protected override TypeExpr DoResolveAsTypeStep (IMemberContext ec)
{
var type = ec.Module.PredefinedTypes.Nullable.Resolve (loc);
if (type == null)
return null;
TypeArguments args = new TypeArguments (underlying);
GenericTypeExpr ctype = new GenericTypeExpr (type, args, loc);
return ctype.ResolveAsTypeTerminal (ec, false);
}
public override TypeExpr ResolveAsType (IMemberContext ec)
{
var type = ec.Module.PredefinedTypes.Nullable.Resolve ();
if (type == null)
return null;
TypeArguments args = new TypeArguments (underlying);
GenericTypeExpr ctype = new GenericTypeExpr (type, args, loc);
return ctype.ResolveAsType (ec);
}
protected override TypeExpr DoResolveAsTypeStep (IMemberContext ec)
{
if (TypeManager.generic_nullable_type == null) {
TypeManager.generic_nullable_type = TypeManager.CoreLookupType (ec.Compiler,
"System", "Nullable", 1, MemberKind.Struct, true);
}
TypeArguments args = new TypeArguments (underlying);
GenericTypeExpr ctype = new GenericTypeExpr (TypeManager.generic_nullable_type, args, loc);
return ctype.ResolveAsTypeTerminal (ec, false);
}
public override TypeSpec ResolveAsType (IMemberContext ec)
{
eclass = ExprClass.Type;
var otype = ec.Module.PredefinedTypes.Nullable.Resolve ();
if (otype == null)
return null;
TypeArguments args = new TypeArguments (new TypeExpression (underlying, loc));
GenericTypeExpr ctype = new GenericTypeExpr (otype, args, loc);
type = ctype.ResolveAsType (ec);
return type;
}
protected void EmitCall (EmitContext ec, Expression binder, Arguments arguments, bool isStatement)
{
//
// This method generates all internal infrastructure for a dynamic call. The
// reason why it's quite complicated is the mixture of dynamic and anonymous
// methods. Dynamic itself requires a temporary class (ContainerX) and anonymous
// methods can generate temporary storey as well (AnonStorey). Handling MVAR
// type parameters rewrite is non-trivial in such case as there are various
// combinations possible therefore the mutator is not straightforward. Secondly
// we need to keep both MVAR(possibly VAR for anon storey) and type VAR to emit
// correct Site field type and its access from EmitContext.
//
int dyn_args_count = arguments == null ? 0 : arguments.Count;
int default_args = isStatement ? 1 : 2;
var module = ec.Module;
bool has_ref_out_argument = false;
var targs = new TypeExpression[dyn_args_count + default_args];
targs[0] = new TypeExpression (module.PredefinedTypes.CallSite.TypeSpec, loc);
TypeExpression[] targs_for_instance = null;
TypeParameterMutator mutator;
var site_container = ec.CreateDynamicSite ();
if (context_mvars != null) {
TypeParameters tparam;
TypeContainer sc = site_container;
do {
tparam = sc.CurrentTypeParameters;
sc = sc.Parent;
} while (tparam == null);
mutator = new TypeParameterMutator (context_mvars, tparam);
if (!ec.IsAnonymousStoreyMutateRequired) {
targs_for_instance = new TypeExpression[targs.Length];
targs_for_instance[0] = targs[0];
}
} else {
mutator = null;
}
for (int i = 0; i < dyn_args_count; ++i) {
Argument a = arguments[i];
if (a.ArgType == Argument.AType.Out || a.ArgType == Argument.AType.Ref)
has_ref_out_argument = true;
var t = a.Type;
// Convert any internal type like dynamic or null to object
if (t.Kind == MemberKind.InternalCompilerType)
t = ec.BuiltinTypes.Object;
if (targs_for_instance != null)
targs_for_instance[i + 1] = new TypeExpression (t, loc);
if (mutator != null)
t = t.Mutate (mutator);
targs[i + 1] = new TypeExpression (t, loc);
}
TypeExpr del_type = null;
TypeExpr del_type_instance_access = null;
if (!has_ref_out_argument) {
string d_name = isStatement ? "Action" : "Func";
TypeExpr te = null;
Namespace type_ns = module.GlobalRootNamespace.GetNamespace ("System", true);
if (type_ns != null) {
te = type_ns.LookupType (module, d_name, dyn_args_count + default_args, LookupMode.Normal, loc);
}
if (te != null) {
if (!isStatement) {
var t = type;
if (t.Kind == MemberKind.InternalCompilerType)
t = ec.BuiltinTypes.Object;
if (targs_for_instance != null)
targs_for_instance[targs_for_instance.Length - 1] = new TypeExpression (t, loc);
if (mutator != null)
t = t.Mutate (mutator);
targs[targs.Length - 1] = new TypeExpression (t, loc);
}
del_type = new GenericTypeExpr (te.Type, new TypeArguments (targs), loc);
if (targs_for_instance != null)
del_type_instance_access = new GenericTypeExpr (te.Type, new TypeArguments (targs_for_instance), loc);
else
