using UnityEngine; using System.Collections; namespace TMPro { public enum CaretPosition { None, Left, Right } /// /// Structure which contains the character index and position of caret relative to the character. /// public struct CaretInfo { public int index; public CaretPosition position; public CaretInfo(int index, CaretPosition position) { this.index = index; this.position = position; } } public static class TMP_TextUtilities { private static Vector3[] m_rectWorldCorners = new Vector3[4]; // TEXT INPUT COMPONENT RELATED FUNCTIONS /// /// /// /// A reference to the text object. /// Position to check for intersection. /// The scene camera which may be assigned to a Canvas using ScreenSpace Camera or WorldSpace render mode. Set to null is using ScreenSpace Overlay. /// //public static CaretInfo GetCursorInsertionIndex(TMP_Text textComponent, Vector3 position, Camera camera) //{ // int index = TMP_TextUtilities.FindNearestCharacter(textComponent, position, camera, false); // RectTransform rectTransform = textComponent.rectTransform; // // Convert position into Worldspace coordinates // ScreenPointToWorldPointInRectangle(rectTransform, position, camera, out position); // TMP_CharacterInfo cInfo = textComponent.textInfo.characterInfo[index]; // // Get Bottom Left and Top Right position of the current character // Vector3 bl = rectTransform.TransformPoint(cInfo.bottomLeft); // //Vector3 tl = rectTransform.TransformPoint(new Vector3(cInfo.bottomLeft.x, cInfo.topRight.y, 0)); // Vector3 tr = rectTransform.TransformPoint(cInfo.topRight); // //Vector3 br = rectTransform.TransformPoint(new Vector3(cInfo.topRight.x, cInfo.bottomLeft.y, 0)); // float insertPosition = (position.x - bl.x) / (tr.x - bl.x); // if (insertPosition < 0.5f) // return new CaretInfo(index, CaretPosition.Left); // else // return new CaretInfo(index, CaretPosition.Right); //} /// /// Function returning the index of the character whose origin is closest to the cursor. /// /// A reference to the text object. /// Position to check for intersection. /// The scene camera which may be assigned to a Canvas using ScreenSpace Camera or WorldSpace render mode. Set to null is using ScreenSpace Overlay. /// public static int GetCursorIndexFromPosition(TMP_Text textComponent, Vector3 position, Camera camera) { int index = TMP_TextUtilities.FindNearestCharacter(textComponent, position, camera, false); RectTransform rectTransform = textComponent.rectTransform; // Convert position into Worldspace coordinates ScreenPointToWorldPointInRectangle(rectTransform, position, camera, out position); TMP_CharacterInfo cInfo = textComponent.textInfo.characterInfo[index]; // Get Bottom Left and Top Right position of the current character Vector3 bl = rectTransform.TransformPoint(cInfo.bottomLeft); Vector3 tr = rectTransform.TransformPoint(cInfo.topRight); float insertPosition = (position.x - bl.x) / (tr.x - bl.x); if (insertPosition < 0.5f) return index; else return index + 1; } /// /// Function returning the index of the character whose origin is closest to the cursor. /// /// A reference to the text object. /// Position to check for intersection. /// The scene camera which may be assigned to a Canvas using ScreenSpace Camera or WorldSpace render mode. Set to null is using ScreenSpace Overlay. /// The position of the cursor insertion position relative to the position. /// //public static int GetCursorIndexFromPosition(TMP_Text textComponent, Vector3 position, Camera camera, out CaretPosition cursor) //{ // int index = TMP_TextUtilities.FindNearestCharacter(textComponent, position, camera, false); // RectTransform rectTransform = textComponent.rectTransform; // // Convert position into Worldspace coordinates // ScreenPointToWorldPointInRectangle(rectTransform, position, camera, out position); // TMP_CharacterInfo cInfo = textComponent.textInfo.characterInfo[index]; // // Get Bottom Left and Top Right position of the current character // Vector3 bl = rectTransform.TransformPoint(cInfo.bottomLeft); // Vector3 tr = rectTransform.TransformPoint(cInfo.topRight); // float insertPosition = (position.x - bl.x) / (tr.x - bl.x); // if (insertPosition < 0.5f) // { // cursor = CaretPosition.Left; // return index; // } // else // { // cursor = CaretPosition.Right; // return index; // } //} /// /// Function returning the index of the character whose origin is closest to the cursor. /// /// A reference to the text object. /// Position to check for intersection. /// The scene camera which may be assigned to a Canvas using ScreenSpace Camera or WorldSpace render mode. Set to null is using ScreenSpace Overlay. /// The position of the cursor insertion position relative to the position. /// public static int GetCursorIndexFromPosition(TMP_Text textComponent, Vector3 position, Camera camera, out CaretPosition cursor) { int line = FindNearestLine(textComponent, position, camera); // Return if text doesn't contain any lines of text. if (line == -1) { cursor = CaretPosition.Left; return 0; } int index = FindNearestCharacterOnLine(textComponent, position, line, camera, false); // Special handling if line contains only one character. if (textComponent.textInfo.lineInfo[line].characterCount == 1) { cursor = CaretPosition.Left; return index; } RectTransform rectTransform = textComponent.rectTransform; // Convert position into Worldspace coordinates ScreenPointToWorldPointInRectangle(rectTransform, position, camera, out position); TMP_CharacterInfo cInfo = textComponent.textInfo.characterInfo[index]; // Get Bottom Left and Top Right position of the current character Vector3 bl = rectTransform.TransformPoint(cInfo.bottomLeft); Vector3 tr = rectTransform.TransformPoint(cInfo.topRight); float insertPosition = (position.x - bl.x) / (tr.x - bl.x); if (insertPosition < 0.5f) { cursor = CaretPosition.Left; return index; } else { cursor = CaretPosition.Right; return index; } } /// /// Function returning the line nearest to the position. /// /// /// /// /// public static int FindNearestLine(TMP_Text text, Vector3 position, Camera camera) { RectTransform rectTransform = text.rectTransform; float distance = Mathf.Infinity; int closest = -1; // Convert position into Worldspace coordinates ScreenPointToWorldPointInRectangle(rectTransform, position, camera, out position); for (int i = 0; i < text.textInfo.lineCount; i++) { TMP_LineInfo lineInfo = text.textInfo.lineInfo[i]; float ascender = rectTransform.TransformPoint(new Vector3(0, lineInfo.ascender, 0)).y; float descender = rectTransform.TransformPoint(new Vector3(0, lineInfo.descender, 0)).y; if (ascender > position.y && descender < position.y) { //Debug.Log("Position is on line " + i); return i; } float d0 = Mathf.Abs(ascender - position.y); float d1 = Mathf.Abs(descender - position.y); float d = Mathf.Min(d0, d1); if (d < distance) { distance = d; closest = i; } } //Debug.Log("Closest line to position is " + closest); return closest; } /// /// Function returning the nearest character to position on a given line. /// /// /// /// /// /// public static int FindNearestCharacterOnLine(TMP_Text text, Vector3 position, int line, Camera camera, bool visibleOnly) { RectTransform rectTransform = text.rectTransform; // Convert position into Worldspace coordinates ScreenPointToWorldPointInRectangle(rectTransform, position, camera, out position); int firstCharacter = text.textInfo.lineInfo[line].firstCharacterIndex; int lastCharacter = text.textInfo.lineInfo[line].lastCharacterIndex; float distanceSqr = Mathf.Infinity; int closest = lastCharacter; for (int i = firstCharacter; i < lastCharacter; i++) { // Get current character info. TMP_CharacterInfo cInfo = text.textInfo.characterInfo[i]; if (visibleOnly && !cInfo.isVisible) continue; // Ignore Carriage Returns if (cInfo.character == '\r') continue; // Get Bottom Left and Top Right position of the current character Vector3 bl = rectTransform.TransformPoint(cInfo.bottomLeft); Vector3 tl = rectTransform.TransformPoint(new Vector3(cInfo.bottomLeft.x, cInfo.topRight.y, 0)); Vector3 tr = rectTransform.TransformPoint(cInfo.topRight); Vector3 br = rectTransform.TransformPoint(new Vector3(cInfo.topRight.x, cInfo.bottomLeft.y, 0)); if (PointIntersectRectangle(position, bl, tl, tr, br)) { closest = i; break; } // Find the closest corner to position. float dbl = DistanceToLine(bl, tl, position); float dtl = DistanceToLine(tl, tr, position); float dtr = DistanceToLine(tr, br, position); float dbr = DistanceToLine(br, bl, position); float d = dbl < dtl ? dbl : dtl; d = d < dtr ? d : dtr; d = d < dbr ? d : dbr; if (distanceSqr > d) { distanceSqr = d; closest = i; } } return closest; } /// /// Function used to determine if the position intersects with the RectTransform. /// /// A reference to