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/*
 * The MIT License
 *
 * Copyright (c) 2015-2020 Richard Greenlees
 *
 * Permission is hereby granted, free of charge, to any person obtaining a copy
 * of this software and associated documentation files (the "Software"), to deal
 * in the Software without restriction, including without limitation the rights
 * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
 * copies of the Software, and to permit persons to whom the Software is
 * furnished to do so, subject to the following conditions:
 *
 * The above copyright notice and this permission notice shall be included in
 * all copies or substantial portions of the Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
 * THE SOFTWARE.
 */
package org.joml;

import java.io.Externalizable;
import java.io.IOException;
import java.io.ObjectInput;
import java.io.ObjectOutput;
import java.nio.ByteBuffer;
import java.nio.IntBuffer;
import java.text.DecimalFormat;
import java.text.NumberFormat;

/**
 * Contains the definition of a Vector comprising 3 ints and associated
 * transformations.
 *
 * @author Richard Greenlees
 * @author Kai Burjack
 * @author Hans Uhlig
 */
public class Vector3i implements Externalizable, Vector3ic {

    private static final long serialVersionUID = 1L;

    /**
     * The x component of the vector.
     */
    public int x;
    /**
     * The y component of the vector.
     */
    public int y;
    /**
     * The z component of the vector.
     */
    public int z;

    /**
     * Create a new {@link Vector3i} of (0, 0, 0).
     */
    public Vector3i() {
    }

    /**
     * Create a new {@link Vector3i} and initialize all three components with
     * the given value.
     *
     * @param d
     *          the value of all three components
     */
    public Vector3i(int d) {
        this.x = d;
        this.y = d;
        this.z = d;
    }

    /**
     * Create a new {@link Vector3i} with the given component values.
     *
     * @param x
     *          the value of x
     * @param y
     *          the value of y
     * @param z
     *          the value of z
     */
    public Vector3i(int x, int y, int z) {
        this.x = x;
        this.y = y;
        this.z = z;
    }

    /**
     * Create a new {@link Vector3i} with the same values as v.
     *
     * @param v
     *          the {@link Vector3ic} to copy the values from
     */
    public Vector3i(Vector3ic v) {
        this.x = v.x();
        this.y = v.y();
        this.z = v.z();
    }

    /**
     * Create a new {@link Vector3i} with the first two components from the
     * given v and the given z
     *
     * @param v
     *          the {@link Vector2ic} to copy the values from
     * @param z
     *          the z component
     */
    public Vector3i(Vector2ic v, int z) {
        this.x = v.x();
        this.y = v.y();
        this.z = z;
    }

    /**
     * Create a new {@link Vector3i} with the first two components from the
     * given v and the given z and round using the given {@link RoundingMode}.
     *
     * @param v
     *          the {@link Vector2fc} to copy the values from
     * @param z
     *          the z component
     * @param mode
     *          the {@link RoundingMode} to use
     */
    public Vector3i(Vector2fc v, float z, int mode) {
        x = Math.roundUsing(v.x(), mode);
        y = Math.roundUsing(v.y(), mode);
        z = Math.roundUsing(z, mode);
    }

    /**
     * Create a new {@link Vector3i} and initialize its components to the rounded value of
     * the given vector.
     *
     * @param v
     *          the {@link Vector3fc} to round and copy the values from
     * @param mode
     *          the {@link RoundingMode} to use
     */
    public Vector3i(Vector3fc v, int mode) {
        x = Math.roundUsing(v.x(), mode);
        y = Math.roundUsing(v.y(), mode);
        z = Math.roundUsing(v.z(), mode);
    }

    /**
     * Create a new {@link Vector3i} with the first two components from the
     * given v and the given z and round using the given {@link RoundingMode}.
     *
     * @param v
     *          the {@link Vector2dc} to copy the values from
     * @param z
     *          the z component
     * @param mode
     *          the {@link RoundingMode} to use
     */
    public Vector3i(Vector2dc v, float z, int mode) {
        x = Math.roundUsing(v.x(), mode);
        y = Math.roundUsing(v.y(), mode);
        z = Math.roundUsing(z, mode);
    }

