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Use an err! macro to build parser errors with format! arguments.

pull/3/head
Jakob Stoklund Olesen 9 years ago
parent
commit
8fac050bb5
  1. 119
      src/libreader/parser.rs

119
src/libreader/parser.rs

@ -33,6 +33,23 @@ impl Display for Error {
pub type Result<T> = result::Result<T, Error>;
// Create an `Err` variant of `Result<X>` from a location and `format!` args.
macro_rules! err {
( $loc:expr, $msg:expr ) => {
Err(Error {
location: $loc.clone(),
message: String::from($msg),
})
};
( $loc:expr, $fmt:expr, $( $arg:expr ),+ ) => {
Err(Error {
location: $loc.clone(),
message: format!( $fmt, $( $arg ),+ ),
})
};
}
pub struct Parser<'a> {
lex: Lexer<'a>,
@ -42,7 +59,7 @@ pub struct Parser<'a> {
lookahead: Option<Token<'a>>,
// Location of lookahead.
location: Location,
loc: Location,
}
// Context for resolving references when parsing a single function.
@ -69,10 +86,7 @@ impl Context {
// Allocate a new stack slot and add a mapping number -> StackSlot.
fn add_ss(&mut self, number: u32, data: StackSlotData, loc: &Location) -> Result<()> {
if self.stack_slots.insert(number, self.function.make_stack_slot(data)).is_some() {
Err(Error {
location: loc.clone(),
message: format!("duplicate stack slot: ss{}", number),
})
err!(loc, "duplicate stack slot: ss{}", number)
} else {
Ok(())
}
@ -82,10 +96,7 @@ impl Context {
fn add_ebb(&mut self, src_ebb: Ebb, loc: &Location) -> Result<Ebb> {
let ebb = self.function.make_ebb();
if self.ebbs.insert(src_ebb, ebb).is_some() {
Err(Error {
location: loc.clone(),
message: format!("duplicate EBB: {}", src_ebb),
})
err!(loc, "duplicate EBB: {}", src_ebb)
} else {
Ok(ebb)
}
@ -94,10 +105,7 @@ impl Context {
// Add a value mapping src_val -> data.
fn add_value(&mut self, src_val: Value, data: Value, loc: &Location) -> Result<()> {
if self.values.insert(src_val, data).is_some() {
Err(Error {
location: loc.clone(),
message: format!("duplicate value: {}", src_val),
})
err!(loc, "duplicate value: {}", src_val)
} else {
Ok(())
}
@ -111,7 +119,7 @@ impl<'a> Parser<'a> {
lex: Lexer::new(text),
lex_error: None,
lookahead: None,
location: Location { line_number: 0 },
loc: Location { line_number: 0 },
}
}
@ -131,11 +139,11 @@ impl<'a> Parser<'a> {
match self.lex.next() {
Some(Ok(lexer::LocatedToken { token, location })) => {
self.lookahead = Some(token);
self.location = location;
self.loc = location;
}
Some(Err(lexer::LocatedError { error, location })) => {
self.lex_error = Some(error);
self.location = location;
self.loc = location;
}
None => {}
}
@ -143,29 +151,12 @@ impl<'a> Parser<'a> {
return self.lookahead;
}
// Generate an error.
fn error_string(&self, message: String) -> Error {
Error {
location: self.location,
message:
// If we have a lexer error latched, report that.
match self.lex_error {
Some(lexer::Error::InvalidChar) => "invalid character".to_string(),
None => message,
}
}
}
fn error(&self, message: &str) -> Error {
self.error_string(message.to_string())
}
// Match and consume a token without payload.
fn match_token(&mut self, want: Token<'a>, err_msg: &str) -> Result<Token<'a>> {
if self.token() == Some(want) {
Ok(self.consume())
} else {
Err(self.error(err_msg))
err!(self.loc, err_msg)
}
}
@ -185,7 +176,7 @@ impl<'a> Parser<'a> {
if self.token() == Some(Token::Identifier(want)) {
Ok(self.consume())
} else {
Err(self.error(err_msg))
err!(self.loc, err_msg)
}
}
@ -195,7 +186,7 @@ impl<'a> Parser<'a> {
self.consume();
Ok(t)
} else {
Err(self.error(err_msg))
err!(self.loc, err_msg)
}
}
@ -205,7 +196,7 @@ impl<'a> Parser<'a> {
self.consume();
Ok(ss)
} else {
Err(self.error(err_msg))
err!(self.loc, err_msg)
}
}
@ -215,7 +206,7 @@ impl<'a> Parser<'a> {
self.consume();
Ok(ebb)
} else {
Err(self.error(err_msg))
err!(self.loc, err_msg)
}
}
@ -226,7 +217,14 @@ impl<'a> Parser<'a> {
self.consume();
Ok(v)
} else {
Err(self.error(err_msg))
err!(self.loc, err_msg)
}
}
fn error(&self, message: &str) -> Error {
Error {
location: self.loc.clone(),
message: message.to_string(),
}
}
@ -238,7 +236,7 @@ impl<'a> Parser<'a> {
// Parse it as an Imm64 to check for overflow and other issues.
text.parse().map_err(|e| self.error(e))
} else {
Err(self.error(err_msg))
err!(self.loc, err_msg)
}
}
@ -250,7 +248,7 @@ impl<'a> Parser<'a> {
// Parse it as an Ieee32 to check for the right number of digits and other issues.
text.parse().map_err(|e| self.error(e))
} else {
Err(self.error(err_msg))
