public StringIntMap(StringIntMap other) : this(csharpaidiclientPINVOKE.new_StringIntMap__SWIG_1(StringIntMap.getCPtr(other)), true)
{
if (csharpaidiclientPINVOKE.SWIGPendingException.Pending)
{
throw csharpaidiclientPINVOKE.SWIGPendingException.Retrieve();
}
}
public StringIntMapEnumerator(StringIntMap collection)
{
collectionRef = collection;
keyCollection = new global::System.Collections.Generic.List <string>(collection.Keys);
currentIndex = -1;
currentObject = null;
currentSize = collectionRef.Count;
}
/// <summary>
/// 读完所有表后处理
/// </summary>
public static void afterReadConfigAll()
{
_nameDic = new StringIntMap();
foreach (ClientPlatformTypeConfig v in _dic)
{
if (v != null)
{
_nameDic.put(v.name, v.id);
}
}
}
/// <summary>
/// 读完所有表后处理
/// </summary>
public static void afterReadConfigAll()
{
_dicT = new StringIntMap();
BigFloatRankConfig[] values;
BigFloatRankConfig v;
for (int i = (values = _dic.getValues()).Length - 1; i >= 0; --i)
{
if ((v = values[i]) != null)
{
_dicT.put(v.str, v.id);
}
}
}
public static void Main()
{
// Set up an int int map
StringIntMap simap = new StringIntMap();
for (int i = 0; i < collectionSize; i++)
{
int val = i * 18;
simap.Add(i.ToString(), val);
}
// Count property test
if (simap.Count != collectionSize)
throw new Exception("Count test failed");
// IsReadOnly property test
if (simap.IsReadOnly)
throw new Exception("IsReadOnly test failed");
// Item indexing test
simap["0"] = 200;
if (simap["0"] != 200)
throw new Exception("Item property test failed");
simap["0"] = 0 * 18;
// ContainsKey() test
for (int i = 0; i < collectionSize; i++)
{
if (!simap.ContainsKey(i.ToString()))
throw new Exception("ContainsKey test " + i + " failed");
}
// ContainsKey() test
for (int i = 0; i < collectionSize; i++)
{
if (!simap.Contains(new KeyValuePair<string, int>(i.ToString(), i * 18)))
throw new Exception("Contains test " + i + " failed");
}
// TryGetValue() test
int value;
bool rc = simap.TryGetValue("3", out value);
if (rc != true || value != (3 * 18))
throw new Exception("TryGetValue test 1 failed");
rc = simap.TryGetValue("-1", out value);
if (rc != false)
throw new Exception("TryGetValue test 2 failed");
// Keys and Values test
{
IList<string> keys = new List<string>(simap.Keys);
IList<int> values = new List<int>(simap.Values);
if (keys.Count != collectionSize)
throw new Exception("Keys count test failed");
if (values.Count != collectionSize)
throw new Exception("Values count test failed");
for (int i = 0; i < keys.Count; i++)
{
if (simap[keys[i]] != values[i])
throw new Exception("Keys and values test failed for index " + i);
}
}
// Add and Remove test
for (int i = 100; i < 103; i++)
{
simap.Add(i.ToString(), i * 18);
if (!simap.ContainsKey(i.ToString()) || simap[i.ToString()] != (i * 18))
throw new Exception("Add test failed for index " + i);
simap.Remove(i.ToString());
if (simap.ContainsKey(i.ToString()))
throw new Exception("Remove test failed for index " + i);
}
for (int i = 200; i < 203; i++)
{
simap.Add(new KeyValuePair<string, int>(i.ToString(), i * 18));
if (!simap.ContainsKey(i.ToString()) || simap[i.ToString()] != (i * 18))
throw new Exception("Add explicit test failed for index " + i);
simap.Remove(new KeyValuePair<string, int>(i.ToString(), i * 18));
if (simap.ContainsKey(i.ToString()))
throw new Exception("Remove explicit test failed for index " + i);
}
// Duplicate key test
try
{
simap.Add("3", 0);
