public void AvailableValues_Number_InDictionary()
{
var scheme = Load(@"
<PListScheme>
<Key name = ""keyname"" type = ""Dictionary"">
<Value name = ""num"" type = ""Number"" required = ""True"">
<Value name = ""1"" />
<Value name = ""2"" />
<Value name = ""3"" />
</Value>
</Key>
</PListScheme>");
var value = new PDictionary();
var num = new PNumber(1);
var root = new PDictionary();
root.Add("keyname", value);
value.Add("num", num);
var available = PListScheme.AvailableValues(num, PListScheme.Match(root, scheme));
Assert.AreEqual(3, available.Count, "#1");
}
public void WalkScheme_Dictionary_NotPartOfScheme()
{
var scheme = Load(@"
<PListScheme>
<Key name = ""key1"" type = ""Array"" arrayType = ""Dictionary"" />
</PListScheme>");
var dict = new PDictionary();
dict.Add("foo", new PNumber(1));
var tree = new PArray();
tree.Add(dict);
tree.Add(new PNumber(1));
var root = new PDictionary();
root.Add("foo", tree);
var result = PListScheme.Match(root, scheme);
var keys = result.Keys.ToArray();
for (int i = 0; i < keys.Length; i++)
{
Assert.IsNull(result [keys [i]], "#1." + i);
}
}
public void WalkScheme_PDictionaryKey_RequiredValues()
{
var scheme = Load(@"
<PListScheme>
<Key name = ""key1"" type = ""Dictionary"">
<Value name = ""val1"" type = ""Number"" required = ""True"" />
<Value name = ""val2"" type = ""Array"" arrayType = ""Number"" required = ""True"" />
</Key>
</PListScheme>");
var key = scheme.Keys [0];
var root = new PDictionary();
var tree = (PDictionary)key.Create();
root.Add("key1", tree);
var result = PListScheme.Match(root, scheme);
Assert.AreEqual(4, result.Count);
Assert.AreSame(result [tree], key, "#2");
var val1 = tree ["val1"];
Assert.AreSame(result [val1], key.Values [0], "#3");
var val2 = tree ["val2"];
Assert.AreSame(result [val2], key.Values [1], "#4");
IsInstanceOf <PNumber> (((PArray)val2) [0], "#5");
}
public PListScheme PListSchemeTest()
{
string value = "<xml></xml>";
using (var reader = System.Xml.XmlReader.Create(new StringReader(value)))
return(PListScheme.Load(reader)); /*41eb3a30-3b19-4ea5-a7dc-e4c76871f391*/
}
public static PListScheme Load(System.Xml.XmlReader reader)
{ /*c9b18785-1348-42e3-a479-9cac1e7c5360*/
var result = new PListScheme();
var doc = new System.Xml.XmlDocument();
doc.Load(reader);
return(result);
}
public void AvailableKeys_Array_NotInScheme()
{
var root = new PDictionary();
root.Add("foo", new PArray());
var available = PListScheme.AvailableKeys(root["foo"], PListScheme.Match(root, PListScheme.Empty));
Assert.IsNull(available, "#1");
}
public void AvailableValues_String_NotInScheme()
{
var root = new PDictionary();
root.Add("foo", new PString("bar"));
var available = PListScheme.AvailableValues(root["foo"], PListScheme.Match(root, PListScheme.Empty));
Assert.IsNull(available, "#1");
}
public void AvailableValues_Boolean_NotInScheme()
{
var value = new PBoolean(true);
var root = new PDictionary();
root.Add("foo", value);
var available = PListScheme.AvailableValues(value, PListScheme.Match(root, PListScheme.Empty));
Assert.AreEqual(2, available.Count, "#1");
}
public void AvailableValues_Boolean_InArray()
{
var scheme = Load(@"
<PListScheme>
<Key name = ""keyname"" type = ""Array"" arrayType = ""Boolean"" />
</PListScheme>");
var value = new PBoolean(true);
var root = new PDictionary();
root.Add(scheme.Keys[0].Identifier, value);
var available = PListScheme.AvailableValues(value, PListScheme.Match(root, scheme));
Assert.AreEqual(2, available.Count, "#1");
}
public void AvailableValues_Number_InArray()
{
var scheme = Load(@"
<PListScheme>
<Key name = ""keyname"" type = ""Array"" arrayType = ""Number"" >
<Value name = ""1"" />
<Value name = ""2"" />
<Value name = ""3"" />
</Key>
</PListScheme>");
var array = new PArray();
var key = scheme.GetKey("keyname");
var root = new PDictionary();
root.Add(key.Identifier, array);
// The array cannot have a different value (it's a container!)
