public void R4_ConvergenceJuge_Excute_Test1() { m_R4_ConvergenceJuge = new R4_ConvergenceJuge(m_Param); m_tdCells = new List<TDSimCell>(); bool actual = m_R4_ConvergenceJuge.Excute(4, m_tdCells); Assert.AreEqual(true, actual); }
public void R4_ConvergenceJuge_Excute_Test3() { m_R4_ConvergenceJuge = new R4_ConvergenceJuge(m_Param); m_tdCells = MockTDSimCellList.CreatTDSimCellList(); bool actual = m_R4_ConvergenceJuge.Excute(-1, m_tdCells); Assert.AreEqual(false, actual); }
public void R4_ConvergenceJuge_Excute_Test4() { m_Param.TdUIParam.IsThroughputConv = true; m_Param.TdUIParam.PowerLimit = 0; m_Param.TdUIParam.ThroughLimit = 0; m_Param.TdUIParam.AveConvCoef = 1; m_Param.TdUIParam.DevConvCoef = 25; m_R4_ConvergenceJuge = new R4_ConvergenceJuge(m_Param); m_tdCells = MockTDSimCellList.CreatTDSimCellList(); m_Param = m_R4_ConvergenceJuge.Param; bool actual = m_R4_ConvergenceJuge.Excute(2, m_tdCells); Assert.AreEqual(true, actual); }
/// <summary> /// 收敛判断 /// </summary> /// <param name="iteNum"></param> /// <returns></returns> private bool JugeConvegence(int iteNum) { m_ConverJuge = new R4_ConvergenceJuge(m_CommonParam); return m_ConverJuge.Excute(iteNum, m_CommonParam.R4Cells); }