del_type_instance_access = del_type;
}
}
//
// Create custom delegate when no appropriate predefined delegate has been found
//
Delegate d;
if (del_type == null) {
TypeSpec rt = isStatement ? ec.BuiltinTypes.Void : type;
Parameter[] p = new Parameter[dyn_args_count + 1];
p[0] = new Parameter (targs[0], "p0", Parameter.Modifier.NONE, null, loc);
var site = ec.CreateDynamicSite ();
int index = site.Containers == null ? 0 : site.Containers.Count;
if (mutator != null)
rt = mutator.Mutate (rt);
for (int i = 1; i < dyn_args_count + 1; ++i) {
p[i] = new Parameter (targs[i], "p" + i.ToString ("X"), arguments[i - 1].Modifier, null, loc);
}
d = new Delegate (site, new TypeExpression (rt, loc),
Modifiers.INTERNAL | Modifiers.COMPILER_GENERATED,
new MemberName ("Container" + index.ToString ("X")),
new ParametersCompiled (p), null);
d.CreateContainer ();
d.DefineContainer ();
d.Define ();
site.AddTypeContainer (d);
del_type = new TypeExpression (d.CurrentType, loc);
if (targs_for_instance != null) {
del_type_instance_access = null;
} else {
del_type_instance_access = del_type;
}
} else {
d = null;
}
var site_type_decl = new GenericTypeExpr (module.PredefinedTypes.CallSiteGeneric.TypeSpec, new TypeArguments (del_type), loc);
var field = site_container.CreateCallSiteField (site_type_decl, loc);
if (field == null)
return;
if (del_type_instance_access == null) {
var dt = d.CurrentType.DeclaringType.MakeGenericType (module, context_mvars.Types);
del_type_instance_access = new TypeExpression (MemberCache.GetMember (dt, d.CurrentType), loc);
}
var instanceAccessExprType = new GenericTypeExpr (module.PredefinedTypes.CallSiteGeneric.TypeSpec,
new TypeArguments (del_type_instance_access), loc);
if (instanceAccessExprType.ResolveAsType (ec.MemberContext) == null)
return;
bool inflate_using_mvar = context_mvars != null && ec.IsAnonymousStoreyMutateRequired;
TypeSpec gt;
if (inflate_using_mvar || context_mvars == null) {
gt = site_container.CurrentType;
} else {
gt = site_container.CurrentType.MakeGenericType (module, context_mvars.Types);
}
// When site container already exists the inflated version has to be
// updated manually to contain newly created field
if (gt is InflatedTypeSpec && site_container.AnonymousMethodsCounter > 1) {
var tparams = gt.MemberDefinition.TypeParametersCount > 0 ? gt.MemberDefinition.TypeParameters : TypeParameterSpec.EmptyTypes;
var inflator = new TypeParameterInflator (module, gt, tparams, gt.TypeArguments);
gt.MemberCache.AddMember (field.InflateMember (inflator));
}
FieldExpr site_field_expr = new FieldExpr (MemberCache.GetMember (gt, field), loc);
BlockContext bc = new BlockContext (ec.MemberContext, null, ec.BuiltinTypes.Void);
Arguments args = new Arguments (1);
args.Add (new Argument (binder));
StatementExpression s = new StatementExpression (new SimpleAssign (site_field_expr, new Invocation (new MemberAccess (instanceAccessExprType, "Create"), args)));
using (ec.With (BuilderContext.Options.OmitDebugInfo, true)) {
if (s.Resolve (bc)) {
Statement init = new If (new Binary (Binary.Operator.Equality, site_field_expr, new NullLiteral (loc)), s, loc);
init.Emit (ec);
}
args = new Arguments (1 + dyn_args_count);
args.Add (new Argument (site_field_expr));
if (arguments != null) {
int arg_pos = 1;
foreach (Argument a in arguments) {
if (a is NamedArgument) {
// Name is not valid in this context
args.Add (new Argument (a.Expr, a.ArgType));
} else {
args.Add (a);
}
if (inflate_using_mvar && a.Type != targs[arg_pos].Type)
a.Expr.Type = targs[arg_pos].Type;
++arg_pos;
}
}
Expression target = new DelegateInvocation (new MemberAccess (site_field_expr, "Target", loc).Resolve (bc), args, loc).Resolve (bc);
if (target != null)
target.Emit (ec);
}
}
protected void EmitCall(EmitContext ec, Expression binder, Arguments arguments, bool isStatement)
{
//
// This method generates all internal infrastructure for a dynamic call. The
// reason why it's quite complicated is the mixture of dynamic and anonymous
// methods. Dynamic itself requires a temporary class (ContainerX) and anonymous
// methods can generate temporary storey as well (AnonStorey). Handling MVAR
// type parameters rewrite is non-trivial in such case as there are various
// combinations possible therefore the mutator is not straightforward. Secondly
// we need to keep both MVAR(possibly VAR for anon storey) and type VAR to emit
// correct Site field type and its access from EmitContext.
