aboutsummaryrefslogtreecommitdiff
path: root/src/test/java/io
diff options
context:
space:
mode:
Diffstat (limited to 'src/test/java/io')
-rw-r--r--src/test/java/io/github/moulberry/notenoughupdates/core/util/Vec3ComparableTest.java212
-rw-r--r--src/test/java/io/github/moulberry/notenoughupdates/miscfeatures/CrystalMetalDetectorSolverTest.java255
-rw-r--r--src/test/java/io/github/moulberry/notenoughupdates/miscfeatures/CrystalWishingCompassSolverTest.java1393
-rw-r--r--src/test/java/io/github/moulberry/notenoughupdates/util/CalculatorTest.java41
4 files changed, 1901 insertions, 0 deletions
diff --git a/src/test/java/io/github/moulberry/notenoughupdates/core/util/Vec3ComparableTest.java b/src/test/java/io/github/moulberry/notenoughupdates/core/util/Vec3ComparableTest.java
new file mode 100644
index 00000000..12645152
--- /dev/null
+++ b/src/test/java/io/github/moulberry/notenoughupdates/core/util/Vec3ComparableTest.java
@@ -0,0 +1,212 @@
+/*
+ * Copyright (C) 2022 NotEnoughUpdates contributors
+ *
+ * This file is part of NotEnoughUpdates.
+ *
+ * NotEnoughUpdates is free software: you can redistribute it
+ * and/or modify it under the terms of the GNU Lesser General Public
+ * License as published by the Free Software Foundation, either
+ * version 3 of the License, or (at your option) any later version.
+ *
+ * NotEnoughUpdates is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+ * Lesser General Public License for more details.
+ *
+ * You should have received a copy of the GNU Lesser General Public License
+ * along with NotEnoughUpdates. If not, see <https://www.gnu.org/licenses/>.
+ */
+
+package io.github.moulberry.notenoughupdates.core.util;
+
+import net.minecraft.util.BlockPos;
+import net.minecraft.util.Vec3;
+import org.junit.jupiter.api.Assertions;
+import org.junit.jupiter.api.Test;
+
+import static org.junit.jupiter.api.Assertions.assertEquals;
+import static org.junit.jupiter.api.Assertions.assertFalse;
+import static org.junit.jupiter.api.Assertions.assertNotEquals;
+import static org.junit.jupiter.api.Assertions.assertTrue;
+
+class Vec3ComparableTest {
+ @Test
+ void equals_false_when_null() {
+ // Arrange
+ Vec3Comparable vec3c = new Vec3Comparable(1.0, 2.0, 3.0);
+
+ // Act
+ boolean areEqual = vec3c.equals(null);
+
+ // Assert
+ assertFalse(areEqual);
+ }
+
+ @Test
+ void equals_true_when_same_object() {
+ // Arrange
+ Vec3Comparable vec3c = new Vec3Comparable(1.0, 2.0, 3.0);
+
+ // Act
+ boolean areEqual = vec3c.equals(vec3c);
+
+ // Assert
+ assertTrue(areEqual);
+ }
+
+ @Test
+ void equals_true_when_same_value() {
+ // Arrange
+ Vec3Comparable vec3c1 = new Vec3Comparable(1.0, 2.0, 3.0);
+ Vec3Comparable vec3c2 = new Vec3Comparable(1.0, 2.0, 3.0);
+
+ // Act
+ boolean areEqual = vec3c1.equals(vec3c2);
+
+ // Assert
+ assertTrue(areEqual);
+ }
+
+ @Test
+ void equals_false_when_vec3_equals() {
+ // Arrange
+ Vec3Comparable vec3c1 = new Vec3Comparable(1.0, 2.0, 3.0);
+ Vec3 vec3c2 = new Vec3(1.0, 2.0, 3.0);
+
+ // Act
+ boolean areEqual = vec3c1.equals(vec3c2);
+
+ // Assert
+ assertFalse(areEqual);
+ }
+
+ @Test
+ void equals_false_when_different_object_type() {
+ // Arrange
+ Vec3Comparable vec3c1 = new Vec3Comparable(1.0, 2.0, 3.0);
+ BlockPos blockPos = new BlockPos(1.0, 2.0, 3.0);
+
+ // Act
+ boolean areEqual = vec3c1.equals(blockPos);
+
+ // Assert
+ assertFalse(areEqual);
+ }
+
+ @Test
+ void equals_false_when_different_value() {
+ // Arrange
+ Vec3Comparable vec3c1 = new Vec3Comparable(1.0, 2.0, 3.0);
+ Vec3Comparable vec3c2 = new Vec3Comparable(3.0, 2.0, 1.0);
+
+ // Act
+ boolean areEqual = vec3c1.equals(vec3c2);
+
+ // Assert
+ assertFalse(areEqual);
+ }
+
+ @Test
+ void hashCode_same_when_same_value() {
+ // Arrange
+ Vec3Comparable vec3c1 = new Vec3Comparable(1.0, 2.0, 3.0);
+ Vec3Comparable vec3c2 = new Vec3Comparable(1.0, 2.0, 3.0);
+
+ // Act
+ double vec3c1Hash = vec3c1.hashCode();
+ double vec3c2Hash = vec3c2.hashCode();
+
+ // Assert
+ assertEquals(vec3c1Hash, vec3c2Hash);
+ }
+
+ @Test
+ void hashCode_different_when_different_value() {
+ // Arrange
+ Vec3Comparable vec3c1 = new Vec3Comparable(1.0, 2.0, 3.0);
+ Vec3Comparable vec3c2 = new Vec3Comparable(3.0, 2.0, 1.0);
+
+ // Act
+ double vec3c1Hash = vec3c1.hashCode();
+ double vec3c2Hash = vec3c2.hashCode();
+
+ // Assert
+ assertNotEquals(vec3c1Hash, vec3c2Hash);
+ }
+
+ @Test
+ void compareTo_zero_when_equal() {
+ // Arrange
+ Vec3Comparable vec3c1 = new Vec3Comparable(1.0, 2.0, 3.0);
+ Vec3Comparable vec3c2 = new Vec3Comparable(1.0, 2.0, 3.0);
+
+ // Act
+ int result = vec3c1.compareTo(vec3c2);
+
+ // Assert
+ assertEquals(0, result);
+ }
+
+ @Test
+ void compareTo_negative_when_lower() {
+ // Arrange
+ Vec3Comparable vec3c1 = new Vec3Comparable(0.0, 2.0, 3.0);
+ Vec3Comparable vec3c2 = new Vec3Comparable(1.0, 2.0, 3.0);
+
+ // Act
+ int result = vec3c1.compareTo(vec3c2);
+
+ // Assert
+ assertTrue(result < 0);
+ }
+
+ @Test
+ void compareTo_positive_when_x_y_or_z_is_higher() {
+ // Arrange
+ Vec3Comparable vec3c1x = new Vec3Comparable(2.0, 2.0, 3.0);
+ Vec3Comparable vec3c2x = new Vec3Comparable(1.0, 2.0, 3.0);
+ Vec3Comparable vec3c1y = new Vec3Comparable(1.0, 3.0, 3.0);
+ Vec3Comparable vec3c2y = new Vec3Comparable(1.0, 2.0, 3.0);
+ Vec3Comparable vec3c1z = new Vec3Comparable(1.0, 2.0, 4.0);
+ Vec3Comparable vec3c2z = new Vec3Comparable(1.0, 2.0, 3.0);
+
+ // Act
+ int resultX = vec3c1x.compareTo(vec3c2x);
+ int resultY = vec3c1y.compareTo(vec3c2y);
+ int resultZ = vec3c1z.compareTo(vec3c2z);
+
+ // Assert
+ assertTrue(resultX > 0);
+ assertTrue(resultY > 0);
+ assertTrue(resultZ > 0);
+ }
+
+ @Test
+ void compareTo_throws_on_null() {
+ // Arrange
+ Vec3Comparable vec3c = new Vec3Comparable(1.0, 2.0, 3.0);
+
+ // Act & Assert
+ Assertions.assertThrows(NullPointerException.class, () -> {
+ vec3c.compareTo(null);
+ });
+ }
+
+ @Test
+ void signumEquals_is_true_when_all_signums_match() {
+ Vec3Comparable first = new Vec3Comparable(-1.0, 1.0, 0);
+ Vec3 second = new Vec3(-1.0, 1.0, 0);
+ Assertions.assertTrue(first.signumEquals(second));
+ }
+
+ @Test
+ void signumEquals_is_false_when_any_signum_differs() {
+ Vec3Comparable first = new Vec3Comparable(-1.0, 1.0, 0);
+ Vec3 second = new Vec3(-1.0, 1.0, 1.0);
+ Vec3 third = new Vec3(-1.0, -1.0, 0);
+ Vec3 fourth = new Vec3(1.0, 1.0, 1.0);
+ Assertions.assertFalse(first.signumEquals(second));
+ Assertions.assertFalse(first.signumEquals(third));
+ Assertions.assertFalse(first.signumEquals(fourth));
+ }
+}
diff --git a/src/test/java/io/github/moulberry/notenoughupdates/miscfeatures/CrystalMetalDetectorSolverTest.java b/src/test/java/io/github/moulberry/notenoughupdates/miscfeatures/CrystalMetalDetectorSolverTest.java
new file mode 100644
index 00000000..123f5bf3
--- /dev/null
+++ b/src/test/java/io/github/moulberry/notenoughupdates/miscfeatures/CrystalMetalDetectorSolverTest.java
@@ -0,0 +1,255 @@
+/*
+ * Copyright (C) 2022 NotEnoughUpdates contributors
+ *
+ * This file is part of NotEnoughUpdates.
+ *
+ * NotEnoughUpdates is free software: you can redistribute it
+ * and/or modify it under the terms of the GNU Lesser General Public
+ * License as published by the Free Software Foundation, either
+ * version 3 of the License, or (at your option) any later version.
+ *
+ * NotEnoughUpdates is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+ * Lesser General Public License for more details.
+ *
+ * You should have received a copy of the GNU Lesser General Public License
+ * along with NotEnoughUpdates. If not, see <https://www.gnu.org/licenses/>.
