diff --git a/src/Generator/Library.cs b/src/Generator/Library.cs
index 1c866235e..403c2e85e 100644
--- a/src/Generator/Library.cs
+++ b/src/Generator/Library.cs
@@ -103,22 +103,29 @@ public static Enumeration GetEnumWithMatchingItem(this ASTContext context, strin
/// as well as all previously discovered . The intent is to
/// preserve sign information about the values held in .
///
- public static Enumeration.Item GenerateEnumItemFromMacro(this Enumeration @enum,
- MacroDefinition macro)
+ public static bool TryGenerateEnumItemFromMacro(this Enumeration @enum,
+ MacroDefinition macro, out Enumeration.Item item)
{
- var (value, type) = ParseEnumItemMacroExpression(macro, @enum);
+ if (!TryParseEnumItemMacroExpression(macro, @enum, out var result))
+ {
+ item = null;
+ return false;
+ }
+
+ var (value, type) = result;
if (type > @enum.BuiltinType.Type)
{
@enum.BuiltinType = new BuiltinType(type);
@enum.Type = @enum.BuiltinType;
}
- return new Enumeration.Item
+ item = new Enumeration.Item
{
Name = macro.Name,
Expression = macro.Expression,
Value = value,
Namespace = @enum
};
+ return true;
}
static object EvaluateEnumExpression(string expr, Enumeration @enum)
@@ -154,7 +161,7 @@ static object EvaluateEnumExpression(string expr, Enumeration @enum)
/// evaluator biases towards returning values: it doesn't attempt to
/// discover that a value could be stored in a .
///
- static (ulong value, PrimitiveType type) ParseEnumItemMacroExpression(MacroDefinition macro, Enumeration @enum)
+ static bool TryParseEnumItemMacroExpression(MacroDefinition macro, Enumeration @enum, out (ulong value, PrimitiveType type) item)
{
var expression = macro.Expression;
@@ -171,30 +178,31 @@ static object EvaluateEnumExpression(string expr, Enumeration @enum)
// Verify we have some sort of integer type. Enums can have negative values: record
// that fact so that we can set the underlying primitive type correctly in the enum
// item.
- switch (System.Type.GetTypeCode(eval.GetType()))
+ item = System.Type.GetTypeCode(eval.GetType()) switch
{
// Must unbox eval which is typed as object to be able to cast it to a ulong.
- case TypeCode.SByte: return ((ulong)(sbyte)eval, PrimitiveType.SChar);
- case TypeCode.Int16: return ((ulong)(short)eval, PrimitiveType.Short);
- case TypeCode.Int32: return ((ulong)(int)eval, PrimitiveType.Int);
- case TypeCode.Int64: return ((ulong)(long)eval, PrimitiveType.LongLong);
+ TypeCode.SByte => ((ulong)(sbyte)eval, PrimitiveType.SChar),
+ TypeCode.Int16 => ((ulong)(short)eval, PrimitiveType.Short),
+ TypeCode.Int32 => ((ulong)(int)eval, PrimitiveType.Int),
+ TypeCode.Int64 => ((ulong)(long)eval, PrimitiveType.LongLong),
- case TypeCode.Byte: return ((byte)eval, PrimitiveType.UChar);
- case TypeCode.UInt16: return ((ushort)eval, PrimitiveType.UShort);
- case TypeCode.UInt32: return ((uint)eval, PrimitiveType.UInt);
- case TypeCode.UInt64: return ((ulong)eval, PrimitiveType.ULongLong);
+ TypeCode.Byte => ((byte)eval, PrimitiveType.UChar),
+ TypeCode.UInt16 => ((ushort)eval, PrimitiveType.UShort),
+ TypeCode.UInt32 => ((uint)eval, PrimitiveType.UInt),
+ TypeCode.UInt64 => ((ulong)eval, PrimitiveType.ULongLong),
- case TypeCode.Char: return ((char)eval, PrimitiveType.UShort);
+ TypeCode.Char => ((char)eval, PrimitiveType.UShort),
// C++ allows booleans as enum values - they're translated to 1, 0.
- case TypeCode.Boolean: return ((bool)eval ? 1UL : 0UL, PrimitiveType.UChar);
+ TypeCode.Boolean => ((bool)eval ? 1UL : 0UL, PrimitiveType.UChar),
- default: throw new Exception($"Expression {expression} is not a valid expression type for an enum");
- }
+ _ => throw new Exception($"Expression {expression} is not a valid expression type for an enum")
+ };
+
+ return true;
}
catch (Exception ex)
{
- // TODO: This should just throw, but we have a pre-existing behavior that expects malformed
- // macro expressions to default to 0, see CSharp.h (MY_MACRO_TEST2_0), so do it for now.
