Started toying with the idea of molten fluids

This commit is contained in:
DarkGuardsman 2013-10-30 17:38:13 -04:00
parent f8a9f54e4d
commit 158e3b0dd6
5 changed files with 118 additions and 102 deletions

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@ -4,7 +4,7 @@ package com.builtbroken.common.science;
* parts but each element should have a listed names, symbol, and atomic mass. Atomic number should
* be the placement # in the list. Var ZERO should not be used as its designed to offset the
* placement of all elements by one. As well is returned instead of null.
*
*
* @Source http://www.periodictable.com/Properties/A/SpecificHeat.an.html
* @source http://www.chemicalelements.com/
* @source http://www.lenntech.com/periodic/periodic-chart.htm
@ -13,17 +13,17 @@ public enum ChemElement
{
/** Placeholder so that hydrogen starts as number one */
ZERO("ZERO", "ZERO", 0, 0, null, null),
Hydrogen("Hydrogen", "H", 1.00794f, 0.08988f, ElementProperty.nonmetal, MatterPhase.gas, 14.01f, 20.28f, 0.558f, 0.558f, 14300f),
Helium("Helium", "He", 4.002602f, 0.1785f, ElementProperty.inertGas, MatterPhase.gas, 0, 4.22f, 0.02f, 0.083f, 5193.1f),
Lithium("Lithium", "Li", 6.941f, 0.53f, ElementProperty.inertGas, MatterPhase.gas, 543.69f, 1615f, 3f, 147f, 3570f),
Beryllium("Beryllium", "Be", 9.012182f, 1.8477f, ElementProperty.inertGas, MatterPhase.gas, 1560f, 2743f, 7.95f, 297f, 1820f),
Boron("Boron", "B", 10.811f, 2.46f, ElementProperty.inertGas, MatterPhase.gas, 2348f, 4273f, 50f, 507f, 1030f),
Carbon("Carbon", "C", 12.0107f, 2.26f, ElementProperty.inertGas, MatterPhase.gas, 3823f, 4300f, 105f, 715f, 710f),
Nitrogen("Nitrogen", "N", 14.0067f, 1.251f, ElementProperty.inertGas, MatterPhase.gas, 63.05f, 77.36f, 0.36f, 2.79f, 1040),
Oxygen("Oxygen", "O", 15.9994f, 1.429f, ElementProperty.inertGas, MatterPhase.gas, 54.8f, 90.2f, 0.222f, 3.41f, 919f),
Fluorine("Fluorine", "F", 18.9994f, 1.696f, ElementProperty.inertGas, MatterPhase.gas, 53.5f, 85.03f, 0.26f, 3.27f, 824f),
Neon("Neon", "Ne", 20.1797f, 0.9f, ElementProperty.inertGas, MatterPhase.gas, 24.56f, 27.07f, 0.34f, 1.75f, 1030f),
Sodium("Sodium", "Na", 22.98976928f, 0.968f, ElementProperty.alkaliMetal, MatterPhase.solid, 370.87f, 1156f, 2.6f, 97.7f, 1230f),
Hydrogen("Hydrogen", "H", 1.00794f, 0.08988f, ElementProperty.nonmetal, MatterPhase.gas, new HeatingData(14.01f, 20.28f, 0.558f, 0.558f, 14300f)),
Helium("Helium", "He", 4.002602f, 0.1785f, ElementProperty.inertGas, MatterPhase.gas, new HeatingData(0, 4.22f, 0.02f, 0.083f, 5193.1f)),
Lithium("Lithium", "Li", 6.941f, 0.53f, ElementProperty.inertGas, MatterPhase.gas, new HeatingData(543.69f, 1615f, 3f, 147f, 3570f)),
Beryllium("Beryllium", "Be", 9.012182f, 1.8477f, ElementProperty.inertGas, MatterPhase.gas, new HeatingData(1560f, 2743f, 7.95f, 297f, 1820f)),
Boron("Boron", "B", 10.811f, 2.46f, ElementProperty.inertGas, MatterPhase.gas, new HeatingData(2348f, 4273f, 50f, 507f, 1030f)),
Carbon("Carbon", "C", 12.0107f, 2.26f, ElementProperty.inertGas, MatterPhase.gas, new HeatingData(3823f, 4300f, 105f, 715f, 710f)),
Nitrogen("Nitrogen", "N", 14.0067f, 1.251f, ElementProperty.inertGas, MatterPhase.gas, new HeatingData(63.05f, 77.36f, 0.36f, 2.79f, 1040)),
Oxygen("Oxygen", "O", 15.9994f, 1.429f, ElementProperty.inertGas, MatterPhase.gas, new HeatingData(54.8f, 90.2f, 0.222f, 3.41f, 919f)),
Fluorine("Fluorine", "F", 18.9994f, 1.696f, ElementProperty.inertGas, MatterPhase.gas, new HeatingData(53.5f, 85.03f, 0.26f, 3.27f, 824f)),
Neon("Neon", "Ne", 20.1797f, 0.9f, ElementProperty.inertGas, MatterPhase.gas, new HeatingData(24.56f, 27.07f, 0.34f, 1.75f, 1030f)),
Sodium("Sodium", "Na", 22.98976928f, 0.968f, ElementProperty.alkaliMetal, MatterPhase.solid, new HeatingData(370.87f, 1156f, 2.6f, 97.7f, 1230f)),
Magnesium("Magnesium", "Mg", 24.305f, 1.738f, ElementProperty.alkalineEarthMetal, MatterPhase.solid),
aluminium("aluminium", "Al", 26.9815386f, 2.7f, ElementProperty.otherMetal, MatterPhase.solid),
@ -178,17 +178,7 @@ public enum ChemElement
public MatterPhase normalPhase;
public float meltingPointKelvin;
public float boilingPointKelvin;
/** kJ/mol */
public float heatOfFusion;
/** kJ/mol */
public float heatOfVaporization;
/** J/(kg K) */
public float specificHeat;
/** W/(m K) */
public float thermalConductivity;
public float thermalExpansion;
public HeatingData heatData;
private ChemElement(String[] name, String symbol, float atomicMass, float density, ElementProperty type, MatterPhase defaultPhase)
{
@ -206,21 +196,11 @@ public enum ChemElement
this.density = density;
}
private ChemElement(String[] name, String symbol, float atomicMass, float density, ElementProperty type, MatterPhase defaultPhase, float meltingPoint, float boilingPoint, float fisionHeat, float vaporHeat, float specificHeat)
{
this(name[0], symbol, atomicMass, density, type, defaultPhase, meltingPoint, boilingPoint, fisionHeat, vaporHeat, specificHeat);
this.elementNames = name;
}
private ChemElement(String name, String symbol, float atomicMass, float density, ElementProperty type, MatterPhase defaultPhase, float meltingPoint, float boilingPoint, float fisionHeat, float vaporHeat, float specificHeat)
private ChemElement(String name, String symbol, float atomicMass, float density, ElementProperty type, MatterPhase defaultPhase, HeatingData heatData)
{
this(name, symbol, atomicMass, density, type, defaultPhase);
this.heatData = heatData;
this.meltingPointKelvin = meltingPoint;
this.boilingPointKelvin = boilingPoint;
this.heatOfFusion = fisionHeat;
this.heatOfVaporization = vaporHeat;
this.specificHeat = specificHeat;
}
}