the RectTranform of the text object. /// Position to check for intersection. /// The scene camera which may be assigned to a Canvas using ScreenSpace Camera or WorldSpace render mode. Set to null is using ScreenSpace Overlay. /// public static bool IsIntersectingRectTransform(RectTransform rectTransform, Vector3 position, Camera camera) { // Convert position into Worldspace coordinates ScreenPointToWorldPointInRectangle(rectTransform, position, camera, out position); rectTransform.GetWorldCorners(m_rectWorldCorners); if (PointIntersectRectangle(position, m_rectWorldCorners[0], m_rectWorldCorners[1], m_rectWorldCorners[2], m_rectWorldCorners[3])) { return true; } return false; } // CHARACTER HANDLING /// /// Function returning the index of the character at the given position (if any). /// /// A reference to the TextMeshPro component. /// Position to check for intersection. /// The scene camera which is rendering the text or whichever one might be assigned to a Canvas using ScreenSpace Camera or WorldSpace render mode. Set to null is using ScreenSpace Overlay. /// Only check for visible characters. /// public static int FindIntersectingCharacter(TMP_Text text, Vector3 position, Camera camera, bool visibleOnly) { RectTransform rectTransform = text.rectTransform; // Convert position into Worldspace coordinates ScreenPointToWorldPointInRectangle(rectTransform, position, camera, out position); for (int i = 0; i < text.textInfo.characterCount; i++) { // Get current character info. TMP_CharacterInfo cInfo = text.textInfo.characterInfo[i]; if (visibleOnly && !cInfo.isVisible) continue; // Get Bottom Left and Top Right position of the current character Vector3 bl = rectTransform.TransformPoint(cInfo.bottomLeft); Vector3 tl = rectTransform.TransformPoint(new Vector3(cInfo.bottomLeft.x, cInfo.topRight.y, 0)); Vector3 tr = rectTransform.TransformPoint(cInfo.topRight); Vector3 br = rectTransform.TransformPoint(new Vector3(cInfo.topRight.x, cInfo.bottomLeft.y, 0)); if (PointIntersectRectangle(position, bl, tl, tr, br)) return i; } return -1; } /// /// Function returning the index of the character at the given position (if any). /// /// A reference to the TextMeshPro UGUI component. /// Position to check for intersection. /// The camera which is rendering the text object. /// Only check for visible characters. /// //public static int FindIntersectingCharacter(TextMeshPro text, Vector3 position, Camera camera, bool visibleOnly) //{ // Transform textTransform = text.transform; // // Convert position into Worldspace coordinates // ScreenPointToWorldPointInRectangle(textTransform, position, camera, out position); // for (int i = 0; i < text.textInfo.characterCount; i++) // { // // Get current character info. // TMP_CharacterInfo cInfo = text.textInfo.characterInfo[i]; // if ((visibleOnly && !cInfo.isVisible) || (text.OverflowMode == TextOverflowModes.Page && cInfo.pageNumber + 1 != text.pageToDisplay)) // continue; // // Get Bottom Left and Top Right position of the current character // Vector3 bl = textTransform.TransformPoint(cInfo.bottomLeft); // Vector3 tl = textTransform.TransformPoint(new Vector3(cInfo.bottomLeft.x, cInfo.topRight.y, 0)); // Vector3 tr = textTransform.TransformPoint(cInfo.topRight); // Vector3 br = textTransform.TransformPoint(new Vector3(cInfo.topRight.x, cInfo.bottomLeft.y, 0)); // if (PointIntersectRectangle(position, bl, tl, tr, br)) // return i; // } // return -1; //} /// /// Function to find the nearest character to position. /// /// A reference to the TMP Text component. /// Position to check for intersection. /// The scene camera which may be assigned to a Canvas using ScreenSpace Camera or WorldSpace render mode. Set to null is using ScreenSpace Overlay. /// Only check for visible characters. /// public static int FindNearestCharacter(TMP_Text text, Vector3 position, Camera camera, bool visibleOnly) { RectTransform rectTransform = text.rectTransform; float distanceSqr = Mathf.Infinity; int closest = 0; // Convert position into Worldspace coordinates ScreenPointToWorldPointInRectangle(rectTransform, position, camera, out position); for (int i = 0; i < text.textInfo.characterCount; i++) { // Get current character info. TMP_CharacterInfo cInfo = text.textInfo.characterInfo[i]; if (visibleOnly && !cInfo.isVisible) continue; // Get Bottom Left and Top Right position of the current character Vector3 bl = rectTransform.TransformPoint(cInfo.bottomLeft); Vector3 tl = rectTransform.TransformPoint(new Vector3(cInfo.bottomLeft.x, cInfo.topRight.y, 0)); Vector3 tr = rectTransform.TransformPoint(cInfo.topRight); Vector3 br = rectTransform.TransformPoint(new Vector3(cInfo.topRight.x, cInfo.bottomLeft.y, 0)); if (PointIntersectRectangle(position, bl, tl, tr, br)) return i; // Find the closest corner to position. float dbl = DistanceToLine(bl, tl, position); float dtl = DistanceToLine(tl, tr, position); float dtr = DistanceToLine(tr, br, position); float dbr = DistanceToLine(br, bl, position); float d = dbl < dtl ? dbl : dtl; d = d < dtr ? d : dtr; d = d < dbr ? d : dbr; if (distanceSqr > d) { distanceSqr = d; closest = i; } } return closest; } /// /// Function to find the nearest character to position. /// /// A reference to the TextMeshPro UGUI component. /// Position to check for intersection. /// The scene camera which may be assigned to a Canvas using ScreenSpace Camera or WorldSpace render mode. Set to null is using ScreenSpace Overlay. /// Only check for visible characters. /// //public static int FindNearestCharacter(TextMeshProUGUI text, Vector3 position, Camera camera, bool visibleOnly) //{ // RectTransform rectTransform = text.rectTransform; // float distanceSqr = Mathf.Infinity; // int closest = 0; // // Convert position into Worldspace coordinates // ScreenPointToWorldPointInRectangle(rectTransform, position, camera, out position); // for (int i = 0; i < text.textInfo.characterCount; i++) // { // // Get current character info. // TMP_CharacterInfo cInfo = text.textInfo.characterInfo[i]; // if ((visibleOnly && !cInfo.isVisible) || (text.OverflowMode == TextOverflowModes.Page && cInfo.pageNumber + 1 != text.pageToDisplay)) // continue; // // Get Bottom Left and Top Right position of the current character // Vector3 bl = rectTransform.TransformPoint(cInfo.bottomLeft); // Vector3 tl = rectTransform.TransformPoint(new Vector3(cInfo.bottomLeft.x, cInfo.topRight.y, 0)); // Vector3 tr = rectTransform.TransformPoint(cInfo.topRight); // Vector3 br = rectTransform.TransformPoint(new Vector3(cInfo.topRight.x, cInfo.bottomLeft.y, 0)); // if (PointIntersectRectangle(position, bl, tl, tr, br)) // return i; // // Find the closest corner to position. // float dbl = DistanceToLine(bl, tl, position); // float dtl = DistanceToLine(tl, tr, position); // float dtr = DistanceToLine(tr, br, position); // float dbr = DistanceToLine(br, bl, position); // float d = dbl < dtl ? dbl : dtl; // d = d < dtr ? d : dtr; // d = d < dbr ? d : dbr; // if (distanceSqr > d) // { // distanceSqr = d; // closest = i; // } // } // //Debug.Log("Returning nearest character at index: " + closest); // return closest; //} /// /// Function to find the nearest character to position. /// /// A reference to the TextMeshPro component. /// Position to check for intersection. /// The camera which is rendering the text object. /// Only check for visible characters. /// //public static int FindNearestCharacter(TextMeshPro text, Vector3 position, Camera camera, bool visibleOnly) //{ // Transform textTransform = text.transform; // float distanceSqr = Mathf.Infinity; // int closest = 0; // // Convert position into Worldspace coordinates // ScreenPointToWorldPointInRectangle(textTransform, position, camera, out position); // for (int i = 0; i < text.textInfo.characterCount; i++) // { // // Get current character info. // TMP_CharacterInfo cInfo = text.textInfo.characterInfo[i]; // if ((visibleOnly && !cInfo.isVisible) || (text.OverflowMode == TextOverflowModes.Page && cInfo.pageNumber + 1 != text.pageToDisplay)) // continue; // // Get Bottom Left and Top Right position of the current character // Vector3 bl = textTransform.TransformPoint(cInfo.bottomLeft); // Vector3 tl = textTransform.TransformPoint(new Vector3(cInfo.bottomLeft.x, cInfo.topRight.y, 0)); // Vector3 tr = textTransform.TransformPoint(cInfo.topRight); // Vector3 br = textTransform.TransformPoint(new Vector3(cInfo.topRight.x, cInfo.bottomLeft.y, 0)); // if (PointIntersectRectangle(position, bl, tl, tr, br)) // return i; // // Find the closest corner to position. // float dbl = DistanceToLine(bl, tl, position); // (position - bl).sqrMagnitude; // float dtl = DistanceToLine(tl, tr, position); // (position - tl).sqrMagnitude; // float dtr = DistanceToLine(tr, br, position); // (position - tr).sqrMagnitude; // float dbr = DistanceToLine(br, bl, position); // (position - br).sqrMagnitude; // float d = dbl < dtl ? dbl : dtl; // d = d < dtr ? d : dtr; // d = d < dbr ? d : dbr; // if (distanceSqr > d) // { // distanceSqr = d; // closest = i; // } // } // //Debug.Log("Returning nearest character at index: " + closest); // return closest; //} // WORD HANDLING /// /// Function returning the index of the word at the given position (if any). /// /// A reference to the TMP_Text component. /// Position to check for intersection. /// The scene camera which may be assigned to a Canvas using ScreenSpace Camera or WorldSpace render mode. Set to null is using ScreenSpace Overlay. /// public static int FindIntersectingWord(TMP_Text text, Vector3 position, Camera camera) { RectTransform rectTransform = text.rectTransform; // Convert position into Worldspace coordinates ScreenPointToWorldPointInRectangle(rectTransform, position, camera, out position); for (int i = 0; i < text.textInfo.wordCount; i++) { TMP_WordInfo wInfo = text.textInfo.wordInfo[i]; bool isBeginRegion = false; Vector3 bl = Vector3.zero; Vector3 tl = Vector3.zero; Vector3 br = Vector3.zero; Vector3 tr = Vector3.zero; float maxAscender = -Mathf.Infinity; float minDescender = Mathf.Infinity; // Iterate through each character of the word for (int j = 0; j < wInfo.characterCount; j++) { int characterIndex = wInfo.firstCharacterIndex + j; TMP_CharacterInfo currentCharInfo = text.textInfo.characterInfo[characterIndex]; int currentLine = currentCharInfo.lineNumber; bool isCharacterVisible = currentCharInfo.isVisible; // Track maximum Ascender and minimum Descender for each word. maxAscender = Mathf.Max(maxAscender, currentCharInfo.ascender); minDescender = Mathf.Min(minDescender, currentCharInfo.descender); if (isBeginRegion == false && isCharacterVisible) { isBeginRegion = true; bl = new Vector3(currentCharInfo.bottomLeft.x, currentCharInfo.descender, 0); tl = new Vector3(currentCharInfo.bottomLeft.x, currentCharInfo.ascender, 0); //Debug.Log("Start Word Region at [" + currentCharInfo.character + "]"); // If Word is one character if (wInfo.characterCount == 1) { isBeginRegion = false; br = new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0); tr = new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0); // Transform coordinates to be relative to transform and account min descender and max ascender. bl = rectTransform.TransformPoint(new Vector3(bl.x, minDescender, 0)); tl = rectTransform.TransformPoint(new Vector3(tl.x, maxAscender, 0)); tr = rectTransform.TransformPoint(new Vector3(tr.x, maxAscender, 0)); br = rectTransform.TransformPoint(new Vector3(br.x, minDescender, 0)); // Check for Intersection if (PointIntersectRectangle(position, bl, tl, tr, br)) return i; //Debug.Log("End Word Region at [" + currentCharInfo.character + "]"); } } // Last Character of Word if (isBeginRegion && j == wInfo.characterCount - 1) { isBeginRegion = false; br = new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0); tr = new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0); // Transform coordinates to be relative to transform and account min descender and max ascender. bl = rectTransform.TransformPoint(new Vector3(bl.x, minDescender, 0)); tl = rectTransform.TransformPoint(new Vector3(tl.x, maxAscender, 0)); tr = rectTransform.TransformPoint(new Vector3(tr.x, maxAscender, 0)); br = rectTransform.TransformPoint(new Vector3(br.x, minDescender, 0)); // Check for Intersection if (PointIntersectRectangle(position, bl, tl, tr, br)) return i; //Debug.Log("End Word Region at [" + currentCharInfo.character + "]"); } // If Word is split on more than one line. else if (isBeginRegion && currentLine != text.textInfo.characterInfo[characterIndex + 1].lineNumber) { isBeginRegion = false; br = new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0); tr = new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0); // Transform coordinates to be relative to transform and account min descender and max ascender. bl = rectTransform.TransformPoint(new Vector3(bl.x, minDescender, 0)); tl = rectTransform.TransformPoint(new Vector3(tl.x, maxAscender, 0)); tr = rectTransform.TransformPoint(new Vector3(tr.x, maxAscender, 0)); br = rectTransform.TransformPoint(new Vector3(br.x, minDescender, 0)); maxAscender = -Mathf.Infinity; minDescender = Mathf.Infinity; // Check for Intersection if (PointIntersectRectangle(position, bl, tl, tr, br)) return i; //Debug.Log("End Word Region at [" + currentCharInfo.character + "]"); } } //Debug.Log("Word at Index: " + i + " is located at (" + bl + ", " + tl + ", " + tr + ", " + br + ")."); } return -1; } /// /// Function returning the index of the word at the given position (if any). /// /// A reference to the TextMeshPro UGUI component. /// Position to check for intersection. /// The scene camera which may be assigned to a Canvas using ScreenSpace Camera or WorldSpace render mode. Set to null is using ScreenSpace Overlay. /// //public static int FindIntersectingWord(TextMeshProUGUI text, Vector3 position, Camera camera) //{ // RectTransform rectTransform = text.rectTransform; // // Convert position into Worldspace coordinates // ScreenPointToWorldPointInRectangle(rectTransform, position, camera, out position); // for (int i = 0; i < text.textInfo.wordCount; i++) // { // TMP_WordInfo wInfo = text.textInfo.wordInfo[i]; // bool isBeginRegion = false; // Vector3 bl = Vector3.zero; // Vector3 tl = Vector3.zero; // Vector3 br = Vector3.zero; // Vector3 tr = Vector3.zero; // float maxAscender = -Mathf.Infinity; // float minDescender = Mathf.Infinity; // // Iterate through each character of the word // for (int j = 0; j < wInfo.characterCount; j++) // { // int characterIndex = wInfo.firstCharacterIndex + j; // TMP_CharacterInfo currentCharInfo = text.textInfo.characterInfo[characterIndex]; // int currentLine = currentCharInfo.lineNumber; // bool isCharacterVisible = characterIndex > text.maxVisibleCharacters || // currentCharInfo.lineNumber > text.maxVisibleLines || // (text.OverflowMode == TextOverflowModes.Page && currentCharInfo.pageNumber + 1 != text.pageToDisplay) ? false : true; // // Track maximum Ascender and minimum Descender for each word. // maxAscender = Mathf.Max(maxAscender, currentCharInfo.ascender); // minDescender = Mathf.Min(minDescender, currentCharInfo.descender); // if (isBeginRegion == false && isCharacterVisible) // { // isBeginRegion = true; // bl = new Vector3(currentCharInfo.bottomLeft.x, currentCharInfo.descender, 0); // tl = new Vector3(currentCharInfo.bottomLeft.x, currentCharInfo.ascender, 0); // //Debug.Log("Start Word Region at [" + currentCharInfo.character + "]"); // // If Word is one character // if (wInfo.characterCount == 1) // { // isBeginRegion = false; // br = new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0); // tr = new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0); // // Transform coordinates to be relative to transform and account min descender and max ascender. // bl = rectTransform.TransformPoint(new Vector3(bl.x, minDescender, 0)); // tl = rectTransform.TransformPoint(new Vector3(tl.x, maxAscender, 0)); // tr = rectTransform.TransformPoint(new Vector3(tr.x, maxAscender, 0)); // br = rectTransform.TransformPoint(new Vector3(br.x, minDescender, 0)); // // Check for Intersection // if (PointIntersectRectangle(position, bl, tl, tr, br)) // return i; // //Debug.Log("End Word Region at [" + currentCharInfo.character + "]"); // } // } // // Last Character of Word // if (isBeginRegion && j == wInfo.characterCount - 1) // { // isBeginRegion = false; // br = new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0); // tr = new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0); // // Transform coordinates to be relative to transform and account min descender and max ascender. // bl = rectTransform.TransformPoint(new Vector3(bl.x, minDescender, 0)); // tl = rectTransform.TransformPoint(new Vector3(tl.x, maxAscender, 0)); // tr = rectTransform.TransformPoint(new Vector3(tr.x, maxAscender, 0)); // br = rectTransform.TransformPoint(new Vector3(br.x, minDescender, 0)); // // Check for Intersection // if (PointIntersectRectangle(position, bl, tl, tr, br)) // return i; // //Debug.Log("End Word Region at [" + currentCharInfo.character + "]"); // } // // If Word is split on more than one line. // else if (isBeginRegion && currentLine != text.textInfo.characterInfo[characterIndex + 1].lineNumber) // { // isBeginRegion = false; // br = new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0); // tr = new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0); // // Transform coordinates to be relative to transform and