var available = PListScheme.AvailableValues(array, PListScheme.Match(root, scheme));
Assert.IsNull(available, "#1");
// The only element in the array can be of value '1', '2' or '3'
array.Add(new PNumber(1));
available = PListScheme.AvailableValues(array [0], PListScheme.Match(root, scheme));
Assert.AreEqual(3, available.Count, "#2");
// Now the first element can be either a '1' or a '3'
array.Add(new PNumber(2));
available = PListScheme.AvailableValues(array [0], PListScheme.Match(root, scheme));
Assert.AreEqual(2, available.Count, "#3");
Assert.IsTrue(available.Any(f => f.Identifier == "1"), "#4");
Assert.IsTrue(available.Any(f => f.Identifier == "3"), "#5");
// The second element can be a '2' or a '3'
available = PListScheme.AvailableValues(array [1], PListScheme.Match(root, scheme));
Assert.AreEqual(2, available.Count, "#6");
Assert.IsTrue(available.Any(f => f.Identifier == "2"), "#7");
Assert.IsTrue(available.Any(f => f.Identifier == "3"), "#8");
// Now it can only be '1'
array.Add(new PNumber(3));
available = PListScheme.AvailableValues(array [0], PListScheme.Match(root, scheme));
Assert.AreEqual(1, available.Count, "#9");
Assert.IsTrue(available.Any(f => f.Identifier == "1"), "#10");
}
public void AvailableKeys_Dictionary()
{
var scheme = Load(@"
<PListScheme>
<Key name = ""keyname"" type = ""Dictionary"" />
</PListScheme>");
var value = new PDictionary();
var root = new PDictionary();
root.Add("keyname", value);
var available = PListScheme.AvailableKeys(value, PListScheme.Match(root, scheme));
Assert.AreEqual(1, available.Count, "#1");
Assert.AreEqual(PString.Type, available [0].Type, "#2");
}
public void AvailableValues_Number_NoValues()
{
var scheme = Load(@"
<PListScheme>
<Key name = ""keyname"" type = ""Number"" />
</PListScheme>");
var root = new PDictionary();
var key = scheme.GetKey("keyname");
root.Add(key.Identifier, key.Create());
var tree = PListScheme.Match(root, scheme);
var available = PListScheme.AvailableValues(tree.First().Key, tree);
Assert.IsNull(available);
}
public void AvailableValues_Boolean_InDictionary()
{
var scheme = Load(@"
<PListScheme>
<Key name = ""keyname"" type = ""Dictionary"">
<Value name = ""key1"" type = ""Boolean"" required = ""True"" />
</Key>
</PListScheme>");
var root = new PDictionary();
var key = scheme.GetKey("keyname");
root.Add(key.Identifier, key.Create());
var tree = PListScheme.Match(root, scheme);
var key1 = ((PDictionary)root ["keyname"]) ["key1"];
var available = PListScheme.AvailableValues(key1, tree);
Assert.AreEqual(2, available.Count, "#1");
}
public void AvailableValues_Boolean()
{
var scheme = Load(@"
<PListScheme>
<Key name = ""keyname"" type = ""Boolean"" />
</PListScheme>");
var root = new PDictionary();
var key = scheme.GetKey("keyname");
root.Add(key.Identifier, key.Create());
var tree = PListScheme.Match(root, scheme);
var available = PListScheme.AvailableValues(tree.First().Key, tree);
Assert.AreEqual(2, available.Count, "#1");
Assert.AreEqual("Yes", available [0].Identifier, "#1");
Assert.AreEqual("Yes", available [0].Description, "#2");
