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|
//-----------------------------------------------------------------------------
//
// Copyright (C) Microsoft Corporation. All Rights Reserved.
//
//-----------------------------------------------------------------------------
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using Microsoft.Cci;
using Microsoft.Cci.MetadataReader;
using Microsoft.Cci.MutableCodeModel;
using Microsoft.Cci.Contracts;
using Microsoft.Cci.ILToCodeModel;
using System.Diagnostics.Contracts;
using Bpl = Microsoft.Boogie;
namespace BytecodeTranslator {
public class Sink {
public TraverserFactory Factory {
get { return this.factory; }
}
readonly TraverserFactory factory;
public Sink(IContractAwareHost host, TraverserFactory factory, HeapFactory heapFactory) {
Contract.Requires(host != null);
Contract.Requires(factory != null);
Contract.Requires(heapFactory != null);
this.host = host;
this.factory = factory;
var b = heapFactory.MakeHeap(this, out this.heap, out this.TranslatedProgram); // TODO: what if it returns false?
if (this.TranslatedProgram == null) {
this.TranslatedProgram = new Bpl.Program();
} else {
foreach (var d in this.TranslatedProgram.TopLevelDeclarations) {
var p = d as Bpl.Procedure;
if (p != null) {
this.initiallyDeclaredProcedures.Add(p.Name, p);
}
}
}
}
public Heap Heap {
get { return this.heap; }
}
readonly Heap heap;
public Bpl.Variable ThisVariable = TranslationHelper.TempThisVar();
public Bpl.Variable RetVariable;
public readonly string AllocationMethodName = "Alloc";
public readonly string StaticFieldFunction = "ClassRepr";
public readonly string ReferenceTypeName = "Ref";
public readonly string DelegateAddHelperName = "DelegateAddHelper";
public readonly string DelegateAddName = "DelegateAdd";
public readonly string DelegateRemoveName = "DelegateRemove";
public Bpl.Expr ReadHead(Bpl.Expr delegateReference)
{
return Bpl.Expr.Select(new Bpl.IdentifierExpr(delegateReference.tok, this.heap.DelegateHead), delegateReference);
}
public Bpl.Expr ReadNext(Bpl.Expr delegateReference, Bpl.Expr listNodeReference)
{
return Bpl.Expr.Select(Bpl.Expr.Select(new Bpl.IdentifierExpr(delegateReference.tok, this.heap.DelegateNext), delegateReference), listNodeReference);
}
public Bpl.Expr ReadMethod(Bpl.Expr delegateReference, Bpl.Expr listNodeReference)
{
return Bpl.Expr.Select(Bpl.Expr.Select(new Bpl.IdentifierExpr(delegateReference.tok, this.heap.DelegateMethod), delegateReference), listNodeReference);
}
public Bpl.Expr ReadReceiver(Bpl.Expr delegateReference, Bpl.Expr listNodeReference)
{
return Bpl.Expr.Select(Bpl.Expr.Select(new Bpl.IdentifierExpr(delegateReference.tok, this.heap.DelegateReceiver), delegateReference), listNodeReference);
}
public readonly Bpl.Program TranslatedProgram;
public Bpl.Expr DefaultValue(ITypeReference type) {
var bplType = CciTypeToBoogie(type);
if (bplType == Bpl.Type.Int) {
var lit = Bpl.Expr.Literal(0);
lit.Type = Bpl.Type.Int;
return lit;
} else if (bplType == Bpl.Type.Bool) {
var lit = Bpl.Expr.False;
lit.Type = Bpl.Type.Bool;
return lit;
} else if (type.ResolvedType.IsStruct) {
return Bpl.Expr.Ident(this.Heap.DefaultStruct);
} else if (bplType == this.Heap.RefType) {
return Bpl.Expr.Ident(this.Heap.NullRef);
}
else if (bplType == this.Heap.BoxType) {
return Bpl.Expr.Ident(this.Heap.DefaultBox);
} else {
throw new NotImplementedException(String.Format("Don't know how to translate type: '{0}'", TypeHelper.GetTypeName(type)));
}
}
public Bpl.Type CciTypeToBoogie(ITypeReference type) {