+ */
+
+package io.github.moulberry.notenoughupdates.miscfeatures;
+
+import io.github.moulberry.notenoughupdates.core.util.Vec3Comparable;
+import io.github.moulberry.notenoughupdates.miscfeatures.CrystalMetalDetectorSolver.SolutionState;
+import io.github.moulberry.notenoughupdates.util.NEUDebugLogger;
+import net.minecraft.util.BlockPos;
+import org.junit.jupiter.api.Assertions;
+import org.junit.jupiter.api.BeforeEach;
+import org.junit.jupiter.api.Test;
+
+import java.util.ArrayList;
+
+class CrystalMetalDetectorSolverTest {
+ class Location {
+ double distance;
+ Vec3Comparable playerPosition;
+ SolutionState expectedState;
+ boolean centerKnown;
+
+ public Location(
+ double distance,
+ Vec3Comparable playerPosition,
+ SolutionState expectedState,
+ boolean centerKnown
+ ) {
+ this.distance = distance;
+ this.playerPosition = playerPosition;
+ this.expectedState = expectedState;
+ this.centerKnown = centerKnown;
+ }
+ }
+
+ class Solution {
+ ArrayList<Location> locations = new ArrayList<>();
+ BlockPos center = BlockPos.ORIGIN;
+ BlockPos expectedSolution = BlockPos.ORIGIN;
+ }
+
+ @BeforeEach
+ void setUp() {
+ CrystalMetalDetectorSolver.initWorld();
+ CrystalMetalDetectorSolver.treasureAllowedPredicate = blockPos -> true;
+ NEUDebugLogger.logMethod = CrystalMetalDetectorSolverTest::neuDebugLog;
+ NEUDebugLogger.allFlagsEnabled = true;
+ }
+
+ private void findPossibleSolutionsTwice(Location loc, boolean centerNewlyDiscovered) {
+ // Each location has to be received twice to be valid
+ CrystalMetalDetectorSolver.findPossibleSolutions(loc.distance, loc.playerPosition, centerNewlyDiscovered);
+ CrystalMetalDetectorSolver.findPossibleSolutions(loc.distance, loc.playerPosition, false);
+ }
+
+ private void checkSolution(Solution solution) {
+ boolean centerSet = false;
+ int index = 0;
+ for (Location loc : solution.locations) {
+ if (loc.centerKnown && !centerSet && !solution.center.equals(BlockPos.ORIGIN)) {
+ CrystalMetalDetectorSolver.setMinesCenter(solution.center);
+ centerSet = true;
+ findPossibleSolutionsTwice(loc, true);
+ } else {
+ findPossibleSolutionsTwice(loc, false);
+ }
+ Assertions.assertEquals(
+ loc.expectedState,
+ CrystalMetalDetectorSolver.currentState,
+ "Location index " + index
+ );
+ index++;
+ }
+
+ Assertions.assertEquals(solution.expectedSolution, CrystalMetalDetectorSolver.getSolution());
+ }
+
+ @Test
+ void findPossibleSolutions_single_location_sample_is_ignored() {
+ Location location = new Location(
+ 37.3,
+ new Vec3Comparable(779.1057116115207, 70.5, 502.2997937667801),
+ SolutionState.MULTIPLE,
+ false
+ );
+
+ CrystalMetalDetectorSolver.findPossibleSolutions(location.distance, location.playerPosition, false);
+ Assertions.assertEquals(SolutionState.NOT_STARTED, CrystalMetalDetectorSolver.previousState,
+ "Previous state"
+ );
+ Assertions.assertEquals(SolutionState.NOT_STARTED, CrystalMetalDetectorSolver.currentState,
+ "Current state"
+ );
+ }
+
+ @Test
+ void findPossibleSolutions_currentState_becomes_previousState() {
+ Location location = new Location(
+ 37.3,
+ new Vec3Comparable(779.1057116115207, 70.5, 502.2997937667801),
+ SolutionState.MULTIPLE,
+ false
+ );
+
+ findPossibleSolutionsTwice(location, false);
+ Assertions.assertEquals(SolutionState.NOT_STARTED, CrystalMetalDetectorSolver.previousState,
+ "Previous state"
+ );
+ Assertions.assertEquals(location.expectedState, CrystalMetalDetectorSolver.currentState,
+ "Current state"
+ );
+ }
+
+ @Test
+ void findPossibleSolutions_state_is_invalid_when_solution_and_distance_mismatch() {
+ Solution solution = new Solution();
+ solution.center = new BlockPos(736, 88, 547);
+ solution.expectedSolution = new BlockPos(722, 67, 590);
+ solution.locations.add(new Location(
+ 67.5,
+ new Vec3Comparable(757.8235166144441, 68.0, 532.8037800566217),
+ SolutionState.FOUND_KNOWN,
+ true
+ ));
+ // slightly different player position with invalid distance
+ solution.locations.add(new Location(
+ 4.0,
+ new Vec3Comparable(757.8235166144441, 69.0, 532.8037800566217),
+ SolutionState.INVALID,
+ true
+ ));
+ checkSolution(solution);
+ }
+
+ @Test
+ void findPossibleSolutions_state_is_failed_when_second_location_eliminates_all_blocks() {
+ Solution solution = new Solution();
+ solution.center = new BlockPos(736, 88, 547);
+ solution.locations.add(new Location(
+ 29.4,
+ new Vec3Comparable(721.5979761606153, 68.0, 590.9056839507032),
+ SolutionState.MULTIPLE_KNOWN,
+ true
+ ));
+ solution.locations.add(new Location(
+ 4.0, // actual distance should be 38.2
+ new Vec3Comparable(711.858759313838, 67.0, 590.3583935310772),
+ SolutionState.FAILED,
+ true
+ ));
+ checkSolution(solution);
+ }
+
+ @Test
+ void findPossibleSolutions_state_is_found_known_when_center_found_after_location() {
+ Solution solution = new Solution();
+ solution.center = new BlockPos(736, 88, 547);
+ solution.locations.add(new Location(
+ 67.5,
+ new Vec3Comparable(757.8235166144441, 68.0, 532.8037800566217),
+ SolutionState.MULTIPLE,
+ false
+ ));
+ checkSolution(solution);
+
+ solution.locations.get(0).centerKnown = true;
+ solution.locations.get(0).expectedState = SolutionState.FOUND_KNOWN;
+ solution.expectedSolution = new BlockPos(722, 67, 590);
+ checkSolution(solution);
+ }
+
+ @Test
+ void findPossibleSolutions_state_is_found_when_single_known_location() {
+ Solution solution = new Solution();
+ solution.center = new BlockPos(736, 88, 547);
+ solution.expectedSolution = new BlockPos(722, 67, 590);
+ solution.locations.add(new Location(
+ 67.5,
+ new Vec3Comparable(757.8235166144441, 68.0, 532.8037800566217),
+ SolutionState.FOUND_KNOWN,
+ true
+ ));
+ checkSolution(solution);
+ }
+
+ @Test
+ void findPossibleSolutions_states_are_correct_using_multiple_locations_with_unknown_center() {
+ Solution solution = new Solution();
+ solution.locations.add(new Location(
+ 37.3,
+ new Vec3Comparable(779.1057116115207, 70.5, 502.2997937667801),
+ SolutionState.MULTIPLE,
+ false
+ ));
+ solution.locations.add(new Location(
+ 34.8,
+ new Vec3Comparable(782.6999999880791, 71.0, 508.69999998807907),
+ SolutionState.FOUND,
+ false
+ ));
+ solution.expectedSolution = new BlockPos(758, 67, 533);
+
+ checkSolution(solution);
+ }
+
+ @Test
+ void findPossibleSolutions_states_are_correct_when_multiple_known_locations_found() {
+ Solution solution = new Solution();
+
+ // First, validate that the solution doesn't work without the center
+ solution.locations.add(new Location(
+ 29.4,
+ new Vec3Comparable(721.5979761606153, 68.0, 590.9056839507032),
+ SolutionState.MULTIPLE,
+ false
+ ));
+ solution.locations.add(new Location(
+ 38.2,
+ new Vec3Comparable(711.858759313838, 67.0, 590.3583935310772),
+ SolutionState.MULTIPLE,
+ false
+ ));
+ checkSolution(solution);
+
+ // Now validate that the solution works with the center
+ CrystalMetalDetectorSolver.resetSolution(false);
+ solution.locations.get(0).expectedState = SolutionState.MULTIPLE_KNOWN;
+ solution.locations.get(0).centerKnown = true;
+ solution.locations.get(1).expectedState = SolutionState.FOUND_KNOWN;
+ solution.locations.get(1).centerKnown = true;
+ solution.expectedSolution = new BlockPos(748, 66, 578);
+ solution.center = new BlockPos(736, 88, 547);
+ checkSolution(solution);
+ }
+
+ private static void neuDebugLog(String message) {
+ System.out.println(message);
+ }
+}
diff --git a/src/test/java/io/github/moulberry/notenoughupdates/miscfeatures/CrystalWishingCompassSolverTest.java b/src/test/java/io/github/moulberry/notenoughupdates/miscfeatures/CrystalWishingCompassSolverTest.java
new file mode 100644
index 00000000..5cf5fa90
--- /dev/null
+++ b/src/test/java/io/github/moulberry/notenoughupdates/miscfeatures/CrystalWishingCompassSolverTest.java
@@ -0,0 +1,1393 @@
+/*
+ * Copyright (C) 2022 NotEnoughUpdates contributors
+ *
+ * This file is part of NotEnoughUpdates.
+ *
+ * NotEnoughUpdates is free software: you can redistribute it
+ * and/or modify it under the terms of the GNU Lesser General Public
+ * License as published by the Free Software Foundation, either
+ * version 3 of the License, or (at your option) any later version.
+ *
+ * NotEnoughUpdates is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+ * Lesser General Public License for more details.
+ *
+ * You should have received a copy of the GNU Lesser General Public License
+ * along with NotEnoughUpdates. If not, see <https://www.gnu.org/licenses/>.