Assert.AreEqual("No", available [1].Identifier, "#3");
Assert.AreEqual("No", available [1].Description, "#4");
}
public void WalkScheme_PNumberKey_WithValues()
{
var scheme = Load(@"
<PListScheme>
<Key name = ""key1"" type = ""Number"">
<Value name = ""0"" />
<Value name = ""1"" />
<Value name = ""2"" />
</Key>
</PListScheme>");
var key = scheme.Keys [0];
var root = new PDictionary();
var tree = key.Create();
root.Add("key1", tree);
var result = PListScheme.Match(root, scheme);
Assert.AreEqual(1, result.Count);
Assert.AreSame(result [tree], key, "#2");
}
public void AvailableKeys_NumberArray()
{
var scheme = Load(@"
<PListScheme>
<Key name = ""keyname"" type = ""Array"" arrayType = ""Number"" >
<Value name = ""1"" />
<Value name = ""2"" />
<Value name = ""3"" />
</Key>
</PListScheme>");
var key = scheme.GetKey("keyname");
var value = new PArray();
var root = new PDictionary();
root.Add(key.Identifier, value);
var available = PListScheme.AvailableKeys(value, PListScheme.Match(root, scheme));
Assert.AreEqual(3, available.Count, "#1");
// We can create '2' or '3', but not '1'
value.Add(new PNumber(1));
available = PListScheme.AvailableKeys(value, PListScheme.Match(root, scheme));
Assert.AreEqual(2, available.Count, "#2");
Assert.IsFalse(available.Any(v => v.Identifier == "1"), "#3");
// We can only create '3'
value.Add(new PNumber(2));
available = PListScheme.AvailableKeys(value, PListScheme.Match(root, scheme));
Assert.AreEqual(1, available.Count, "#4");
Assert.IsTrue(available.Any(v => v.Identifier == "3"), "#5");
value.Add(new PNumber(3));
available = PListScheme.AvailableKeys(value, PListScheme.Match(root, scheme));
Assert.AreEqual(0, available.Count, "#4");
}
public void WalkScheme_Array_NotPartOfScheme()
{
var scheme = Load(@"
<PListScheme>
<Key name = ""key1"" type = ""Array"" arrayType = ""Dictionary"" />
</PListScheme>");
var tree = new PArray();
tree.Add(new PNumber(0));
tree.Add(new PNumber(1));
var root = new PDictionary();
root.Add("foo", tree);
var result = PListScheme.Match(root, scheme);
Assert.AreEqual(3, result.Count, "#1");
Assert.IsNull(result [tree], "#2");
Assert.IsNull(result [tree [0]], "#3");
Assert.IsNull(result [tree [1]], "#4");
}
public void AvailableValues_Number_WithValues()
{
var scheme = Load(@"
<PListScheme>
<Key name = ""keyname"" type = ""Number"">
<Value name = ""1"" />
<Value name = ""2"" />
<Value name = ""3"" />
</Key>
</PListScheme>");
var key = scheme.GetKey("keyname");
var value = (PNumber)key.Create();
var root = new PDictionary();
root.Add(key.Identifier, value);
var tree = PListScheme.Match(root, scheme);
var available = PListScheme.AvailableValues(value, tree);
Assert.AreEqual(3, available.Count, "#1");
Assert.AreEqual(1, value.Value, "#2");
}
PListScheme Load(string value)
{
using (var reader = XmlReader.Create(new StringReader(value)))
return(PListScheme.Load(reader));
}
public static PListScheme Load (System.Xml.XmlReader reader)
{
/*c9b18785-1348-42e3-a479-9cac1e7c5360*/
var result = new PListScheme ();
var doc = new System.Xml.XmlDocument ();
doc.Load (reader);
return result;
}
