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package gregtech.overclock;
import static gregtech.api.enums.GT_Values.V;
import static gregtech.api.enums.GT_Values.VP;
import static org.junit.jupiter.api.Assertions.assertEquals;
import org.junit.jupiter.api.Test;
import gregtech.api.util.GT_OverclockCalculator;
class GT_OverclockCalculator_UnitTest {
private static final String messageDuration = "Duration Calculated Wrong";
private static final String messageEUt = "EUt Calculated Wrong";
@Test
void fullPerfectOverclockEBF_Test() {
int heatDiscounts = (1800 * 4) / 900;
long correctConsumption = (long) Math.ceil(VP[5] * Math.pow(0.95, heatDiscounts));
GT_OverclockCalculator calculator = new GT_OverclockCalculator().setRecipeEUt(VP[1]).setEUt(V[5])
.setDuration(1024).enableHeatOC().enableHeatDiscount().setRecipeHeat(1800).setMultiHeat(1800 * 5)
.calculate();
assertEquals(1024 >> 8, calculator.getDuration(), messageDuration);
assertEquals(correctConsumption, calculator.getConsumption(), messageEUt);
}
@Test
void imperfectOverclockEBFWithOneHeatDiscount_Test() {
int heatDiscounts = 1;
long correctConsumption = (long) Math.ceil(VP[5] * Math.pow(0.95, heatDiscounts));
GT_OverclockCalculator calculator = new GT_OverclockCalculator().setRecipeEUt(VP[1]).setEUt(V[5])
.setDuration(1024).enableHeatOC().enableHeatDiscount().setRecipeHeat(1800).setMultiHeat(2700)
.calculate();
assertEquals(1024 >> 4, calculator.getDuration(), messageDuration);
assertEquals(correctConsumption, calculator.getConsumption(), messageEUt);
}
@Test
void imperfectOverclockEBFWithoutHeatDiscounts_Test() {
GT_OverclockCalculator calculator = new GT_OverclockCalculator().setRecipeEUt(VP[1]).setEUt(V[5])
.setDuration(1024).enableHeatOC().enableHeatDiscount().setRecipeHeat(1800).setMultiHeat(1800)
.calculate();
assertEquals(1024 >> 4, calculator.getDuration(), messageDuration);
assertEquals(VP[5], calculator.getConsumption(), messageEUt);
}
@Test
void perfectAndImperfectOverclockEBFWithTwoHeatDiscounts_Test() {
int heatDiscounts = 2;
long correctConsumption = (long) Math.ceil(VP[5] * Math.pow(0.95, heatDiscounts));
GT_OverclockCalculator calculator = new GT_OverclockCalculator().setRecipeEUt(VP[1]).setEUt(V[5])
.setDuration(1024).enableHeatOC().enableHeatDiscount().setRecipeHeat(1800).setMultiHeat(3600)
.calculate();
assertEquals(1024 >> 5, calculator.getDuration(), messageDuration);
assertEquals(correctConsumption, calculator.getConsumption(), messageEUt);
}
@Test
void generalImperfectOverclock_Test() {
GT_OverclockCalculator calculator = new GT_OverclockCalculator().setRecipeEUt(VP[1]).setEUt(V[6])
.setDuration(1024).calculate();
assertEquals(1024 >> 5, calculator.getDuration(), messageDuration);
assertEquals(VP[6], calculator.getConsumption(), messageEUt);
}
@Test
void generalPerfectOverclock_Test() {
GT_OverclockCalculator calculator = new GT_OverclockCalculator().setRecipeEUt(VP[1]).setEUt(V[6])
.setDuration(2048).enablePerfectOC().calculate();
assertEquals(2048 >> 10, calculator.getDuration(), messageDuration);
assertEquals(VP[6], calculator.getConsumption(), messageEUt);
}
@Test
void weirdHeatEBF_Test() {
int heatDiscounts = 3;
long correctConsumption = (long) Math.ceil(VP[6] * Math.pow(0.95, heatDiscounts));
GT_OverclockCalculator calculator = new GT_OverclockCalculator().setRecipeEUt(VP[1]).setEUt(V[6])
.setDuration(2048).enableHeatOC().enableHeatDiscount().setRecipeHeat(486).setMultiHeat(3900)