+ */
+
+package io.github.moulberry.notenoughupdates.miscfeatures;
+
+import io.github.moulberry.notenoughupdates.core.util.Vec3Comparable;
+import io.github.moulberry.notenoughupdates.miscfeatures.CrystalWishingCompassSolver.CompassTarget;
+import io.github.moulberry.notenoughupdates.miscfeatures.CrystalWishingCompassSolver.HandleCompassResult;
+import io.github.moulberry.notenoughupdates.miscfeatures.CrystalWishingCompassSolver.SolverState;
+import io.github.moulberry.notenoughupdates.util.NEUDebugLogger;
+import net.minecraft.util.BlockPos;
+import net.minecraft.util.Vec3;
+import net.minecraft.util.Vec3i;
+import org.junit.jupiter.api.Assertions;
+import org.junit.jupiter.api.BeforeEach;
+import org.junit.jupiter.api.Test;
+
+import java.util.ArrayList;
+import java.util.Arrays;
+import java.util.Collections;
+import java.util.EnumSet;
+
+import static io.github.moulberry.notenoughupdates.miscfeatures.CrystalWishingCompassSolver.ALL_PARTICLES_MAX_MILLIS;
+import static io.github.moulberry.notenoughupdates.miscfeatures.CrystalWishingCompassSolver.Crystal;
+import static io.github.moulberry.notenoughupdates.miscfeatures.CrystalWishingCompassSolver.HollowsZone;
+import static io.github.moulberry.notenoughupdates.miscfeatures.CrystalWishingCompassSolver.getInstance;
+
+class CrystalWishingCompassSolverTest {
+ private static final CrystalWishingCompassSolver solver = getInstance();
+ long systemTimeMillis;
+ private final long DELAY_AFTER_FIRST_COMPASS_LAST_PARTICLE = 500L;
+ private final int CH_LOWEST_VALID_Y = 30;
+
+ private final CompassUse minesOfDivanCompassUse1 = new CompassUse(
+ 1647528732979L,
+ new BlockPos(754, 137, 239),
+ new ArrayList<>(Arrays.asList(
+ new ParticleSpawn(new Vec3Comparable(754.358459, 138.536407, 239.200928), 137),
+ new ParticleSpawn(new Vec3Comparable(754.315735, 138.444351, 239.690521), 45),
+ new ParticleSpawn(new Vec3Comparable(754.272278, 138.352051, 240.180008), 51),
+ new ParticleSpawn(new Vec3Comparable(754.228760, 138.259750, 240.669479), 49),
+ new ParticleSpawn(new Vec3Comparable(754.185303, 138.167435, 241.158966), 57),
+ new ParticleSpawn(new Vec3Comparable(754.141846, 138.075134, 241.648438), 50),
+ new ParticleSpawn(new Vec3Comparable(754.098328, 137.982819, 242.137909), 51),
+ new ParticleSpawn(new Vec3Comparable(754.054871, 137.890518, 242.627396), 57),
+ new ParticleSpawn(new Vec3Comparable(754.011353, 137.798203, 243.116867), 44),
+ new ParticleSpawn(new Vec3Comparable(753.967896, 137.705887, 243.606354), 59),
+ new ParticleSpawn(new Vec3Comparable(753.924438, 137.613586, 244.095825), 35),
+ new ParticleSpawn(new Vec3Comparable(753.880920, 137.521271, 244.585297), 48),
+ new ParticleSpawn(new Vec3Comparable(753.837463, 137.428970, 245.074783), 70),
+ new ParticleSpawn(new Vec3Comparable(753.793945, 137.336655, 245.564255), 33),
+ new ParticleSpawn(new Vec3Comparable(753.750488, 137.244354, 246.053741), 55),
+ new ParticleSpawn(new Vec3Comparable(753.707031, 137.152039, 246.543213), 42),
+ new ParticleSpawn(new Vec3Comparable(753.663513, 137.059738, 247.032700), 56),
+ new ParticleSpawn(new Vec3Comparable(753.620056, 136.967422, 247.522171), 48),
+ new ParticleSpawn(new Vec3Comparable(753.576538, 136.875122, 248.011642), 56),
+ new ParticleSpawn(new Vec3Comparable(754.333618, 138.527710, 239.197800), 55)
+ )),
+ HandleCompassResult.SUCCESS,
+ SolverState.NEED_SECOND_COMPASS
+ );
+
+ private final CompassUse minesOfDivanCompassUse2 = new CompassUse(
+ DELAY_AFTER_FIRST_COMPASS_LAST_PARTICLE,
+ new BlockPos(760, 134, 266),
+ new ArrayList<>(Arrays.asList(
+ new ParticleSpawn(new Vec3Comparable(759.686951, 135.524994, 266.190704), 129),
+ new ParticleSpawn(new Vec3Comparable(759.625183, 135.427887, 266.677277), 69),
+ new ParticleSpawn(new Vec3Comparable(759.561707, 135.330704, 267.163635), 31),
+ new ParticleSpawn(new Vec3Comparable(759.498230, 135.233536, 267.649963), 115),
+ new ParticleSpawn(new Vec3Comparable(759.434753, 135.136368, 268.136322), 0),
+ new ParticleSpawn(new Vec3Comparable(759.371277, 135.039200, 268.622650), 46),
+ new ParticleSpawn(new Vec3Comparable(759.307800, 134.942017, 269.109009), 49),
+ new ParticleSpawn(new Vec3Comparable(759.244324, 134.844849, 269.595337), 59),
+ new ParticleSpawn(new Vec3Comparable(759.180847, 134.747681, 270.081696), 45),
+ new ParticleSpawn(new Vec3Comparable(759.117371, 134.650513, 270.568024), 39),
+ new ParticleSpawn(new Vec3Comparable(759.053894, 134.553329, 271.054352), 67),
+ new ParticleSpawn(new Vec3Comparable(758.990356, 134.456161, 271.540710), 49),
+ new ParticleSpawn(new Vec3Comparable(758.926880, 134.358994, 272.027039), 32),
+ new ParticleSpawn(new Vec3Comparable(758.863403, 134.261826, 272.513397), 61),
+ new ParticleSpawn(new Vec3Comparable(758.799927, 134.164642, 272.999725), 44),
+ new ParticleSpawn(new Vec3Comparable(758.736450, 134.067474, 273.486084), 48),
+ new ParticleSpawn(new Vec3Comparable(758.672974, 133.970306, 273.972412), 57),
+ new ParticleSpawn(new Vec3Comparable(758.609497, 133.873138, 274.458740), 55),
+ new ParticleSpawn(new Vec3Comparable(758.546021, 133.775955, 274.945099), 59),
+ new ParticleSpawn(new Vec3Comparable(758.482544, 133.678787, 275.431427), 38),
+ new ParticleSpawn(new Vec3Comparable(759.636658, 135.522827, 266.186371), 0)
+ )),
+ HandleCompassResult.SUCCESS,
+ SolverState.SOLVED
+ );
+
+ Vec3i minesOfDivanSolution = new Vec3i(735, 98, 451);
+
+ private final CompassUse goblinHoldoutCompassUse1 = new CompassUse(
+ 1647776326763L,
+ new BlockPos(454, 87, 776),
+ new ArrayList<>(Arrays.asList(
+ new ParticleSpawn(new Vec3Comparable(454.171722, 88.616852, 775.807190), 188),
+ new ParticleSpawn(new Vec3Comparable(454.010315, 88.613464, 775.333984), 44),
+ new ParticleSpawn(new Vec3Comparable(453.849243, 88.610069, 774.860657), 61),
+ new ParticleSpawn(new Vec3Comparable(453.688141, 88.606674, 774.387329), 51),
+ new ParticleSpawn(new Vec3Comparable(453.527069, 88.603271, 773.914001), 40),
+ new ParticleSpawn(new Vec3Comparable(453.365997, 88.599876, 773.440674), 57),
+ new ParticleSpawn(new Vec3Comparable(453.204926, 88.596481, 772.967346), 45),
+ new ParticleSpawn(new Vec3Comparable(453.043854, 88.593086, 772.494019), 49),
+ new ParticleSpawn(new Vec3Comparable(452.882782, 88.589691, 772.020691), 46),
+ new ParticleSpawn(new Vec3Comparable(452.721710, 88.586288, 771.547302), 65),
+ new ParticleSpawn(new Vec3Comparable(452.560638, 88.582893, 771.073975), 43),
+ new ParticleSpawn(new Vec3Comparable(452.399567, 88.579498, 770.600647), 50),
+ new ParticleSpawn(new Vec3Comparable(452.238495, 88.576103, 770.127319), 48),
+ new ParticleSpawn(new Vec3Comparable(452.077423, 88.572701, 769.653992), 47),
+ new ParticleSpawn(new Vec3Comparable(451.916351, 88.569305, 769.180664), 60),
+ new ParticleSpawn(new Vec3Comparable(451.755280, 88.565910, 768.707336), 40),
+ new ParticleSpawn(new Vec3Comparable(451.594208, 88.562515, 768.234009), 69),
+ new ParticleSpawn(new Vec3Comparable(451.433136, 88.559120, 767.760681), 40),
+ new ParticleSpawn(new Vec3Comparable(451.272064, 88.555717, 767.287354), 42),
+ new ParticleSpawn(new Vec3Comparable(454.183441, 88.616600, 775.803040), 54)
+ )),
+ HandleCompassResult.SUCCESS,
+ SolverState.NEED_SECOND_COMPASS
+ );
+
+ private final CompassUse goblinHoldoutCompassUse2 = new CompassUse(
+ DELAY_AFTER_FIRST_COMPASS_LAST_PARTICLE,
+ new BlockPos(439, 85, 777),
+ new ArrayList<>(Arrays.asList(
+ new ParticleSpawn(new Vec3Comparable(439.068848, 86.624870, 776.043701), 136),
+ new ParticleSpawn(new Vec3Comparable(438.936066, 86.625786, 775.561646), 46),
+ new ParticleSpawn(new Vec3Comparable(438.804352, 86.626595, 775.079346), 65),
+ new ParticleSpawn(new Vec3Comparable(438.672699, 86.627396, 774.596985), 40),
+ new ParticleSpawn(new Vec3Comparable(438.541016, 86.628197, 774.114624), 51),
+ new ParticleSpawn(new Vec3Comparable(438.409332, 86.628998, 773.632263), 50),
+ new ParticleSpawn(new Vec3Comparable(438.277679, 86.629799, 773.149902), 50),
+ new ParticleSpawn(new Vec3Comparable(438.145996, 86.630608, 772.667603), 56),
+ new ParticleSpawn(new Vec3Comparable(438.014343, 86.631409, 772.185242), 40),
+ new ParticleSpawn(new Vec3Comparable(437.882660, 86.632210, 771.702881), 65),
+ new ParticleSpawn(new Vec3Comparable(437.751007, 86.633011, 771.220520), 45),
+ new ParticleSpawn(new Vec3Comparable(437.619324, 86.633812, 770.738159), 42),
+ new ParticleSpawn(new Vec3Comparable(437.487671, 86.634613, 770.255798), 60),
+ new ParticleSpawn(new Vec3Comparable(437.355988, 86.635414, 769.773499), 51),
+ new ParticleSpawn(new Vec3Comparable(437.224335, 86.636215, 769.291138), 44),
+ new ParticleSpawn(new Vec3Comparable(437.092651, 86.637024, 768.808777), 56),
+ new ParticleSpawn(new Vec3Comparable(436.960999, 86.637825, 768.326416), 56),
+ new ParticleSpawn(new Vec3Comparable(436.829315, 86.638626, 767.844055), 40),
+ new ParticleSpawn(new Vec3Comparable(436.697632, 86.639427, 767.361694), 50),
+ new ParticleSpawn(new Vec3Comparable(436.565979, 86.640228, 766.879395), 46),
+ new ParticleSpawn(new Vec3Comparable(439.108551, 86.620811, 776.031067), 0)
+ )),
+ HandleCompassResult.SUCCESS,
+ SolverState.SOLVED
+ );
+
+ Vec3i goblinHoldoutKingSolution = new Vec3i(377, 87, 550);
+ Vec3i goblinHoldoutQueenSolution = new Vec3i(322, 139, 769);
+
+ private final CompassUse precursorCityCompassUse1 = new CompassUse(
+ 1647744920365L,
+ new BlockPos(570, 120, 565),
+ new ArrayList<>(Arrays.asList(
+ new ParticleSpawn(new Vec3Comparable(570.428955, 121.630745, 565.674500), 192),
+ new ParticleSpawn(new Vec3Comparable(570.572998, 121.642563, 566.153137), 52),
+ new ParticleSpawn(new Vec3Comparable(570.714233, 121.654442, 566.632629), 45),
+ new ParticleSpawn(new Vec3Comparable(570.855286, 121.666321, 567.112183), 51),
+ new ParticleSpawn(new Vec3Comparable(570.996338, 121.678200, 567.591736), 0),
+ new ParticleSpawn(new Vec3Comparable(571.137390, 121.690079, 568.071289), 111),
+ new ParticleSpawn(new Vec3Comparable(571.278442, 121.701958, 568.550781), 38),
+ new ParticleSpawn(new Vec3Comparable(571.419495, 121.713844, 569.030334), 51),
+ new ParticleSpawn(new Vec3Comparable(571.560547, 121.725723, 569.509888), 49),
+ new ParticleSpawn(new Vec3Comparable(571.701599, 121.737602, 569.989441), 0),
+ new ParticleSpawn(new Vec3Comparable(571.842651, 121.749481, 570.468994), 101),
+ new ParticleSpawn(new Vec3Comparable(571.983704, 121.761360, 570.948547), 53),
+ new ParticleSpawn(new Vec3Comparable(572.124756, 121.773239, 571.428101), 47),
+ new ParticleSpawn(new Vec3Comparable(572.265747, 121.785118, 571.907654), 49),
+ new ParticleSpawn(new Vec3Comparable(572.406799, 121.796997, 572.387207), 49),
+ new ParticleSpawn(new Vec3Comparable(572.547852, 121.808876, 572.866699), 51),
+ new ParticleSpawn(new Vec3Comparable(572.688904, 121.820755, 573.346252), 57),
+ new ParticleSpawn(new Vec3Comparable(572.829956, 121.832634, 573.825806), 42),
