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package gtPlusPlus.xmod.gregtech.loaders.recipe;
import java.util.HashMap;
import gregtech.api.enums.GT_Values;
import gregtech.api.util.GT_Recipe;
import gregtech.api.util.Recipe_GT;
import gtPlusPlus.api.objects.Logger;
import gtPlusPlus.api.objects.data.AutoMap;
import gtPlusPlus.api.objects.data.WeightedCollection;
import gtPlusPlus.core.item.chemistry.AgriculturalChem;
import gtPlusPlus.core.util.math.MathUtils;
import gtPlusPlus.core.util.minecraft.ItemUtils;
import net.minecraft.item.ItemStack;
import net.minecraftforge.fluids.FluidStack;
public class RecipeLoader_AlgaeFarm {
private static final HashMap<Integer, AutoMap<GT_Recipe>> mRecipeCache = new HashMap<Integer, AutoMap<GT_Recipe>>();
private static final HashMap<Integer, AutoMap<GT_Recipe>> mRecipeCompostCache = new HashMap<Integer, AutoMap<GT_Recipe>>();
public static final void generateRecipes() {
for (int i=0;i<10;i++) {
getTieredRecipeFromCache(i, false);
}
for (int i=0;i<10;i++) {
getTieredRecipeFromCache(i, true);
}
}
public static GT_Recipe getTieredRecipeFromCache(int aTier, boolean aCompost) {
HashMap<Integer, AutoMap<GT_Recipe>> aMap = aCompost ? mRecipeCompostCache : mRecipeCache;
String aComp = aCompost ? "(Compost)" : "";
AutoMap<GT_Recipe> aTemp = aMap.get(aTier);
if (aTemp == null || aTemp.isEmpty()) {
aTemp = new AutoMap<GT_Recipe>();
aMap.put(aTier, aTemp);
Logger.INFO("Tier "+aTier+aComp+" had no recipes, initialising new map.");
}
if (aTemp.size() < 500) {
Logger.INFO("Tier "+aTier+aComp+" has less than 500 recipes, generating "+(500 - aTemp.size())+".");
for (int i=aTemp.size();i<500;i++) {
aTemp.put(generateBaseRecipe(aCompost, aTier));
}
}
int aIndex = MathUtils.randInt(0, aTemp.isEmpty() ? 1 : aTemp.size());
Logger.INFO("Using recipe with index of "+aIndex+". "+aComp);
return aTemp.get(aIndex);
}
private static GT_Recipe generateBaseRecipe(boolean aUsingCompost, int aTier) {
// Type Safety
if (aTier < 0) {
return null;
}
WeightedCollection<Float> aOutputTimeMulti = new WeightedCollection<Float>();
for (int i=100;i> 0;i--) {
float aValue = 0;
if (i < 10) {
aValue = 3f;
}
else if (i < 20) {
aValue = 2f;
}
else {
aValue = 1f;
}
aOutputTimeMulti.put(i, aValue);
}
final int[] aDurations = new int[] {
432000,
378000,
216000,
162000,
108000,
81000,
54000,
40500,
27000,
20250,
13500,
6750,
3375,
1686,
843,
421
};
ItemStack[] aInputs = new ItemStack[] {};
if (aUsingCompost) {
// Make it use 4 compost per tier if we have some available
ItemStack aCompost = ItemUtils.getSimpleStack(AgriculturalChem.mCompost, aTier * 4);
aInputs = new ItemStack[] {aCompost};
// Boost Tier by one if using compost so it gets a speed boost
aTier++;
}
// We set these elsewhere
ItemStack[] aOutputs = getOutputsForTier(aTier);
GT_Recipe tRecipe = new Recipe_GT(
false,
aInputs,
aOutputs,
(Object) null,
new int[] {},
new FluidStack[] {GT_Values.NF},
new FluidStack[] {GT_Values.NF},
(int) (aDurations[aTier] * aOutputTimeMulti.get() / 2), // Time
0,
0);
tRecipe.mSpecialValue = tRecipe.hashCode();
return tRecipe;
}
private static ItemStack[] getOutputsForTier(int aTier) {
// Create an Automap to dump contents into
AutoMap<ItemStack> aOutputMap = new AutoMap<ItemStack>();
// Buff output by yielding 6-8 times more.
for (int i=0;i<MathUtils.randInt(4, 8);i++) {
// Add loot relevant to tier and also add any from lower tiers.
