Dalamud/imgui/Dalamud.Bindings.ImGui/Generated/Functions/Functions.094.cs

// ------------------------------------------------------------------------------
// <auto-generated>
//     This code was generated by a tool.
//
//     Changes to this file may cause incorrect behavior and will be lost if
//     the code is regenerated.
// </auto-generated>
// ------------------------------------------------------------------------------

using System;
using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using HexaGen.Runtime;
using System.Numerics;

namespace Dalamud.Bindings.ImGui
{
	public unsafe partial class ImGui
	{

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, string textBegin, string textEnd, byte** remaining)
		{
			byte* pStr0 = null;
			int pStrSize0 = 0;
			if (textBegin != null)
			{
				pStrSize0 = Utils.GetByteCountUTF8(textBegin);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
				}
				else
				{
					byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
					pStr0 = pStrStack0;
				}
				int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
				pStr0[pStrOffset0] = 0;
			}
			byte* pStr1 = null;
			int pStrSize1 = 0;
			if (textEnd != null)
			{
				pStrSize1 = Utils.GetByteCountUTF8(textEnd);
				if (pStrSize1 >= Utils.MaxStackallocSize)
				{
					pStr1 = Utils.Alloc<byte>(pStrSize1 + 1);
				}
				else
				{
					byte* pStrStack1 = stackalloc byte[pStrSize1 + 1];
					pStr1 = pStrStack1;
				}
				int pStrOffset1 = Utils.EncodeStringUTF8(textEnd, pStr1, pStrSize1);
				pStr1[pStrOffset1] = 0;
			}
			Vector2 ret;
			CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, pStr0, pStr1, remaining);
			if (pStrSize1 >= Utils.MaxStackallocSize)
			{
				Utils.Free(pStr1);
			}
			if (pStrSize0 >= Utils.MaxStackallocSize)
			{
				Utils.Free(pStr0);
			}
			return ret;
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, ref byte textBegin, ReadOnlySpan<byte> textEnd)
		{
			fixed (byte* ptextBegin = &textBegin)
			{
				fixed (byte* ptextEnd = textEnd)
				{
					Vector2 ret;
					CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, (byte**)(default));
					return ret;
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, ref byte textBegin, ReadOnlySpan<byte> textEnd, byte** remaining)
		{
			fixed (byte* ptextBegin = &textBegin)
			{
				fixed (byte* ptextEnd = textEnd)
				{
					Vector2 ret;
					CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, remaining);
					return ret;
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, ref byte textBegin, string textEnd)
		{
			fixed (byte* ptextBegin = &textBegin)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textEnd != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textEnd);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				Vector2 ret;
				CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, pStr0, (byte**)(default));
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr0);
				}
				return ret;
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, ref byte textBegin, string textEnd, byte** remaining)
		{
			fixed (byte* ptextBegin = &textBegin)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textEnd != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textEnd);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				Vector2 ret;
				CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, pStr0, remaining);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr0);
				}
				return ret;
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, ref byte textEnd)
		{
			fixed (byte* ptextBegin = textBegin)
			{
				fixed (byte* ptextEnd = &textEnd)
				{
					Vector2 ret;
					CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, (byte**)(default));
					return ret;
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, ref byte textEnd, byte** remaining)
		{
			fixed (byte* ptextBegin = textBegin)
			{
				fixed (byte* ptextEnd = &textEnd)
				{
					Vector2 ret;
					CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, remaining);
					return ret;
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, string textEnd)
		{
			fixed (byte* ptextBegin = textBegin)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textEnd != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textEnd);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				Vector2 ret;
				CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, pStr0, (byte**)(default));
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr0);
				}
				return ret;
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, string textEnd, byte** remaining)
		{
			fixed (byte* ptextBegin = textBegin)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textEnd != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textEnd);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				Vector2 ret;
				CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, pStr0, remaining);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr0);
				}
				return ret;
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, string textBegin, ref byte textEnd)
		{
			byte* pStr0 = null;
			int pStrSize0 = 0;
			if (textBegin != null)
			{
				pStrSize0 = Utils.GetByteCountUTF8(textBegin);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
				}
				else
				{
					byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
					pStr0 = pStrStack0;
				}
				int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
				pStr0[pStrOffset0] = 0;
			}
			fixed (byte* ptextEnd = &textEnd)
			{
				Vector2 ret;
				CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, pStr0, (byte*)ptextEnd, (byte**)(default));
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr0);
				}
				return ret;
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, string textBegin, ref byte textEnd, byte** remaining)
		{
			byte* pStr0 = null;
			int pStrSize0 = 0;
			if (textBegin != null)
			{
				pStrSize0 = Utils.GetByteCountUTF8(textBegin);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
				}
				else
				{
					byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
					pStr0 = pStrStack0;
				}
				int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
				pStr0[pStrOffset0] = 0;
			}
			fixed (byte* ptextEnd = &textEnd)
			{
				Vector2 ret;
				CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, pStr0, (byte*)ptextEnd, remaining);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr0);
				}
				return ret;
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, string textBegin, ReadOnlySpan<byte> textEnd)
		{
			byte* pStr0 = null;
			int pStrSize0 = 0;
			if (textBegin != null)
			{
				pStrSize0 = Utils.GetByteCountUTF8(textBegin);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
				}
				else
				{
					byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
					pStr0 = pStrStack0;
				}
				int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
				pStr0[pStrOffset0] = 0;
			}
			fixed (byte* ptextEnd = textEnd)
			{
				Vector2 ret;
				CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, pStr0, (byte*)ptextEnd, (byte**)(default));
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr0);
				}
				return ret;
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, string textBegin, ReadOnlySpan<byte> textEnd, byte** remaining)
		{
			byte* pStr0 = null;
			int pStrSize0 = 0;
			if (textBegin != null)
			{
				pStrSize0 = Utils.GetByteCountUTF8(textBegin);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
				}
				else
				{
					byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
					pStr0 = pStrStack0;
				}
				int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
				pStr0[pStrOffset0] = 0;
			}
			fixed (byte* ptextEnd = textEnd)
			{
				Vector2 ret;
				CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, pStr0, (byte*)ptextEnd, remaining);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr0);
				}
				return ret;
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ref byte textBegin, ref byte textEnd, byte** remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (byte* ptextBegin = &textBegin)
				{
					fixed (byte* ptextEnd = &textEnd)
					{
						CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, remaining);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ref byte textBegin, ref byte textEnd)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (byte* ptextBegin = &textBegin)
				{
					fixed (byte* ptextEnd = &textEnd)
					{
						CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, (byte**)(default));
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, ReadOnlySpan<byte> textEnd, byte** remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (byte* ptextBegin = textBegin)
				{
					fixed (byte* ptextEnd = textEnd)
					{
						CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, remaining);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, ReadOnlySpan<byte> textEnd)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (byte* ptextBegin = textBegin)
				{
					fixed (byte* ptextEnd = textEnd)
					{
						CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, (byte**)(default));
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, string textBegin, string textEnd, byte** remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textBegin != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textBegin);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				byte* pStr1 = null;
				int pStrSize1 = 0;
				if (textEnd != null)
				{
					pStrSize1 = Utils.GetByteCountUTF8(textEnd);
					if (pStrSize1 >= Utils.MaxStackallocSize)
					{
						pStr1 = Utils.Alloc<byte>(pStrSize1 + 1);
					}
					else
					{
						byte* pStrStack1 = stackalloc byte[pStrSize1 + 1];
						pStr1 = pStrStack1;
					}
					int pStrOffset1 = Utils.EncodeStringUTF8(textEnd, pStr1, pStrSize1);
					pStr1[pStrOffset1] = 0;
				}
				CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, pStr0, pStr1, remaining);
				if (pStrSize1 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr1);
				}
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr0);
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, string textBegin, string textEnd)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textBegin != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textBegin);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				byte* pStr1 = null;
				int pStrSize1 = 0;
				if (textEnd != null)
				{
					pStrSize1 = Utils.GetByteCountUTF8(textEnd);
					if (pStrSize1 >= Utils.MaxStackallocSize)
					{
						pStr1 = Utils.Alloc<byte>(pStrSize1 + 1);
					}
					else
					{
						byte* pStrStack1 = stackalloc byte[pStrSize1 + 1];
						pStr1 = pStrStack1;
					}
					int pStrOffset1 = Utils.EncodeStringUTF8(textEnd, pStr1, pStrSize1);
					pStr1[pStrOffset1] = 0;
				}
				CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, pStr0, pStr1, (byte**)(default));
				if (pStrSize1 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr1);
				}
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr0);
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ref byte textBegin, ReadOnlySpan<byte> textEnd, byte** remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (byte* ptextBegin = &textBegin)
				{
					fixed (byte* ptextEnd = textEnd)
					{
						CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, remaining);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ref byte textBegin, ReadOnlySpan<byte> textEnd)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (byte* ptextBegin = &textBegin)
				{
					fixed (byte* ptextEnd = textEnd)
					{
						CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, (byte**)(default));
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ref byte textBegin, string textEnd, byte** remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (byte* ptextBegin = &textBegin)
				{
					byte* pStr0 = null;
					int pStrSize0 = 0;
					if (textEnd != null)
					{
						pStrSize0 = Utils.GetByteCountUTF8(textEnd);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
						}
						else
						{
							byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
							pStr0 = pStrStack0;
						}
						int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
						pStr0[pStrOffset0] = 0;
					}
					CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, pStr0, remaining);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ref byte textBegin, string textEnd)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (byte* ptextBegin = &textBegin)
