Heat Exchanger updates

* Can now adjust the minimum threshold for Superheated steam via Integrated Circuits inside the LHE

* Restored full useWater reliance
* HotCoolant now increases efficiency at same rate as lava (80 instead of 20, feel free to revert)
* Please double-check math on Lava output.

main/java/gregtech/common/tileentities/machines/multi/GT_MetaTileEntity_HeatExchanger.java

@@ -82,73 +82,92 @@ public class GT_MetaTileEntity_HeatExchanger extends GT_MetaTileEntity_MultiBloc
 	    return aFacing > 1;
 	  }
 	  
-	  public boolean checkRecipe(ItemStack aStack)
-	  {
-		if(GT_ModHandler.isLava(mInputHotFluidHatch.getFluid())){
-			int fluidAmount = mInputHotFluidHatch.getFluidAmount();
-			if(fluidAmount >= 500){superheated=true;}else{superheated=false;}
-			if(fluidAmount>1000){fluidAmount=1000;}
-			mInputHotFluidHatch.drain(fluidAmount, true);
-			mOutputColdFluidHatch.fill(FluidRegistry.getFluidStack("ic2pahoehoelava", fluidAmount), true);
-			
-			
-			           this.mMaxProgresstime = 20;
-			           this.mEUt = fluidAmount*4;
-			           this.mEfficiencyIncrease = 80;
-		return true;	
-		}
-		
-		if(mInputHotFluidHatch.getFluid().isFluidEqual(FluidRegistry.getFluidStack("ic2hotcoolant", 1))){
-			int fluidAmount = mInputHotFluidHatch.getFluidAmount();
-			if(fluidAmount >= 4000){superheated=true;}else{superheated=false;}
-			if(fluidAmount>8000){fluidAmount=8000;}
-			mInputHotFluidHatch.drain(fluidAmount, true);
-			mOutputColdFluidHatch.fill(FluidRegistry.getFluidStack("ic2coolant", fluidAmount), true);
-			
-			
-			           this.mMaxProgresstime = 20;
-			           this.mEUt = fluidAmount/2;
-			           this.mEfficiencyIncrease = 20;
-		return true;	
-		}
-		return false;}
-	  
-	   private float water;
-	   private int useWater(float input){
-		   water = water + input;
-		   int usage = (int)water;
-		   water = water - (int)usage;
-		   return  usage;
-	   }
-	  
-	  public boolean onRunningTick(ItemStack aStack) {
+	    public boolean checkRecipe(ItemStack aStack) {
+	        if (mInputHotFluidHatch.getFluid() == null)
+	            return true;
 	
-	    if (this.mEUt > 0) {
-	      int tGeneratedEU = (int) (this.mEUt * 2L * this.mEfficiency / 10000L); // APPROXIMATELY how much steam to generate.
-
-	      if (tGeneratedEU > 0) {
-	        if (superheated)
-	          tGeneratedEU /= 2; // We produce half as much superheated steam if necessary
+	        int fluidAmountToConsume = mInputHotFluidHatch.getFluidAmount(); // how much fluid is in hatch
 	
-	        int distilledConsumed = useWater(tGeneratedEU / 160f); // how much distilled water to consume
-	        tGeneratedEU = distilledConsumed * 160; // EXACTLY how much steam to generate, producing a perfect 1:160 ratio with distilled water consumption
+	        int superheated_threshold = 4000;   // default: must have 4000L per second to generate superheated steam
+	        float efficiency = 1f;              // default: operate at 100% efficiency with no integrated circuitry
+	        float penalty_per_config = 0.015f;  // penalize 1.5% efficiency per circuitry level (1-25)
+	        int shs_reduction_per_config = 150; // reduce threshold 150L/s per circuitry level (1-25)
+	        float steam_output_multiplier = 4f; // default: multiply output by 4
+	        float penalty = 0.0f;               // penalty to apply to output based on circuitry level (1-25).  
+	        boolean do_lava = false;
 	
