/*******************************************************************************
* AbyssalCraft
* Copyright (c) 2012 - 2017 Shinoow.
* All rights reserved. This program and the accompanying materials
* are made available under the terms of the GNU Lesser Public License v3
* which accompanies this distribution, and is available at
* http://www.gnu.org/licenses/lgpl-3.0.txt
*
* Contributors:
* Shinoow - implementation
******************************************************************************/
package com.shinoow.abyssalcraft.client.model.entity;
import net.minecraft.client.model.ModelBase;
import net.minecraft.client.model.ModelRenderer;
import net.minecraft.client.renderer.GlStateManager;
import net.minecraft.client.renderer.GlStateManager.CullFace;
import net.minecraft.entity.Entity;
import net.minecraft.entity.EntityLivingBase;
import net.minecraftforge.fml.relauncher.Side;
import net.minecraftforge.fml.relauncher.SideOnly;
import com.shinoow.abyssalcraft.common.entity.EntityDragonMinion;
@SideOnly(Side.CLIENT)
public class ModelDragonMinion extends ModelBase {
private ModelRenderer head;
private ModelRenderer neck;
private ModelRenderer jaw;
private ModelRenderer body;
private ModelRenderer rearLeg;
private ModelRenderer frontLeg;
private ModelRenderer rearLegTip;
private ModelRenderer frontLegTip;
private ModelRenderer rearFoot;
private ModelRenderer frontFoot;
private ModelRenderer wing;
private ModelRenderer wingTip;
private float partialTicks;
public ModelDragonMinion(float par1)
{
textureWidth = 256;
textureHeight = 256;
setTextureOffset("body.body", 0, 0);
setTextureOffset("wing.skin", -56, 88);
setTextureOffset("wingtip.skin", -56, 144);
setTextureOffset("rearleg.main", 0, 0);
setTextureOffset("rearfoot.main", 112, 0);
setTextureOffset("rearlegtip.main", 196, 0);
setTextureOffset("head.upperhead", 112, 30);
setTextureOffset("wing.bone", 112, 88);
setTextureOffset("head.upperlip", 176, 44);
setTextureOffset("jaw.jaw", 176, 65);
setTextureOffset("frontleg.main", 112, 104);
setTextureOffset("wingtip.bone", 112, 136);
setTextureOffset("frontfoot.main", 144, 104);
setTextureOffset("neck.box", 192, 104);
setTextureOffset("frontlegtip.main", 226, 138);
setTextureOffset("body.scale", 220, 53);
setTextureOffset("head.scale", 0, 0);
setTextureOffset("neck.scale", 48, 0);
setTextureOffset("head.nostril", 112, 0);
float f1 = -16.0F;
head = new ModelRenderer(this, "head");
head.addBox("upperlip", -6.0F, -1.0F, -8.0F + f1, 12, 5, 16);
head.addBox("upperhead", -8.0F, -8.0F, 6.0F + f1, 16, 16, 16);
head.mirror = true;
head.addBox("scale", -5.0F, -12.0F, 12.0F + f1, 2, 4, 6);
head.addBox("nostril", -5.0F, -3.0F, -6.0F + f1, 2, 2, 4);
head.mirror = false;
head.addBox("scale", 3.0F, -12.0F, 12.0F + f1, 2, 4, 6);
head.addBox("nostril", 3.0F, -3.0F, -6.0F + f1, 2, 2, 4);
jaw = new ModelRenderer(this, "jaw");
jaw.setRotationPoint(0.0F, 4.0F, 8.0F + f1);
jaw.addBox("jaw", -6.0F, 0.0F, -16.0F, 12, 4, 16);
head.addChild(jaw);
neck = new ModelRenderer(this, "neck");
neck.addBox("box", -5.0F, -5.0F, -5.0F, 10, 10, 10);
neck.addBox("scale", -1.0F, -9.0F, -3.0F, 2, 4, 6);
body = new ModelRenderer(this, "body");
body.setRotationPoint(0.0F, 4.0F, 8.0F);
body.addBox("body", -12.0F, 0.0F, -16.0F, 24, 24, 64);
