using System; using System.Diagnostics; using UnityEngine; namespace TMPro { /// /// Structure used to track basic XML tags which are binary (on / off) /// public struct TMP_FontStyleStack { public byte bold; public byte italic; public byte underline; public byte strikethrough; public byte highlight; public byte superscript; public byte subscript; public byte uppercase; public byte lowercase; public byte smallcaps; /// /// Clear the basic XML tag stack. /// public void Clear() { bold = 0; italic = 0; underline = 0; strikethrough = 0; highlight = 0; superscript = 0; subscript = 0; uppercase = 0; lowercase = 0; smallcaps = 0; } public byte Add(FontStyles style) { switch (style) { case FontStyles.Bold: bold++; return bold; case FontStyles.Italic: italic++; return italic; case FontStyles.Underline: underline++; return underline; case FontStyles.Strikethrough: strikethrough++; return strikethrough; case FontStyles.Superscript: superscript++; return superscript; case FontStyles.Subscript: subscript++; return subscript; case FontStyles.Highlight: highlight++; return highlight; } return 0; } public byte Remove(FontStyles style) { switch (style) { case FontStyles.Bold: if (bold > 1) bold--; else bold = 0; return bold; case FontStyles.Italic: if (italic > 1) italic--; else italic = 0; return italic; case FontStyles.Underline: if (underline > 1) underline--; else underline = 0; return underline; case FontStyles.Strikethrough: if (strikethrough > 1) strikethrough--; else strikethrough = 0; return strikethrough; case FontStyles.Highlight: if (highlight > 1) highlight--; else highlight = 0; return highlight; case FontStyles.Superscript: if (superscript > 1) superscript--; else superscript = 0; return superscript; case FontStyles.Subscript: if (subscript > 1) subscript--; else subscript = 0; return subscript; } return 0; } } /// /// Structure used to track XML tags of various types. /// /// [DebuggerDisplay("Item count = {m_Count}")] public struct TMP_TextProcessingStack { public T[] itemStack; public int index; T m_DefaultItem; int m_Capacity; int m_RolloverSize; int m_Count; const int k_DefaultCapacity = 4; /// /// Constructor to create a new item stack. /// /// public TMP_TextProcessingStack(T[] stack) { itemStack = stack; m_Capacity = stack.Length; index = 0; m_RolloverSize = 0; m_DefaultItem = default; m_Count = 0; } /// /// Constructor for a new item stack with the given capacity. /// /// public TMP_TextProcessingStack(int capacity) { itemStack = new T[capacity]; m_Capacity = capacity; index = 0; m_RolloverSize = 0; m_DefaultItem = default; m_Count = 0; } public TMP_TextProcessingStack(int capacity, int rolloverSize) { itemStack = new T[capacity]; m_Capacity = capacity; index = 0; m_RolloverSize = rolloverSize; m_DefaultItem = default; m_Count = 0; } /// /// /// public int Count { get { return m_Count; } } /// /// Returns the current item on the stack. /// public T current { get { if (index > 0) return itemStack[index - 1]; return itemStack[0]; } } /// /// /// public int rolloverSize { get { return m_RolloverSize; } set { m_RolloverSize = value; //if (m_Capacity < m_RolloverSize) // Array.Resize(ref itemStack, m_RolloverSize); } } /// /// Function to clear and reset stack to first item. /// public void Clear() { index = 0; m_Count = 0; } /// /// Function to set the first item on the stack and reset index. /// /// public void SetDefault(T item) { if (itemStack == null) { m_Capacity = k_DefaultCapacity; itemStack = new T[m_Capacity]; m_DefaultItem = default; } itemStack[0] = item; index = 1; } /// /// Function to add a new item to the stack. /// /// public void Add(T item) { if (index < itemStack.Length) { itemStack[index] = item; index += 1; } } /// /// Function to retrieve an item from the stack. /// /// public T Remove() { index -= 1; if (index <= 0) { index = 1; return itemStack[0]; } return itemStack[index - 1]; } public void Push(T item) { if (index == m_Capacity) { m_Capacity *= 2; if (m_Capacity == 0) m_Capacity = k_DefaultCapacity; Array.Resize(ref itemStack, m_Capacity); } itemStack[index] = item; if (m_RolloverSize == 0) { index += 1; m_Count += 1; } else { index = (index + 1) % m_RolloverSize; m_Count = m_Count < m_RolloverSize ? m_Count + 1 : m_RolloverSize; } } public T Pop() { if (index == 0 && m_RolloverSize == 0) return default; if (m_RolloverSize == 0) index -= 1; else { index = (index - 1) % m_RolloverSize; index = index < 0 ? index + m_RolloverSize : index; } T item = itemStack[index]; itemStack[index] = m_DefaultItem; m_Count = m_Count > 0 ? m_Count - 1 : 0; return item; } /// /// /// /// public T Peek() { if (index == 0) return m_DefaultItem; return itemStack[index - 1]; } /// /// Function to retrieve the current item from the stack. /// /// itemStack public T CurrentItem() { if (index > 0) return itemStack[index - 1]; return itemStack[0]; } /// /// Function to retrieve the previous item without affecting the stack. /// /// public T PreviousItem() { if (index > 1) return itemStack[index - 2]; return itemStack[0]; } } }