/// <summary> /// Creates and initializes a new <see cref="ComputationData"/> instance /// </summary> /// <returns>The <see cref="ComputationData"/></returns> public static ComputationData Create() { ComputationData data = default(ComputationData); data.Unzig = UnzigData.Create(); return(data); }
/// <summary> /// Creates and initializes a new <see cref="ComputationData"/> instance /// </summary> /// <returns>The <see cref="ComputationData"/></returns> public static ComputationData Create() { ComputationData data = default; data.Unzig = ZigZag.CreateUnzigTable(); return(data); }
public static string SimpleArgument114115(int[] source, int target, CancellationToken cancellationToken, ref double Report) { if (source.Length < 2) { return("Error. Elemens count must great equal than 2."); } int sourceLength = source.Length; RPNOperator[] operatorQueue = new RPNOperator[sourceLength * 2 - 2]; ComputationData computationData = new ComputationData(); computationData.operatorQueue = operatorQueue; computationData.opValues = source; computationData.target = target; computationData.cancellationToken = cancellationToken; computationData.forBranchCull = new HashSet <int> [sourceLength]; for (int i = 0; i < computationData.forBranchCull.Length; i++) { computationData.forBranchCull[i] = new HashSet <int>(); } //computationData.forBranchCull = new SortedSet<int>[sourceLength]; //for(int i=0;i < computationData.forBranchCull.Length;i++) //{ // computationData.forBranchCull[i] = new SortedSet<int>(); //} Stopwatch stopwatch = new Stopwatch(); stopwatch.Restart(); if (_ComputeCancelableWithReport(0, 0, 0, computationData, 1, 0, ref Report)) { stopwatch.Stop(); return(string.Format("{0}={1}\nwith {2} milliseconds.", ToInfix(operatorQueue, source), target, stopwatch.ElapsedMilliseconds)); } else if (cancellationToken.IsCancellationRequested) { stopwatch.Stop(); return(string.Format("compute was canceled.\nwith {0} milliseconds.", stopwatch.ElapsedMilliseconds)); } else { stopwatch.Stop(); return(string.Format("cannot find answer.\nwith {0} milliseconds.", stopwatch.ElapsedMilliseconds)); } }
/// <summary> /// Initializes a default-constructed <see cref="OrigJpegScanDecoder"/> instance for reading data from <see cref="OrigJpegDecoderCore"/>-s stream. /// </summary> /// <param name="p">Pointer to <see cref="OrigJpegScanDecoder"/> on the stack</param> /// <param name="decoder">The <see cref="OrigJpegDecoderCore"/> instance</param> /// <param name="remaining">The remaining bytes in the segment block.</param> public static void InitStreamReading(OrigJpegScanDecoder *p, OrigJpegDecoderCore decoder, int remaining) { p->data = ComputationData.Create(); p->pointers = new DataPointers(&p->data); p->InitStreamReadingImpl(decoder, remaining); }
/// <summary> /// Initialize the <see cref="JpegBlockProcessor"/> instance on the stack. /// </summary> /// <param name="processor">The <see cref="JpegBlockProcessor"/> instance</param> /// <param name="componentIndex">The current component index</param> public static void Init(JpegBlockProcessor *processor, int componentIndex) { processor->componentIndex = componentIndex; processor->data = ComputationData.Create(); processor->pointers = new DataPointers(&processor->data); }
static bool _Compute(int NumOfA, int NumOfB, int depth, ComputationData computationData) { ref var operatorQueue = ref computationData.operatorQueue;