protected void WriteInline(CiMaybeAssign expr) { if (expr is CiExpr) { Write((CiExpr)expr); } else { Visit((CiAssign)expr); } }
bool WritePerlArray(string sigil, CiMaybeAssign expr) { bool isVar = expr is CiVarAccess; if (isVar || expr is CiConstAccess || expr is CiBinaryResourceExpr) { Write(sigil); if (isVar) { Write(((CiVarAccess)expr).Var.Name); } else { Write((CiExpr)expr); } return(true); } return(false); }
static void CheckCopyPtr(CiType target, CiMaybeAssign source) { ICiPtrType tp = target as ICiPtrType; if (tp == null) { return; } CiCondExpr cond = source as CiCondExpr; if (cond != null) { CheckCopyPtr(target, cond.OnTrue); CheckCopyPtr(target, cond.OnFalse); return; } for (;;) { while (source is CiCoercion) { source = ((CiCoercion)source).Inner; } ICiPtrType sp = source.Type as ICiPtrType; if (sp != null) { tp.Sources.Add(sp); break; } if (source is CiFieldAccess) { source = ((CiFieldAccess)source).Obj; } else if (source is CiArrayAccess) { source = ((CiArrayAccess)source).Array; } else { break; } } }
CiExpr ICiExprVisitor.Visit(CiSymbolAccess expr) { CiSymbol symbol = Lookup(expr); if (symbol is CiVar) { return new CiVarAccess { Var = (CiVar)symbol } } ; if (symbol is CiConst) { return(GetValue((CiConst)symbol)); } if (symbol is CiField) { if (this.CurrentMethod.CallType == CiCallType.Static) { throw new ResolveException("Cannot access field from a static method"); } symbol.Accept(this); return(CreateFieldAccess(new CiVarAccess { Var = this.CurrentMethod.This }, (CiField)symbol)); } throw new ResolveException("Invalid expression"); } CiExpr ICiExprVisitor.Visit(CiUnknownMemberAccess expr) { if (expr.Parent is CiSymbolAccess) { CiSymbol symbol = Lookup((CiSymbolAccess)expr.Parent); if (symbol is CiEnum) { return(new CiConstExpr(((CiEnum)symbol).LookupMember(expr.Name))); } if (symbol is CiClass) { symbol = ((CiClass)symbol).Members.Lookup(expr.Name); if (symbol is CiConst) { return(GetValue((CiConst)symbol)); } throw new ResolveException("Cannot access " + expr.Name); } } CiExpr parent = Resolve(expr.Parent); CiSymbol member = parent.Type.LookupMember(expr.Name); member.Accept(this); if (member is CiField) { return(CreateFieldAccess(parent, (CiField)member)); } if (member is CiProperty) { CiProperty prop = (CiProperty)member; if (parent is CiConstExpr) { if (prop == CiLibrary.LowByteProperty) { return(new CiConstExpr((byte)GetConstInt(parent))); } if (prop == CiLibrary.SByteProperty) { return(new CiConstExpr((int)(sbyte)GetConstInt(parent))); } if (prop == CiLibrary.StringLengthProperty) { return(new CiConstExpr(((string)((CiConstExpr)parent).Value).Length)); } } return(new CiPropertyAccess { Obj = parent, Property = prop }); } if (member is CiConst) { return(new CiConstExpr(((CiConst)member).Value)); } throw new ResolveException(member.ToString()); } CiExpr ICiExprVisitor.Visit(CiIndexAccess expr) { CiExpr parent = Resolve(expr.Parent); CiExpr index = Coerce(Resolve(expr.Index), CiIntType.Value); if (parent.Type is CiArrayType) { return new CiArrayAccess { Array = parent, Index = index } } ; if (parent.Type is CiStringType) { if (parent is CiConstExpr && index is CiConstExpr) { string s = (string)((CiConstExpr)parent).Value; int i = GetConstInt(index); if (i < s.Length) { return(new CiConstExpr((int)s[i])); } } return(new CiMethodCall { Method = CiLibrary.CharAtMethod, Obj = parent, Arguments = new CiExpr[1] { index } }); } throw new ResolveException("Indexed object is neither array or string"); } void ICiSymbolVisitor.Visit(CiDelegate del) { del.ReturnType = Resolve(del.ReturnType); foreach (CiParam param in del.Params) { param.Type = Resolve(param.Type); } } CiType