account min descender and max ascender. // bl = rectTransform.TransformPoint(new Vector3(bl.x, minDescender, 0)); // tl = rectTransform.TransformPoint(new Vector3(tl.x, maxAscender, 0)); // tr = rectTransform.TransformPoint(new Vector3(tr.x, maxAscender, 0)); // br = rectTransform.TransformPoint(new Vector3(br.x, minDescender, 0)); // maxAscender = -Mathf.Infinity; // minDescender = Mathf.Infinity; // // Check for Intersection // if (PointIntersectRectangle(position, bl, tl, tr, br)) // return i; // //Debug.Log("End Word Region at [" + currentCharInfo.character + "]"); // } // } // //Debug.Log("Word at Index: " + i + " is located at (" + bl + ", " + tl + ", " + tr + ", " + br + ")."); // } // return -1; //} /// /// Function returning the index of the word at the given position (if any). /// /// A reference to the TextMeshPro component. /// Position to check for intersection. /// The camera which is rendering the text object. /// //public static int FindIntersectingWord(TextMeshPro text, Vector3 position, Camera camera) //{ // Transform textTransform = text.transform; // // Convert position into Worldspace coordinates // ScreenPointToWorldPointInRectangle(textTransform, position, camera, out position); // for (int i = 0; i < text.textInfo.wordCount; i++) // { // TMP_WordInfo wInfo = text.textInfo.wordInfo[i]; // bool isBeginRegion = false; // Vector3 bl = Vector3.zero; // Vector3 tl = Vector3.zero; // Vector3 br = Vector3.zero; // Vector3 tr = Vector3.zero; // float maxAscender = -Mathf.Infinity; // float minDescender = Mathf.Infinity; // // Iterate through each character of the word // for (int j = 0; j < wInfo.characterCount; j++) // { // int characterIndex = wInfo.firstCharacterIndex + j; // TMP_CharacterInfo currentCharInfo = text.textInfo.characterInfo[characterIndex]; // int currentLine = currentCharInfo.lineNumber; // bool isCharacterVisible = characterIndex > text.maxVisibleCharacters || // currentCharInfo.lineNumber > text.maxVisibleLines || // (text.OverflowMode == TextOverflowModes.Page && currentCharInfo.pageNumber + 1 != text.pageToDisplay) ? false : true; // // Track maximum Ascender and minimum Descender for each word. // maxAscender = Mathf.Max(maxAscender, currentCharInfo.ascender); // minDescender = Mathf.Min(minDescender, currentCharInfo.descender); // if (isBeginRegion == false && isCharacterVisible) // { // isBeginRegion = true; // bl = new Vector3(currentCharInfo.bottomLeft.x, currentCharInfo.descender, 0); // tl = new Vector3(currentCharInfo.bottomLeft.x, currentCharInfo.ascender, 0); // //Debug.Log("Start Word Region at [" + currentCharInfo.character + "]"); // // If Word is one character // if (wInfo.characterCount == 1) // { // isBeginRegion = false; // br = new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0); // tr = new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0); // // Transform coordinates to be relative to transform and account min descender and max ascender. // bl = textTransform.TransformPoint(new Vector3(bl.x, minDescender, 0)); // tl = textTransform.TransformPoint(new Vector3(tl.x, maxAscender, 0)); // tr = textTransform.TransformPoint(new Vector3(tr.x, maxAscender, 0)); // br = textTransform.TransformPoint(new Vector3(br.x, minDescender, 0)); // // Check for Intersection // if (PointIntersectRectangle(position, bl, tl, tr, br)) // return i; // //Debug.Log("End Word Region at [" + currentCharInfo.character + "]"); // } // } // // Last Character of Word // if (isBeginRegion && j == wInfo.characterCount - 1) // { // isBeginRegion = false; // br = new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0); // tr = new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0); // // Transform coordinates to be relative to transform and account min descender and max ascender. // bl = textTransform.TransformPoint(new Vector3(bl.x, minDescender, 0)); // tl = textTransform.TransformPoint(new Vector3(tl.x, maxAscender, 0)); // tr = textTransform.TransformPoint(new Vector3(tr.x, maxAscender, 0)); // br = textTransform.TransformPoint(new Vector3(br.x, minDescender, 0)); // // Check for Intersection // if (PointIntersectRectangle(position, bl, tl, tr, br)) // return i; // //Debug.Log("End Word Region at [" + currentCharInfo.character + "]"); // } // // If Word is split on more than one line. // else if (isBeginRegion && currentLine != text.textInfo.characterInfo[characterIndex + 1].lineNumber) // { // isBeginRegion = false; // br = new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0); // tr = new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0); // // Transform coordinates to be relative to transform and account min descender and max ascender. // bl = textTransform.TransformPoint(new Vector3(bl.x, minDescender, 0)); // tl = textTransform.TransformPoint(new Vector3(tl.x, maxAscender, 0)); // tr = textTransform.TransformPoint(new Vector3(tr.x, maxAscender, 0)); // br = textTransform.TransformPoint(new Vector3(br.x, minDescender, 0)); // // Reset maxAscender and minDescender for next word segment. // maxAscender = -Mathf.Infinity; // minDescender = Mathf.Infinity; // // Check for Intersection // if (PointIntersectRectangle(position, bl, tl, tr, br)) // return i; // //Debug.Log("End Word Region at [" + currentCharInfo.character + "]"); // } // } // } // return -1; //} /// /// Function returning the index of the word at the given position (if any). /// /// A reference to the TMP_Text component. /// /// The scene camera which may be assigned to a Canvas using ScreenSpace Camera or WorldSpace render mode. Set to null is using ScreenSpace Overlay. /// public static int FindNearestWord(TMP_Text text, Vector3 position, Camera camera) { RectTransform rectTransform = text.rectTransform; float distanceSqr = Mathf.Infinity; int closest = 0; // Convert position into Worldspace coordinates ScreenPointToWorldPointInRectangle(rectTransform, position, camera, out position); for (int i = 0; i < text.textInfo.wordCount; i++) { TMP_WordInfo wInfo = text.textInfo.wordInfo[i]; bool isBeginRegion = false; Vector3 bl = Vector3.zero; Vector3 tl = Vector3.zero; Vector3 br = Vector3.zero; Vector3 tr = Vector3.zero; // Iterate through each character of the word for (int j = 0; j < wInfo.characterCount; j++) { int characterIndex = wInfo.firstCharacterIndex + j; TMP_CharacterInfo currentCharInfo = text.textInfo.characterInfo[characterIndex]; int currentLine = currentCharInfo.lineNumber; bool isCharacterVisible = currentCharInfo.isVisible; if (isBeginRegion == false && isCharacterVisible) { isBeginRegion = true; bl = rectTransform.TransformPoint(new Vector3(currentCharInfo.bottomLeft.x, currentCharInfo.descender, 0)); tl = rectTransform.TransformPoint(new Vector3(currentCharInfo.bottomLeft.x, currentCharInfo.ascender, 0)); //Debug.Log("Start Word Region at [" + currentCharInfo.character + "]"); // If Word is one character if (wInfo.characterCount == 1) { isBeginRegion = false; br = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0)); tr = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0)); // Check for Intersection if (PointIntersectRectangle(position, bl, tl, tr, br)) return i; // Find the closest line segment to position. float dbl = DistanceToLine(bl, tl, position); float dtl = DistanceToLine(tl, tr, position); float dtr = DistanceToLine(tr, br, position); float dbr = DistanceToLine(br, bl, position); float d = dbl < dtl ? dbl : dtl; d = d < dtr ? d : dtr; d = d < dbr ? d : dbr; if (distanceSqr > d) { distanceSqr = d; closest = i; } } } // Last Character of Word if (isBeginRegion && j == wInfo.characterCount - 1) { isBeginRegion = false; br = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0)); tr = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0)); // Check for Intersection if (PointIntersectRectangle(position, bl, tl, tr, br)) return i; // Find the closest line segment to position. float dbl = DistanceToLine(bl, tl, position); float dtl = DistanceToLine(tl, tr, position); float dtr = DistanceToLine(tr, br, position); float dbr = DistanceToLine(br, bl, position); float d = dbl < dtl ? dbl : dtl; d = d < dtr ? d : dtr; d = d < dbr ? d : dbr; if (distanceSqr > d) { distanceSqr = d; closest = i; } } // If Word is split on more than one line. else if (isBeginRegion && currentLine != text.textInfo.characterInfo[characterIndex + 1].lineNumber) { isBeginRegion = false; br = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0)); tr = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0)); // Check for Intersection if (PointIntersectRectangle(position, bl, tl, tr, br)) return i; // Find the closest line segment to position. float dbl = DistanceToLine(bl, tl, position); float dtl = DistanceToLine(tl, tr, position); float dtr = DistanceToLine(tr, br, position); float dbr = DistanceToLine(br, bl, position); float d = dbl < dtl ? dbl : dtl; d = d < dtr ? d : dtr; d = d < dbr ? d : dbr; if (distanceSqr > d) { distanceSqr = d; closest = i; } } } //Debug.Log("Word at Index: " + i + " is located at (" + bl + ", " + tl + ", " + tr + ", " + br + ")."); } return closest; } /// /// Function returning the index of the word at the given position (if any). /// /// A reference to the TextMeshPro UGUI component. /// /// The scene camera which may be assigned to a Canvas using ScreenSpace Camera or WorldSpace render mode. Set to null is using ScreenSpace Overlay. /// //public static int FindNearestWord(TextMeshProUGUI text, Vector3 position, Camera camera) //{ // RectTransform rectTransform = text.rectTransform; // float distanceSqr = Mathf.Infinity; // int closest = 0; // // Convert position into Worldspace coordinates // ScreenPointToWorldPointInRectangle(rectTransform, position, camera, out position); // for (int i = 0; i < text.textInfo.wordCount; i++) // { // TMP_WordInfo wInfo = text.textInfo.wordInfo[i]; // bool isBeginRegion = false; // Vector3 bl = Vector3.zero; // Vector3 tl = Vector3.zero; // Vector3 br = Vector3.zero; // Vector3 tr = Vector3.zero; // // Iterate through each character of the word // for (int j = 0; j < wInfo.characterCount; j++) // { // int characterIndex = wInfo.firstCharacterIndex + j; // TMP_CharacterInfo currentCharInfo = text.textInfo.characterInfo[characterIndex]; // int currentLine = currentCharInfo.lineNumber; // bool isCharacterVisible = characterIndex > text.maxVisibleCharacters || // currentCharInfo.lineNumber > text.maxVisibleLines || // (text.OverflowMode == TextOverflowModes.Page && currentCharInfo.pageNumber + 1 != text.pageToDisplay) ? false : true; // if (isBeginRegion == false && isCharacterVisible) // { // isBeginRegion = true; // bl = rectTransform.TransformPoint(new Vector3(currentCharInfo.bottomLeft.x, currentCharInfo.descender, 0)); // tl = rectTransform.TransformPoint(new Vector3(currentCharInfo.bottomLeft.x, currentCharInfo.ascender, 0)); // //Debug.Log("Start Word Region at [" + currentCharInfo.character + "]"); // // If Word is one character // if (wInfo.characterCount == 1) // { // isBeginRegion = false; // br = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0)); // tr = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0)); // // Check for Intersection // if (PointIntersectRectangle(position, bl, tl, tr, br)) // return i; // //Debug.Log("End Word Region at [" + currentCharInfo.character + "]"); // } // } // // Last Character of Word // if (isBeginRegion && j == wInfo.characterCount - 1) // { // isBeginRegion = false; // br = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0)); // tr = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0)); // // Check for Intersection // if (PointIntersectRectangle(position, bl, tl, tr, br)) // return i; // //Debug.Log("End Word Region at [" + currentCharInfo.character + "]"); // } // // If Word is split on more than one line. // else if (isBeginRegion && currentLine != text.textInfo.characterInfo[characterIndex + 1].lineNumber) // { // isBeginRegion = false; // br = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0)); // tr = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0)); // // Check for Intersection // if (PointIntersectRectangle(position, bl, tl, tr, br)) // return i; // //Debug.Log("End Word Region at [" + currentCharInfo.character + "]"); // } // } // // Find the closest line segment to position. // float dbl = DistanceToLine(bl, tl, position); // (position - bl).sqrMagnitude; // float dtl = DistanceToLine(tl, tr, position); // (position - tl).sqrMagnitude; // float dtr = DistanceToLine(tr, br, position); // (position - tr).sqrMagnitude; // float dbr = DistanceToLine(br, bl, position); // (position - br).sqrMagnitude; // float d = dbl < dtl ? dbl : dtl; // d = d < dtr ? d : dtr; // d = d < dbr ? d : dbr; // if (distanceSqr > d) // { // distanceSqr = d; // closest = i; // } // //Debug.Log("Word at Index: " + i + " is located at (" + bl + ", " + tl + ", " + tr + ", " + br + ")."); // } // return closest; //} /// /// Function returning the index of the word at the given position (if any). /// /// A reference to the TextMeshPro UGUI component. /// Position to check for intersection. /// The camera which is rendering the text object. /// //public static int FindNearestWord(TextMeshPro text, Vector3 position, Camera camera) //{ // Transform textTransform = text.transform; // float distanceSqr = Mathf.Infinity; // int closest = 0; // // Convert position into Worldspace coordinates // ScreenPointToWorldPointInRectangle(textTransform, position, camera, out position); // for (int i = 0; i < text.textInfo.wordCount; i++) // { // TMP_WordInfo wInfo = text.textInfo.wordInfo[i]; // bool isBeginRegion = false; // Vector3 bl = Vector3.zero; // Vector3 tl = Vector3.zero; // Vector3 br = Vector3.zero; // Vector3 tr = Vector3.zero; // // Iterate through each character of the word // for (int j = 0; j < wInfo.characterCount; j++) // { // int characterIndex = wInfo.firstCharacterIndex + j; // TMP_CharacterInfo currentCharInfo = text.textInfo.characterInfo[characterIndex]; // int currentLine = currentCharInfo.lineNumber; // bool isCharacterVisible = characterIndex > text.maxVisibleCharacters || // currentCharInfo.lineNumber > text.maxVisibleLines || // (text.OverflowMode == TextOverflowModes.Page && currentCharInfo.pageNumber + 1 != text.pageToDisplay) ? false : true; // if (isBeginRegion == false && isCharacterVisible) // { // isBeginRegion = true; // bl = textTransform.TransformPoint(new Vector3(currentCharInfo.bottomLeft.x, currentCharInfo.descender, 0)); // tl = textTransform.TransformPoint(new Vector3(currentCharInfo.bottomLeft.x, currentCharInfo.ascender, 0)); // //Debug.Log("Start Word Region at [" + currentCharInfo.character + "]"); // // If Word is one character // if (wInfo.characterCount == 1) // { // isBeginRegion = false; // br = textTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0)); // tr = textTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0)); // // Check for Intersection // if (PointIntersectRectangle(position, bl, tl, tr, br)) // return i; // //Debug.Log("End Word Region at [" + currentCharInfo.character + "]"); // } // } // // Last Character of Word // if (isBeginRegion && j == wInfo.characterCount - 1) // { // isBeginRegion = false; // br = textTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0)); // tr = textTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0)); // // Check for Intersection // if (PointIntersectRectangle(position, bl, tl, tr, br)) // return i; // //Debug.Log("End Word Region at [" + currentCharInfo.character + "]"); // } // // If Word is split on more than one line. // else if (isBeginRegion && currentLine != text.textInfo.characterInfo[characterIndex + 1].lineNumber) // { // isBeginRegion = false; // br = textTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0)); // tr = textTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0)); // // Check for Intersection // if (PointIntersectRectangle(position, bl, tl, tr, br)) // return i; // //Debug.Log("End Word Region at [" + currentCharInfo.character + "]"); // } // } // // Find the closest line segment to position. // float dbl = DistanceToLine(bl, tl, position); // float dtl = DistanceToLine(tl, tr, position); // float dtr = DistanceToLine(tr, br, position); // float dbr = DistanceToLine(br, bl, position); // float d = dbl < dtl ? dbl : dtl; // d = d < dtr ? d : dtr; // d = d < dbr ? d : dbr; // if (distanceSqr > d) // { // distanceSqr = d; // closest = i; // } // //Debug.Log("Word at Index: " + i + " is located at (" + bl + ", " + tl + ", " + tr + ", " + br + ")."); // } // return closest; //} /// /// Function returning the line intersecting the position. /// /// /// /// /// public static int FindIntersectingLine(TMP_Text text, Vector3 position, Camera camera) { RectTransform rectTransform = text.rectTransform; int closest = -1; // Convert position into Worldspace coordinates ScreenPointToWorldPointInRectangle(rectTransform, position, camera, out position); for (int i = 0; i < text.textInfo.lineCount; i++) { TMP_LineInfo lineInfo = text.textInfo.lineInfo[i]; float ascender = rectTransform.TransformPoint(new Vector3(0, lineInfo.ascender, 0)).y; float descender = rectTransform.TransformPoint(new Vector3(0, lineInfo.descender, 0)).y; if (ascender > position.y && descender < position.y) { //Debug.Log("Position is on line " + i); return i; } } //Debug.Log("Closest line to position is " + closest); return closest; } /// /// Function returning the index of the Link at the given position (if