-	        FluidStack distilledStack = GT_ModHandler.getDistilledWater(distilledConsumed);
-	        if (depleteInput(distilledStack)) // Consume the distilled water
-	        {
-	          if (superheated) {
-	            addOutput(FluidRegistry.getFluidStack("ic2superheatedsteam", tGeneratedEU)); // Generate superheated steam
-	          } else {
-	            addOutput(GT_ModHandler.getSteam(tGeneratedEU)); // Generate regular steam
-	          }
-	        } else {
-	          explodeMultiblock(); // Generate crater
+	        // Do we have an integrated circuit with a valid configuration?
+	        if (mInventory[1] != null && mInventory[1].getUnlocalizedName().startsWith("gt.integrated_circuit")) {
+	            int circuit_config = mInventory[1].getItemDamage();
+	            if (circuit_config >= 1 && circuit_config <= 25) {
+	                // If so, apply the penalty and reduced threshold.
+	                penalty = (circuit_config - 1) * penalty_per_config;
+	                superheated_threshold -= (shs_reduction_per_config * (circuit_config - 1));
+	            }
 	        }
-	      }
-	      return true;
+	        efficiency -= penalty;
+	
+	        // If we're working with lava, adjust the threshold and multipliers accordingly.
+	        if (GT_ModHandler.isLava(mInputHotFluidHatch.getFluid())) {
+	            superheated_threshold /= 4;
+	            do_lava = true;
+	        } else if (mInputHotFluidHatch.getFluid().isFluidEqual(FluidRegistry.getFluidStack("ic2hotcoolant", 1))) {
+	            steam_output_multiplier = 0.5f;
+	        } else {
+	            // If we're working with neither, fail out
+	            return false;
+	        }
+	
+	        superheated = fluidAmountToConsume >= superheated_threshold; // set the internal superheated flag if we have enough hot fluid.  Used in the onRunningTick method.
+	        fluidAmountToConsume = Math.min(fluidAmountToConsume, superheated_threshold * 2); // Don't consume too much hot fluid per second
+	        mInputHotFluidHatch.drain(fluidAmountToConsume, true);
+	        this.mMaxProgresstime = 20;
+	        this.mEUt = (int) (fluidAmountToConsume * steam_output_multiplier * efficiency);
+	        if (do_lava) {
+	            mOutputColdFluidHatch.fill(FluidRegistry.getFluidStack("ic2pahoehoelava", fluidAmountToConsume), true);
+	            this.mEfficiencyIncrease = 80;
+	        } else {
+	            mOutputColdFluidHatch.fill(FluidRegistry.getFluidStack("ic2coolant", fluidAmountToConsume), true);
+	            this.mEfficiencyIncrease = 80;
+	        }
+	        return true;
+	    }
+	  
+	    private float water;
+	    private int useWater(float input) {
+	        water = water + input;
+	        int usage = (int) water;
+	        water = water - (int) usage;
+	        return usage;
+	    }
+	  
+	    public boolean onRunningTick(ItemStack aStack) {
+	        if (this.mEUt > 0) {
+	            int tGeneratedEU = (int) (this.mEUt * 2L * this.mEfficiency / 10000L); // APPROXIMATELY how much steam to generate.
+	            if (tGeneratedEU > 0) {
+	
+	                if (superheated)
+	                    tGeneratedEU /= 2; // We produce half as much superheated steam if necessary
+	
+	                int distilledConsumed = useWater(tGeneratedEU / 160f); // how much distilled water to consume
+	                //tGeneratedEU = distilledConsumed * 160; // EXACTLY how much steam to generate, producing a perfect 1:160 ratio with distilled water consumption
+	
+	                FluidStack distilledStack = GT_ModHandler.getDistilledWater(distilledConsumed);
+	                if (depleteInput(distilledStack)) // Consume the distilled water
+	                {
+	                    if (superheated) {
+	                        addOutput(FluidRegistry.getFluidStack("ic2superheatedsteam", tGeneratedEU)); // Generate superheated steam
+	                    } else {
+	                        addOutput(GT_ModHandler.getSteam(tGeneratedEU)); // Generate regular steam
+	                    }
+	                } else {
+	                    explodeMultiblock(); // Generate crater
+	                }
+	            }
+	            return true;
+	        }
+	        return true;
 	    }
-	    return true;
-	  }
 	  private static boolean controller;
 	  public boolean checkMachine(IGregTechTileEntity aBaseMetaTileEntity, ItemStack aStack)
 	  {