diff options
Diffstat (limited to 'src/Java/gtPlusPlus/xmod/gregtech')
3 files changed, 17 insertions, 273 deletions
diff --git a/src/Java/gtPlusPlus/xmod/gregtech/api/metatileentity/implementations/GT_MetaTileEntity_DeluxeMachine.java b/src/Java/gtPlusPlus/xmod/gregtech/api/metatileentity/implementations/GT_MetaTileEntity_DeluxeMachine.java index 83c2235d8c..df886220c2 100644 --- a/src/Java/gtPlusPlus/xmod/gregtech/api/metatileentity/implementations/GT_MetaTileEntity_DeluxeMachine.java +++ b/src/Java/gtPlusPlus/xmod/gregtech/api/metatileentity/implementations/GT_MetaTileEntity_DeluxeMachine.java @@ -15,7 +15,7 @@ import gregtech.api.util.GT_Recipe; import gregtech.api.util.GT_Recipe.GT_Recipe_Map; import gregtech.api.util.GT_Utility; import gtPlusPlus.api.objects.Logger; -import gtPlusPlus.xmod.gregtech.api.objects.XSTR; +import gtPlusPlus.api.objects.XSTR; import net.minecraft.entity.player.EntityPlayer; import net.minecraft.entity.player.InventoryPlayer; import net.minecraft.item.ItemStack; diff --git a/src/Java/gtPlusPlus/xmod/gregtech/api/objects/XSTR.java b/src/Java/gtPlusPlus/xmod/gregtech/api/objects/XSTR.java deleted file mode 100644 index 2a7684f20f..0000000000 --- a/src/Java/gtPlusPlus/xmod/gregtech/api/objects/XSTR.java +++ /dev/null @@ -1,266 +0,0 @@ -package gtPlusPlus.xmod.gregtech.api.objects; -/** - * A subclass of java.util.random that implements the Xorshift random number - * generator - * - * - it is 30% faster than the generator from Java's library - it produces - * random sequences of higher quality than java.util.Random - this class also - * provides a clone() function - * - * Usage: XSRandom rand = new XSRandom(); //Instantiation x = rand.nextInt(); - * //pull a random number - * - * To use the class in legacy code, you may also instantiate an XSRandom object - * and assign it to a java.util.Random object: java.util.Random rand = new - * XSRandom(); - * - * for an explanation of the algorithm, see - * http://demesos.blogspot.com/2011/09/pseudo-random-number-generators.html - * - * @author Wilfried Elmenreich University of Klagenfurt/Lakeside Labs - * http://www.elmenreich.tk - * - * This code is released under the GNU Lesser General Public License Version 3 - * http://www.gnu.org/licenses/lgpl-3.0.txt - */ - -import java.util.Random; -import java.util.concurrent.atomic.AtomicLong; - -/** - * XSTR - Xorshift ThermiteRandom - * Modified by Bogdan-G - * 03.06.2016 - * version 0.0.4 - */ -public class XSTR extends Random { - - private static final long serialVersionUID = 6208727693524452904L; - private long seed; - private long last; - private static final long GAMMA = 0x9e3779b97f4a7c15L; - private static final int PROBE_INCREMENT = 0x9e3779b9; - private static final long SEEDER_INCREMENT = 0xbb67ae8584caa73bL; - private static final double DOUBLE_UNIT = 0x1.0p-53; // 1.0 / (1L << 53) - private static final float FLOAT_UNIT = 0x1.0p-24f; // 1.0f / (1 << 24) - - /* - MODIFIED BY: Robotia - Modification: Implemented Random class seed generator - */ - /** - * Creates a new pseudo random number generator. The seed is initialized to - * the current time, as if by - * <code>setSeed(System.currentTimeMillis());</code>. - */ - public XSTR() { - this(seedUniquifier() ^ System.nanoTime()); - } - private static final AtomicLong seedUniquifier - = new AtomicLong(8682522807148012L); - - private static long seedUniquifier() { - // L'Ecuyer, "Tables of Linear Congruential Generators of - // Different Sizes and Good Lattice Structure", 1999 - for (;;) { - final long current = seedUniquifier.get(); - final long next = current * 181783497276652981L; - if (seedUniquifier.compareAndSet(current, next)) { - return next; - } - } - } - - /** - * Creates a new pseudo random number generator, starting with the specified - * seed, using <code>setSeed(seed);</code>. - * - * @param seed the initial seed - */ - public XSTR(final long seed) { - this.seed = seed; - } - @Override - public boolean nextBoolean() { - return this.next(1) != 0; - } - - @Override - public double nextDouble() { - return (((long)(this.next(26)) << 27) + this.next(27)) * DOUBLE_UNIT; - } - /** - * Returns the current state of the seed, can be used to