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author | IRONM00N <64110067+IRONM00N@users.noreply.github.com> | 2022-06-09 18:04:22 -0400 |
---|---|---|
committer | GitHub <noreply@github.com> | 2022-06-09 18:04:22 -0400 |
commit | 50dc2122462642a0c3a00b3a3ae6389825dc04df (patch) | |
tree | f96dc7785452b849062a493c97c33005f8c4152b /src/test/java/io | |
parent | ec8ec6bb6a6b82cd4369e61d0e3cd4539b9c8295 (diff) | |
download | NotEnoughUpdates-50dc2122462642a0c3a00b3a3ae6389825dc04df.tar.gz NotEnoughUpdates-50dc2122462642a0c3a00b3a3ae6389825dc04df.tar.bz2 NotEnoughUpdates-50dc2122462642a0c3a00b3a3ae6389825dc04df.zip |
Re-license project as LGPL (#157)
* add licence files & a few misc chores
* add license notices & run auto formatter
Diffstat (limited to 'src/test/java/io')
3 files changed, 273 insertions, 116 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 index c0b451e3..12645152 100644 --- a/src/test/java/io/github/moulberry/notenoughupdates/core/util/Vec3ComparableTest.java +++ b/src/test/java/io/github/moulberry/notenoughupdates/core/util/Vec3ComparableTest.java @@ -1,3 +1,22 @@ +/* + * 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; diff --git a/src/test/java/io/github/moulberry/notenoughupdates/miscfeatures/CrystalMetalDetectorSolverTest.java b/src/test/java/io/github/moulberry/notenoughupdates/miscfeatures/CrystalMetalDetectorSolverTest.java index 58233410..123f5bf3 100644 --- a/src/test/java/io/github/moulberry/notenoughupdates/miscfeatures/CrystalMetalDetectorSolverTest.java +++ b/src/test/java/io/github/moulberry/notenoughupdates/miscfeatures/CrystalMetalDetectorSolverTest.java @@ -1,12 +1,31 @@ +/* + * 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 org.junit.jupiter.api.Assertions; import java.util.ArrayList; @@ -17,10 +36,12 @@ class CrystalMetalDetectorSolverTest { SolutionState expectedState; boolean centerKnown; - public 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; @@ -38,7 +59,7 @@ class CrystalMetalDetectorSolverTest { void setUp() { CrystalMetalDetectorSolver.initWorld(); CrystalMetalDetectorSolver.treasureAllowedPredicate = blockPos -> true; - NEUDebugLogger.logMethod = CrystalMetalDetectorSolverTest::neuDebugLog; + NEUDebugLogger.logMethod = CrystalMetalDetectorSolverTest::neuDebugLog; NEUDebugLogger.allFlagsEnabled = true; } @@ -59,9 +80,11 @@ class CrystalMetalDetectorSolverTest { } else { findPossibleSolutionsTwice(loc, false); } - Assertions.assertEquals(loc.expectedState, + Assertions.assertEquals( + loc.expectedState, CrystalMetalDetectorSolver.currentState, - "Location index " + index); + "Location index " + index + ); index++; } @@ -70,30 +93,38 @@ class CrystalMetalDetectorSolverTest { @Test void findPossibleSolutions_single_location_sample_is_ignored() { - Location location = new Location(37.3, + Location location = new Location( + 37.3, new Vec3Comparable(779.1057116115207, 70.5, 502.2997937667801), SolutionState.MULTIPLE, - false); + false + ); CrystalMetalDetectorSolver.findPossibleSolutions(location.distance, location.playerPosition, false); Assertions.assertEquals(SolutionState.NOT_STARTED, CrystalMetalDetectorSolver.previousState, - "Previous state"); + "Previous state" + ); Assertions.assertEquals(SolutionState.NOT_STARTED, CrystalMetalDetectorSolver.currentState, - "Current state"); + "Current state" + ); } @Test void findPossibleSolutions_currentState_becomes_previousState() { - Location location = new Location(37.3, + Location location = new Location( + 37.3, new Vec3Comparable(779.1057116115207, 70.5, 502.2997937667801), SolutionState.MULTIPLE, - false); + false + ); findPossibleSolutionsTwice(location, false); Assertions.assertEquals(SolutionState.NOT_STARTED, CrystalMetalDetectorSolver.previousState, - "Previous state"); + "Previous state" + ); Assertions.assertEquals(location.expectedState, CrystalMetalDetectorSolver.currentState, - "Current state"); + "Current state" + ); } @Test @@ -101,15 +132,19 @@ class CrystalMetalDetectorSolverTest { 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, + solution.locations.add(new Location( + 67.5, new Vec3Comparable(757.8235166144441, 68.0, 532.8037800566217), SolutionState.FOUND_KNOWN, - true)); + true + )); // slightly different player position with invalid distance - solution.locations.add(new Location(4.0, + solution.locations.add(new Location( + 4.0, new Vec3Comparable(757.8235166144441, 69.0, 532.8037800566217), SolutionState.INVALID, - true)); + true + )); checkSolution(solution); } @@ -117,14 +152,18 @@ class CrystalMetalDetectorSolverTest { 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, + 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 + 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)); + true + )); checkSolution(solution); } @@ -132,10 +171,12 @@ class CrystalMetalDetectorSolverTest { 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, + solution.locations.add(new Location( + 67.5, new Vec3Comparable(757.8235166144441, 68.0, 532.8037800566217), SolutionState.MULTIPLE, - false)); + false + )); checkSolution(solution); solution.locations.get(0).centerKnown = true; @@ -149,24 +190,30 @@ class CrystalMetalDetectorSolverTest { 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, + solution.locations.add(new Location( + 67.5, new Vec3Comparable(757.8235166144441, 68.0, 532.8037800566217), SolutionState.FOUND_KNOWN, - true)); + 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, + 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, + false + )); + solution.locations.add(new Location( + 34.8, new Vec3Comparable(782.6999999880791, 71.0, 508.69999998807907), SolutionState.FOUND, - false)); + false + )); solution.expectedSolution = new BlockPos(758, 67, 533); checkSolution(solution); @@ -177,14 +224,18 @@ class CrystalMetalDetectorSolverTest { Solution solution = new Solution(); // First, validate that the solution doesn't work without the center - solution.locations.add(new Location(29.4, + 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, + false + )); + solution.locations.add(new Location( + 38.2, new Vec3Comparable(711.858759313838, 67.0, 590.3583935310772), SolutionState.MULTIPLE, - false)); + false + )); checkSolution(solution); // Now validate that the solution works with the center diff --git a/src/test/java/io/github/moulberry/notenoughupdates/miscfeatures/CrystalWishingCompassSolverTest.java b/src/test/java/io/github/moulberry/notenoughupdates/miscfeatures/CrystalWishingCompassSolverTest.java index dff8749c..5cf5fa90 100644 --- a/src/test/java/io/github/moulberry/notenoughupdates/miscfeatures/CrystalWishingCompassSolverTest.java +++ b/src/test/java/io/github/moulberry/notenoughupdates/miscfeatures/CrystalWishingCompassSolverTest.java @@ -1,3 +1,22 @@ +/* + * 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; @@ -17,7 +36,10 @@ import java.util.Arrays; import java.util.Collections; import java.util.EnumSet; -import static io.github.moulberry.notenoughupdates.miscfeatures.CrystalWishingCompassSolver.