    /**
     * Create a new {@link Vector3i} and initialize its components to the rounded value of
     * the given vector.
     *
     * @param v
     *          the {@link Vector3dc} to round and copy the values from
     * @param mode
     *          the {@link RoundingMode} to use
     */
    public Vector3i(Vector3dc v, int mode) {
        x = Math.roundUsing(v.x(), mode);
        y = Math.roundUsing(v.y(), mode);
        z = Math.roundUsing(v.z(), mode);
    }

    /**
     * Create a new {@link Vector3i} and initialize its three components from the first
     * three elements of the given array.
     * 
     * @param xyz
     *          the array containing at least three elements
     */
    public Vector3i(int[] xyz) {
        this.x = xyz[0];
        this.y = xyz[1];
        this.z = xyz[2];
    }

    /**
     * Create a new {@link Vector3i} and read this vector from the supplied
     * {@link ByteBuffer} at the current buffer
     * {@link ByteBuffer#position() position}.
     * 

* This method will not increment the position of the given ByteBuffer. *

* In order to specify the offset into the ByteBuffer at which the vector is * read, use {@link #Vector3i(int, ByteBuffer)}, taking the absolute * position as parameter. * * @see #Vector3i(int, ByteBuffer) * * @param buffer * values will be read in x, y, z order */ public Vector3i(ByteBuffer buffer) { MemUtil.INSTANCE.get(this, buffer.position(), buffer); } /** * Create a new {@link Vector3i} and read this vector from the supplied * {@link ByteBuffer} starting at the specified absolute buffer * position/index. *

* This method will not increment the position of the given ByteBuffer. * * @param index * the absolute position into the ByteBuffer * @param buffer * values will be read in x, y, z order */ public Vector3i(int index, ByteBuffer buffer) { MemUtil.INSTANCE.get(this, index, buffer); } /** * Create a new {@link Vector3i} and read this vector from the supplied * {@link IntBuffer} at the current buffer * {@link IntBuffer#position() position}. *

* This method will not increment the position of the given IntBuffer. *

* In order to specify the offset into the IntBuffer at which the vector is * read, use {@link #Vector3i(int, IntBuffer)}, taking the absolute position * as parameter. * * @see #Vector3i(int, IntBuffer) * * @param buffer * values will be read in x, y, z order */ public Vector3i(IntBuffer buffer) { MemUtil.INSTANCE.get(this, buffer.position(), buffer); } /** * Create a new {@link Vector3i} and read this vector from the supplied * {@link IntBuffer} starting at the specified absolute buffer * position/index. *

* This method will not increment the position of the given IntBuffer. * * @param index * the absolute position into the IntBuffer * @param buffer * values will be read in x, y, z order */ public Vector3i(int index, IntBuffer buffer) { MemUtil.INSTANCE.get(this, index, buffer); } /* (non-Javadoc) * @see org.joml.Vector3ic#x() */ public int x() { return this.x; } /* (non-Javadoc) * @see org.joml.Vector3ic#y() */ public int y() { return this.y; } /* (non-Javadoc) * @see org.joml.Vector3ic#z() */ public int z() { return this.z; } /** * Set the x, y and z components to match the supplied vector. * * @param v * contains the values of x, y and z to set * @return this */ public Vector3i set(Vector3ic v) { x = v.x(); y = v.y(); z = v.z(); return this; } /** * Set this {@link Vector3i} to the values of v using {@link RoundingMode#TRUNCATE} rounding. *

* Note that due to the given vector v storing the components * in double-precision, there is the possibility to lose precision. * * @param v * the vector to copy from * @return this */ public Vector3i set(Vector3dc v) { this.x = (int) v.x(); this.y = (int) v.y(); this.z = (int) v.z(); return this; } /** * Set this {@link Vector3i} to the values of v using the given {@link RoundingMode}. *

* Note that due to the given vector v storing the components * in double-precision, there is the possibility to lose precision. * * @param v * the vector to copy from * @param mode * the {@link RoundingMode} to use * @return this */ public Vector3i set(Vector3dc v, int mode) { this.x = Math.roundUsing(v.x(), mode); this.y = Math.roundUsing(v.y(), mode); this.z = Math.roundUsing(v.z(), mode); return this; } /** * Set this {@link Vector3i} to the values of v using the given {@link RoundingMode}. *