clone the object - * - * @return the current seed - */ - public synchronized long getSeed() { - return this.seed; - } - - /** - * Sets the seed for this pseudo random number generator. As described - * above, two instances of the same random class, starting with the same - * seed, produce the same results, if the same methods are called. - * - * @param seed the new seed - */ - @Override - public synchronized void setSeed(final long seed) { - this.seed = seed; - } - - /** - * @return Returns an XSRandom object with the same state as the original - */ - @Override - public XSTR clone() { - return new XSTR(this.getSeed()); - } - - /** - * Implementation of George Marsaglia's elegant Xorshift random generator - * 30% faster and better quality than the built-in java.util.random see also - * see http://www.javamex.com/tutorials/random_numbers/xorshift.shtml - * - * @param nbits - * @return - */ - @Override - public int next(final int nbits) { - long x = this.seed; - x ^= (x << 21); - x ^= (x >>> 35); - x ^= (x << 4); - this.seed = x; - x &= ((1L << nbits) - 1); - return (int) x; - } - boolean haveNextNextGaussian = false; - double nextNextGaussian = 0; - @Override - synchronized public double nextGaussian() { - // See Knuth, ACP, Section 3.4.1 Algorithm C. - if (this.haveNextNextGaussian) { - this.haveNextNextGaussian = false; - return this.nextNextGaussian; - } - double v1, v2, s; - do { - v1 = (2 * this.nextDouble()) - 1; // between -1 and 1 - v2 = (2 * this.nextDouble()) - 1; // between -1 and 1 - s = (v1 * v1) + (v2 * v2); - } while ((s >= 1) || (s == 0)); - final double multiplier = StrictMath.sqrt((-2 * StrictMath.log(s))/s); - this.nextNextGaussian = v2 * multiplier; - this.haveNextNextGaussian = true; - return v1 * multiplier; - } - /** - * Returns a pseudorandom, uniformly distributed {@code int} value between 0 - * (inclusive) and the specified value (exclusive), drawn from this random - * number generator's sequence. The general contract of {@code nextInt} is - * that one {@code int} value in the specified range is pseudorandomly - * generated and returned. All {@code bound} possible {@code int} values are - * produced with (approximately) equal probability. The method - * {@code nextInt(int bound)} is implemented by class {@code Random} as if - * by: - * <pre> {@code - * public int nextInt(int bound) { - * if (bound <= 0) - * throw new IllegalArgumentException("bound must be positive"); - * - * if ((bound & -bound) == bound) // i.e., bound is a power of 2 - * return (int)((bound * (long)next(31)) >> 31); - * - * int bits, val; - * do { - * bits = next(31); - * val = bits % bound; - * } while (bits - val + (bound-1) < 0); - * return val; - * }}</pre> - * - * <p>The hedge "approx - * imately" is used in the foregoing description only because the next - * method is only approximately an unbiased source of independently chosen - * bits. If it were a perfect source of randomly chosen bits, then the - * algorithm shown would choose {@code int} values from the stated range - * with perfect uniformity. - * <p> - * The algorithm is slightly tricky. It rejects values that would result in - * an uneven distribution (due to the fact that 2^31 is not divisible by n). - * The probability of a value being rejected depends on n. The worst case is - * n=2^30+1, for which the probability of a reject is 1/2, and the expected - * number of iterations before the loop terminates is 2. - * <p> - * The algorithm treats the case where n is a power of two specially: it - * returns the correct number of high-order bits from the underlying - * pseudo-random number generator. In the absence of special treatment, the - * correct number of <i>low-order</i> bits would be returned. Linear - * congruential pseudo-random number generators such as the one implemented - * by this class are known to have short periods in the sequence of values - * of their low-order bits. Thus, this special case greatly increases the - * length of the sequence of values returned by successive calls to this - * method if n is a small power of two. - * - * @param bound the upper bound (exclusive). Must be positive. - * @return the next pseudorandom, uniformly