.calculate();
assertEquals(2048 >> 6, calculator.getDuration(), messageDuration);
assertEquals(correctConsumption, calculator.getConsumption(), messageEUt);
}
@Test
void doubleEnergyHatchOC_Test() {
GT_OverclockCalculator calculator = new GT_OverclockCalculator().setRecipeEUt(VP[1]).setEUt(V[6] + V[6])
.setAmperage(2).setDuration(1024).calculate();
assertEquals(1024 >> 6, calculator.getDuration(), messageDuration);
assertEquals(VP[7], calculator.getConsumption(), messageEUt);
}
@Test
void multiAmpHatchOC_Test() {
GT_OverclockCalculator calculator = new GT_OverclockCalculator().setRecipeEUt(VP[1]).setEUt(V[6])
.setAmperage(256).setDuration(1024).calculate();
assertEquals(1024 >> 9, calculator.getDuration(), messageDuration);
assertEquals(VP[10], calculator.getConsumption(), messageEUt);
}
@Test
void weirdAmpHatchOC_Test() {
GT_OverclockCalculator calculator = new GT_OverclockCalculator().setRecipeEUt(VP[1]).setEUt(V[6])
.setAmperage(320).setDuration(1024).calculate();
assertEquals(1024 >> 9, calculator.getDuration(), messageDuration);
assertEquals(VP[10], calculator.getConsumption(), messageEUt);
}
@Test
void parallelImperfectOC_Test() {
GT_OverclockCalculator calculator = new GT_OverclockCalculator().setRecipeEUt(VP[1]).setEUt(V[8]).setAmperage(4)
.setDuration(1024).setParallel(16).calculate();
assertEquals(1024 >> 6, calculator.getDuration(), messageDuration);
assertEquals(VP[9], calculator.getConsumption(), messageEUt);
}
@Test
void parallelPerfectOC_Test() {
GT_OverclockCalculator calculator = new GT_OverclockCalculator().setRecipeEUt(VP[1]).setEUt(V[8]).setAmperage(4)
.setDuration(4096).setParallel(16).enablePerfectOC().calculate();
assertEquals(4096 >> 12, calculator.getDuration(), messageDuration);
assertEquals(VP[9], calculator.getConsumption(), messageEUt);
}
@Test
void parallelMultiAmpOC_Test() {
GT_OverclockCalculator calculator = new GT_OverclockCalculator().setRecipeEUt(VP[1]).setEUt(V[6])
.setAmperage(320).setDuration(1024).setParallel(16).calculate();
assertEquals(1024 >> 7, calculator.getDuration(), messageDuration);
assertEquals(VP[10], calculator.getConsumption(), messageEUt);
}
@Test
void weirdParallelOC_Test() {
GT_OverclockCalculator calculator = new GT_OverclockCalculator().setRecipeEUt(VP[1]).setEUt(V[8])
.setDuration(1024).setParallel(8).calculate();
assertEquals(1024 >> 5, calculator.getDuration(), messageDuration);
assertEquals(VP[6] * 8, calculator.getConsumption(), messageEUt);
}
@Test
void weirdParallelAndAmpsOC_Test() {
GT_OverclockCalculator calculator = new GT_OverclockCalculator().setRecipeEUt(VP[1]).setEUt(V[8])
.setAmperage(320).setDuration(1024).setParallel(8).calculate();
assertEquals(1024 >> 9, calculator.getDuration(), messageDuration);
assertEquals(VP[6] * 8 * 256, calculator.getConsumption(), messageEUt);
}
@Test
void weirdTimeOC_Test() {
GT_OverclockCalculator calculator = new GT_OverclockCalculator().setRecipeEUt(VP[1]).setEUt(V[6])
.setDuration(77).calculate();
assertEquals(77 >> 5, calculator.getDuration(), messageDuration);
assertEquals(VP[6], calculator.getConsumption(), messageEUt);
}
@Test
void stopsCorrectlyWhenOneTicking_Test() {
GT_OverclockCalculator calculator = new GT_OverclockCalculator().setRecipeEUt(VP[1]).setEUt(V[6]).setDuration(1)
.calculate();
assertEquals(1, calculator.getDuration(), messageDuration);
assertEquals(VP[1], calculator.getConsumption(), messageEUt);
}
@Test
void imperfectOCWithEUtDiscount_Test() {