				{
					byte* pStr0 = null;
					int pStrSize0 = 0;
					if (textEnd != null)
					{
						pStrSize0 = Utils.GetByteCountUTF8(textEnd);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
						}
						else
						{
							byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
							pStr0 = pStrStack0;
						}
						int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
						pStr0[pStrOffset0] = 0;
					}
					CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, pStr0, (byte**)(default));
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, ref byte textEnd, byte** remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (byte* ptextBegin = textBegin)
				{
					fixed (byte* ptextEnd = &textEnd)
					{
						CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, remaining);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, ref byte textEnd)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (byte* ptextBegin = textBegin)
				{
					fixed (byte* ptextEnd = &textEnd)
					{
						CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, (byte**)(default));
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, string textEnd, byte** remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (byte* ptextBegin = textBegin)
				{
					byte* pStr0 = null;
					int pStrSize0 = 0;
					if (textEnd != null)
					{
						pStrSize0 = Utils.GetByteCountUTF8(textEnd);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
						}
						else
						{
							byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
							pStr0 = pStrStack0;
						}
						int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
						pStr0[pStrOffset0] = 0;
					}
					CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, pStr0, remaining);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, string textEnd)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (byte* ptextBegin = textBegin)
				{
					byte* pStr0 = null;
					int pStrSize0 = 0;
					if (textEnd != null)
					{
						pStrSize0 = Utils.GetByteCountUTF8(textEnd);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
						}
						else
						{
							byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
							pStr0 = pStrStack0;
						}
						int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
						pStr0[pStrOffset0] = 0;
					}
					CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, pStr0, (byte**)(default));
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, string textBegin, ref byte textEnd, byte** remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textBegin != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textBegin);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				fixed (byte* ptextEnd = &textEnd)
				{
					CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, pStr0, (byte*)ptextEnd, remaining);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, string textBegin, ref byte textEnd)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textBegin != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textBegin);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				fixed (byte* ptextEnd = &textEnd)
				{
					CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, pStr0, (byte*)ptextEnd, (byte**)(default));
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, string textBegin, ReadOnlySpan<byte> textEnd, byte** remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textBegin != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textBegin);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				fixed (byte* ptextEnd = textEnd)
				{
					CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, pStr0, (byte*)ptextEnd, remaining);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, string textBegin, ReadOnlySpan<byte> textEnd)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textBegin != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textBegin);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				fixed (byte* ptextEnd = textEnd)
				{
					CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, pStr0, (byte*)ptextEnd, (byte**)(default));
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ref ImFont self, float size, float maxWidth, float wrapWidth, ref byte textBegin, ref byte textEnd)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextBegin = &textBegin)
				{
					fixed (byte* ptextEnd = &textEnd)
					{
						Vector2 ret;
						CalcTextSizeANative(&ret, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, (byte**)(default));
						return ret;
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ref ImFont self, float size, float maxWidth, float wrapWidth, ref byte textBegin, ref byte textEnd, byte** remaining)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextBegin = &textBegin)
				{
					fixed (byte* ptextEnd = &textEnd)
					{
						Vector2 ret;
						CalcTextSizeANative(&ret, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, remaining);
						return ret;
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ref ImFont self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, ReadOnlySpan<byte> textEnd)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextBegin = textBegin)
				{
					fixed (byte* ptextEnd = textEnd)
					{
						Vector2 ret;
						CalcTextSizeANative(&ret, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, (byte**)(default));
						return ret;
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ref ImFont self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, ReadOnlySpan<byte> textEnd, byte** remaining)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextBegin = textBegin)
				{
					fixed (byte* ptextEnd = textEnd)
					{
						Vector2 ret;
						CalcTextSizeANative(&ret, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, remaining);
						return ret;
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ref ImFont self, float size, float maxWidth, float wrapWidth, string textBegin, string textEnd)
		{
			fixed (ImFont* pself = &self)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textBegin != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textBegin);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				byte* pStr1 = null;
				int pStrSize1 = 0;
				if (textEnd != null)
				{
					pStrSize1 = Utils.GetByteCountUTF8(textEnd);
					if (pStrSize1 >= Utils.MaxStackallocSize)
					{
						pStr1 = Utils.Alloc<byte>(pStrSize1 + 1);
					}
					else
					{
						byte* pStrStack1 = stackalloc byte[pStrSize1 + 1];
						pStr1 = pStrStack1;
					}
					int pStrOffset1 = Utils.EncodeStringUTF8(textEnd, pStr1, pStrSize1);
					pStr1[pStrOffset1] = 0;
				}
				Vector2 ret;
				CalcTextSizeANative(&ret, (ImFont*)pself, size, maxWidth, wrapWidth, pStr0, pStr1, (byte**)(default));
				if (pStrSize1 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr1);
				}
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr0);
				}
				return ret;
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ref ImFont self, float size, float maxWidth, float wrapWidth, string textBegin, string textEnd, byte** remaining)
		{
			fixed (ImFont* pself = &self)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textBegin != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textBegin);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				byte* pStr1 = null;
				int pStrSize1 = 0;
				if (textEnd != null)
				{
					pStrSize1 = Utils.GetByteCountUTF8(textEnd);
					if (pStrSize1 >= Utils.MaxStackallocSize)
					{
						pStr1 = Utils.Alloc<byte>(pStrSize1 + 1);
					}
					else
					{
						byte* pStrStack1 = stackalloc byte[pStrSize1 + 1];
						pStr1 = pStrStack1;
					}
					int pStrOffset1 = Utils.EncodeStringUTF8(textEnd, pStr1, pStrSize1);
					pStr1[pStrOffset1] = 0;
				}
				Vector2 ret;
				CalcTextSizeANative(&ret, (ImFont*)pself, size, maxWidth, wrapWidth, pStr0, pStr1, remaining);
				if (pStrSize1 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr1);
				}
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr0);
				}
				return ret;
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ref ImFont self, float size, float maxWidth, float wrapWidth, ref byte textBegin, ReadOnlySpan<byte> textEnd)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextBegin = &textBegin)
				{
					fixed (byte* ptextEnd = textEnd)
					{
						Vector2 ret;
						CalcTextSizeANative(&ret, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, (byte**)(default));
						return ret;
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ref ImFont self, float size, float maxWidth, float wrapWidth, ref byte textBegin, ReadOnlySpan<byte> textEnd, byte** remaining)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextBegin = &textBegin)
				{
					fixed (byte* ptextEnd = textEnd)
					{
						Vector2 ret;
						CalcTextSizeANative(&ret, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, remaining);
						return ret;
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ref ImFont self, float size, float maxWidth, float wrapWidth, ref byte textBegin, string textEnd)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextBegin = &textBegin)
				{
					byte* pStr0 = null;
					int pStrSize0 = 0;
					if (textEnd != null)
					{
						pStrSize0 = Utils.GetByteCountUTF8(textEnd);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
						}
						else
						{
							byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
							pStr0 = pStrStack0;
						}
						int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
						pStr0[pStrOffset0] = 0;
					}
					Vector2 ret;
					CalcTextSizeANative(&ret, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, pStr0, (byte**)(default));
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
					return ret;
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ref ImFont self, float size, float maxWidth, float wrapWidth, ref byte textBegin, string textEnd, byte** remaining)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextBegin = &textBegin)
				{
					byte* pStr0 = null;
					int pStrSize0 = 0;
					if (textEnd != null)
					{
						pStrSize0 = Utils.GetByteCountUTF8(textEnd);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
						}
						else
						{
							byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
							pStr0 = pStrStack0;
						}
						int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
						pStr0[pStrOffset0] = 0;
					}
					Vector2 ret;
					CalcTextSizeANative(&ret, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, pStr0, remaining);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
					return ret;
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ref ImFont self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, ref byte textEnd)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextBegin = textBegin)
				{
					fixed (byte* ptextEnd = &textEnd)
					{
						Vector2 ret;
						CalcTextSizeANative(&ret, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, (byte**)(default));
						return ret;
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ref ImFont self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, ref byte textEnd, byte** remaining)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextBegin = textBegin)
				{
					fixed (byte* ptextEnd = &textEnd)
					{
						Vector2 ret;
						CalcTextSizeANative(&ret, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, remaining);
						return ret;
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ref ImFont self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, string textEnd)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextBegin = textBegin)
				{
					byte* pStr0 = null;
					int pStrSize0 = 0;
					if (textEnd != null)
					{
						pStrSize0 = Utils.GetByteCountUTF8(textEnd);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
						}
						else
						{
							byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
							pStr0 = pStrStack0;
						}
						int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
						pStr0[pStrOffset0] = 0;
					}
					Vector2 ret;
					CalcTextSizeANative(&ret, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, pStr0, (byte**)(default));
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
					return ret;