ICiTypeVisitor.Visit(CiDelegate del) { ((ICiSymbolVisitor)this).Visit(del); return(del); } void ResolveObj(CiMethodCall expr) { if (expr.Obj is CiSymbolAccess) { // Foo(...) CiMethod method = Lookup((CiSymbolAccess)expr.Obj) as CiMethod; if (method != null) { expr.Method = method; if (method.CallType == CiCallType.Static) { expr.Obj = null; } else { if (this.CurrentMethod.CallType == CiCallType.Static) { throw new ResolveException("Cannot call instance method from a static method"); } expr.Obj = Coerce(new CiVarAccess { Var = this.CurrentMethod.This }, new CiClassPtrType { Class = method.Class }); CheckCopyPtr(method.This.Type, expr.Obj); } return; } } else if (expr.Obj is CiUnknownMemberAccess) { // ???.Foo(...) CiUnknownMemberAccess uma = (CiUnknownMemberAccess)expr.Obj; if (uma.Parent is CiSymbolAccess) { CiClass klass = Lookup((CiSymbolAccess)uma.Parent) as CiClass; if (klass != null) { // Class.Foo(...) CiMethod method = klass.Members.Lookup(uma.Name) as CiMethod; if (method != null) { if (method.CallType != CiCallType.Static) { throw new ResolveException("{0} is a non-static method", method.Name); } expr.Method = method; expr.Obj = null; return; } } } CiExpr obj = Resolve(uma.Parent); { CiMethod method = obj.Type.LookupMember(uma.Name) as CiMethod; if (method != null) { // obj.Foo(...) if (method.CallType == CiCallType.Static) { throw new ResolveException("{0} is a static method", method.Name); } if (method.This != null) { // user-defined method CheckCopyPtr(method.This.Type, obj); obj = Coerce(obj, new CiClassPtrType { Class = method.Class }); } expr.Method = method; expr.Obj = obj; return; } } } expr.Obj = Resolve(expr.Obj); if (!(expr.Obj.Type is CiDelegate)) { throw new ResolveException("Invalid call"); } if (expr.Obj.HasSideEffect) { throw new ResolveException("Side effects not allowed in delegate call"); } } void CoerceArguments(CiMethodCall expr) { expr.Signature.Accept(this); CiParam[] paramz = expr.Signature.Params; if (expr.Arguments.Length != paramz.Length) { throw new ResolveException("Invalid number of arguments for {0}, expected {1}, got {2}", expr.Signature.Name, paramz.Length, expr.Arguments.Length); } for (int i = 0; i < paramz.Length; i++) { CiExpr arg = Resolve(expr.Arguments[i]); CheckCopyPtr(paramz[i].Type, arg); expr.Arguments[i] = Coerce(arg, paramz[i].Type); } } CiExpr ICiExprVisitor.Visit(CiMethodCall expr) { ResolveObj(expr); CoerceArguments(expr); if (expr.Method != null && expr.Method != this.CurrentMethod) { if (expr.Method.IsMutator) { MarkWritable(expr.Obj); } expr.Method.CalledBy.Add(this.CurrentMethod); this.CurrentMethod.Calls.Add(expr.Method); } return(expr); } CiExpr ICiExprVisitor.Visit(CiUnaryExpr expr) { CiExpr resolved; if (expr.Op == CiToken.Increment || expr.Op == CiToken.Decrement) { resolved = ResolveLValue(expr.Inner); } else { resolved = Resolve(expr.Inner); } expr.Inner = Coerce(resolved, CiIntType.Value); if (expr.Op == CiToken.Minus && expr.Inner is CiConstExpr) { return(new CiConstExpr(-GetConstInt(expr.Inner))); } return(expr); } CiExpr ICiExprVisitor.Visit(CiCondNotExpr expr) { expr.Inner = Coerce(Resolve(expr.Inner), CiBoolType.Value); return(expr); } CiExpr ICiExprVisitor.Visit(CiPostfixExpr expr) { expr.Inner = Coerce(ResolveLValue(expr.Inner), CiIntType.Value); return(expr); } CiExpr ICiExprVisitor.Visit(CiBinaryExpr expr) { CiExpr left = Resolve(expr.Left); CiExpr right = Resolve(expr.Right); if (expr.Op == CiToken.Plus && (left.Type is CiStringType || right.Type is CiStringType)) { if (!