#![allow(unused)]
use crate::lexer::PtxToken;
use crate::parser::{PtxParseError, PtxParser, PtxTokenStream, Span};
use crate::r#type::common::*;
pub mod section_0 {
use super::*;
use crate::r#type::instruction::bar::section_0::*;
impl PtxParser for Op {
fn parse(stream: &mut PtxTokenStream) -> Result<Self, PtxParseError> {
{
let saved_pos = stream.position();
if stream.expect_string(".and").is_ok() {
return Ok(Op::And);
}
stream.set_position(saved_pos);
}
let saved_pos = stream.position();
{
let saved_pos = stream.position();
if stream.expect_string(".or").is_ok() {
return Ok(Op::Or);
}
stream.set_position(saved_pos);
}
stream.set_position(saved_pos);
let span = stream
.peek()
.map(|(_, s)| s.clone())
.unwrap_or(Span { start: 0, end: 0 });
let expected = &[".and", ".or"];
let found = stream
.peek()
.map(|(t, _)| format!("{:?}", t))
.unwrap_or_else(|_| "<end of input>".to_string());
Err(crate::parser::unexpected_value(span, expected, found))
}
}
impl PtxParser for BarrierCtaSyncAligned {
fn parse(stream: &mut PtxTokenStream) -> Result<Self, PtxParseError> {
stream.expect_string("barrier")?;
let saved_pos = stream.position();
let cta = stream.expect_string(".cta").is_ok();
if !cta {
stream.set_position(saved_pos);
}
stream.expect_complete()?;
stream.expect_string(".sync")?;
let sync = ();
stream.expect_complete()?;
let saved_pos = stream.position();
let aligned = stream.expect_string(".aligned").is_ok();
if !aligned {
stream.set_position(saved_pos);
}
stream.expect_complete()?;
let a = GeneralOperand::parse(stream)?;
stream.expect_complete()?;
let saved_pos = stream.position();
let has_comma = stream.expect(&PtxToken::Comma).is_ok();
if !has_comma {
stream.set_position(saved_pos);
}
let saved_pos = stream.position();
let b = match GeneralOperand::parse(stream) {
Ok(val) => Some(val),
Err(_) => {
stream.set_position(saved_pos);
None
}
};
stream.expect_complete()?;
stream.expect_complete()?;
stream.expect(&PtxToken::Semicolon)?;
Ok(BarrierCtaSyncAligned {
cta,
sync,
aligned,
a,
b,
})
}
}
impl PtxParser for BarrierCtaArriveAligned {
fn parse(stream: &mut PtxTokenStream) -> Result<Self, PtxParseError> {
stream.expect_string("barrier")?;
let saved_pos = stream.position();
let cta = stream.expect_string(".cta").is_ok();
if !cta {
stream.set_position(saved_pos);
}
stream.expect_complete()?;
stream.expect_string(".arrive")?;
let arrive = ();
stream.expect_complete()?;
let saved_pos = stream.position();
let aligned = stream.expect_string(".aligned").is_ok();
if !aligned {
stream.set_position(saved_pos);
}
stream.expect_complete()?;
let a = GeneralOperand::parse(stream)?;
stream.expect_complete()?;
stream.expect(&PtxToken::Comma)?;
let b = GeneralOperand::parse(stream)?;
stream.expect_complete()?;
stream.expect_complete()?;
stream.expect(&PtxToken::Semicolon)?;
Ok(BarrierCtaArriveAligned {
cta,
arrive,
aligned,
a,
b,
})
}
}
impl PtxParser for BarrierCtaRedPopcAlignedU32 {
fn parse(stream: &mut PtxTokenStream) -> Result<Self, PtxParseError> {
stream.expect_string("barrier")?;
let saved_pos = stream.position();
let cta = stream.expect_string(".cta").is_ok();
if !cta {
stream.set_position(saved_pos);
}
stream.expect_complete()?;
stream.expect_string(".red")?;
let red = ();
stream.expect_complete()?;
stream.expect_string(".popc")?;
let popc = ();
stream.expect_complete()?;