//
int dyn_args_count = arguments == null ? 0 : arguments.Count;
int default_args = isStatement ? 1 : 2;
var module = ec.Module;
bool has_ref_out_argument = false;
var targs = new TypeExpression[dyn_args_count + default_args];
targs[0] = new TypeExpression(module.PredefinedTypes.CallSite.TypeSpec, loc);
TypeExpression[] targs_for_instance = null;
TypeParameterMutator mutator;
var site_container = ec.CreateDynamicSite();
if (context_mvars != null)
{
TypeParameters tparam;
TypeContainer sc = site_container;
do
{
tparam = sc.CurrentTypeParameters;
sc = sc.Parent;
} while (tparam == null);
mutator = new TypeParameterMutator(context_mvars, tparam);
if (!ec.IsAnonymousStoreyMutateRequired)
{
targs_for_instance = new TypeExpression[targs.Length];
targs_for_instance[0] = targs[0];
}
}
else
{
mutator = null;
}
for (int i = 0; i < dyn_args_count; ++i)
{
Argument a = arguments[i];
if (a.ArgType == Argument.AType.Out || a.ArgType == Argument.AType.Ref)
{
has_ref_out_argument = true;
}
var t = a.Type;
// Convert any internal type like dynamic or null to object
if (t.Kind == MemberKind.InternalCompilerType)
{
t = ec.BuiltinTypes.Object;
}
if (targs_for_instance != null)
{
targs_for_instance[i + 1] = new TypeExpression(t, loc);
}
if (mutator != null)
{
t = t.Mutate(mutator);
}
targs[i + 1] = new TypeExpression(t, loc);
}
TypeExpr del_type = null;
TypeExpr del_type_instance_access = null;
if (!has_ref_out_argument)
{
string d_name = isStatement ? "Action" : "Func";
TypeExpr te = null;
Namespace type_ns = module.GlobalRootNamespace.GetNamespace("System", true);
if (type_ns != null)
{
te = type_ns.LookupType(module, d_name, dyn_args_count + default_args, LookupMode.Normal, loc);
}
if (te != null)
{
if (!isStatement)
{
var t = type;
if (t.Kind == MemberKind.InternalCompilerType)
{
t = ec.BuiltinTypes.Object;
}
if (targs_for_instance != null)
{
targs_for_instance[targs_for_instance.Length - 1] = new TypeExpression(t, loc);
}
if (mutator != null)
{
t = t.Mutate(mutator);
}
targs[targs.Length - 1] = new TypeExpression(t, loc);
}
del_type = new GenericTypeExpr(te.Type, new TypeArguments(targs), loc);
if (targs_for_instance != null)
{
del_type_instance_access = new GenericTypeExpr(te.Type, new TypeArguments(targs_for_instance), loc);
}
else
{
del_type_instance_access = del_type;
}
}
}
//
// Create custom delegate when no appropriate predefined delegate has been found
//
Delegate d;
if (del_type == null)
{
TypeSpec rt = isStatement ? ec.BuiltinTypes.Void : type;
Parameter[] p = new Parameter[dyn_args_count + 1];
p[0] = new Parameter(targs[0], "p0", Parameter.Modifier.NONE, null, loc);
var site = ec.CreateDynamicSite();
int index = site.Containers == null ? 0 : site.Containers.Count;
if (mutator != null)
{
rt = mutator.Mutate(rt);
}
for (int i = 1; i < dyn_args_count + 1; ++i)
{
p[i] = new Parameter(targs[i], "p" + i.ToString("X"), arguments[i - 1].Modifier, null, loc);
}
d = new Delegate(site, new TypeExpression(rt, loc),
Modifiers.INTERNAL | Modifiers.COMPILER_GENERATED,
new MemberName("Container" + index.ToString("X")),
new ParametersCompiled(p), null);
d.CreateContainer();
d.DefineContainer();
d.Define();
site.AddTypeContainer(d);
