b486678290
Library -Artifacts
377 lines
14 KiB
C#
377 lines
14 KiB
C#
using System;
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using System.Globalization;
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using System.Text.RegularExpressions;
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#if TIMELINE_FRAMEACCURATE
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using UnityEngine.Playables;
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#endif
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namespace UnityEngine.Timeline
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{
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/// <summary>
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/// The standard frame rates supported when locking Timeline playback to frames.
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/// The frame rate is expressed in frames per second (fps).
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/// </summary>
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public enum StandardFrameRates
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{
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/// <summary>
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/// Represents a frame rate of 24 fps. This is the common frame rate for film.
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/// </summary>
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Fps24,
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/// <summary>
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/// Represents a drop frame rate of 23.97 fps. This is the common frame rate for NTSC film broadcast.
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/// </summary>
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Fps23_97,
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/// <summary>
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/// Represents a frame rate of 25 fps. This is commonly used for non-interlaced PAL television broadcast.
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/// </summary>
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Fps25,
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/// <summary>
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/// Represents a frame rate of 30 fps. This is commonly used for HD footage.
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/// </summary>
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Fps30,
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/// <summary>
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/// Represents a drop frame rate of 29.97 fps. This is commonly used for NTSC television broadcast.
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/// </summary>
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Fps29_97,
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/// <summary>
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/// Represents a frame rate of 50 fps. This is commonly used for interlaced PAL television broadcast.
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/// </summary>
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Fps50,
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/// <summary>
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/// Represents a frame rate of 60 fps. This is commonly used for games.
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/// </summary>
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Fps60,
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/// <summary>
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/// Represents a drop frame rate of 59.94 fps. This is commonly used for interlaced NTSC television broadcast.
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/// </summary>
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Fps59_94
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}
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// Sequence specific utilities for time manipulation
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static class TimeUtility
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{
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// chosen because it will cause no rounding errors between time/frames for frames values up to at least 10 million
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public static readonly double kTimeEpsilon = 1e-14;
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public static readonly double kFrameRateEpsilon = 1e-6;
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public static readonly double k_MaxTimelineDurationInSeconds = 9e6; //104 days of running time
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public static readonly double kFrameRateRounding = 1e-2;
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static void ValidateFrameRate(double frameRate)
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{
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if (frameRate <= kTimeEpsilon)
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throw new ArgumentException("frame rate cannot be 0 or negative");
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}
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public static int ToFrames(double time, double frameRate)
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{
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ValidateFrameRate(frameRate);
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time = Math.Min(Math.Max(time, -k_MaxTimelineDurationInSeconds), k_MaxTimelineDurationInSeconds);
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// this matches OnFrameBoundary
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double tolerance = GetEpsilon(time, frameRate);
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if (time < 0)
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{
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return (int)Math.Ceiling(time * frameRate - tolerance);
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}
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return (int)Math.Floor(time * frameRate + tolerance);
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}
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public static double ToExactFrames(double time, double frameRate)
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{
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ValidateFrameRate(frameRate);
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return time * frameRate;
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}
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public static double FromFrames(int frames, double frameRate)
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{
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ValidateFrameRate(frameRate);
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return (frames / frameRate);
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}
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public static double FromFrames(double frames, double frameRate)
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{
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ValidateFrameRate(frameRate);
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return frames / frameRate;
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}
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public static bool OnFrameBoundary(double time, double frameRate)
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{
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return OnFrameBoundary(time, frameRate, GetEpsilon(time, frameRate));
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}
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public static double GetEpsilon(double time, double frameRate)
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{
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return Math.Max(Math.Abs(time), 1) * frameRate * kTimeEpsilon;
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}
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public static int PreviousFrame(double time, double frameRate)
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{
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return Math.Max(0, ToFrames(time, frameRate) - 1);
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}
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public static int NextFrame(double time, double frameRate)
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{
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return ToFrames(time, frameRate) + 1;
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}
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public static double PreviousFrameTime(double time, double frameRate)
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{
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return FromFrames(PreviousFrame(time, frameRate), frameRate);
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}
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public static double NextFrameTime(double time, double frameRate)
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{
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return FromFrames(NextFrame(time, frameRate), frameRate);
