53c1b2d7b5
Bought the asset to test with
239 lines
8.1 KiB
C#
239 lines
8.1 KiB
C#
using UnityEngine;
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using System.Collections;
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using System.Collections.Generic;
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namespace com.rfilkov.components
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{
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/// <summary>
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/// CubePresentationScript processes the swipe gestures to control (turn) the presentation cube.
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/// </summary>
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public class CubePresentationScript : MonoBehaviour
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{
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[Tooltip("Camera used for screen-to-world calculations. This is usually the main camera.")]
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public Camera screenCamera;
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[Tooltip("Whether the presentation slides may be changed with gestures (SwipeLeft, SwipeRight & SwipeUp).")]
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public bool slideChangeWithGestures = true;
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[Tooltip("Whether the presentation slides may be changed with keys (PgDown & PgUp).")]
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public bool slideChangeWithKeys = true;
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[Tooltip("Speed of rotation, when the presentation cube spins.")]
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public int spinSpeed = 5;
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[Tooltip("List of the presentation slides.")]
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public List<Texture> slideTextures;
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[Tooltip("List of the side planes, comprising the presentation cube.")]
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public List<GameObject> cubeSides;
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//private int maxSides = 0;
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private int maxTextures = 0;
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private int side = 0;
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private int tex = 0;
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private bool isSpinning = false;
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private int[] hsides = { 0, 1, 2, 3 }; // left, front, right, back
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private int[] vsides = { 4, 1, 5, 3 }; // up, front, down, back
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private CubeGestureListener gestureListener;
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private Quaternion initialRotation;
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private int stepsToGo = 0;
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private float rotationStep;
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private Vector3 rotationAxis;
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void Start()
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{
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// hide mouse cursor
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//Cursor.visible = false;
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// by default set the main-camera to be screen-camera
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if (screenCamera == null)
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{
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screenCamera = Camera.main;
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}
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// calculate max slides and textures
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//maxSides = cubeSides.Count;
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maxTextures = slideTextures.Count;
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initialRotation = screenCamera ? Quaternion.Inverse(screenCamera.transform.rotation) * transform.rotation : transform.rotation;
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isSpinning = false;
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tex = 0;
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side = hsides[1];
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if (side < cubeSides.Count && cubeSides[side] && cubeSides[side].GetComponent<Renderer>())
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{
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cubeSides[side].GetComponent<Renderer>().material.mainTexture = slideTextures[tex];
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}
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// get the gestures listener
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gestureListener = CubeGestureListener.Instance;
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}
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void Update()
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{
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// dont run Update() if there is no gesture listener
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if (!gestureListener)
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return;
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if (!isSpinning)
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{
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if (slideChangeWithKeys)
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{
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if (Input.GetKeyDown(KeyCode.PageDown))
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RotateLeft();
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else if (Input.GetKeyDown(KeyCode.PageUp))
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RotateRight();
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}
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if (slideChangeWithGestures && gestureListener)
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{
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if (gestureListener.IsSwipeLeft())
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RotateLeft();
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else if (gestureListener.IsSwipeRight())
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RotateRight();
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else if (gestureListener.IsSwipeUp())
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RotateUp();
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}
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}
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else
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{
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// spin the presentation
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if (stepsToGo > 0)
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{
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//if(Time.realtimeSinceStartup >= nextStepTime)
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{
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if (screenCamera)
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transform.RotateAround(transform.position, screenCamera.transform.TransformDirection(rotationAxis), rotationStep);
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else
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transform.Rotate(rotationAxis * rotationStep, Space.World);
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stepsToGo--;
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//nextStepTime = Time.realtimeSinceStartup + Time.deltaTime;
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}
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}
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else
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{
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Quaternion cubeRotation = Quaternion.Euler(rotationAxis * rotationStep * 90f / spinSpeed) * initialRotation;
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transform.rotation = screenCamera ? screenCamera.transform.rotation * cubeRotation : cubeRotation;
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isSpinning = false;
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}
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}
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}
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// rotates cube left
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private void RotateLeft()
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{
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// set the next texture slide
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tex = (tex + 1) % maxTextures;
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// rotate hsides left
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SetSides(ref hsides, hsides[1], hsides[2], hsides[3], hsides[0]);
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SetSides(ref vsides, -1, hsides[1], -1, hsides[3]);
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side = hsides[1];
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// set the slide on the selected side
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if (side < cubeSides.Count && cubeSides[side] && cubeSides[side].GetComponent<Renderer>())
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{
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cubeSides[side].GetComponent<Renderer>().material.mainTexture = slideTextures[tex];
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}
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// rotate the presentation
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isSpinning = true;
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initialRotation = screenCamera ? Quaternion.Inverse(screenCamera.transform.rotation) * transform.rotation : transform.rotation;
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rotationStep = spinSpeed; // new Vector3(0, spinSpeed, 0);
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rotationAxis = Vector3.up;
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stepsToGo = 90 / spinSpeed;
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//nextStepTime = 0f;
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}
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// rotates cube right
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private void RotateRight()
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{
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// set the previous texture slide
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if (tex <= 0)
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tex = maxTextures - 1;
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else
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tex -= 1;
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// rotate hsides right
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SetSides(ref hsides, hsides[3], hsides[0], hsides[1], hsides[2]);
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SetSides(ref vsides, -1, hsides[1], -1, hsides[3]);
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side = hsides[1];
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// set the slide on the selected side
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if (side < cubeSides.Count && cubeSides[side] && cubeSides[side].GetComponent<Renderer>())
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{
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cubeSides[side].GetComponent<Renderer>().material.mainTexture = slideTextures[tex];
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}
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// rotate the presentation
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isSpinning = true;
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initialRotation = screenCamera ? Quaternion.Inverse(screenCamera.transform.rotation) * transform.rotation : transform.rotation;
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rotationStep = -spinSpeed; // new Vector3(0, -spinSpeed, 0);
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rotationAxis = Vector3.up;
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stepsToGo = 90 / spinSpeed;
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//nextStepTime = 0f;
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}
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// rotates cube up
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private void RotateUp()
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{
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// set the next texture slide
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tex = (tex + 1) % maxTextures;
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// rotate vsides up
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SetSides(ref vsides, vsides[1], vsides[2], vsides[3], vsides[0]);
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SetSides(ref hsides, -1, vsides[1], -1, vsides[3]);
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side = hsides[1];
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// set the slide on the selected side
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if (side < cubeSides.Count && cubeSides[side] && cubeSides[side].GetComponent<Renderer>())
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{
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cubeSides[side].GetComponent<Renderer>().material.mainTexture = slideTextures[tex];
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}
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// rotate the presentation
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isSpinning = true;
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initialRotation = screenCamera ? Quaternion.Inverse(screenCamera.transform.rotation) * transform.rotation : transform.rotation;
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rotationStep = spinSpeed; // new Vector3(spinSpeed, 0, 0);
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rotationAxis = Vector3.right;
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stepsToGo = 90 / spinSpeed;
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//nextStepTime = 0f;
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}
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// sets values of sides' array
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private void SetSides(ref int[] sides, int v0, int v1, int v2, int v3)
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{
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if (v0 >= 0)
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{
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sides[0] = v0;
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}
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if (v1 >= 0)
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{
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sides[1] = v1;
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}
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if (v2 >= 0)
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{
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sides[2] = v2;
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}
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if (v3 >= 0)
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{
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sides[3] = v3;
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}
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}
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}
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}
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