public GrammarElementR(GrammarRule rule)
{
Rule = rule;
}
public void PushRule(GrammarRule rule)
{
rules.Add(rule);
}
public void PopRule(GrammarRule rule)
{
Debug.Assert(rules.Last() == rule,
"Rule is not at the end!");
rules.RemoveAt(rules.Count - 1);
}
static ParserSetup()
{
// Create our language grammar
TokenType emptyToken = new TokenType("~", (str, b) => 0);
TokenType ifToken = new TokenType("if", "^(if)");
TokenType elseToken = new TokenType("else", "^(else)");
TokenType forToken = new TokenType("for", "^(for)");
TokenType flowControlToken = new TokenType("break", "^(break|continue|return)");
TokenType paramStartToken = new TokenType("(", "^[(]");
TokenType paramEndToken = new TokenType(")", "^[)]");
TokenType blockStartToken = new TokenType("{", "^[{]");
TokenType blockEndToken = new TokenType("}", "^[}]");
TokenType typeToken = new TokenType("type", "^(int|float|double|bool|string|void|class|fn|var)");
TokenType nameToken = new TokenType("name", "^[a-zA-Z_][a-zA-Z0-9_]*");
TokenType numberToken = new TokenType("const", "^[0-9]+(\\.[0-9]*)?[f]?");
TokenType stringToken = new TokenType("const", "^\"(\\.|[^\"])*\"");
TokenType boolToken = new TokenType("const", "^(true|false)");
TokenType charToken = new TokenType("const", "^['][\\\\]?.[']");
TokenType commaToken = new TokenType(",", "^[,]");
TokenType endStatementToken = new TokenType(";", "^[;]");
TokenType assignToken = new TokenType("=", "^[=]");
TokenType andOrToken = new TokenType("oper", "^(&&|\\|\\|)");
TokenType mulDivToken = new TokenType("MulDiv", "^[*/]");
TokenType addSubToken = new TokenType("AddSub", "^[+\\-]");
TokenType operatorToken = new TokenType("oper", "^[*+\\-/^]");
TokenType comparitorToken = new TokenType("compar", "^[<>=][=]?");
TokenType unaryToken = new TokenType("unary", "^[+-]");
TokenType increment = new TokenType("incr", "^(\\+\\+|\\-\\-)");
GrammarRule emptyRule = new GrammarRule("Empty", emptyToken);
//GrammarRule semicolonRule = new GrammarRule("Semicolon", endStatementToken);
GrammarRule variableRule = new GrammarRule("Variable");
GrammarRule constantRule = new GrammarRule("Constant");
GrammarRule ifRule = new GrammarRule("If");
GrammarRule forRule = new GrammarRule("For");
GrammarRule flowControlRule = new GrammarRule("Flow", flowControlToken);
GrammarRule blockOrStatementRule = new GrammarRule("BOS");
GrammarRule statementRule = new GrammarRule("Statement");
GrammarRule assignmentRule = new GrammarRule("Assignment");
GrammarRule vAssignmentRule = new GrammarRule("VAssignment");
GrammarRule callRule = new GrammarRule("Call");
GrammarRule termRule = new GrammarRule("Term");
GrammarRule equationRule = new GrammarRule("Equation");
GrammarRule andOrRule = new GrammarRule("AndOr");
GrammarRule mulDivRule = new GrammarRule("MulDiv");
GrammarRule addSubRule = new GrammarRule("AddSub");
GrammarRule compareRule = new GrammarRule("Compare");
GrammarRule paramRule = new GrammarRule("Parameter");
GrammarRule parmsRule = new GrammarRule("Parameters");
GrammarRule vDeclrRule = new GrammarRule("VDeclr");
GrammarRule fDeclrRule = new GrammarRule("FDeclr");
blockRule = new GrammarRule("Block");
GrammarRule rValueRule = new GrammarRule("RValue", equationRule);
GrammarRule conditionRule = new GrammarRule("Condition", equationRule);
constantRule.SetElements(numberToken | stringToken | charToken | boolToken);
variableRule.SetElements(nameToken); // TODO: ++ operator should be here
blockOrStatementRule.SetElements((blockStartToken & blockRule & blockEndToken) | (statementRule));
GrammarRule elseRule = null;
ifRule.SetElements(ifToken & paramStartToken & conditionRule & paramEndToken &
blockOrStatementRule &
((elseRule = (
elseToken & (
blockOrStatementRule |
ifRule
)
)) | emptyRule)
);
GrammarRule forConditionRule = null;
forRule.SetElements(forToken & paramStartToken &
(statementRule | emptyRule) &
(forConditionRule = ((comparitorToken & equationRule) | emptyRule)) &
paramEndToken &
blockOrStatementRule
);
assignmentRule.SetElements(assignToken & rValueRule);
vAssignmentRule.SetElements(nameToken & assignmentRule);
callRule.SetElements(nameToken & paramStartToken & parmsRule & paramEndToken);
GrammarRule unaryRule = null;
termRule.SetElements(
unaryRule = ((unaryToken | emptyRule) & (
(increment & variableRule) | (variableRule & increment) |
callRule | constantRule | variableRule | (paramStartToken & equationRule & paramEndToken)
))
);
GrammarRule andOrOperRule = null;
GrammarRule mulDivOperRule = null;
GrammarRule addSubOperRule = null;
GrammarRule compOperRule = null;
andOrRule.SetElements(compareRule & ((andOrOperRule = andOrToken & andOrRule) | emptyRule));
mulDivRule.SetElements(termRule & ((mulDivOperRule = mulDivToken & mulDivRule) | emptyRule));
addSubRule.SetElements(mulDivRule & ((addSubOperRule = addSubToken & addSubRule) | emptyRule));
compareRule.SetElements(addSubRule & ((compOperRule = comparitorToken & compareRule) | emptyRule));