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ref ImFont self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, string textEnd, byte** remaining)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextBegin = textBegin)
				{
					byte* pStr0 = null;
					int pStrSize0 = 0;
					if (textEnd != null)
					{
						pStrSize0 = Utils.GetByteCountUTF8(textEnd);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
						}
						else
						{
							byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
							pStr0 = pStrStack0;
						}
						int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
						pStr0[pStrOffset0] = 0;
					}
					Vector2 ret;
					CalcTextSizeANative(&ret, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, pStr0, remaining);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
					return ret;
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ref ImFont self, float size, float maxWidth, float wrapWidth, string textBegin, ref byte textEnd)
		{
			fixed (ImFont* pself = &self)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textBegin != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textBegin);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				fixed (byte* ptextEnd = &textEnd)
				{
					Vector2 ret;
					CalcTextSizeANative(&ret, (ImFont*)pself, size, maxWidth, wrapWidth, pStr0, (byte*)ptextEnd, (byte**)(default));
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
					return ret;
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ref ImFont self, float size, float maxWidth, float wrapWidth, string textBegin, ref byte textEnd, byte** remaining)
		{
			fixed (ImFont* pself = &self)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textBegin != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textBegin);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				fixed (byte* ptextEnd = &textEnd)
				{
					Vector2 ret;
					CalcTextSizeANative(&ret, (ImFont*)pself, size, maxWidth, wrapWidth, pStr0, (byte*)ptextEnd, remaining);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
					return ret;
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ref ImFont self, float size, float maxWidth, float wrapWidth, string textBegin, ReadOnlySpan<byte> textEnd)
		{
			fixed (ImFont* pself = &self)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textBegin != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textBegin);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				fixed (byte* ptextEnd = textEnd)
				{
					Vector2 ret;
					CalcTextSizeANative(&ret, (ImFont*)pself, size, maxWidth, wrapWidth, pStr0, (byte*)ptextEnd, (byte**)(default));
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
					return ret;
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ref ImFont self, float size, float maxWidth, float wrapWidth, string textBegin, ReadOnlySpan<byte> textEnd, byte** remaining)
		{
			fixed (ImFont* pself = &self)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textBegin != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textBegin);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				fixed (byte* ptextEnd = textEnd)
				{
					Vector2 ret;
					CalcTextSizeANative(&ret, (ImFont*)pself, size, maxWidth, wrapWidth, pStr0, (byte*)ptextEnd, remaining);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
					return ret;
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, ref byte textBegin, ref byte textEnd, byte** remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (ImFont* pself = &self)
				{
					fixed (byte* ptextBegin = &textBegin)
					{
						fixed (byte* ptextEnd = &textEnd)
						{
							CalcTextSizeANative((Vector2*)ppOut, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, remaining);
						}
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, ref byte textBegin, ref byte textEnd)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (ImFont* pself = &self)
				{
					fixed (byte* ptextBegin = &textBegin)
					{
						fixed (byte* ptextEnd = &textEnd)
						{
							CalcTextSizeANative((Vector2*)ppOut, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, (byte**)(default));
						}
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, ReadOnlySpan<byte> textEnd, byte** remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (ImFont* pself = &self)
				{
					fixed (byte* ptextBegin = textBegin)
					{
						fixed (byte* ptextEnd = textEnd)
						{
							CalcTextSizeANative((Vector2*)ppOut, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, remaining);
						}
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, ReadOnlySpan<byte> textEnd)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (ImFont* pself = &self)
				{
					fixed (byte* ptextBegin = textBegin)
					{
						fixed (byte* ptextEnd = textEnd)
						{
							CalcTextSizeANative((Vector2*)ppOut, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, (byte**)(default));
						}
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, string textBegin, string textEnd, byte** remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (ImFont* pself = &self)
				{
					byte* pStr0 = null;
					int pStrSize0 = 0;
					if (textBegin != null)
					{
						pStrSize0 = Utils.GetByteCountUTF8(textBegin);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
						}
						else
						{
							byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
							pStr0 = pStrStack0;
						}
						int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
						pStr0[pStrOffset0] = 0;
					}
					byte* pStr1 = null;
					int pStrSize1 = 0;
					if (textEnd != null)
					{
						pStrSize1 = Utils.GetByteCountUTF8(textEnd);
						if (pStrSize1 >= Utils.MaxStackallocSize)
						{
							pStr1 = Utils.Alloc<byte>(pStrSize1 + 1);
						}
						else
						{
							byte* pStrStack1 = stackalloc byte[pStrSize1 + 1];
							pStr1 = pStrStack1;
						}
						int pStrOffset1 = Utils.EncodeStringUTF8(textEnd, pStr1, pStrSize1);
						pStr1[pStrOffset1] = 0;
					}
					CalcTextSizeANative((Vector2*)ppOut, (ImFont*)pself, size, maxWidth, wrapWidth, pStr0, pStr1, remaining);
					if (pStrSize1 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr1);
					}
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, string textBegin, string textEnd)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (ImFont* pself = &self)
				{
					byte* pStr0 = null;
					int pStrSize0 = 0;
					if (textBegin != null)
					{
						pStrSize0 = Utils.GetByteCountUTF8(textBegin);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
						}
						else
						{
							byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
							pStr0 = pStrStack0;
						}
						int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
						pStr0[pStrOffset0] = 0;
					}
					byte* pStr1 = null;
					int pStrSize1 = 0;
					if (textEnd != null)
					{
						pStrSize1 = Utils.GetByteCountUTF8(textEnd);
						if (pStrSize1 >= Utils.MaxStackallocSize)
						{
							pStr1 = Utils.Alloc<byte>(pStrSize1 + 1);
						}
						else
						{
							byte* pStrStack1 = stackalloc byte[pStrSize1 + 1];
							pStr1 = pStrStack1;
						}
						int pStrOffset1 = Utils.EncodeStringUTF8(textEnd, pStr1, pStrSize1);
						pStr1[pStrOffset1] = 0;
					}
					CalcTextSizeANative((Vector2*)ppOut, (ImFont*)pself, size, maxWidth, wrapWidth, pStr0, pStr1, (byte**)(default));
					if (pStrSize1 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr1);
					}
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, ref byte textBegin, ReadOnlySpan<byte> textEnd, byte** remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (ImFont* pself = &self)
				{
					fixed (byte* ptextBegin = &textBegin)
					{
						fixed (byte* ptextEnd = textEnd)
						{
							CalcTextSizeANative((Vector2*)ppOut, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, remaining);
						}
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, ref byte textBegin, ReadOnlySpan<byte> textEnd)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (ImFont* pself = &self)
				{
					fixed (byte* ptextBegin = &textBegin)
					{
						fixed (byte* ptextEnd = textEnd)
						{
							CalcTextSizeANative((Vector2*)ppOut, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, (byte**)(default));
						}
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, ref byte textBegin, string textEnd, byte** remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (ImFont* pself = &self)
				{
					fixed (byte* ptextBegin = &textBegin)
					{
						byte* pStr0 = null;
						int pStrSize0 = 0;
						if (textEnd != null)
						{
							pStrSize0 = Utils.GetByteCountUTF8(textEnd);
							if (pStrSize0 >= Utils.MaxStackallocSize)
							{
								pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
							}
							else
							{
								byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
								pStr0 = pStrStack0;
							}
							int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
							pStr0[pStrOffset0] = 0;
						}
						CalcTextSizeANative((Vector2*)ppOut, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, pStr0, remaining);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							Utils.Free(pStr0);
						}
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, ref byte textBegin, string textEnd)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (ImFont* pself = &self)
				{
					fixed (byte* ptextBegin = &textBegin)
					{
						byte* pStr0 = null;
						int pStrSize0 = 0;
						if (textEnd != null)
						{
							pStrSize0 = Utils.GetByteCountUTF8(textEnd);
							if (pStrSize0 >= Utils.MaxStackallocSize)
							{
								pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
							}
							else
							{
								byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
								pStr0 = pStrStack0;
							}
							int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
							pStr0[pStrOffset0] = 0;
						}
						CalcTextSizeANative((Vector2*)ppOut, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, pStr0, (byte**)(default));
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							Utils.Free(pStr0);
						}
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, ref byte textEnd, byte** remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (ImFont* pself = &self)
				{
					fixed (byte* ptextBegin = textBegin)
					{
						fixed (byte* ptextEnd = &textEnd)
						{
							CalcTextSizeANative((Vector2*)ppOut, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, remaining);
						}
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, ref byte textEnd)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (ImFont* pself = &self)
				{
					fixed (byte* ptextBegin = textBegin)
					{
						fixed (byte* ptextEnd = &textEnd)
						{
							CalcTextSizeANative((Vector2*)ppOut, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, (byte**)(default));
						}
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, string textEnd, byte** remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (ImFont* pself = &self)
				{
					fixed (byte* ptextBegin = textBegin)
					{
						byte* pStr0 = null;
						int pStrSize0 = 0;
						if (textEnd != null)
						{
							pStrSize0 = Utils.GetByteCountUTF8(textEnd);
							if (pStrSize0 >= Utils.MaxStackallocSize)
							{
								pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
							}
							else
							{
								byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
								pStr0 = pStrStack0;
							}
							int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
							pStr0[pStrOffset0] = 0;
						}
						CalcTextSizeANative((Vector2*)ppOut, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, pStr0, remaining);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							Utils.Free(pStr0);
						}
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, string textEnd)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (ImFont* pself = &self)
				{
					fixed (byte* ptextBegin = textBegin)
					{
						byte* pStr0 = null;
						int pStrSize0 = 0;
						if (textEnd != null)
						{
							pStrSize0 = Utils.GetByteCountUTF8(textEnd);
							if (pStrSize0 >= Utils.MaxStackallocSize)
							{
								pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
							}
							else
							{
								byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
								pStr0 = pStrStack0;
							}
							int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
							pStr0[pStrOffset0] = 0;
						}