* Note that due to the given vector v storing the components * in double-precision, there is the possibility to lose precision. * * @param v * the vector to copy from * @param mode * the {@link RoundingMode} to use * @return this */ public Vector3i set(Vector3fc v, int mode) { this.x = Math.roundUsing(v.x(), mode); this.y = Math.roundUsing(v.y(), mode); this.z = Math.roundUsing(v.z(), mode); return this; } /** * Set the first two components from the given v and the z * component from the given z * * @param v * the {@link Vector2ic} to copy the values from * @param z * the z component * @return this */ public Vector3i set(Vector2ic v, int z) { this.x = v.x(); this.y = v.y(); this.z = z; return this; } /** * Set the x, y, and z components to the supplied value. * * @param d * the value of all three components * @return this */ public Vector3i set(int d) { this.x = d; this.y = d; this.z = d; return this; } /** * Set the x, y and z components to the supplied values. * * @param x * the x component * @param y * the y component * @param z * the z component * @return this */ public Vector3i set(int x, int y, int z) { this.x = x; this.y = y; this.z = z; return this; } /** * Set the three components of this vector to the first three elements of the given array. * * @param xyz * the array containing at least three elements * @return this */ public Vector3i set(int[] xyz) { this.x = xyz[0]; this.y = xyz[1]; this.z = xyz[2]; return this; } /** * Read this vector from the supplied {@link ByteBuffer} at the current * buffer {@link ByteBuffer#position() position}. *

* This method will not increment the position of the given ByteBuffer. *

* In order to specify the offset into the ByteBuffer at which the vector is * read, use {@link #set(int, ByteBuffer)}, taking the absolute position as * parameter. * * @see #set(int, ByteBuffer) * * @param buffer * values will be read in x, y, z order * @return this */ public Vector3i set(ByteBuffer buffer) { MemUtil.INSTANCE.get(this, buffer.position(), buffer); return this; } /** * Read this vector from the supplied {@link ByteBuffer} starting at the * specified absolute buffer position/index. *

* This method will not increment the position of the given ByteBuffer. * * @param index * the absolute position into the ByteBuffer * @param buffer * values will be read in x, y, z order * @return this */ public Vector3i set(int index, ByteBuffer buffer) { MemUtil.INSTANCE.get(this, index, buffer); return this; } /** * Read this vector from the supplied {@link IntBuffer} at the current * buffer {@link IntBuffer#position() position}. *

* This method will not increment the position of the given IntBuffer. *

* In order to specify the offset into the IntBuffer at which the vector is * read, use {@link #set(int, IntBuffer)}, taking the absolute position as * parameter. * * @see #set(int, IntBuffer) * * @param buffer * values will be read in x, y, z order * @return this */ public Vector3i set(IntBuffer buffer) { MemUtil.INSTANCE.get(this, buffer.position(), buffer); return this; } /** * Read this vector from the supplied {@link IntBuffer} starting at the * specified absolute buffer position/index. *