del_type = new TypeExpression(d.CurrentType, loc);
if (targs_for_instance != null)
{
del_type_instance_access = null;
}
else
{
del_type_instance_access = del_type;
}
}
else
{
d = null;
}
var site_type_decl = new GenericTypeExpr(module.PredefinedTypes.CallSiteGeneric.TypeSpec, new TypeArguments(del_type), loc);
var field = site_container.CreateCallSiteField(site_type_decl, loc);
if (field == null)
{
return;
}
if (del_type_instance_access == null)
{
var dt = d.CurrentType.DeclaringType.MakeGenericType(module, context_mvars.Types);
del_type_instance_access = new TypeExpression(MemberCache.GetMember(dt, d.CurrentType), loc);
}
var instanceAccessExprType = new GenericTypeExpr(module.PredefinedTypes.CallSiteGeneric.TypeSpec,
new TypeArguments(del_type_instance_access), loc);
if (instanceAccessExprType.ResolveAsType(ec.MemberContext) == null)
{
return;
}
bool inflate_using_mvar = context_mvars != null && ec.IsAnonymousStoreyMutateRequired;
TypeSpec gt;
if (inflate_using_mvar || context_mvars == null)
{
gt = site_container.CurrentType;
}
else
{
gt = site_container.CurrentType.MakeGenericType(module, context_mvars.Types);
}
// When site container already exists the inflated version has to be
// updated manually to contain newly created field
if (gt is InflatedTypeSpec && site_container.AnonymousMethodsCounter > 1)
{
var tparams = gt.MemberDefinition.TypeParametersCount > 0 ? gt.MemberDefinition.TypeParameters : TypeParameterSpec.EmptyTypes;
var inflator = new TypeParameterInflator(module, gt, tparams, gt.TypeArguments);
gt.MemberCache.AddMember(field.InflateMember(inflator));
}
FieldExpr site_field_expr = new FieldExpr(MemberCache.GetMember(gt, field), loc);
BlockContext bc = new BlockContext(ec.MemberContext, null, ec.BuiltinTypes.Void);
Arguments args = new Arguments(1);
args.Add(new Argument(binder));
StatementExpression s = new StatementExpression(new SimpleAssign(site_field_expr, new Invocation(new MemberAccess(instanceAccessExprType, "Create"), args)));
using (ec.With(BuilderContext.Options.OmitDebugInfo, true)) {
if (s.Resolve(bc))
{
Statement init = new If(new Binary(Binary.Operator.Equality, site_field_expr, new NullLiteral(loc)), s, loc);
init.Emit(ec);
}
args = new Arguments(1 + dyn_args_count);
args.Add(new Argument(site_field_expr));
if (arguments != null)
{
int arg_pos = 1;
foreach (Argument a in arguments)
{
if (a is NamedArgument)
{
// Name is not valid in this context
args.Add(new Argument(a.Expr, a.ArgType));
}
else
{
args.Add(a);
}
if (inflate_using_mvar && a.Type != targs[arg_pos].Type)
{
a.Expr.Type = targs[arg_pos].Type;
}
++arg_pos;
}
}
Expression target = new DelegateInvocation(new MemberAccess(site_field_expr, "Target", loc).Resolve(bc), args, loc).Resolve(bc);
if (target != null)
{
target.Emit(ec);
}
}
}
TypeExpr CreateStoreyTypeExpression (EmitContext ec)
{
//
// Create an instance of storey type
//
TypeExpr storey_type_expr;
if (CurrentTypeParameters != null) {
//
// Use current method type parameter (MVAR) for top level storey only. All
// nested storeys use class type parameter (VAR)
//
var tparams = ec.CurrentAnonymousMethod != null && ec.CurrentAnonymousMethod.Storey != null ?