+ new ParticleSpawn(new Vec3Comparable(572.971008, 121.844513, 574.305359), 50),
+ new ParticleSpawn(new Vec3Comparable(573.112061, 121.856392, 574.784912), 52),
+ new ParticleSpawn(new Vec3Comparable(570.372192, 121.631874, 565.694946), 0)
+ )),
+ HandleCompassResult.SUCCESS,
+ SolverState.NEED_SECOND_COMPASS
+ );
+
+ private final CompassUse precursorCityCompassUse2 = new CompassUse(
+ DELAY_AFTER_FIRST_COMPASS_LAST_PARTICLE,
+ new BlockPos(591, 136, 579),
+ new ArrayList<>(Arrays.asList(
+ new ParticleSpawn(new Vec3Comparable(590.847961, 137.589584, 579.776672), 192),
+ new ParticleSpawn(new Vec3Comparable(590.918945, 137.528259, 580.267761), 50),
+ new ParticleSpawn(new Vec3Comparable(590.985229, 137.465118, 580.759338), 56),
+ new ParticleSpawn(new Vec3Comparable(591.051147, 137.401855, 581.250916), 47),
+ new ParticleSpawn(new Vec3Comparable(591.117126, 137.338593, 581.742493), 47),
+ new ParticleSpawn(new Vec3Comparable(591.183044, 137.275330, 582.234070), 49),
+ new ParticleSpawn(new Vec3Comparable(591.249023, 137.212067, 582.725647), 60),
+ new ParticleSpawn(new Vec3Comparable(591.314941, 137.148804, 583.217224), 55),
+ new ParticleSpawn(new Vec3Comparable(591.380920, 137.085541, 583.708801), 47),
+ new ParticleSpawn(new Vec3Comparable(591.446838, 137.022263, 584.200378), 50),
+ new ParticleSpawn(new Vec3Comparable(591.512817, 136.959000, 584.691956), 39),
+ new ParticleSpawn(new Vec3Comparable(591.578735, 136.895737, 585.183533), 53),
+ new ParticleSpawn(new Vec3Comparable(591.644714, 136.832474, 585.675110), 53),
+ new ParticleSpawn(new Vec3Comparable(591.710632, 136.769211, 586.166687), 45),
+ new ParticleSpawn(new Vec3Comparable(591.776611, 136.705948, 586.658264), 79),
+ new ParticleSpawn(new Vec3Comparable(591.842529, 136.642685, 587.149841), 20),
+ new ParticleSpawn(new Vec3Comparable(591.908508, 136.579407, 587.641418), 62),
+ new ParticleSpawn(new Vec3Comparable(591.974426, 136.516144, 588.132996), 48),
+ new ParticleSpawn(new Vec3Comparable(592.040344, 136.452881, 588.624573), 40),
+ new ParticleSpawn(new Vec3Comparable(592.106323, 136.389618, 589.116150), 51),
+ new ParticleSpawn(new Vec3Comparable(590.766357, 137.556885, 579.791565), 0)
+ )),
+ HandleCompassResult.SUCCESS,
+ SolverState.SOLVED
+ );
+
+ Vec3i precursorCitySolution = new Vec3i(604, 124, 681);
+
+ private final CompassUse jungleCompassUse1 = new CompassUse(
+ 1647744980313L,
+ new BlockPos(454, 122, 459),
+ new ArrayList<>(Arrays.asList(
+ new ParticleSpawn(new Vec3Comparable(453.954895, 122.958122, 458.687866), 141),
+ new ParticleSpawn(new Vec3Comparable(453.515991, 122.760010, 458.553314), 59),
+ new ParticleSpawn(new Vec3Comparable(453.078156, 122.560112, 458.417877), 41),
+ new ParticleSpawn(new Vec3Comparable(452.640381, 122.360123, 458.282349), 50),
+ new ParticleSpawn(new Vec3Comparable(452.202606, 122.160133, 458.146851), 66),
+ new ParticleSpawn(new Vec3Comparable(451.764832, 121.960136, 458.011353), 35),
+ new ParticleSpawn(new Vec3Comparable(451.327057, 121.760147, 457.875854), 49),
+ new ParticleSpawn(new Vec3Comparable(450.889313, 121.560150, 457.740356), 50),
+ new ParticleSpawn(new Vec3Comparable(450.451538, 121.360161, 457.604858), 49),
+ new ParticleSpawn(new Vec3Comparable(450.013763, 121.160172, 457.469330), 51),
+ new ParticleSpawn(new Vec3Comparable(449.575989, 120.960175, 457.333832), 59),
+ new ParticleSpawn(new Vec3Comparable(449.138214, 120.760185, 457.198334), 41),
+ new ParticleSpawn(new Vec3Comparable(448.700439, 120.560196, 457.062836), 55),
+ new ParticleSpawn(new Vec3Comparable(448.262695, 120.360199, 456.927338), 50),
+ new ParticleSpawn(new Vec3Comparable(447.824921, 120.160210, 456.791840), 49),
+ new ParticleSpawn(new Vec3Comparable(447.387146, 119.960213, 456.656311), 53),
+ new ParticleSpawn(new Vec3Comparable(446.949371, 119.760223, 456.520813), 43),
+ new ParticleSpawn(new Vec3Comparable(446.511597, 119.560234, 456.385315), 51),
+ new ParticleSpawn(new Vec3Comparable(446.073853, 119.360237, 456.249817), 49),
+ new ParticleSpawn(new Vec3Comparable(445.636078, 119.160248, 456.114319), 56),
+ new ParticleSpawn(new Vec3Comparable(453.975647, 122.920158, 458.668488), 0)
+ )),
+ HandleCompassResult.SUCCESS,
+ SolverState.NEED_SECOND_COMPASS
+ );
+
+ private final CompassUse jungleCompassUse2 = new CompassUse(
+ DELAY_AFTER_FIRST_COMPASS_LAST_PARTICLE,
+ new BlockPos(438, 126, 468),
+ new ArrayList<>(Arrays.asList(
+ new ParticleSpawn(new Vec3Comparable(437.701721, 127.395279, 467.455048), 139),
+ new ParticleSpawn(new Vec3Comparable(437.297852, 127.161415, 467.275604), 35),
+ new ParticleSpawn(new Vec3Comparable(436.895813, 126.927208, 467.092529), 68),
+ new ParticleSpawn(new Vec3Comparable(436.493896, 126.692986, 466.909241), 41),
+ new ParticleSpawn(new Vec3Comparable(436.091980, 126.458763, 466.725952), 54),
+ new ParticleSpawn(new Vec3Comparable(435.690033, 126.224533, 466.542664), 39),
+ new ParticleSpawn(new Vec3Comparable(435.288116, 125.990311, 466.359375), 52),
+ new ParticleSpawn(new Vec3Comparable(434.886200, 125.756088, 466.176086), 66),
+ new ParticleSpawn(new Vec3Comparable(434.484283, 125.521866, 465.992767), 40),
+ new ParticleSpawn(new Vec3Comparable(434.082367, 125.287636, 465.809479), 41),
+ new ParticleSpawn(new Vec3Comparable(433.680420, 125.053413, 465.626190), 50),
+ new ParticleSpawn(new Vec3Comparable(433.278503, 124.819191, 465.442902), 59),
+ new ParticleSpawn(new Vec3Comparable(432.876587, 124.584969, 465.259613), 54),
+ new ParticleSpawn(new Vec3Comparable(432.474670, 124.350746, 465.076294), 38),
+ new ParticleSpawn(new Vec3Comparable(432.072723, 124.116516, 464.893005), 63),
+ new ParticleSpawn(new Vec3Comparable(431.670807, 123.882294, 464.709717), 36),
+ new ParticleSpawn(new Vec3Comparable(431.268890, 123.648071, 464.526428), 64),
+ new ParticleSpawn(new Vec3Comparable(430.866974, 123.413849, 464.343140), 48),
+ new ParticleSpawn(new Vec3Comparable(430.465057, 123.179619, 464.159821), 53),
+ new ParticleSpawn(new Vec3Comparable(430.063110, 122.945396, 463.976532), 46),
+ new ParticleSpawn(new Vec3Comparable(437.732666, 127.385803, 467.381592), 1)
+ )),
+ HandleCompassResult.SUCCESS,
+ SolverState.SOLVED
+ );
+
+ Vec3i jungleSolution = new Vec3i(343, 72, 424);
+ Vec3i jungleSolutionTempleDoor = new Vec3i(
+ jungleSolution.getX() - 57,
+ jungleSolution.getY() + 36,
+ jungleSolution.getZ() - 21
+ );
+
+ private final CompassUse magmaCompassUse1 = new CompassUse(
+ 1647745029814L,
+ new BlockPos(462, 58, 550),
+ new ArrayList<>(Arrays.asList(
+ new ParticleSpawn(new Vec3Comparable(462.226898, 59.614380, 550.032654), 160),
+ new ParticleSpawn(new Vec3Comparable(462.693848, 59.609089, 549.853943), 47),
+ new ParticleSpawn(new Vec3Comparable(463.160706, 59.603809, 549.674988), 48),
+ new ParticleSpawn(new Vec3Comparable(463.627533, 59.598526, 549.496033), 136),
+ new ParticleSpawn(new Vec3Comparable(464.094391, 59.593246, 549.317017), 0),
+ new ParticleSpawn(new Vec3Comparable(464.561218, 59.587963, 549.138062), 0),
+ new ParticleSpawn(new Vec3Comparable(465.028076, 59.582684, 548.959106), 53),
+ new ParticleSpawn(new Vec3Comparable(465.494904, 59.577400, 548.780090), 48),
+ new ParticleSpawn(new Vec3Comparable(465.961761, 59.572117, 548.601135), 55),
+ new ParticleSpawn(new Vec3Comparable(466.428589, 59.566837, 548.422180), 47),
+ new ParticleSpawn(new Vec3Comparable(466.895416, 59.561554, 548.243164), 46),
+ new ParticleSpawn(new Vec3Comparable(467.362274, 59.556274, 548.064209), 53),
+ new ParticleSpawn(new Vec3Comparable(467.829102, 59.550991, 547.885254), 50),
+ new ParticleSpawn(new Vec3Comparable(468.295959, 59.545712, 547.706238), 54),
+ new ParticleSpawn(new Vec3Comparable(468.762787, 59.540428, 547.527283), 52),
+ new ParticleSpawn(new Vec3Comparable(469.229645, 59.535145, 547.348328), 105),
+ new ParticleSpawn(new Vec3Comparable(469.696472, 59.529865, 547.169312), 1),
+ new ParticleSpawn(new Vec3Comparable(470.163300, 59.524582, 546.990356), 51),
+ new ParticleSpawn(new Vec3Comparable(470.630157, 59.519302, 546.811401), 40),
+ new ParticleSpawn(new Vec3Comparable(471.096985, 59.514019, 546.632385), 49),
+ new ParticleSpawn(new Vec3Comparable(462.221954, 59.614719, 550.019165), 0)
+ )),
+ HandleCompassResult.SUCCESS,
+ SolverState.NEED_SECOND_COMPASS
+ );
+
+ private final CompassUse magmaCompassUse2 = new CompassUse(
+ DELAY_AFTER_FIRST_COMPASS_LAST_PARTICLE,
+ new BlockPos(449, 53, 556),
+ new ArrayList<>(Arrays.asList(
+ new ParticleSpawn(new Vec3Comparable(449.120911, 54.624340, 556.108948), 204),
+ new ParticleSpawn(new Vec3Comparable(449.587433, 54.627399, 555.929138), 102),
+ new ParticleSpawn(new Vec3Comparable(450.053741, 54.630432, 555.748657), 0),
+ new ParticleSpawn(new Vec3Comparable(450.520020, 54.633465, 555.568237), 62),
+ new ParticleSpawn(new Vec3Comparable(450.986298, 54.636497, 555.387756), 38),
+ new ParticleSpawn(new Vec3Comparable(451.452606, 54.639530, 555.207275), 48),
+ new ParticleSpawn(new Vec3Comparable(451.918884, 54.642563, 555.026794), 63),
+ new ParticleSpawn(new Vec3Comparable(452.385162, 54.645596, 554.846375), 52),
+ new ParticleSpawn(new Vec3Comparable(452.851471, 54.648628, 554.665894), 35),
+ new ParticleSpawn(new Vec3Comparable(453.317749, 54.651661, 554.485413), 53),
+ new ParticleSpawn(new Vec3Comparable(453.784027, 54.654694, 554.304993), 54),
+ new ParticleSpawn(new Vec3Comparable(454.250305, 54.657726, 554.124512), 50),
+ new ParticleSpawn(new Vec3Comparable(454.716614, 54.660759, 553.944031), 55),
+ new ParticleSpawn(new Vec3Comparable(455.182892, 54.663792, 553.763550), 49),
+ new ParticleSpawn(new Vec3Comparable(455.649170, 54.666824, 553.583130), 41),
+ new ParticleSpawn(new Vec3Comparable(456.115479, 54.669857, 553.402649), 48),
+ new ParticleSpawn(new Vec3Comparable(456.581757, 54.672890, 553.222168), 54),
+ new ParticleSpawn(new Vec3Comparable(457.048035, 54.675922, 553.041687), 45),
+ new ParticleSpawn(new Vec3Comparable(457.514313, 54.678959, 552.861267), 55),
+ new ParticleSpawn(new Vec3Comparable(449.110443, 54.623035, 556.079163), 49)
+ )),
+ HandleCompassResult.SUCCESS,
+ SolverState.SOLVED
+ );
+
+ Vec3i magmaSolution = new Vec3i(737, 56, 444);
+
+ Vec3Comparable kingOdawaMinesOrNucleusCoordsInRemnants = new Vec3Comparable(566, 100, 566);
+ Vec3Comparable queenKingOdawaOrCityNucleusCoordsInMithrilDeposits = new Vec3Comparable(566, 130, 466);
+ Vec3Comparable odawaSolution = new Vec3Comparable(349, 110, 390);
+
+ private final CompassUse nucleusCompass = new CompassUse(
+ 1647745029814L,
+ new BlockPos(512, 106, 512),
+ null,
+ HandleCompassResult.PLAYER_IN_NUCLEUS,
+ SolverState.NOT_STARTED
+ );
+
+ private void resetSolverState() {
+ solver.initWorld();
+ systemTimeMillis = 0;
+ solver.currentTimeMillis = () -> (systemTimeMillis);
+ // These must be overridden for all test cases or an exception will be thrown when
+ // data that is only present when running in the context of Minecraft is accessed.
