public void postRenderArm(float p_187073_1_, EnumHandSide p_187073_2_)
{
ModelRenderer modelrenderer = this.getArmForSide(p_187073_2_);
boolean flag = modelrenderer.showModel;
modelrenderer.showModel = true;
super.postRenderArm(p_187073_1_, p_187073_2_);
modelrenderer.showModel = flag;
}
public void postRenderArm(float p_187073_1_, EnumHandSide p_187073_2_)
{
float f = p_187073_2_ == EnumHandSide.RIGHT ? 1.0F : -1.0F;
ModelRenderer modelrenderer = this.getArmForSide(p_187073_2_);
modelrenderer.rotationPointX += f;
modelrenderer.postRender(p_187073_1_);
modelrenderer.rotationPointX -= f;
}
public void postRenderArm(float p_187073_1_, EnumHandSide p_187073_2_)
{
ModelRenderer modelrenderer = this.getArmForSide(p_187073_2_);
if (this.smallArms)
{
float f = 0.5F * (float)(p_187073_2_ == EnumHandSide.RIGHT ? 1 : -1);
modelrenderer.rotationPointX += f;
modelrenderer.postRender(p_187073_1_);
modelrenderer.rotationPointX -= f;
}
else
{
modelrenderer.postRender(p_187073_1_);
}
}
protected ModelRenderer getArmForSide(EnumHandSide p_187074_1_)
{
return(p_187074_1_ == EnumHandSide.LEFT ? this.bipedLeftArm : this.bipedRightArm);
}
public void postRenderArm(float p_187073_1_, EnumHandSide p_187073_2_)
{
this.getArmForSide(p_187073_2_).postRender(p_187073_1_);
}
//@SuppressWarnings("incomplete-switch")
/**
* Sets the model's various rotation angles. For bipeds, par1 and par2 are used for animating the movement of arms
* and legs, where par1 represents the time(so that arms and legs swing back and forth) and par2 represents how
* "far" arms and legs can swing at most.
*/
public virtual void setRotationAngles(float limbSwing, float limbSwingAmount, float ageInTicks, float netHeadYaw, float headPitch, float scaleFactor, Entity entityIn)
{
boolean flag = entityIn is EntityLivingBase && ((EntityLivingBase)entityIn).func_184599_cB() > 4;
this.bipedHead.rotateAngleY = netHeadYaw * 0.017453292F;
if (flag)
{
this.bipedHead.rotateAngleX = -((float)Math.PI / 4F);
}
else
{
this.bipedHead.rotateAngleX = headPitch * 0.017453292F;
}
this.bipedBody.rotateAngleY = 0.0F;
this.bipedRightArm.rotationPointZ = 0.0F;
this.bipedRightArm.rotationPointX = -5.0F;
this.bipedLeftArm.rotationPointZ = 0.0F;
this.bipedLeftArm.rotationPointX = 5.0F;
float f = 1.0F;
if (flag)
{
f = (float)(entityIn.motionX * entityIn.motionX + entityIn.motionY * entityIn.motionY + entityIn.motionZ * entityIn.motionZ);
f = f / 0.2F;
f = f * f * f;
}
if (f < 1.0F)
{
f = 1.0F;
}
//this.bipedRightArm.rotateAngleX = MathHelper.cos(limbSwing * 0.6662F + (float)Math.PI) * 2.0F * limbSwingAmount * 0.5F / f;
//this.bipedLeftArm.rotateAngleX = MathHelper.cos(limbSwing * 0.6662F) * 2.0F * limbSwingAmount * 0.5F / f;
this.bipedRightArm.rotateAngleZ = 0.0F;
this.bipedLeftArm.rotateAngleZ = 0.0F;
this.bipedRightLeg.rotateAngleX = MathHelper.cos(limbSwing * 0.6662F) * 1.4F * limbSwingAmount / f;
this.bipedLeftLeg.rotateAngleX = MathHelper.cos(limbSwing * 0.6662F + (float)Math.PI) * 1.4F * limbSwingAmount / f;
this.bipedRightLeg.rotateAngleY = 0.0F;
this.bipedLeftLeg.rotateAngleY = 0.0F;
this.bipedRightLeg.rotateAngleZ = 0.0F;
this.bipedLeftLeg.rotateAngleZ = 0.0F;
if (this.isRiding)
{
this.bipedRightArm.rotateAngleX += -((float)Math.PI / 5F);
this.bipedLeftArm.rotateAngleX += -((float)Math.PI / 5F);
this.bipedRightLeg.rotateAngleX = -1.4137167F;
this.bipedRightLeg.rotateAngleY = ((float)Math.PI / 10F);
this.bipedRightLeg.rotateAngleZ = 0.07853982F;
this.bipedLeftLeg.rotateAngleX = -1.4137167F;
this.bipedLeftLeg.rotateAngleY = -((float)Math.PI / 10F);
this.bipedLeftLeg.rotateAngleZ = -0.07853982F;
}
this.bipedRightArm.rotateAngleY = 0.0F;
this.bipedRightArm.rotateAngleZ = 0.0F;
switch (this.leftArmPose)
{
case ArmPose.EMPTY:
this.bipedLeftArm.rotateAngleY = 0.0F;
break;
case ArmPose.BLOCK:
this.bipedLeftArm.rotateAngleX = this.bipedLeftArm.rotateAngleX * 0.5F - 0.9424779F;