if (TypeHelper.TypesAreEquivalent(type, type.PlatformType.SystemBoolean))
return Bpl.Type.Bool;
else if (TypeHelper.IsPrimitiveInteger(type))
return Bpl.Type.Int;
else if (type.TypeCode == PrimitiveTypeCode.Float32 || type.TypeCode == PrimitiveTypeCode.Float64)
return heap.RealType;
else if (type.ResolvedType.IsStruct)
return heap.StructType;
else if (type.IsEnum)
return Bpl.Type.Int; // The underlying type of an enum is always some kind of integer
else if (type is IGenericTypeParameter)
return heap.BoxType;
else
return heap.RefType;
}
/// <summary>
/// Creates a fresh local var of the given Type and adds it to the
/// Bpl Implementation
/// </summary>
/// <param name="typeReference"> The type of the new variable </param>
/// <returns> A fresh Variable with automatic generated name and location </returns>
public Bpl.Variable CreateFreshLocal(ITypeReference typeReference) {
Bpl.IToken loc = Bpl.Token.NoToken; // Helper Variables do not have a location
Bpl.Type t = CciTypeToBoogie(typeReference);
Bpl.LocalVariable v = new Bpl.LocalVariable(loc, new Bpl.TypedIdent(loc, TranslationHelper.GenerateTempVarName(), t));
ILocalDefinition dummy = new LocalDefinition(); // Creates a dummy entry for the Dict, since only locals in the dict are translated to boogie
localVarMap.Add(dummy, v);
return v;
}
public Bpl.Variable CreateFreshLocal(Bpl.Type t) {
Bpl.IToken loc = Bpl.Token.NoToken; // Helper Variables do not have a location
Bpl.LocalVariable v = new Bpl.LocalVariable(loc, new Bpl.TypedIdent(loc, TranslationHelper.GenerateTempVarName(), t));
ILocalDefinition dummy = new LocalDefinition(); // Creates a dummy entry for the Dict, since only locals in the dict are translated to boogie
localVarMap.Add(dummy, v);
return v;
}
/// <summary>
/// State that gets re-initialized per method
/// </summary>
private Dictionary<ILocalDefinition, Bpl.LocalVariable> localVarMap = null;
public Dictionary<ILocalDefinition, Bpl.LocalVariable> LocalVarMap {
get { return this.localVarMap; }
}
private int localCounter;
public int LocalCounter { get { return this.localCounter++; } }
/// <summary>
///
/// </summary>
/// <param name="local"></param>
/// <returns></returns>
public Bpl.Variable FindOrCreateLocalVariable(ILocalDefinition local) {
Bpl.LocalVariable v;
Bpl.IToken tok = local.Token();
Bpl.Type t = CciTypeToBoogie(local.Type.ResolvedType);
if (!localVarMap.TryGetValue(local, out v)) {
var name = local.Name.Value;
name = TranslationHelper.TurnStringIntoValidIdentifier(name);
v = new Bpl.LocalVariable(tok, new Bpl.TypedIdent(tok, name, t));
localVarMap.Add(local, v);
}
return v;
}
/// <summary>
///
/// </summary>
/// <param name="param"></param>
/// <remarks>STUB</remarks>
/// <returns></returns>
public Bpl.Variable FindParameterVariable(IParameterDefinition param, bool contractContext) {
MethodParameter mp;
ProcedureInfo procAndFormalMap;
var sig = param.ContainingSignature;
// BUGBUG: If param's signature is not a method reference, then it doesn't have an interned
// key. The declaredMethods table needs to use ISignature for its keys.
var key = ((IMethodReference)sig).InternedKey;
this.declaredMethods.TryGetValue(key, out procAndFormalMap);
var formalMap = procAndFormalMap.FormalMap;
formalMap.TryGetValue(param, out mp);
return contractContext ? mp.inParameterCopy : mp.outParameterCopy;
}
public Bpl.Variable FindOrCreateFieldVariable(IFieldReference field) {
// The Heap has to decide how to represent the field (i.e., its type),
// all the Sink cares about is adding a declaration for it.
