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mirror of https://github.com/Anuken/Mindustry.git synced 2024-11-10 15:05:23 +03:00

Added unit tests for batteries...

...and fixed battery distribution until all tests passed
This commit is contained in:
Timmeey86 2018-11-26 08:58:16 +01:00
parent 560d388df4
commit 99139dfcca
2 changed files with 49 additions and 4 deletions

View File

@ -80,9 +80,15 @@ public class PowerGraph{
if(MathUtils.isEqual(stored, 0f)){ return 0f; }
float used = Math.min(stored, needed);
float percentageRemaining = 1f - (used / stored);
float consumedPowerPercentage = Math.min(1.0f, needed / stored);
for(Tile battery : batteries){
battery.entity.power.satisfaction *= percentageRemaining;
Consumers consumes = battery.block().consumes;
if(consumes.has(ConsumePower.class)){
ConsumePower consumePower = consumes.get(ConsumePower.class);
if(consumePower.powerCapacity > 0f){
battery.entity.power.satisfaction = Math.max(0.0f, battery.entity.power.satisfaction - consumedPowerPercentage);
}
}
}
return used;
}
@ -91,9 +97,15 @@ public class PowerGraph{
float capacity = getBatteryCapacity();
if(MathUtils.isEqual(capacity, 0f)){ return 0f; }
float thing = Math.min(1, excess / capacity);
for(Tile battery : batteries){
battery.entity.power.satisfaction += (1 - battery.entity.power.satisfaction) * thing;
Consumers consumes = battery.block().consumes;
if(consumes.has(ConsumePower.class)){
ConsumePower consumePower = consumes.get(ConsumePower.class);
if(consumePower.powerCapacity > 0f){
float additionalPowerPercentage = Math.min(1.0f, excess / consumePower.powerCapacity);
battery.entity.power.satisfaction = Math.min(1.0f, battery.entity.power.satisfaction + additionalPowerPercentage);
}
}
}
return Math.min(excess, capacity);
}

View File

@ -101,5 +101,38 @@ public class PowerTests extends PowerTestFixture{
powerGraph.update();
assertEquals(expectedSatisfaction, bufferedConsumerTile.entity.power.satisfaction, MathUtils.FLOAT_ROUNDING_ERROR, parameterDescription + ": Satisfaction of buffered consumer did not match");
}
/** Tests the satisfaction of a single direct consumer after a single update of the power graph which contains a single producer and a single battery.
* The used battery is created with a maximum capacity of 100 and receives ten power per tick.
*/
@TestFactory
DynamicTest[] testDirectConsumptionWithBattery(){
return new DynamicTest[]{
dynamicTest("1", () -> test_directConsumptionWithBattery(10.0f, 0.0f, 0.0f, 10.0f, 0.0f, "Empty battery, no consumer")),
dynamicTest("2", () -> test_directConsumptionWithBattery(10.0f, 0.0f, 90.0f, 100.0f, 0.0f, "Battery full after update, no consumer")),
dynamicTest("3", () -> test_directConsumptionWithBattery(10.0f, 0.0f, 100.0f, 100.0f, 0.0f, "Full battery, no consumer")),
dynamicTest("4", () -> test_directConsumptionWithBattery(0.0f, 0.0f, 0.0f, 0.0f, 0.0f, "No producer, no consumer, empty battery")),
dynamicTest("5", () -> test_directConsumptionWithBattery(0.0f, 0.0f, 100.0f, 100.0f, 0.0f, "No producer, no consumer, full battery")),
dynamicTest("6", () -> test_directConsumptionWithBattery(0.0f, 10.0f, 0.0f, 0.0f, 0.0f, "No producer, empty battery")),
dynamicTest("7", () -> test_directConsumptionWithBattery(0.0f, 10.0f, 100.0f, 90.0f, 1.0f, "No producer, full battery")),
dynamicTest("8", () -> test_directConsumptionWithBattery(0.0f, 10.0f, 5.0f, 0.0f, 0.5f, "No producer, low battery"))
};
}
void test_directConsumptionWithBattery(float producedPower, float requestedPower, float initialBatteryCapacity, float expectedBatteryCapacity, float expectedSatisfaction, String parameterDescription){
Tile producerTile = createFakeTile(0, 0, createFakeProducerBlock(producedPower));
Tile directConsumerTile = createFakeTile(0, 1, createFakeDirectConsumer(requestedPower, 0.6f));
float maxCapacity = 100f;
Tile batteryTile = createFakeTile(0, 2, createFakeBattery(maxCapacity, 10 ));
batteryTile.entity.power.satisfaction = initialBatteryCapacity / maxCapacity;
PowerGraph powerGraph = new PowerGraph();
powerGraph.add(producerTile);
powerGraph.add(directConsumerTile);
powerGraph.add(batteryTile);
powerGraph.update();
assertEquals(expectedBatteryCapacity, batteryTile.entity.power.satisfaction * maxCapacity, MathUtils.FLOAT_ROUNDING_ERROR, parameterDescription + ": Expected battery capacity did not match");
assertEquals(expectedSatisfaction, directConsumerTile.entity.power.satisfaction, MathUtils.FLOAT_ROUNDING_ERROR, parameterDescription + ": Satisfaction of direct consumer did not match");
}
}
}