public void PrintPrimitives(TextWriter w) { foreach (Type t in this.plansByType.Keys) { if (!t.IsPrimitive && !t.Equals(typeof(string))) { continue; } w.WriteLine("========== " + t.ToString()); int count = 0; foreach (Plan p in this.plansByType[t]) { PrimitiveValueTransformer tr = p.transformer as PrimitiveValueTransformer; Util.Assert(t != null); if (count > 0) { w.Write(", "); } w.Write(tr.fvalue); count++; } w.WriteLine(); } }
public static PrimitiveValueTransformer Get(Type type, object value) { //if (ReflectionUtils.IsStaticClass(type)) //{ // throw new ArgumentException("Type is static class: " + type.ToString()); //} TypeValuePair p = new TypeValuePair(type, value); PrimitiveValueTransformer t; cachedTransformers.TryGetValue(p, out t); if (t == null) cachedTransformers[p] = t = new PrimitiveValueTransformer(type, value); return t; }
public static PrimitiveValueTransformer Get(Type type, object value) { //if (ReflectionUtils.IsStaticClass(type)) //{ // throw new ArgumentException("Type is static class: " + type.ToString()); //} TypeValuePair p = new TypeValuePair(type, value); PrimitiveValueTransformer t; cachedTransformers.TryGetValue(p, out t); if (t == null) { cachedTransformers[p] = t = new PrimitiveValueTransformer(type, value); } return(t); }
public override bool Equals(object obj) { PrimitiveValueTransformer p = obj as PrimitiveValueTransformer; if (p == null) { return(false); } if (!this.ftype.Equals(p.ftype)) { return(false); } if (fvalue == null) { if (p.fvalue == null) { return(true); } else { return(false); } } else { try { return(fvalue.Equals(p.fvalue)); } catch (Exception) { // Execution of code under test led to an exception. return(false); } } }
/// <summary> /// Creates a plan that represents a constant value. /// </summary> /// <param name="t"></param> /// <param name="constantValue"></param> /// <returns></returns> public static Plan Constant(Type t, object constantValue) { return(new Plan(PrimitiveValueTransformer.Get(t, constantValue), new Plan[0], new ParameterChooser[0])); }