*; +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(); @@ -51,7 +73,8 @@ class CrystalWishingCompassSolverTest { new ParticleSpawn(new Vec3Comparable(754.333618, 138.527710, 239.197800), 55) )), HandleCompassResult.SUCCESS, - SolverState.NEED_SECOND_COMPASS); + SolverState.NEED_SECOND_COMPASS + ); private final CompassUse minesOfDivanCompassUse2 = new CompassUse( DELAY_AFTER_FIRST_COMPASS_LAST_PARTICLE, @@ -80,7 +103,8 @@ class CrystalWishingCompassSolverTest { new ParticleSpawn(new Vec3Comparable(759.636658, 135.522827, 266.186371), 0) )), HandleCompassResult.SUCCESS, - SolverState.SOLVED); + SolverState.SOLVED + ); Vec3i minesOfDivanSolution = new Vec3i(735, 98, 451); @@ -110,7 +134,8 @@ class CrystalWishingCompassSolverTest { new ParticleSpawn(new Vec3Comparable(454.183441, 88.616600, 775.803040), 54) )), HandleCompassResult.SUCCESS, - SolverState.NEED_SECOND_COMPASS); + SolverState.NEED_SECOND_COMPASS + ); private final CompassUse goblinHoldoutCompassUse2 = new CompassUse( DELAY_AFTER_FIRST_COMPASS_LAST_PARTICLE, @@ -139,7 +164,8 @@ class CrystalWishingCompassSolverTest { new ParticleSpawn(new Vec3Comparable(439.108551, 86.620811, 776.031067), 0) )), HandleCompassResult.SUCCESS, - SolverState.SOLVED); + SolverState.SOLVED + ); Vec3i goblinHoldoutKingSolution = new Vec3i(377, 87, 550); Vec3i goblinHoldoutQueenSolution = new Vec3i(322, 139, 769); @@ -171,7 +197,8 @@ class CrystalWishingCompassSolverTest { new ParticleSpawn(new Vec3Comparable(570.372192, 121.631874, 565.694946), 0) )), HandleCompassResult.SUCCESS, - SolverState.NEED_SECOND_COMPASS); + SolverState.NEED_SECOND_COMPASS + ); private final CompassUse precursorCityCompassUse2 = new CompassUse( DELAY_AFTER_FIRST_COMPASS_LAST_PARTICLE, @@ -200,7 +227,8 @@ class CrystalWishingCompassSolverTest { new ParticleSpawn(new Vec3Comparable(590.766357, 137.556885, 579.791565), 0) )), HandleCompassResult.SUCCESS, - SolverState.SOLVED); + SolverState.SOLVED + ); Vec3i precursorCitySolution = new Vec3i(604, 124, 681); @@ -231,7 +259,8 @@ class CrystalWishingCompassSolverTest { new ParticleSpawn(new Vec3Comparable(453.975647, 122.920158, 458.668488), 0) )), HandleCompassResult.SUCCESS, - SolverState.NEED_SECOND_COMPASS); + SolverState.NEED_SECOND_COMPASS + ); private final CompassUse jungleCompassUse2 = new CompassUse( DELAY_AFTER_FIRST_COMPASS_LAST_PARTICLE, @@ -260,13 +289,15 @@ class CrystalWishingCompassSolverTest { new ParticleSpawn(new Vec3Comparable(437.732666, 127.385803, 467.381592), 1) )), HandleCompassResult.SUCCESS, - SolverState.SOLVED); + SolverState.SOLVED + ); Vec3i jungleSolution = new Vec3i(343, 72, 424); Vec3i jungleSolutionTempleDoor = new Vec3i( jungleSolution.getX() - 57, jungleSolution.getY() + 36, - jungleSolution.getZ() -21); + jungleSolution.getZ() - 21 + ); private final CompassUse magmaCompassUse1 = new CompassUse( 1647745029814L, @@ -295,7 +326,8 @@ class CrystalWishingCompassSolverTest { new ParticleSpawn(new Vec3Comparable(462.221954, 59.614719, 550.019165), 0) )), HandleCompassResult.SUCCESS, - SolverState.NEED_SECOND_COMPASS); + SolverState.NEED_SECOND_COMPASS + ); private final CompassUse magmaCompassUse2 = new CompassUse( DELAY_AFTER_FIRST_COMPASS_LAST_PARTICLE, @@ -323,7 +355,8 @@ class CrystalWishingCompassSolverTest { new ParticleSpawn(new Vec3Comparable(449.110443, 54.623035, 556.079163), 49) )), HandleCompassResult.SUCCESS, - SolverState.SOLVED); + SolverState.SOLVED + ); Vec3i magmaSolution = new Vec3i(737, 56, 444); @@ -336,7 +369,8 @@ class CrystalWishingCompassSolverTest { new BlockPos(512, 106, 512), null, HandleCompassResult.PLAYER_IN_NUCLEUS, - SolverState.NOT_STARTED); + SolverState.NOT_STARTED + ); private void resetSolverState() { solver.initWorld(); @@ -351,7 +385,7 @@ class CrystalWishingCompassSolverTest { @BeforeEach void setUp() { - NEUDebugLogger.logMethod = CrystalWishingCompassSolverTest::neuDebugLog; + NEUDebugLogger.logMethod = CrystalWishingCompassSolverTest::neuDebugLog; NEUDebugLogger.allFlagsEnabled = true; resetSolverState(); } @@ -361,9 +395,11 @@ class CrystalWishingCompassSolverTest { for (CompassUse compassUse : solution.compassUses) { systemTimeMillis += compassUse.timeIncrementMillis; HandleCompassResult handleCompassResult = solver.handleCompassUse(compassUse.playerPos); - Assertions.assertEquals(compassUse.expectedHandleCompassUseResult, + Assertions.assertEquals( + compassUse.expectedHandleCompassUseResult, handleCompassResult, - "CompassUse index " + index); + "CompassUse index " + index + ); for (ParticleSpawn particle : compassUse.particles) { systemTimeMillis += particle.timeIncrementMillis; @@ -371,15 +407,20 @@ class CrystalWishingCompassSolverTest { particle.spawnLocation.xCoord, particle.spawnLocation.yCoord, particle.spawnLocation.zCoord, - systemTimeMillis); + systemTimeMillis + ); } - Assertions.assertEquals(compassUse.expectedSolverState, + Assertions.assertEquals( + compassUse.expectedSolverState, solver.getSolverState(), - "CompassUse index " + index); + "CompassUse index " + index + ); if (compassUse.expectedSolverState == SolverState.SOLVED) { - Assertions.assertEquals(solution.expectedSolutionCoords, - solver.getSolutionCoords()); + Assertions.assertEquals( + solution.expectedSolutionCoords, + solver.getSolutionCoords() + ); } index++; @@ -395,7 +436,8 @@ class CrystalWishingCompassSolverTest { Solution solution = new Solution( new ArrayList<>(Collections.singletonList(compassUse)), - Vec3i.NULL_VECTOR); + Vec3i.NULL_VECTOR + ); // Act & Assert checkSolution(solution); @@ -409,7 +451,8 @@ class CrystalWishingCompassSolverTest { processingFirstUseCompassUse.expectedSolverState = SolverState.PROCESSING_FIRST_USE; Solution processingFirstUseSolution = new Solution( new ArrayList<>(Collections.singletonList(processingFirstUseCompassUse)), - Vec3i.NULL_VECTOR); + Vec3i.NULL_VECTOR + ); checkSolution(processingFirstUseSolution); Assertions.assertEquals(SolverState.PROCESSING_FIRST_USE, solver.getSolverState()); @@ -419,7 +462,8 @@ class CrystalWishingCompassSolverTest { resetStateCompassUse.expectedSolverState = SolverState.FAILED_TIMEOUT_NO_REPEATING; Solution goodSolution = new Solution( new ArrayList<>(Collections.singletonList(resetStateCompassUse)), - Vec3i.NULL_VECTOR); + Vec3i.NULL_VECTOR + ); // Act & Assert checkSolution(goodSolution); @@ -430,7 +474,8 @@ class CrystalWishingCompassSolverTest { // Arrange Solution solution = new Solution( new ArrayList<>(Collections.singletonList(minesOfDivanCompassUse1)), - Vec3i.NULL_VECTOR); + Vec3i.NULL_VECTOR + ); // Act & Assert checkSolution(solution); @@ -441,7 +486,8 @@ class CrystalWishingCompassSolverTest { // Arrange Solution solution = new Solution( new ArrayList<>(Collections.singletonList(nucleusCompass)), - Vec3i.NULL_VECTOR); + Vec3i.NULL_VECTOR + ); // Act & Assert checkSolution(solution); @@ -457,7 +503,8 @@ class CrystalWishingCompassSolverTest { new ParticleSpawn(new Vec3Comparable(754.358459, 138.536407, 239.200928), 137) )), HandleCompassResult.SUCCESS, - SolverState.PROCESSING_FIRST_USE); + 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 @@ -467,7 +514,8 @@ class CrystalWishingCompassSolverTest { Solution solution = new Solution( new ArrayList<>(Arrays.asList(compassUse1, compassUse2)), - Vec3i.NULL_VECTOR); + Vec3i.NULL_VECTOR + ); // Act & Assert checkSolution(solution); @@ -477,13 +525,14 @@ class CrystalWishingCompassSolverTest { 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.