any). /// /// A reference to the TMP_Text component. /// Position to check for intersection. /// The scene camera which may be assigned to a Canvas using ScreenSpace Camera or WorldSpace render mode. Set to null is using ScreenSpace Overlay. /// public static int FindIntersectingLink(TMP_Text text, Vector3 position, Camera camera) { Transform rectTransform = text.transform; // Convert position into Worldspace coordinates ScreenPointToWorldPointInRectangle(rectTransform, position, camera, out position); for (int i = 0; i < text.textInfo.linkCount; i++) { TMP_LinkInfo linkInfo = text.textInfo.linkInfo[i]; bool isBeginRegion = false; Vector3 bl = Vector3.zero; Vector3 tl = Vector3.zero; Vector3 br = Vector3.zero; Vector3 tr = Vector3.zero; // Iterate through each character of the word for (int j = 0; j < linkInfo.linkTextLength; j++) { int characterIndex = linkInfo.linkTextfirstCharacterIndex + j; TMP_CharacterInfo currentCharInfo = text.textInfo.characterInfo[characterIndex]; int currentLine = currentCharInfo.lineNumber; // Check if Link characters are on the current page if (text.overflowMode == TextOverflowModes.Page && currentCharInfo.pageNumber + 1 != text.pageToDisplay) continue; if (isBeginRegion == false) { isBeginRegion = true; bl = rectTransform.TransformPoint(new Vector3(currentCharInfo.bottomLeft.x, currentCharInfo.descender, 0)); tl = rectTransform.TransformPoint(new Vector3(currentCharInfo.bottomLeft.x, currentCharInfo.ascender, 0)); //Debug.Log("Start Word Region at [" + currentCharInfo.character + "]"); // If Word is one character if (linkInfo.linkTextLength == 1) { isBeginRegion = false; br = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0)); tr = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0)); // Check for Intersection if (PointIntersectRectangle(position, bl, tl, tr, br)) return i; //Debug.Log("End Word Region at [" + currentCharInfo.character + "]"); } } // Last Character of Word if (isBeginRegion && j == linkInfo.linkTextLength - 1) { isBeginRegion = false; br = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0)); tr = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0)); // Check for Intersection if (PointIntersectRectangle(position, bl, tl, tr, br)) return i; //Debug.Log("End Word Region at [" + currentCharInfo.character + "]"); } // If Word is split on more than one line. else if (isBeginRegion && currentLine != text.textInfo.characterInfo[characterIndex + 1].lineNumber) { isBeginRegion = false; br = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0)); tr = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0)); // Check for Intersection if (PointIntersectRectangle(position, bl, tl, tr, br)) return i; //Debug.Log("End Word Region at [" + currentCharInfo.character + "]"); } } //Debug.Log("Word at Index: " + i + " is located at (" + bl + ", " + tl + ", " + tr + ", " + br + ")."); } return -1; } /// /// Function returning the index of the Link at the given position (if any). /// /// A reference to the TextMeshPro UGUI component. /// Position to check for intersection. /// The scene camera which may be assigned to a Canvas using ScreenSpace Camera or WorldSpace render mode. Set to null is using ScreenSpace Overlay. /// //public static int FindIntersectingLink(TextMeshProUGUI text, Vector3 position, Camera camera) //{ // Transform rectTransform = text.transform; // // Convert position into Worldspace coordinates // ScreenPointToWorldPointInRectangle(rectTransform, position, camera, out position); // for (int i = 0; i < text.textInfo.linkCount; i++) // { // TMP_LinkInfo linkInfo = text.textInfo.linkInfo[i]; // bool isBeginRegion = false; // Vector3 bl = Vector3.zero; // Vector3 tl = Vector3.zero; // Vector3 br = Vector3.zero; // Vector3 tr = Vector3.zero; // // Iterate through each character of the word // for (int j = 0; j < linkInfo.linkTextLength; j++) // { // int characterIndex = linkInfo.linkTextfirstCharacterIndex + j; // TMP_CharacterInfo currentCharInfo = text.textInfo.characterInfo[characterIndex]; // int currentLine = currentCharInfo.lineNumber; // // Check if Link characters are on the current page // if (text.OverflowMode == TextOverflowModes.Page && currentCharInfo.pageNumber + 1 != text.pageToDisplay) continue; // if (isBeginRegion == false) // { // isBeginRegion = true; // bl = rectTransform.TransformPoint(new Vector3(currentCharInfo.bottomLeft.x, currentCharInfo.descender, 0)); // tl = rectTransform.TransformPoint(new Vector3(currentCharInfo.bottomLeft.x, currentCharInfo.ascender, 0)); // //Debug.Log("Start Word Region at [" + currentCharInfo.character + "]"); // // If Word is one character // if (linkInfo.linkTextLength == 1) // { // isBeginRegion = false; // br = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0)); // tr = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0)); // // Check for Intersection // if (PointIntersectRectangle(position, bl, tl, tr, br)) // return i; // //Debug.Log("End Word Region at [" + currentCharInfo.character + "]"); // } // } // // Last Character of Word // if (isBeginRegion && j == linkInfo.linkTextLength - 1) // { // isBeginRegion = false; // br = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0)); // tr = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0)); // // Check for Intersection // if (PointIntersectRectangle(position, bl, tl, tr, br)) // return i; // //Debug.Log("End Word Region at [" + currentCharInfo.character + "]"); // } // // If Word is split on more than one line. // else if (isBeginRegion && currentLine != text.textInfo.characterInfo[characterIndex + 1].lineNumber) // { // isBeginRegion = false; // br = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0)); // tr = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0)); // // Check for Intersection // if (PointIntersectRectangle(position, bl, tl, tr, br)) // return i; // //Debug.Log("End Word Region at [" + currentCharInfo.character + "]"); // } // } // //Debug.Log("Word at Index: " + i + " is located at (" + bl + ", " + tl + ", " + tr + ", " + br + ")."); // } // return -1; //} /// /// Function returning the index of the Link at the given position (if any). /// /// A reference to the TextMeshPro component. /// Position to check for intersection. /// The camera which is rendering the text object. /// //public static int FindIntersectingLink(TextMeshPro text, Vector3 position, Camera camera) //{ // Transform textTransform = text.transform; // // Convert position into Worldspace coordinates // ScreenPointToWorldPointInRectangle(textTransform, position, camera, out position); // for (int i = 0; i < text.textInfo.linkCount; i++) // { // TMP_LinkInfo linkInfo = text.textInfo.linkInfo[i]; // bool isBeginRegion = false; // Vector3 bl = Vector3.zero; // Vector3 tl = Vector3.zero; // Vector3 br = Vector3.zero; // Vector3 tr = Vector3.zero; // // Iterate through each character of the word // for (int j = 0; j < linkInfo.linkTextLength; j++) // { // int characterIndex = linkInfo.linkTextfirstCharacterIndex + j; // TMP_CharacterInfo currentCharInfo = text.textInfo.characterInfo[characterIndex]; // int currentLine = currentCharInfo.lineNumber; // // Check if Link characters are on the current page // if (text.OverflowMode == TextOverflowModes.Page && currentCharInfo.pageNumber + 1 != text.pageToDisplay) continue; // if (isBeginRegion == false) // { // isBeginRegion = true; // bl = textTransform.TransformPoint(new Vector3(currentCharInfo.bottomLeft.x, currentCharInfo.descender, 0)); // tl = textTransform.TransformPoint(new Vector3(currentCharInfo.bottomLeft.x, currentCharInfo.ascender, 0)); // //Debug.Log("Start Word Region at [" + currentCharInfo.character + "]"); // // If Word is one character // if (linkInfo.linkTextLength == 1) // { // isBeginRegion = false; // br = textTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0)); // tr = textTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0)); // // Check for Intersection // if (PointIntersectRectangle(position, bl, tl, tr, br)) // return i; // //Debug.Log("End Word Region at [" + currentCharInfo.character + "]"); // } // } // // Last Character of Word // if (isBeginRegion && j == linkInfo.linkTextLength - 1) // { // isBeginRegion = false; // br = textTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0)); // tr = textTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0)); // // Check for Intersection // if (PointIntersectRectangle(position, bl, tl, tr, br)) // return i; // //Debug.Log("End Word Region at [" + currentCharInfo.character + "]"); // } // // If Word is split on more than one line. // else if (isBeginRegion && currentLine != text.textInfo.characterInfo[characterIndex + 1].lineNumber) // { // isBeginRegion = false; // br = textTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0)); // tr = textTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0)); // // Check for Intersection // if (PointIntersectRectangle(position, bl, tl, tr, br)) // return i; // //Debug.Log("End Word Region at [" + currentCharInfo.character + "]"); // } // } // //Debug.Log("Word at Index: " + i + " is located at (" + bl + ", " + tl + ", " + tr + ", " + br + ")."); // } // return -1; //} /// /// Function returning the index of the word at the given position (if any). /// /// A reference to the TMP_Text component. /// Position to check for intersection. /// The scene camera which may be assigned to a Canvas using ScreenSpace Camera or WorldSpace render mode. Set to null is using ScreenSpace Overlay. /// public static int FindNearestLink(TMP_Text text, Vector3 position, Camera camera) { RectTransform rectTransform = text.rectTransform; // Convert position into Worldspace coordinates ScreenPointToWorldPointInRectangle(rectTransform, position, camera, out position); float distanceSqr = Mathf.Infinity; int closest = 0; for (int i = 0; i < text.textInfo.linkCount; i++) { TMP_LinkInfo linkInfo = text.textInfo.linkInfo[i]; bool isBeginRegion = false; Vector3 bl = Vector3.zero; Vector3 tl = Vector3.zero; Vector3 br = Vector3.zero; Vector3 tr = Vector3.zero; // Iterate through each character of the link for (int j = 0; j < linkInfo.linkTextLength; j++) { int characterIndex = linkInfo.linkTextfirstCharacterIndex + j; TMP_CharacterInfo currentCharInfo = text.textInfo.characterInfo[characterIndex]; int currentLine = currentCharInfo.lineNumber; // Check if Link characters are on the current page if (text.overflowMode == TextOverflowModes.Page && currentCharInfo.pageNumber + 1 != text.pageToDisplay) continue; if (isBeginRegion == false) { isBeginRegion = true; //Debug.Log("Start Word Region at [" + currentCharInfo.character + "]"); bl = rectTransform.TransformPoint(new Vector3(currentCharInfo.bottomLeft.x, currentCharInfo.descender, 0)); tl = rectTransform.TransformPoint(new Vector3(currentCharInfo.bottomLeft.x, currentCharInfo.ascender, 0)); // If Link is one character if (linkInfo.linkTextLength == 1) { isBeginRegion = false; br = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0)); tr = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0)); // Check for Intersection if (PointIntersectRectangle(position, bl, tl, tr, br)) return i; // Find the closest line segment to position. float dbl = DistanceToLine(bl, tl, position); float dtl = DistanceToLine(tl, tr, position); float dtr = DistanceToLine(tr, br, position); float dbr = DistanceToLine(br, bl, position); float d = dbl < dtl ? dbl : dtl; d = d < dtr ? d : dtr; d = d < dbr ? d : dbr; if (distanceSqr > d) { distanceSqr = d; closest = i; } } } // Last Character of Word if (isBeginRegion && j == linkInfo.linkTextLength - 1) { isBeginRegion = false; br = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0)); tr = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0)); // Check for Intersection if (PointIntersectRectangle(position, bl, tl, tr, br)) return i; // Find the closest line segment to position. float dbl = DistanceToLine(bl, tl, position); float dtl = DistanceToLine(tl, tr, position); float dtr = DistanceToLine(tr, br, position); float dbr = DistanceToLine(br, bl, position); float d = dbl < dtl ? dbl : dtl; d = d < dtr ? d : dtr; d = d < dbr ? d : dbr; if (distanceSqr > d) { distanceSqr = d; closest = i; } } // If Link is split on more than one line. else if (isBeginRegion && currentLine != text.textInfo.characterInfo[characterIndex + 1].lineNumber) { isBeginRegion = false; br = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0)); tr = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0)); // Check for Intersection if (PointIntersectRectangle(position, bl, tl, tr, br)) return i; // Find the closest line segment to position. float dbl = DistanceToLine(bl, tl, position); float dtl = DistanceToLine(tl, tr, position); float dtr = DistanceToLine(tr, br, position); float dbr = DistanceToLine(br, bl, position); float d = dbl < dtl ? dbl : dtl; d = d < dtr ? d : dtr; d = d < dbr ? d : dbr; if (distanceSqr > d) { distanceSqr = d; closest = i; } } } //Debug.Log("Word at Index: " + i + " is located at (" + bl + ", " + tl + ", " + tr + ", " + br + ")."); } return closest; } /// /// Function returning the index of the word at the given position (if any). /// /// A reference to the TextMeshPro UGUI component. /// Position to check for intersection. /// The scene camera which may be assigned to a Canvas using ScreenSpace Camera or WorldSpace render mode. Set to null is using ScreenSpace Overlay. /// //public static int FindNearestLink(TextMeshProUGUI text, Vector3 position, Camera camera) //{ // RectTransform rectTransform = text.rectTransform; // // Convert position into Worldspace coordinates // ScreenPointToWorldPointInRectangle(rectTransform, position, camera, out position); // float distanceSqr = Mathf.Infinity; // int closest = 0; // for (int i = 0; i < text.textInfo.linkCount; i++) // { // TMP_LinkInfo linkInfo = text.textInfo.linkInfo[i]; // bool isBeginRegion = false; // Vector3 bl = Vector3.zero; // Vector3 tl = Vector3.zero; // Vector3 br = Vector3.zero; // Vector3 tr = Vector3.zero; // // Iterate through each character of the word // for (int j = 0; j < linkInfo.linkTextLength; j++) // { // int characterIndex = linkInfo.linkTextfirstCharacterIndex + j; // TMP_CharacterInfo currentCharInfo = text.textInfo.characterInfo[characterIndex]; // int currentLine = currentCharInfo.lineNumber; // if (isBeginRegion == false) // { // isBeginRegion = true; // bl = rectTransform.TransformPoint(new Vector3(currentCharInfo.bottomLeft.x, currentCharInfo.descender, 0)); // tl = rectTransform.TransformPoint(new Vector3(currentCharInfo.bottomLeft.x, currentCharInfo.ascender, 0)); // //Debug.Log("Start Word Region at [" + currentCharInfo.character + "]"); // // If Word is one character // if (linkInfo.linkTextLength == 1) // { // isBeginRegion = false; // br = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0)); // tr = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0)); // // Check for Intersection // if (PointIntersectRectangle(position, bl, tl, tr, br)) // return i; // //Debug.Log("End Word Region at [" + currentCharInfo.character + "]"); // } // } // // Last Character of Word // if (isBeginRegion && j == linkInfo.linkTextLength - 1) // { // isBeginRegion = false; // br = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0)); // tr = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0)); // // Check for Intersection // if (PointIntersectRectangle(position, bl, tl, tr, br)) // return i; // //Debug.Log("End Word Region at [" + currentCharInfo.character + "]"); // } // // If Word is split on more than one line. // else if (isBeginRegion && currentLine != text.textInfo.characterInfo[characterIndex + 1].lineNumber) // { // isBeginRegion = false; // br = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0)); // tr = rectTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0)); // // Check for Intersection // if (PointIntersectRectangle(position, bl, tl, tr, br)) // return i; // //Debug.Log("End Word Region at [" + currentCharInfo.character + "]"); // } // } // // Find the closest line segment to position. // float dbl = DistanceToLine(bl, tl, position); // (position - bl).sqrMagnitude; // float dtl = DistanceToLine(tl, tr, position); // (position - tl).sqrMagnitude; // float dtr = DistanceToLine(tr, br, position); // (position - tr).sqrMagnitude; // float dbr = DistanceToLine(br, bl, position); // (position - br).sqrMagnitude; // float d = dbl < dtl ? dbl : dtl; // d = d < dtr ? d : dtr; // d = d < dbr ? d : dbr; // if (distanceSqr > d) // { // distanceSqr = d; // closest = i; // } // //Debug.Log("Word at Index: " + i + " is located at (" + bl + ", " + tl + ", " + tr + ", " + br + ")."); // } // return closest; //} /// /// Function returning the index of the word at the given position (if any). /// /// A reference to the TextMeshPro component. /// Position to check for intersection. /// The camera which is rendering the text object. /// //public static int FindNearestLink(TextMeshPro text, Vector3 position, Camera camera) //{ // Transform textTransform = text.transform; // // Convert position into Worldspace coordinates // ScreenPointToWorldPointInRectangle(textTransform, position, camera, out position); // float distanceSqr = Mathf.Infinity; // int closest = 0; // for (int i = 0; i < text.textInfo.linkCount; i++) // { // TMP_LinkInfo linkInfo = text.textInfo.linkInfo[i]; // bool isBeginRegion = false; // Vector3 bl = Vector3.zero; // Vector3 tl = Vector3.zero; // Vector3 