equationRule.SetElements(andOrRule);
paramRule.SetElements(rValueRule);
parmsRule.SetElements(
(paramRule & (commaToken & paramRule)[0, 1000]) |
emptyRule
);
vDeclrRule.SetElements(typeToken & nameToken & (assignmentRule | emptyToken));
GrammarRule pDeclrRule = new GrammarRule("PDeclr");
GrammarRule pArrRule = new GrammarRule("PArr");
pDeclrRule.SetElements(typeToken & nameToken & (assignmentRule | emptyToken));
pArrRule.SetElements(pDeclrRule & ((commaToken & pArrRule) | emptyToken));
fDeclrRule.SetElements(typeToken & nameToken & paramStartToken &
(pArrRule | typeToken | emptyRule) &
paramEndToken & blockStartToken & blockRule & blockEndToken
);
GrammarRule nerfReturnRules = (
(fDeclrRule) |
(vDeclrRule & endStatementToken) |
(vAssignmentRule & endStatementToken) |
(callRule & endStatementToken) |
(termRule & endStatementToken)
);
statementRule.SetElements(
ifRule |
forRule |
(flowControlRule & endStatementToken) |
nerfReturnRules
);
blockRule.SetElements(new GrammarRule(statementRule)[0, 1000]);
int uid = 0;
// Setup how these grammars are built into instructions
unaryRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
string unary = source.TryMatch(unaryToken);
context.PassThrough();
if (unary == "-")
{
context.Store.Add(new InstructionItem("Constant", "int", -1, source.From));
context.Store.Add(new InstructionItem("Mul", "auto", "unary", source.From));
}
};
constantRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
string data = source.SourceCode;
if (numberToken.Match(data, 0) >= 0)
{
if (data.Contains('.'))
{
context.Store.Add(new InstructionItem("Constant", "real", XReal.Parse(data), source.From));
}
else
{
context.Store.Add(new InstructionItem("Constant", "int", int.Parse(data), source.From));
}
}
else if (stringToken.Match(data, 0) >= 0)
{
context.Store.Add(new InstructionItem("Constant", "string", ParserUtil.UnescapeString(data), source.From));
}
else if (boolToken.Match(data, 0) >= 0)
{
context.Store.Add(new InstructionItem("Constant", "bool", data == "true", source.From));
}
else if (charToken.Match(data, 0) >= 0)
{
context.Store.Add(new InstructionItem("Constant", "char", data[1], source.From));
}
};
variableRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
context.Store.Add(new InstructionItem("Variable", "auto", source.Match(nameToken), source.From));
};
vDeclrRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
string type = ParserUtil.GetCleanTypeName(source.Match(typeToken));
string name = source.Match(nameToken);
context.Store.Add(new InstructionItem("+Allocate", type, name, source.From));
context.Store.Add(new InstructionItem("Reference", type + "*", name, source.From)); // Needs to be here because it gets popped if not used
if (context.Children.Count > 0)
{
context.PassThrough();
//context.Store.Add(new InstructionItem("Conform", type, type));
context.Store.Add(new InstructionItem("Assign", type, "~" + name, source.From));
}
};
nerfReturnRules.Build += delegate(ParseContext.Level context, SourceIterator source) {
context.PassThrough();
context.Store.Add(new InstructionItem("Pop", "void", null, source.From));
};
vAssignmentRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
string name = source.Match(nameToken);
context.Store.Add(new InstructionItem("Reference", "auto*", name, source.From));
context.PassThrough();
//context.Store.Add(new InstructionItem("Conform", "auto", "auto", source.From));
context.Store.Add(new InstructionItem("Assign", "auto", "~" + name, source.From));
};
Func <string, int, InstructionItem> GetInstructionFromString = (oper, loc) => {
switch (oper)
{
case "&&": return(new InstructionItem("And", "bool", oper, loc));
case "||": return(new InstructionItem("Or", "bool", oper, loc));
case "<=": return(new InstructionItem("LEqual", "bool", oper, loc));
case ">=": return(new InstructionItem("GEqual", "bool", oper, loc));
case "<": return(new InstructionItem("Less", "bool", oper, loc));
case ">": return(new InstructionItem("Greater", "bool", oper, loc));
case "==": return(new InstructionItem("IsEqual", "bool", oper, loc));
case "!=": return(new InstructionItem("IsNEqual", "bool", oper, loc));
case "+": return(new InstructionItem("Add", "auto", oper, loc));
case "-": return(new InstructionItem("Sub", "auto", oper, loc));
case "*": return(new InstructionItem("Mul", "auto", oper, loc));
case "/": return(new InstructionItem("Div", "auto", oper, loc));
}
return(new InstructionItem("+Error", "auto", "Unable to find operator for '" + oper + "'", loc));
};
andOrOperRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
string oper = source.TryMatch(andOrToken);
context.PassThrough();
context.Store.Add(GetInstructionFromString(oper, source.From));
};
mulDivOperRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
string oper = source.TryMatch(operatorToken);
context.PassThrough();
context.Store.Add(GetInstructionFromString(oper, source.From));