* This method will not increment the position of the given IntBuffer. * * @param index * the absolute position into the IntBuffer * @param buffer * values will be read in x, y, z order * @return this */ public Vector3i set(int index, IntBuffer buffer) { MemUtil.INSTANCE.get(this, index, buffer); return this; } /* (non-Javadoc) * @see org.joml.Vector3ic#get(int) */ public int get(int component) throws IllegalArgumentException { switch (component) { case 0: return x; case 1: return y; case 2: return z; default: throw new IllegalArgumentException(); } } /** * Set the value of the specified component of this vector. * * @param component * the component whose value to set, within [0..2] * @param value * the value to set * @return this * @throws IllegalArgumentException if component is not within [0..2] */ public Vector3i setComponent(int component, int value) throws IllegalArgumentException { switch (component) { case 0: x = value; break; case 1: y = value; break; case 2: z = value; break; default: throw new IllegalArgumentException(); } return this; } /* (non-Javadoc) * @see org.joml.Vector3ic#get(java.nio.IntBuffer) */ public IntBuffer get(IntBuffer buffer) { MemUtil.INSTANCE.put(this, buffer.position(), buffer); return buffer; } /* (non-Javadoc) * @see org.joml.Vector3ic#get(int, java.nio.IntBuffer) */ public IntBuffer get(int index, IntBuffer buffer) { MemUtil.INSTANCE.put(this, index, buffer); return buffer; } /* (non-Javadoc) * @see org.joml.Vector3ic#get(java.nio.ByteBuffer) */ public ByteBuffer get(ByteBuffer buffer) { MemUtil.INSTANCE.put(this, buffer.position(), buffer); return buffer; } /* (non-Javadoc) * @see org.joml.Vector3ic#get(int, java.nio.ByteBuffer) */ public ByteBuffer get(int index, ByteBuffer buffer) { MemUtil.INSTANCE.put(this, index, buffer); return buffer; } /** * Subtract the supplied vector from this one and store the result in * this. * * @param v * the vector to subtract * @return a vector holding the result */ public Vector3i sub(Vector3ic v) { this.x = this.x - v.x(); this.y = this.y - v.y(); this.z = this.z - v.z(); return this; } /* (non-Javadoc) * @see org.joml.Vector3ic#sub(org.joml.Vector3ic, org.joml.Vector3i) */ public Vector3i sub(Vector3ic v, Vector3i dest) { dest.x = x - v.x(); dest.y = y - v.y(); dest.z = z - v.z(); return dest; } /** * Decrement the components of this vector by the given values. * * @param x * the x component to subtract * @param y * the y component to subtract * @param z * the z component to subtract * @return a vector holding the result */ public Vector3i sub(int x, int y, int z) { this.x = this.x - x; this.y = this.y - y; this.z = this.z - z; return this; } /* (non-Javadoc) * @see org.joml.Vector3ic#sub(int, int, int, org.joml.Vector3i) */ public Vector3i sub(int x, int y, int z, Vector3i dest) { dest.x = this.x - x; dest.y = this.y - y; dest.z = this.z - z; return dest; } /** * Add the supplied vector to this one. * * @param v * the vector to add * @return a vector holding the result */ public Vector3i add(Vector3ic v) { this.x = this.x + v.x(); this.y = this.y + v.y(); this.z = this.z + v.z(); return this; } /* (non-Javadoc) * @see org.joml.Vector3ic#add(org.joml.Vector3ic, org.joml.Vector3i) */ public Vector3i add(Vector3ic v, Vector3i dest) { dest.x = x + v.x(); dest.y = y + v.y(); dest.z = z + v.z(); return dest; } /** * Increment the components of this vector by the given values. * * @param x * the x component to add * @param y * the y component to add * @param z * the z component to add * @return a vector holding the result */ public Vector3i add(int x, int y, int z) { this.x = this.x + x; this.y = this.y + y; this.z = this.z + z; return this; } /* (non-Javadoc) * @see org.joml.Vector3ic#add(int, int, int, org.joml.Vector3i) */ public Vector3i add(int x, int y, int z, Vector3i dest) { dest.x = this.x + x; dest.y = this.y + y; dest.z = this.z + z; return dest; } /** * Multiply all components of this {@link Vector3i} by the given scalar * value. * * @param scalar * the scalar to multiply this vector by * @return a vector holding the result */ public Vector3i mul(int scalar) { this.x = x * scalar; this.y = y * scalar; this.z = z * scalar; return this; } /* (non-Javadoc) * @see org.joml.Vector3ic#mul(int, org.joml.Vector3i) */ public Vector3i mul(int scalar, Vector3i dest) { dest.x = x * scalar; dest.y = y * scalar; dest.z = z * scalar; return dest; } /** * Multiply all components of this {@link Vector3i} by the given vector. * * @param v * the vector to multiply * @return a vector holding the result */ public Vector3i mul(Vector3ic v) { this.x = this.x * v.x(); this.y = this.y * v.y(); this.z = this.z * v.z(); return this; } /* (non-Javadoc) * @see org.joml.Vector3ic#mul(org.joml.Vector3ic, org.joml.Vector3i) */ public Vector3i mul(Vector3ic v, Vector3i dest) { dest.x = x * v.x(); dest.y = y * v.y(); dest.z = z * v.z(); return dest; } /** * Multiply the components of this vector by the given values. * * @param x * the x component to multiply * @param y * the y component to multiply * @param z * the z component to multiply * @return a vector holding the result */ public Vector3i mul(int x, int y, int z) { this.x = this.x * x; this.y = this.y * y; this.z = this.z * z; return this; } /* (non-Javadoc) * @see org.joml.Vector3ic#mul(int, int, int, org.joml.Vector3i) */ public Vector3i mul(int x, int y, int z, Vector3i dest) { dest.x = this.x * x; dest.y = this.y * y; dest.z = this.z * z; return dest; } /** * Divide all components of this {@link Vector3i} by the given scalar value. * * @param scalar * the scalar to divide by * @return a vector holding the result */ public Vector3i div(float scalar) { float invscalar = 1.0f / scalar; this.x = (int) (x * invscalar); this.y = (int) (y * invscalar); this.z = (int) (z * invscalar); return this; } public Vector3i div(float scalar, Vector3i dest) { float invscalar = 1.0f / scalar; dest.x = (int) (x * invscalar); dest.y = (int) (y * invscalar); dest.z = (int) (z * invscalar); return dest; } /** * Divide all components of this {@link Vector3i} by the given scalar value. * * @param scalar * the scalar to divide by * @return a vector holding the result */ public Vector3i div(int scalar) { this.x = x / scalar; this.y = y / scalar; this.z = z / scalar; return this; } public Vector3i div(int scalar, Vector3i dest) { dest.x = x / scalar; dest.y = y / scalar; dest.z = z / scalar; return dest; } /* (non-Javadoc) * @see org.joml.Vector3ic#lengthSquared() */ public long lengthSquared() { return x * x + y * y + z * z; } /** * Get the length squared of a 3-dimensional single-precision vector. * * @param x The vector's x component * @param y The vector's y component * @param z The vector's z component * * @return the length squared of the given vector */ public static long lengthSquared(int x, int y, int z) { return x * x + y * y + z * z; } /* (non-Javadoc) * @see org.joml.Vector3ic#length() */ public double length() { return Math.sqrt(x * x + y * y + z * z); } /** * Get the length of a 3-dimensional single-precision vector. * * @param x The vector's x component * @param y The vector's y component * @param z The vector's z component * * @return the length squared of the given vector */ public static double length(int x, int y, int z) { return Math.sqrt(x * x + y * y + z * z); } /* (non-Javadoc) * @see org.joml.Vector3ic#distance(org.joml.Vector3ic) */ public double distance(Vector3ic v) { int dx = this.x - v.x(); int dy = this.y - v.y(); int dz = this.z - v.z(); return Math.sqrt(dx * dx + dy * dy + dz * dz); } /* (non-Javadoc) * @see org.joml.Vector3ic#distance(int, int, int) */ public double distance(int x, int y, int z) { int dx = this.x - x; int dy = this.y - y; int dz = this.z - z; return Math.sqrt(dx * dx + dy * dy + dz * dz); } /** * (non-Javadoc) * @see org.joml.Vector3ic#gridDistance(org.joml.Vector3ic) */ public long gridDistance(Vector3ic v) { return Math.abs(v.x() - x()) + Math.abs(v.y() - y()) + Math.abs(v.z() - z()); } /** * (non-Javadoc) * @see org.joml.Vector3ic#gridDistance(org.joml.Vector3ic) */ public long gridDistance(int x, int y, int z) { return Math.abs(x - x()) + Math.abs(y - y()) + Math.abs(z - z()); } /* (non-Javadoc) * @see org.joml.Vector3ic#distanceSquared(org.joml.Vector3ic) */ public long distanceSquared(Vector3ic v) { int dx = this.x - v.x(); int dy = this.y - v.y(); int dz = this.z - v.z(); return dx * dx + dy * dy + dz * dz; } /* (non-Javadoc) * @see org.joml.Vector3ic#distanceSquared(int, int, int) */ public long distanceSquared(int x, int y, int z) { int dx = this.x - x; int dy = this.y - y; int dz = this.z - z; return dx * dx + dy * dy + dz * dz; } /** * Return the distance between (x1, y1, z1) and (x2, y2, z2). * * @param x1 * the x component of the first vector * @param y1 * the y component of the first vector * @param z1 * the z component of the first vector * @param x2 * the x component of the second vector * @param y2 * the y component of the second vector * @param z2 * the z component of the second vector * @return the euclidean distance */ public static double distance(int x1, int y1, int z1, int x2, int y2, int z2) { return Math.sqrt(distanceSquared(x1, y1, z1, x2, y2, z2)); } /** * Return the squared distance between (x1, y1, z1) and (x2, y2, z2). * * @param x1 * the x component of the first vector * @param y1 * the y component of the first vector * @param z1 * the z component of the first vector * @param x2 * the x component of the second vector * @param y2 * the y component of the second vector * @param z2 * the z component of the second vector * @return the euclidean distance squared */ public static long distanceSquared(int x1, int y1, int z1, int x2, int y2, int z2) { int dx = x1 - x2; int dy = y1 - y2; int dz = z1 - z2; return dx * dx + dy * dy + dz * dz; } /** * Set all components to zero. * * @return a vector holding the result */ public Vector3i zero() { this.x = 0; this.y = 0; this.z = 0; return this; } /** * Return a string representation of this vector. *

