using UnityEngine; using System.Collections; namespace TMPro.Examples { public class VertexJitter : MonoBehaviour { public float AngleMultiplier = 1.0f; public float SpeedMultiplier = 1.0f; public float CurveScale = 1.0f; private TMP_Text m_TextComponent; private bool hasTextChanged; /// <summary> /// Structure to hold pre-computed animation data. /// </summary> private struct VertexAnim { public float angleRange; public float angle; public float speed; } void Awake() { m_TextComponent = GetComponent<TMP_Text>(); } void OnEnable() { // Subscribe to event fired when text object has been regenerated. TMPro_EventManager.TEXT_CHANGED_EVENT.Add(ON_TEXT_CHANGED); } void OnDisable() { TMPro_EventManager.TEXT_CHANGED_EVENT.Remove(ON_TEXT_CHANGED); } void Start() { StartCoroutine(AnimateVertexColors()); } void ON_TEXT_CHANGED(Object obj) { if (obj == m_TextComponent) hasTextChanged = true; } /// <summary> /// Method to animate vertex colors of a TMP Text object. /// </summary> /// <returns></returns> IEnumerator AnimateVertexColors() { // We force an update of the text object since it would only be updated at the end of the frame. Ie. before this code is executed on the first frame. // Alternatively, we could yield and wait until the end of the frame when the text object will be generated. m_TextComponent.ForceMeshUpdate(); TMP_TextInfo textInfo = m_TextComponent.textInfo; Matrix4x4 matrix; int loopCount = 0; hasTextChanged = true; // Create an Array which contains pre-computed Angle Ranges and Speeds for a bunch of characters. VertexAnim[] vertexAnim = new VertexAnim[1024]; for (int i = 0; i < 1024; i++) { vertexAnim[i].angleRange = Random.Range(10f, 25f); vertexAnim[i].speed = Random.Range(1f, 3f); } // Cache the vertex data of the text object as the Jitter FX is applied to the original position of the characters. TMP_MeshInfo[] cachedMeshInfo = textInfo.CopyMeshInfoVertexData(); while (true) { // Get new copy of vertex data if the text has changed. if (hasTextChanged) { // Update the copy of the vertex data for the text object. cachedMeshInfo = textInfo.CopyMeshInfoVertexData(); hasTextChanged = false; } int characterCount = textInfo.characterCount; // If No Characters then just yield and wait for some text to be added if (characterCount == 0) { yield return new WaitForSeconds(0.25f); continue; } for (int i = 0; i < characterCount; i++) { TMP_CharacterInfo charInfo = textInfo.characterInfo[i]; // Skip characters that are not visible and thus have no geometry to manipulate. if (!charInfo.isVisible) continue; // Retrieve the pre-computed animation data for the given character. VertexAnim vertAnim = vertexAnim[i]; // Get the index of the material used by the current character. int materialIndex = textInfo.characterInfo[i].materialReferenceIndex; // Get the index of the first vertex used by this text element. int vertexIndex = textInfo.characterInfo[i].vertexIndex; // Get the cached vertices of the mesh used by this text element (character or sprite). Vector3[] sourceVertices = cachedMeshInfo[materialIndex].vertices; // Determine the center point of each character at the baseline. //Vector2 charMidBasline = new Vector2((sourceVertices[vertexIndex + 0].x + sourceVertices[vertexIndex + 2].x) / 2, charInfo.baseLine); // Determine the center point of each character. Vector2 charMidBasline = (sourceVertices[vertexIndex + 0] + sourceVertices[vertexIndex + 2]) / 2; // Need to translate all 4 vertices of each quad to aligned with middle of character / baseline. // This is needed so the matrix TRS is applied at the origin for each character. Vector3 offset = charMidBasline; Vector3[] destinationVertices = textInfo.meshInfo[materialIndex].vertices; destinationVertices[vertexIndex + 0] = sourceVertices[vertexIndex + 0] - offset; destinationVertices[vertexIndex + 1] = sourceVertices[vertexIndex + 1] - offset; destinationVertices[vertexIndex + 2] = sourceVertices[vertexIndex + 2] - offset; destinationVertices[vertexIndex + 3] = sourceVertices[vertexIndex + 3] - offset; vertAnim.angle = Mathf.SmoothStep(-vertAnim.angleRange, vertAnim.angleRange, Mathf.PingPong(loopCount / 25f * vertAnim.speed, 1f)); Vector3 jitterOffset = new Vector3(Random.Range(-.25f, .25f), Random.Range(-.25f, .25f), 0); matrix = Matrix4x4.TRS(jitterOffset * CurveScale, Quaternion.Euler(0, 0, Random.Range(-5f, 5f) * AngleMultiplier), Vector3.one); destinationVertices[vertexIndex + 0] = matrix.MultiplyPoint3x4(destinationVertices[vertexIndex + 0]); destinationVertices[vertexIndex + 1] = matrix.MultiplyPoint3x4(destinationVertices[vertexIndex + 1]); destinationVertices[vertexIndex + 2] = matrix.MultiplyPoint3x4(destinationVertices[vertexIndex + 2]); destinationVertices[vertexIndex + 3] = matrix.MultiplyPoint3x4(destinationVertices[vertexIndex + 3]); destinationVertices[vertexIndex + 0] += offset; destinationVertices[vertexIndex + 1] += offset; destinationVertices[vertexIndex + 2] += offset; destinationVertices[vertexIndex + 3] += offset; vertexAnim[i] = vertAnim; } // Push changes into meshes for (int i = 0; i < textInfo.meshInfo.Length; i++) { textInfo.meshInfo[i].mesh.vertices = textInfo.meshInfo[i].vertices; m_TextComponent.UpdateGeometry(textInfo.meshInfo[i].mesh, i); } loopCount += 1; yield return new WaitForSeconds(0.1f); } } } }