						CalcTextSizeANative((Vector2*)ppOut, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, pStr0, (byte**)(default));
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							Utils.Free(pStr0);
						}
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, string textBegin, ref byte textEnd, byte** remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (ImFont* pself = &self)
				{
					byte* pStr0 = null;
					int pStrSize0 = 0;
					if (textBegin != null)
					{
						pStrSize0 = Utils.GetByteCountUTF8(textBegin);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
						}
						else
						{
							byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
							pStr0 = pStrStack0;
						}
						int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
						pStr0[pStrOffset0] = 0;
					}
					fixed (byte* ptextEnd = &textEnd)
					{
						CalcTextSizeANative((Vector2*)ppOut, (ImFont*)pself, size, maxWidth, wrapWidth, pStr0, (byte*)ptextEnd, remaining);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							Utils.Free(pStr0);
						}
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, string textBegin, ref byte textEnd)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (ImFont* pself = &self)
				{
					byte* pStr0 = null;
					int pStrSize0 = 0;
					if (textBegin != null)
					{
						pStrSize0 = Utils.GetByteCountUTF8(textBegin);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
						}
						else
						{
							byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
							pStr0 = pStrStack0;
						}
						int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
						pStr0[pStrOffset0] = 0;
					}
					fixed (byte* ptextEnd = &textEnd)
					{
						CalcTextSizeANative((Vector2*)ppOut, (ImFont*)pself, size, maxWidth, wrapWidth, pStr0, (byte*)ptextEnd, (byte**)(default));
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							Utils.Free(pStr0);
						}
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, string textBegin, ReadOnlySpan<byte> textEnd, byte** remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (ImFont* pself = &self)
				{
					byte* pStr0 = null;
					int pStrSize0 = 0;
					if (textBegin != null)
					{
						pStrSize0 = Utils.GetByteCountUTF8(textBegin);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
						}
						else
						{
							byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
							pStr0 = pStrStack0;
						}
						int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
						pStr0[pStrOffset0] = 0;
					}
					fixed (byte* ptextEnd = textEnd)
					{
						CalcTextSizeANative((Vector2*)ppOut, (ImFont*)pself, size, maxWidth, wrapWidth, pStr0, (byte*)ptextEnd, remaining);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							Utils.Free(pStr0);
						}
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, string textBegin, ReadOnlySpan<byte> textEnd)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (ImFont* pself = &self)
				{
					byte* pStr0 = null;
					int pStrSize0 = 0;
					if (textBegin != null)
					{
						pStrSize0 = Utils.GetByteCountUTF8(textBegin);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
						}
						else
						{
							byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
							pStr0 = pStrStack0;
						}
						int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
						pStr0[pStrOffset0] = 0;
					}
					fixed (byte* ptextEnd = textEnd)
					{
						CalcTextSizeANative((Vector2*)ppOut, (ImFont*)pself, size, maxWidth, wrapWidth, pStr0, (byte*)ptextEnd, (byte**)(default));
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							Utils.Free(pStr0);
						}
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ref byte textBegin, ref byte textEnd, byte** remaining)
		{
			fixed (byte* ptextBegin = &textBegin)
			{
				fixed (byte* ptextEnd = &textEnd)
				{
					CalcTextSizeANative(pOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, remaining);
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ref byte textBegin, ref byte textEnd)
		{
			fixed (byte* ptextBegin = &textBegin)
			{
				fixed (byte* ptextEnd = &textEnd)
				{
					CalcTextSizeANative(pOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, (byte**)(default));
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, ReadOnlySpan<byte> textEnd, byte** remaining)
		{
			fixed (byte* ptextBegin = textBegin)
			{
				fixed (byte* ptextEnd = textEnd)
				{
					CalcTextSizeANative(pOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, remaining);
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, ReadOnlySpan<byte> textEnd)
		{
			fixed (byte* ptextBegin = textBegin)
			{
				fixed (byte* ptextEnd = textEnd)
				{
					CalcTextSizeANative(pOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, (byte**)(default));
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, string textBegin, string textEnd, byte** remaining)
		{
			byte* pStr0 = null;
			int pStrSize0 = 0;
			if (textBegin != null)
			{
				pStrSize0 = Utils.GetByteCountUTF8(textBegin);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
				}
				else
				{
					byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
					pStr0 = pStrStack0;
				}
				int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
				pStr0[pStrOffset0] = 0;
			}
			byte* pStr1 = null;
			int pStrSize1 = 0;
			if (textEnd != null)
			{
				pStrSize1 = Utils.GetByteCountUTF8(textEnd);
				if (pStrSize1 >= Utils.MaxStackallocSize)
				{
					pStr1 = Utils.Alloc<byte>(pStrSize1 + 1);
				}
				else
				{
					byte* pStrStack1 = stackalloc byte[pStrSize1 + 1];
					pStr1 = pStrStack1;
				}
				int pStrOffset1 = Utils.EncodeStringUTF8(textEnd, pStr1, pStrSize1);
				pStr1[pStrOffset1] = 0;
			}
			CalcTextSizeANative(pOut, self, size, maxWidth, wrapWidth, pStr0, pStr1, remaining);
			if (pStrSize1 >= Utils.MaxStackallocSize)
			{
				Utils.Free(pStr1);
			}
			if (pStrSize0 >= Utils.MaxStackallocSize)
			{
				Utils.Free(pStr0);
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, string textBegin, string textEnd)
		{
			byte* pStr0 = null;
			int pStrSize0 = 0;
			if (textBegin != null)
			{
				pStrSize0 = Utils.GetByteCountUTF8(textBegin);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
				}
				else
				{
					byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
					pStr0 = pStrStack0;
				}
				int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
				pStr0[pStrOffset0] = 0;
			}
			byte* pStr1 = null;
			int pStrSize1 = 0;
			if (textEnd != null)
			{
				pStrSize1 = Utils.GetByteCountUTF8(textEnd);
				if (pStrSize1 >= Utils.MaxStackallocSize)
				{
					pStr1 = Utils.Alloc<byte>(pStrSize1 + 1);
				}
				else
				{
					byte* pStrStack1 = stackalloc byte[pStrSize1 + 1];
					pStr1 = pStrStack1;
				}
				int pStrOffset1 = Utils.EncodeStringUTF8(textEnd, pStr1, pStrSize1);
				pStr1[pStrOffset1] = 0;
			}
			CalcTextSizeANative(pOut, self, size, maxWidth, wrapWidth, pStr0, pStr1, (byte**)(default));
			if (pStrSize1 >= Utils.MaxStackallocSize)
			{
				Utils.Free(pStr1);
			}
			if (pStrSize0 >= Utils.MaxStackallocSize)
			{
				Utils.Free(pStr0);
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ref byte textBegin, ReadOnlySpan<byte> textEnd, byte** remaining)
		{
			fixed (byte* ptextBegin = &textBegin)
			{
				fixed (byte* ptextEnd = textEnd)
				{
					CalcTextSizeANative(pOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, remaining);
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ref byte textBegin, ReadOnlySpan<byte> textEnd)
		{
			fixed (byte* ptextBegin = &textBegin)
			{
				fixed (byte* ptextEnd = textEnd)
				{
					CalcTextSizeANative(pOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, (byte**)(default));
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ref byte textBegin, string textEnd, byte** remaining)
		{
			fixed (byte* ptextBegin = &textBegin)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textEnd != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textEnd);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				CalcTextSizeANative(pOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, pStr0, remaining);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr0);
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ref byte textBegin, string textEnd)
		{
			fixed (byte* ptextBegin = &textBegin)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textEnd != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textEnd);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				CalcTextSizeANative(pOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, pStr0, (byte**)(default));
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr0);
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, ref byte textEnd, byte** remaining)
		{
			fixed (byte* ptextBegin = textBegin)
			{
				fixed (byte* ptextEnd = &textEnd)
				{
					CalcTextSizeANative(pOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, remaining);
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, ref byte textEnd)
		{
			fixed (byte* ptextBegin = textBegin)
			{
				fixed (byte* ptextEnd = &textEnd)
				{
					CalcTextSizeANative(pOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, (byte**)(default));
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, string textEnd, byte** remaining)
		{
			fixed (byte* ptextBegin = textBegin)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textEnd != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textEnd);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				CalcTextSizeANative(pOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, pStr0, remaining);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr0);
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, string textEnd)
		{
			fixed (byte* ptextBegin = textBegin)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textEnd != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textEnd);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				CalcTextSizeANative(pOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, pStr0, (byte**)(default));
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr0);
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, string textBegin, ref byte textEnd, byte** remaining)
		{
			byte* pStr0 = null;
			int pStrSize0 = 0;
			if (textBegin != null)
			{
				pStrSize0 = Utils.GetByteCountUTF8(textBegin);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
				}
				else
				{
					byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
					pStr0 = pStrStack0;
				}
				int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
				pStr0[pStrOffset0] = 0;
			}
			fixed (byte* ptextEnd = &textEnd)
			{
				CalcTextSizeANative(pOut, self, size, maxWidth, wrapWidth, pStr0, (byte*)ptextEnd, remaining);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr0);
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, string textBegin, ref byte textEnd)
		{
			byte* pStr0 = null;
			int pStrSize0 = 0;
			if (textBegin != null)
			{
				pStrSize0 = Utils.GetByteCountUTF8(textBegin);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
				}
				else
				{
					byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
					pStr0 = pStrStack0;
				}
				int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
				pStr0[pStrOffset0] = 0;
			}
			fixed (byte* ptextEnd = &textEnd)
			{
				CalcTextSizeANative(pOut, self, size, maxWidth, wrapWidth, pStr0, (byte*)ptextEnd, (byte**)(default));
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr0);
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, string textBegin, ReadOnlySpan<byte> textEnd, byte** remaining)
		{
			byte* pStr0 = null;
			int pStrSize0 = 0;
			if (textBegin != null)
			{
				pStrSize0 = Utils.GetByteCountUTF8(textBegin);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
				}
				else
				{
					byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
					pStr0 = pStrStack0;
				}
				int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
				pStr0[pStrOffset0] = 0;
			}
			fixed (byte* ptextEnd = textEnd)
			{
				CalcTextSizeANative(pOut, self, size, maxWidth, wrapWidth, pStr0, (byte*)ptextEnd, remaining);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr0);
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, string textBegin, ReadOnlySpan<byte> textEnd)
		{
			byte* pStr0 = null;
			int pStrSize0 = 0;
			if (textBegin != null)
			{
				pStrSize0 = Utils.GetByteCountUTF8(textBegin);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