(left is CiConstExpr && right is CiConstExpr)) { throw new ResolveException("String concatenation allowed only for constants. Consider using +="); } string a = GetConstString(left); string b = GetConstString(right); return(new CiConstExpr(a + b)); } left = Coerce(left, CiIntType.Value); right = Coerce(right, CiIntType.Value); if (right is CiConstExpr) { int b = GetConstInt(right); if (left is CiConstExpr) { int a = GetConstInt(left); switch (expr.Op) { case CiToken.Asterisk: a *= b; break; case CiToken.Slash: a /= b; break; case CiToken.Mod: a %= b; break; case CiToken.And: a &= b; break; case CiToken.ShiftLeft: a <<= b; break; case CiToken.ShiftRight: a >>= b; break; case CiToken.Plus: a += b; break; case CiToken.Minus: a -= b; break; case CiToken.Or: a |= b; break; case CiToken.Xor: a ^= b; break; } return(new CiConstExpr(a)); } if (expr.Op == CiToken.And && (b & ~0xff) == 0) { CiCoercion c = left as CiCoercion; if (c != null && c.Inner.Type == CiByteType.Value) { left = (CiExpr)c.Inner; } } } expr.Left = left; expr.Right = right; return(expr); } static CiType FindCommonType(CiExpr expr1, CiExpr expr2) { CiType type1 = expr1.Type; CiType type2 = expr2.Type; if (type1.Equals(type2)) { return(type1); } if ((type1 == CiIntType.Value && type2 == CiByteType.Value) || (type1 == CiByteType.Value && type2 == CiIntType.Value)) { return(CiIntType.Value); } CiType type = type1.Ptr; if (type != null) { return(type); // stg, ptr || stg, null } type = type2.Ptr; if (type != null) { return(type); // ptr, stg || null, stg } if (type1 != CiType.Null) { return(type1); // ptr, null } if (type2 != CiType.Null) { return(type2); // null, ptr } throw new ResolveException("Incompatible types"); } CiExpr ICiExprVisitor.Visit(CiBoolBinaryExpr expr) { CiExpr left = Resolve(expr.Left); CiExpr right = Resolve(expr.Right); CiType type; switch (expr.Op) { case CiToken.CondAnd: case CiToken.CondOr: type = CiBoolType.Value; break; case CiToken.Equal: case CiToken.NotEqual: type = FindCommonType(left, right); break; default: type = CiIntType.Value; break; } expr.Left = Coerce(left, type); expr.Right = Coerce(right, type); CiConstExpr cleft = expr.Left as CiConstExpr; if (cleft != null) { switch (expr.Op) { case CiToken.CondAnd: return((bool)cleft.Value ? expr.Right : new CiConstExpr(false)); case CiToken.CondOr: return((bool)cleft.Value ? new CiConstExpr(true) : expr.Right); case CiToken.Equal: case CiToken.NotEqual: CiConstExpr cright = expr.Right as CiConstExpr; if (cright != null) { bool eq = object.Equals(cleft.Value, cright.Value); return(new CiConstExpr(expr.Op == CiToken.Equal ? eq : !eq)); } break; default: if (expr.Right is CiConstExpr) { int a = GetConstInt(cleft); int b = GetConstInt(expr.Right); bool result; switch (expr.Op) { case CiToken.Less: result = a < b; break; case CiToken.LessOrEqual: result = a <= b; break; case CiToken.Greater: result = a > b; break; case CiToken.GreaterOrEqual: result = a >= b; break; default: return(expr); } return(new CiConstExpr(result)); } break; } } return(expr); } CiExpr ICiExprVisitor.Visit(CiCondExpr expr) { expr.Cond = Coerce(Resolve(expr.Cond), CiBoolType.Value); CiExpr expr1 = Resolve(expr.OnTrue); CiExpr expr2 = Resolve(expr.OnFalse); expr.ResultType = FindCommonType(expr1, expr2); expr.OnTrue = Coerce(expr1, expr.ResultType); expr.OnFalse = Coerce(expr2, expr.ResultType); CiConstExpr konst = expr.Cond as CiConstExpr; if (konst != null) { return((bool)konst.Value ? expr.OnTrue : expr.OnFalse); } return(expr); } CiExpr ICiExprVisitor.Visit(CiBinaryResourceExpr expr) { string name = (string)ResolveConstExpr(expr.NameExpr, CiStringPtrType.Value); CiBinaryResource resource; if (!this.BinaryResources.TryGetValue(name, out resource)) { resource = new CiBinaryResource(); resource.Name = name; resource.Content = File.ReadAllBytes(FindFile(name)); resource.Type = new CiArrayStorageType { ElementType = CiByteType.Value, Length = resource.Content.Length }; this.BinaryResources.Add(name, resource); } expr.Resource = resource; return(expr); } CiExpr ICiExprVisitor.Visit(CiNewExpr expr) { CiType type = expr.NewType; CiClassStorageType classStorageType = type as CiClassStorageType; if (classStorageType != null) { classStorageType.Class = ResolveClass(classStorageType.Class); classStorageType.Class.IsAllocated = true; } else { CiArrayStorageType arrayStorageType = (CiArrayStorageType)type; arrayStorageType.ElementType = Resolve(arrayStorageType.ElementType); arrayStorageType.LengthExpr = Coerce(Resolve(arrayStorageType.LengthExpr), CiIntType.Value); } return(expr); } CiExpr Resolve(CiExpr expr) { return(expr.Accept(this)); } void ICiSymbolVisitor.Visit(CiField field) { field.Type = Resolve(field.Type); } bool Resolve(ICiStatement[] statements) { bool reachable = true; foreach (ICiStatement child in statements) { if (!reachable) { throw new ResolveException("Unreachable statement"); } child.Accept(this); reachable = child.CompletesNormally; } return(reachable); } void ICiStatementVisitor.Visit(CiBlock statement) { statement.CompletesNormally = Resolve(statement.Statements); } void ICiStatementVisitor.Visit(CiConst statement) { } void ICiStatementVisitor.Visit(CiVar statement) { statement.Type = Resolve(statement.Type); if (statement.InitialValue != null) { CiType type = statement.Type; CiExpr initialValue = Resolve(statement.InitialValue); CheckCopyPtr(type, initialValue); if (type is CiArrayStorageType) { type = ((CiArrayStorageType)type).ElementType; CiConstExpr ce = Coerce(initialValue, type) as CiConstExpr; if (ce == null) { throw new ResolveException("Array initializer is not constant"); } statement.InitialValue = ce; if (type == CiBoolType.Value) { if (!false.Equals(ce.Value)) { throw new ResolveException("Bool arrays can only be initialized with false"); } } else if (type == CiByteType.Value) { if (!((byte)0).Equals(ce.Value)) { throw new ResolveException("Byte arrays can only be initialized with zero"); } } else if (type == CiIntType.Value) { if (!0.Equals(ce.Value)) { throw new ResolveException("Int arrays can only be initialized with zero"); } } else { throw new ResolveException("Invalid array initializer"); } } else { statement.InitialValue = Coerce(initialValue, type); } } } void ICiStatementVisitor.Visit(CiExpr statement) { Resolve((CiExpr)statement); } void ICiStatementVisitor.Visit(CiAssign statement) { statement.Target = ResolveLValue(statement.Target); if (statement.Target is CiVarAccess && ((CiVarAccess)statement.Target).Var == this.CurrentMethod.This) { throw new ResolveException("Cannot assign to this"); } CiMaybeAssign source = statement.Source; if (source is CiAssign) { Resolve((ICiStatement)source); } else { source = Resolve((CiExpr)source); } CiType type = statement.Target.Type; CheckCopyPtr(type, source); statement.Source = Coerce(source, type); if (statement.Op != CiToken.Assign && type != CiIntType.Value && type != CiByteType.Value) { if (statement.Op == CiToken.AddAssign && type is CiStringStorageType && statement.Source.Type is CiStringType) { } // OK else { throw new ResolveException("Invalid compound assignment"); } } } void ICiStatementVisitor.Visit(CiDelete statement) { statement.Expr = Resolve(statement.Expr); ICiPtrType type = statement.Expr.Type as ICiPtrType; if (type == null) { throw new ResolveException("'delete' takes a class or array pointer"); } if (statement.Expr.HasSideEffect) { throw new ResolveException("Side effects not