if (aTier >= 0) {
aOutputMap.put(ItemUtils.getSimpleStack(AgriculturalChem.mAlgaeBiosmass, MathUtils.randInt(16, 32)));
aOutputMap.put(ItemUtils.getSimpleStack(AgriculturalChem.mAlgaeBiosmass, MathUtils.randInt(32, 64)));
if (MathUtils.randInt(0, 10) > 9) {
aOutputMap.put(ItemUtils.getSimpleStack(AgriculturalChem.mGreenAlgaeBiosmass, MathUtils.randInt(8, 16)));
}
}
if (aTier >= 1) {
aOutputMap.put(ItemUtils.getSimpleStack(AgriculturalChem.mAlgaeBiosmass, MathUtils.randInt(16, 32)));
aOutputMap.put(ItemUtils.getSimpleStack(AgriculturalChem.mGreenAlgaeBiosmass, MathUtils.randInt(16, 32)));
if (MathUtils.randInt(0, 10) > 9) {
aOutputMap.put(ItemUtils.getSimpleStack(AgriculturalChem.mGreenAlgaeBiosmass, MathUtils.randInt(4, 8)));
}
}
if (aTier >= 2) {
aOutputMap.put(ItemUtils.getSimpleStack(AgriculturalChem.mGreenAlgaeBiosmass, MathUtils.randInt(8, 16)));
aOutputMap.put(ItemUtils.getSimpleStack(AgriculturalChem.mGreenAlgaeBiosmass, MathUtils.randInt(16, 32)));
if (MathUtils.randInt(0, 10) > 9) {
aOutputMap.put(ItemUtils.getSimpleStack(AgriculturalChem.mGreenAlgaeBiosmass, MathUtils.randInt(4, 8)));
}
}
if (aTier >= 3) {
aOutputMap.put(ItemUtils.getSimpleStack(AgriculturalChem.mGreenAlgaeBiosmass, MathUtils.randInt(16, 32)));
aOutputMap.put(ItemUtils.getSimpleStack(AgriculturalChem.mBrownAlgaeBiosmass, MathUtils.randInt(2, 8)));
if (MathUtils.randInt(0, 10) > 9) {
aOutputMap.put(ItemUtils.getSimpleStack(AgriculturalChem.mBrownAlgaeBiosmass, MathUtils.randInt(8, 16)));
}
}
if (aTier >= 4) {
aOutputMap.put(ItemUtils.getSimpleStack(AgriculturalChem.mBrownAlgaeBiosmass, MathUtils.randInt(16, 32)));
aOutputMap.put(ItemUtils.getSimpleStack(AgriculturalChem.mBrownAlgaeBiosmass, MathUtils.randInt(32, 64)));
if (MathUtils.randInt(0, 10) > 9) {
aOutputMap.put(ItemUtils.getSimpleStack(AgriculturalChem.mGoldenBrownAlgaeBiosmass, MathUtils.randInt(4, 8)));
}
}
if (aTier >= 5) {
aOutputMap.put(ItemUtils.getSimpleStack(AgriculturalChem.mBrownAlgaeBiosmass, MathUtils.randInt(16, 32)));
aOutputMap.put(ItemUtils.getSimpleStack(AgriculturalChem.mGoldenBrownAlgaeBiosmass, MathUtils.randInt(16, 32)));
if (MathUtils.randInt(0, 10) > 9) {
aOutputMap.put(ItemUtils.getSimpleStack(AgriculturalChem.mRedAlgaeBiosmass, MathUtils.randInt(1, 2)));
}
}
// Tier 6 is Highest for outputs
if (aTier >= 6) {
aOutputMap.put(ItemUtils.getSimpleStack(AgriculturalChem.mGoldenBrownAlgaeBiosmass, MathUtils.randInt(16, 32)));
aOutputMap.put(ItemUtils.getSimpleStack(AgriculturalChem.mRedAlgaeBiosmass, MathUtils.randInt(8, 16)));
if (MathUtils.randInt(0, 10) > 9) {
aOutputMap.put(ItemUtils.getSimpleStack(AgriculturalChem.mRedAlgaeBiosmass, MathUtils.randInt(8, 16)));
}
}
// Iterate a special loop at higher tiers to provide more Red/Gold Algae.
for (int i2=0;i2<(9-aTier);i2++) {
if (aTier >= (6+i2)) {
int aMulti = i2 + 1;
aOutputMap.put(ItemUtils.getSimpleStack(AgriculturalChem.mGoldenBrownAlgaeBiosmass, MathUtils.randInt(4, 8*aMulti)));
aOutputMap.put(ItemUtils.getSimpleStack(AgriculturalChem.mRedAlgaeBiosmass, MathUtils.randInt(4, 8*aMulti)));
if (MathUtils.randInt(0, 10) > 8) {
aOutputMap.put(ItemUtils.getSimpleStack(AgriculturalChem.mRedAlgaeBiosmass, MathUtils.randInt(8, 16*aMulti)));
}
}
}
}
// Map the AutoMap contents to an Itemstack Array.
ItemStack[] aOutputs = new ItemStack[aOutputMap.size()];
for (int i=0;i<aOutputMap.size();i++) {
aOutputs[i] = aOutputMap.get(i);
}
// Return filled ItemStack Array.
return aOutputs;
}
}
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