public boolean loadTexture(ResourceLocation p_110579_1_, final ITextureObject p_110579_2_) { boolean flag = true; ITextureObject p_110579_2_2 = p_110579_2_; try { ((ITextureObject) p_110579_2_).loadTexture(this.theResourceManager); } catch (IOException ioexception) { logger.warn("Failed to load texture: " + p_110579_1_, ioexception); p_110579_2_2 = TextureUtil.missingTexture; this.mapTextureObjects.put(p_110579_1_, p_110579_2_2); flag = false; } catch (Throwable throwable) { CrashReport crashreport = CrashReport.makeCrashReport(throwable, "Registering texture"); CrashReportCategory crashreportcategory = crashreport.makeCategory("Resource location being registered"); crashreportcategory.addCrashSection("Resource location", p_110579_1_); crashreportcategory.addCrashSectionCallable( "Texture object class", new Callable() { private static final String __OBFID = "CL_00001065"; public String call() { return p_110579_2_.getClass().getName(); } }); throw new ReportedException(crashreport); } this.mapTextureObjects.put(p_110579_1_, p_110579_2_2); return flag; }
/** checks given Chunk's Biomes against List of allowed ones */ @Override public boolean areBiomesViable(int par1, int par2, int par3, List par4List) { IntCache.resetIntCache(); int l = par1 - par3 >> 2; int i1 = par2 - par3 >> 2; int j1 = par1 + par3 >> 2; int k1 = par2 + par3 >> 2; int l1 = j1 - l + 1; int i2 = k1 - i1 + 1; int[] aint = this.mbGenBiomes.getInts(l, i1, l1, i2); try { for (int j2 = 0; j2 < l1 * i2; ++j2) { BiomeGenBase biomegenbase = BiomeGenBase.getBiome(aint[j2]); if (!par4List.contains(biomegenbase)) { return false; } } return true; } catch (Throwable throwable) { CrashReport crashreport = CrashReport.makeCrashReport(throwable, "Invalid Biome id"); CrashReportCategory crashreportcategory = crashreport.makeCategory("Layer"); crashreportcategory.addCrashSection("Layer", this.mbGenBiomes.toString()); crashreportcategory.addCrashSection("x", Integer.valueOf(par1)); crashreportcategory.addCrashSection("z", Integer.valueOf(par2)); crashreportcategory.addCrashSection("radius", Integer.valueOf(par3)); crashreportcategory.addCrashSection("allowed", par4List); throw new ReportedException(crashreport); } }
public boolean loadTexture(ResourceLocation textureLocation, ITextureObject textureObj) { boolean flag = true; try { ((ITextureObject) textureObj).loadTexture(this.theResourceManager); } catch (IOException ioexception) { logger.warn((String) ("Failed to load texture: " + textureLocation), (Throwable) ioexception); textureObj = TextureUtil.missingTexture; this.mapTextureObjects.put(textureLocation, (ITextureObject) textureObj); flag = false; } catch (Throwable throwable) { final ITextureObject textureObjf = textureObj; CrashReport crashreport = CrashReport.makeCrashReport(throwable, "Registering texture"); CrashReportCategory crashreportcategory = crashreport.makeCategory("Resource location being registered"); crashreportcategory.addCrashSection("Resource location", textureLocation); crashreportcategory.addCrashSectionCallable( "Texture object class", new Callable<String>() { public String call() throws Exception { return textureObjf.getClass().getName(); } }); throw new ReportedException(crashreport); } this.mapTextureObjects.put(textureLocation, (ITextureObject) textureObj); return flag; }