long correctConsumption = (long) Math.ceil(VP[1] * 0.9f) << 10;
GT_OverclockCalculator calculator = new GT_OverclockCalculator().setRecipeEUt(VP[1]).setEUt(V[6])
.setEUtDiscount(0.9f).setDuration(1024).calculate();
assertEquals(1024 >> 5, calculator.getDuration(), messageDuration);
assertEquals(correctConsumption, calculator.getConsumption(), messageEUt);
}
@Test
void perfectOCWithEUtDiscount_Test() {
long correctConsumption = (long) Math.ceil(VP[1] * 0.9f) << 10;
GT_OverclockCalculator calculator = new GT_OverclockCalculator().setRecipeEUt(VP[1]).setEUt(V[6])
.setEUtDiscount(0.9f).setDuration(1024).enablePerfectOC().calculate();
assertEquals(1024 >> 10, calculator.getDuration(), messageDuration);
assertEquals(correctConsumption, calculator.getConsumption(), messageEUt);
}
@Test
void imperfectOCWithSpeedBoost_Test() {
GT_OverclockCalculator calculator = new GT_OverclockCalculator().setRecipeEUt(VP[1]).setEUt(V[6])
.setSpeedBoost(0.9f).setDuration(1024).calculate();
assertEquals((int) (1024 * 0.9f) >> 5, calculator.getDuration(), messageDuration);
assertEquals(VP[6], calculator.getConsumption(), messageEUt);
}
@Test
void perfectOCWithSpeedBoost_Test() {
GT_OverclockCalculator calculator = new GT_OverclockCalculator().setRecipeEUt(VP[1]).setEUt(V[6])
.setSpeedBoost(0.9f).setDuration(2048).enablePerfectOC().calculate();
assertEquals((int) (2048 * 0.9f) >> 10, calculator.getDuration(), messageDuration);
assertEquals(VP[6], calculator.getConsumption(), messageEUt);
}
@Test
void oneTickDiscountTurnsToOne_Test() {
GT_OverclockCalculator calculator = new GT_OverclockCalculator().setRecipeEUt(VP[1]).setEUt(V[6]).setDuration(1)
.enableOneTickDiscount().calculate();
assertEquals(1, calculator.getDuration(), messageDuration);
assertEquals(1, calculator.getConsumption(), messageEUt);
}
@Test
void oneTickDiscountImperfectOC_Test() {
GT_OverclockCalculator calculator = new GT_OverclockCalculator().setRecipeEUt(VP[1]).setEUt(V[6])
.setSpeedBoost(1.1f).setDuration(4).enableOneTickDiscount().calculate();
assertEquals(1, calculator.getDuration(), messageDuration);
assertEquals(480 >> 3, calculator.getConsumption(), messageEUt);
}
@Test
void oneTickDiscountPerfectOC_Test() {
GT_OverclockCalculator calculator = new GT_OverclockCalculator().setRecipeEUt(VP[1]).setEUt(V[6])
.setSpeedBoost(1.1f).setDuration(16).enablePerfectOC().enableOneTickDiscount().calculate();
assertEquals(1, calculator.getDuration(), messageDuration);
assertEquals(480 >> 6, calculator.getConsumption(), messageEUt);
}
@Test
void ulvRecipeWithDiscount_Test() {
long correctConsumption = (long) Math.ceil((VP[0] << 10) * 0.9f);
GT_OverclockCalculator calculator = new GT_OverclockCalculator().setRecipeEUt(VP[0]).setEUt(V[6])
.setEUtDiscount(0.9f).setDuration(1024).calculate();
assertEquals(1024 >> 5, calculator.getDuration(), messageDuration);
assertEquals(correctConsumption, calculator.getConsumption(), messageEUt);
}
@Test
void ulvRecipeWithDiscountWithParallel_Test() {
long correctConsumption = (long) Math.ceil((VP[0] << 6) * 14 * 0.9f);
GT_OverclockCalculator calculator = new GT_OverclockCalculator().setRecipeEUt(VP[0]).setEUt(V[5])
.setEUtDiscount(0.9f).setParallel(14).setDuration(1024).calculate();
assertEquals(1024 >> 3, calculator.getDuration(), messageDuration);
assertEquals(correctConsumption, calculator.getConsumption(), messageEUt);
}
}
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