Bpl.Variable v;
var key = field.InternedKey;
if (!this.declaredFields.TryGetValue(key, out v)) {
v = this.Heap.CreateFieldVariable(field);
this.declaredFields.Add(key, v);
this.TranslatedProgram.TopLevelDeclarations.Add(v);
}
return v;
}
/// <summary>
/// The keys to the table are the interned key of the field.
/// </summary>
private Dictionary<uint, Bpl.Variable> declaredFields = new Dictionary<uint, Bpl.Variable>();
public Bpl.Variable FindOrCreateEventVariable(IEventDefinition e)
{
Bpl.Variable v;
if (!this.declaredEvents.TryGetValue(e, out v))
{
v = null;
// First, see if the compiler generated a field (which happens when the event did not explicitly
// define an adder and remover. If so, then just use the variable that corresponds to that field.
foreach (var f in e.ContainingTypeDefinition.Fields) {
if (e.Name == f.Name) {
v = this.FindOrCreateFieldVariable(f);
break;
}
}
if (v == null) {
v = this.Heap.CreateEventVariable(e);
this.TranslatedProgram.TopLevelDeclarations.Add(v);
}
this.declaredEvents.Add(e, v);
}
return v;
}
private Dictionary<IEventDefinition, Bpl.Variable> declaredEvents = new Dictionary<IEventDefinition, Bpl.Variable>();
public Bpl.Variable FindOrCreatePropertyVariable(IPropertyDefinition p)
{
return null;
}
public Bpl.Constant FindOrCreateConstant(string str) {
Bpl.Constant c;
if (!this.declaredStringConstants.TryGetValue(str, out c)) {
var tok = Bpl.Token.NoToken;
var t = Heap.RefType;
var name = "$string_literal_" + TranslationHelper.TurnStringIntoValidIdentifier(str) + "_" + declaredStringConstants.Count;
var tident = new Bpl.TypedIdent(tok, name, t);
c = new Bpl.Constant(tok, tident, true);
this.declaredStringConstants.Add(str, c);
this.TranslatedProgram.TopLevelDeclarations.Add(c);
}
return c;
}
private Dictionary<string, Bpl.Constant> declaredStringConstants = new Dictionary<string, Bpl.Constant>();
public Bpl.Constant FindOrCreateConstant(double d) {
Bpl.Constant c;
var str = d.ToString();
if (!this.declaredRealConstants.TryGetValue(str, out c)) {
var tok = Bpl.Token.NoToken;
var t = Heap.RealType;
var name = "$real_literal_" + TranslationHelper.TurnStringIntoValidIdentifier(str) + "_" + declaredStringConstants.Count;
var tident = new Bpl.TypedIdent(tok, name, t);
c = new Bpl.Constant(tok, tident, true);
this.declaredRealConstants.Add(str, c);
this.TranslatedProgram.TopLevelDeclarations.Add(c);
}
return c;
}
private Dictionary<string, Bpl.Constant> declaredRealConstants = new Dictionary<string, Bpl.Constant>();
private Dictionary<IPropertyDefinition, Bpl.Variable> declaredProperties = new Dictionary<IPropertyDefinition, Bpl.Variable>();
private List<Bpl.Function> projectionFunctions = new List<Bpl.Function>();
private Dictionary<int, Bpl.Function> arityToNaryIntFunctions = new Dictionary<int, Bpl.Function>();
public Bpl.Function FindOrCreateNaryIntFunction(int arity) {
Bpl.Function f;
if (!this.arityToNaryIntFunctions.TryGetValue(arity, out f)) {
Bpl.VariableSeq vseq = new Bpl.VariableSeq();
for (int i = 0; i < arity; i++) {
vseq.Add(new Bpl.Formal(Bpl.Token.NoToken, new Bpl.TypedIdent(Bpl.Token.NoToken, "arg" + i, Bpl.Type.Int), true));
}
f = new Bpl.Function(Bpl.Token.NoToken, "Int" + arity, vseq, new Bpl.Formal(Bpl.Token.NoToken, new Bpl.TypedIdent(Bpl.Token.NoToken, "result", Bpl.Type.Int), false));