};
addSubOperRule.Build += mulDivOperRule.Build;
compOperRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
string oper = source.TryMatch(comparitorToken);
context.PassThrough();
context.Store.Add(GetInstructionFromString(oper, source.From));
};
paramRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
context.Store.Add(new InstructionItem("+Param", null, null, source.From));
context.PassThrough();
};
callRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
string name = source.Match(nameToken);
int paramC = 0;
for (int c = 0; c < context.Children.Count; ++c)
{
var child = context.Children[c];
if (child.Command == "+Param")
{
paramC++;
}
else
{
context.Store.Add(child);
}
}
//context.PassThrough();
context.Store.Add(new InstructionItem("Call" + paramC, "auto", name, source.From));
};
statementRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
/*for (int c = 0; c < context.Children.Count; ++c) {
* Debug.Assert(context.Children[c].Value != null,
* "All statements should be converted to instructions!");
* }*/
context.PassThrough();
//context.Store.Add(new InstructionItem("RemoveItemIfNotVoid", "void", null, source.From));
};
conditionRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
context.PassThrough();
context.Store.Add(new InstructionItem("+CondEnd", source.From));
};
pDeclrRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
string type = ParserUtil.GetCleanTypeName(source.Match(typeToken));
string name = source.Match(nameToken);
FInternal.Parameter param = new FInternal.Parameter();
if (context.Children.Count > 0)
{
Debug.Assert(context.Children.Count == 1 && context.Children[0].Command == "Constant",
"Parameter types must be constant");
param.Default = context.Children[0].Value;
}
param.Name = name;
context.Store.Add(new InstructionItem("+Parameter", type, param, source.From));
// Do nothing
};
fDeclrRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
string type = ParserUtil.GetCleanTypeName(source.Match(typeToken));
string name = source.Match(nameToken);
int id = (++uid);
context.Store.Add(new InstructionItem("+Allocate", "fn", name, source.From));
context.Store.Add(new InstructionItem("Reference", "fn*", name, source.From));
var fn = new FInternal()
{
Name = name + id
};
List <FInternal.Parameter> parms = new List <FInternal.Parameter>();
context.Store.Add(new InstructionItem("Function", "fn", fn, source.From));
context.Store.Add(new InstructionItem("Marker", "void", name + id + "_start", source.From));
for (int c = 0; c < context.Children.Count; ++c)
{
var child = context.Children[c];
if (child.Command == "+Parameter")
{
parms.Add((FInternal.Parameter)child.Value);
}
else if (child.Command == "+Return")
{
context.Store.Add(new InstructionItem("Constant", "int", 0, source.From));
context.Store.Add(new InstructionItem("Return", "fn", name + id, source.From));
}
else
{
context.Store.Add(child);
}
}
fn.Parameters = parms.ToArray();
//context.PassThrough();
context.Store.Add(new InstructionItem("Constant", "int", 0, source.From));
context.Store.Add(new InstructionItem("Return", "fn", name + id, source.From));
context.Store.Add(new InstructionItem("Marker", "void", name + id + "_end", source.From));
context.Store.Add(new InstructionItem("Assign", "fn", "~" + name, source.From));
};
forConditionRule.Build += (level, source) => {
level.Store.Add(new InstructionItem("+ContBeg", source.From));
string comparison = source.TryMatch(comparitorToken);
level.PassThrough();
if (comparison != null)
{
level.Store.Add(GetInstructionFromString(comparison, source.From));
}
level.Store.Add(new InstructionItem("+ContEnd", source.From));
};
forRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
int id = (++uid);
int contBeg = context.FindIndexInChildrenOnce("+ContBeg");
int contEnd = context.FindIndexInChildrenOnce("+ContEnd");
int varRef = context.FindIndexInChildrenOnce("Reference", contBeg);
Debug.Assert(varRef >= 0,
"A single assignment should exist before the condition");
var varRefI = context.Children[varRef];
string varName = (string)varRefI.Value;
string varType = ParserUtil.StripStars(varRefI.Type);
int arAloc = context.FindIndexInChildrenOnce("Allocate", varRef);
if (arAloc >= 0)
{
Debug.Assert(context.Children[arAloc].Value.Equals(varRefI.Value),
"Assumption that the allocation and reference will always be the same value");
}
else
{
if (varType == "auto")
{
varType = "int";
}
context.Store.Add(new InstructionItem("+AllocateIfRequired", varType, varName, source.From));
}
context.PassRange(0, contBeg);
context.Store.Add(new InstructionItem("Marker", "void", "for" + id + "_beg", source.From));
context.Store.Add(new InstructionItem("Variable", varType, varName, source.From));
context.PassRange(contBeg + 1, contEnd);
context.Store.Add(new InstructionItem("JumpIfFalse", "void", "for" + id + "_end", source.From));
for (int c = contEnd + 1; c < context.Children.Count; ++c)