distributed {@code int} value - * between zero (inclusive) and {@code bound} (exclusive) from this random - * number generator's sequence - * @throws IllegalArgumentException if bound is not positive - * @since 1.2 - */ - @Override - public int nextInt(final int bound) { - //if (bound <= 0) { - //throw new RuntimeException("BadBound"); - //} - - /*int r = next(31); - int m = bound - 1; - if ((bound & m) == 0) // i.e., bound is a power of 2 - { - r = (int) ((bound * (long) r) >> 31); - } else { - for (int u = r; - u - (r = u % bound) + m < 0; - u = next(31)) - ; - } - return r;*/ - //speedup, new nextInt ~+40% - this.last = this.seed ^ (this.seed << 21); - this.last ^= (this.last >>> 35); - this.last ^= (this.last << 4); - this.seed = this.last; - final int out = (int) this.last % bound; - return (out < 0) ? -out : out; - } - @Override - public int nextInt() { - return this.next(32); - } - - @Override - public float nextFloat() { - return this.next(24) * FLOAT_UNIT; - } - - @Override - public long nextLong() { - // it's okay that the bottom word remains signed. - return ((long)(this.next(32)) << 32) + this.next(32); - } - - @Override - public void nextBytes(final byte[] bytes_arr) { - for (int iba = 0, lenba = bytes_arr.length; iba < lenba; ) { - for (int rndba = this.nextInt(), - nba = Math.min(lenba - iba, Integer.SIZE/Byte.SIZE); - nba-- > 0; rndba >>= Byte.SIZE) { - bytes_arr[iba++] = (byte)rndba; - } - } - } -}
\ No newline at end of file diff --git a/src/Java/gtPlusPlus/xmod/gregtech/common/tileentities/machines/multi/GregtechMTE_TeslaTower.java b/src/Java/gtPlusPlus/xmod/gregtech/common/tileentities/machines/multi/GregtechMTE_TeslaTower.java index 471d30d4d5..a8c60f3d62 100644 --- a/src/Java/gtPlusPlus/xmod/gregtech/common/tileentities/machines/multi/GregtechMTE_TeslaTower.java +++ b/src/Java/gtPlusPlus/xmod/gregtech/common/tileentities/machines/multi/GregtechMTE_TeslaTower.java @@ -29,6 +29,8 @@ import gtPlusPlus.xmod.gregtech.api.metatileentity.implementations.base.Gregtech import net.minecraft.block.Block; import net.minecraft.entity.Entity; import net.minecraft.entity.EntityLiving; +import net.minecraft.entity.effect.EntityLightningBolt; +import net.minecraft.entity.item.EntityItem; import net.minecraft.entity.player.EntityPlayer; import net.minecraft.item.ItemStack; import net.minecraft.nbt.NBTTagCompound; @@ -308,15 +310,20 @@ public class GregtechMTE_TeslaTower extends GregtechMeta_MultiBlockBase { if (!((Entity) r).getUniqueID().equals(getOwner())){ if (((Entity) r).isEntityAlive() || r instanceof EntityLiving){ if (((Entity) r).getDistance(this.xLoc, this.yLoc, this.zLoc) <= this.mRange){ - if (!this.mMode){ - mInRange.put(new Pair<Long, Long>(((Entity) r).getUniqueID().getMostSignificantBits(), ((Entity) r).getUniqueID().getLeastSignificantBits()), (Entity) r); + if (r instanceof EntityItem){ + //Do nothing } else { - if (r instanceof EntityPlayer){ + if (!this.mMode){ mInRange.put(new Pair<Long, Long>(((Entity) r).getUniqueID().getMostSignificantBits(), ((Entity) r).getUniqueID().getLeastSignificantBits()), (Entity) r); } + else { + if (r instanceof EntityPlayer){ + mInRange.put(new Pair<Long, Long>(((Entity) r).getUniqueID().getMostSignificantBits(), ((Entity) r).getUniqueID().getLeastSignificantBits()), (Entity) r); + } + } } - } + } } } } @@ -358,10 +365,13 @@ public class GregtechMTE_TeslaTower extends GregtechMeta_MultiBlockBase { if (f.isEntityAlive() && !f.getUniqueID().equals(getOwner())){ //if (world.canLightningStrikeAt(j1, l1+1, k1)){ - if (isEnergyEnough() && world.addWeatherEffect(new EntityTeslaTowerLightning(world, (double)j1, (double)l1, (double)k1))){ + //if (isEnergyEnough() && world.addWeatherEffect(new EntityTeslaTowerLightning(world, (double)j1, (double)l1, (double)k1))){ + if (isEnergyEnough() && world.addWeatherEffect(new EntityTeslaTowerLightning(world, (double)j1, (double)l1, (double)k1, f, getOwner()))){ + if (f == null || f.isDead || !f.isEntityAlive()){ this.mInRange.remove(new Pair<Long, Long>(f.getUniqueID().getMostSignificantBits(), f.getUniqueID().getLeastSignificantBits())); - this.setEUVar(this.getEUVar()-5000000); } + this.setEUVar(this.getEUVar()-5000000); + } //} } |