// this function applies analysis-net analyses on the method defined in our assembly (methodDefinition)
        // the result is a typed stackless three address code representation of the orignal method definition body
        // you can 'out' the control flow graph because it can be reused for another analysis
        public static MethodBody ThreeAddressCode(IMethodDefinition methodDefinition, MetadataReaderHost host, out ControlFlowGraph cfg)
        {
            if (methodDefinition.IsAbstract || methodDefinition.IsExternal)
            {
                cfg = null;
                return(null);
            }

            var disassembler = new Disassembler(host, methodDefinition, null);
            var methodBody   = disassembler.Execute();

            var cfAnalysis = new ControlFlowAnalysis(methodBody);

            //var cfg = cfAnalysis.GenerateNormalControlFlow();
            cfg = cfAnalysis.GenerateExceptionalControlFlow();

            var splitter = new WebAnalysis(cfg, methodDefinition);

            splitter.Analyze();
            splitter.Transform();

            methodBody.UpdateVariables();

            var typeAnalysis = new TypeInferenceAnalysis(cfg, methodDefinition.Type);

            typeAnalysis.Analyze();

            methodBody.UpdateVariables();

            return(methodBody);
        }
Exemple #2
0
        public void Execute()
        {
            var disassembler = new Backend.Transformations.Disassembler(host, methodDefinition, sourceLocationProvider);
            var methodBody   = disassembler.Execute();

            MethodBody = methodBody;

            var cfAnalysis = new ControlFlowAnalysis(methodBody);

            ControlFlowGraph = cfAnalysis.GenerateExceptionalControlFlow();

            var splitter = new WebAnalysis(ControlFlowGraph, methodBody.MethodDefinition);

            splitter.Analyze();
            splitter.Transform();

            methodBody.UpdateVariables();

            var typeAnalysis = new TypeInferenceAnalysis(ControlFlowGraph, methodBody.MethodDefinition.Type);

            typeAnalysis.Analyze();

            //var forwardCopyAnalysis = new ForwardCopyPropagationAnalysis(Traverser.CFG);
            //forwardCopyAnalysis.Analyze();
            //forwardCopyAnalysis.Transform(methodBody);

            //var backwardCopyAnalysis = new BackwardCopyPropagationAnalysis(Traverser.CFG);
            //backwardCopyAnalysis.Analyze();
            //backwardCopyAnalysis.Transform(methodBody);

            // TinyBCT transformations

            var fieldInitialization = new FieldInitialization(methodBody);

            fieldInitialization.Transform();

            if (!Settings.AddressesEnabled())
            {
                var refAlias = new RefAlias(methodBody);
                refAlias.Transform();
            }

            // execute this after RefAlias!
            var immutableArguments = new ImmutableArguments(methodBody);

            immutableArguments.Transform();

            methodBody.RemoveUnusedLabels();
        }
        public static void transformBody(MethodBody methodBody)
        {
            var cfAnalysis = new ControlFlowAnalysis(methodBody);

            //var cfg = cfAnalysis.GenerateNormalControlFlow();
            Traverser.CFG = cfAnalysis.GenerateExceptionalControlFlow();

            var splitter = new WebAnalysis(Traverser.CFG, methodBody.MethodDefinition);

            splitter.Analyze();
            splitter.Transform();

            methodBody.UpdateVariables();

            var typeAnalysis = new TypeInferenceAnalysis(Traverser.CFG, methodBody.MethodDefinition.Type);

            typeAnalysis.Analyze();

            //var forwardCopyAnalysis = new ForwardCopyPropagationAnalysis(Traverser.CFG);
            //forwardCopyAnalysis.Analyze();
            //forwardCopyAnalysis.Transform(methodBody);

            //var backwardCopyAnalysis = new BackwardCopyPropagationAnalysis(Traverser.CFG);
            //backwardCopyAnalysis.Analyze();
            //backwardCopyAnalysis.Transform(methodBody);

            // TinyBCT transformations

            if (!Settings.NewAddrModelling)
            {
                var refAlias = new RefAlias(methodBody);
                refAlias.Transform();

                var immutableArguments = new ImmutableArguments(methodBody);
                immutableArguments.Transform();

                var fieldInitialization = new FieldInitialization(methodBody);
                fieldInitialization.Transform();
            }
            methodBody.RemoveUnusedLabels();
        }
Exemple #4
0
        public static void TransformToTac(MethodDefinition method)
        {
            Disassembler disassembler = new Disassembler(method);
            MethodBody   methodBody   = disassembler.Execute();

            method.Body = methodBody;