{
var child = context.Children[c];
if (child.Command == "+Break")
{
child = new InstructionItem("JumpTo", "void", "for" + id + "_end", child.Location);
}
else if (child.Command == "+Continue")
{
child = new InstructionItem("JumpTo", "void", "for" + id + "_inc", child.Location);
}
context.Store.Add(child);
}
//context.PassRange(contEnd + 1, context.Children.Count);
context.Store.Add(new InstructionItem("Marker", "void", "for" + id + "_inc", source.From));
context.Store.Add(new InstructionItem("Reference", "int*", varRefI.Value, source.From));
context.Store.Add(new InstructionItem("Variable", "int", varRefI.Value, source.From));
context.Store.Add(new InstructionItem("Constant", "int", 1, source.From));
context.Store.Add(new InstructionItem("Add", "int", "", source.From));
context.Store.Add(new InstructionItem("Assign", "int", "~" + (string)varRefI.Value, source.From));
context.Store.Add(new InstructionItem("Pop", "void", "", source.From));
context.Store.Add(new InstructionItem("JumpTo", "void", "for" + id + "_beg", source.From));
context.Store.Add(new InstructionItem("Marker", "void", "for" + id + "_end", source.From));
};
flowControlRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
Debug.Assert(context.Children.Count == 0,
"For control statements dont support child elements, yet.");
context.PassThrough();
string flow = source.Match(flowControlToken);
switch (flow)
{
case "break": context.Store.Add(new InstructionItem("+Break", source.From)); break;
case "continue": context.Store.Add(new InstructionItem("+Continue", source.From)); break;
case "return": context.Store.Add(new InstructionItem("+Return", source.From)); break;
}
};
ifRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
int id = (++uid);
int condEnd = context.FindIndexInChildrenOnce("+CondEnd");
int elseStart = context.FindIndexInChildrenOnce("+Else");
int elseEnd = context.FindIndexInChildrenOnce("+EndElse");
context.PassRange(0, condEnd);
context.Store.Add(new InstructionItem("JumpIfFalse", "void", "if" + id, source.From));
if (elseStart >= 0)
{
Debug.Assert(elseEnd >= 0,
"Else needs to have a start and end!");
context.PassRange(condEnd + 1, elseStart);
context.Store.Add(new InstructionItem("JumpTo", "void", "if_else" + id, source.From));
context.Store.Add(new InstructionItem("Marker", "void", "if" + id, source.From));
context.PassRange(elseStart + 1, elseEnd);
context.Store.Add(new InstructionItem("Marker", "void", "if_else" + id, source.From));
}
else
{
context.PassRange(condEnd + 1, context.Children.Count);
context.Store.Add(new InstructionItem("Marker", "void", "if" + id, source.From));
}
Debug.Assert(condEnd >= 0,
"Unable to determine where condition ends!");
};
elseRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
int id = (++uid);
context.Store.Add(new InstructionItem("+Else", "void", id, source.From));
context.PassThrough();
context.Store.Add(new InstructionItem("+EndElse", "void", id, source.From));
};
blockRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
var instructions = context.Children;
var destination = context.Store;
Dictionary <string, string> name2Type = new Dictionary <string, string>();
destination.Add(new InstructionItem("BlockStart", "void", null, source.From));
int destStart = destination.Count;
for (int i = 0; i < instructions.Count; ++i)
{
var instr = instructions[i];
if (instr.Command == "+AllocateIfRequired")
{
Debug.Assert(instr.Type != "auto",
"Cant allocate a variable of unknown type!");
Debug.Assert(instr.Value is String,
"Variable names should be strings!");
string name = (String)instr.Value;
if (!name2Type.ContainsKey(name))
{
name2Type.Add(name, instr.Type);
}
}
else if (instr.Command == "+Allocate")
{
Debug.Assert(instr.Type != "auto",
"Cant allocate a variable of unknown type!");
Debug.Assert(instr.Value is String,
"Variable names should be strings!");
string name = (String)instr.Value;
if (!name2Type.ContainsKey(name))
{
name2Type.Add(name, instr.Type);
}
}
else if (instr.Command == "Assign")
{
string name = ((String)instr.Value).Substring(1);
if (name2Type.ContainsKey(name))
{
instr.Type = name2Type[name];
}
//else instr.Type = "var";
destination.Add(instr);
}
else if (instr.Command == "Reference" || instr.Command == "Variable")
{
Debug.Assert(instr.Value is String,
"Variable names should be strings!");
string name = (String)instr.Value;
string stars = (instr.Command == "Variable" ? "" : "*");
if (instr.Type == "auto" + stars && name2Type.ContainsKey(name))
{
instr.Type = name2Type[(String)instr.Value] + stars;
}
destination.Add(instr);
}
else if (instr.Command.StartsWith("Call") && instr.Type == "auto")
{
instr.Type = "var";
destination.Add(instr);
}
else
{
destination.Add(instr);
}
}
foreach (var n2t in name2Type)
{
destination.Insert(destStart, new InstructionItem("Allocate", n2t.Value, n2t.Key, source.From));
}
destination.Add(new InstructionItem("BlockEnd", "void", null, source.From));