/** Returns an array of biomes for the location input. */ @Override public BiomeGenBase[] getBiomesForGeneration( BiomeGenBase[] par1ArrayOfBiomeGenBase, int par2, int par3, int par4, int par5) { IntCache.resetIntCache(); if (par1ArrayOfBiomeGenBase == null || par1ArrayOfBiomeGenBase.length < par4 * par5) { par1ArrayOfBiomeGenBase = new BiomeGenBase[par4 * par5]; } int[] aint = this.mbGenBiomes.getInts(par2, par3, par4, par5); try { for (int i1 = 0; i1 < par4 * par5; ++i1) { par1ArrayOfBiomeGenBase[i1] = BiomeGenBase.getBiome(aint[i1]); } return par1ArrayOfBiomeGenBase; } catch (Throwable throwable) { CrashReport crashreport = CrashReport.makeCrashReport(throwable, "Invalid Biome id"); CrashReportCategory crashreportcategory = crashreport.makeCategory("RawBiomeBlock"); crashreportcategory.addCrashSection( "biomes[] size", Integer.valueOf(par1ArrayOfBiomeGenBase.length)); crashreportcategory.addCrashSection("x", Integer.valueOf(par2)); crashreportcategory.addCrashSection("z", Integer.valueOf(par3)); crashreportcategory.addCrashSection("w", Integer.valueOf(par4)); crashreportcategory.addCrashSection("h", Integer.valueOf(par5)); throw new ReportedException(crashreport); } }
private void updateEffects() { for (int k = 0; k < fxes.length; ++k) { for (int j = 0; j < this.fxes[k].size(); ++j) { final EntityFX entityfx = this.fxes[k].get(j); try { if (entityfx != null) { entityfx.onUpdate(); } } catch (Throwable throwable) { CrashReport crashreport = CrashReport.makeCrashReport(throwable, "Ticking Particle"); CrashReportCategory crashreportcategory = crashreport.makeCategory("Particle being ticked"); crashreportcategory.addCrashSectionCallable( "Particle", new Callable() { private static final String __OBFID = "CL_00000916"; public String call() { return entityfx.toString(); } }); throw new ReportedException(crashreport); } if (entityfx == null || entityfx.isDead) { this.fxes[k].remove(j--); } } } }
/** checks given Chunk's Biomes against List of allowed ones */ public boolean areBiomesViable(int p_76940_1_, int p_76940_2_, int p_76940_3_, List p_76940_4_) { IntCache.resetIntCache(); int var5 = p_76940_1_ - p_76940_3_ >> 2; int var6 = p_76940_2_ - p_76940_3_ >> 2; int var7 = p_76940_1_ + p_76940_3_ >> 2; int var8 = p_76940_2_ + p_76940_3_ >> 2; int var9 = var7 - var5 + 1; int var10 = var8 - var6 + 1; int[] var11 = this.genBiomes.getInts(var5, var6, var9, var10); try { for (int var12 = 0; var12 < var9 * var10; ++var12) { BiomeGenBase var16 = BiomeGenBase.getBiome(var11[var12]); if (!p_76940_4_.contains(var16)) { return false; } } return true; } catch (Throwable var15) { CrashReport var13 = CrashReport.makeCrashReport(var15, "Invalid Biome id"); CrashReportCategory var14 = var13.makeCategory("Layer"); var14.addCrashSection("Layer", this.genBiomes.toString()); var14.addCrashSection("x", Integer.valueOf(p_76940_1_)); var14.addCrashSection("z", Integer.valueOf(p_76940_2_)); var14.addCrashSection("radius", Integer.valueOf(p_76940_3_)); var14.addCrashSection("allowed", p_76940_4_); throw new ReportedException(var13); } }
/** Returns an array of biomes for the location input. */ public BiomeGenBase[] getBiomesForGeneration( BiomeGenBase[] p_76937_1_, int p_76937_2_, int p_76937_3_, int p_76937_4_, int p_76937_5_) { IntCache.resetIntCache(); if (p_76937_1_ == null || p_76937_1_.length < p_76937_4_ * p_76937_5_) { p_76937_1_ = new BiomeGenBase[p_76937_4_ * p_76937_5_]; } int[] var6 = this.genBiomes.getInts(p_76937_2_, p_76937_3_, p_76937_4_, p_76937_5_); try { for (int var7 = 0; var7 < p_76937_4_ * p_76937_5_; ++var7) { p_76937_1_[var7] = BiomeGenBase.getBiomeFromBiomeList(var6[var7], BiomeGenBase.field_180279_ad); } return p_76937_1_; } catch (Throwable var10) { CrashReport var8 = CrashReport.makeCrashReport(var10, "Invalid Biome id"); CrashReportCategory var9 = var8.makeCategory("RawBiomeBlock"); var9.addCrashSection("biomes[] size", Integer.valueOf(p_76937_1_.length)); var9.addCrashSection("x", Integer.valueOf(p_76937_2_)); var9.addCrashSection("z", Integer.valueOf(p_76937_3_)); var9.addCrashSection("w", Integer.valueOf(p_76937_4_)); var9.addCrashSection("h", Integer.valueOf(p_76937_5_)); throw new ReportedException(var8); } }