body.addBox("scale", -1.0F, -6.0F, -10.0F, 2, 6, 12);
body.addBox("scale", -1.0F, -6.0F, 10.0F, 2, 6, 12);
body.addBox("scale", -1.0F, -6.0F, 30.0F, 2, 6, 12);
wing = new ModelRenderer(this, "wing");
wing.setRotationPoint(-12.0F, 5.0F, 2.0F);
wing.addBox("bone", -56.0F, -4.0F, -4.0F, 56, 8, 8);
wing.addBox("skin", -56.0F, 0.0F, 2.0F, 56, 0, 56);
wingTip = new ModelRenderer(this, "wingtip");
wingTip.setRotationPoint(-56.0F, 0.0F, 0.0F);
wingTip.addBox("bone", -56.0F, -2.0F, -2.0F, 56, 4, 4);
wingTip.addBox("skin", -56.0F, 0.0F, 2.0F, 56, 0, 56);
wing.addChild(wingTip);
frontLeg = new ModelRenderer(this, "frontleg");
frontLeg.setRotationPoint(-12.0F, 20.0F, 2.0F);
frontLeg.addBox("main", -4.0F, -4.0F, -4.0F, 8, 24, 8);
frontLegTip = new ModelRenderer(this, "frontlegtip");
frontLegTip.setRotationPoint(0.0F, 20.0F, -1.0F);
frontLegTip.addBox("main", -3.0F, -1.0F, -3.0F, 6, 24, 6);
frontLeg.addChild(frontLegTip);
frontFoot = new ModelRenderer(this, "frontfoot");
frontFoot.setRotationPoint(0.0F, 23.0F, 0.0F);
frontFoot.addBox("main", -4.0F, 0.0F, -12.0F, 8, 4, 16);
frontLegTip.addChild(frontFoot);
rearLeg = new ModelRenderer(this, "rearleg");
rearLeg.setRotationPoint(-16.0F, 16.0F, 42.0F);
rearLeg.addBox("main", -8.0F, -4.0F, -8.0F, 16, 32, 16);
rearLegTip = new ModelRenderer(this, "rearlegtip");
rearLegTip.setRotationPoint(0.0F, 32.0F, -4.0F);
rearLegTip.addBox("main", -6.0F, -2.0F, 0.0F, 12, 32, 12);
rearLeg.addChild(rearLegTip);
rearFoot = new ModelRenderer(this, "rearfoot");
rearFoot.setRotationPoint(0.0F, 31.0F, 4.0F);
rearFoot.addBox("main", -9.0F, 0.0F, -20.0F, 18, 6, 24);
rearLegTip.addChild(rearFoot);
}
@Override
public void setLivingAnimations(EntityLivingBase par1EntityLivingBase, float par2, float par3, float par4)
{
partialTicks = par4;
}
@Override
public void render(Entity par1Entity, float par2, float par3, float par4, float par5, float par6, float par7)
{
GlStateManager.pushMatrix();
EntityDragonMinion entitydragon = (EntityDragonMinion)par1Entity;
float f6 = entitydragon.prevAnimTime + (entitydragon.animTime - entitydragon.prevAnimTime) * partialTicks;
jaw.rotateAngleX = (float)(Math.sin(f6 * (float)Math.PI * 2.0F) + 1.0D) * 0.2F;
float f7 = (float)(Math.sin(f6 * (float)Math.PI * 2.0F - 1.0F) + 1.0D);
f7 = (f7 * f7 * 1.0F + f7 * 2.0F) * 0.05F;
GlStateManager.translate(0.0F, f7 - 2.0F, -3.0F);
GlStateManager.rotate(f7 * 2.0F, 1.0F, 0.0F, 0.0F);
float f8 = -30.0F;
float f9 = 0.0F;
float f10 = 1.5F;
double[] adouble = entitydragon.getMovementOffsets(6, partialTicks);
float f11 = updateRotations(entitydragon.getMovementOffsets(5, partialTicks)[0] - entitydragon.getMovementOffsets(10, partialTicks)[0]);
float f12 = updateRotations(entitydragon.getMovementOffsets(5, partialTicks)[0] + f11 / 2.0F);
f8 += 2.0F;
float f13 = f6 * (float)Math.PI * 2.0F;
f8 = 20.0F;
float f14 = -12.0F;
float f15;
for (int i = 0; i < 5; ++i)
{
double[] adouble1 = entitydragon.getMovementOffsets(5 - i, partialTicks);
f15 = (float)Math.cos(i * 0.45F + f13) * 0.15F;
neck.rotateAngleY = updateRotations(adouble1[0] - adouble[0]) * (float)Math.PI / 180.0F * f10;
neck.rotateAngleX = f15 + (float)(adouble1[1] - adouble[1]) * (float)Math.PI / 180.0F * f10 * 5.0F;