				}
				else
				{
					byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
					pStr0 = pStrStack0;
				}
				int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
				pStr0[pStrOffset0] = 0;
			}
			fixed (byte* ptextEnd = textEnd)
			{
				CalcTextSizeANative(pOut, self, size, maxWidth, wrapWidth, pStr0, (byte*)ptextEnd, (byte**)(default));
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr0);
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, ref byte textBegin, ref byte textEnd, byte** remaining)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextBegin = &textBegin)
				{
					fixed (byte* ptextEnd = &textEnd)
					{
						CalcTextSizeANative(pOut, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, remaining);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, ref byte textBegin, ref byte textEnd)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextBegin = &textBegin)
				{
					fixed (byte* ptextEnd = &textEnd)
					{
						CalcTextSizeANative(pOut, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, (byte**)(default));
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, ReadOnlySpan<byte> textEnd, byte** remaining)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextBegin = textBegin)
				{
					fixed (byte* ptextEnd = textEnd)
					{
						CalcTextSizeANative(pOut, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, remaining);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, ReadOnlySpan<byte> textEnd)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextBegin = textBegin)
				{
					fixed (byte* ptextEnd = textEnd)
					{
						CalcTextSizeANative(pOut, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, (byte**)(default));
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, string textBegin, string textEnd, byte** remaining)
		{
			fixed (ImFont* pself = &self)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textBegin != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textBegin);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				byte* pStr1 = null;
				int pStrSize1 = 0;
				if (textEnd != null)
				{
					pStrSize1 = Utils.GetByteCountUTF8(textEnd);
					if (pStrSize1 >= Utils.MaxStackallocSize)
					{
						pStr1 = Utils.Alloc<byte>(pStrSize1 + 1);
					}
					else
					{
						byte* pStrStack1 = stackalloc byte[pStrSize1 + 1];
						pStr1 = pStrStack1;
					}
					int pStrOffset1 = Utils.EncodeStringUTF8(textEnd, pStr1, pStrSize1);
					pStr1[pStrOffset1] = 0;
				}
				CalcTextSizeANative(pOut, (ImFont*)pself, size, maxWidth, wrapWidth, pStr0, pStr1, remaining);
				if (pStrSize1 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr1);
				}
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr0);
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, string textBegin, string textEnd)
		{
			fixed (ImFont* pself = &self)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textBegin != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textBegin);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				byte* pStr1 = null;
				int pStrSize1 = 0;
				if (textEnd != null)
				{
					pStrSize1 = Utils.GetByteCountUTF8(textEnd);
					if (pStrSize1 >= Utils.MaxStackallocSize)
					{
						pStr1 = Utils.Alloc<byte>(pStrSize1 + 1);
					}
					else
					{
						byte* pStrStack1 = stackalloc byte[pStrSize1 + 1];
						pStr1 = pStrStack1;
					}
					int pStrOffset1 = Utils.EncodeStringUTF8(textEnd, pStr1, pStrSize1);
					pStr1[pStrOffset1] = 0;
				}
				CalcTextSizeANative(pOut, (ImFont*)pself, size, maxWidth, wrapWidth, pStr0, pStr1, (byte**)(default));
				if (pStrSize1 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr1);
				}
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr0);
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, ref byte textBegin, ReadOnlySpan<byte> textEnd, byte** remaining)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextBegin = &textBegin)
				{
					fixed (byte* ptextEnd = textEnd)
					{
						CalcTextSizeANative(pOut, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, remaining);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, ref byte textBegin, ReadOnlySpan<byte> textEnd)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextBegin = &textBegin)
				{
					fixed (byte* ptextEnd = textEnd)
					{
						CalcTextSizeANative(pOut, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, (byte**)(default));
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, ref byte textBegin, string textEnd, byte** remaining)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextBegin = &textBegin)
				{
					byte* pStr0 = null;
					int pStrSize0 = 0;
					if (textEnd != null)
					{
						pStrSize0 = Utils.GetByteCountUTF8(textEnd);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
						}
						else
						{
							byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
							pStr0 = pStrStack0;
						}
						int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
						pStr0[pStrOffset0] = 0;
					}
					CalcTextSizeANative(pOut, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, pStr0, remaining);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, ref byte textBegin, string textEnd)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextBegin = &textBegin)
				{
					byte* pStr0 = null;
					int pStrSize0 = 0;
					if (textEnd != null)
					{
						pStrSize0 = Utils.GetByteCountUTF8(textEnd);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
						}
						else
						{
							byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
							pStr0 = pStrStack0;
						}
						int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
						pStr0[pStrOffset0] = 0;
					}
					CalcTextSizeANative(pOut, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, pStr0, (byte**)(default));
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, ref byte textEnd, byte** remaining)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextBegin = textBegin)
				{
					fixed (byte* ptextEnd = &textEnd)
					{
						CalcTextSizeANative(pOut, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, remaining);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, ref byte textEnd)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextBegin = textBegin)
				{
					fixed (byte* ptextEnd = &textEnd)
					{
						CalcTextSizeANative(pOut, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, (byte**)(default));
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, string textEnd, byte** remaining)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextBegin = textBegin)
				{
					byte* pStr0 = null;
					int pStrSize0 = 0;
					if (textEnd != null)
					{
						pStrSize0 = Utils.GetByteCountUTF8(textEnd);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
						}
						else
						{
							byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
							pStr0 = pStrStack0;
						}
						int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
						pStr0[pStrOffset0] = 0;
					}
					CalcTextSizeANative(pOut, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, pStr0, remaining);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, string textEnd)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextBegin = textBegin)
				{
					byte* pStr0 = null;
					int pStrSize0 = 0;
					if (textEnd != null)
					{
						pStrSize0 = Utils.GetByteCountUTF8(textEnd);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
						}
						else
						{
							byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
							pStr0 = pStrStack0;
						}
						int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
						pStr0[pStrOffset0] = 0;
					}
					CalcTextSizeANative(pOut, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, pStr0, (byte**)(default));
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, string textBegin, ref byte textEnd, byte** remaining)
		{
			fixed (ImFont* pself = &self)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textBegin != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textBegin);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				fixed (byte* ptextEnd = &textEnd)
				{
					CalcTextSizeANative(pOut, (ImFont*)pself, size, maxWidth, wrapWidth, pStr0, (byte*)ptextEnd, remaining);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, string textBegin, ref byte textEnd)
		{
			fixed (ImFont* pself = &self)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textBegin != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textBegin);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				fixed (byte* ptextEnd = &textEnd)
				{
					CalcTextSizeANative(pOut, (ImFont*)pself, size, maxWidth, wrapWidth, pStr0, (byte*)ptextEnd, (byte**)(default));
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, string textBegin, ReadOnlySpan<byte> textEnd, byte** remaining)
		{
			fixed (ImFont* pself = &self)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textBegin != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textBegin);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				fixed (byte* ptextEnd = textEnd)
				{
					CalcTextSizeANative(pOut, (ImFont*)pself, size, maxWidth, wrapWidth, pStr0, (byte*)ptextEnd, remaining);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, string textBegin, ReadOnlySpan<byte> textEnd)
		{
			fixed (ImFont* pself = &self)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textBegin != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textBegin);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				fixed (byte* ptextEnd = textEnd)
				{
					CalcTextSizeANative(pOut, (ImFont*)pself, size, maxWidth, wrapWidth, pStr0, (byte*)ptextEnd, (byte**)(default));
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, byte* textBegin, ref byte* remaining)
		{
			fixed (byte** premaining = &remaining)
			{
				Vector2 ret;
				CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, textBegin, (byte*)(default), (byte**)premaining);
				return ret;
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, byte* textBegin, byte* textEnd, ref byte* remaining)
		{
			fixed (byte** premaining = &remaining)
			{
				Vector2 ret;
				CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, textBegin, textEnd, (byte**)premaining);
				return ret;
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, byte* textBegin, byte* textEnd, ref byte* remaining)
		{
			fixed (byte** premaining = &remaining)
			{
				CalcTextSizeANative(pOut, self, size, maxWidth, wrapWidth, textBegin, textEnd, (byte**)premaining);
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, byte* textBegin, ref byte* remaining)
		{
			fixed (byte** premaining = &remaining)
			{
				CalcTextSizeANative(pOut, self, size, maxWidth, wrapWidth, textBegin, (byte*)(default), (byte**)premaining);
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, byte* textBegin, byte* textEnd, ref byte* remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (byte** premaining = &remaining)
				{
					CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, textBegin, textEnd, (byte**)premaining);
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, byte* textBegin, ref byte* remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (byte** premaining = &remaining)
				{
					CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, textBegin, (byte*)(default), (byte**)premaining);
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ref ImFont self, float size, float maxWidth, float wrapWidth, byte* textBegin, ref byte* remaining)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte** premaining = &remaining)
				{
					Vector2 ret;
					CalcTextSizeANative(&ret, (ImFont*)pself, size, maxWidth, wrapWidth, textBegin, (byte*)(default), (byte**)premaining);
					return ret;
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ref ImFont self, float size, float maxWidth, float wrapWidth, byte* textBegin, byte* textEnd, ref byte* remaining)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte** premaining = &remaining)
				{
					Vector2 ret;
					CalcTextSizeANative(&ret, (ImFont*)pself, size, maxWidth, wrapWidth, textBegin, textEnd, (byte**)premaining);
					return ret;
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, byte* textBegin, byte* textEnd, ref byte* remaining)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte** premaining = &remaining)
				{