allowed in 'delete'"); } this.WritablePtrTypes.Add(type); } void ICiStatementVisitor.Visit(CiBreak statement) { if (this.CurrentLoopOrSwitch == null) { throw new ResolveException("break outside loop and switch"); } this.CurrentLoopOrSwitch.CompletesNormally = true; } void ICiStatementVisitor.Visit(CiContinue statement) { if (this.CurrentLoop == null) { throw new ResolveException("continue outside loop"); } } void ResolveLoop(CiLoop statement) { statement.CompletesNormally = false; if (statement.Cond != null) { statement.Cond = Coerce(Resolve(statement.Cond), CiBoolType.Value); statement.CompletesNormally = !statement.Cond.IsConst(false); } CiLoop oldLoop = this.CurrentLoop; CiCondCompletionStatement oldLoopOrSwitch = this.CurrentLoopOrSwitch; this.CurrentLoopOrSwitch = this.CurrentLoop = statement; Resolve(statement.Body); this.CurrentLoop = oldLoop; this.CurrentLoopOrSwitch = oldLoopOrSwitch; } void ICiStatementVisitor.Visit(CiDoWhile statement) { ResolveLoop(statement); } void ICiStatementVisitor.Visit(CiFor statement) { if (statement.Init != null) { Resolve(statement.Init); } if (statement.Advance != null) { Resolve(statement.Advance); } ResolveLoop(statement); } void ICiStatementVisitor.Visit(CiIf statement) { statement.Cond = Coerce(Resolve(statement.Cond), CiBoolType.Value); Resolve(statement.OnTrue); if (statement.OnFalse != null) { Resolve(statement.OnFalse); statement.CompletesNormally = statement.OnTrue.CompletesNormally || statement.OnFalse.CompletesNormally; } else { statement.CompletesNormally = true; } } void ICiStatementVisitor.Visit(CiNativeBlock statement) { } void ICiStatementVisitor.Visit(CiReturn statement) { CiType type = this.CurrentMethod.Signature.ReturnType; if (type != CiType.Void) { statement.Value = Coerce(Resolve(statement.Value), type); } } void ICiStatementVisitor.Visit(CiSwitch statement) { statement.Value = Resolve(statement.Value); CiType type = statement.Value.Type; CiCondCompletionStatement oldLoopOrSwitch = this.CurrentLoopOrSwitch; this.CurrentLoopOrSwitch = statement; HashSet <object> values = new HashSet <object>(); CiCase fallthroughFrom = null; foreach (CiCase kase in statement.Cases) { for (int i = 0; i < kase.Values.Length; i++) { kase.Values[i] = ResolveConstExpr((CiExpr)kase.Values[i], type); if (!values.Add(kase.Values[i])) { throw new ResolveException("Duplicate case value"); } } if (fallthroughFrom != null) { if (fallthroughFrom.FallthroughTo == null) { throw new ResolveException("goto default followed by case"); } if (!ResolveConstExpr(fallthroughFrom.FallthroughTo, type).Equals(kase.Values[0])) { throw new ResolveException("goto case doesn't match the next case"); } } bool reachable = Resolve(kase.Body); if (kase.Fallthrough) { if (!reachable) { throw new ResolveException("goto is not reachable"); } fallthroughFrom = kase; } else { if (reachable) { throw new ResolveException("case must end with break, return, throw or goto"); } fallthroughFrom = null; } } if (statement.DefaultBody != null) { if (fallthroughFrom != null && fallthroughFrom.FallthroughTo != null) { throw new ResolveException("goto case followed by default"); } bool reachable = Resolve(statement.DefaultBody); if (reachable) { throw new ResolveException("default must end with break, return, throw or goto"); } } else { if (fallthroughFrom != null) { throw new ResolveException("goto cannot be the last statement in switch"); } } this.CurrentLoopOrSwitch = oldLoopOrSwitch; } void ICiStatementVisitor.Visit(CiThrow statement) { statement.Message = Coerce(Resolve(statement.Message), CiStringPtrType.Value); this.ThrowingMethods.Add(this.CurrentMethod); } void