+ solver.keyInInventory = () -> false;
+ solver.kingsScentPresent = () -> false;
+ solver.foundCrystals = () -> EnumSet.noneOf(Crystal.class);
+ }
+
+ @BeforeEach
+ void setUp() {
+ NEUDebugLogger.logMethod = CrystalWishingCompassSolverTest::neuDebugLog;
+ NEUDebugLogger.allFlagsEnabled = true;
+ resetSolverState();
+ }
+
+ private void checkSolution(Solution solution) {
+ int index = 0;
+ for (CompassUse compassUse : solution.compassUses) {
+ systemTimeMillis += compassUse.timeIncrementMillis;
+ HandleCompassResult handleCompassResult = solver.handleCompassUse(compassUse.playerPos);
+ Assertions.assertEquals(
+ compassUse.expectedHandleCompassUseResult,
+ handleCompassResult,
+ "CompassUse index " + index
+ );
+
+ for (ParticleSpawn particle : compassUse.particles) {
+ systemTimeMillis += particle.timeIncrementMillis;
+ solver.solveUsingParticle(
+ particle.spawnLocation.xCoord,
+ particle.spawnLocation.yCoord,
+ particle.spawnLocation.zCoord,
+ systemTimeMillis
+ );
+ }
+
+ Assertions.assertEquals(
+ compassUse.expectedSolverState,
+ solver.getSolverState(),
+ "CompassUse index " + index
+ );
+ if (compassUse.expectedSolverState == SolverState.SOLVED) {
+ Assertions.assertEquals(
+ solution.expectedSolutionCoords,
+ solver.getSolutionCoords()
+ );
+ }
+
+ index++;
+ }
+ }
+
+ @Test
+ void first_compass_without_particles_sets_solver_state_to_processing_first_use() {
+ // Arrange
+ CompassUse compassUse = new CompassUse(minesOfDivanCompassUse1);
+ compassUse.particles.clear();
+ compassUse.expectedSolverState = SolverState.PROCESSING_FIRST_USE;
+
+ Solution solution = new Solution(
+ new ArrayList<>(Collections.singletonList(compassUse)),
+ Vec3i.NULL_VECTOR
+ );
+
+ // Act & Assert
+ checkSolution(solution);
+ }
+
+ @Test
+ void new_compass_resets_processing_first_use_state_after_timeout() {
+ // Arrange
+ CompassUse processingFirstUseCompassUse = new CompassUse(minesOfDivanCompassUse1);
+ processingFirstUseCompassUse.particles.clear();
+ processingFirstUseCompassUse.expectedSolverState = SolverState.PROCESSING_FIRST_USE;
+ Solution processingFirstUseSolution = new Solution(
+ new ArrayList<>(Collections.singletonList(processingFirstUseCompassUse)),
+ Vec3i.NULL_VECTOR
+ );
+ checkSolution(processingFirstUseSolution);
+ Assertions.assertEquals(SolverState.PROCESSING_FIRST_USE, solver.getSolverState());
+
+ CompassUse resetStateCompassUse = new CompassUse(jungleCompassUse1);
+ resetStateCompassUse.timeIncrementMillis = ALL_PARTICLES_MAX_MILLIS + 1;
+ resetStateCompassUse.expectedHandleCompassUseResult = HandleCompassResult.NO_PARTICLES_FOR_PREVIOUS_COMPASS;
+ resetStateCompassUse.expectedSolverState = SolverState.FAILED_TIMEOUT_NO_REPEATING;
+ Solution goodSolution = new Solution(
+ new ArrayList<>(Collections.singletonList(resetStateCompassUse)),
+ Vec3i.NULL_VECTOR
+ );
+
+ // Act & Assert
+ checkSolution(goodSolution);
+ }
+
+ @Test
+ void first_compass_with_repeating_particles_sets_state_to_need_second_compass() {
+ // Arrange
+ Solution solution = new Solution(
+ new ArrayList<>(Collections.singletonList(minesOfDivanCompassUse1)),
+ Vec3i.NULL_VECTOR
+ );
+
+ // Act & Assert
+ checkSolution(solution);
+ }
+
+ @Test
+ void first_compass_in_nucleus_sets_state_to_player_in_nucleus() {
+ // Arrange
+ Solution solution = new Solution(
+ new ArrayList<>(Collections.singletonList(nucleusCompass)),
+ Vec3i.NULL_VECTOR
+ );
+
+ // Act & Assert
+ checkSolution(solution);
+ }
+
+ @Test
+ void use_while_handling_previous_returns_still_processing_first_use() {
+ // Arrange
+ CompassUse compassUse1 = new CompassUse(
+ 1647528732979L,
+ new BlockPos(754, 137, 239),
+ new ArrayList<>(Collections.singletonList(
+ new ParticleSpawn(new Vec3Comparable(754.358459, 138.536407, 239.200928), 137)
+ )),
+ HandleCompassResult.SUCCESS,
+ SolverState.PROCESSING_FIRST_USE
+ );
+
+ // STILL_PROCESSING_FIRST_USE is expected instead of LOCATION_TOO_CLOSE since the solver
+ // isn't ready for the second compass use, which includes the location check
+ CompassUse compassUse2 = new CompassUse(compassUse1);
+ compassUse2.expectedHandleCompassUseResult = HandleCompassResult.STILL_PROCESSING_PRIOR_USE;
+ compassUse2.timeIncrementMillis = 500;
+
+ Solution solution = new Solution(
+ new ArrayList<>(Arrays.asList(compassUse1, compassUse2)),
+ Vec3i.NULL_VECTOR
+ );
+
+ // Act & Assert
+ checkSolution(solution);
+ }
+
+ @Test
+ void missing_repeating_particles_sets_state_to_failed_timeout_no_repeating() {
+ // Arrange
+ CompassUse compassUse = new CompassUse(minesOfDivanCompassUse1);
+ compassUse.particles.remove(compassUse.particles.size() - 1);
+ compassUse.particles.get(compassUse.particles.size() - 1).timeIncrementMillis += ALL_PARTICLES_MAX_MILLIS;
+ compassUse.expectedSolverState = SolverState.FAILED_TIMEOUT_NO_REPEATING;
+
+ Solution solution = new Solution(
+ new ArrayList<>(Collections.singletonList(compassUse)),
+ Vec3i.NULL_VECTOR
+ );
+
+ // Act & Assert
+ checkSolution(solution);
+ }
+
+ @Test
+ void compasses_too_close_returns_location_too_close_and_solver_state_is_still_need_second_compass() {
+ // Arrange
+ CompassUse secondCompassUse = new CompassUse(
+ DELAY_AFTER_FIRST_COMPASS_LAST_PARTICLE,
+ minesOfDivanCompassUse1.playerPos.add(2, 2, 2),
+ null,
+ HandleCompassResult.LOCATION_TOO_CLOSE,
+ SolverState.NEED_SECOND_COMPASS
+ );
+
+ Solution solution = new Solution(
+ new ArrayList<>(Arrays.asList(minesOfDivanCompassUse1, secondCompassUse)),
+ Vec3i.NULL_VECTOR
+ );
+
+ // Act & Assert
+ checkSolution(solution);
+ }
+
+ @Test
+ void second_compass_sets_solver_state_to_processing_second_use() {
+ // Arrange
+ CompassUse secondCompassUse = new CompassUse(minesOfDivanCompassUse2);
+ secondCompassUse.expectedSolverState = SolverState.PROCESSING_SECOND_USE;
+ secondCompassUse.particles.clear();
+
+ // Arrange
+ Solution solution = new Solution(
+ new ArrayList<>(Arrays.asList(minesOfDivanCompassUse1, minesOfDivanCompassUse2)),
+ minesOfDivanSolution
+ );
+
+ // Act & Assert
+ checkSolution(solution);
+ }
+
+ @Test
+ void second_compass_with_repeating_particles_sets_state_to_solved() {
+ // Arrange
+ Solution solution = new Solution(
+ new ArrayList<>(Arrays.asList(minesOfDivanCompassUse1, minesOfDivanCompassUse2)),
+ minesOfDivanSolution
+ );
+
+ // Act & Assert
+ checkSolution(solution);
+ }
+
+ @Test
+ void particles_from_first_compass_are_ignored_by_second_compass() {
+ // Arrange
+ CompassUse compassUse2 = new CompassUse(minesOfDivanCompassUse2);
+ compassUse2.particles.add(0, minesOfDivanCompassUse1.particles.get(0));
+ Solution solution = new Solution(
+ new ArrayList<>(Arrays.asList(minesOfDivanCompassUse1, compassUse2)),
+ minesOfDivanSolution
+ );
+
+ // Act & Assert
+ checkSolution(solution);
+ }
+
+ private void execInvalidParticlesInvalidSolution() {
+ // Arrange
+ CompassUse compassUse2 = new CompassUse(minesOfDivanCompassUse2);
+
+ // reverse the direction of the particles, moving the repeat particle
+ // to "new" end
+ compassUse2.particles.remove(compassUse2.particles.size() - 1);
+ Collections.reverse(compassUse2.particles);
+ // add a new repeat particle
+ compassUse2.particles.add(new ParticleSpawn(compassUse2.particles.get(0)));
+
+ // Adjust the player position
+ compassUse2.playerPos = new BlockPos(compassUse2.particles.get(0).spawnLocation);
+ compassUse2.expectedSolverState = SolverState.FAILED_INVALID_SOLUTION;
+ Solution solution = new Solution(
+ new ArrayList<>(Arrays.asList(minesOfDivanCompassUse1, compassUse2)),
+ Vec3i.NULL_VECTOR
+ );
+
+ // Act & Assert
+ checkSolution(solution);
+ }
+
+ @Test
+ void second_compass_with_inverted_particles_sets_state_to_invalid_solution() {
+ // Arrange, Act, and Assert
+ execInvalidParticlesInvalidSolution();
+ }
+
+ @Test
+ void solution_outside_hollows_sets_state_to_invalid_solution() {
+ // Arrange
+ CompassUse compassUse1 = new CompassUse(minesOfDivanCompassUse1);
+ CompassUse compassUse2 = new CompassUse(minesOfDivanCompassUse2);
+ double invalidYOffset = -(minesOfDivanSolution.getY() - (CH_LOWEST_VALID_Y - 1));
+ Vec3 offset = new Vec3(0.0, invalidYOffset, 0.0);
+
+ compassUse1.playerPos = compassUse1.playerPos.add(offset.xCoord, offset.yCoord, offset.zCoord);