};
}
public GrammarElementR(GrammarRule rule) { Rule = rule; }
public void PopRule(GrammarRule rule) {
Debug.Assert(rules.Last() == rule,
"Rule is not at the end!");
rules.RemoveAt(rules.Count - 1);
}
public void PushRule(GrammarRule rule) {
rules.Add(rule);
}
static ParserSetup()
{
// Create our language grammar
TokenType emptyToken = new TokenType("~", (str, b) => 0);
TokenType ifToken = new TokenType("if", "^(if)");
TokenType elseToken = new TokenType("else", "^(else)");
TokenType forToken = new TokenType("for", "^(for)");
TokenType flowControlToken = new TokenType("break", "^(break|continue|return)");
TokenType paramStartToken = new TokenType("(", "^[(]");
TokenType paramEndToken = new TokenType(")", "^[)]");
TokenType blockStartToken = new TokenType("{", "^[{]");
TokenType blockEndToken = new TokenType("}", "^[}]");
TokenType typeToken = new TokenType("type", "^(int|float|double|bool|string|void|class|fn|var)");
TokenType nameToken = new TokenType("name", "^[a-zA-Z_][a-zA-Z0-9_]*");
TokenType numberToken = new TokenType("const", "^[0-9]+(\\.[0-9]*)?[f]?");
TokenType stringToken = new TokenType("const", "^\"(\\.|[^\"])*\"");
TokenType boolToken = new TokenType("const", "^(true|false)");
TokenType charToken = new TokenType("const", "^['][\\\\]?.[']");
TokenType commaToken = new TokenType(",", "^[,]");
TokenType endStatementToken = new TokenType(";", "^[;]");
TokenType assignToken = new TokenType("=", "^[=]");
TokenType andOrToken = new TokenType("oper", "^(&&|\\|\\|)");
TokenType mulDivToken = new TokenType("MulDiv", "^[*/]");
TokenType addSubToken = new TokenType("AddSub", "^[+\\-]");
TokenType operatorToken = new TokenType("oper", "^[*+\\-/^]");
TokenType comparitorToken = new TokenType("compar", "^[<>=][=]?");
TokenType unaryToken = new TokenType("unary", "^[+-]");
TokenType increment = new TokenType("incr", "^(\\+\\+|\\-\\-)");
GrammarRule emptyRule = new GrammarRule("Empty", emptyToken);
//GrammarRule semicolonRule = new GrammarRule("Semicolon", endStatementToken);
GrammarRule variableRule = new GrammarRule("Variable");
GrammarRule constantRule = new GrammarRule("Constant");
GrammarRule ifRule = new GrammarRule("If");
GrammarRule forRule = new GrammarRule("For");
GrammarRule flowControlRule = new GrammarRule("Flow", flowControlToken);
GrammarRule blockOrStatementRule = new GrammarRule("BOS");
GrammarRule statementRule = new GrammarRule("Statement");
GrammarRule assignmentRule = new GrammarRule("Assignment");
GrammarRule vAssignmentRule = new GrammarRule("VAssignment");
GrammarRule callRule = new GrammarRule("Call");
GrammarRule termRule = new GrammarRule("Term");
GrammarRule equationRule = new GrammarRule("Equation");
GrammarRule andOrRule = new GrammarRule("AndOr");
GrammarRule mulDivRule = new GrammarRule("MulDiv");
GrammarRule addSubRule = new GrammarRule("AddSub");
GrammarRule compareRule = new GrammarRule("Compare");
GrammarRule paramRule = new GrammarRule("Parameter");
GrammarRule parmsRule = new GrammarRule("Parameters");
GrammarRule vDeclrRule = new GrammarRule("VDeclr");
GrammarRule fDeclrRule = new GrammarRule("FDeclr");
blockRule = new GrammarRule("Block");
GrammarRule rValueRule = new GrammarRule("RValue", equationRule);
GrammarRule conditionRule = new GrammarRule("Condition", equationRule);
constantRule.SetElements(numberToken | stringToken | charToken | boolToken);
variableRule.SetElements(nameToken); // TODO: ++ operator should be here
blockOrStatementRule.SetElements((blockStartToken & blockRule & blockEndToken) | (statementRule));
GrammarRule elseRule = null;
ifRule.SetElements(ifToken & paramStartToken & conditionRule & paramEndToken &
blockOrStatementRule &
((elseRule = (
elseToken & (
blockOrStatementRule |
ifRule
)
)) | emptyRule)
);
GrammarRule forConditionRule = null;
forRule.SetElements(forToken & paramStartToken &
(statementRule | emptyRule) &
(forConditionRule = ((comparitorToken & equationRule) | emptyRule)) &
paramEndToken &
blockOrStatementRule
);
assignmentRule.SetElements(assignToken & rValueRule);
vAssignmentRule.SetElements(nameToken & assignmentRule);
callRule.SetElements(nameToken & paramStartToken & parmsRule & paramEndToken);
GrammarRule unaryRule = null;
termRule.SetElements(
unaryRule = ((unaryToken | emptyRule) & (
(increment & variableRule) | (variableRule & increment) |
callRule | constantRule | variableRule | (paramStartToken & equationRule & paramEndToken)
))
);
GrammarRule andOrOperRule = null;
GrammarRule mulDivOperRule = null;
GrammarRule addSubOperRule = null;
GrammarRule compOperRule = null;
andOrRule.SetElements(compareRule & ((andOrOperRule = andOrToken & andOrRule) | emptyRule));
mulDivRule.SetElements(termRule & ((mulDivOperRule = mulDivToken & mulDivRule) | emptyRule));
addSubRule.SetElements(mulDivRule & ((addSubOperRule = addSubToken & addSubRule) | emptyRule));
compareRule.SetElements(addSubRule & ((compOperRule = comparitorToken & compareRule) | emptyRule));