+ // TODO: There should be a toggle to just throw here instead.
// Like other paths, we can however, write a diagnostic message to the console.
@@ -202,7 +210,8 @@ static object EvaluateEnumExpression(string expr, Enumeration @enum)
Diagnostics.Warning($"Unable to translate macro '{macro.Name}' to en enum value: {ex.Message}");
Diagnostics.PopIndent();
- return (0, PrimitiveType.Int);
+ item = default;
+ return false;
}
}
@@ -311,16 +320,18 @@ TranslationUnit GetUnitFromItems(List list)
if (@enum.Items.Exists(it => it.Name == macro.Name))
continue;
- var item = @enum.GenerateEnumItemFromMacro(macro);
- @enum.AddItem(item);
- macro.Enumeration = @enum;
+ if (@enum.TryGenerateEnumItemFromMacro(macro, out var item))
+ {
+ @enum.AddItem(item);
+ macro.Enumeration = @enum;
+ }
}
if (@enum.Items.Count <= 0)
return @enum;
// The value of @enum.BuiltinType has been adjusted on the fly via
- // GenerateEnumItemFromMacro. However, its notion of PrimitiveType corresponds with
+ // TryGenerateEnumItemFromMacro. However, its notion of PrimitiveType corresponds with
// what the ExpressionEvaluator returns. In particular, the expression "1" will result
// in PrimitiveType.Int from the expression evaluator. Narrow the type to account for
// types narrower than int.
diff --git a/tests/dotnet/CSharp/CSharp.Tests.cs b/tests/dotnet/CSharp/CSharp.Tests.cs
index f61e97ef6..9558ff10d 100644
--- a/tests/dotnet/CSharp/CSharp.Tests.cs
+++ b/tests/dotnet/CSharp/CSharp.Tests.cs
@@ -1524,18 +1524,17 @@ public void TestMyMacroTestEnum()
[Test]
public void TestMyMacro2TestEnum()
{
- var a = (MyMacroTest2Enum)0;
- var b = (MyMacroTest2Enum)1;
- var c = (MyMacroTest2Enum)0x2;
- var d = (MyMacroTest2Enum)(1 << 2);
- var e = (MyMacroTest2Enum)(b | c);
- var f = (MyMacroTest2Enum)(b | c | d);
- var g = (MyMacroTest2Enum)(1 << 3);
- var h = (MyMacroTest2Enum)((1 << 4) - 1);
- Assert.IsTrue(a == MyMacroTest2Enum.MY_MACRO_TEST2_0 && b == MyMacroTest2Enum.MY_MACRO_TEST2_1 &&
- c == MyMacroTest2Enum.MY_MACRO_TEST2_2 && d == MyMacroTest2Enum.MY_MACRO_TEST2_3 &&
- e == MyMacroTest2Enum.MY_MACRO_TEST2_1_2 && f == MyMacroTest2Enum.MY_MACRO_TEST2_1_2_3 &&
- g == MyMacroTest2Enum.MY_MACRO_TEST2_4 && h == MyMacroTest2Enum.MY_MACRO_TEST2ALL);
+ var a = (MyMacroTest2Enum)1;
+ var b = (MyMacroTest2Enum)0x2;
+ var c = (MyMacroTest2Enum)(1 << 2);
+ var d = (MyMacroTest2Enum)(a | b);
+ var e = (MyMacroTest2Enum)(a | b | c);
+ var f = (MyMacroTest2Enum)(1 << 3);
+ var g = (MyMacroTest2Enum)((1 << 4) - 1);
+ Assert.IsTrue(a == MyMacroTest2Enum.MY_MACRO_TEST2_1 && b == MyMacroTest2Enum.MY_MACRO_TEST2_2 &&
+ c == MyMacroTest2Enum.MY_MACRO_TEST2_3 && d == MyMacroTest2Enum.MY_MACRO_TEST2_1_2 &&
+ e == MyMacroTest2Enum.MY_MACRO_TEST2_1_2_3 && f == MyMacroTest2Enum.MY_MACRO_TEST2_4 &&
+ g == MyMacroTest2Enum.MY_MACRO_TEST2ALL);
}
[Test]