquals(
new OverclockHelper.OverclockOutput(135, 32),
OverclockHelper.laserOverclock(30, 64, 32 * 16, 0.5f));
// lots of overclock
assertEquals(
new OverclockHelper.OverclockOutput(22272, 4),
OverclockHelper.laserOverclock(30, 64, 32 * 1024, 0.5f));
// do not overclock beyond useful
assertEquals(new OverclockHelper.OverclockOutput(135, 1), OverclockHelper.laserOverclock(30, 2, 32 * 16, 0.5f));
}
}
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