ec.CurrentAnonymousMethod.Storey.CurrentTypeParameters :
ec.CurrentTypeParameters;
TypeArguments targs = new TypeArguments ();
//
// Use type parameter name instead of resolved type parameter
// specification to resolve to correctly nested type parameters
//
for (int i = 0; i < tparams.Count; ++i)
targs.Add (new SimpleName (tparams [i].Name, Location)); // new TypeParameterExpr (tparams[i], Location));
storey_type_expr = new GenericTypeExpr (Definition, targs, Location);
} else {
storey_type_expr = new TypeExpression (CurrentType, Location);
}
return storey_type_expr;
}
protected override bool DoDefineMembers ()
{
if (!base.DoDefineMembers ())
return false;
Location loc = Location;
var equals_parameters = ParametersCompiled.CreateFullyResolved (
new Parameter (new TypeExpression (Compiler.BuiltinTypes.Object, loc), "obj", 0, null, loc), Compiler.BuiltinTypes.Object);
Method equals = new Method (this, new TypeExpression (Compiler.BuiltinTypes.Bool, loc),
Modifiers.PUBLIC | Modifiers.OVERRIDE | Modifiers.DEBUGGER_HIDDEN, new MemberName ("Equals", loc),
equals_parameters, null);
equals_parameters[0].Resolve (equals, 0);
Method tostring = new Method (this, new TypeExpression (Compiler.BuiltinTypes.String, loc),
Modifiers.PUBLIC | Modifiers.OVERRIDE | Modifiers.DEBUGGER_HIDDEN, new MemberName ("ToString", loc),
ParametersCompiled.EmptyReadOnlyParameters, null);
ToplevelBlock equals_block = new ToplevelBlock (Compiler, equals.ParameterInfo, loc);
TypeExpr current_type;
if (CurrentTypeParameters != null) {
var targs = new TypeArguments ();
for (int i = 0; i < CurrentTypeParameters.Count; ++i) {
targs.Add (new TypeParameterExpr (CurrentTypeParameters[i], Location));
}
current_type = new GenericTypeExpr (Definition, targs, loc);
} else {
current_type = new TypeExpression (Definition, loc);
}
var li_other = LocalVariable.CreateCompilerGenerated (CurrentType, equals_block, loc);
equals_block.AddStatement (new BlockVariable (new TypeExpression (li_other.Type, loc), li_other));
var other_variable = new LocalVariableReference (li_other, loc);
MemberAccess system_collections_generic = new MemberAccess (new MemberAccess (
new QualifiedAliasMember ("global", "System", loc), "Collections", loc), "Generic", loc);
Expression rs_equals = null;
Expression string_concat = new StringConstant (Compiler.BuiltinTypes, "{", loc);
Expression rs_hashcode = new IntConstant (Compiler.BuiltinTypes, -2128831035, loc);
for (int i = 0; i < parameters.Count; ++i) {
var p = parameters [i];
var f = (Field) Members [i * 2];
MemberAccess equality_comparer = new MemberAccess (new MemberAccess (
system_collections_generic, "EqualityComparer",
new TypeArguments (new SimpleName (CurrentTypeParameters [i].Name, loc)), loc),
"Default", loc);
Arguments arguments_equal = new Arguments (2);
arguments_equal.Add (new Argument (new MemberAccess (new This (f.Location), f.Name)));
arguments_equal.Add (new Argument (new MemberAccess (other_variable, f.Name)));
Expression field_equal = new Invocation (new MemberAccess (equality_comparer,
"Equals", loc), arguments_equal);
Arguments arguments_hashcode = new Arguments (1);
arguments_hashcode.Add (new Argument (new MemberAccess (new This (f.Location), f.Name)));
Expression field_hashcode = new Invocation (new MemberAccess (equality_comparer,
"GetHashCode", loc), arguments_hashcode);
IntConstant FNV_prime = new IntConstant (Compiler.BuiltinTypes, 16777619, loc);
rs_hashcode = new Binary (Binary.Operator.Multiply,
new Binary (Binary.Operator.ExclusiveOr, rs_hashcode, field_hashcode),
FNV_prime);
Expression field_to_string = new Conditional (new BooleanExpression (new Binary (Binary.Operator.Inequality,
new MemberAccess (new This (f.Location), f.Name), new NullLiteral (loc))),
new Invocation (new MemberAccess (
new MemberAccess (new This (f.Location), f.Name), "ToString"), null),
new StringConstant (Compiler.BuiltinTypes, string.Empty, loc), loc);
if (rs_equals == null) {
rs_equals = field_equal;
string_concat = new Binary (Binary.Operator.Addition,
string_concat,