/** * Renders the specified entity with the passed in position, yaw, and partialTickTime. Args: * entity, x, y, z, yaw, partialTickTime */ public void renderEntityWithPosYaw( Entity par1Entity, double par2, double par4, double par6, float par8, float par9) { Render render = null; try { render = this.getEntityRenderObject(par1Entity); if (render != null && this.renderEngine != null) { if (field_85095_o && !par1Entity.isInvisible()) { try { this.func_85094_b(par1Entity, par2, par4, par6, par8, par9); } catch (Throwable throwable) { throw new ReportedException( CrashReport.makeCrashReport(throwable, "Rendering entity hitbox in world")); } } try { render.doRender(par1Entity, par2, par4, par6, par8, par9); } catch (Throwable throwable1) { throw new ReportedException( CrashReport.makeCrashReport(throwable1, "Rendering entity in world")); } try { render.doRenderShadowAndFire(par1Entity, par2, par4, par6, par8, par9); } catch (Throwable throwable2) { throw new ReportedException( CrashReport.makeCrashReport(throwable2, "Post-rendering entity in world")); } } } catch (Throwable throwable3) { CrashReport crashreport = CrashReport.makeCrashReport(throwable3, "Rendering entity in world"); CrashReportCategory crashreportcategory = crashreport.makeCategory("Entity being rendered"); par1Entity.func_85029_a(crashreportcategory); CrashReportCategory crashreportcategory1 = crashreport.makeCategory("Renderer details"); crashreportcategory1.addCrashSection("Assigned renderer", render); crashreportcategory1.addCrashSection( "Location", CrashReportCategory.func_85074_a(par2, par4, par6)); crashreportcategory1.addCrashSection("Rotation", Float.valueOf(par8)); crashreportcategory1.addCrashSection("Delta", Float.valueOf(par9)); throw new ReportedException(crashreport); } }
public void run() { try { while (true) { this.func_178474_a(this.field_178477_b.func_178511_d()); } } catch (InterruptedException var3) { LOGGER.debug("Stopping due to interrupt"); } catch (Throwable var4) { CrashReport var2 = CrashReport.makeCrashReport(var4, "Batching chunks"); Minecraft.getMinecraft() .crashed(Minecraft.getMinecraft().addGraphicsAndWorldToCrashReport(var2)); } }
public void renderParticles(Entity entity, float f) { float f1 = ActiveRenderInfo.rotationX; float f2 = ActiveRenderInfo.rotationZ; float f3 = ActiveRenderInfo.rotationYZ; float f4 = ActiveRenderInfo.rotationXY; float f5 = ActiveRenderInfo.rotationXZ; EntityFX.interpPosX = entity.lastTickPosX + (entity.posX - entity.lastTickPosX) * (double) f; EntityFX.interpPosY = entity.lastTickPosY + (entity.posY - entity.lastTickPosY) * (double) f; EntityFX.interpPosZ = entity.lastTickPosZ + (entity.posZ - entity.lastTickPosZ) * (double) f; for (int k = 0; k < fxes.length; ++k) { if (!this.fxes[k].isEmpty()) { GL11.glColor4f(1.0F, 1.0F, 1.0F, 1.0F); GL11.glDepthMask(false); GL11.glEnable(GL11.GL_BLEND); switch (k) { case 0: GL11.glBlendFunc(GL11.GL_ONE, GL11.GL_ONE); renderer.bindTexture(additiveTextureSheet); break; } GL11.glAlphaFunc(GL11.GL_GREATER, 0.003921569F); Tessellator tessellator = Tessellator.instance; tessellator.startDrawingQuads(); for (int j = 0; j < this.fxes[k].size(); ++j) { final EntityFX entityfx = this.fxes[k].get(j); if (entityfx == null) continue; tessellator.setBrightness(entityfx.getBrightnessForRender(f)); try { entityfx.renderParticle(tessellator, f, f1, f5, f2, f3, f4); } catch (Throwable throwable) { CrashReport crashreport = CrashReport.makeCrashReport(throwable, "Rendering Particle"); CrashReportCategory crashreportcategory = crashreport.makeCategory("Particle being rendered"); crashreportcategory.addCrashSectionCallable("Particle", entityfx::toString); throw new ReportedException(crashreport); } } tessellator.draw(); GL11.glDisable(GL11.GL_BLEND); GL11.glDepthMask(true); GL11.glAlphaFunc(GL11.GL_GREATER, 0.1F); } } }