ICiStatementVisitor.Visit(CiWhile statement) { ResolveLoop(statement); } void Resolve(ICiStatement statement) { statement.Accept(this); } void ICiSymbolVisitor.Visit(CiMethod method) { this.CurrentMethod = method; Resolve(method.Signature); if (method.CallType != CiCallType.Abstract) { Resolve(method.Body); if (method.Signature.ReturnType != CiType.Void && method.Body.CompletesNormally) { throw new ResolveException("Method can complete without a return value"); } } this.CurrentMethod = null; } void ResolveBase(CiClass klass) { if (klass.BaseClass != null) { klass.BaseClass = ResolveClass(klass.BaseClass); klass.Members.Parent = klass.BaseClass.Members; } } void ICiSymbolVisitor.Visit(CiClass klass) { this.CurrentClass = klass; this.Symbols = klass.Members; if (klass.Constructor != null) { klass.Constructor.Accept(this); } foreach (CiSymbol member in klass.Members) { member.Accept(this); } klass.BinaryResources = this.BinaryResources.Values.ToArray(); this.BinaryResources.Clear(); this.Symbols = this.Symbols.Parent; this.CurrentClass = null; }
CiMaybeAssign Coerce(CiMaybeAssign expr, CiType expected) { CiType got = expr.Type; if (expected.Equals(got)) { return(expr); } if (expected == CiIntType.Value && got == CiByteType.Value) { CiConstExpr konst = expr as CiConstExpr; if (konst != null) { return(new CiConstExpr((object)(int)(byte)konst.Value)); } CiCondExpr cond = expr as CiCondExpr; if (cond != null && (cond.OnTrue is CiConstExpr || cond.OnFalse is CiConstExpr)) { // avoid ((foo ? 1 : 0) & 0xff) in Java return(Coerce(cond, expected)); } if (expr is CiArrayAccess) { CiConstAccess ca = ((CiArrayAccess)expr).Array as CiConstAccess; if (ca != null && ca.Const.Is7Bit) { return(expr); } } return(new CiCoercion { ResultType = expected, Inner = expr }); } if (expected == CiByteType.Value && got == CiIntType.Value) { CiConstExpr konst = expr as CiConstExpr; if (konst != null) { return(new CiConstExpr((object)(byte)(int)konst.Value)); } return(new CiCoercion { ResultType = expected, Inner = expr }); } if (expected == CiStringPtrType.Value && (got == CiType.Null || got is CiStringType)) { return(expr); } if (expected is CiStringStorageType && got is CiStringType) { return(expr); } if (expected is CiClassType) { if (got == CiType.Null) { return(expr); } if (Extends(got, ((CiClassType)expected).Class)) { if (expr is CiCondExpr) { // C doesn't like &(cond ? foo : bar) return(Coerce((CiCondExpr)expr, expected)); } return(new CiCoercion { ResultType = expected, Inner = expr }); } } if (expected is CiArrayPtrType) { if (got == CiType.Null) { return(expr); } CiArrayType gotArray = got as CiArrayType; if (got != null && ((CiArrayPtrType)expected).ElementType.Equals(gotArray.ElementType)) { return new CiCoercion { ResultType = expected, Inner = expr } } ; } throw new ResolveException("Expected {0}, got {1}", expected, got); } CiExpr Coerce(CiExpr expr, CiType expected) { return((CiExpr)Coerce((CiMaybeAssign)expr, expected)); } object ResolveConstExpr(CiExpr expr, CiType type) { expr = Coerce(Resolve(expr), type); CiConstExpr ce = expr as CiConstExpr; if (ce == null) { throw new ResolveException("{0} is not constant", expr); } return(ce.Value); } object ResolveConstInitializer(ref CiType type, object value) { if (type is CiArrayType) { object[] array = value as object[]; if (array == null) { return(value); } CiType elementType = ((CiArrayType)type).ElementType; if (type is CiArrayStorageType) { int expected = ((CiArrayStorageType)type).Length; if (array.Length != expected) { throw new ResolveException("Expected {0} array elements, got {1}", expected, array.Length); } } else { type = new CiArrayStorageType { ElementType = elementType, Length = array.Length }; } Array dest = Array.CreateInstance(elementType.DotNetType, array.Length); for (int i = 0; i < array.Length; i++) { dest.SetValue(ResolveConstInitializer(ref elementType, array[i]), i); } return(dest); } if (value is CiExpr) { return(ResolveConstExpr((CiExpr)value, type)); } return(value); } void ICiSymbolVisitor.Visit(CiEnum enu) { }