equationRule.SetElements(andOrRule);
paramRule.SetElements(rValueRule);
parmsRule.SetElements(
(paramRule & (commaToken & paramRule)[0, 1000]) |
emptyRule
);
vDeclrRule.SetElements(typeToken & nameToken & (assignmentRule | emptyToken));
GrammarRule pDeclrRule = new GrammarRule("PDeclr");
GrammarRule pArrRule = new GrammarRule("PArr");
pDeclrRule.SetElements(typeToken & nameToken & (assignmentRule | emptyToken));
pArrRule.SetElements(pDeclrRule & ((commaToken & pArrRule) | emptyToken));
fDeclrRule.SetElements(typeToken & nameToken & paramStartToken &
(pArrRule | typeToken | emptyRule) &
paramEndToken & blockStartToken & blockRule & blockEndToken
);
GrammarRule nerfReturnRules = (
(fDeclrRule) |
(vDeclrRule & endStatementToken) |
(vAssignmentRule & endStatementToken) |
(callRule & endStatementToken) |
(termRule & endStatementToken)
);
statementRule.SetElements(
ifRule |
forRule |
(flowControlRule & endStatementToken) |
nerfReturnRules
);
blockRule.SetElements(new GrammarRule(statementRule)[0, 1000]);
int uid = 0;
// Setup how these grammars are built into instructions
unaryRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
string unary = source.TryMatch(unaryToken);
context.PassThrough();
if (unary == "-") {
context.Store.Add(new InstructionItem("Constant", "int", -1, source.From));
context.Store.Add(new InstructionItem("Mul", "auto", "unary", source.From));
}
};
constantRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
string data = source.SourceCode;
if (numberToken.Match(data, 0) >= 0) {
if (data.Contains('.'))
context.Store.Add(new InstructionItem("Constant", "real", XReal.Parse(data), source.From));
else
context.Store.Add(new InstructionItem("Constant", "int", int.Parse(data), source.From));
} else if (stringToken.Match(data, 0) >= 0) {
context.Store.Add(new InstructionItem("Constant", "string", ParserUtil.UnescapeString(data), source.From));
} else if (boolToken.Match(data, 0) >= 0) {
context.Store.Add(new InstructionItem("Constant", "bool", data == "true", source.From));
} else if (charToken.Match(data, 0) >= 0) {
context.Store.Add(new InstructionItem("Constant", "char", data[1], source.From));
}
};
variableRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
context.Store.Add(new InstructionItem("Variable", "auto", source.Match(nameToken), source.From));
};
vDeclrRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
string type = ParserUtil.GetCleanTypeName(source.Match(typeToken));
string name = source.Match(nameToken);
context.Store.Add(new InstructionItem("+Allocate", type, name, source.From));
context.Store.Add(new InstructionItem("Reference", type + "*", name, source.From)); // Needs to be here because it gets popped if not used
if (context.Children.Count > 0) {
context.PassThrough();
//context.Store.Add(new InstructionItem("Conform", type, type));
context.Store.Add(new InstructionItem("Assign", type, "~" + name, source.From));
}
};
nerfReturnRules.Build += delegate(ParseContext.Level context, SourceIterator source) {
context.PassThrough();
context.Store.Add(new InstructionItem("Pop", "void", null, source.From));
};
vAssignmentRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
string name = source.Match(nameToken);
context.Store.Add(new InstructionItem("Reference", "auto*", name, source.From));
context.PassThrough();
//context.Store.Add(new InstructionItem("Conform", "auto", "auto", source.From));
context.Store.Add(new InstructionItem("Assign", "auto", "~" + name, source.From));
};
Func<string, int, InstructionItem> GetInstructionFromString = (oper, loc) => {
switch (oper) {
case "&&": return (new InstructionItem("And", "bool", oper, loc));
case "||": return (new InstructionItem("Or", "bool", oper, loc));
case "<=": return (new InstructionItem("LEqual", "bool", oper, loc));
case ">=": return (new InstructionItem("GEqual", "bool", oper, loc));
case "<": return (new InstructionItem("Less", "bool", oper, loc));
case ">": return (new InstructionItem("Greater", "bool", oper, loc));
case "==": return (new InstructionItem("IsEqual", "bool", oper, loc));
case "!=": return (new InstructionItem("IsNEqual", "bool", oper, loc));
case "+": return (new InstructionItem("Add", "auto", oper, loc));
case "-": return (new InstructionItem("Sub", "auto", oper, loc));
case "*": return (new InstructionItem("Mul", "auto", oper, loc));
case "/": return (new InstructionItem("Div", "auto", oper, loc));
}
return new InstructionItem("+Error", "auto", "Unable to find operator for '" + oper + "'", loc);
};
andOrOperRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
string oper = source.TryMatch(andOrToken);
context.PassThrough();
context.Store.Add(GetInstructionFromString(oper, source.From));
};
mulDivOperRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
string oper = source.TryMatch(operatorToken);
context.PassThrough();
context.Store.Add(GetInstructionFromString(oper, source.From));