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@ -0,0 +1,27 @@
package com.builtbroken.common.science;
/** Used to store values related to temperature and heat of a material. Temperatures are in kelvin,
* and heat in joules
*
* @author DarkGuardsman */
public class HeatingData
{
public float meltingPoint, boilingPoint, fisionHeat, vaporHeat, specificHeat, thermalExpasion, thermalConductivity;
public HeatingData(float meltingPoint, float boilingPoint, float fisionHeat, float vaporHeat, float specificHeat)
{
this.meltingPoint = meltingPoint;
this.boilingPoint = boilingPoint;
this.fisionHeat = fisionHeat;
this.vaporHeat = vaporHeat;
this.specificHeat = specificHeat;
}
public HeatingData(float meltingPoint, float boilingPoint, float fisionHeat, float vaporHeat, float specificHeat, float thermalExpansion, float thermalConductivity)
{
this(meltingPoint, boilingPoint, fisionHeat, vaporHeat, specificHeat);
this.thermalConductivity = thermalConductivity;
this.thermalExpasion = thermalExpansion;
}
}

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@ -0,0 +1,65 @@
package dark.api.fluid;
import java.util.HashMap;
import net.minecraftforge.fluids.Fluid;
import net.minecraftforge.fluids.FluidRegistry;
import net.minecraftforge.fluids.FluidStack;
import com.builtbroken.common.Pair;
public class FluidMasterList
{
public static HashMap<String, Float> moltenFluids = new HashMap();
/** Map containing items to FluidStack for melting down. Anything not in the list will be turned
* into slag. */
public static HashMap<Pair<Integer, Integer>, FluidStack> meltDownMap = new HashMap();
public static final Fluid WATER = FluidRegistry.WATER;
public static final Fluid LAVA = FluidRegistry.LAVA;
static
{
//http://www.engineeringtoolbox.com/melting-temperature-metals-d_860.html
moltenFluids.put("lava", 1200f);
moltenFluids.put("molten-iron", 1200f);
moltenFluids.put("molten-gold", 1063f);
moltenFluids.put("molten-silver", 1000f);
}
/** Registers a fluid, by fluid name, as a molten fluids so pipes will interact with it different
*
* @param name - fluid name
* @param heatValue - temperature of the fluid */
public static void registerMoltenFluid(String name, float heatValue)
{
if (name != null && heatValue > 0)
{
moltenFluids.put(name, heatValue);
}
}
/** Try to only register very simple items as a reverse recipe system will be used to get to the
* items used to craft the object
*
* @param id - item id
* @param meta - item meta
* @param stack - fluid stack to return */
public static void registerMeltDown(int id, int meta, FluidStack stack)
{
if (id > 0 && stack != null)
{
meltDownMap.put(new Pair<Integer, Integer>(id, meta), stack);
}
}
public static boolean isMolten(Fluid fluid)
{
return fluid != null && moltenFluids.containsKey(fluid.getName());
}
public static float getHeatPerPass(Fluid fluid)
{
return moltenFluids.get(fluid.getName());
}
}