new Binary (Binary.Operator.Addition,
new StringConstant (Compiler.BuiltinTypes, " " + p.Name + " = ", loc),
field_to_string));
continue;
}
//
// Implementation of ToString () body using string concatenation
//
string_concat = new Binary (Binary.Operator.Addition,
new Binary (Binary.Operator.Addition,
string_concat,
new StringConstant (Compiler.BuiltinTypes, ", " + p.Name + " = ", loc)),
field_to_string);
rs_equals = new Binary (Binary.Operator.LogicalAnd, rs_equals, field_equal);
}
string_concat = new Binary (Binary.Operator.Addition,
string_concat,
new StringConstant (Compiler.BuiltinTypes, " }", loc));
//
// Equals (object obj) override
//
var other_variable_assign = new TemporaryVariableReference (li_other, loc);
equals_block.AddStatement (new StatementExpression (
new SimpleAssign (other_variable_assign,
new As (equals_block.GetParameterReference (0, loc),
current_type, loc), loc)));
Expression equals_test = new Binary (Binary.Operator.Inequality, other_variable, new NullLiteral (loc));
if (rs_equals != null)
equals_test = new Binary (Binary.Operator.LogicalAnd, equals_test, rs_equals);
equals_block.AddStatement (new Return (equals_test, loc));
equals.Block = equals_block;
equals.Define ();
Members.Add (equals);
//
// GetHashCode () override
//
Method hashcode = new Method (this, new TypeExpression (Compiler.BuiltinTypes.Int, loc),
Modifiers.PUBLIC | Modifiers.OVERRIDE | Modifiers.DEBUGGER_HIDDEN,
new MemberName ("GetHashCode", loc),
ParametersCompiled.EmptyReadOnlyParameters, null);
//
// Modified FNV with good avalanche behavior and uniform
// distribution with larger hash sizes.
//
// const int FNV_prime = 16777619;
// int hash = (int) 2166136261;
// foreach (int d in data)
// hash = (hash ^ d) * FNV_prime;
// hash += hash << 13;
// hash ^= hash >> 7;
// hash += hash << 3;
// hash ^= hash >> 17;
// hash += hash << 5;
ToplevelBlock hashcode_top = new ToplevelBlock (Compiler, loc);
Block hashcode_block = new Block (hashcode_top, loc, loc);
hashcode_top.AddStatement (new Unchecked (hashcode_block, loc));
var li_hash = LocalVariable.CreateCompilerGenerated (Compiler.BuiltinTypes.Int, hashcode_top, loc);
hashcode_block.AddStatement (new BlockVariable (new TypeExpression (li_hash.Type, loc), li_hash));
LocalVariableReference hash_variable_assign = new LocalVariableReference (li_hash, loc);
hashcode_block.AddStatement (new StatementExpression (
new SimpleAssign (hash_variable_assign, rs_hashcode)));
var hash_variable = new LocalVariableReference (li_hash, loc);
hashcode_block.AddStatement (new StatementExpression (
new CompoundAssign (Binary.Operator.Addition, hash_variable,
new Binary (Binary.Operator.LeftShift, hash_variable, new IntConstant (Compiler.BuiltinTypes, 13, loc)))));
hashcode_block.AddStatement (new StatementExpression (
new CompoundAssign (Binary.Operator.ExclusiveOr, hash_variable,
new Binary (Binary.Operator.RightShift, hash_variable, new IntConstant (Compiler.BuiltinTypes, 7, loc)))));
hashcode_block.AddStatement (new StatementExpression (
new CompoundAssign (Binary.Operator.Addition, hash_variable,
new Binary (Binary.Operator.LeftShift, hash_variable, new IntConstant (Compiler.BuiltinTypes, 3, loc)))));
hashcode_block.AddStatement (new StatementExpression (
new CompoundAssign (Binary.Operator.ExclusiveOr, hash_variable,
new Binary (Binary.Operator.RightShift, hash_variable, new IntConstant (Compiler.BuiltinTypes, 17, loc)))));
hashcode_block.AddStatement (new StatementExpression (
new CompoundAssign (Binary.Operator.Addition, hash_variable,
new Binary (Binary.Operator.LeftShift, hash_variable, new IntConstant (Compiler.BuiltinTypes, 5, loc)))));
hashcode_block.AddStatement (new Return (hash_variable, loc));
hashcode.Block = hashcode_top;
hashcode.Define ();
Members.Add (hashcode);
//
// ToString () override
//
ToplevelBlock tostring_block = new ToplevelBlock (Compiler, loc);
tostring_block.AddStatement (new Return (string_concat, loc));
tostring.Block = tostring_block;
tostring.Define ();
Members.Add (tostring);
return true;
}
