TL;DR: All fields of an enum will be extract by reflection, then insertion sorted and binary searched for the first matching value.
The call chain looked this :
Enum.Tostring();
Enum.InternalFormat(RuntimeType eT, Object value);
Enum.GetName(Type enumType, Object value);
Type.GetEnumName(object value);
Type.GetEnumName(object value)
is implemented as such :
public virtual string GetEnumName(object value)
{
// standard argument guards...
Array values = GetEnumRawConstantValues();
int index = BinarySearch(values, value);
if (index >= 0)
{
string[] names = GetEnumNames();
return names[index];
}
return null;
}
Both GetEnumRawConstantValues()
and GetEnumNames()
rely on GetEnumData(out string[] enumNames, out Array enumValues)
:
private void GetEnumData(out string[] enumNames, out Array enumValues)
{
Contract.Ensures(Contract.ValueAtReturn<String[]>(out enumNames) != null);
Contract.Ensures(Contract.ValueAtReturn<Array>(out enumValues) != null);
FieldInfo[] flds = GetFields(BindingFlags.Public | BindingFlags.NonPublic | BindingFlags.Static);
object[] values = new object[flds.Length];
string[] names = new string[flds.Length];
for (int i = 0; i < flds.Length; i++)
{
names[i] = flds[i].Name;
values[i] = flds[i].GetRawConstantValue();
}
// Insertion Sort these values in ascending order.
// We use this O(n^2) algorithm, but it turns out that most of the time the elements are already in sorted order and
// the common case performance will be faster than quick sorting this.
IComparer comparer = Comparer.Default;
for (int i = 1; i < values.Length; i++)
{
int j = i;
string tempStr = names[i];
object val = values[i];
bool exchanged = false;
// Since the elements are sorted we only need to do one comparision, we keep the check for j inside the loop.
while (comparer.Compare(values[j - 1], val) > 0)
{
names[j] = names[j - 1];
values[j] = values[j - 1];
j--;
exchanged = true;
if (j == 0)
break;
}
if (exchanged)
{
names[j] = tempStr;
values[j] = val;
}
}
enumNames = names;
enumValues = values;
}
When followed, GetFields(BindingFlags bindingAttr)
leads to an abstract
method, but searching "GetFields" on msdn will yield you EnumBuilder.GetFields(BindingFlags bindingAttr)
. And if we follow its call chain :
EnumBuilder.GetFields(BindingFlags bindingAttr);
TypeBuilder.GetFields(BindingFlags bindingAttr);
RuntimeType.GetFields(BindingFlags bindingAttr);
RuntimeType.GetFieldCandidates(String name, BindingFlags bindingAttr, bool allowPrefixLookup);
RuntimeTypeCache.GetFieldList(MemberListType listType, string name);
RuntimeTypeCache.GetMemberList<RuntimeFieldInfo>(ref MemberInfoCache<T> m_cache, MemberListType listType, string name, CacheType cacheType);
MemberInfoCache<RuntimeFieldInfo>.GetMemberList(MemberListType listType, string name, CacheType cacheType);
MemberInfoCache<RuntimeFieldInfo>.Populate(string name, MemberListType listType, CacheType cacheType);
MemberInfoCache<RuntimeFieldInfo>.GetListByName(char* pName, int cNameLen, byte* pUtf8Name, int cUtf8Name, MemberListType listType, CacheType cacheType);
MemberInfoCache<RuntimeFieldInfo>.PopulateFields(Filter filter);
// and from here, it is a wild ride...
So, I will quote Type.GetFields
remarks :
The GetFields method does not return fields in a particular order, such as alphabetical or declaration order. Your code must not depend on the order in which fields are returned, because that order varies.