this.bipedLeftArm.rotateAngleY = 0.5235988F;
break;
case ArmPose.ITEM:
this.bipedLeftArm.rotateAngleX = this.bipedLeftArm.rotateAngleX * 0.5F - ((float)Math.PI / 10F);
this.bipedLeftArm.rotateAngleY = 0.0F;
break;
}
switch (this.rightArmPose)
{
case ArmPose.EMPTY:
this.bipedRightArm.rotateAngleY = 0.0F;
break;
case ArmPose.BLOCK:
this.bipedRightArm.rotateAngleX = this.bipedRightArm.rotateAngleX * 0.5F - 0.9424779F;
this.bipedRightArm.rotateAngleY = -0.5235988F;
break;
case ArmPose.ITEM:
this.bipedRightArm.rotateAngleX = this.bipedRightArm.rotateAngleX * 0.5F - ((float)Math.PI / 10F);
this.bipedRightArm.rotateAngleY = 0.0F;
break;
}
if (this.swingProgress > 0.0F)
{
EnumHandSide enumhandside = this.getMainHand(entityIn);
ModelRenderer modelrenderer = this.getArmForSide(enumhandside);
this.getArmForSide(enumhandside.opposite());
float f1 = this.swingProgress;
this.bipedBody.rotateAngleY = MathHelper.sin(MathHelper.sqrt_float(f1) * ((float)Math.PI * 2F)) * 0.2F;
if (enumhandside == EnumHandSide.LEFT)
{
this.bipedBody.rotateAngleY *= -1.0F;
}
this.bipedRightArm.rotationPointZ = MathHelper.sin(this.bipedBody.rotateAngleY) * 5.0F;
this.bipedRightArm.rotationPointX = -MathHelper.cos(this.bipedBody.rotateAngleY) * 5.0F;
this.bipedLeftArm.rotationPointZ = -MathHelper.sin(this.bipedBody.rotateAngleY) * 5.0F;
this.bipedLeftArm.rotationPointX = MathHelper.cos(this.bipedBody.rotateAngleY) * 5.0F;
this.bipedRightArm.rotateAngleY += this.bipedBody.rotateAngleY;
this.bipedLeftArm.rotateAngleY += this.bipedBody.rotateAngleY;
this.bipedLeftArm.rotateAngleX += this.bipedBody.rotateAngleY;
f1 = 1.0F - this.swingProgress;
f1 = f1 * f1;
f1 = f1 * f1;
f1 = 1.0F - f1;
float f2 = MathHelper.sin(f1 * (float)Math.PI);
float f3 = MathHelper.sin(this.swingProgress * (float)Math.PI) * -(this.bipedHead.rotateAngleX - 0.7F) * 0.75F;
modelrenderer.rotateAngleX = (float)((double)modelrenderer.rotateAngleX - ((double)f2 * 1.2D + (double)f3));
modelrenderer.rotateAngleY += this.bipedBody.rotateAngleY * 2.0F;
modelrenderer.rotateAngleZ += MathHelper.sin(this.swingProgress * (float)Math.PI) * -0.4F;
}
if (this.isSneak)
{
this.bipedBody.rotateAngleX = 0.5F;
this.bipedRightArm.rotateAngleX += 0.4F;
this.bipedLeftArm.rotateAngleX += 0.4F;
this.bipedRightLeg.rotationPointZ = 4.0F;
this.bipedLeftLeg.rotationPointZ = 4.0F;
this.bipedRightLeg.rotationPointY = 9.0F;
this.bipedLeftLeg.rotationPointY = 9.0F;
this.bipedHead.rotationPointY = 1.0F;
}
else
{
this.bipedBody.rotateAngleX = 0.0F;
this.bipedRightLeg.rotationPointZ = 0.1F;
this.bipedLeftLeg.rotationPointZ = 0.1F;
this.bipedRightLeg.rotationPointY = 12.0F;
this.bipedLeftLeg.rotationPointY = 12.0F;
this.bipedHead.rotationPointY = 0.0F;
}
//this.bipedRightArm.rotateAngleZ += MathHelper.cos(ageInTicks * 0.09F) * 0.05F + 0.05F;
//this.bipedLeftArm.rotateAngleZ -= MathHelper.cos(ageInTicks * 0.09F) * 0.05F + 0.05F;
//this.bipedRightArm.rotateAngleX += MathHelper.sin(ageInTicks * 0.067F) * 0.05F;
//this.bipedLeftArm.rotateAngleX -= MathHelper.sin(ageInTicks * 0.067F) * 0.05F;
if (this.rightArmPose == ModelBiped.ArmPose.BOW_AND_ARROW)
{
this.bipedRightArm.rotateAngleY = -0.1F + this.bipedHead.rotateAngleY;
this.bipedLeftArm.rotateAngleY = 0.1F + this.bipedHead.rotateAngleY + 0.4F;
this.bipedRightArm.rotateAngleX = -((float)Math.PI / 2F) + this.bipedHead.rotateAngleX;
this.bipedLeftArm.rotateAngleX = -((float)Math.PI / 2F) + this.bipedHead.rotateAngleX;
}
else if (this.leftArmPose == ModelBiped.ArmPose.BOW_AND_ARROW)
{
this.bipedRightArm.rotateAngleY = -0.1F + this.bipedHead.rotateAngleY - 0.4F;
this.bipedLeftArm.rotateAngleY = 0.1F + this.bipedHead.rotateAngleY;
this.bipedRightArm.rotateAngleX = -((float)Math.PI / 2F) + this.bipedHead.rotateAngleX;
this.bipedLeftArm.rotateAngleX = -((float)Math.PI / 2F) + this.bipedHead.rotateAngleX;
}
copyModelAngles(this.bipedHead, this.bipedHeadwear);
}