public List <EPA> GetEPAs() { List <EPA> epaList = new List <EPA>(); string[] tableNames = new string[1]; Dictionary <string, object> cmdParams = new Dictionary <string, object>(); DataSet ds = dbRepo.ExecuteProcedure("GetEPAs", 0, tableNames, cmdParams); if (ds.Tables.Count > 0 && ds.Tables[0].Rows.Count > 0) { for (int i = 0; i < ds.Tables[0].Rows.Count; i++) { EPA epa = new EPA() { ID = Convert.ToInt32(ds.Tables[0].Rows[i]["ID"]), EPAName = Convert.ToString(ds.Tables[0].Rows[i]["EPA"]), Description = Convert.ToString(ds.Tables[0].Rows[i]["Description"]), District = new District() { DistrictName = Convert.ToString(ds.Tables[0].Rows[i]["DistrictName"]), State = new State() { StateName = Convert.ToString(ds.Tables[0].Rows[i]["StateName"]), Country = new Country() { CountryName = Convert.ToString(ds.Tables[0].Rows[i]["CountryName"]) } } } }; epaList.Add(epa); } } return(epaList); }
public int Get(EPA idx) { int tmpResult = 0; mType2ValueDcit.TryGetValue(idx, out tmpResult); return(tmpResult); }
public int Apply(EPA attrib, int value) { int idx = (int)attrib; if (!mBuffDirty[idx]) { return(value); } return(value + value * mBuffMultipy[(int)attrib] / 10000 + mBuffAdded[(int)attrib]); }
public void Set(EPA idx, int value) { if (mType2ValueDcit.ContainsKey(idx)) { mType2ValueDcit[idx] = value; } else { mType2ValueDcit.Add(idx, value); } }
public Buff(BuffManager manager, BuffBase buffBase) { mManager = manager; mBuffBase = buffBase; mLeftTime = buffBase.Time * 0.001f; mBuffType = (EBuffType)(int)mBuffBase.Type; if (!string.IsNullOrEmpty(buffBase.AttribEffect)) { mAttrib = (EPA)Enum.Parse(typeof(EPA), buffBase.AttribEffect); } mSpecialEffect = (EBuffSpecialEffect)(int)mBuffBase.SpecialEffect; }
public void Apply(EPA attrib, int multipy, int add) { switch (attrib) { case EPA.CurHP: mOwner.AddHp(mOwner.GetAttr(EPA.MaxHP) * multipy / 10000 + add); break; default: mBuffMultipy[(int)attrib] += multipy; mBuffAdded[(int)attrib] += add; mBuffDirty[(int)attrib] = true; break; } }
public void TodasLasCosas() { var res = EPA.Transcribe("Todo Todito todo"); Assert.Equal("Tó Toito tó", res); }
public void QuieroAgua() { var res = EPA.Transcribe("Tengo sed. Sed!"); Assert.Equal("Tengo çêh. Çêh!", res); }
// public static bool Penetration( btConvexShape shape0, ref btTransform wtrs0, btConvexShape shape1, ref btTransform wtrs1, ref btVector3 guess, out sResults results, bool usemargins = false ) { tShape shape = new tShape(); Initialize( shape0, ref wtrs0, shape1, ref wtrs1, out results, shape, usemargins ); GJK gjk = new GJK(); btVector3 tmp; guess.Invert( out tmp ); GJK.eStatus._ gjk_status = gjk.Evaluate( shape, ref tmp ); switch( gjk_status ) { case GJK.eStatus._.Inside: { EPA epa = new EPA(); EPA.eStatus._ epa_status = epa.Evaluate( gjk, ref tmp ); if( epa_status != EPA.eStatus._.Failed ) { btVector3 w0 = btVector3.Zero; for( uint i = 0; i < epa.m_result.rank; ++i ) { shape.Support( ref epa.m_result.c[i].d, 0, out tmp ); w0.AddScale( ref tmp, epa.m_result.p[i], out w0 ); } results.status = sResults.eStatus.Penetrating; wtrs0.Apply( ref w0, out results.witness0 ); w0.SubScale( ref epa.m_normal, epa.m_depth, out tmp ); wtrs0.Apply( ref tmp, out results.witness1 ); epa.m_normal.Invert( out results.normal ); results.distance = -epa.m_depth; return ( true ); } else results.status = sResults.eStatus.EPA_Failed; } break; case GJK.eStatus._.Failed: results.status = sResults.eStatus.GJK_Failed; break; default: break; } return ( false ); }
public void Alhurreca() { var res = EPA.Transcribe("alhurreca"); Assert.Equal("alhurreca", res); }
public void LLCambiaY() { var res = EPA.Transcribe("LL ll"); Assert.Equal("Y y", res); }
public void Acetamida() { var res = EPA.Transcribe("acetamida"); Assert.Equal("açetamida", res); }
public void Saxo() { var res = EPA.Transcribe("saxofón"); Assert.Equal("çâççofón", res); }
public void HaberA_ver() { var res = EPA.Transcribe("A ver [haber]"); Assert.Equal("A bêh [abêh]", res); }
public void AbdicanAsfixian() { var res = EPA.Transcribe("asfixian y éxtasis"); Assert.Equal("âffîççian y éttaçî", res); }
public void ExtasisAsfixian() { var res = EPA.Transcribe("éxtasis y asfixian"); Assert.Equal("éttaçî y âffîççian", res); }
public void Asfixian() { var res = EPA.Transcribe("asfixian"); Assert.Equal("âffîççian", res); }
public void Extasis() { var res = EPA.Transcribe("éxtasis"); Assert.Equal("éttaçî", res); }
public void Pseudoescritor() { var res = EPA.Transcribe("pseudoescritor"); Assert.Equal("çeudoêccritôh", res); }
public void ElQueAcanala() { var res = EPA.Transcribe("acanalador"); Assert.Equal("acanalaôh", res); }
public void Valkiria() { var res = EPA.Transcribe("valkirias"); Assert.Equal("barkiriâ", res); }
public void D_Intervocalica() { var res = EPA.Transcribe("Oido un ruido"); Assert.Equal("Oío un ruío", res); }
public void Cual() { var res = EPA.Transcribe("cual"); Assert.Equal("cuâh", res); }
public void Envidia() { var res = EPA.Transcribe("ENVIDIA"); Assert.Equal("EMBIDIA", res); }
public void Bueno() { var res = EPA.Transcribe("Qué Bueno, qué buena"); Assert.Equal("Qué Gueno, qué guena", res); }
public void Around() { var res = EPA.Transcribe("Alrededor"); Assert.Equal("Arrededôh", res); }
public void Coger() { var res = EPA.Transcribe("aprehender"); Assert.Equal("aprehendêh", res); }
public void Aljarafe() { var res = EPA.Transcribe("aljarafe algébrico"); Assert.Equal("arharafe arhébrico", res); }
public void Ahuehue() { var res = EPA.Transcribe("ahuehué"); Assert.Equal("aguegué", res); }
public void Viandero() { var res = EPA.Transcribe("viandero"); Assert.Equal("biandero", res); }
public void Acar() { var res = EPA.Transcribe("ahotado"); Assert.Equal("ahotao", res); }