br = Vector3.zero; // Vector3 tr = Vector3.zero; // // Iterate through each character of the word // for (int j = 0; j < linkInfo.linkTextLength; j++) // { // int characterIndex = linkInfo.linkTextfirstCharacterIndex + j; // TMP_CharacterInfo currentCharInfo = text.textInfo.characterInfo[characterIndex]; // int currentLine = currentCharInfo.lineNumber; // if (isBeginRegion == false) // { // isBeginRegion = true; // bl = textTransform.TransformPoint(new Vector3(currentCharInfo.bottomLeft.x, currentCharInfo.descender, 0)); // tl = textTransform.TransformPoint(new Vector3(currentCharInfo.bottomLeft.x, currentCharInfo.ascender, 0)); // //Debug.Log("Start Word Region at [" + currentCharInfo.character + "]"); // // If Word is one character // if (linkInfo.linkTextLength == 1) // { // isBeginRegion = false; // br = textTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0)); // tr = textTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0)); // // Check for Intersection // if (PointIntersectRectangle(position, bl, tl, tr, br)) // return i; // //Debug.Log("End Word Region at [" + currentCharInfo.character + "]"); // } // } // // Last Character of Word // if (isBeginRegion && j == linkInfo.linkTextLength - 1) // { // isBeginRegion = false; // br = textTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0)); // tr = textTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0)); // // Check for Intersection // if (PointIntersectRectangle(position, bl, tl, tr, br)) // return i; // //Debug.Log("End Word Region at [" + currentCharInfo.character + "]"); // } // // If Word is split on more than one line. // else if (isBeginRegion && currentLine != text.textInfo.characterInfo[characterIndex + 1].lineNumber) // { // isBeginRegion = false; // br = textTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.descender, 0)); // tr = textTransform.TransformPoint(new Vector3(currentCharInfo.topRight.x, currentCharInfo.ascender, 0)); // // Check for Intersection // if (PointIntersectRectangle(position, bl, tl, tr, br)) // return i; // //Debug.Log("End Word Region at [" + currentCharInfo.character + "]"); // } // } // // Find the closest line segment to position. // float dbl = DistanceToLine(bl, tl, position); // float dtl = DistanceToLine(tl, tr, position); // float dtr = DistanceToLine(tr, br, position); // float dbr = DistanceToLine(br, bl, position); // float d = dbl < dtl ? dbl : dtl; // d = d < dtr ? d : dtr; // d = d < dbr ? d : dbr; // if (distanceSqr > d) // { // distanceSqr = d; // closest = i; // } // //Debug.Log("Word at Index: " + i + " is located at (" + bl + ", " + tl + ", " + tr + ", " + br + ")."); // } // return closest; //} /// /// Function to check if a Point is contained within a Rectangle. /// /// /// /// /// /// /// private static bool PointIntersectRectangle(Vector3 m, Vector3 a, Vector3 b, Vector3 c, Vector3 d) { Vector3 ab = b - a; Vector3 am = m - a; Vector3 bc = c - b; Vector3 bm = m - b; float abamDot = Vector3.Dot(ab, am); float bcbmDot = Vector3.Dot(bc, bm); return 0 <= abamDot && abamDot <= Vector3.Dot(ab, ab) && 0 <= bcbmDot && bcbmDot <= Vector3.Dot(bc, bc); } /// /// Method to convert ScreenPoint to WorldPoint aligned with Rectangle /// /// /// /// /// /// public static bool ScreenPointToWorldPointInRectangle(Transform transform, Vector2 screenPoint, Camera cam, out Vector3 worldPoint) { worldPoint = (Vector3)Vector2.zero; Ray ray = RectTransformUtility.ScreenPointToRay(cam, screenPoint); float enter; if (!new Plane(transform.rotation * Vector3.back, transform.position).Raycast(ray, out enter)) return false; worldPoint = ray.GetPoint(enter); return true; } private struct LineSegment { public Vector3 Point1; public Vector3 Point2; public LineSegment(Vector3 p1, Vector3 p2) { Point1 = p1; Point2 = p2; } } /// /// Function returning the point of intersection between a line and a plane. /// /// /// /// /// /// private static bool IntersectLinePlane(LineSegment line, Vector3 point, Vector3 normal, out Vector3 intersectingPoint) { intersectingPoint = Vector3.zero; Vector3 u = line.Point2 - line.Point1; Vector3 w = line.Point1 - point; float D = Vector3.Dot(normal, u); float N = -Vector3.Dot(normal, w); if (Mathf.Abs(D) < Mathf.Epsilon) // if line is parallel & co-planar to plane { if (N == 0) return true; else return false; } float sI = N / D; if (sI < 0 || sI > 1) // Line parallel to plane return false; intersectingPoint = line.Point1 + sI * u; return true; } /// /// Function returning the Square Distance from a Point to a Line. /// /// /// /// /// public static float DistanceToLine(Vector3 a, Vector3 b, Vector3 point) { Vector3 n = b - a; Vector3 pa = a - point; float c = Vector3.Dot( n, pa ); // Closest point is a if ( c > 0.0f ) return Vector3.Dot( pa, pa ); Vector3 bp = point - b; // Closest point is b if (Vector3.Dot( n, bp ) > 0.0f ) return Vector3.Dot( bp, bp ); // Closest point is between a and b Vector3 e = pa - n * (c / Vector3.Dot( n, n )); return Vector3.Dot( e, e ); } /// /// Function returning the Square Distance from a Point to a Line and Direction. /// /// /// /// /// -1 left, 0 in between, 1 right /// //public static float DistanceToLineDirectional(Vector3 a, Vector3 b, Vector3 point, ref int direction) //{ // Vector3 n = b - a; // Vector3 pa = a - point; // float c = Vector3.Dot(n, pa); // direction = -1; // // Closest point is a // if (c > 0.0f) // return Vector3.Dot(pa, pa); // Vector3 bp = point - b; // direction = 1; // // Closest point is b // if (Vector3.Dot(n, bp) > 0.0f) // return Vector3.Dot(bp, bp); // // Closest point is between a and b // Vector3 e = pa - n * (c / Vector3.Dot(n, n)); // direction = 0; // return Vector3.Dot(e, e); //} /// /// Table used to convert character to lowercase. /// const string k_lookupStringL = "-------------------------------- !-#$%&-()*+,-./0123456789:;<=>?@abcdefghijklmnopqrstuvwxyz[-]^_`abcdefghijklmnopqrstuvwxyz{|}~-"; /// /// Table used to convert character to uppercase. /// const string k_lookupStringU = "-------------------------------- !-#$%&-()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[-]^_`ABCDEFGHIJKLMNOPQRSTUVWXYZ{|}~-"; /// /// Get lowercase version of this ASCII character. /// public static char ToLowerFast(char c) { if (c > k_lookupStringL.Length - 1) return c; return k_lookupStringL[c]; } /// /// Get uppercase version of this ASCII character. /// public static char ToUpperFast(char c) { if (c > k_lookupStringU.Length - 1) return c; return k_lookupStringU[c]; } /// /// Get uppercase version of this ASCII character. /// internal static uint ToUpperASCIIFast(uint c) { if (c > k_lookupStringU.Length - 1) return c; return k_lookupStringU[(int)c]; } /// /// Returns the case insensitive hashcode for the given string. /// /// /// public static int GetHashCode(string s) { if (string.IsNullOrEmpty(s)) return 0; int hashCode = 0; for (int i = 0; i < s.Length; i++) hashCode = ((hashCode << 5) + hashCode) ^ ToUpperFast(s[i]); return hashCode; } /// /// Function which returns a simple hashcode from a string. /// /// public static int GetSimpleHashCode(string s) { int hashCode = 0; for (int i = 0; i < s.Length; i++) hashCode = ((hashCode << 5) + hashCode) ^ s[i]; return hashCode; } /// /// Function which returns a simple hashcode from a string converted to lowercase. /// /// public static uint GetSimpleHashCodeLowercase(string s) { uint hashCode = 5381; for (int i = 0; i < s.Length; i++) hashCode = (hashCode << 5) + hashCode ^ ToLowerFast(s[i]); return hashCode; } /// /// Function which returns a simple hash code from a string converted to uppercase. /// /// The string from which to compute the hash code. /// The computed hash code. public static uint GetHashCodeCaseInSensitive(string s) { uint hashCode = 0; for (int i = 0; i < s.Length; i++) hashCode = (hashCode << 5) + hashCode ^ ToUpperFast(s[i]); return hashCode; } /// /// Function to convert Hex to Int /// /// /// public static int HexToInt(char hex) { switch (hex) { case '0': return 0; case '1': return 1; case '2': return 2; case '3': return 3; case '4': return 4; case '5': return 5; case '6': return 6; case '7': return 7; case '8': return 8; case '9': return 9; case 'A': return 10; case 'B': return 11; case 'C': return 12; case 'D': return 13; case 'E': return 14; case 'F': return 15; case 'a': return 10; case 'b': return 11; case 'c': return 12; case 'd': return 13; case 'e': return 14; case 'f': return 15; } return 15; } /// /// Function to convert a properly formatted string which contains an hex value to its decimal value. /// /// /// public static int StringHexToInt(string s) { int value = 0; for (int i = 0; i < s.Length; i++) { value += HexToInt(s[i]) * (int)Mathf.Pow(16, (s.Length - 1) - i); } return value; } } }