err!(self.loc, err_msg)
}
}
@ -262,7 +260,7 @@ impl<'a> Parser<'a> {
// Parse it as an Ieee64 to check for the right number of digits and other issues.
text.parse().map_err(|e| self.error(e))
} else {
Err(self.error(err_msg))
err!(self.loc, err_msg)
}
}
@ -323,7 +321,7 @@ impl<'a> Parser<'a> {
self.consume();
Ok(s.to_string())
}
_ => Err(self.error("expected function name")),
_ => err!(self.loc, "expected function name"),
}
}
@ -400,7 +398,7 @@ impl<'a> Parser<'a> {
try!(match self.token() {
Some(Token::StackSlot(..)) => {
self.parse_stack_slot_decl()
.and_then(|(num, dat)| ctx.add_ss(num, dat, &self.location))
.and_then(|(num, dat)| ctx.add_ss(num, dat, &self.loc))
}
// More to come..
_ => return Ok(()),
@ -419,7 +417,7 @@ impl<'a> Parser<'a> {
// stack-slot-decl ::= StackSlot(ss) "=" "stack_slot" * Bytes {"," stack-slot-flag}
let bytes = try!(self.match_imm64("expected byte-size in stack_slot decl")).to_bits();
if bytes > u32::MAX as u64 {
return Err(self.error("stack slot too large"));
return err!(self.loc, "stack slot too large");
}
let data = StackSlotData::new(bytes as u32);
@ -446,11 +444,11 @@ impl<'a> Parser<'a> {
fn parse_extended_basic_block(&mut self, ctx: &mut Context) -> Result<()> {
let is_entry = self.optional(Token::Entry);
let ebb_num = try!(self.match_ebb("expected EBB header"));
let ebb = try!(ctx.add_ebb(ebb_num, &self.location));
let ebb = try!(ctx.add_ebb(ebb_num, &self.loc));
if is_entry {
if ctx.function.entry_block != NO_EBB {
return Err(self.error("multiple entry blocks in function"));
return err!(self.loc, "multiple entry blocks in function");
}
ctx.function.entry_block = ebb;
}
@ -503,7 +501,7 @@ impl<'a> Parser<'a> {
fn parse_ebb_arg(&mut self, ctx: &mut Context, ebb: Ebb) -> Result<()> {
// ebb-arg ::= * Value(vx) ":" Type(t)
let vx = try!(self.match_value("EBB argument must be a value"));
let vx_location = self.location;
let vx_location = self.loc;
// ebb-arg ::= Value(vx) * ":" Type(t)
try!(self.match_token(Token::Colon, "expected ':' after EBB argument"));
// ebb-arg ::= Value(vx) ":" * Type(t)
@ -541,10 +539,10 @@ impl<'a> Parser<'a> {
let opcode = if let Some(Token::Identifier(text)) = self.token() {
match text.parse() {
Ok(opc) => opc,
Err(msg) => return Err(self.error(msg)),
Err(msg) => return err!(self.loc, msg),
}
} else {
return Err(self.error("expected instruction opcode"));
return err!(self.loc, "expected instruction opcode");
};
self.consume();
@ -570,10 +568,10 @@ impl<'a> Parser<'a> {
ctx.function.append_inst(ebb, inst);
if results.len() != num_results {
let m = format!("instruction produces {} result values, {} given",
return err!(self.loc,
"instruction produces {} result values, {} given",
num_results,
results.len());
return Err(self.error_string(m));
}
// Now map the source result values to the just created instruction results.
@ -614,14 +612,15 @@ impl<'a> Parser<'a> {
ctx.function.value_type(match ctx.values.get(&ctrl_src_value) {
Some(&v) => v,
None => {
let m = format!("cannot determine type of operand {}", ctrl_src_value);
return Err(self.error_string(m));
return err!(self.loc,
"cannot determine type of operand {}",
ctrl_src_value);
}
})
} else if constraints.is_polymorphic() {
// This opcode does not support type inference, so the explicit type variable
// is required.
return Err(self.error("type variable required for polymorphic opcode"));
return err!(self.loc, "type variable required for polymorphic opcode");
} else {
// This is a non-polymorphic opcode. No typevar needed.
VOID
@ -635,13 +634,15 @@ impl<'a> Parser<'a> {
if let Some(typeset) = constraints.ctrl_typeset() {
// This is a polymorphic opcode.
if !typeset.contains(ctrl_type) {
let m = format!("{} is not a valid typevar for {}", ctrl_type, opcode);
return Err(self.error_string(m));
return err!(self.loc,
"{} is not a valid typevar for {}",
ctrl_type,
opcode);
}
} else {
// Treat it as a syntax error to speficy a typevar on a non-polymorphic opcode.
if ctrl_type != VOID {
return Err(self.error_string(format!("{} does not take a typevar", opcode)));
return err!(self.loc, "{} does not take a typevar", opcode);
}
}
@ -659,7 +660,7 @@ impl<'a> Parser<'a> {
{
for (src, val) in results.zip(new_results) {
if values.insert(src, val).is_some() {
return Err(self.error_string(format!("duplicate result value: {}", src)));
return err!(self.loc, "duplicate result value: {}", src);
}
}
Ok(())

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