/// <summary>
/// Adds a dependency using the "require" function (for loading Lua modules)
/// </summary>
/// <param name="c"></param>
/// <param name="name">The name of the module to reference</param>
/// <param name="varName">Optional. The variable name to assign to the module</param>
public static void AddModuleDependency(Chunk c, string name, string varName = "")
{
if (varName == "")
{
// FunctionCall
StringCallExpr call = new StringCallExpr();
Variable require = c.Scope.GetVariable("require");
VariableExpression v = new VariableExpression();
if (require == null)
{
require = c.Scope.CreateGlobal("require");
require.IsGlobal = true;
}
v.Var = require;
call.Base = v;
call.Arguments.Add(new StringExpr(name) { StringType = TokenType.DoubleQuoteString });
c.Body.Insert(0, new CallStatement() { Expression = call, Scope = c.Scope });
}
else
{
// Assignment with FunctionCall
AssignmentStatement a = new AssignmentStatement();
StringCallExpr call = new StringCallExpr();
call.Scope = c.Scope;
Variable require = c.Scope.GetVariable("require");
VariableExpression v = new VariableExpression();
if (require == null)
{
require = c.Scope.CreateGlobal("require");
require.IsGlobal = true;
}
v.Var = require;
call.Base = v;
call.Arguments.Add(new StringExpr(name) { StringType = TokenType.DoubleQuoteString });
a.IsLocal = true; // local import
a.Rhs.Add(call);
Variable var = c.Scope.GetVariable(varName);
VariableExpression v2 = new VariableExpression();
if (var == null)
{
var = c.Scope.CreateLocal(varName);
}
v2.Var = var;
a.Lhs.Add(v2);
c.Body.Insert(0, a);
}
}
/// <summary>
/// Adds a dependency to a .NET/CLR library using clr.load,
/// then it sets type to the type in the assembly.
/// </summary>
/// <param name="c"></param>
/// <param name="assembly"></param>
/// <param name="type"></param>
public static void AddClrDependency(Chunk c, string assembly, string type)
{
AddClrDependency(c, assembly);
// Assignment with FunctionCall
AssignmentStatement a = new AssignmentStatement();
CallExpr call = new CallExpr();
call.Scope = c.Scope;
Variable require = c.Scope.GetVariable("clr");
VariableExpression v = new VariableExpression();
if (require == null)
{
require = c.Scope.CreateGlobal("clr");
require.IsGlobal = true;
}
string name = "", varName = "";
if (type.Contains('.'))
{
name = type.Substring(0, type.LastIndexOf('.'));
varName = type.Substring(type.LastIndexOf('.') + 1);
}
else
{
name = assembly;
varName = type;
}
v.Var = require;
MemberExpr me = new MemberExpr();
me.Base = v;
me.Indexer = ".";
me.Ident = "getns";
call.Base = me;
call.Arguments.Add(new StringExpr(name) { StringType = TokenType.DoubleQuoteString });
a.IsLocal = true; // local import
MemberExpr me2 = new MemberExpr();
me2.Base = call;
me2.Indexer = ".";
me2.Ident = varName;
a.Rhs.Add(me2);
Variable var = c.Scope.GetVariable(varName);
VariableExpression v2 = new VariableExpression();
if (var == null)
{
var = c.Scope.CreateLocal(varName);
}
v2.Var = var;
a.Lhs.Add(v2);
// Insert after the load
c.Body.Insert(1, a);
}
Statement ParseStatement(Scope scope)
{
int startP = reader.p;
int startLine = reader.Peek().Line;
Statement stat = null;
// print(tok.Peek().Print())
if (reader.ConsumeKeyword("if"))
{
//setup
IfStmt _if = new IfStmt();
//clauses
do
{
int sP = reader.p;
Expression nodeCond = ParseExpr(scope);
if (!reader.ConsumeKeyword("then"))
error("'then' expected");
List<Statement> nodeBody = ParseStatementList(scope);
List<Token> range = new List<Token>();
range.Add(reader.tokens[sP - 1]);
range.AddRange(reader.Range(sP, reader.p));
_if.Clauses.Add(new ElseIfStmt(scope)
{
Condition = nodeCond,
Body = nodeBody,
ScannedTokens = range
});
}
while (reader.ConsumeKeyword("elseif"));
// else clause
if (reader.ConsumeKeyword("else"))
{
int sP = reader.p;
List<Statement> nodeBody = ParseStatementList(scope);
