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package gtPlusPlus.xmod.gregtech.loaders;
import static gregtech.api.enums.GTValues.VP;
import static gregtech.api.recipe.RecipeMaps.fluidSolidifierRecipes;
import static gtPlusPlus.api.recipe.GTPPRecipeMaps.alloyBlastSmelterRecipes;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.HashSet;
import java.util.List;
import java.util.Objects;
import java.util.Set;
import net.minecraft.item.ItemStack;
import net.minecraftforge.fluids.FluidStack;
import gregtech.api.enums.GTValues;
import gregtech.api.enums.ItemList;
import gregtech.api.recipe.RecipeCategories;
import gregtech.api.util.GTRecipeBuilder;
import gregtech.api.util.GTUtility;
import gtPlusPlus.api.interfaces.RunnableWithInfo;
import gtPlusPlus.api.objects.Logger;
import gtPlusPlus.core.material.Material;
import gtPlusPlus.core.material.MaterialGenerator;
import gtPlusPlus.core.material.MaterialStack;
import gtPlusPlus.core.material.MaterialsAlloy;
import gtPlusPlus.core.material.nuclear.MaterialsFluorides;
import gtPlusPlus.core.material.nuclear.MaterialsNuclides;
import gtPlusPlus.core.material.state.MaterialState;
import gtPlusPlus.core.util.minecraft.FluidUtils;
import gtPlusPlus.core.util.minecraft.ItemUtils;
public class RecipeGenBlastSmelter extends RecipeGenBase {
public static final Set<RunnableWithInfo<Material>> mRecipeGenMap = new HashSet<>();
static {
MaterialGenerator.mRecipeMapsToGenerate.add(mRecipeGenMap);
}
public RecipeGenBlastSmelter(final Material M) {
this.toGenerate = M;
mRecipeGenMap.add(this);
}
@Override
public void run() {
generateARecipe(this.toGenerate);
}
private void generateARecipe(final Material M) {
// Add a Blast Smelting Recipe, Let's go!
ItemStack tStack = M.getDust(1);
if (tStack == null) {
return;
}
final Material[] badMaterials = { MaterialsFluorides.THORIUM_HEXAFLUORIDE,
MaterialsFluorides.THORIUM_TETRAFLUORIDE, MaterialsAlloy.BLOODSTEEL, MaterialsNuclides.LiFBeF2ThF4UF4,
MaterialsNuclides.LiFBeF2ZrF4UF4, MaterialsNuclides.LiFBeF2ZrF4U235, MaterialsAlloy.NITINOL_60 };
for (final Material R : badMaterials) {
if (M == R) {
return;
}
}
// Prepare some Variables
ItemStack[] components;
ArrayList<MaterialStack> tMaterial = new ArrayList<>();
int inputStackCount = 0;
int fluidAmount = 0;
final boolean doTest = true;
tMaterial = M.getComposites();
// This Bad boy here is what dictates unique recipes.
ItemStack circuitGT;
int tier = Math.max(1, M.vTier);
long aVoltage = VP[tier];
// Set a duration
int duration = 120 * tier * 10;
if (tier <= 4) {
duration = 20 * tier * 10;
}
int mMaterialListSize = 0;
int mTotalPartsCounter = M.smallestStackSizeWhenProcessing;
if (M.getComposites() != null) {
for (final gtPlusPlus.core.material.MaterialStack ternkfsdf : M.getComposites()) {
if (ternkfsdf != null) {
mMaterialListSize++;
}
}
} else {
mMaterialListSize = 1;
}
Logger.WARNING("[BAS] Size: " + mMaterialListSize);
// Make a simple one Material MaterialStack[] and log it for validity.
circuitGT = GTUtility.getIntegratedCircuit(1);
final ItemStack[] tItemStackTest = new ItemStack[] { circuitGT, tStack };
inputStackCount = 1;
fluidAmount = 144 * inputStackCount;
Logger.WARNING(
"[BAS] Adding an Alloy Blast Smelter Recipe for " + M.getLocalizedName()
+ ". Gives "
+ fluidAmount
+ "L of molten metal.");
for (int das = 0; das < tItemStackTest.length; das++) {
if (tItemStackTest[das] != null) {
Logger.WARNING(
"[BAS] tMaterial[" + das
+ "]: "
+ tItemStackTest[das].getDisplayName()
+ " Meta: "
+ tItemStackTest[das].getItemDamage()
+ ", Amount: "
+ tItemStackTest[das].stackSize);
}
}
final boolean hasMoreInputThanACircuit = (tItemStackTest.length > 1);
// Generate Recipes for all singular materials that can be made molten.
