package net.minecraft.realms;
import cpw.mods.fml.relauncher.Side;
import cpw.mods.fml.relauncher.SideOnly;
import java.util.Random;
import net.minecraft.util.MathHelper;
@SideOnly(Side.CLIENT)
public class RealmsMth
{
private static final String __OBFID = "CL_00001900";
public static float sin(float p_sin_0_)
{
return MathHelper.sin(p_sin_0_);
}
public static double nextDouble(Random p_nextDouble_0_, double p_nextDouble_1_, double p_nextDouble_3_)
{
return MathHelper.getRandomDoubleInRange(p_nextDouble_0_, p_nextDouble_1_, p_nextDouble_3_);
}
public static int ceil(float p_ceil_0_)
{
return MathHelper.ceiling_float_int(p_ceil_0_);
}
public static int floor(double p_floor_0_)
{
return MathHelper.floor_double(p_floor_0_);
}
public static int intFloorDiv(int p_intFloorDiv_0_, int p_intFloorDiv_1_)
{
return MathHelper.bucketInt(p_intFloorDiv_0_, p_intFloorDiv_1_);
}
public static float abs(float p_abs_0_)
{
return MathHelper.abs(p_abs_0_);
}
public static int clamp(int p_clamp_0_, int p_clamp_1_, int p_clamp_2_)
{
return MathHelper.clamp_int(p_clamp_0_, p_clamp_1_, p_clamp_2_);
}
public static double clampedLerp(double p_clampedLerp_0_, double p_clampedLerp_2_, double p_clampedLerp_4_)
{
return MathHelper.denormalizeClamp(p_clampedLerp_0_, p_clampedLerp_2_, p_clampedLerp_4_);
}
public static int ceil(double p_ceil_0_)
{
return MathHelper.ceiling_double_int(p_ceil_0_);
}
public static boolean isEmpty(String p_isEmpty_0_)
{
return MathHelper.stringNullOrLengthZero(p_isEmpty_0_);
}
public static long lfloor(double p_lfloor_0_)
{
return MathHelper.floor_double_long(p_lfloor_0_);
}
public static float sqrt(double p_sqrt_0_)
{
return MathHelper.sqrt_double(p_sqrt_0_);
}
public static double clamp(double p_clamp_0_, double p_clamp_2_, double p_clamp_4_)
{
return MathHelper.clamp_double(p_clamp_0_, p_clamp_2_, p_clamp_4_);
}
public static int getInt(String p_getInt_0_, int p_getInt_1_)
{
return MathHelper.parseIntWithDefault(p_getInt_0_, p_getInt_1_);
}
public static double getDouble(String p_getDouble_0_, double p_getDouble_1_)
{
return MathHelper.parseDoubleWithDefault(p_getDouble_0_, p_getDouble_1_);
}
public static int log2(int p_log2_0_)
{
return MathHelper.calculateLogBaseTwo(p_log2_0_);
}
public static int absFloor(double p_absFloor_0_)
{
return MathHelper.func_154353_e(p_absFloor_0_);
}
public static int smallestEncompassingPowerOfTwo(int p_smallestEncompassingPowerOfTwo_0_)
{
return MathHelper.roundUpToPowerOfTwo(p_smallestEncompassingPowerOfTwo_0_);
}
public static float sqrt(float p_sqrt_0_)
{
return MathHelper.sqrt_float(p_sqrt_0_);
}
public static float cos(float p_cos_0_)
{
return MathHelper.cos(p_cos_0_);
}
public static int getInt(String p_getInt_0_, int p_getInt_1_, int p_getInt_2_)
{
return MathHelper.parseIntWithDefaultAndMax(p_getInt_0_, p_getInt_1_, p_getInt_2_);
}
public static int fastFloor(double p_fastFloor_0_)
{
return MathHelper.truncateDoubleToInt(p_fastFloor_0_);
}
public static double asbMax(double p_asbMax_0_, double p_asbMax_2_)
{
return MathHelper.abs_max(p_asbMax_0_, p_asbMax_2_);
}
public static float nextFloat(Random p_nextFloat_0_, float p_nextFloat_1_, float p_nextFloat_2_)
{
return MathHelper.randomFloatClamp(p_nextFloat_0_, p_nextFloat_1_, p_nextFloat_2_);
}
public static double wrapDegrees(double p_wrapDegrees_0_)
{
return MathHelper.wrapAngleTo180_double(p_wrapDegrees_0_);
}
public static float wrapDegrees(float p_wrapDegrees_0_)
{
return MathHelper.wrapAngleTo180_float(p_wrapDegrees_0_);
}
public static float clamp(float p_clamp_0_, float p_clamp_1_, float p_clamp_2_)
{
return MathHelper.clamp_float(p_clamp_0_, p_clamp_1_, p_clamp_2_);
}
public static double getDouble(String p_getDouble_0_, double p_getDouble_1_, double p_getDouble_3_)
{
return MathHelper.parseDoubleWithDefaultAndMax(p_getDouble_0_, p_getDouble_1_, p_getDouble_3_);
}
public static int roundUp(int p_roundUp_0_, int p_roundUp_1_)
{
return MathHelper.func_154354_b(p_roundUp_0_, p_roundUp_1_);
}
public static double average(long[] p_average_0_)
{
return MathHelper.average(p_average_0_);
}
public static int floor(float p_floor_0_)
{
return MathHelper.floor_float(p_floor_0_);
}
public static int abs(int p_abs_0_)
{
return MathHelper.abs_int(p_abs_0_);
}
public static int nextInt(Random p_nextInt_0_, int p_nextInt_1_, int p_nextInt_2_)
{
return MathHelper.getRandomIntegerInRange(p_nextInt_0_, p_nextInt_1_, p_nextInt_2_);
}
}