List<Token> range = new List<Token>();
range.Add(reader.tokens[sP - 1]);
range.AddRange(reader.Range(sP, reader.p));
_if.Clauses.Add(new ElseStmt(scope)
{
Body = nodeBody,
ScannedTokens = range
});
}
// end
if (!reader.ConsumeKeyword("end"))
error("'end' expected");
stat = _if;
}
else if (reader.ConsumeKeyword("while"))
{
WhileStatement w = new WhileStatement(scope);
// condition
Expression nodeCond = ParseExpr(scope);
// do
if (!reader.ConsumeKeyword("do"))
error("'do' expected");
// body
List<Statement> body = ParseStatementList(scope);
//end
if (!reader.ConsumeKeyword("end"))
error("'end' expected");
// return
w.Condition = nodeCond;
w.Body = body;
stat = w;
}
else if (reader.ConsumeKeyword("do"))
{
// do block
List<Statement> b = ParseStatementList(scope);
if (!reader.ConsumeKeyword("end"))
error("'end' expected");
stat = new DoStatement(scope) { Body = b };
}
else if (reader.ConsumeKeyword("for"))
{
//for block
if (!reader.Is(TokenType.Ident))
error("<ident> expected");
Token baseVarName = reader.Get();
if (reader.ConsumeSymbol('='))
{
//numeric for
NumericForStatement forL = new NumericForStatement(scope);
Variable forVar = new Variable() { Name = baseVarName.Data };
forL.Scope.AddLocal(forVar);
Expression startEx = ParseExpr(scope);
if (!reader.ConsumeSymbol(','))
error("',' expected");
Expression endEx = ParseExpr(scope);
Expression stepEx = null;
if (reader.ConsumeSymbol(','))
{
stepEx = ParseExpr(scope);
}
if (!reader.ConsumeKeyword("do"))
error("'do' expected");
List<Statement> body = ParseStatementList(forL.Scope);
if (!reader.ConsumeKeyword("end"))
error("'end' expected");
forL.Variable = forVar;
forL.Start = startEx;
forL.End = endEx;
forL.Step = stepEx;
forL.Body = body;
stat = forL;
}
else
{
// generic for
GenericForStatement forL = new GenericForStatement(scope);
List<Variable> varList = new List<Variable> { forL.Scope.CreateLocal(baseVarName.Data) };
while (reader.ConsumeSymbol(','))
{
if (!reader.Is(TokenType.Ident))
error("for variable expected");
varList.Add(forL.Scope.CreateLocal(reader.Get().Data));
}
if (!reader.ConsumeKeyword("in"))
error("'in' expected");
List<Expression> generators = new List<Expression>();
Expression first = ParseExpr(scope);
generators.Add(first);
while (reader.ConsumeSymbol(','))
{
Expression gen = ParseExpr(scope);
generators.Add(gen);
}
if (!reader.ConsumeKeyword("do"))
error("'do' expected");
List<Statement> body = ParseStatementList(forL.Scope);
if (!reader.ConsumeKeyword("end"))
error("'end' expected");
forL.VariableList = varList;
forL.Generators = generators;
forL.Body = body;
stat = forL;
}
}
else if (reader.ConsumeKeyword("repeat"))
{
List<Statement> body = ParseStatementList(scope);
if (!reader.ConsumeKeyword("until"))
error("'until' expected");
Expression cond = ParseExpr(scope);
RepeatStatement r = new RepeatStatement(scope);
r.Condition = cond;
r.Body = body;
stat = r;
}
else if (reader.ConsumeKeyword("function"))
{
if (!reader.Is(TokenType.Ident))
error("function name expected");
Expression name = ParseSuffixedExpr(scope, true);
// true: only dots and colons
FunctionStatement func = ParseFunctionArgsAndBody(scope);
func.IsLocal = false;
func.Name = name;
stat = func;
}
else if (reader.ConsumeKeyword("local"))
{
if (reader.Is(TokenType.Ident))
{
List<string> varList = new List<string> { reader.Get().Data };
while (reader.ConsumeSymbol(','))
{
if (!reader.Is(TokenType.Ident))
error("local variable name expected");
varList.Add(reader.Get().Data);
}
List<Expression> initList = new List<Expression>();
if (reader.ConsumeSymbol('='))
{
do
{
Expression ex = ParseExpr(scope);
initList.Add(ex);
} while (reader.ConsumeSymbol(','));
}
//now patch var list
//we can't do this before getting the init list, because the init list does not
//have the locals themselves in scope.