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}
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public static bool OnFrameBoundary(double time, double frameRate, double epsilon)
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{
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ValidateFrameRate(frameRate);
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double exact = ToExactFrames(time, frameRate);
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double rounded = Math.Round(exact);
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return Math.Abs(exact - rounded) < epsilon;
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}
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public static double RoundToFrame(double time, double frameRate)
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{
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ValidateFrameRate(frameRate);
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var frameBefore = (int)Math.Floor(time * frameRate) / frameRate;
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var frameAfter = (int)Math.Ceiling(time * frameRate) / frameRate;
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return Math.Abs(time - frameBefore) < Math.Abs(time - frameAfter) ? frameBefore : frameAfter;
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}
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public static string TimeAsFrames(double timeValue, double frameRate, string format = "F2")
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{
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if (OnFrameBoundary(timeValue, frameRate)) // make integral values when on time borders
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return ToFrames(timeValue, frameRate).ToString();
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return ToExactFrames(timeValue, frameRate).ToString(format);
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}
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public static string TimeAsTimeCode(double timeValue, double frameRate, string format = "F2")
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{
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ValidateFrameRate(frameRate);
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int intTime = (int)Math.Abs(timeValue);
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int hours = intTime / 3600;
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int minutes = (intTime % 3600) / 60;
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int seconds = intTime % 60;
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string result;
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string sign = timeValue < 0 ? "-" : string.Empty;
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if (hours > 0)
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result = hours + ":" + minutes.ToString("D2") + ":" + seconds.ToString("D2");
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else if (minutes > 0)
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result = minutes + ":" + seconds.ToString("D2");
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else
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result = seconds.ToString();
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int frameDigits = (int)Math.Floor(Math.Log10(frameRate) + 1);
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// Add partial digits on the frame if needed.
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// we are testing the original value (not the truncated), because the truncation can cause rounding errors leading
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// to invalid strings for items on frame boundaries
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string frames = (ToFrames(timeValue, frameRate) - ToFrames(intTime, frameRate)).ToString().PadLeft(frameDigits, '0');
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if (!OnFrameBoundary(timeValue, frameRate))
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{
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string decimals = ToExactFrames(timeValue, frameRate).ToString(format);
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int decPlace = decimals.IndexOf('.');
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if (decPlace >= 0)
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frames += " [" + decimals.Substring(decPlace) + "]";
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}
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return sign + result + ":" + frames;
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}
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// Given a time code string, return the time in seconds
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// 1.5 -> 1.5 seconds
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// 1:1.5 -> 1 minute, 1.5 seconds
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// 1:1[.5] -> 1 second, 1.5 frames
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// 2:3:4 -> 2 minutes, 3 seconds, 4 frames
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// 1[.6] -> 1.6 frames
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public static double ParseTimeCode(string timeCode, double frameRate, double defaultValue)
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{
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timeCode = RemoveChar(timeCode, c => char.IsWhiteSpace(c));
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string[] sections = timeCode.Split(':');
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if (sections.Length == 0 || sections.Length > 4)
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return defaultValue;
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int hours = 0;
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int minutes = 0;
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double seconds = 0;
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double frames = 0;
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try
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{
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// depending on the format of the last numbers
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// seconds format
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string lastSection = sections[sections.Length - 1];
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if (Regex.Match(lastSection, @"^\d+\.\d+$").Success)
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{
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seconds = double.Parse(lastSection);
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if (sections.Length > 3) return defaultValue;
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if (sections.Length > 1) minutes = int.Parse(sections[sections.Length - 2]);
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if (sections.Length > 2) hours = int.Parse(sections[sections.Length - 3]);
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}
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// frame formats
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else
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{
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if (Regex.Match(lastSection, @"^\d+\[\.\d+\]$").Success)
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{
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string stripped = RemoveChar(lastSection, c => c == '[' || c == ']');
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frames = double.Parse(stripped);
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}
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else if (Regex.Match(lastSection, @"^\d*$").Success)
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{
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frames = int.Parse(lastSection);
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}
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else
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{
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return defaultValue;
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}
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if (sections.Length > 1) seconds = int.Parse(sections[sections.Length - 2]);
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if (sections.Length > 2) minutes = int.Parse(sections[sections.Length - 3]);
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if (sections.Length > 3) hours = int.Parse(sections[sections.Length - 4]);
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}
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}
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catch (FormatException)
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{
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return defaultValue;
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}
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return frames / frameRate + seconds + minutes * 60 + hours * 3600;
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}
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public static double ParseTimeSeconds(string timeCode, double frameRate, double defaultValue)