this.arityToNaryIntFunctions.Add(arity, f);
TranslatedProgram.TopLevelDeclarations.Add(f);
if (arity > projectionFunctions.Count) {
for (int i = projectionFunctions.Count; i < arity; i++) {
Bpl.Variable input = new Bpl.Formal(Bpl.Token.NoToken, new Bpl.TypedIdent(Bpl.Token.NoToken, "in", Bpl.Type.Int), true);
Bpl.Variable output = new Bpl.Formal(Bpl.Token.NoToken, new Bpl.TypedIdent(Bpl.Token.NoToken, "out", Bpl.Type.Int), false);
Bpl.Function g = new Bpl.Function(Bpl.Token.NoToken, "Proj" + i, new Bpl.VariableSeq(input), output);
TranslatedProgram.TopLevelDeclarations.Add(g);
projectionFunctions.Add(g);
}
}
Bpl.VariableSeq qvars = new Bpl.VariableSeq();
Bpl.ExprSeq exprs = new Bpl.ExprSeq();
for (int i = 0; i < arity; i++) {
Bpl.Variable v = new Bpl.Constant(Bpl.Token.NoToken, new Bpl.TypedIdent(Bpl.Token.NoToken, "arg" + i, Bpl.Type.Int));
qvars.Add(v);
exprs.Add(Bpl.Expr.Ident(v));
}
Bpl.Expr e = new Bpl.NAryExpr(Bpl.Token.NoToken, new Bpl.FunctionCall(f), exprs);
for (int i = 0; i < arity; i++) {
Bpl.Expr appl = new Bpl.NAryExpr(Bpl.Token.NoToken, new Bpl.FunctionCall(projectionFunctions[i]), new Bpl.ExprSeq(e));
Bpl.Expr qexpr = new Bpl.ForallExpr(Bpl.Token.NoToken, new Bpl.TypeVariableSeq(), qvars, null, null, Bpl.Expr.Eq(appl, Bpl.Expr.Ident(qvars[i])));
TranslatedProgram.TopLevelDeclarations.Add(new Bpl.Axiom(Bpl.Token.NoToken, qexpr));
}
}
return f;
}
public struct ProcedureInfo {
private Bpl.DeclWithFormals decl;
private Dictionary<IParameterDefinition, MethodParameter> formalMap;
private Bpl.Variable returnVariable;
public ProcedureInfo(Bpl.DeclWithFormals decl, Dictionary<IParameterDefinition, MethodParameter> formalMap, Bpl.Variable returnVariable) {
this.decl = decl;
this.formalMap = formalMap;
this.returnVariable = returnVariable;
}
public Bpl.DeclWithFormals Decl { get { return decl; } }
public Dictionary<IParameterDefinition, MethodParameter> FormalMap { get { return formalMap; } }
public Bpl.Variable ReturnVariable { get { return returnVariable; } }
}
public Bpl.DeclWithFormals FindOrCreateProcedure(IMethodDefinition method) {
ProcedureInfo procAndFormalMap;
var key = method.InternedKey;
if (!this.declaredMethods.TryGetValue(key, out procAndFormalMap)) {
string MethodName = TranslationHelper.CreateUniqueMethodName(method);
Bpl.Procedure p;
if (this.initiallyDeclaredProcedures.TryGetValue(MethodName, out p)) return p;
#region Create in- and out-parameters
int in_count = 0;
int out_count = 0;
MethodParameter mp;
var formalMap = new Dictionary<IParameterDefinition, MethodParameter>();
foreach (IParameterDefinition formal in method.Parameters) {
mp = new MethodParameter(formal, this.CciTypeToBoogie(formal.Type));
if (mp.inParameterCopy != null) in_count++;
if (mp.outParameterCopy != null && formal.IsByReference)
out_count++;
formalMap.Add(formal, mp);
}
#region Look for Returnvalue
Bpl.Variable savedRetVariable = this.RetVariable;
if (method.Type.TypeCode != PrimitiveTypeCode.Void) {
Bpl.Type rettype = CciTypeToBoogie(method.Type);
out_count++;
this.RetVariable = new Bpl.Formal(method.Token(),
new Bpl.TypedIdent(method.Type.Token(),
"$result", rettype), false);
} else {
this.RetVariable = null;
}
#endregion