throw new Exception("Adding duplicate key test failed");
}
catch (ArgumentException)
{
}
// CopyTo() test
{
KeyValuePair<string, int>[] outputarray = new KeyValuePair<string, int>[collectionSize];
simap.CopyTo(outputarray);
foreach (KeyValuePair<string, int> val in outputarray)
{
if (simap[val.Key] != val.Value)
throw new Exception("CopyTo (1) test failed, index:" + val.Key);
}
}
{
KeyValuePair<string, int>[] outputarray = new KeyValuePair<string, int>[midCollection + collectionSize];
simap.CopyTo(outputarray, midCollection);
for (int i = midCollection; i < midCollection + collectionSize; i++)
{
KeyValuePair<string, int> val = outputarray[i];
if (simap[val.Key] != val.Value)
throw new Exception("CopyTo (2) test failed, index:" + val.Key);
}
}
{
KeyValuePair<string, int>[] outputarray = new KeyValuePair<string, int>[collectionSize - 1];
try
{
simap.CopyTo(outputarray);
throw new Exception("CopyTo (4) test failed");
}
catch (ArgumentException)
{
}
}
// Clear test
simap.Clear();
if (simap.Count != 0)
throw new Exception("Clear test failed");
// Test wrapped methods
for (int i = 1; i <= 5; i++)
{
simap[i.ToString()] = i;
}
double avg = li_std_map.valueAverage(simap);
if (avg != 3.0)
throw new Exception("Wrapped method valueAverage test failed. Got " + avg);
string keyStringified = li_std_map.stringifyKeys(simap);
if (keyStringified != " 1 2 3 4 5")
throw new Exception("Wrapped method stringifyKeys test failed. Got " + keyStringified);
// Test a map with a new complex type (Struct)
{
IntStructMap ismap = new IntStructMap();
for (int i = 0; i < 10; i++)
{
ismap.Add(i, new Struct(i * 10.1));
}
if (ismap.Count != 10)
throw new Exception("Count test on complex type map failed");
foreach (KeyValuePair<int, Struct> p in ismap)
{
if ((p.Key * 10.1) != p.Value.num)
throw new Exception("Iteration test on complex type map failed for index " + p.Key);
}
}
// Test a map of pointers
{
IntStructPtrMap ispmap = new IntStructPtrMap();
for (int i = 0; i < 10; i++)
{
ispmap.Add(i, new Struct(i * 10.1));
}
if (ispmap.Count != 10)
throw new Exception("Count test on complex type pointer map failed");
foreach (KeyValuePair<int, Struct> p in ispmap)
{
if ((p.Key * 10.1) != p.Value.num)
throw new Exception("Iteration test on complex type pointer map failed for index " + p.Key);
}
}
{
IntStructConstPtrMap iscpmap = new IntStructConstPtrMap();
for (int i = 0; i < 10; i++)
{
iscpmap.Add(i, new Struct(i * 10.1));
}
if (iscpmap.Count != 10)
throw new Exception("Count test on complex type const pointer map failed");
foreach (KeyValuePair<int, Struct> p in iscpmap)
{
if ((p.Key * 10.1) != p.Value.num)
throw new Exception("Iteration test on complex type const pointer map failed for index " + p.Key);
}
}
// Test complex type as key (Struct)
{
StructIntMap limap = new StructIntMap();
Struct s7 = new Struct(7);
Struct s8 = new Struct(8);
limap[s7] = 8;
if (limap[s7] != 8)
throw new Exception("Assignment test on complex key map failed");
if (!limap.ContainsKey(s7))
throw new Exception("Key test (1) on complex key map failed");
if (limap.ContainsKey(s8))
throw new Exception("Key test (2) on complex key map failed");
}
// All done
}
public static void Main()
{
// Set up an string to int map
StringIntMap simap = new StringIntMap();
for (int i = 0; i < collectionSize; i++)
{
int val = i * 18;
simap.Add(i.ToString(), val);
}
// Count property test
if (simap.Count != collectionSize)
{
throw new Exception("Count test failed");
}