					CalcTextSizeANative(pOut, (ImFont*)pself, size, maxWidth, wrapWidth, textBegin, textEnd, (byte**)premaining);
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, byte* textBegin, ref byte* remaining)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte** premaining = &remaining)
				{
					CalcTextSizeANative(pOut, (ImFont*)pself, size, maxWidth, wrapWidth, textBegin, (byte*)(default), (byte**)premaining);
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, byte* textBegin, byte* textEnd, ref byte* remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (ImFont* pself = &self)
				{
					fixed (byte** premaining = &remaining)
					{
						CalcTextSizeANative((Vector2*)ppOut, (ImFont*)pself, size, maxWidth, wrapWidth, textBegin, textEnd, (byte**)premaining);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, byte* textBegin, ref byte* remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (ImFont* pself = &self)
				{
					fixed (byte** premaining = &remaining)
					{
						CalcTextSizeANative((Vector2*)ppOut, (ImFont*)pself, size, maxWidth, wrapWidth, textBegin, (byte*)(default), (byte**)premaining);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, ref byte textBegin, ref byte* remaining)
		{
			fixed (byte* ptextBegin = &textBegin)
			{
				fixed (byte** premaining = &remaining)
				{
					Vector2 ret;
					CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)(default), (byte**)premaining);
					return ret;
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, ref byte textBegin, byte* textEnd, ref byte* remaining)
		{
			fixed (byte* ptextBegin = &textBegin)
			{
				fixed (byte** premaining = &remaining)
				{
					Vector2 ret;
					CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, textEnd, (byte**)premaining);
					return ret;
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, ref byte* remaining)
		{
			fixed (byte* ptextBegin = textBegin)
			{
				fixed (byte** premaining = &remaining)
				{
					Vector2 ret;
					CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)(default), (byte**)premaining);
					return ret;
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, byte* textEnd, ref byte* remaining)
		{
			fixed (byte* ptextBegin = textBegin)
			{
				fixed (byte** premaining = &remaining)
				{
					Vector2 ret;
					CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, textEnd, (byte**)premaining);
					return ret;
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, string textBegin, ref byte* remaining)
		{
			byte* pStr0 = null;
			int pStrSize0 = 0;
			if (textBegin != null)
			{
				pStrSize0 = Utils.GetByteCountUTF8(textBegin);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
				}
				else
				{
					byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
					pStr0 = pStrStack0;
				}
				int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
				pStr0[pStrOffset0] = 0;
			}
			fixed (byte** premaining = &remaining)
			{
				Vector2 ret;
				CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, pStr0, (byte*)(default), (byte**)premaining);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr0);
				}
				return ret;
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, string textBegin, byte* textEnd, ref byte* remaining)
		{
			byte* pStr0 = null;
			int pStrSize0 = 0;
			if (textBegin != null)
			{
				pStrSize0 = Utils.GetByteCountUTF8(textBegin);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
				}
				else
				{
					byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
					pStr0 = pStrStack0;
				}
				int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
				pStr0[pStrOffset0] = 0;
			}
			fixed (byte** premaining = &remaining)
			{
				Vector2 ret;
				CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, pStr0, textEnd, (byte**)premaining);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr0);
				}
				return ret;
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ref byte textBegin, byte* textEnd, ref byte* remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (byte* ptextBegin = &textBegin)
				{
					fixed (byte** premaining = &remaining)
					{
						CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, textEnd, (byte**)premaining);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ref byte textBegin, ref byte* remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (byte* ptextBegin = &textBegin)
				{
					fixed (byte** premaining = &remaining)
					{
						CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)(default), (byte**)premaining);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, byte* textEnd, ref byte* remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (byte* ptextBegin = textBegin)
				{
					fixed (byte** premaining = &remaining)
					{
						CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, textEnd, (byte**)premaining);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, ref byte* remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (byte* ptextBegin = textBegin)
				{
					fixed (byte** premaining = &remaining)
					{
						CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)(default), (byte**)premaining);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, string textBegin, byte* textEnd, ref byte* remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textBegin != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textBegin);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				fixed (byte** premaining = &remaining)
				{
					CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, pStr0, textEnd, (byte**)premaining);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, string textBegin, ref byte* remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textBegin != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textBegin);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				fixed (byte** premaining = &remaining)
				{
					CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, pStr0, (byte*)(default), (byte**)premaining);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ref ImFont self, float size, float maxWidth, float wrapWidth, ref byte textBegin, ref byte* remaining)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextBegin = &textBegin)
				{
					fixed (byte** premaining = &remaining)
					{
						Vector2 ret;
						CalcTextSizeANative(&ret, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)(default), (byte**)premaining);
						return ret;
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ref ImFont self, float size, float maxWidth, float wrapWidth, ref byte textBegin, byte* textEnd, ref byte* remaining)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextBegin = &textBegin)
				{
					fixed (byte** premaining = &remaining)
					{
						Vector2 ret;
						CalcTextSizeANative(&ret, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, textEnd, (byte**)premaining);
						return ret;
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ref ImFont self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, ref byte* remaining)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextBegin = textBegin)
				{
					fixed (byte** premaining = &remaining)
					{
						Vector2 ret;
						CalcTextSizeANative(&ret, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)(default), (byte**)premaining);
						return ret;
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ref ImFont self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, byte* textEnd, ref byte* remaining)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextBegin = textBegin)
				{
					fixed (byte** premaining = &remaining)
					{
						Vector2 ret;
						CalcTextSizeANative(&ret, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, textEnd, (byte**)premaining);
						return ret;
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ref ImFont self, float size, float maxWidth, float wrapWidth, string textBegin, ref byte* remaining)
		{
			fixed (ImFont* pself = &self)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textBegin != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textBegin);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				fixed (byte** premaining = &remaining)
				{
					Vector2 ret;
					CalcTextSizeANative(&ret, (ImFont*)pself, size, maxWidth, wrapWidth, pStr0, (byte*)(default), (byte**)premaining);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
					return ret;
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ref ImFont self, float size, float maxWidth, float wrapWidth, string textBegin, byte* textEnd, ref byte* remaining)
		{
			fixed (ImFont* pself = &self)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textBegin != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textBegin);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				fixed (byte** premaining = &remaining)
				{
					Vector2 ret;
					CalcTextSizeANative(&ret, (ImFont*)pself, size, maxWidth, wrapWidth, pStr0, textEnd, (byte**)premaining);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
					return ret;
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, ref byte textBegin, byte* textEnd, ref byte* remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (ImFont* pself = &self)
				{
					fixed (byte* ptextBegin = &textBegin)
					{
						fixed (byte** premaining = &remaining)
						{
							CalcTextSizeANative((Vector2*)ppOut, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, textEnd, (byte**)premaining);
						}
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, ref byte textBegin, ref byte* remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (ImFont* pself = &self)
				{
					fixed (byte* ptextBegin = &textBegin)
					{
						fixed (byte** premaining = &remaining)
						{
							CalcTextSizeANative((Vector2*)ppOut, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)(default), (byte**)premaining);
						}
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, byte* textEnd, ref byte* remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (ImFont* pself = &self)
				{
					fixed (byte* ptextBegin = textBegin)
					{
						fixed (byte** premaining = &remaining)
						{
							CalcTextSizeANative((Vector2*)ppOut, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, textEnd, (byte**)premaining);
						}
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, ref byte* remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (ImFont* pself = &self)
				{
					fixed (byte* ptextBegin = textBegin)
					{
						fixed (byte** premaining = &remaining)
						{
							CalcTextSizeANative((Vector2*)ppOut, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)(default), (byte**)premaining);
						}
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, string textBegin, byte* textEnd, ref byte* remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (ImFont* pself = &self)
				{
					byte* pStr0 = null;
					int pStrSize0 = 0;
					if (textBegin != null)
					{
						pStrSize0 = Utils.GetByteCountUTF8(textBegin);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
						}
						else
						{
							byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
							pStr0 = pStrStack0;
						}
						int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
						pStr0[pStrOffset0] = 0;
					}
					fixed (byte** premaining = &remaining)
					{
						CalcTextSizeANative((Vector2*)ppOut, (ImFont*)pself, size, maxWidth, wrapWidth, pStr0, textEnd, (byte**)premaining);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							Utils.Free(pStr0);
						}
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, string textBegin, ref byte* remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (ImFont* pself = &self)
				{
					byte* pStr0 = null;
					int pStrSize0 = 0;
					if (textBegin != null)
					{
						pStrSize0 = Utils.GetByteCountUTF8(textBegin);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
						}
						else
						{
							byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
							pStr0 = pStrStack0;
						}
						int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
						pStr0[pStrOffset0] = 0;
					}
					fixed (byte** premaining = &remaining)
					{
						CalcTextSizeANative((Vector2*)ppOut, (ImFont*)pself, size, maxWidth, wrapWidth, pStr0, (byte*)(default), (byte**)premaining);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							Utils.Free(pStr0);
						}
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ref byte textBegin, byte* textEnd, ref byte* remaining)
		{