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{
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timeCode = RemoveChar(timeCode, c => char.IsWhiteSpace(c));
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string[] sections = timeCode.Split(':');
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if (sections.Length == 0 || sections.Length > 4)
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return defaultValue;
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int hours = 0;
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int minutes = 0;
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double seconds = 0;
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try
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{
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// depending on the format of the last numbers
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// seconds format
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string lastSection = sections[sections.Length - 1];
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{
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if (!double.TryParse(lastSection, NumberStyles.Integer, CultureInfo.InvariantCulture, out seconds))
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if (Regex.Match(lastSection, @"^\d+\.\d+$").Success)
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seconds = double.Parse(lastSection);
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else
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return defaultValue;
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if (!double.TryParse(lastSection, NumberStyles.Float, CultureInfo.InvariantCulture, out seconds))
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return defaultValue;
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if (sections.Length > 3) return defaultValue;
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if (sections.Length > 1) minutes = int.Parse(sections[sections.Length - 2]);
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if (sections.Length > 2) hours = int.Parse(sections[sections.Length - 3]);
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}
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}
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catch (FormatException)
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{
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return defaultValue;
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}
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return seconds + minutes * 60 + hours * 3600;
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}
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// fixes rounding errors from using single precision for length
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public static double GetAnimationClipLength(AnimationClip clip)
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{
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if (clip == null || clip.empty)
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return 0;
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double length = clip.length;
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if (clip.frameRate > 0)
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{
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double frames = Mathf.Round(clip.length * clip.frameRate);
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length = frames / clip.frameRate;
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}
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return length;
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}
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static string RemoveChar(string str, Func<char, bool> charToRemoveFunc)
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{
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var len = str.Length;
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var src = str.ToCharArray();
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var dstIdx = 0;
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for (var i = 0; i < len; i++)
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{
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if (!charToRemoveFunc(src[i]))
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src[dstIdx++] = src[i];
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}
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return new string(src, 0, dstIdx);
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}
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public static FrameRate GetClosestFrameRate(double frameRate)
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{
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ValidateFrameRate(frameRate);
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var actualFrameRate = FrameRate.DoubleToFrameRate(frameRate);
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return Math.Abs(frameRate - actualFrameRate.rate) < kFrameRateRounding ? actualFrameRate : new FrameRate();
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}
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public static FrameRate ToFrameRate(StandardFrameRates enumValue)
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{
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switch (enumValue)
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{
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case StandardFrameRates.Fps23_97:
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return FrameRate.k_23_976Fps;
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case StandardFrameRates.Fps24:
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return FrameRate.k_24Fps;
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case StandardFrameRates.Fps25:
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return FrameRate.k_25Fps;
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case StandardFrameRates.Fps29_97:
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return FrameRate.k_29_97Fps;
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case StandardFrameRates.Fps30:
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return FrameRate.k_30Fps;
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case StandardFrameRates.Fps50:
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return FrameRate.k_50Fps;
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case StandardFrameRates.Fps59_94:
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return FrameRate.k_59_94Fps;
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case StandardFrameRates.Fps60:
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return FrameRate.k_60Fps;
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default:
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return new FrameRate();
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}
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;
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}
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internal static bool ToStandardFrameRate(FrameRate rate, out StandardFrameRates standard)
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{
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if (rate == FrameRate.k_23_976Fps)
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standard = StandardFrameRates.Fps23_97;
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else if (rate == FrameRate.k_24Fps)
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standard = StandardFrameRates.Fps24;
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else if (rate == FrameRate.k_25Fps)
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standard = StandardFrameRates.Fps25;
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else if (rate == FrameRate.k_30Fps)
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standard = StandardFrameRates.Fps30;
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else if (rate == FrameRate.k_29_97Fps)
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standard = StandardFrameRates.Fps29_97;
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else if (rate == FrameRate.k_50Fps)
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standard = StandardFrameRates.Fps50;
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else if (rate == FrameRate.k_59_94Fps)
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standard = StandardFrameRates.Fps59_94;
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else if (rate == FrameRate.k_60Fps)
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standard = StandardFrameRates.Fps60;
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else
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{
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standard = (StandardFrameRates)Enum.GetValues(typeof(StandardFrameRates)).Length;
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return false;
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}
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return true;
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}
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}
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}
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