+ for (ParticleSpawn particle : compassUse1.particles) {
+ particle.spawnLocation = particle.spawnLocation.add(offset);
+ }
+
+ compassUse2.playerPos = compassUse2.playerPos.add(offset.xCoord, offset.yCoord, offset.zCoord);
+ for (ParticleSpawn particle : compassUse2.particles) {
+ particle.spawnLocation = particle.spawnLocation.add(offset);
+ }
+ compassUse2.expectedSolverState = SolverState.FAILED_INVALID_SOLUTION;
+
+ Solution solution = new Solution(
+ new ArrayList<>(Arrays.asList(compassUse1, compassUse2)),
+ Vec3i.NULL_VECTOR
+ );
+
+ // Act & Assert
+ checkSolution(solution);
+ }
+
+ @Test
+ void second_solution_can_be_solved_after_state_is_solved() {
+ // Arrange
+ Solution solution = new Solution(
+ new ArrayList<>(Arrays.asList(minesOfDivanCompassUse1, minesOfDivanCompassUse2)),
+ minesOfDivanSolution
+ );
+ checkSolution(solution);
+
+ Solution solution2 = new Solution(
+ new ArrayList<>(Arrays.asList(precursorCityCompassUse1, precursorCityCompassUse2)),
+ precursorCitySolution
+ );
+
+ // Act & Assert
+ checkSolution(solution2);
+ }
+
+ @Test
+ void second_solution_can_be_solved_after_state_is_failed() {
+ // Arrange
+ execInvalidParticlesInvalidSolution();
+ Assertions.assertEquals(solver.getSolverState(), SolverState.FAILED_INVALID_SOLUTION);
+
+ Solution solution2 = new Solution(
+ new ArrayList<>(Arrays.asList(precursorCityCompassUse1, precursorCityCompassUse2)),
+ precursorCitySolution
+ );
+
+ // Act & Assert
+ checkSolution(solution2);
+ }
+
+ @Test
+ void distant_particles_are_ignored() {
+ // Arrange
+ CompassUse compassUse = new CompassUse(minesOfDivanCompassUse1);
+ compassUse.particles.get(2).spawnLocation.addVector(100.0, 100.0, 100.0);
+ Solution solution = new Solution(
+ new ArrayList<>(Collections.singletonList(minesOfDivanCompassUse1)),
+ Vec3i.NULL_VECTOR
+ );
+
+ // Act & Assert
+ checkSolution(solution);
+ }
+
+ @Test
+ void possible_targets_includes_queen_and_excludes_king_when_kings_scent_is_present() {
+ // Arrange
+ Solution solution = new Solution(
+ new ArrayList<>(Collections.singletonList(goblinHoldoutCompassUse1)),
+ Vec3i.NULL_VECTOR
+ );
+ solver.kingsScentPresent = () -> true;
+
+ // Act
+ checkSolution(solution);
+ EnumSet<CompassTarget> targets = solver.getPossibleTargets();
+
+ // Assert
+ Assertions.assertTrue(targets.contains(CompassTarget.GOBLIN_QUEEN));
+ Assertions.assertFalse(targets.contains(CompassTarget.GOBLIN_KING));
+ }
+
+ @Test
+ void possible_targets_excludes_king_and_includes_queen_when_kings_scent_is_not_present() {
+ // Arrange
+ Solution solution = new Solution(
+ new ArrayList<>(Collections.singletonList(goblinHoldoutCompassUse1)),
+ Vec3i.NULL_VECTOR
+ );
+ solver.kingsScentPresent = () -> false;
+
+ // Act
+ checkSolution(solution);
+ EnumSet<CompassTarget> targets = solver.getPossibleTargets();
+
+ // Assert
+ Assertions.assertFalse(targets.contains(CompassTarget.GOBLIN_QUEEN));
+ Assertions.assertTrue(targets.contains(CompassTarget.GOBLIN_KING));
+ }
+
+ @Test
+ void possible_targets_excludes_odawa_and_includes_temple_when_key_in_inventory() {
+ // Arrange
+ Solution solution = new Solution(
+ new ArrayList<>(Collections.singletonList(jungleCompassUse1)),
+ Vec3i.NULL_VECTOR
+ );
+ solver.keyInInventory = () -> true;
+
+ // Act
+ checkSolution(solution);
+ EnumSet<CompassTarget> targets = solver.getPossibleTargets();
+
+ // Assert
+ Assertions.assertFalse(targets.contains(CompassTarget.ODAWA));
+ Assertions.assertTrue(targets.contains(CompassTarget.JUNGLE_TEMPLE));
+ }
+
+ @Test
+ void possible_targets_includes_odawa_and_excludes_temple_when_key_not_in_inventory() {
+ // Arrange
+ Solution solution = new Solution(
+ new ArrayList<>(Collections.singletonList(jungleCompassUse1)),
+ Vec3i.NULL_VECTOR
+ );
+ solver.keyInInventory = () -> false;
+
+ // Act
+ checkSolution(solution);
+ EnumSet<CompassTarget> targets = solver.getPossibleTargets();
+
+ // Assert
+ Assertions.assertTrue(targets.contains(CompassTarget.ODAWA));
+ Assertions.assertFalse(targets.contains(CompassTarget.JUNGLE_TEMPLE));
+ }
+
+ @Test
+ void possible_targets_contains_all_valid_targets_when_all_crystals_missing() {
+ // Arrange
+ Solution solution = new Solution(
+ new ArrayList<>(Collections.singletonList(precursorCityCompassUse1)),
+ Vec3i.NULL_VECTOR
+ );
+ solver.foundCrystals = () -> EnumSet.noneOf(Crystal.class);
+ solver.keyInInventory = () -> false;
+ solver.kingsScentPresent = () -> false;
+
+ // Act
+ checkSolution(solution);
+ EnumSet<CompassTarget> targets = solver.getPossibleTargets();
+
+ // Assert
+ Assertions.assertTrue(targets.contains(CompassTarget.CRYSTAL_NUCLEUS));
+ Assertions.assertTrue(targets.contains(CompassTarget.ODAWA));
+ Assertions.assertTrue(targets.contains(CompassTarget.MINES_OF_DIVAN));
+ Assertions.assertTrue(targets.contains(CompassTarget.GOBLIN_KING));
+ Assertions.assertTrue(targets.contains(CompassTarget.PRECURSOR_CITY));
+ Assertions.assertTrue(targets.contains(CompassTarget.BAL));
+ // No key or king's scent, so these should be false
+ Assertions.assertFalse(targets.contains(CompassTarget.JUNGLE_TEMPLE));
+ Assertions.assertFalse(targets.contains(CompassTarget.GOBLIN_QUEEN));
+ }
+
+ private void CheckExcludedTargetsForCrystals(
+ CompassUse compassUseToExecute,
+ ArrayList<CompassTarget> excludedTargets,
+ EnumSet<Crystal> foundCrystals
+ ) {
+ // Arrange
+ EnumSet<CompassTarget> targets;
+ Solution solution = new Solution(
+ new ArrayList<>(Collections.singletonList(compassUseToExecute)),
+ Vec3i.NULL_VECTOR
+ );
+
+ // Act
+ checkSolution(solution);
+ targets = solver.getPossibleTargets();
+ boolean targetFound = false;
+ for (CompassTarget target : excludedTargets) {
+ if (targets.contains(target)) {
+ targetFound = true;
+ break;
+ }
+ }
+ Assertions.assertTrue(targetFound);
+
+ resetSolverState();
+ solver.foundCrystals = () -> foundCrystals;
+ checkSolution(solution);
+ targets = solver.getPossibleTargets();
+
+ // Assert
+ for (CompassTarget target : excludedTargets) {
+ Assertions.assertFalse(targets.contains(target));
+ }
+ }
+
+ @Test
+ void possible_targets_excludes_king_and_queen_when_amber_crystal_found() {
+ // Arrange
+ ArrayList<CompassTarget> excludedTargets = new ArrayList<>(Arrays.asList(
+ CompassTarget.GOBLIN_KING,
+ CompassTarget.GOBLIN_QUEEN
+ ));
+
+ // Act & Assert
+ CheckExcludedTargetsForCrystals(goblinHoldoutCompassUse1, excludedTargets, EnumSet.of(Crystal.AMBER));
+ }
+
+ @Test
+ void possible_targets_excludes_odawa_and_temple_when_amethyst_crystal_found() {
+ // Arrange
+ ArrayList<CompassTarget> excludedTargets = new ArrayList<>(Arrays.asList(
+ CompassTarget.ODAWA,
+ CompassTarget.JUNGLE_TEMPLE
+ ));
+
+ // Act & Assert
+ CheckExcludedTargetsForCrystals(jungleCompassUse1, excludedTargets, EnumSet.of(Crystal.AMETHYST));
+ }
+
+ @Test
+ void possible_targets_excludes_mines_when_jade_crystal_found() {
+ // Arrange
+ ArrayList<CompassTarget> excludedTargets = new ArrayList<>(Collections.singletonList(
+ CompassTarget.MINES_OF_DIVAN));
+
+ // Act & Assert
+ CheckExcludedTargetsForCrystals(minesOfDivanCompassUse1, excludedTargets, EnumSet.of(Crystal.JADE));
+ }
+
+ @Test
+ void possible_targets_excludes_city_when_sapphire_crystal_found() {
+ // Arrange
+ ArrayList<CompassTarget> excludedTargets = new ArrayList<>(Collections.singletonList(
+ CompassTarget.PRECURSOR_CITY));
+
+ // Act & Assert
+ CheckExcludedTargetsForCrystals(precursorCityCompassUse1, excludedTargets, EnumSet.of(Crystal.SAPPHIRE));
+ }
+
+ @Test
+ void possible_targets_excludes_bal_when_topaz_crystal_found() {
+ // Arrange
+ ArrayList<CompassTarget> excludedTargets = new ArrayList<>(Collections.singletonList(
+ CompassTarget.BAL));
+
+ // Act & Assert
+ CheckExcludedTargetsForCrystals(magmaCompassUse1, excludedTargets, EnumSet.of(Crystal.TOPAZ));
+ }
+
+ @Test
+ void solver_resets_when_possible_targets_change_based_on_found_crystals() {
+ // Arrange
+ Solution solution = new Solution(
+ new ArrayList<>(Collections.singletonList(minesOfDivanCompassUse1)),
+ Vec3i.NULL_VECTOR
+ );
+
+ // Act
+ checkSolution(solution);
+ systemTimeMillis += minesOfDivanCompassUse2.timeIncrementMillis;
+ solver.foundCrystals = () -> EnumSet.of(Crystal.JADE);