if (hasMoreInputThanACircuit) {
if (M.requiresBlastFurnace()) {
GTValues.RA.stdBuilder()
.itemInputs(tItemStackTest)
.fluidOutputs(M.getFluidStack(fluidAmount))
.duration(duration / (mTotalPartsCounter > 0 ? mTotalPartsCounter : 1))
.eut(aVoltage)
.recipeCategory(RecipeCategories.absNonAlloyRecipes)
.addTo(alloyBlastSmelterRecipes);
} else {
Logger.WARNING("[BAS] Failed.");
}
} else {
GTValues.RA.stdBuilder()
.itemInputs(tItemStackTest)
.fluidOutputs(M.getFluidStack(fluidAmount))
.eut(aVoltage)
.duration(duration / (mTotalPartsCounter > 0 ? mTotalPartsCounter : 1) / 2)
.addTo(alloyBlastSmelterRecipes);
Logger.WARNING("[BAS] Success.");
GTValues.RA.stdBuilder()
.itemInputs(ItemList.Shape_Mold_Ingot.get(0))
.itemOutputs(M.getIngot(1))
.fluidInputs(M.getFluidStack(144))
.duration(duration / 2)
.eut(60)
.addTo(fluidSolidifierRecipes);
Logger.WARNING("[BAS] Success, Also added a Fluid solidifier recipe.");
}
if (tMaterial == null) {
Logger.WARNING("[BAS] doTest: " + doTest + " | tMaterial == null: true");
return;
}
// Reset the Variables for compounds if last recipe was a success.
inputStackCount = 0;
if (mMaterialListSize <= 1) {
return;
}
// If this Material has some kind of compound list, proceed
final gtPlusPlus.core.material.MaterialStack[] tempStack = new gtPlusPlus.core.material.MaterialStack[mMaterialListSize];
circuitGT = GTUtility.getIntegratedCircuit(mMaterialListSize);
// Builds me a MaterialStack[] from the MaterialList of M.
int ooo = 0;
for (final gtPlusPlus.core.material.MaterialStack xMaterial : M.getComposites()) {
if (xMaterial == null) {
ooo++;
continue;
}
if (xMaterial.getStackMaterial() == null) {
tempStack[ooo] = xMaterial;
ooo++;
continue;
}
Logger.WARNING(
"[BAS] FOUND: " + xMaterial.getStackMaterial()
.getLocalizedName());
Logger.WARNING(
"[BAS] ADDING: " + xMaterial.getStackMaterial()
.getLocalizedName());
tempStack[ooo] = xMaterial;
ooo++;
}
// Builds me an ItemStack[] of the materials. - Without a circuit - this gets a good count for
// the 144L fluid multiplier
components = new ItemStack[9];
inputStackCount = 0;
FluidStack componentsFluid = null;
for (int irc = 0; irc < M.getComposites()
.size(); irc++) {
if (M.getComposites()
.get(irc) == null) {
continue;
}
final int r = (int) M.vSmallestRatio[irc];
inputStackCount = inputStackCount + r;
if ((M.getComposites()
.get(irc)
.getStackMaterial()
.getState() != MaterialState.SOLID) || !ItemUtils.checkForInvalidItems(
M.getComposites()
.get(irc)
.getDustStack(r))) {
if (r > 0 && r <= 100) {
final int mathmatics = (r * 1000);
componentsFluid = FluidUtils.getFluidStack(
M.getComposites()
.get(irc)
.getStackMaterial()
.getFluidStack(mathmatics),
mathmatics);
}
} else {
components[irc] = M.getComposites()
.get(irc)
.getUnificatedDustStack(r);
}
}
// Adds a circuit
if ((mMaterialListSize < 9) && (mMaterialListSize != 0)) {
final ItemStack[] components_NoCircuit = components;
// Builds me an ItemStack[] of the materials. - With a circuit
components = new ItemStack[components_NoCircuit.length + 1];
for (int fr = 0; fr < components.length; fr++) {
if (fr == 0) {
components[0] = circuitGT;
} else {
components[fr] = components_NoCircuit[fr - 1];
}
}
Logger.WARNING(
"[BAS] Should have added a circuit. mMaterialListSize: " + mMaterialListSize
+ " | circuit: "
+ components[0].getDisplayName());
} else {
Logger.WARNING("[BAS] Did not add a circuit. mMaterialListSize: " + mMaterialListSize);
}
// Set Fluid output
fluidAmount = 144 * inputStackCount;
Logger.WARNING(
"[BAS] Adding an Alloy Blast Smelter Recipe for " + M.getLocalizedName()
+ " using it's compound dusts. This material has "
+ inputStackCount
+ " parts. Gives "
+ fluidAmount
+ "L of molten metal.");
Logger.WARNING("[BAS] tMaterial.length: " + components.length + ".");
for (int das = 0; das < components.length; das++) {
if (components[das] != null) {
Logger.WARNING(
"[BAS] tMaterial[" + das
+ "]: "
+ components[das].getDisplayName()
+ " Meta: "
+ components[das].getItemDamage()
+ ", Amount: "
+ components[das].stackSize);
}
}
// Adds Recipe
GTRecipeBuilder builder = GTValues.RA.stdBuilder();
List<ItemStack> inputs = new ArrayList<>(Arrays.asList(components));
inputs.removeIf(Objects::isNull);
components = inputs.toArray(new ItemStack[0]);
builder = builder.itemInputs(components);
if (componentsFluid != null) {
builder.fluidInputs(componentsFluid);
}
builder.fluidOutputs(M.getFluidStack(fluidAmount));
if (M.requiresBlastFurnace()) {
builder.eut(aVoltage);
} else {
builder.eut(aVoltage / 2);
}
builder.duration(duration)
.addTo(alloyBlastSmelterRecipes);
Logger.WARNING("[BAS] Success.");
}
}
|