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); + Vec3i.NULL_VECTOR + ); // Act & Assert checkSolution(solution); @@ -498,11 +547,12 @@ class CrystalWishingCompassSolverTest { null, HandleCompassResult.LOCATION_TOO_CLOSE, SolverState.NEED_SECOND_COMPASS - ); + ); Solution solution = new Solution( new ArrayList<>(Arrays.asList(minesOfDivanCompassUse1, secondCompassUse)), - Vec3i.NULL_VECTOR); + Vec3i.NULL_VECTOR + ); // Act & Assert checkSolution(solution); @@ -557,7 +607,7 @@ class CrystalWishingCompassSolverTest { // reverse the direction of the particles, moving the repeat particle // to "new" end - compassUse2.particles.remove(compassUse2.particles.size()-1); + 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))); @@ -567,7 +617,8 @@ class CrystalWishingCompassSolverTest { compassUse2.expectedSolverState = SolverState.FAILED_INVALID_SOLUTION; Solution solution = new Solution( new ArrayList<>(Arrays.asList(minesOfDivanCompassUse1, compassUse2)), - Vec3i.NULL_VECTOR); + Vec3i.NULL_VECTOR + ); // Act & Assert checkSolution(solution); @@ -584,7 +635,7 @@ class CrystalWishingCompassSolverTest { // Arrange CompassUse compassUse1 = new CompassUse(minesOfDivanCompassUse1); CompassUse compassUse2 = new CompassUse(minesOfDivanCompassUse2); - double invalidYOffset = -(minesOfDivanSolution.getY() - (CH_LOWEST_VALID_Y -1)); + 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); @@ -600,7 +651,8 @@ class CrystalWishingCompassSolverTest { Solution solution = new Solution( new ArrayList<>(Arrays.asList(compassUse1, compassUse2)), - Vec3i.NULL_VECTOR); + Vec3i.NULL_VECTOR + ); // Act & Assert checkSolution(solution); @@ -646,7 +698,8 @@ class CrystalWishingCompassSolverTest { compassUse.particles.get(2).spawnLocation.addVector(100.0, 100.0, 100.0); Solution solution = new Solution( new ArrayList<>(Collections.singletonList(minesOfDivanCompassUse1)), - Vec3i.NULL_VECTOR); + Vec3i.NULL_VECTOR + ); // Act & Assert checkSolution(solution); @@ -657,7 +710,8 @@ class CrystalWishingCompassSolverTest { // Arrange Solution solution = new Solution( new ArrayList<>(Collections.singletonList(goblinHoldoutCompassUse1)), - Vec3i.NULL_VECTOR); + Vec3i.NULL_VECTOR + ); solver.kingsScentPresent = () -> true; // Act @@ -674,7 +728,8 @@ class CrystalWishingCompassSolverTest { // Arrange Solution solution = new Solution( new ArrayList<>(Collections.singletonList(goblinHoldoutCompassUse1)), - Vec3i.NULL_VECTOR); + Vec3i.NULL_VECTOR + ); solver.kingsScentPresent = () -> false; // Act @@ -691,7 +746,8 @@ class CrystalWishingCompassSolverTest { // Arrange Solution solution = new Solution( new ArrayList<>(Collections.singletonList(jungleCompassUse1)), - Vec3i.NULL_VECTOR); + Vec3i.NULL_VECTOR + ); solver.keyInInventory = () -> true; // Act @@ -708,7 +764,8 @@ class CrystalWishingCompassSolverTest { // Arrange Solution solution = new Solution( new ArrayList<>(Collections.singletonList(jungleCompassUse1)), - Vec3i.NULL_VECTOR); + Vec3i.NULL_VECTOR + ); solver.keyInInventory = () -> false; // Act @@ -725,7 +782,8 @@ class CrystalWishingCompassSolverTest { // Arrange Solution solution = new Solution( new ArrayList<>(Collections.singletonList(precursorCityCompassUse1)), - Vec3i.NULL_VECTOR); + Vec3i.NULL_VECTOR + ); solver.foundCrystals = () -> EnumSet.noneOf(Crystal.class); solver.keyInInventory = () -> false; solver.kingsScentPresent = () -> false; @@ -747,14 +805,16 @@ class CrystalWishingCompassSolverTest { } private void CheckExcludedTargetsForCrystals( - CompassUse compassUseToExecute, - ArrayList<CompassTarget> excludedTargets, - EnumSet<Crystal> foundCrystals) { + CompassUse compassUseToExecute, + ArrayList<CompassTarget> excludedTargets, + EnumSet<Crystal> foundCrystals + ) { // Arrange EnumSet<CompassTarget> targets; Solution solution = new Solution( new ArrayList<>(Collections.singletonList(compassUseToExecute)), - Vec3i.NULL_VECTOR); + Vec3i.NULL_VECTOR + ); // Act checkSolution(solution); @@ -796,7 +856,8 @@ class CrystalWishingCompassSolverTest { // Arrange ArrayList<CompassTarget> excludedTargets = new ArrayList<>(Arrays.asList( CompassTarget.ODAWA, - CompassTarget.JUNGLE_TEMPLE)); + CompassTarget.JUNGLE_TEMPLE + )); // Act & Assert CheckExcludedTargetsForCrystals(jungleCompassUse1, excludedTargets, EnumSet.of(Crystal.AMETHYST)); @@ -837,7 +898,8 @@ class CrystalWishingCompassSolverTest { // Arrange Solution solution = new Solution( new ArrayList<>(Collections.singletonList(minesOfDivanCompassUse1)), - Vec3i.NULL_VECTOR); + Vec3i.NULL_VECTOR + ); // Act checkSolution(solution); @@ -855,12 +917,13 @@ class CrystalWishingCompassSolverTest { // Arrange Solution solution = new Solution( new ArrayList<>(Collections.singletonList(minesOfDivanCompassUse1)), - Vec3i.NULL_VECTOR); + Vec3i.NULL_VECTOR + ); // Act checkSolution(solution); systemTimeMillis += minesOfDivanCompassUse2.timeIncrementMillis; - BlockPos newLocation = minesOfDivanCompassUse2.playerPos.add(-400, 0 ,0); + BlockPos newLocation = minesOfDivanCompassUse2.playerPos.add(-400, 0, 0); HandleCompassResult handleCompassResult = solver.handleCompassUse(newLocation); // Assert @@ -873,7 +936,8 @@ class CrystalWishingCompassSolverTest { // Arrange Solution solution = new Solution( new ArrayList<>(Collections.singletonList(jungleCompassUse1)), - Vec3i.NULL_VECTOR); + Vec3i.NULL_VECTOR + ); // Act solver.keyInInventory = () -> false; @@ -892,7 +956,8 @@ class CrystalWishingCompassSolverTest { // Arrange Solution solution = new Solution( new ArrayList<>(Collections.singletonList(goblinHoldoutCompassUse1)), - Vec3i.NULL_VECTOR); + Vec3i.NULL_VECTOR + ); // Act solver.kingsScentPresent = () -> false; @@ -980,17 +1045,19 @@ class CrystalWishingCompassSolverTest { } EnumSet<CompassTarget> GetSolutionTargetsHelper( - HollowsZone compassUsedZone, - EnumSet<Crystal> foundCrystals, - EnumSet<CompassTarget> possibleTargets, - Vec3Comparable solutionCoords, - int expectedSolutionCount) { + HollowsZone compassUsedZone, + EnumSet<Crystal> foundCrystals, + EnumSet<CompassTarget> possibleTargets, + Vec3Comparable solutionCoords, + int expectedSolutionCount + ) { EnumSet<CompassTarget> solutionTargets = CrystalWishingCompassSolver.getSolutionTargets( compassUsedZone, foundCrystals, possibleTargets, - solutionCoords); + solutionCoords + ); Assertions.assertEquals(expectedSolutionCount, solutionTargets.size()); return solutionTargets; } @@ -1003,7 +1070,8 @@ class CrystalWishingCompassSolverTest { EnumSet.noneOf(Crystal.class), EnumSet.allOf(CompassTarget.class), new Vec3Comparable(minesOfDivanSolution), - 1); + 1 + ); // Assert Assertions.assertFalse(solutionTargets.contains(CompassTarget.CRYSTAL_NUCLEUS)); @@ -1021,7 +1089,8 @@ class CrystalWishingCompassSolverTest { EnumSet.of(Crystal.AMBER), possibleTargets, new Vec3Comparable(202, 72, 513), // upper left of Goblin Holdout - 2); + 2 + ); // Assert Assertions.assertTrue(solutionTargets.contains(CompassTarget.JUNGLE_TEMPLE)); @@ -1036,7 +1105,8 @@ class CrystalWishingCompassSolverTest { EnumSet.noneOf(Crystal.class), EnumSet.allOf(CompassTarget.class), kingOdawaMinesOrNucleusCoordsInRemnants, - 3); + 3 + ); // Assert Assertions.assertTrue(solutionTargets.contains(CompassTarget.GOBLIN_KING)); @@ -1057,7 +1127,8 @@ class CrystalWishingCompassSolverTest { EnumSet.noneOf(Crystal.class), possibleTargets, queenKingOdawaOrCityNucleusCoordsInMithrilDeposits, - 