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Change match_literals_to_uimm128 to match_literals_to_constant_data

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This commit is contained in:
Andrew Brown
2019-10-09 15:02:05 -07:00
parent ff93564c55
commit a69b0fc221
1 changed files with 23 additions and 22 deletions
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45
cranelift/reader/src/parser.rs
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@@ -614,7 +614,7 @@ impl<'a> Parser<'a> {
let expected_size = controlling_type.bytes() as usize; let expected_size = controlling_type.bytes() as usize;
let constant_data = if self.optional(Token::LBracket) { let constant_data = if self.optional(Token::LBracket) {
// parse using a list of values, e.g. vconst.i32x4 [0 1 2 3] // parse using a list of values, e.g. vconst.i32x4 [0 1 2 3]
let uimm128 = self.parse_literals_to_uimm128(controlling_type)?; let uimm128 = self.parse_literals_to_constant_data(controlling_type)?;
self.match_token(Token::RBracket, "expected a terminating right bracket")?; self.match_token(Token::RBracket, "expected a terminating right bracket")?;
uimm128 uimm128
} else { } else {
@@ -858,8 +858,9 @@ impl<'a> Parser<'a> {
} }
} }
/// Parse a list of literals (i.e. integers, floats, booleans); e.g. /// Parse a list of literals (i.e. integers, floats, booleans); e.g. `0 1 2 3`, usually as
fn parse_literals_to_uimm128(&mut self, ty: Type) -> ParseResult<ConstantData> { /// part of something like `vconst.i32x4 [0 1 2 3]`.
fn parse_literals_to_constant_data(&mut self, ty: Type) -> ParseResult<ConstantData> {
macro_rules! consume { macro_rules! consume {
( $ty:ident, $match_fn:expr ) => {{ ( $ty:ident, $match_fn:expr ) => {{
assert!($ty.is_vector()); assert!($ty.is_vector());
@@ -884,7 +885,7 @@ impl<'a> Parser<'a> {
if !ty.is_vector() { if !ty.is_vector() {
err!(self.loc, "Expected a controlling vector type, not {}", ty) err!(self.loc, "Expected a controlling vector type, not {}", ty)
} else { } else {
let uimm128 = match ty.lane_type() { let constant_data = match ty.lane_type() {
I8 => consume!(ty, self.match_uimm8("Expected an 8-bit unsigned integer")?), I8 => consume!(ty, self.match_uimm8("Expected an 8-bit unsigned integer")?),
I16 => consume!(ty, self.match_imm16("Expected a 16-bit integer")?), I16 => consume!(ty, self.match_imm16("Expected a 16-bit integer")?),
I32 => consume!(ty, self.match_imm32("Expected a 32-bit integer")?), I32 => consume!(ty, self.match_imm32("Expected a 32-bit integer")?),
@@ -897,7 +898,7 @@ impl<'a> Parser<'a> {
), ),
_ => return err!(self.loc, "Expected a type of: float, int, bool"), _ => return err!(self.loc, "Expected a type of: float, int, bool"),
}; };
Ok(uimm128) Ok(constant_data)
} }
} }
@@ -3256,39 +3257,39 @@ mod tests {
#[test] #[test]
fn uimm128() { fn uimm128() {
macro_rules! parse_as_uimm128 { macro_rules! parse_as_constant_data {
($text:expr, $type:expr) => {{ ($text:expr, $type:expr) => {{
Parser::new($text).parse_literals_to_uimm128($type) Parser::new($text).parse_literals_to_constant_data($type)
}}; }};
} }
macro_rules! can_parse_as_uimm128 { macro_rules! can_parse_as_constant_data {
($text:expr, $type:expr) => {{ ($text:expr, $type:expr) => {{
assert!(parse_as_uimm128!($text, $type).is_ok()) assert!(parse_as_constant_data!($text, $type).is_ok())
}}; }};
} }
macro_rules! cannot_parse_as_uimm128 { macro_rules! cannot_parse_as_constant_data {
($text:expr, $type:expr) => {{ ($text:expr, $type:expr) => {{
assert!(parse_as_uimm128!($text, $type).is_err()) assert!(parse_as_constant_data!($text, $type).is_err())
}}; }};
} }
can_parse_as_uimm128!("1 2 3 4", I32X4); can_parse_as_constant_data!("1 2 3 4", I32X4);
can_parse_as_uimm128!("1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16", I8X16); can_parse_as_constant_data!("1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16", I8X16);
can_parse_as_uimm128!("0x1.1 0x2.2 0x3.3 0x4.4", F32X4); can_parse_as_constant_data!("0x1.1 0x2.2 0x3.3 0x4.4", F32X4);
can_parse_as_uimm128!("true false true false true false true false", B16X8); can_parse_as_constant_data!("true false true false true false true false", B16X8);
can_parse_as_uimm128!("0 -1", I64X2); can_parse_as_constant_data!("0 -1", I64X2);
can_parse_as_uimm128!("true false", B64X2); can_parse_as_constant_data!("true false", B64X2);
can_parse_as_uimm128!("true true true true true", B32X4); // note that parse_literals_to_uimm128 will leave extra tokens unconsumed can_parse_as_constant_data!("true true true true true", B32X4); // note that parse_literals_to_constant_data will leave extra tokens unconsumed
cannot_parse_as_uimm128!("0x0 0x1 0x2 0x3", I32X4); cannot_parse_as_constant_data!("0x0 0x1 0x2 0x3", I32X4);
cannot_parse_as_uimm128!("1 2 3", I32X4); cannot_parse_as_constant_data!("1 2 3", I32X4);
cannot_parse_as_uimm128!(" ", F32X4); cannot_parse_as_constant_data!(" ", F32X4);
} }
#[test] #[test]
fn parse_constant_from_booleans() { fn parse_constant_from_booleans() {
let c = Parser::new("true false true false") let c = Parser::new("true false true false")
.parse_literals_to_uimm128(B32X4) .parse_literals_to_constant_data(B32X4)
.unwrap(); .unwrap();
assert_eq!(c.to_vec(), [1, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0]) assert_eq!(c.to_vec(), [1, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0])
} }