			fixed (byte* ptextBegin = &textBegin)
			{
				fixed (byte** premaining = &remaining)
				{
					CalcTextSizeANative(pOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, textEnd, (byte**)premaining);
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ref byte textBegin, ref byte* remaining)
		{
			fixed (byte* ptextBegin = &textBegin)
			{
				fixed (byte** premaining = &remaining)
				{
					CalcTextSizeANative(pOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)(default), (byte**)premaining);
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, byte* textEnd, ref byte* remaining)
		{
			fixed (byte* ptextBegin = textBegin)
			{
				fixed (byte** premaining = &remaining)
				{
					CalcTextSizeANative(pOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, textEnd, (byte**)premaining);
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, ref byte* remaining)
		{
			fixed (byte* ptextBegin = textBegin)
			{
				fixed (byte** premaining = &remaining)
				{
					CalcTextSizeANative(pOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)(default), (byte**)premaining);
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, string textBegin, byte* textEnd, ref byte* remaining)
		{
			byte* pStr0 = null;
			int pStrSize0 = 0;
			if (textBegin != null)
			{
				pStrSize0 = Utils.GetByteCountUTF8(textBegin);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
				}
				else
				{
					byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
					pStr0 = pStrStack0;
				}
				int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
				pStr0[pStrOffset0] = 0;
			}
			fixed (byte** premaining = &remaining)
			{
				CalcTextSizeANative(pOut, self, size, maxWidth, wrapWidth, pStr0, textEnd, (byte**)premaining);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr0);
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, string textBegin, ref byte* remaining)
		{
			byte* pStr0 = null;
			int pStrSize0 = 0;
			if (textBegin != null)
			{
				pStrSize0 = Utils.GetByteCountUTF8(textBegin);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
				}
				else
				{
					byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
					pStr0 = pStrStack0;
				}
				int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
				pStr0[pStrOffset0] = 0;
			}
			fixed (byte** premaining = &remaining)
			{
				CalcTextSizeANative(pOut, self, size, maxWidth, wrapWidth, pStr0, (byte*)(default), (byte**)premaining);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr0);
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, ref byte textBegin, byte* textEnd, ref byte* remaining)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextBegin = &textBegin)
				{
					fixed (byte** premaining = &remaining)
					{
						CalcTextSizeANative(pOut, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, textEnd, (byte**)premaining);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, ref byte textBegin, ref byte* remaining)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextBegin = &textBegin)
				{
					fixed (byte** premaining = &remaining)
					{
						CalcTextSizeANative(pOut, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)(default), (byte**)premaining);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, byte* textEnd, ref byte* remaining)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextBegin = textBegin)
				{
					fixed (byte** premaining = &remaining)
					{
						CalcTextSizeANative(pOut, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, textEnd, (byte**)premaining);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, ref byte* remaining)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextBegin = textBegin)
				{
					fixed (byte** premaining = &remaining)
					{
						CalcTextSizeANative(pOut, (ImFont*)pself, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)(default), (byte**)premaining);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, string textBegin, byte* textEnd, ref byte* remaining)
		{
			fixed (ImFont* pself = &self)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textBegin != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textBegin);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				fixed (byte** premaining = &remaining)
				{
					CalcTextSizeANative(pOut, (ImFont*)pself, size, maxWidth, wrapWidth, pStr0, textEnd, (byte**)premaining);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, string textBegin, ref byte* remaining)
		{
			fixed (ImFont* pself = &self)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textBegin != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textBegin);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				fixed (byte** premaining = &remaining)
				{
					CalcTextSizeANative(pOut, (ImFont*)pself, size, maxWidth, wrapWidth, pStr0, (byte*)(default), (byte**)premaining);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, byte* textBegin, ref byte textEnd, ref byte* remaining)
		{
			fixed (byte* ptextEnd = &textEnd)
			{
				fixed (byte** premaining = &remaining)
				{
					Vector2 ret;
					CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, textBegin, (byte*)ptextEnd, (byte**)premaining);
					return ret;
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, byte* textBegin, ReadOnlySpan<byte> textEnd, ref byte* remaining)
		{
			fixed (byte* ptextEnd = textEnd)
			{
				fixed (byte** premaining = &remaining)
				{
					Vector2 ret;
					CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, textBegin, (byte*)ptextEnd, (byte**)premaining);
					return ret;
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, byte* textBegin, string textEnd, ref byte* remaining)
		{
			byte* pStr0 = null;
			int pStrSize0 = 0;
			if (textEnd != null)
			{
				pStrSize0 = Utils.GetByteCountUTF8(textEnd);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
				}
				else
				{
					byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
					pStr0 = pStrStack0;
				}
				int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
				pStr0[pStrOffset0] = 0;
			}
			fixed (byte** premaining = &remaining)
			{
				Vector2 ret;
				CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, textBegin, pStr0, (byte**)premaining);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr0);
				}
				return ret;
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, byte* textBegin, ref byte textEnd, ref byte* remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (byte* ptextEnd = &textEnd)
				{
					fixed (byte** premaining = &remaining)
					{
						CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, textBegin, (byte*)ptextEnd, (byte**)premaining);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, byte* textBegin, ReadOnlySpan<byte> textEnd, ref byte* remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (byte* ptextEnd = textEnd)
				{
					fixed (byte** premaining = &remaining)
					{
						CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, textBegin, (byte*)ptextEnd, (byte**)premaining);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, byte* textBegin, string textEnd, ref byte* remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textEnd != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textEnd);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				fixed (byte** premaining = &remaining)
				{
					CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, textBegin, pStr0, (byte**)premaining);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ref ImFont self, float size, float maxWidth, float wrapWidth, byte* textBegin, ref byte textEnd, ref byte* remaining)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextEnd = &textEnd)
				{
					fixed (byte** premaining = &remaining)
					{
						Vector2 ret;
						CalcTextSizeANative(&ret, (ImFont*)pself, size, maxWidth, wrapWidth, textBegin, (byte*)ptextEnd, (byte**)premaining);
						return ret;
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ref ImFont self, float size, float maxWidth, float wrapWidth, byte* textBegin, ReadOnlySpan<byte> textEnd, ref byte* remaining)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextEnd = textEnd)
				{
					fixed (byte** premaining = &remaining)
					{
						Vector2 ret;
						CalcTextSizeANative(&ret, (ImFont*)pself, size, maxWidth, wrapWidth, textBegin, (byte*)ptextEnd, (byte**)premaining);
						return ret;
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ref ImFont self, float size, float maxWidth, float wrapWidth, byte* textBegin, string textEnd, ref byte* remaining)
		{
			fixed (ImFont* pself = &self)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textEnd != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textEnd);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				fixed (byte** premaining = &remaining)
				{
					Vector2 ret;
					CalcTextSizeANative(&ret, (ImFont*)pself, size, maxWidth, wrapWidth, textBegin, pStr0, (byte**)premaining);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
					return ret;
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, byte* textBegin, ref byte textEnd, ref byte* remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (ImFont* pself = &self)
				{
					fixed (byte* ptextEnd = &textEnd)
					{
						fixed (byte** premaining = &remaining)
						{
							CalcTextSizeANative((Vector2*)ppOut, (ImFont*)pself, size, maxWidth, wrapWidth, textBegin, (byte*)ptextEnd, (byte**)premaining);
						}
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, byte* textBegin, ReadOnlySpan<byte> textEnd, ref byte* remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (ImFont* pself = &self)
				{
					fixed (byte* ptextEnd = textEnd)
					{
						fixed (byte** premaining = &remaining)
						{
							CalcTextSizeANative((Vector2*)ppOut, (ImFont*)pself, size, maxWidth, wrapWidth, textBegin, (byte*)ptextEnd, (byte**)premaining);
						}
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, byte* textBegin, string textEnd, ref byte* remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (ImFont* pself = &self)
				{
					byte* pStr0 = null;
					int pStrSize0 = 0;
					if (textEnd != null)
					{
						pStrSize0 = Utils.GetByteCountUTF8(textEnd);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
						}
						else
						{
							byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
							pStr0 = pStrStack0;
						}
						int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
						pStr0[pStrOffset0] = 0;
					}
					fixed (byte** premaining = &remaining)
					{
						CalcTextSizeANative((Vector2*)ppOut, (ImFont*)pself, size, maxWidth, wrapWidth, textBegin, pStr0, (byte**)premaining);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							Utils.Free(pStr0);
						}
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, byte* textBegin, ref byte textEnd, ref byte* remaining)
		{
			fixed (byte* ptextEnd = &textEnd)
			{
				fixed (byte** premaining = &remaining)
				{
					CalcTextSizeANative(pOut, self, size, maxWidth, wrapWidth, textBegin, (byte*)ptextEnd, (byte**)premaining);
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, byte* textBegin, ReadOnlySpan<byte> textEnd, ref byte* remaining)
		{
			fixed (byte* ptextEnd = textEnd)
			{
				fixed (byte** premaining = &remaining)
				{
					CalcTextSizeANative(pOut, self, size, maxWidth, wrapWidth, textBegin, (byte*)ptextEnd, (byte**)premaining);
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, byte* textBegin, string textEnd, ref byte* remaining)
		{
			byte* pStr0 = null;
			int pStrSize0 = 0;
			if (textEnd != null)
			{
				pStrSize0 = Utils.GetByteCountUTF8(textEnd);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
				}
				else
				{
					byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
					pStr0 = pStrStack0;
				}
				int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
				pStr0[pStrOffset0] = 0;
			}
			fixed (byte** premaining = &remaining)
			{
				CalcTextSizeANative(pOut, self, size, maxWidth, wrapWidth, textBegin, pStr0, (byte**)premaining);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr0);
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, byte* textBegin, ref byte textEnd, ref byte* remaining)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextEnd = &textEnd)
				{
					fixed (byte** premaining = &remaining)
					{
						CalcTextSizeANative(pOut, (ImFont*)pself, size, maxWidth, wrapWidth, textBegin, (byte*)ptextEnd, (byte**)premaining);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, byte* textBegin, ReadOnlySpan<byte> textEnd, ref byte* remaining)