let saved_pos = stream.position();
let aligned = stream.expect_string(".aligned").is_ok();
if !aligned {
stream.set_position(saved_pos);
}
stream.expect_complete()?;
stream.expect_string(".u32")?;
let u32 = ();
stream.expect_complete()?;
let d = GeneralOperand::parse(stream)?;
stream.expect_complete()?;
stream.expect(&PtxToken::Comma)?;
let a = GeneralOperand::parse(stream)?;
stream.expect_complete()?;
let saved_pos = stream.position();
let has_comma = stream.expect(&PtxToken::Comma).is_ok();
if !has_comma {
stream.set_position(saved_pos);
}
let saved_pos = stream.position();
let b = match GeneralOperand::parse(stream) {
Ok(val) => Some(val),
Err(_) => {
stream.set_position(saved_pos);
None
}
};
stream.expect_complete()?;
stream.expect(&PtxToken::Comma)?;
let c_op = stream
.consume_if(|t| matches!(t, PtxToken::Exclaim))
.is_some();
let c = GeneralOperand::parse(stream)?;
stream.expect_complete()?;
stream.expect_complete()?;
stream.expect(&PtxToken::Semicolon)?;
Ok(BarrierCtaRedPopcAlignedU32 {
cta,
red,
popc,
aligned,
u32,
d,
a,
b,
c_op,
c,
})
}
}
impl PtxParser for BarrierCtaRedOpAlignedPred {
fn parse(stream: &mut PtxTokenStream) -> Result<Self, PtxParseError> {
stream.expect_string("barrier")?;
let saved_pos = stream.position();
let cta = stream.expect_string(".cta").is_ok();
if !cta {
stream.set_position(saved_pos);
}
stream.expect_complete()?;
stream.expect_string(".red")?;
let red = ();
stream.expect_complete()?;
let op = Op::parse(stream)?;
stream.expect_complete()?;
let saved_pos = stream.position();
let aligned = stream.expect_string(".aligned").is_ok();
if !aligned {
stream.set_position(saved_pos);
}
stream.expect_complete()?;
stream.expect_string(".pred")?;
let pred = ();
stream.expect_complete()?;
let p = GeneralOperand::parse(stream)?;
stream.expect_complete()?;
stream.expect(&PtxToken::Comma)?;
let a = GeneralOperand::parse(stream)?;
stream.expect_complete()?;
let saved_pos = stream.position();
let has_comma = stream.expect(&PtxToken::Comma).is_ok();
if !has_comma {
stream.set_position(saved_pos);
}
let saved_pos = stream.position();
let b = match GeneralOperand::parse(stream) {
Ok(val) => Some(val),
Err(_) => {
stream.set_position(saved_pos);
None
}
};
stream.expect_complete()?;
stream.expect(&PtxToken::Comma)?;
let c_op = stream
.consume_if(|t| matches!(t, PtxToken::Exclaim))
.is_some();
let c = GeneralOperand::parse(stream)?;
stream.expect_complete()?;
stream.expect_complete()?;
stream.expect(&PtxToken::Semicolon)?;
Ok(BarrierCtaRedOpAlignedPred {
cta,
red,
op,
aligned,
pred,
p,
a,
b,
c_op,
c,
})
}
}
impl PtxParser for BarCtaSync {
fn parse(stream: &mut PtxTokenStream) -> Result<Self, PtxParseError> {
stream.expect_string("bar")?;
let saved_pos = stream.position();
let cta = stream.expect_string(".cta").is_ok();
if !cta {
stream.set_position(saved_pos);
}
stream.expect_complete()?;
stream.expect_string(".sync")?;
let sync = ();
stream.expect_complete()?;
let a = GeneralOperand::parse(stream)?;
stream.expect_complete()?;
let saved_pos = stream.position();
let has_comma = stream.expect(&PtxToken::Comma).is_ok();
if !has_comma {
stream.set_position(saved_pos);
}
let saved_pos = stream.position();
let b = match GeneralOperand::parse(stream) {
Ok(val) => Some(val),
Err(_) => {
stream.set_position(saved_pos);
None
}
};
stream.expect_complete()?;
stream.expect_complete()?;