Bpl.Formal/*?*/ self = null;
Bpl.Formal selfOut = null;
#region Create 'this' parameter
if (!method.IsStatic) {
var selfType = CciTypeToBoogie(method.ContainingType);
if (method.ContainingType.ResolvedType.IsStruct) {
//selfType = Heap.StructType;
in_count++;
self = new Bpl.Formal(method.Token(), new Bpl.TypedIdent(method.Type.Token(), "thisIn", selfType), true);
out_count++;
selfOut = new Bpl.Formal(method.Token(), new Bpl.TypedIdent(method.Type.Token(), "this", selfType), false);
}
else {
in_count++;
//selfType = Heap.RefType;
self = new Bpl.Formal(method.Token(), new Bpl.TypedIdent(method.Type.Token(), "this", selfType), true);
}
}
#endregion
Bpl.Variable[] invars = new Bpl.Formal[in_count];
Bpl.Variable[] outvars = new Bpl.Formal[out_count];
int i = 0;
int j = 0;
#region Add 'this' parameter as first in parameter and 'thisOut' parameter as first out parameter
if (self != null)
invars[i++] = self;
if (selfOut != null)
outvars[j++] = selfOut;
#endregion
foreach (MethodParameter mparam in formalMap.Values) {
if (mparam.inParameterCopy != null) {
invars[i++] = mparam.inParameterCopy;
}
if (mparam.outParameterCopy != null) {
if (mparam.underlyingParameter.IsByReference)
outvars[j++] = mparam.outParameterCopy;
}
}
#region add the returnvalue to out if there is one
if (this.RetVariable != null) outvars[j] = this.RetVariable;
#endregion
#endregion
#region Check The Method Contracts
Bpl.RequiresSeq boogiePrecondition = new Bpl.RequiresSeq();
Bpl.EnsuresSeq boogiePostcondition = new Bpl.EnsuresSeq();
Bpl.IdentifierExprSeq boogieModifies = new Bpl.IdentifierExprSeq();
var possiblyUnspecializedMethod = Unspecialize(method);
var contract = Microsoft.Cci.MutableContracts.ContractHelper.GetMethodContractFor(this.host, possiblyUnspecializedMethod.ResolvedMethod);
if (contract != null) {
try {
foreach (IPrecondition pre in contract.Preconditions) {
var stmtTraverser = this.factory.MakeStatementTraverser(this, null, true);
ExpressionTraverser exptravers = this.factory.MakeExpressionTraverser(this, stmtTraverser, true);
exptravers.Visit(pre.Condition); // TODO
// Todo: Deal with Descriptions
var req = new Bpl.Requires(pre.Token(), false, exptravers.TranslatedExpressions.Pop(), "");
boogiePrecondition.Add(req);
}
foreach (IPostcondition post in contract.Postconditions) {
var stmtTraverser = this.factory.MakeStatementTraverser(this, null, true);
ExpressionTraverser exptravers = this.factory.MakeExpressionTraverser(this, stmtTraverser, true);
exptravers.Visit(post.Condition);
// Todo: Deal with Descriptions
var ens = new Bpl.Ensures(post.Token(), false, exptravers.TranslatedExpressions.Pop(), "");
boogiePostcondition.Add(ens);
}
foreach (IAddressableExpression mod in contract.ModifiedVariables) {
ExpressionTraverser exptravers = this.factory.MakeExpressionTraverser(this, null, true);
exptravers.Visit(mod);
Bpl.IdentifierExpr idexp = exptravers.TranslatedExpressions.Pop() as Bpl.IdentifierExpr;
if (idexp == null) {
throw new TranslationException(String.Format("Cannot create IdentifierExpr for Modifyed Variable {0}", mod.ToString()));
}
boogieModifies.Add(idexp);
}
} catch (TranslationException te) {
throw new NotImplementedException("Cannot Handle Errors in Method Contract: " + te.ToString());
} catch {
throw;
}
}