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@ -17,7 +17,7 @@ public interface INetworkPart extends ITileConnector
public NetworkTileEntities getTileNetwork();
/** Sets the networkPart's primary network */
public void setTileNetwork(NetworkTileEntities fluidNetwok);
public void setTileNetwork(NetworkTileEntities fluidNetwork);
public boolean mergeDamage(String result);
}

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@ -62,7 +62,7 @@ public class FluidHelper
}
/** Gets the block's fluid if it has one
*
*
* @param world - world we are working in
* @param vector - 3D location in world
* @return @Fluid that the block is */
@ -101,10 +101,10 @@ public class FluidHelper
}
/** Drains a block of fluid
*
*
* @Note sets the block with a client update only. Doesn't tick the block allowing for better
* placement of fluid that can flow infinitely
*
*
* @param doDrain - do the action
* @return FluidStack drained from the block */
public static FluidStack drainBlock(World world, Vector3 node, boolean doDrain)
@ -113,7 +113,7 @@ public class FluidHelper
}
/** Drains a block of fluid
*
*
* @param doDrain - do the action
* @param update - block update flag to use
* @return FluidStack drained from the block */
@ -212,9 +212,9 @@ public class FluidHelper
}
/** Helper method to fill a location with a fluid
*
*
* Note: This does not update the block to prevent the liquid from flowing
*
*
* @return */
public static int fillBlock(World world, Vector3 node, FluidStack stack, boolean doFill)
{
@ -248,7 +248,7 @@ public class FluidHelper
}
/** Fills all instances of IFluidHandler surrounding the origin
*
*
* @param stack - FluidStack that will be filled into the tanks
* @param doFill - Actually perform the action or simulate action
* @param ignore - ForgeDirections to ignore
@ -281,7 +281,7 @@ public class FluidHelper
}
/** Fills an instance of IFluidHandler in the given direction
*
*
* @param stack - FluidStack to fill the tank will
* @param doFill - Actually perform the action or simulate action
* @param direction - direction to fill in from the origin
@ -359,7 +359,7 @@ public class FluidHelper
}
/** Drains an item of fluid and fills the tank with what was drained
*
*
* @param consumeItem - should it consume the item. Used mainly for creative mode players. This
* does effect the return of the method
* @return Item stack that would be returned if the item was drain of its fluid. Water bucket ->
@ -381,7 +381,7 @@ public class FluidHelper
}
/** Fills an item with fluid from the tank
*
*
* @param consumeItem - should it consume the item. Used mainly for creative mode players. This
* does effect the return of the method
* @return Item stack that would be returned if the item was filled with fluid. empty bucket ->
@ -438,60 +438,4 @@ public class FluidHelper
return stackList;
}
/*
* Fluid restriction handler for color codes
*/
@ForgeSubscribe
public void onLiquidRegistered(FluidRegisterEvent event)
{
if (event != null && event.fluidName != null)
{
Fluid fluid = FluidRegistry.getFluid(event.fluidName);
if (event.fluidName.equalsIgnoreCase("Fuel") && !restrictedStacks.containsKey(ColorCode.YELLOW))
{
restrictedStacks.put(ColorCode.YELLOW, fluid);
}
else if (event.fluidName.equalsIgnoreCase("Oil") && !restrictedStacks.containsKey(ColorCode.BLACK))
{
restrictedStacks.put(ColorCode.BLACK, fluid);
}
else if (event.fluidName.equalsIgnoreCase("Milk") && !restrictedStacks.containsKey(ColorCode.WHITE))
{
restrictedStacks.put(ColorCode.WHITE, fluid);
}
}
}
/** Checks too see if a color has a restricted stack */
public static boolean hasRestrictedStack(int meta)
{
return restrictedStacks.containsKey(ColorCode.get(meta));
}
public static boolean hasRestrictedStack(Fluid stack)
{
return stack != null && restrictedStacks.inverse().containsKey(stack);
}
/** gets the liquid stack that is restricted to this color */
public static Fluid getStackForColor(ColorCode color)
{
return restrictedStacks.get(color);
}
/** checks to see if the liquidStack is valid for the given color */
public static boolean isValidLiquid(ColorCode color, Fluid stack)
{
if (stack == null)
{
return false;
}
if (!FluidHelper.hasRestrictedStack(color.ordinal()))
{
return true;
}
return FluidHelper.hasRestrictedStack(color.ordinal()) && FluidHelper.getStackForColor(color).equals(stack);
}
}