public DD29Rule(IExternalData <string, List <string> > larsExternalData, IReferenceData <string, string> referenceData) { _larsExternalData = larsExternalData; _referenceData = referenceData; }
public void hide() { inventory = null; visible = false; }
protected override void OnExternalDataRead(uint channelIndex, IExternalData update) { // pass }
public void show(IExternalData inventory, float x, float y) { this.inventory=inventory; slot.position.OffsetX=x; slot.position.OffsetY=y; float width = getWidth(); float height = getHeight(); bounds = new Rect(x, y, width, height); titleRect = new Rect(x, y - 12, width, 48); float maxWidth = CellSettings.cellPaddingX + MAX_COUNT_X * CellSettings.cellWidth; float maxHeight = CellSettings.cellPaddingY + MAX_COUNT_Y * CellSettings.cellHeight; sourceBounds = new Rect(0,0, maxWidth/width, maxHeight/height); // расчитываем мколько нужно вырезать из исходной картинки чтобы показать видимые ячейки visible = true; }
public IllnessService(IExternalData<Illness> data) { _data = data; }
public ValidateLARNotionalNVQLevelRule(IExternalData <string, List <string> > lARSNotionalNVQLevelData, IReferenceData <string, string> referenceDataFromSettings) { _LARSNotionalNVQLevelData = lARSNotionalNVQLevelData; _referenceData = referenceDataFromSettings; _AllowedLARSNotionalNVQLevelv2 = _referenceData.Get("AllowedLARSNotionalNVQLevelv2").Split(',').ToList(); }
public override ExpressionTarget ParseExpression(HlCompilation compilation, HlInvocationOp expr) { string target = expr.Left.ToString(); if (m_CtFuncCollection.IsCompiletimeFunction(target)) { return(m_CtFuncCollection.Compile(target, compilation, expr)); } bool isInternalFunc = compilation.FunctionMap.Contains(target); IExternalData externalSymbol = compilation.ExternalSymbols.FirstOrDefault( x => x.GetName() == target && x.DataType == ExternalDataType.Function ); //if (expr.Instance == null && // expr.MemberDefinition == null && // expr.InstanceType != null && // target == "new") //{ // ExpressionTarget instance = compilation.Parse(expr.ParameterList[0]); // HlTypeDefinition tdef = expr.InstanceType; // ExpressionTarget ret = new ExpressionTarget( // instance.ResultAddress, // true, // tdef, // true // ); // if(SettingsManager.GetSettings<HlCompilerSettings>().ConstructorPrologMode == HlTypeConstructorPrologMode.Outline) // WriteConstructorInvocationProlog(compilation, tdef, ret.ResultAddress); // return ret; //} if (expr.Instance == null && expr.InstanceType != null) { if (expr.MemberDefinition == expr.InstanceType.StaticConstructor) { ExpressionTarget instance = compilation.Parse(expr.ParameterList[0]); HlTypeDefinition tdef = expr.InstanceType; ExpressionTarget ret = new ExpressionTarget( instance.ResultAddress, true, tdef, true ); if (expr.WriteProlog && SettingsManager.GetSettings <HlCompilerSettings>().ConstructorPrologMode == HlTypeConstructorPrologMode.Outline) { WriteConstructorInvocationProlog(compilation, tdef, ret.ResultAddress); } expr.Redirect(ret.ResultAddress, tdef, tdef.StaticConstructor, expr.WriteProlog); ParseExpression( compilation, expr ); return(ret); } else { int l = (expr.MemberDefinition as HlFunctionDefinition).ParameterTypes.Length; if (isInternalFunc) { compilation.FunctionMap.Get(target).SetUsed(); } else { externalSymbol?.SetUsed(); } return(ParseFunctionInvocation(compilation, expr, l, target, "JSR")); } } if (compilation.TypeSystem.HasType(compilation.Root, target)) { string var = HlCompilation.GetUniqueName("static_alloc"); HlTypeDefinition tdef = compilation.TypeSystem.GetType(compilation.Root, target); uint size = tdef.GetSize(); compilation.CreateVariable(var, size, tdef, VariableDataEmitFlags.None); string finalName = compilation.GetFinalName(var); ExpressionTarget ret = new ExpressionTarget( compilation.GetTempVarLoad(finalName), true, tdef, true ); if (SettingsManager.GetSettings <HlCompilerSettings>().ConstructorPrologMode == HlTypeConstructorPrologMode.Outline) { WriteConstructorInvocationProlog(compilation, tdef, ret.ResultAddress); } if (tdef.StaticConstructor != null) { expr.Redirect(ret.ResultAddress, tdef, tdef.StaticConstructor); ParseExpression( compilation, expr ); } return(ret); } if (expr.Instance != null && expr.MemberDefinition is HlFunctionDefinition fdef) { if (fdef.IsVirtual || fdef.IsAbstract || fdef.IsOverride) { uint i = expr.InstanceType.GetOffset(fdef.Name); string init = i.ToString(); string tmp = compilation.GetTempVarLoad(init); compilation.EmitterResult.Emit("ADD", tmp, expr.Instance); compilation.EmitterResult.Emit("DREF", tmp, tmp); int targetLength = fdef.ParameterTypes != null ? fdef.ParameterTypes.Length : expr.ParameterList.Length; externalSymbol?.SetUsed(); ExpressionTarget t = ParseFunctionInvocation(compilation, expr, targetLength, tmp, "JSREF"); compilation.ReleaseTempVar(tmp); return(t); } else if (!isInternalFunc && externalSymbol == null) { string funcEmit = target; int targetLength = fdef.ParameterTypes?.Length ?? expr.ParameterList.Length; if (expr.InstanceType != null && expr.InstanceType.StaticConstructor == expr.MemberDefinition && expr.WriteProlog && SettingsManager.GetSettings <HlCompilerSettings>().ConstructorPrologMode == HlTypeConstructorPrologMode.Inline) { funcEmit = expr.InstanceType.GetInternalConstructor(compilation); } return(ParseFunctionInvocation(compilation, expr, targetLength, funcEmit, "JSR")); } } if (isInternalFunc) { string funcEmit = target; FunctionData fData = compilation.FunctionMap.Get(target); int targetLength = fData.ParameterCount; //if (!expr.WriteProlog && SettingsManager.GetSettings < HlCompilerSettings >().ConstructorPrologMode == // HlTypeConstructorPrologMode.Inline ) //{ // funcEmit = expr.MemberDefinition. //} if (expr.InstanceType != null && expr.InstanceType.StaticConstructor == expr.MemberDefinition && expr.WriteProlog && SettingsManager.GetSettings <HlCompilerSettings>().ConstructorPrologMode == HlTypeConstructorPrologMode.Inline) { funcEmit = expr.InstanceType.GetInternalConstructor(compilation); } fData.SetUsed(); return(ParseFunctionInvocation(compilation, expr, targetLength, funcEmit, "JSR"). Cast( compilation.TypeSystem.GetType( compilation.Root, fData?.ReturnType ?? HLBaseTypeNames.s_UintTypeName ) )); } if (externalSymbol != null) { string funcEmit = (externalSymbol as LinkedData)?.Info.Address.ToString() ?? target; FunctionData fData = externalSymbol as FunctionData; int targetLength = (externalSymbol as FunctionData)?.ParameterCount ?? expr.ParameterList.Length; if (expr.InstanceType != null && expr.InstanceType.StaticConstructor == expr.MemberDefinition && expr.WriteProlog && SettingsManager.GetSettings <HlCompilerSettings>().ConstructorPrologMode == HlTypeConstructorPrologMode.Inline) { funcEmit = expr.InstanceType.GetInternalConstructor(compilation); } externalSymbol.SetUsed(); return(ParseFunctionInvocation(compilation, expr, targetLength, funcEmit, "JSR"). Cast(compilation.TypeSystem.GetType( compilation.Root, fData?.ReturnType ?? HLBaseTypeNames.s_UintTypeName ))); } //if (isInternalFunc || externalSymbol != null) //{ // string funcEmit = externalSymbol is LinkedData l ? l.Info.Address.ToString() : target; // int targetLength = isInternalFunc // ? compilation.FunctionMap.Get(target).ParameterCount // : (externalSymbol as FunctionData)?.ParameterCount ?? // expr.ParameterList.Length; // //if (!expr.WriteProlog && SettingsManager.GetSettings < HlCompilerSettings >().ConstructorPrologMode == // // HlTypeConstructorPrologMode.Inline ) // //{ // // funcEmit = expr.MemberDefinition. // //} // return ParseFunctionInvocation(compilation, expr, targetLength, funcEmit, "JSR"); //} if (compilation.ContainsVariable(target) || compilation.ConstValTypes.Contains(target)) { foreach (HlExpression parameter in expr.ParameterList) { ExpressionTarget ttVal = compilation.Parse(parameter); ExpressionTarget tt = ttVal.MakeAddress(compilation); compilation.EmitterResult.Emit( $"PUSH", tt.ResultAddress ); compilation.ReleaseTempVar(tt.ResultAddress); compilation.ReleaseTempVar(ttVal.ResultAddress); } if (compilation.ContainsVariable(target)) { compilation.EmitterResult.Emit($"JSREF", compilation.GetFinalName(target)); } else { compilation.EmitterResult.Emit($"JSREF", target); } ExpressionTarget tempReturn = new ExpressionTarget( compilation.GetTempVarPop(), true, compilation.TypeSystem.GetType( compilation.Root, HLBaseTypeNames.s_UintTypeName ) ); return(tempReturn); } EventManager <ErrorEvent> .SendEvent(new FunctionNotFoundEvent( target )); return(new ExpressionTarget()); }
public HospitalRepository(IExternalData <Hospital> data) { _data = data; }