#endregion
var tok = method.Token();
Bpl.DeclWithFormals decl;
if (IsPure(method)) {
var func = new Bpl.Function(tok,
MethodName,
new Bpl.VariableSeq(invars),
this.RetVariable);
decl = func;
} else {
var proc = new Bpl.Procedure(tok,
MethodName,
new Bpl.TypeVariableSeq(),
new Bpl.VariableSeq(invars),
new Bpl.VariableSeq(outvars),
boogiePrecondition,
boogieModifies,
boogiePostcondition);
decl = proc;
}
if (!TypeHelper.GetDefiningUnitReference(method.ContainingType).UnitIdentity.Equals(this.assemblyBeingTranslated.UnitIdentity)) {
var attrib = new Bpl.QKeyValue(tok, "extern", new List<object>(1), null);
decl.Attributes = attrib;
}
string newName = null;
if (IsStubMethod(method, out newName)) {
if (newName != null) {
decl.Name = newName;
}
} else {
this.TranslatedProgram.TopLevelDeclarations.Add(decl);
}
procAndFormalMap = new ProcedureInfo(decl, formalMap, this.RetVariable);
this.declaredMethods.Add(key, procAndFormalMap);
this.RetVariable = savedRetVariable;
}
return procAndFormalMap.Decl;
}
/// <summary>
/// Struct "creation" (source code that looks like "new S()" for a struct type S) is modeled
/// by a call to the nullary "ctor" that initializes all of the structs fields to zero-
/// equivalent values. Note that the generated procedure has no contract. So if the struct
/// is defined in an assembly that is not being translated, then its behavior is unspecified.
/// </summary>
/// <param name="structType">A type reference to the value type for which the ctor should be returned.</param>
/// <returns>A nullary procedure that returns an initialized value of type <paramref name="structType"/>.</returns>
public Bpl.DeclWithFormals FindOrCreateProcedureForDefaultStructCtor(ITypeReference structType) {
Contract.Requires(structType.IsValueType);
ProcedureInfo procAndFormalMap;
var key = structType.InternedKey;
if (!this.declaredMethods.TryGetValue(key, out procAndFormalMap)) {
var typename = TranslationHelper.TurnStringIntoValidIdentifier(TypeHelper.GetTypeName(structType));
var tok = structType.Token();
var selfType = new Bpl.MapType(Bpl.Token.NoToken, new Bpl.TypeVariableSeq(), new Bpl.TypeSeq(Heap.FieldType), Heap.BoxType);
var selfOut = new Bpl.Formal(tok, new Bpl.TypedIdent(tok, "this", selfType), false);
var outvars = new Bpl.Formal[]{ selfOut };
var proc = new Bpl.Procedure(Bpl.Token.NoToken, typename + ".#default_ctor",
new Bpl.TypeVariableSeq(),
new Bpl.VariableSeq(), // in
new Bpl.VariableSeq(outvars),
new Bpl.RequiresSeq(),
new Bpl.IdentifierExprSeq(), // modifies
new Bpl.EnsuresSeq()
);
this.TranslatedProgram.TopLevelDeclarations.Add(proc);
procAndFormalMap = new ProcedureInfo(proc, new Dictionary<IParameterDefinition, MethodParameter>(), this.RetVariable);
this.declaredMethods.Add(key, procAndFormalMap);
}
return procAndFormalMap.Decl;
}
// TODO: Fix test to return true iff method is marked with the "real" [Pure] attribute
// also, should it return true for properties and all of the other things the tools
// consider pure?
private bool IsPure(IMethodDefinition method) {
foreach (var a in method.Attributes) {
if (TypeHelper.GetTypeName(a.Type).EndsWith("PureAttribute")) {
return true;
}
}
return false;
}
// TODO: check method's containing type in case the entire type is a stub type.