            ControlFlowAnalysis cfAnalysis = new ControlFlowAnalysis(method.Body);

            //var cfg = cfAnalysis.GenerateNormalControlFlow();
            Backend.Model.ControlFlowGraph cfg = cfAnalysis.GenerateExceptionalControlFlow();

            WebAnalysis splitter = new WebAnalysis(cfg);

            splitter.Analyze();
            splitter.Transform();

            methodBody.UpdateVariables();

            TypeInferenceAnalysis typeAnalysis = new TypeInferenceAnalysis(cfg, method.ReturnType);

            typeAnalysis.Analyze();

            // Copy Propagation
            ForwardCopyPropagationAnalysis forwardCopyAnalysis = new ForwardCopyPropagationAnalysis(cfg);

            forwardCopyAnalysis.Analyze();
            forwardCopyAnalysis.Transform(methodBody);

            BackwardCopyPropagationAnalysis backwardCopyAnalysis = new BackwardCopyPropagationAnalysis(cfg);

            backwardCopyAnalysis.Analyze();
            backwardCopyAnalysis.Transform(methodBody);

            methodBody.UpdateVariables();
        }
Exemple #5
0
        public MethodCfgAndTac AnalyzeIntraProcedural(IMethodDefinition methodDefinition)
        {
            // System.Console.WriteLine("Traversing: {0}", methodDefinition.GetName());
            if (Stubber.SuppressM(methodDefinition))
            {
                return(null);
            }
            if (methodDefinition.IsExternal)
            {
                return(null);
            }
            if (methodDefinition.IsAbstract)
            {
                return(null);
            }

            ITypeDefinition         containingDefn         = methodDefinition.ContainingTypeDefinition;
            ISourceLocationProvider sourceLocationProvider = null;

            if (containingDefn != null)
            {
                IModule mod = TypeHelper.GetDefiningUnit(containingDefn) as IModule;
                if (moduleToPdbMap.ContainsKey(mod))
                {
                    sourceLocationProvider = moduleToPdbMap[mod];
                }
                else
                {
                    if (!(mod == null || mod == Dummy.Module || mod == Dummy.Assembly))
                    {
                        sourceLocationProvider = GetPdbReader(mod.Location);
                        moduleToPdbMap[mod]    = sourceLocationProvider;
                    }
                }
            }
            var disassembler = new Disassembler(host, methodDefinition, sourceLocationProvider);
            var methodBody   = disassembler.Execute();

            var cfAnalysis = new ControlFlowAnalysis(methodBody);
            // var cfg = cfAnalysis.GenerateNormalControlFlow();
            var cfg = cfAnalysis.GenerateExceptionalControlFlow();

            var domAnalysis = new DominanceAnalysis(cfg);

            domAnalysis.Analyze();
            domAnalysis.GenerateDominanceTree();

            var loopAnalysis = new NaturalLoopAnalysis(cfg);

            loopAnalysis.Analyze();

            var domFrontierAnalysis = new DominanceFrontierAnalysis(cfg);

            domFrontierAnalysis.Analyze();

            var splitter = new WebAnalysis(cfg, methodDefinition);

            splitter.Analyze();
            splitter.Transform();

            methodBody.UpdateVariables();

            var typeAnalysis = new TypeInferenceAnalysis(cfg, methodDefinition.Type);

            typeAnalysis.Analyze();

            var forwardCopyAnalysis = new ForwardCopyPropagationAnalysis(cfg);

            forwardCopyAnalysis.Analyze();
            forwardCopyAnalysis.Transform(methodBody);

            // backwardCopyAnalysis is buggy - it says so in the source file - see notes in src/test
            // var backwardCopyAnalysis = new BackwardCopyPropagationAnalysis(cfg);
            // backwardCopyAnalysis.Analyze();
            // backwardCopyAnalysis.Transform(methodBody);

            var liveVariables = new LiveVariablesAnalysis(cfg);

            liveVariables.Analyze();

            var ssa = new StaticSingleAssignment(methodBody, cfg);

            ssa.Transform();
            ssa.Prune(liveVariables);

            methodBody.UpdateVariables();

            MethodCfgAndTac mct = new MethodCfgAndTac(cfg, methodBody);

            foreach (IExceptionHandlerBlock ehInfo in disassembler.GetExceptionHandlers())
            {
                if (ehInfo is CatchExceptionHandler)
                {
                    mct.ehInfoList.Add(ehInfo as CatchExceptionHandler);
                }
            }
            return(mct);
        }