* This method creates a new {@link DecimalFormat} on every invocation with the format string "0.000E0;-". * * @return the string representation */ public String toString() { return Runtime.formatNumbers(toString(Options.NUMBER_FORMAT)); } /** * Return a string representation of this vector by formatting the vector components with the given {@link NumberFormat}. * * @param formatter * the {@link NumberFormat} used to format the vector components with * @return the string representation */ public String toString(NumberFormat formatter) { return "(" + formatter.format(x) + " " + formatter.format(y) + " " + formatter.format(z) + ")"; } public void writeExternal(ObjectOutput out) throws IOException { out.writeInt(x); out.writeInt(y); out.writeInt(z); } public void readExternal(ObjectInput in) throws IOException, ClassNotFoundException { x = in.readInt(); y = in.readInt(); z = in.readInt(); } /** * Negate this vector. * * @return a vector holding the result */ public Vector3i negate() { this.x = -x; this.y = -y; this.z = -z; return this; } /* (non-Javadoc) * @see org.joml.Vector3ic#negate(org.joml.Vector3i) */ public Vector3i negate(Vector3i dest) { dest.x = -x; dest.y = -y; dest.z = -z; return dest; } /** * Set the components of this vector to be the component-wise minimum of this and the other vector. * * @param v * the other vector * @return a vector holding the result */ public Vector3i min(Vector3ic v) { this.x = x < v.x() ? x : v.x(); this.y = y < v.y() ? y : v.y(); this.z = z < v.z() ? z : v.z(); return this; } public Vector3i min(Vector3ic v, Vector3i dest) { dest.x = x < v.x() ? x : v.x(); dest.y = y < v.y() ? y : v.y(); dest.z = z < v.z() ? z : v.z(); return dest; } /** * Set the components of this vector to be the component-wise maximum of this and the other vector. * * @param v * the other vector * @return a vector holding the result */ public Vector3i max(Vector3ic v) { this.x = x > v.x() ? x : v.x(); this.y = y > v.y() ? y : v.y(); this.z = z > v.z() ? z : v.z(); return this; } public Vector3i max(Vector3ic v, Vector3i dest) { dest.x = x > v.x() ? x : v.x(); dest.y = y > v.y() ? y : v.y(); dest.z = z > v.z() ? z : v.z(); return dest; } /* (non-Javadoc) * @see org.joml.Vector3ic#maxComponent() */ public int maxComponent() { float absX = Math.abs(x); float absY = Math.abs(y); float absZ = Math.abs(z); if (absX >= absY && absX >= absZ) { return 0; } else if (absY >= absZ) { return 1; } return 2; } /* (non-Javadoc) * @see org.joml.Vector3ic#minComponent() */ public int minComponent() { float absX = Math.abs(x); float absY = Math.abs(y); float absZ = Math.abs(z); if (absX < absY && absX < absZ) { return 0; } else if (absY < absZ) { return 1; } return 2; } /** * Set this vector's components to their respective absolute values. * * @return a vector holding the result */ public Vector3i absolute() { this.x = Math.abs(this.x); this.y = Math.abs(this.y); this.z = Math.abs(this.z); return this; } public Vector3i absolute(Vector3i dest) { dest.x = Math.abs(this.x); dest.y = Math.abs(this.y); dest.z = Math.abs(this.z); return dest; } public int hashCode() { final int prime = 31; int result = 1; result = prime * result + x; result = prime * result + y; result = prime * result + z; return result; } public boolean equals(Object obj) { if (this == obj) { return true; } if (obj == null) { return false; } if (getClass() != obj.getClass()) { return false; } Vector3i other = (Vector3i) obj; if (x != other.x) { return false; } if (y != other.y) { return false; } if (z != other.z) { return false; } return true; } /* (non-Javadoc) * @see org.joml.Vector3ic#equals(int, int, int) */ public boolean equals(int x, int y, int z) { if (this.x != x) return false; if (this.y != y) return false; if (this.z != z) return false; return true; } }





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