ExpressionParser: use internal ParseResult struct instead of out-params

This commit is contained in:
Michael M 2017-06-07 15:08:55 -07:00
parent d2821e14fa
commit bbb7c17235
1 changed files with 44 additions and 53 deletions

View File

@ -361,6 +361,15 @@ Device::Control* ControlFinder::FindControl(ControlQualifier qualifier) const
return device->FindOutput(qualifier.control_name);
}
struct ParseResult
{
ParseResult(ParseStatus status_, ExpressionNode* expr_ = nullptr) : status(status_), expr(expr_)
{
}
ParseStatus status;
ExpressionNode* expr;
};
class Parser
{
public:
@ -369,16 +378,7 @@ public:
m_it = tokens.begin();
}
std::pair<ParseStatus, Expression*> Parse()
{
ExpressionNode* node;
ParseStatus status = Toplevel(&node);
if (status != ParseStatus::Successful)
return std::make_pair(status, nullptr);
return std::make_pair(ParseStatus::Successful, new Expression(node));
}
ParseResult Parse() { return Toplevel(); }
private:
std::vector<Token> tokens;
std::vector<Token>::iterator m_it;
@ -392,7 +392,7 @@ private:
return tok.type == type;
}
ParseStatus Atom(ExpressionNode** expr_out)
ParseResult Atom()
{
Token tok = Chew();
switch (tok.type)
@ -402,18 +402,14 @@ private:
std::shared_ptr<Device> device = finder.FindDevice(tok.qualifier);
Device::Control* control = finder.FindControl(tok.qualifier);
if (control == nullptr)
{
*expr_out = new DummyExpression(tok.qualifier);
return ParseStatus::NoDevice;
}
return {ParseStatus::NoDevice, new DummyExpression(tok.qualifier)};
*expr_out = new ControlExpression(tok.qualifier, device, control);
return ParseStatus::Successful;
return {ParseStatus::Successful, new ControlExpression(tok.qualifier, device, control)};
}
case TOK_LPAREN:
return Paren(expr_out);
return Paren();
default:
return ParseStatus::SyntaxError;
return {ParseStatus::SyntaxError};
}
}
@ -428,20 +424,18 @@ private:
}
}
ParseStatus Unary(ExpressionNode** expr_out)
ParseResult Unary()
{
if (IsUnaryExpression(Peek().type))
{
Token tok = Chew();
ExpressionNode* atom_expr;
ParseStatus status = Atom(&atom_expr);
if (status == ParseStatus::SyntaxError)
return status;
*expr_out = new UnaryExpression(tok.type, atom_expr);
return ParseStatus::Successful;
ParseResult result = Atom();
if (result.status == ParseStatus::SyntaxError)
return result;
return {ParseStatus::Successful, new UnaryExpression(tok.type, result.expr)};
}
return Atom(expr_out);
return Atom();
}
bool IsBinaryToken(TokenType type)
@ -457,47 +451,46 @@ private:
}
}
ParseStatus Binary(ExpressionNode** expr_out)
ParseResult Binary()
{
ParseStatus status = Unary(expr_out);
if (status == ParseStatus::SyntaxError)
return status;
ParseResult result = Unary();
if (result.status == ParseStatus::SyntaxError)
return result;
ExpressionNode* expr = result.expr;
while (IsBinaryToken(Peek().type))
{
Token tok = Chew();
ExpressionNode* unary_expr;
status = Unary(&unary_expr);
if (status == ParseStatus::SyntaxError)
ParseResult unary_result = Unary();
if (unary_result.status == ParseStatus::SyntaxError)
{
delete *expr_out;
return status;
delete expr;
return unary_result;
}
*expr_out = new BinaryExpression(tok.type, *expr_out, unary_expr);
expr = new BinaryExpression(tok.type, expr, unary_result.expr);
}
return ParseStatus::Successful;
return {ParseStatus::Successful, expr};
}
ParseStatus Paren(ExpressionNode** expr_out)
ParseResult Paren()
{
ParseStatus status;
// lparen already chewed
if ((status = Toplevel(expr_out)) != ParseStatus::Successful)
return status;
ParseResult result = Toplevel();
if (result.status != ParseStatus::Successful)
return result;
if (!Expects(TOK_RPAREN))
{
delete *expr_out;
return ParseStatus::SyntaxError;
delete result.expr;
return {ParseStatus::SyntaxError};
}
return ParseStatus::Successful;
return result;
}
ParseStatus Toplevel(ExpressionNode** expr_out) { return Binary(expr_out); }
ParseResult Toplevel() { return Binary(); }
};
ControlState Expression::GetValue() const
@ -533,13 +526,11 @@ static std::pair<ParseStatus, Expression*> ParseExpressionInner(const std::strin
if (tokenize_status != ParseStatus::Successful)
return std::make_pair(tokenize_status, nullptr);
ParseStatus status;
Expression* expr;
std::tie(status, expr) = Parser(tokens, finder).Parse();
if (status != ParseStatus::Successful)
return std::make_pair(status, nullptr);
ParseResult result = Parser(tokens, finder).Parse();
if (result.status != ParseStatus::Successful)
return std::make_pair(result.status, nullptr);
return std::make_pair(ParseStatus::Successful, expr);
return std::make_pair(ParseStatus::Successful, new Expression(result.expr));
}
std::pair<ParseStatus, Expression*> ParseExpression(const std::string& str, ControlFinder& finder)