/** is threadsafe, unless it throws an exception, then */ private WatchableObject getWatchedObject(int par1) { this.lock.readLock().lock(); WatchableObject watchableobject; try { watchableobject = (WatchableObject) this.watchedObjects.get(Integer.valueOf(par1)); } catch (Throwable throwable) { CrashReport crashreport = CrashReport.makeCrashReport(throwable, "Getting synched entity data"); CrashReportCategory crashreportcategory = crashreport.makeCategory("Synched entity data"); crashreportcategory.addCrashSection("Data ID", Integer.valueOf(par1)); throw new ReportedException(crashreport); } this.lock.readLock().unlock(); return watchableobject; }
private <T> EntityDataManager.DataEntry<T> getEntry(DataParameter<T> key) { this.lock.readLock().lock(); EntityDataManager.DataEntry<T> dataentry; try { dataentry = (EntityDataManager.DataEntry) this.entries.get(Integer.valueOf(key.getId())); } catch (Throwable throwable) { CrashReport crashreport = CrashReport.makeCrashReport(throwable, "Getting synched entity data"); CrashReportCategory crashreportcategory = crashreport.makeCategory("Synched entity data"); crashreportcategory.addCrashSection("Data ID", key); throw new ReportedException(crashreport); } this.lock.readLock().unlock(); return dataentry; }
protected static boolean func_151616_a(final int p_151616_0_, final int p_151616_1_) { if (p_151616_0_ == p_151616_1_) { return true; } else if (p_151616_0_ != BiomeGenBase.field_150607_aa.biomeID && p_151616_0_ != BiomeGenBase.field_150608_ab.biomeID) { try { return BiomeGenBase.func_150568_d(p_151616_0_) != null && BiomeGenBase.func_150568_d(p_151616_1_) != null ? BiomeGenBase.func_150568_d(p_151616_0_) .func_150569_a(BiomeGenBase.func_150568_d(p_151616_1_)) : false; } catch (Throwable var5) { CrashReport var3 = CrashReport.makeCrashReport(var5, "Comparing biomes"); CrashReportCategory var4 = var3.makeCategory("Biomes being compared"); var4.addCrashSection("Biome A ID", Integer.valueOf(p_151616_0_)); var4.addCrashSection("Biome B ID", Integer.valueOf(p_151616_1_)); var4.addCrashSectionCallable( "Biome A", new Callable() { private static final String __OBFID = "CL_00000560"; public String call() { return String.valueOf(BiomeGenBase.func_150568_d(p_151616_0_)); } }); var4.addCrashSectionCallable( "Biome B", new Callable() { private static final String __OBFID = "CL_00000561"; public String call() { return String.valueOf(BiomeGenBase.func_150568_d(p_151616_1_)); } }); throw new ReportedException(var3); } } else { return p_151616_1_ == BiomeGenBase.field_150607_aa.biomeID || p_151616_1_ == BiomeGenBase.field_150608_ab.biomeID; } }