// IsReadOnly property test
if (simap.IsReadOnly)
{
throw new Exception("IsReadOnly test failed");
}
// Item indexing test
simap["0"] = 200;
if (simap["0"] != 200)
{
throw new Exception("Item property test failed");
}
simap["0"] = 0 * 18;
// ContainsKey() test
for (int i = 0; i < collectionSize; i++)
{
if (!simap.ContainsKey(i.ToString()))
{
throw new Exception("ContainsKey test " + i + " failed");
}
}
// ContainsKey() test
for (int i = 0; i < collectionSize; i++)
{
if (!simap.Contains(new KeyValuePair <string, int>(i.ToString(), i * 18)))
{
throw new Exception("Contains test " + i + " failed");
}
}
// TryGetValue() test
int value;
bool rc = simap.TryGetValue("3", out value);
if (rc != true || value != (3 * 18))
{
throw new Exception("TryGetValue test 1 failed");
}
rc = simap.TryGetValue("-1", out value);
if (rc != false)
{
throw new Exception("TryGetValue test 2 failed");
}
// Keys and Values test
{
IList <string> keys = new List <string>(simap.Keys);
IList <int> values = new List <int>(simap.Values);
Dictionary <string, int> check = new Dictionary <string, int>();
if (keys.Count != collectionSize)
{
throw new Exception("Keys count test failed");
}
if (values.Count != collectionSize)
{
throw new Exception("Values count test failed");
}
for (int i = 0; i < keys.Count; i++)
{
if (simap[keys[i]] != values[i])
{
throw new Exception("Keys and values test failed for index " + i);
}
check.Add(keys[i], values[i]);
}
for (int i = 0; i < collectionSize; i++)
{
if (!check.ContainsKey(i.ToString()))
{
throw new Exception("Keys and Values ContainsKey test " + i + " failed");
}
}
}
// Add and Remove test
for (int i = 100; i < 103; i++)
{
simap.Add(i.ToString(), i * 18);
if (!simap.ContainsKey(i.ToString()) || simap[i.ToString()] != (i * 18))
{
throw new Exception("Add test failed for index " + i);
}
simap.Remove(i.ToString());
if (simap.ContainsKey(i.ToString()))
{
throw new Exception("Remove test failed for index " + i);
}
}
for (int i = 200; i < 203; i++)
{
simap.Add(new KeyValuePair <string, int>(i.ToString(), i * 18));
if (!simap.ContainsKey(i.ToString()) || simap[i.ToString()] != (i * 18))
{
throw new Exception("Add explicit test failed for index " + i);
}
simap.Remove(new KeyValuePair <string, int>(i.ToString(), i * 18));
if (simap.ContainsKey(i.ToString()))
{
throw new Exception("Remove explicit test failed for index " + i);
}
}
// Duplicate key test
try
{
simap.Add("3", 0);
throw new Exception("Adding duplicate key test failed");
}
catch (ArgumentException)
{
}
// CopyTo() test
{
KeyValuePair <string, int>[] outputarray = new KeyValuePair <string, int> [collectionSize];
simap.CopyTo(outputarray);
foreach (KeyValuePair <string, int> val in outputarray)
{
if (simap[val.Key] != val.Value)
{
throw new Exception("CopyTo (1) test failed, index:" + val.Key);
}
}
}
{
KeyValuePair <string, int>[] outputarray = new KeyValuePair <string, int> [midCollection + collectionSize];
simap.CopyTo(outputarray, midCollection);
for (int i = midCollection; i < midCollection + collectionSize; i++)
{
KeyValuePair <string, int> val = outputarray[i];
if (simap[val.Key] != val.Value)
{
throw new Exception("CopyTo (2) test failed, index:" + val.Key);
}
}
}
{
KeyValuePair <string, int>[] outputarray = new KeyValuePair <string, int> [collectionSize - 1];
try
{
simap.CopyTo(outputarray);
throw new Exception("CopyTo (4) test failed");
}
catch (ArgumentException)
{
}
}
// Clear test
simap.Clear();
if (simap.Count != 0)