+ HandleCompassResult handleCompassResult = solver.handleCompassUse(minesOfDivanCompassUse2.playerPos);
+
+ // Assert
+ Assertions.assertEquals(HandleCompassResult.POSSIBLE_TARGETS_CHANGED, handleCompassResult);
+ Assertions.assertEquals(SolverState.NOT_STARTED, solver.getSolverState());
+ }
+
+ @Test
+ void solver_resets_when_player_location_changes_zones() {
+ // Arrange
+ Solution solution = new Solution(
+ new ArrayList<>(Collections.singletonList(minesOfDivanCompassUse1)),
+ Vec3i.NULL_VECTOR
+ );
+
+ // Act
+ checkSolution(solution);
+ systemTimeMillis += minesOfDivanCompassUse2.timeIncrementMillis;
+ BlockPos newLocation = minesOfDivanCompassUse2.playerPos.add(-400, 0, 0);
+ HandleCompassResult handleCompassResult = solver.handleCompassUse(newLocation);
+
+ // Assert
+ Assertions.assertEquals(HandleCompassResult.POSSIBLE_TARGETS_CHANGED, handleCompassResult);
+ Assertions.assertEquals(SolverState.NOT_STARTED, solver.getSolverState());
+ }
+
+ @Test
+ void solver_resets_based_on_jungle_key_presence() {
+ // Arrange
+ Solution solution = new Solution(
+ new ArrayList<>(Collections.singletonList(jungleCompassUse1)),
+ Vec3i.NULL_VECTOR
+ );
+
+ // Act
+ solver.keyInInventory = () -> false;
+ checkSolution(solution);
+ systemTimeMillis += jungleCompassUse2.timeIncrementMillis;
+ solver.keyInInventory = () -> true;
+ HandleCompassResult handleCompassResult = solver.handleCompassUse(jungleCompassUse2.playerPos);
+
+ // Assert
+ Assertions.assertEquals(HandleCompassResult.POSSIBLE_TARGETS_CHANGED, handleCompassResult);
+ Assertions.assertEquals(SolverState.NOT_STARTED, solver.getSolverState());
+ }
+
+ @Test
+ void solver_resets_based_on_kings_scent_presence() {
+ // Arrange
+ Solution solution = new Solution(
+ new ArrayList<>(Collections.singletonList(goblinHoldoutCompassUse1)),
+ Vec3i.NULL_VECTOR
+ );
+
+ // Act
+ solver.kingsScentPresent = () -> false;
+ checkSolution(solution);
+ systemTimeMillis += goblinHoldoutCompassUse2.timeIncrementMillis;
+ solver.kingsScentPresent = () -> true;
+ HandleCompassResult handleCompassResult = solver.handleCompassUse(goblinHoldoutCompassUse2.playerPos);
+
+ // Assert
+ Assertions.assertEquals(HandleCompassResult.POSSIBLE_TARGETS_CHANGED, handleCompassResult);
+ Assertions.assertEquals(SolverState.NOT_STARTED, solver.getSolverState());
+ }
+
+ @Test
+ void mines_of_divan_solution_is_solved() {
+ // Arrange
+ Solution solution = new Solution(
+ new ArrayList<>(Arrays.asList(minesOfDivanCompassUse1, minesOfDivanCompassUse2)),
+ minesOfDivanSolution
+ );
+
+ // Act & Assert
+ checkSolution(solution);
+ }
+
+ @Test
+ void jungle_temple_solution_with_key_in_inventory_is_solved_successfully_excluding_bal() {
+ // Arrange
+ Solution solution = new Solution(
+ new ArrayList<>(Arrays.asList(jungleCompassUse1, jungleCompassUse2)),
+ jungleSolutionTempleDoor
+ );
+ solver.keyInInventory = () -> true;
+
+ // Act & Assert
+ checkSolution(solution);
+ }
+
+ @Test
+ void jungle_temple_solution_is_solved() {
+ // Arrange
+ Solution solution = new Solution(
+ new ArrayList<>(Arrays.asList(jungleCompassUse1, jungleCompassUse2)),
+ jungleSolution
+ );
+
+ // Act & Assert
+ checkSolution(solution);
+ }
+
+ @Test
+ void precursor_city_solution_is_solved() {
+ // Arrange
+ Solution solution = new Solution(
+ new ArrayList<>(Arrays.asList(precursorCityCompassUse1, precursorCityCompassUse2)),
+ precursorCitySolution
+ );
+
+ // Act & Assert
+ checkSolution(solution);
+ }
+
+ @Test
+ void goblin_king_solution_is_solved() {
+ // Arrange
+ Solution solution = new Solution(
+ new ArrayList<>(Arrays.asList(goblinHoldoutCompassUse1, goblinHoldoutCompassUse2)),
+ goblinHoldoutKingSolution
+ );
+
+ // Act & Assert
+ checkSolution(solution);
+ }
+
+ @Test
+ void bal_solution_is_solved() {
+ // Arrange
+ Solution solution = new Solution(
+ new ArrayList<>(Arrays.asList(magmaCompassUse1, magmaCompassUse2)),
+ magmaSolution
+ );
+
+ // Act & Assert
+ checkSolution(solution);
+ }
+
+ EnumSet<CompassTarget> GetSolutionTargetsHelper(
+ HollowsZone compassUsedZone,
+ EnumSet<Crystal> foundCrystals,
+ EnumSet<CompassTarget> possibleTargets,
+ Vec3Comparable solutionCoords,
+ int expectedSolutionCount
+ ) {
+ EnumSet<CompassTarget> solutionTargets =
+ CrystalWishingCompassSolver.getSolutionTargets(
+ compassUsedZone,
+ foundCrystals,
+ possibleTargets,
+ solutionCoords
+ );
+ Assertions.assertEquals(expectedSolutionCount, solutionTargets.size());
+ return solutionTargets;
+ }
+
+ @Test
+ void solutionPossibleTargets_removes_nucleus_when_coords_not_in_nucleus() {
+ // Arrange & Act
+ EnumSet<CompassTarget> solutionTargets = GetSolutionTargetsHelper(
+ HollowsZone.MITHRIL_DEPOSITS,
+ EnumSet.noneOf(Crystal.class),
+ EnumSet.allOf(CompassTarget.class),
+ new Vec3Comparable(minesOfDivanSolution),
+ 1
+ );
+
+ // Assert
+ Assertions.assertFalse(solutionTargets.contains(CompassTarget.CRYSTAL_NUCLEUS));
+ }
+
+ @Test
+ void solutionPossibleTargets_includes_jungle_temple_and_bal_from_other_zones_when_overlapping() {
+ // Arrange
+ EnumSet<CompassTarget> possibleTargets = EnumSet.allOf(CompassTarget.class);
+ possibleTargets.remove(CompassTarget.ODAWA);
+
+ // Act
+ EnumSet<CompassTarget> solutionTargets = GetSolutionTargetsHelper(
+ HollowsZone.GOBLIN_HOLDOUT,
+ EnumSet.of(Crystal.AMBER),
+ possibleTargets,
+ new Vec3Comparable(202, 72, 513), // upper left of Goblin Holdout
+ 2
+ );
+
+ // Assert
+ Assertions.assertTrue(solutionTargets.contains(CompassTarget.JUNGLE_TEMPLE));
+ Assertions.assertTrue(solutionTargets.contains(CompassTarget.BAL));
+ }
+
+ @Test
+ void solutionPossibleTargets_includes_king_odawa_and_mines_of_divan_from_other_zones_when_overlapping() {
+ // Arrange & Act
+ EnumSet<CompassTarget> solutionTargets = GetSolutionTargetsHelper(
+ HollowsZone.PRECURSOR_REMNANTS,
+ EnumSet.noneOf(Crystal.class),
+ EnumSet.allOf(CompassTarget.class),
+ kingOdawaMinesOrNucleusCoordsInRemnants,
+ 3
+ );
+
+ // Assert
+ Assertions.assertTrue(solutionTargets.contains(CompassTarget.GOBLIN_KING));
+ Assertions.assertTrue(solutionTargets.contains(CompassTarget.MINES_OF_DIVAN));
+ Assertions.assertTrue(solutionTargets.contains(CompassTarget.ODAWA));
+ }
+
+ @Test
+ void solutionPossibleTargets_includes_city_and_queen_from_other_zones_when_overlapping() {
+ // Arrange
+ EnumSet<CompassTarget> possibleTargets = EnumSet.allOf(CompassTarget.class);
+ possibleTargets.remove(CompassTarget.GOBLIN_KING);
+ possibleTargets.remove(CompassTarget.ODAWA);
+
+ // Act
+ EnumSet<CompassTarget> solutionTargets = GetSolutionTargetsHelper(
+ HollowsZone.MITHRIL_DEPOSITS,
+ EnumSet.noneOf(Crystal.class),
+ possibleTargets,
+ queenKingOdawaOrCityNucleusCoordsInMithrilDeposits,
+ 2
+ );
+
+ // Assert
+ Assertions.assertTrue(solutionTargets.contains(CompassTarget.GOBLIN_QUEEN));
+ Assertions.assertTrue(solutionTargets.contains(CompassTarget.PRECURSOR_CITY));
+ }
+
+ @Test
+ void solutionPossibleTargets_excludes_jungle_temple_from_other_zone_when_not_overlapping() {
+ // Arrange
+ Vec3Comparable notOverlapping = new Vec3Comparable(202, 72, 513 + 110); // upper left of Goblin Holdout
+ EnumSet<CompassTarget> possibleTargets = EnumSet.allOf(CompassTarget.class);
+ possibleTargets.remove(CompassTarget.ODAWA);
+
+ // Act
+ EnumSet<CompassTarget> solutionTargets = GetSolutionTargetsHelper(
+ HollowsZone.GOBLIN_HOLDOUT,
+ EnumSet.of(Crystal.AMBER),
+ possibleTargets,
+ notOverlapping,
+ 1
+ );
+
+ // Assert
+ Assertions.assertTrue(solutionTargets.contains(CompassTarget.BAL));
+ }
+
+ @Test
+ void solutionPossibleTargets_excludes_king_odawa_and_mines_of_divan_from_other_zones_when_not_overlapping() {
+ // Arrange
+ Vec3Comparable notOverlapping = kingOdawaMinesOrNucleusCoordsInRemnants.addVector(100, 0, 100);
+
+ // Act & Assert
+ EnumSet<CompassTarget> solutionTargets = GetSolutionTargetsHelper(
+ HollowsZone.PRECURSOR_REMNANTS,
+ EnumSet.noneOf(Crystal.class),
+ EnumSet.allOf(CompassTarget.class),
+ notOverlapping,
+ 0
+ );
+ }
+
+ @Test
+ void solutionPossibleTargets_excludes_city_and_queen_from_other_zones_when_not_overlapping() {
+ // Arrange
+ Vec3Comparable notOverlapping = queenKingOdawaOrCityNucleusCoordsInMithrilDeposits.addVector(100, 0, -100);