};
addSubOperRule.Build += mulDivOperRule.Build;
compOperRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
string oper = source.TryMatch(comparitorToken);
context.PassThrough();
context.Store.Add(GetInstructionFromString(oper, source.From));
};
paramRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
context.Store.Add(new InstructionItem("+Param", null, null, source.From));
context.PassThrough();
};
callRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
string name = source.Match(nameToken);
int paramC = 0;
for (int c = 0; c < context.Children.Count; ++c) {
var child = context.Children[c];
if (child.Command == "+Param") paramC++;
else context.Store.Add(child);
}
//context.PassThrough();
context.Store.Add(new InstructionItem("Call" + paramC, "auto", name, source.From));
};
statementRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
/*for (int c = 0; c < context.Children.Count; ++c) {
Debug.Assert(context.Children[c].Value != null,
"All statements should be converted to instructions!");
}*/
context.PassThrough();
//context.Store.Add(new InstructionItem("RemoveItemIfNotVoid", "void", null, source.From));
};
conditionRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
context.PassThrough();
context.Store.Add(new InstructionItem("+CondEnd", source.From));
};
pDeclrRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
string type = ParserUtil.GetCleanTypeName(source.Match(typeToken));
string name = source.Match(nameToken);
FInternal.Parameter param = new FInternal.Parameter();
if (context.Children.Count > 0) {
Debug.Assert(context.Children.Count == 1 && context.Children[0].Command == "Constant",
"Parameter types must be constant");
param.Default = context.Children[0].Value;
}
param.Name = name;
context.Store.Add(new InstructionItem("+Parameter", type, param, source.From));
// Do nothing
};
fDeclrRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
string type = ParserUtil.GetCleanTypeName(source.Match(typeToken));
string name = source.Match(nameToken);
int id = (++uid);
context.Store.Add(new InstructionItem("+Allocate", "fn", name, source.From));
context.Store.Add(new InstructionItem("Reference", "fn*", name, source.From));
var fn = new FInternal() { Name = name + id };
List<FInternal.Parameter> parms = new List<FInternal.Parameter>();
context.Store.Add(new InstructionItem("Function", "fn", fn, source.From));
context.Store.Add(new InstructionItem("Marker", "void", name + id + "_start", source.From));
for (int c = 0; c < context.Children.Count; ++c) {
var child = context.Children[c];
if (child.Command == "+Parameter") {
parms.Add((FInternal.Parameter)child.Value);
} else if (child.Command == "+Return") {
context.Store.Add(new InstructionItem("Constant", "int", 0, source.From));
context.Store.Add(new InstructionItem("Return", "fn", name + id, source.From));
} else context.Store.Add(child);
}
fn.Parameters = parms.ToArray();
//context.PassThrough();
context.Store.Add(new InstructionItem("Constant", "int", 0, source.From));
context.Store.Add(new InstructionItem("Return", "fn", name + id, source.From));
context.Store.Add(new InstructionItem("Marker", "void", name + id + "_end", source.From));
context.Store.Add(new InstructionItem("Assign", "fn", "~" + name, source.From));
};
forConditionRule.Build += (level, source) => {
level.Store.Add(new InstructionItem("+ContBeg", source.From));
string comparison = source.TryMatch(comparitorToken);
level.PassThrough();
if (comparison != null) {
level.Store.Add(GetInstructionFromString(comparison, source.From));
}
level.Store.Add(new InstructionItem("+ContEnd", source.From));
};
forRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
int id = (++uid);
int contBeg = context.FindIndexInChildrenOnce("+ContBeg");
int contEnd = context.FindIndexInChildrenOnce("+ContEnd");
int varRef = context.FindIndexInChildrenOnce("Reference", contBeg);
Debug.Assert(varRef >= 0,
"A single assignment should exist before the condition");
var varRefI = context.Children[varRef];
string varName = (string)varRefI.Value;
string varType = ParserUtil.StripStars(varRefI.Type);
int arAloc = context.FindIndexInChildrenOnce("Allocate", varRef);
if (arAloc >= 0) {
Debug.Assert(context.Children[arAloc].Value.Equals(varRefI.Value),
"Assumption that the allocation and reference will always be the same value");
} else {
if (varType == "auto") varType = "int";
context.Store.Add(new InstructionItem("+AllocateIfRequired", varType, varName, source.From));
}
context.PassRange(0, contBeg);
context.Store.Add(new InstructionItem("Marker", "void", "for" + id + "_beg", source.From));
context.Store.Add(new InstructionItem("Variable", varType, varName, source.From));
context.PassRange(contBeg + 1, contEnd);
context.Store.Add(new InstructionItem("JumpIfFalse", "void", "for" + id + "_end", source.From));
for (int c = contEnd + 1; c < context.Children.Count; ++c) {