		{
			fixed (ImFont* pself = &self)
			{
				fixed (byte* ptextEnd = textEnd)
				{
					fixed (byte** premaining = &remaining)
					{
						CalcTextSizeANative(pOut, (ImFont*)pself, size, maxWidth, wrapWidth, textBegin, (byte*)ptextEnd, (byte**)premaining);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(Vector2* pOut, ref ImFont self, float size, float maxWidth, float wrapWidth, byte* textBegin, string textEnd, ref byte* remaining)
		{
			fixed (ImFont* pself = &self)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textEnd != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textEnd);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				fixed (byte** premaining = &remaining)
				{
					CalcTextSizeANative(pOut, (ImFont*)pself, size, maxWidth, wrapWidth, textBegin, pStr0, (byte**)premaining);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, ref byte textBegin, ref byte textEnd, ref byte* remaining)
		{
			fixed (byte* ptextBegin = &textBegin)
			{
				fixed (byte* ptextEnd = &textEnd)
				{
					fixed (byte** premaining = &remaining)
					{
						Vector2 ret;
						CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, (byte**)premaining);
						return ret;
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, ReadOnlySpan<byte> textEnd, ref byte* remaining)
		{
			fixed (byte* ptextBegin = textBegin)
			{
				fixed (byte* ptextEnd = textEnd)
				{
					fixed (byte** premaining = &remaining)
					{
						Vector2 ret;
						CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, (byte**)premaining);
						return ret;
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, string textBegin, string textEnd, ref byte* remaining)
		{
			byte* pStr0 = null;
			int pStrSize0 = 0;
			if (textBegin != null)
			{
				pStrSize0 = Utils.GetByteCountUTF8(textBegin);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
				}
				else
				{
					byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
					pStr0 = pStrStack0;
				}
				int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
				pStr0[pStrOffset0] = 0;
			}
			byte* pStr1 = null;
			int pStrSize1 = 0;
			if (textEnd != null)
			{
				pStrSize1 = Utils.GetByteCountUTF8(textEnd);
				if (pStrSize1 >= Utils.MaxStackallocSize)
				{
					pStr1 = Utils.Alloc<byte>(pStrSize1 + 1);
				}
				else
				{
					byte* pStrStack1 = stackalloc byte[pStrSize1 + 1];
					pStr1 = pStrStack1;
				}
				int pStrOffset1 = Utils.EncodeStringUTF8(textEnd, pStr1, pStrSize1);
				pStr1[pStrOffset1] = 0;
			}
			fixed (byte** premaining = &remaining)
			{
				Vector2 ret;
				CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, pStr0, pStr1, (byte**)premaining);
				if (pStrSize1 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr1);
				}
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					Utils.Free(pStr0);
				}
				return ret;
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, ref byte textBegin, ReadOnlySpan<byte> textEnd, ref byte* remaining)
		{
			fixed (byte* ptextBegin = &textBegin)
			{
				fixed (byte* ptextEnd = textEnd)
				{
					fixed (byte** premaining = &remaining)
					{
						Vector2 ret;
						CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, (byte**)premaining);
						return ret;
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, ref byte textBegin, string textEnd, ref byte* remaining)
		{
			fixed (byte* ptextBegin = &textBegin)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textEnd != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textEnd);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				fixed (byte** premaining = &remaining)
				{
					Vector2 ret;
					CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, pStr0, (byte**)premaining);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
					return ret;
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, ref byte textEnd, ref byte* remaining)
		{
			fixed (byte* ptextBegin = textBegin)
			{
				fixed (byte* ptextEnd = &textEnd)
				{
					fixed (byte** premaining = &remaining)
					{
						Vector2 ret;
						CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, (byte**)premaining);
						return ret;
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, string textEnd, ref byte* remaining)
		{
			fixed (byte* ptextBegin = textBegin)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textEnd != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textEnd);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				fixed (byte** premaining = &remaining)
				{
					Vector2 ret;
					CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, pStr0, (byte**)premaining);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
					return ret;
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, string textBegin, ref byte textEnd, ref byte* remaining)
		{
			byte* pStr0 = null;
			int pStrSize0 = 0;
			if (textBegin != null)
			{
				pStrSize0 = Utils.GetByteCountUTF8(textBegin);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
				}
				else
				{
					byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
					pStr0 = pStrStack0;
				}
				int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
				pStr0[pStrOffset0] = 0;
			}
			fixed (byte* ptextEnd = &textEnd)
			{
				fixed (byte** premaining = &remaining)
				{
					Vector2 ret;
					CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, pStr0, (byte*)ptextEnd, (byte**)premaining);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
					return ret;
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static Vector2 CalcTextSizeA(ImFontPtr self, float size, float maxWidth, float wrapWidth, string textBegin, ReadOnlySpan<byte> textEnd, ref byte* remaining)
		{
			byte* pStr0 = null;
			int pStrSize0 = 0;
			if (textBegin != null)
			{
				pStrSize0 = Utils.GetByteCountUTF8(textBegin);
				if (pStrSize0 >= Utils.MaxStackallocSize)
				{
					pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
				}
				else
				{
					byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
					pStr0 = pStrStack0;
				}
				int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
				pStr0[pStrOffset0] = 0;
			}
			fixed (byte* ptextEnd = textEnd)
			{
				fixed (byte** premaining = &remaining)
				{
					Vector2 ret;
					CalcTextSizeANative(&ret, self, size, maxWidth, wrapWidth, pStr0, (byte*)ptextEnd, (byte**)premaining);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
					return ret;
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ref byte textBegin, ref byte textEnd, ref byte* remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (byte* ptextBegin = &textBegin)
				{
					fixed (byte* ptextEnd = &textEnd)
					{
						fixed (byte** premaining = &remaining)
						{
							CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, (byte**)premaining);
						}
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, ReadOnlySpan<byte> textEnd, ref byte* remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (byte* ptextBegin = textBegin)
				{
					fixed (byte* ptextEnd = textEnd)
					{
						fixed (byte** premaining = &remaining)
						{
							CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, (byte**)premaining);
						}
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, string textBegin, string textEnd, ref byte* remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textBegin != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textBegin);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				byte* pStr1 = null;
				int pStrSize1 = 0;
				if (textEnd != null)
				{
					pStrSize1 = Utils.GetByteCountUTF8(textEnd);
					if (pStrSize1 >= Utils.MaxStackallocSize)
					{
						pStr1 = Utils.Alloc<byte>(pStrSize1 + 1);
					}
					else
					{
						byte* pStrStack1 = stackalloc byte[pStrSize1 + 1];
						pStr1 = pStrStack1;
					}
					int pStrOffset1 = Utils.EncodeStringUTF8(textEnd, pStr1, pStrSize1);
					pStr1[pStrOffset1] = 0;
				}
				fixed (byte** premaining = &remaining)
				{
					CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, pStr0, pStr1, (byte**)premaining);
					if (pStrSize1 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr1);
					}
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						Utils.Free(pStr0);
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ref byte textBegin, ReadOnlySpan<byte> textEnd, ref byte* remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (byte* ptextBegin = &textBegin)
				{
					fixed (byte* ptextEnd = textEnd)
					{
						fixed (byte** premaining = &remaining)
						{
							CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, (byte**)premaining);
						}
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ref byte textBegin, string textEnd, ref byte* remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (byte* ptextBegin = &textBegin)
				{
					byte* pStr0 = null;
					int pStrSize0 = 0;
					if (textEnd != null)
					{
						pStrSize0 = Utils.GetByteCountUTF8(textEnd);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
						}
						else
						{
							byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
							pStr0 = pStrStack0;
						}
						int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
						pStr0[pStrOffset0] = 0;
					}
					fixed (byte** premaining = &remaining)
					{
						CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, pStr0, (byte**)premaining);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							Utils.Free(pStr0);
						}
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, ref byte textEnd, ref byte* remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (byte* ptextBegin = textBegin)
				{
					fixed (byte* ptextEnd = &textEnd)
					{
						fixed (byte** premaining = &remaining)
						{
							CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, (byte*)ptextEnd, (byte**)premaining);
						}
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, ReadOnlySpan<byte> textBegin, string textEnd, ref byte* remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				fixed (byte* ptextBegin = textBegin)
				{
					byte* pStr0 = null;
					int pStrSize0 = 0;
					if (textEnd != null)
					{
						pStrSize0 = Utils.GetByteCountUTF8(textEnd);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
						}
						else
						{
							byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
							pStr0 = pStrStack0;
						}
						int pStrOffset0 = Utils.EncodeStringUTF8(textEnd, pStr0, pStrSize0);
						pStr0[pStrOffset0] = 0;
					}
					fixed (byte** premaining = &remaining)
					{
						CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, (byte*)ptextBegin, pStr0, (byte**)premaining);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							Utils.Free(pStr0);
						}
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, string textBegin, ref byte textEnd, ref byte* remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textBegin != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textBegin);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				fixed (byte* ptextEnd = &textEnd)
				{
					fixed (byte** premaining = &remaining)
					{
						CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, pStr0, (byte*)ptextEnd, (byte**)premaining);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							Utils.Free(pStr0);
						}
					}
				}
			}
		}

		/// <summary>
		/// To be documented.
		/// </summary>
		public static void CalcTextSizeA(ref Vector2 pOut, ImFontPtr self, float size, float maxWidth, float wrapWidth, string textBegin, ReadOnlySpan<byte> textEnd, ref byte* remaining)
		{
			fixed (Vector2* ppOut = &pOut)
			{
				byte* pStr0 = null;
				int pStrSize0 = 0;
				if (textBegin != null)
				{
					pStrSize0 = Utils.GetByteCountUTF8(textBegin);
					if (pStrSize0 >= Utils.MaxStackallocSize)
					{
						pStr0 = Utils.Alloc<byte>(pStrSize0 + 1);
					}
					else
					{
						byte* pStrStack0 = stackalloc byte[pStrSize0 + 1];
						pStr0 = pStrStack0;
					}
					int pStrOffset0 = Utils.EncodeStringUTF8(textBegin, pStr0, pStrSize0);
					pStr0[pStrOffset0] = 0;
				}
				fixed (byte* ptextEnd = textEnd)
				{
					fixed (byte** premaining = &remaining)
					{
						CalcTextSizeANative((Vector2*)ppOut, self, size, maxWidth, wrapWidth, pStr0, (byte*)ptextEnd, (byte**)premaining);
						if (pStrSize0 >= Utils.MaxStackallocSize)
						{
							Utils.Free(pStr0);
						}
					}
				}
			}
		}
	}
}