/** * Returns a list of rainfall values for the specified blocks. Args: listToReuse, x, z, width, * length. */ public float[] getRainfall( float[] p_76936_1_, int p_76936_2_, int p_76936_3_, int p_76936_4_, int p_76936_5_) { IntCache.resetIntCache(); if (p_76936_1_ == null || p_76936_1_.length < p_76936_4_ * p_76936_5_) { p_76936_1_ = new float[p_76936_4_ * p_76936_5_]; } int[] var6 = this.biomeIndexLayer.getInts(p_76936_2_, p_76936_3_, p_76936_4_, p_76936_5_); for (int var7 = 0; var7 < p_76936_4_ * p_76936_5_; ++var7) { try { float var8 = (float) BiomeGenBase.getBiomeFromBiomeList(var6[var7], BiomeGenBase.field_180279_ad) .getIntRainfall() / 65536.0F; if (var8 > 1.0F) { var8 = 1.0F; } p_76936_1_[var7] = var8; } catch (Throwable var11) { CrashReport var9 = CrashReport.makeCrashReport(var11, "Invalid Biome id"); CrashReportCategory var10 = var9.makeCategory("DownfallBlock"); var10.addCrashSection("biome id", Integer.valueOf(var7)); var10.addCrashSection("downfalls[] size", Integer.valueOf(p_76936_1_.length)); var10.addCrashSection("x", Integer.valueOf(p_76936_2_)); var10.addCrashSection("z", Integer.valueOf(p_76936_3_)); var10.addCrashSection("w", Integer.valueOf(p_76936_4_)); var10.addCrashSection("h", Integer.valueOf(p_76936_5_)); throw new ReportedException(var9); } } return p_76936_1_; }
public void updateTimeLightAndEntities() { this.theProfiler.startSection("jobs"); Queue var1 = this.futureTaskQueue; synchronized (this.futureTaskQueue) { while (!this.futureTaskQueue.isEmpty()) { try { ((FutureTask) this.futureTaskQueue.poll()).run(); } catch (Throwable var9) { logger.fatal(var9); } } } this.theProfiler.endStartSection("levels"); int var11; for (var11 = 0; var11 < this.worldServers.length; ++var11) { long var2 = System.nanoTime(); if (var11 == 0 || this.getAllowNether()) { WorldServer var4 = this.worldServers[var11]; this.theProfiler.startSection(var4.getWorldInfo().getWorldName()); if (this.tickCounter % 20 == 0) { this.theProfiler.startSection("timeSync"); this.serverConfigManager.sendPacketToAllPlayersInDimension( new S03PacketTimeUpdate( var4.getTotalWorldTime(), var4.getWorldTime(), var4.getGameRules().getGameRuleBooleanValue("doDaylightCycle")), var4.provider.getDimensionId()); this.theProfiler.endSection(); } this.theProfiler.startSection("tick"); CrashReport var6; try { var4.tick(); } catch (Throwable var8) { var6 = CrashReport.makeCrashReport(var8, "Exception ticking world"); var4.addWorldInfoToCrashReport(var6); throw new ReportedException(var6); } try { var4.updateEntities(); } catch (Throwable var7) { var6 = CrashReport.makeCrashReport(var7, "Exception ticking world entities"); var4.addWorldInfoToCrashReport(var6); throw new ReportedException(var6); } this.theProfiler.endSection(); this.theProfiler.startSection("tracker"); var4.getEntityTracker().updateTrackedEntities(); this.theProfiler.endSection(); this.theProfiler.endSection(); } this.timeOfLastDimensionTick[var11][this.tickCounter % 100] = System.nanoTime() - var2; } this.theProfiler.endStartSection("connection"); this.getNetworkSystem().networkTick(); this.theProfiler.endStartSection("players"); this.serverConfigManager.onTick(); this.theProfiler.endStartSection("tickables"); for (var11 = 0; var11 < this.playersOnline.size(); ++var11) { ((IUpdatePlayerListBox) this.playersOnline.get(var11)).update(); } this.theProfiler.endSection(); }
public void onUpdateEntity() { try { super.onUpdate(); for (int i = 0; i < this.inventory.getSizeInventory(); ++i) { ItemStack itemstack = this.inventory.getStackInSlot(i); if (itemstack != null && itemstack.getItem().isMap()) { Packet packet = ((ItemMapBase) itemstack.getItem()) .createMapDataPacket(itemstack, this.worldObj, this); if (packet != null) { this.playerNetServerHandler.sendPacket(packet); } } } if (this.getHealth() != this.lastHealth || this.lastFoodLevel != this.foodStats.getFoodLevel() || this.foodStats.getSaturationLevel() == 0.0F != this.wasHungry) { this.playerNetServerHandler.sendPacket( new S06PacketUpdateHealth( this.getHealth(), this.foodStats.getFoodLevel(), this.foodStats.getSaturationLevel())); this.lastHealth = this.getHealth(); this.lastFoodLevel = this.foodStats.getFoodLevel(); this.wasHungry = this.foodStats.getSaturationLevel() == 0.0F; } if (this.getHealth() + this.getAbsorptionAmount() != this.field_130068_bO) { this.field_130068_bO = this.getHealth() + this.getAbsorptionAmount(); Collection collection = this.getWorldScoreboard().func_96520_a(IScoreObjectiveCriteria.health); Iterator iterator = collection.iterator(); while (iterator.hasNext()) { ScoreObjective scoreobjective = (ScoreObjective) iterator.next(); this.getWorldScoreboard() .getValueFromObjective(this.getCommandSenderName(), scoreobjective) .func_96651_a(Arrays.asList(new EntityPlayer[] {this})); } } if (this.experienceTotal != this.lastExperience) { this.lastExperience = this.experienceTotal; this.playerNetServerHandler.sendPacket( new S1FPacketSetExperience( this.experience, this.experienceTotal, this.experienceLevel)); } if (this.ticksExisted % 20 * 5 == 0 && !this.getStatFile().hasAchievementUnlocked(AchievementList.exploreAllBiomes)) { this.func_147098_j(); } } catch (Throwable throwable) { CrashReport crashreport = CrashReport.makeCrashReport(throwable, "Ticking player"); CrashReportCategory crashreportcategory = crashreport.makeCategory("Player being ticked"); this.addEntityCrashInfo(crashreportcategory); throw new ReportedException(crashreport); } }
public void updateTimeLightAndEntities() { this.theProfiler.startSection("levels"); int i; Integer[] ids = DimensionManager.getIDs(this.tickCounter % 200 == 0); for (int x = 0; x < ids.length; x++) { int id = ids[x]; long j = System.nanoTime(); if (id == 0 || this.getAllowNether()) { WorldServer worldserver = DimensionManager.getWorld(id); this.theProfiler.startSection(worldserver.getWorldInfo().getWorldName()); this.theProfiler.startSection("pools"); worldserver.getWorldVec3Pool().clear(); this.theProfiler.endSection(); if (this.tickCounter % 20 == 0) { this.theProfiler.startSection("timeSync"); this.serverConfigManager.sendPacketToAllPlayersInDimension( new Packet4UpdateTime(worldserver.getTotalWorldTime(), worldserver.getWorldTime()), worldserver.provider.dimensionId); this.theProfiler.endSection(); } this.theProfiler.startSection("tick"); FMLCommonHandler.instance().onPreWorldTick(worldserver); CrashReport crashreport; try { worldserver.tick(); } catch (Throwable throwable) { crashreport = CrashReport.makeCrashReport(throwable, "Exception ticking world"); worldserver.addWorldInfoToCrashReport(crashreport); throw new ReportedException(crashreport); } try { worldserver.updateEntities(); } catch (Throwable throwable1) { crashreport = CrashReport.makeCrashReport(throwable1, "Exception ticking world entities"); worldserver.addWorldInfoToCrashReport(crashreport); throw new ReportedException(crashreport); } FMLCommonHandler.instance().onPostWorldTick(worldserver); this.theProfiler.endSection(); this.theProfiler.startSection("tracker"); worldserver.getEntityTracker().updateTrackedEntities(); this.theProfiler.endSection(); this.theProfiler.endSection(); } worldTickTimes.get(id)[this.tickCounter % 100] = System.nanoTime() - j; } this.theProfiler.endStartSection("dim_unloading"); DimensionManager.unloadWorlds(worldTickTimes); this.theProfiler.endStartSection("connection"); this.getNetworkThread().networkTick(); this.theProfiler.endStartSection("players"); this.serverConfigManager.sendPlayerInfoToAllPlayers(); this.theProfiler.endStartSection("tickables"); for (i = 0; i < this.tickables.size(); ++i) { ((IUpdatePlayerListBox) this.tickables.get(i)).update(); } this.theProfiler.endSection(); }