2); + 2 + ); // Assert Assertions.assertTrue(solutionTargets.contains(CompassTarget.GOBLIN_QUEEN)); @@ -1067,7 +1138,7 @@ class CrystalWishingCompassSolverTest { @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 + Vec3Comparable notOverlapping = new Vec3Comparable(202, 72, 513 + 110); // upper left of Goblin Holdout EnumSet<CompassTarget> possibleTargets = EnumSet.allOf(CompassTarget.class); possibleTargets.remove(CompassTarget.ODAWA); @@ -1077,7 +1148,8 @@ class CrystalWishingCompassSolverTest { EnumSet.of(Crystal.AMBER), possibleTargets, notOverlapping, - 1); + 1 + ); // Assert Assertions.assertTrue(solutionTargets.contains(CompassTarget.BAL)); @@ -1094,7 +1166,8 @@ class CrystalWishingCompassSolverTest { EnumSet.noneOf(Crystal.class), EnumSet.allOf(CompassTarget.class), notOverlapping, - 0); + 0 + ); } @Test @@ -1111,7 +1184,8 @@ class CrystalWishingCompassSolverTest { EnumSet.noneOf(Crystal.class), possibleTargets, notOverlapping, - 0); + 0 + ); } @Test @@ -1126,7 +1200,8 @@ class CrystalWishingCompassSolverTest { EnumSet.noneOf(Crystal.class), possibleTargets, new Vec3Comparable(goblinHoldoutKingSolution), - 1); + 1 + ); // Assert Assertions.assertTrue(solutionTargets.contains(CompassTarget.GOBLIN_KING)); @@ -1144,7 +1219,8 @@ class CrystalWishingCompassSolverTest { EnumSet.noneOf(Crystal.class), possibleTargets, new Vec3Comparable(odawaSolution), - 1); + 1 + ); // Assert Assertions.assertTrue(solutionTargets.contains(CompassTarget.ODAWA)); @@ -1162,7 +1238,8 @@ class CrystalWishingCompassSolverTest { EnumSet.noneOf(Crystal.class), possibleTargets, new Vec3Comparable(minesOfDivanSolution), - 1); + 1 + ); // Assert Assertions.assertTrue(solutionTargets.contains(CompassTarget.MINES_OF_DIVAN)); @@ -1182,7 +1259,8 @@ class CrystalWishingCompassSolverTest { EnumSet.noneOf(Crystal.class), possibleTargets, new Vec3Comparable(jungleSolution), - 1); + 1 + ); // Assert Assertions.assertTrue(solutionTargets.contains(CompassTarget.JUNGLE_TEMPLE)); @@ -1201,7 +1279,8 @@ class CrystalWishingCompassSolverTest { EnumSet.noneOf(Crystal.class), possibleTargets, new Vec3Comparable(goblinHoldoutQueenSolution), - 1); + 1 + ); // Assert Assertions.assertTrue(solutionTargets.contains(CompassTarget.GOBLIN_QUEEN)); @@ -1219,7 +1298,8 @@ class CrystalWishingCompassSolverTest { EnumSet.noneOf(Crystal.class), possibleTargets, new Vec3Comparable(precursorCitySolution), - 1); + 1 + ); // Assert Assertions.assertTrue(solutionTargets.contains(CompassTarget.PRECURSOR_CITY)); @@ -1233,7 +1313,8 @@ class CrystalWishingCompassSolverTest { EnumSet.noneOf(Crystal.class), EnumSet.allOf(CompassTarget.class), new Vec3Comparable(magmaSolution), - 1); + 1 + ); // Assert Assertions.assertTrue(solutionTargets.contains(CompassTarget.BAL)); @@ -1269,11 +1350,13 @@ class CrystalWishingCompassSolverTest { HandleCompassResult expectedHandleCompassUseResult; SolverState expectedSolverState; - CompassUse(long timeIncrementMillis, - BlockPos playerPos, - ArrayList<ParticleSpawn> particles, - HandleCompassResult expectedHandleCompassUseResult, - SolverState expectedState) { + 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<>(); @@ -1296,7 +1379,11 @@ class CrystalWishingCompassSolverTest { Solution(ArrayList<CompassUse> compassUses, Vec3i expectedSolutionCoords) { this.compassUses = compassUses; - this.expectedSolutionCoords = new Vec3i(expectedSolutionCoords.getX(), expectedSolutionCoords.getY(), expectedSolutionCoords.getZ()); + this.expectedSolutionCoords = new Vec3i( + expectedSolutionCoords.getX(), + expectedSolutionCoords.getY(), + expectedSolutionCoords.getZ() + ); } } |