neck.rotateAngleZ = -updateRotations(adouble1[0] - f12) * (float)Math.PI / 180.0F * f10;
neck.rotationPointY = f8;
neck.rotationPointZ = f14;
neck.rotationPointX = f9;
f8 = (float)(f8 + Math.sin(neck.rotateAngleX) * 10.0D);
f14 = (float)(f14 - Math.cos(neck.rotateAngleY) * Math.cos(neck.rotateAngleX) * 10.0D);
f9 = (float)(f9 - Math.sin(neck.rotateAngleY) * Math.cos(neck.rotateAngleX) * 10.0D);
neck.render(par7);
}
head.rotationPointY = f8;
head.rotationPointZ = f14;
head.rotationPointX = f9;
double[] adouble2 = entitydragon.getMovementOffsets(0, partialTicks);
head.rotateAngleY = updateRotations(adouble2[0] - adouble[0]) * (float)Math.PI / 180.0F * 1.0F;
head.rotateAngleZ = -updateRotations(adouble2[0] - f12) * (float)Math.PI / 180.0F * 1.0F;
head.render(par7);
GlStateManager.pushMatrix();
GlStateManager.translate(0.0F, 1.0F, 0.0F);
GlStateManager.rotate(-f11 * f10 * 1.0F, 0.0F, 0.0F, 1.0F);
GlStateManager.translate(0.0F, -1.0F, 0.0F);
body.rotateAngleZ = 0.0F;
body.render(par7);
for (int j = 0; j < 2; ++j)
{
GlStateManager.enableCull();
f15 = f6 * (float)Math.PI * 2.0F;
wing.rotateAngleX = 0.125F - (float)Math.cos(f15) * 0.2F;
wing.rotateAngleY = 0.25F;
wing.rotateAngleZ = (float)(Math.sin(f15) + 0.125D) * 0.8F;
wingTip.rotateAngleZ = -((float)(Math.sin(f15 + 2.0F) + 0.5D)) * 0.75F;
rearLeg.rotateAngleX = 1.0F + f7 * 0.1F;
rearLegTip.rotateAngleX = 0.5F + f7 * 0.1F;
rearFoot.rotateAngleX = 0.75F + f7 * 0.1F;
frontLeg.rotateAngleX = 1.3F + f7 * 0.1F;
frontLegTip.rotateAngleX = -0.5F - f7 * 0.1F;
frontFoot.rotateAngleX = 0.75F + f7 * 0.1F;
wing.render(par7);
frontLeg.render(par7);
rearLeg.render(par7);
GlStateManager.scale(-1.0F, 1.0F, 1.0F);
if (j == 0)
GlStateManager.cullFace(CullFace.FRONT);
}
GlStateManager.popMatrix();
GlStateManager.cullFace(CullFace.BACK);
GlStateManager.disableCull();
float f16 = -((float)Math.sin(f6 * (float)Math.PI * 2.0F)) * 0.0F;
f13 = f6 * (float)Math.PI * 2.0F;
f8 = 10.0F;
f14 = 60.0F;
f9 = 0.0F;
adouble = entitydragon.getMovementOffsets(11, partialTicks);
for (int k = 0; k < 12; ++k)
{
adouble2 = entitydragon.getMovementOffsets(12 + k, partialTicks);
f16 = (float)(f16 + Math.sin(k * 0.45F + f13) * 0.05000000074505806D);
neck.rotateAngleY = (updateRotations(adouble2[0] - adouble[0]) * f10 + 180.0F) * (float)Math.PI / 180.0F;
neck.rotateAngleX = f16 + (float)(adouble2[1] - adouble[1]) * (float)Math.PI / 180.0F * f10 * 5.0F;
neck.rotateAngleZ = updateRotations(adouble2[0] - f12) * (float)Math.PI / 180.0F * f10;
neck.rotationPointY = f8;
neck.rotationPointZ = f14;
neck.rotationPointX = f9;
f8 = (float)(f8 + Math.sin(neck.rotateAngleX) * 10.0D);
f14 = (float)(f14 - Math.cos(neck.rotateAngleY) * Math.cos(neck.rotateAngleX) * 10.0D);
f9 = (float)(f9 - Math.sin(neck.rotateAngleY) * Math.cos(neck.rotateAngleX) * 10.0D);
neck.render(par7);
}
GlStateManager.popMatrix();
}
/**
* Updates the rotations in the parameters for rotations greater than 180 degrees or less than -180 degrees. It adds
* or subtracts 360 degrees, so that the appearance is the same, although the numbers are then simplified to range
* -180 to 180
*/
private float updateRotations(double par1)
{
while (par1 >= 180.0D)
par1 -= 360.0D;
while (par1 < -180.0D)
par1 += 360.0D;
return (float)par1;
}
}