var child = context.Children[c];
if (child.Command == "+Break") child = new InstructionItem("JumpTo", "void", "for" + id + "_end", child.Location);
else if (child.Command == "+Continue") child = new InstructionItem("JumpTo", "void", "for" + id + "_inc", child.Location);
context.Store.Add(child);
}
//context.PassRange(contEnd + 1, context.Children.Count);
context.Store.Add(new InstructionItem("Marker", "void", "for" + id + "_inc", source.From));
context.Store.Add(new InstructionItem("Reference", "int*", varRefI.Value, source.From));
context.Store.Add(new InstructionItem("Variable", "int", varRefI.Value, source.From));
context.Store.Add(new InstructionItem("Constant", "int", 1, source.From));
context.Store.Add(new InstructionItem("Add", "int", "", source.From));
context.Store.Add(new InstructionItem("Assign", "int", "~" + (string)varRefI.Value, source.From));
context.Store.Add(new InstructionItem("Pop", "void", "", source.From));
context.Store.Add(new InstructionItem("JumpTo", "void", "for" + id + "_beg", source.From));
context.Store.Add(new InstructionItem("Marker", "void", "for" + id + "_end", source.From));
};
flowControlRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
Debug.Assert(context.Children.Count == 0,
"For control statements dont support child elements, yet.");
context.PassThrough();
string flow = source.Match(flowControlToken);
switch (flow) {
case "break": context.Store.Add(new InstructionItem("+Break", source.From)); break;
case "continue": context.Store.Add(new InstructionItem("+Continue", source.From)); break;
case "return": context.Store.Add(new InstructionItem("+Return", source.From)); break;
}
};
ifRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
int id = (++uid);
int condEnd = context.FindIndexInChildrenOnce("+CondEnd");
int elseStart = context.FindIndexInChildrenOnce("+Else");
int elseEnd = context.FindIndexInChildrenOnce("+EndElse");
context.PassRange(0, condEnd);
context.Store.Add(new InstructionItem("JumpIfFalse", "void", "if" + id, source.From));
if (elseStart >= 0) {
Debug.Assert(elseEnd >= 0,
"Else needs to have a start and end!");
context.PassRange(condEnd + 1, elseStart);
context.Store.Add(new InstructionItem("JumpTo", "void", "if_else" + id, source.From));
context.Store.Add(new InstructionItem("Marker", "void", "if" + id, source.From));
context.PassRange(elseStart + 1, elseEnd);
context.Store.Add(new InstructionItem("Marker", "void", "if_else" + id, source.From));
} else {
context.PassRange(condEnd + 1, context.Children.Count);
context.Store.Add(new InstructionItem("Marker", "void", "if" + id, source.From));
}
Debug.Assert(condEnd >= 0,
"Unable to determine where condition ends!");
};
elseRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
int id = (++uid);
context.Store.Add(new InstructionItem("+Else", "void", id, source.From));
context.PassThrough();
context.Store.Add(new InstructionItem("+EndElse", "void", id, source.From));
};
blockRule.Build += delegate(ParseContext.Level context, SourceIterator source) {
var instructions = context.Children;
var destination = context.Store;
Dictionary<string, string> name2Type = new Dictionary<string, string>();
destination.Add(new InstructionItem("BlockStart", "void", null, source.From));
int destStart = destination.Count;
for (int i = 0; i < instructions.Count; ++i) {
var instr = instructions[i];
if(instr.Command == "+AllocateIfRequired") {
Debug.Assert(instr.Type != "auto",
"Cant allocate a variable of unknown type!");
Debug.Assert(instr.Value is String,
"Variable names should be strings!");
string name = (String)instr.Value;
if (!name2Type.ContainsKey(name)) name2Type.Add(name, instr.Type);
} else if (instr.Command == "+Allocate") {
Debug.Assert(instr.Type != "auto",
"Cant allocate a variable of unknown type!");
Debug.Assert(instr.Value is String,
"Variable names should be strings!");
string name = (String)instr.Value;
if (!name2Type.ContainsKey(name)) name2Type.Add(name, instr.Type);
} else if (instr.Command == "Assign") {
string name = ((String)instr.Value).Substring(1);
if (name2Type.ContainsKey(name)) instr.Type = name2Type[name];
//else instr.Type = "var";
destination.Add(instr);
} else if (instr.Command == "Reference" || instr.Command == "Variable") {
Debug.Assert(instr.Value is String,
"Variable names should be strings!");
string name = (String)instr.Value;
string stars = (instr.Command == "Variable" ? "" : "*");
if (instr.Type == "auto" + stars && name2Type.ContainsKey(name))
instr.Type = name2Type[(String)instr.Value] + stars;
destination.Add(instr);
} else if (instr.Command.StartsWith("Call") && instr.Type == "auto") {
instr.Type = "var";
destination.Add(instr);
} else {
destination.Add(instr);
}
}
foreach (var n2t in name2Type) {
destination.Insert(destStart, new InstructionItem("Allocate", n2t.Value, n2t.Key, source.From));
}
destination.Add(new InstructionItem("BlockEnd", "void", null, source.From));
};
}