// TODO: do a type test, not a string test for the attribute
private bool IsStubMethod(IMethodReference method, out string/*?*/ newName) {
newName = null;
var methodDefinition = method.ResolvedMethod;
foreach (var a in methodDefinition.Attributes) {
if (TypeHelper.GetTypeName(a.Type).EndsWith("StubAttribute")) {
foreach (var c in a.Arguments) {
var mdc = c as IMetadataConstant;
if (mdc != null && mdc.Type.TypeCode == PrimitiveTypeCode.String) {
newName = (string) (mdc.Value);
break;
}
}
return true;
}
}
return false;
}
public ProcedureInfo FindOrCreateProcedureAndReturnProcAndFormalMap(IMethodDefinition method) {
this.FindOrCreateProcedure(method);
var key = method.InternedKey;
return this.declaredMethods[key];
}
public static IMethodReference Unspecialize(IMethodReference method) {
IMethodReference result = method;
var gmir = result as IGenericMethodInstanceReference;
if (gmir != null) {
result = gmir.GenericMethod;
}
var smr = result as ISpecializedMethodReference;
if (smr != null) {
result = smr.UnspecializedVersion;
}
// Temporary hack until ISpecializedMethodDefinition implements ISpecializedMethodReference
var smd = result as ISpecializedMethodDefinition;
if (smd != null) {
result = smd.UnspecializedVersion;
}
return result;
}
/// <summary>
/// Creates a fresh variable that represents the type of
/// <paramref name="type"/> in the Bpl program. I.e., its
/// value represents the expression "typeof(type)".
/// </summary>
public Bpl.Variable FindOrCreateType(ITypeReference type) {
// The Heap has to decide how to represent the field (i.e., its type),
// all the Sink cares about is adding a declaration for it.
Bpl.Variable t;
var key = type.InternedKey;
if (!this.declaredTypes.TryGetValue(key, out t)) {
t = this.Heap.CreateTypeVariable(type);
this.declaredTypes.Add(key, t);
this.TranslatedProgram.TopLevelDeclarations.Add(t);
}
return t;
}
/// <summary>
/// The keys to the table are the interned key of the type.
/// </summary>
private Dictionary<uint, Bpl.Variable> declaredTypes = new Dictionary<uint, Bpl.Variable>();
/// <summary>
/// The keys to the table are the interned keys of the methods.
/// The values are pairs: first element is the procedure,
/// second element is the formal map for the procedure
/// </summary>
private Dictionary<uint, ProcedureInfo> declaredMethods = new Dictionary<uint, ProcedureInfo>();
/// <summary>
/// The values in this table are the procedures
/// defined in the program created by the heap in the Sink's ctor.
/// </summary>
private Dictionary<string, Bpl.Procedure> initiallyDeclaredProcedures = new Dictionary<string, Bpl.Procedure>();
public void BeginMethod() {
this.localVarMap = new Dictionary<ILocalDefinition, Bpl.LocalVariable>();
this.localCounter = 0;
}
public void BeginAssembly(IAssembly assembly) {
this.assemblyBeingTranslated = assembly;
}
public void EndAssembly(IAssembly assembly) {
this.assemblyBeingTranslated = null;
}
private IAssembly assemblyBeingTranslated;
public Dictionary<ITypeDefinition, HashSet<IMethodDefinition>> delegateTypeToDelegates = new Dictionary<ITypeDefinition, HashSet<IMethodDefinition>>();
public void AddDelegate(ITypeDefinition type, IMethodDefinition defn)
{
if (!delegateTypeToDelegates.ContainsKey(type))
delegateTypeToDelegates[type] = new HashSet<IMethodDefinition>();
delegateTypeToDelegates[type].Add(defn);
}
public void AddDelegateType(ITypeDefinition type) {
if (!delegateTypeToDelegates.ContainsKey(type))
delegateTypeToDelegates[type] = new HashSet<IMethodDefinition>();
}
private Dictionary<IMethodDefinition, Bpl.Constant> delegateMethods = new Dictionary<IMethodDefinition, Bpl.Constant>();
internal IContractAwareHost host;
public Bpl.Constant FindOrAddDelegateMethodConstant(IMethodDefinition defn)
{
if (delegateMethods.ContainsKey(defn))
return delegateMethods[defn];
string methodName = TranslationHelper.CreateUniqueMethodName(defn);
var typedIdent = new Bpl.TypedIdent(Bpl.Token.NoToken, methodName, Bpl.Type.Int);
var constant = new Bpl.Constant(Bpl.Token.NoToken, typedIdent, true);
this.TranslatedProgram.TopLevelDeclarations.Add(constant);
delegateMethods[defn] = constant;
return constant;
}
}
}
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