static void DefineVariableInput(UndefinedVariableTreeNode vDefinition, string expressionInput, CalculationContext context)
{
Token[] tokens = lexer.Tokenize(expressionInput);
TreeNode tree = parser.Construct(tokens);
FinishedFunction function = linker.BuildFunction(tree, context, new string[0]);
double value = treeCalculator.Calculate(function);
context.VariableTable.AssignItem(vDefinition.Name, value);
}
static void CalculateInput(string expressionInput, CalculationContext context)
{
Token[] tokens = lexer.Tokenize(expressionInput);
TreeNode tree = parser.Construct(tokens);
FinishedFunction function = linker.BuildFunction(tree, context, new string[0]);
double value = treeCalculator.Calculate(function);
Console.WriteLine(String.Format(" = {0}", value.ToString("G", System.Globalization.CultureInfo.InvariantCulture)));
}
public PostfixFunction Convert(FinishedFunction function)
{
MemoryStream stream = new MemoryStream();
ConvertRecursion(function.TopNode, function.FunctionTable, stream);
stream.WriteByte((byte)PostfixFunction.PostfixCommand.End);
return(new PostfixFunction(stream.GetBuffer(), function));
}
public FinishedFunction FindDifferential(FinishedFunction func, int index)
{
if (index < 0 || index >= func.ParameterCount)
{
throw new ArgumentException(String.Format("There is no parameter with index {0}", index));
}
TreeNode topNode = func.TopNode;
TreeNode differentialTopNode = MakeDifferential(topNode, index);
return(new FinishedFunction(differentialTopNode, func.VariableTable, func.FunctionTable, func.ParameterCount));
}
static void TestInput(string input, CalculationContext context)
{
string funcName = input.Substring(6).Trim(' ');
FinishedFunction function = context.FunctionTable[funcName];
PostfixFunction postfixFunction = translator.Convert(function);
Console.WriteLine("Testing functionality: ");
TestCalculator(postfixCalculator, postfixFunction, context.VariableTable, function.ParameterCount, 10, 1, true);
TestCalculator(treeCalculator, function, context.VariableTable, function.ParameterCount, 10, 1, true);
Console.WriteLine("Testing speed: ");
TestCalculator(postfixCalculator, postfixFunction, context.VariableTable, function.ParameterCount, 100000, 100, false);
TestCalculator(treeCalculator, function, context.VariableTable, function.ParameterCount, 100000, 100, false);
}
static void OptimizeInput(string input, CalculationContext context)
{
string funcName = input.Substring(10).Trim(' ');
FinishedFunction unoptimized = context.FunctionTable[funcName];
FinishedFunction optimized = optimizer.OptimizeWithTable(unoptimized);
Console.WriteLine("Unoptimized: ");
Console.WriteLine(unoptimized.TopNode);
visualizer.VisualizeAsTree(unoptimized.TopNode, context);
Console.WriteLine("Optimized: ");
Console.WriteLine(optimized.TopNode);
visualizer.VisualizeAsTree(optimized.TopNode, context);
}
static void FindDifferentialInput(string input, int parameterIndex, CalculationContext context)
{
string funcName = input.Substring(4).Trim(' ');
FinishedFunction function = context.FunctionTable[funcName];
DefaultDifferentiator differentiator = new DefaultDifferentiator();
FinishedFunction df = differentiator.FindDifferential(function, parameterIndex);
Console.WriteLine(df.TopNode);
visualizer.VisualizeAsTree(df.TopNode, context);
FinishedFunction odf = optimizer.OptimizeWithTable(df);
Console.WriteLine("Optimized: ");
Console.WriteLine(odf.TopNode);
visualizer.VisualizeAsTree(odf.TopNode, context);
}
// so, we "insert" copy of function tree in or original tree.
// Also, we replace all parameters with trees specified in original tree
TreeNode InsertFunction(UndefinedFunctionTreeNode fTree, FinishedFunction function)
{
if (fTree.Parameters.Length != function.ParameterCount)
{
throw new Exception(String.Format("Invalid parameter count in \"{0}\" call (expected {1}, actual {2})",
fTree.Name, function.ParameterCount, fTree.Parameters.Length));
}
TreeNode parent = fTree.Parent;
TreeNode[] parameters = fTree.Parameters;
TreeNode newTree = function.TopNode.Clone(parent);
newTree = ReplaceParametersWithTreeNodes(newTree, parameters);
return(newTree);
}
static void PrintLibrarySummary(CalculationContext context)
{
Console.WriteLine("Functions: ");
foreach (string name in context.FunctionTable.AllItemNames)
{
FinishedFunction function = context.FunctionTable[name];
Console.WriteLine(" {0}({1} argument{3}) = {2}", name, function.ParameterCount, function.TopNode,
(function.ParameterCount != 1) ? "s" : String.Empty);
}
Console.WriteLine("Variables: ");
foreach (string name in context.VariableTable.AllItemNames)
{
double variable = context.VariableTable[name];
Console.WriteLine(" {0} = #[{1}] = {2}", name, context.VariableTable.GetIndex(name),
variable.ToString("G", System.Globalization.CultureInfo.InvariantCulture));
}
}
static void DefineFunctionInput(UndefinedFunctionTreeNode fDefinition, string expressionInput, CalculationContext context)
{
string[] parameterNames = new string[fDefinition.Parameters.Length];
for (int i = 0; i < parameterNames.Length; ++i)
{
if (fDefinition.Parameters[i] is UndefinedVariableTreeNode vTreeNode)
{
parameterNames[i] = vTreeNode.Name;
}
else
{
throw new Exception("Invalid function definition");
}
}
Token[] tokens = lexer.Tokenize(expressionInput);
TreeNode tree = parser.Construct(tokens);
FinishedFunction function = linker.BuildFunction(tree, context, parameterNames);
context.FunctionTable.AssignItem(fDefinition.Name, function);
}
static void AssignFunction(CalculationContext context, Operation operation)
{
FinishedFunction funcToAssign;
switch (operation)
{
case UnaryOperation uOperation:
funcToAssign = new FinishedFunction(
new UnaryOperationTreeNode(uOperation, new FunctionParameterTreeNode(0)),
null, null, 1);
break;
case BinaryOperation bOperation:
funcToAssign = new FinishedFunction(
new BinaryOperationTreeNode(bOperation, new FunctionParameterTreeNode(0), new FunctionParameterTreeNode(1)),
null, null, 2);
break;
default: return;
}
context.FunctionTable.AssignNewItem(operation.FunctionName, funcToAssign);
}
public void SetFinishedEvent(FinishedFunction fe)
{
this.FinishedEvent += fe;
}
private static void ProccessCompleteCallback(object a_sender, RunWorkerCompletedEventArgs a_e)
{
FinishedFunction?.Invoke();
}