protected void WriteInline(CiMaybeAssign expr) { if (expr is CiExpr) Write((CiExpr) expr); else Visit((CiAssign) expr); }
CiMaybeAssign Coerce(CiMaybeAssign expr, CiType expected) { CiType got = expr.Type; if (expected.Equals(got)) return expr; if (expected == CiIntType.Value && got == CiByteType.Value) { CiConstExpr konst = expr as CiConstExpr; if (konst != null) return new CiConstExpr((object) (int) (byte) konst.Value); CiCondExpr cond = expr as CiCondExpr; if (cond != null && (cond.OnTrue is CiConstExpr || cond.OnFalse is CiConstExpr)) { // avoid ((foo ? 1 : 0) & 0xff) in Java return Coerce(cond, expected); } if (expr is CiArrayAccess) { CiConstAccess ca = ((CiArrayAccess) expr).Array as CiConstAccess; if (ca != null && ca.Const.Is7Bit) return expr; } return new CiCoercion { ResultType = expected, Inner = expr }; } if (expected == CiByteType.Value && got == CiIntType.Value) { CiConstExpr konst = expr as CiConstExpr; if (konst != null) return new CiConstExpr((object) (byte) (int) konst.Value); return new CiCoercion { ResultType = expected, Inner = expr }; } if (expected == CiStringPtrType.Value && (got == CiType.Null || got is CiStringType)) return expr; if (expected is CiStringStorageType && got is CiStringType) return expr; if (expected is CiClassType) { if (got == CiType.Null) return expr; if (Extends(got, ((CiClassType) expected).Class)) { if (expr is CiCondExpr) { // C doesn't like &(cond ? foo : bar) return Coerce((CiCondExpr) expr, expected); } return new CiCoercion { ResultType = expected, Inner = expr }; } } if (expected is CiArrayPtrType) { if (got == CiType.Null) return expr; CiArrayType gotArray = got as CiArrayType; if (got != null && ((CiArrayPtrType) expected).ElementType.Equals(gotArray.ElementType)) return new CiCoercion { ResultType = expected, Inner = expr }; } throw new ResolveException("Expected {0}, got {1}", expected, got); }
static void CheckCopyPtr(CiType target, CiMaybeAssign source) { ICiPtrType tp = target as ICiPtrType; if (tp == null) return; CiCondExpr cond = source as CiCondExpr; if (cond != null) { CheckCopyPtr(target, cond.OnTrue); CheckCopyPtr(target, cond.OnFalse); return; } for (;;) { while (source is CiCoercion) source = ((CiCoercion) source).Inner; ICiPtrType sp = source.Type as ICiPtrType; if (sp != null) { tp.Sources.Add(sp); break; } if (source is CiFieldAccess) source = ((CiFieldAccess) source).Obj; else if (source is CiArrayAccess) source = ((CiArrayAccess) source).Array; else break; } }
void WriteChild(CiMaybeAssign expr) { if (expr is CiMethodCall) Write((CiMethodCall) expr); else { Write('('); base.Visit((CiAssign) expr); Write(')'); } }
void CheckAndThrow(CiMaybeAssign expr, object errorReturnValue) { Write("if ("); if (false.Equals(errorReturnValue)) { Write('!'); WriteChild(expr); } else { WriteChild(expr); Write(" == "); WriteConst(errorReturnValue); } WriteLine(")"); this.Indent++; Write("return "); WriteConst(this.CurrentMethod.ErrorReturnValue); this.Indent--; }
bool WritePerlArray(string sigil, CiMaybeAssign expr) { bool isVar = expr is CiVarAccess; if (isVar || expr is CiConstAccess || expr is CiBinaryResourceExpr) { Write(sigil); if (isVar) Write(((CiVarAccess) expr).Var.Name); else Write((CiExpr) expr); return true; } return false; }