List<Expression> newVarList = new List<Expression>();
for (int i = 0; i < varList.Count; i++)
{
Variable x = scope.CreateLocal(varList[i]);
newVarList.Add(new VariableExpression { Var = x });
}
AssignmentStatement l = new AssignmentStatement();
l.Lhs = newVarList;
l.Rhs = initList;
l.IsLocal = true;
stat = l;
}
else if (reader.ConsumeKeyword("function"))
{
if (!reader.Is(TokenType.Ident))
error("Function name expected");
string name = reader.Get().Data;
Variable localVar = scope.CreateLocal(name);
FunctionStatement func = ParseFunctionArgsAndBody(scope);
func.Name = new VariableExpression { Var = localVar };
func.IsLocal = true;
stat = func;
}
else
error("local variable or function definition expected");
}
#if !VANILLA_LUA
else if (reader.ConsumeSymbol("::"))
{
if (!reader.Is(TokenType.Ident))
error("label name expected");
string label = reader.Get().Data;
if (!reader.ConsumeSymbol("::"))
error("'::' expected");
LabelStatement l = new LabelStatement();
l.Label = label;
stat = l;
}
#endif
else if (reader.ConsumeKeyword("return"))
{
List<Expression> exprList = new List<Expression>();
if (!reader.IsKeyword("end") && !reader.IsEof())
{
Expression firstEx = ParseExpr(scope);
exprList.Add(firstEx);
while (reader.ConsumeSymbol(','))
{
Expression ex = ParseExpr(scope);
exprList.Add(ex);
}
}
ReturnStatement r = new ReturnStatement();
r.Arguments = exprList;
stat = r;
}
else if (reader.ConsumeKeyword("break"))
{
stat = new BreakStatement();
}
else if (reader.ConsumeKeyword("continue"))
{
stat = new ContinueStatement();
}
#if !VANILLA_LUA
else if (reader.ConsumeKeyword("goto"))
{
if (!reader.Is(TokenType.Ident))
error("label expected");
string label = reader.Get().Data;
GotoStatement g = new GotoStatement();
g.Label = label;
stat = g;
}
else if (reader.ConsumeKeyword("using"))
{
// using <a, b = 1, x()> do <statements> end
UsingStatement us = new UsingStatement(scope);
us.Scope = new Scope(scope);
List<Expression> lhs = new List<Expression> { ParseExpr(us.Scope) };
while (reader.ConsumeSymbol(','))
{
lhs.Add(ParseSuffixedExpr(us.Scope, true));
}
// equals
if (!reader.ConsumeSymbol('='))
error("'=' expected");
//rhs
List<Expression> rhs = new List<Expression>();
rhs.Add(ParseExpr(us.Scope));
while (reader.ConsumeSymbol(','))
{
rhs.Add(ParseExpr(scope));
}
AssignmentStatement a = new AssignmentStatement();
a.Lhs = lhs;
a.Rhs = rhs;
a.IsLocal = true;
if (!reader.ConsumeKeyword("do"))
error("'do' expected");
List<Statement> block = ParseStatementList(us.Scope);
if (!reader.ConsumeKeyword("end"))
error("'end' expected");
us.Vars = a;
us.Body = block;
stat = us;
}
#endif
else
{
// statementParseExpr
Expression suffixed = ParseSuffixedExpr(scope);
// assignment or call?
if (reader.IsSymbol(',') || reader.IsSymbol('='))
{
// check that it was not parenthesized, making it not an lvalue
if (suffixed.ParenCount > 0)
error("Can not assign to parenthesized expression, it is not an lvalue");
// more processing needed
List<Expression> lhs = new List<Expression> { suffixed };
while (reader.ConsumeSymbol(','))
{
lhs.Add(ParseSuffixedExpr(scope));
}
// equals
if (!reader.ConsumeSymbol('='))
error("'=' expected");
//rhs
List<Expression> rhs = new List<Expression>();
rhs.Add(ParseExpr(scope));
while (reader.ConsumeSymbol(','))
{
rhs.Add(ParseExpr(scope));
}
AssignmentStatement a = new AssignmentStatement();
a.Lhs = lhs;
a.Rhs = rhs;
stat = a;
}
#if !VANILLA_LUA
else if (isAugmentedAssignment(reader.Peek()))
{
AugmentedAssignmentStatement aas = new AugmentedAssignmentStatement();
Expression left = suffixed;
Expression right = null;
string augmentedOp = reader.Get().Data;
right = ParseExpr(scope);
BinOpExpr nRight = new BinOpExpr();
nRight.Lhs = left;
nRight.Op = augmentedOp.Substring(0, augmentedOp.Length - 1); // strip the '='
nRight.Rhs = right;
aas.Lhs = new List<Expression> { left };
aas.Rhs = new List<Expression> { nRight };
stat = aas;
}
#endif
else if (suffixed is CallExpr ||
suffixed is TableCallExpr ||
suffixed is StringCallExpr)
{
//it's a call statement
CallStatement c = new CallStatement();
c.Expression = suffixed;
stat = c;
}
else
error("assignment statement expected");
}
stat.ScannedTokens = reader.Range(startP, reader.p);
if (reader.Peek().Data == ";" && reader.Peek().Type == TokenType.Symbol)
{
stat.HasSemicolon = true;
stat.SemicolonToken = reader.Get();
}
if (stat.Scope == null)
stat.Scope = scope;
stat.LineNumber = startLine;
return stat;
}