stream.expect(&PtxToken::Semicolon)?;
Ok(BarCtaSync { cta, sync, a, b })
}
}
impl PtxParser for BarCtaArrive {
fn parse(stream: &mut PtxTokenStream) -> Result<Self, PtxParseError> {
stream.expect_string("bar")?;
let saved_pos = stream.position();
let cta = stream.expect_string(".cta").is_ok();
if !cta {
stream.set_position(saved_pos);
}
stream.expect_complete()?;
stream.expect_string(".arrive")?;
let arrive = ();
stream.expect_complete()?;
let a = GeneralOperand::parse(stream)?;
stream.expect_complete()?;
stream.expect(&PtxToken::Comma)?;
let b = GeneralOperand::parse(stream)?;
stream.expect_complete()?;
stream.expect_complete()?;
stream.expect(&PtxToken::Semicolon)?;
Ok(BarCtaArrive { cta, arrive, a, b })
}
}
impl PtxParser for BarCtaRedPopcU32 {
fn parse(stream: &mut PtxTokenStream) -> Result<Self, PtxParseError> {
stream.expect_string("bar")?;
let saved_pos = stream.position();
let cta = stream.expect_string(".cta").is_ok();
if !cta {
stream.set_position(saved_pos);
}
stream.expect_complete()?;
stream.expect_string(".red")?;
let red = ();
stream.expect_complete()?;
stream.expect_string(".popc")?;
let popc = ();
stream.expect_complete()?;
stream.expect_string(".u32")?;
let u32 = ();
stream.expect_complete()?;
let d = GeneralOperand::parse(stream)?;
stream.expect_complete()?;
stream.expect(&PtxToken::Comma)?;
let a = GeneralOperand::parse(stream)?;
stream.expect_complete()?;
let saved_pos = stream.position();
let has_comma = stream.expect(&PtxToken::Comma).is_ok();
if !has_comma {
stream.set_position(saved_pos);
}
let saved_pos = stream.position();
let b = match GeneralOperand::parse(stream) {
Ok(val) => Some(val),
Err(_) => {
stream.set_position(saved_pos);
None
}
};
stream.expect_complete()?;
stream.expect(&PtxToken::Comma)?;
let c_op = stream
.consume_if(|t| matches!(t, PtxToken::Exclaim))
.is_some();
let c = GeneralOperand::parse(stream)?;
stream.expect_complete()?;
stream.expect_complete()?;
stream.expect(&PtxToken::Semicolon)?;
Ok(BarCtaRedPopcU32 {
cta,
red,
popc,
u32,
d,
a,
b,
c_op,
c,
})
}
}
impl PtxParser for BarCtaRedOpPred {
fn parse(stream: &mut PtxTokenStream) -> Result<Self, PtxParseError> {
stream.expect_string("bar")?;
let saved_pos = stream.position();
let cta = stream.expect_string(".cta").is_ok();
if !cta {
stream.set_position(saved_pos);
}
stream.expect_complete()?;
stream.expect_string(".red")?;
let red = ();
stream.expect_complete()?;
let op = Op::parse(stream)?;
stream.expect_complete()?;
stream.expect_string(".pred")?;
let pred = ();
stream.expect_complete()?;
let p = GeneralOperand::parse(stream)?;
stream.expect_complete()?;
stream.expect(&PtxToken::Comma)?;
let a = GeneralOperand::parse(stream)?;
stream.expect_complete()?;
let saved_pos = stream.position();
let has_comma = stream.expect(&PtxToken::Comma).is_ok();
if !has_comma {
stream.set_position(saved_pos);
}
let saved_pos = stream.position();
let b = match GeneralOperand::parse(stream) {
Ok(val) => Some(val),
Err(_) => {
stream.set_position(saved_pos);
None
}
};
stream.expect_complete()?;
stream.expect(&PtxToken::Comma)?;
let c_op = stream
.consume_if(|t| matches!(t, PtxToken::Exclaim))
.is_some();
let c = GeneralOperand::parse(stream)?;
stream.expect_complete()?;
stream.expect_complete()?;
stream.expect(&PtxToken::Semicolon)?;
Ok(BarCtaRedOpPred {
cta,
red,
op,
pred,
p,
a,
b,
c_op,
c,
})
}
}
}