+ EnumSet<CompassTarget> possibleTargets = EnumSet.allOf(CompassTarget.class);
+ possibleTargets.remove(CompassTarget.GOBLIN_KING);
+ possibleTargets.remove(CompassTarget.ODAWA);
+
+ // Act & Assert
+ EnumSet<CompassTarget> solutionTargets = GetSolutionTargetsHelper(
+ HollowsZone.MITHRIL_DEPOSITS,
+ EnumSet.noneOf(Crystal.class),
+ possibleTargets,
+ notOverlapping,
+ 0
+ );
+ }
+
+ @Test
+ void solutionPossibleTargets_includes_king_based_on_y_coordinate() {
+ // Arrange
+ EnumSet<CompassTarget> possibleTargets = EnumSet.allOf(CompassTarget.class);
+ possibleTargets.remove(CompassTarget.ODAWA);
+
+ // Act
+ EnumSet<CompassTarget> solutionTargets = GetSolutionTargetsHelper(
+ HollowsZone.GOBLIN_HOLDOUT,
+ EnumSet.noneOf(Crystal.class),
+ possibleTargets,
+ new Vec3Comparable(goblinHoldoutKingSolution),
+ 1
+ );
+
+ // Assert
+ Assertions.assertTrue(solutionTargets.contains(CompassTarget.GOBLIN_KING));
+ }
+
+ @Test
+ void solutionPossibleTargets_includes_odawa_based_on_y_coordinate() {
+ // Arrange
+ EnumSet<CompassTarget> possibleTargets = EnumSet.allOf(CompassTarget.class);
+ possibleTargets.remove(CompassTarget.GOBLIN_KING);
+
+ // Act
+ EnumSet<CompassTarget> solutionTargets = GetSolutionTargetsHelper(
+ HollowsZone.JUNGLE,
+ EnumSet.noneOf(Crystal.class),
+ possibleTargets,
+ new Vec3Comparable(odawaSolution),
+ 1
+ );
+
+ // Assert
+ Assertions.assertTrue(solutionTargets.contains(CompassTarget.ODAWA));
+ }
+
+ @Test
+ void solutionPossibleTargets_includes_mines_based_on_y_coordinate() {
+ // Arrange
+ EnumSet<CompassTarget> possibleTargets = EnumSet.allOf(CompassTarget.class);
+ possibleTargets.remove(CompassTarget.ODAWA);
+
+ // Act
+ EnumSet<CompassTarget> solutionTargets = GetSolutionTargetsHelper(
+ HollowsZone.MITHRIL_DEPOSITS,
+ EnumSet.noneOf(Crystal.class),
+ possibleTargets,
+ new Vec3Comparable(minesOfDivanSolution),
+ 1
+ );
+
+ // Assert
+ Assertions.assertTrue(solutionTargets.contains(CompassTarget.MINES_OF_DIVAN));
+ }
+
+ @Test
+ void solutionPossibleTargets_includes_temple_based_on_y_coordinate() {
+ // Arrange
+ EnumSet<CompassTarget> possibleTargets = EnumSet.allOf(CompassTarget.class);
+ possibleTargets.remove(CompassTarget.BAL);
+ possibleTargets.remove(CompassTarget.ODAWA);
+ possibleTargets.remove(CompassTarget.GOBLIN_KING);
+
+ // Act
+ EnumSet<CompassTarget> solutionTargets = GetSolutionTargetsHelper(
+ HollowsZone.JUNGLE,
+ EnumSet.noneOf(Crystal.class),
+ possibleTargets,
+ new Vec3Comparable(jungleSolution),
+ 1
+ );
+
+ // Assert
+ Assertions.assertTrue(solutionTargets.contains(CompassTarget.JUNGLE_TEMPLE));
+ }
+
+ @Test
+ void solutionPossibleTargets_includes_queen_based_on_y_coordinate() {
+ // Arrange
+ EnumSet<CompassTarget> possibleTargets = EnumSet.allOf(CompassTarget.class);
+ possibleTargets.remove(CompassTarget.GOBLIN_KING);
+ possibleTargets.remove(CompassTarget.ODAWA);
+
+ // Act
+ EnumSet<CompassTarget> solutionTargets = GetSolutionTargetsHelper(
+ HollowsZone.GOBLIN_HOLDOUT,
+ EnumSet.noneOf(Crystal.class),
+ possibleTargets,
+ new Vec3Comparable(goblinHoldoutQueenSolution),
+ 1
+ );
+
+ // Assert
+ Assertions.assertTrue(solutionTargets.contains(CompassTarget.GOBLIN_QUEEN));
+ }
+
+ @Test
+ void solutionPossibleTargets_includes_city_based_on_y_coordinate() {
+ // Arrange
+ EnumSet<CompassTarget> possibleTargets = EnumSet.allOf(CompassTarget.class);
+ possibleTargets.remove(CompassTarget.GOBLIN_KING);
+
+ // Act
+ EnumSet<CompassTarget> solutionTargets = GetSolutionTargetsHelper(
+ HollowsZone.PRECURSOR_REMNANTS,
+ EnumSet.noneOf(Crystal.class),
+ possibleTargets,
+ new Vec3Comparable(precursorCitySolution),
+ 1
+ );
+
+ // Assert
+ Assertions.assertTrue(solutionTargets.contains(CompassTarget.PRECURSOR_CITY));
+ }
+
+ @Test
+ void solutionPossibleTargets_includes_bal_based_on_y_coordinate() {
+ // Arrange & Act
+ EnumSet<CompassTarget> solutionTargets = GetSolutionTargetsHelper(
+ HollowsZone.MAGMA_FIELDS,
+ EnumSet.noneOf(Crystal.class),
+ EnumSet.allOf(CompassTarget.class),
+ new Vec3Comparable(magmaSolution),
+ 1
+ );
+
+ // Assert
+ Assertions.assertTrue(solutionTargets.contains(CompassTarget.BAL));
+ }
+
+ // Represents a particle spawn, including:
+ // - Milliseconds to increment the "system time" prior to spawn.
+ // - The particle spawn location.
+ static class ParticleSpawn {
+ long timeIncrementMillis;
+ Vec3Comparable spawnLocation;
+
+ ParticleSpawn(Vec3Comparable spawnLocation, long timeIncrementMillis) {
+ this.timeIncrementMillis = timeIncrementMillis;
+ this.spawnLocation = spawnLocation;
+ }
+
+ ParticleSpawn(ParticleSpawn source) {
+ timeIncrementMillis = source.timeIncrementMillis;
+ spawnLocation = new Vec3Comparable(source.spawnLocation);
+ }
+ }
+
+ // Represents a use of the wishing compass, including:
+ // - Milliseconds to increment the "system time" prior to use.
+ // - The player's position when the compass is used.
+ // - The resulting set of particles
+ // - The expected state of the wishing compass solver after this compass is used
+ static class CompassUse {
+ long timeIncrementMillis;
+ BlockPos playerPos;
+ ArrayList<ParticleSpawn> particles;
+ HandleCompassResult expectedHandleCompassUseResult;
+ SolverState expectedSolverState;
+
+ CompassUse(
+ long timeIncrementMillis,
+ BlockPos playerPos,
+ ArrayList<ParticleSpawn> particles,
+ HandleCompassResult expectedHandleCompassUseResult,
+ SolverState expectedState
+ ) {
+ this.timeIncrementMillis = timeIncrementMillis;
+ this.playerPos = playerPos;
+ this.particles = particles != null ? particles : new ArrayList<>();
+ this.expectedHandleCompassUseResult = expectedHandleCompassUseResult;
+ this.expectedSolverState = expectedState;
+ }
+
+ CompassUse(CompassUse source) {
+ this.timeIncrementMillis = source.timeIncrementMillis;
+ this.playerPos = new BlockPos(source.playerPos);
+ this.particles = new ArrayList<>(source.particles);
+ this.expectedHandleCompassUseResult = source.expectedHandleCompassUseResult;
+ this.expectedSolverState = source.expectedSolverState;
+ }
+ }
+
+ static class Solution {
+ ArrayList<CompassUse> compassUses;
+ Vec3i expectedSolutionCoords;
+
+ Solution(ArrayList<CompassUse> compassUses, Vec3i expectedSolutionCoords) {
+ this.compassUses = compassUses;
+ this.expectedSolutionCoords = new Vec3i(
+ expectedSolutionCoords.getX(),
+ expectedSolutionCoords.getY(),
+ expectedSolutionCoords.getZ()
+ );
+ }
+ }
+
+ private static void neuDebugLog(String message) {
+ System.out.println(message);
+ }
+}
diff --git a/src/test/java/io/github/moulberry/notenoughupdates/util/CalculatorTest.java b/src/test/java/io/github/moulberry/notenoughupdates/util/CalculatorTest.java
new file mode 100644
index 00000000..66ba5442
--- /dev/null
+++ b/src/test/java/io/github/moulberry/notenoughupdates/util/CalculatorTest.java
@@ -0,0 +1,41 @@
+/*
+ * Copyright (C) 2022 NotEnoughUpdates contributors
+ *
+ * This file is part of NotEnoughUpdates.
+ *
+ * NotEnoughUpdates is free software: you can redistribute it
+ * and/or modify it under the terms of the GNU Lesser General Public
+ * License as published by the Free Software Foundation, either
+ * version 3 of the License, or (at your option) any later version.
+ *
+ * NotEnoughUpdates is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+ * Lesser General Public License for more details.
+ *
+ * You should have received a copy of the GNU Lesser General Public License
+ * along with NotEnoughUpdates. If not, see <https://www.gnu.org/licenses/>.
+ */
+
+package io.github.moulberry.notenoughupdates.util;
+
+import java.math.BigDecimal;
+import java.util.List;
+
+public class CalculatorTest {
+ public static void main(String[] args) throws Calculator.CalculatorException {
+ List<Calculator.Token> lex = Calculator.lex("10k + 3 * 4m");
+ List<Calculator.Token> shunted = Calculator.shuntingYard(lex);
+ for (Calculator.Token rawToken : shunted) {
+ System.out.printf(
+ "%s(%s)",
+ rawToken.type,
+ rawToken.operatorValue == null ? rawToken.numericValue + " * 10 ^ " + rawToken.exponent : rawToken.operatorValue
+ );
+ }
+ System.out.println();
+ BigDecimal evaluate = Calculator.evaluate(shunted);
+ System.out.println("Eval: " + evaluate);
+ }
+
+}