{
throw new Exception("Clear test failed");
}
// Test wrapped methods
for (int i = 1; i <= 5; i++)
{
simap[i.ToString()] = i;
}
double avg = li_std_map.valueAverage(simap);
if (avg != 3.0)
{
throw new Exception("Wrapped method valueAverage test failed. Got " + avg);
}
string keyStringified = li_std_map.stringifyKeys(simap);
if (keyStringified != " 1 2 3 4 5")
{
throw new Exception("Wrapped method stringifyKeys test failed. Got " + keyStringified);
}
// Test a map with a new complex type (Struct)
{
IntStructMap ismap = new IntStructMap();
for (int i = 0; i < 10; i++)
{
ismap.Add(i, new Struct(i * 10.1));
}
if (ismap.Count != 10)
{
throw new Exception("Count test on complex type map failed");
}
foreach (KeyValuePair <int, Struct> p in ismap)
{
if ((p.Key * 10.1) != p.Value.num)
{
throw new Exception("Iteration test on complex type map failed for index " + p.Key);
}
}
}
// Test a map of pointers
{
IntStructPtrMap ispmap = new IntStructPtrMap();
for (int i = 0; i < 10; i++)
{
ispmap.Add(i, new Struct(i * 10.1));
}
if (ispmap.Count != 10)
{
throw new Exception("Count test on complex type pointer map failed");
}
foreach (KeyValuePair <int, Struct> p in ispmap)
{
if ((p.Key * 10.1) != p.Value.num)
{
throw new Exception("Iteration test on complex type pointer map failed for index " + p.Key);
}
}
}
{
IntStructConstPtrMap iscpmap = new IntStructConstPtrMap();
for (int i = 0; i < 10; i++)
{
iscpmap.Add(i, new Struct(i * 10.1));
}
if (iscpmap.Count != 10)
{
throw new Exception("Count test on complex type const pointer map failed");
}
foreach (KeyValuePair <int, Struct> p in iscpmap)
{
if ((p.Key * 10.1) != p.Value.num)
{
throw new Exception("Iteration test on complex type const pointer map failed for index " + p.Key);
}
}
}
// Test complex type as key (Struct)
{
StructIntMap limap = new StructIntMap();
Struct s7 = new Struct(7);
Struct s8 = new Struct(8);
limap[s7] = 8;
if (limap[s7] != 8)
{
throw new Exception("Assignment test on complex key map failed");
}
if (!limap.ContainsKey(s7))
{
throw new Exception("Key test (1) on complex key map failed");
}
if (limap.ContainsKey(s8))
{
throw new Exception("Key test (2) on complex key map failed");
}
}
// Custom compare function
{
StringLengthNumberMap slmap = new StringLengthNumberMap();
li_std_map.populate(slmap);
string keys = string.Join(" ", new List <string>(slmap.Keys));
if (keys != "a aa zzz xxxx aaaaa")
{
throw new Exception("Keys are wrong or in wrong order: " + keys);
}
string values = string.Join(" ", new List <int>(slmap.Values));
if (values != "1 2 3 4 5")
{
throw new Exception("Values are wrong or in wrong order: " + values);
}
}
// All done
}
public FeatureLocationResultWrapper get_feature_location_result(string label_file_path, string test_result_file_path, StringIntMap label_dict, IntVector indexs)
{
FeatureLocationResultWrapper ret = new FeatureLocationResultWrapper(csharpaidiclientPINVOKE.AidiCalculation_get_feature_location_result(swigCPtr, label_file_path, test_result_file_path, StringIntMap.getCPtr(label_dict), IntVector.getCPtr(indexs)), true);
if (csharpaidiclientPINVOKE.SWIGPendingException.Pending)
{
throw csharpaidiclientPINVOKE.SWIGPendingException.Retrieve();
}
return(ret);
}
internal static global::System.Runtime.InteropServices.HandleRef getCPtr(StringIntMap obj)
{
return((obj == null) ? new global::System.Runtime.InteropServices.HandleRef(null, global::System.IntPtr.Zero) : obj.swigCPtr);
}
