#![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::tcgen05_ld::section_0::*;
impl PtxParser for Num {
fn parse(stream: &mut PtxTokenStream) -> Result<Self, PtxParseError> {
{
let saved_pos = stream.position();
if stream.expect_string(".x128").is_ok() {
return Ok(Num::X128);
}
stream.set_position(saved_pos);
}
let saved_pos = stream.position();
{
let saved_pos = stream.position();
if stream.expect_string(".x16").is_ok() {
return Ok(Num::X16);
}
stream.set_position(saved_pos);
}
stream.set_position(saved_pos);
let saved_pos = stream.position();
{
let saved_pos = stream.position();
if stream.expect_string(".x32").is_ok() {
return Ok(Num::X32);
}
stream.set_position(saved_pos);
}
stream.set_position(saved_pos);
let saved_pos = stream.position();
{
let saved_pos = stream.position();
if stream.expect_string(".x64").is_ok() {
return Ok(Num::X64);
}
stream.set_position(saved_pos);
}
stream.set_position(saved_pos);
let saved_pos = stream.position();
{
let saved_pos = stream.position();
if stream.expect_string(".x1").is_ok() {
return Ok(Num::X1);
}
stream.set_position(saved_pos);
}
stream.set_position(saved_pos);
let saved_pos = stream.position();
{
let saved_pos = stream.position();
if stream.expect_string(".x2").is_ok() {
return Ok(Num::X2);
}
stream.set_position(saved_pos);
}
stream.set_position(saved_pos);
let saved_pos = stream.position();
{
let saved_pos = stream.position();
if stream.expect_string(".x4").is_ok() {
return Ok(Num::X4);
}
stream.set_position(saved_pos);
}
stream.set_position(saved_pos);
let saved_pos = stream.position();
{
let saved_pos = stream.position();
if stream.expect_string(".x8").is_ok() {
return Ok(Num::X8);
}
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 = &[".x128", ".x16", ".x32", ".x64", ".x1", ".x2", ".x4", ".x8"];
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 Pack {
fn parse(stream: &mut PtxTokenStream) -> Result<Self, PtxParseError> {
{
let saved_pos = stream.position();
if stream.expect_string(".pack::16b").is_ok() {
return Ok(Pack::Pack16b);
}
stream.set_position(saved_pos);
}
let span = stream
.peek()
.map(|(_, s)| s.clone())
.unwrap_or(Span { start: 0, end: 0 });
let expected = &[".pack::16b"];
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 Redop {
fn parse(stream: &mut PtxTokenStream) -> Result<Self, PtxParseError> {
{
let saved_pos = stream.position();
if stream.expect_string(".min").is_ok() {
return Ok(Redop::Min);
}
stream.set_position(saved_pos);
}
let saved_pos = stream.position();
{
let saved_pos = stream.position();
if stream.expect_string(".max").is_ok() {
return Ok(Redop::Max);
}
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 = &[".min", ".max"];
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 Shape1 {
fn parse(stream: &mut PtxTokenStream) -> Result<Self, PtxParseError> {
{
let saved_pos = stream.position();
if stream.expect_string(".16x128b").is_ok() {
return Ok(Shape1::_16x128b);
}
stream.set_position(saved_pos);
}
let saved_pos = stream.position();
{
let saved_pos = stream.position();
if stream.expect_string(".16x256b").is_ok() {
return Ok(Shape1::_16x256b);
}
stream.set_position(saved_pos);
}
stream.set_position(saved_pos);
let saved_pos = stream.position();
{
let saved_pos = stream.position();
if stream.expect_string(".16x64b").is_ok() {
return Ok(Shape1::_16x64b);
}
stream.set_position(saved_pos);
}
stream.set_position(saved_pos);
let saved_pos = stream.position();
{
let saved_pos = stream.position();
if stream.expect_string(".32x32b").is_ok() {
return Ok(Shape1::_32x32b);
}
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 = &[".16x128b", ".16x256b", ".16x64b", ".32x32b"];
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 Shape2 {
fn parse(stream: &mut PtxTokenStream) -> Result<Self, PtxParseError> {
{
let saved_pos = stream.position();
if stream.expect_string(".16x32bx2").is_ok() {
return Ok(Shape2::_16x32bx2);
}
stream.set_position(saved_pos);
}
let span = stream
.peek()
.map(|(_, s)| s.clone())
.unwrap_or(Span { start: 0, end: 0 });
let expected = &[".16x32bx2"];
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 Shape3 {
fn parse(stream: &mut PtxTokenStream) -> Result<Self, PtxParseError> {
{
let saved_pos = stream.position();
if stream.expect_string(".32x32b").is_ok() {
return Ok(Shape3::_32x32b);
}
stream.set_position(saved_pos);
}
let span = stream
.peek()
.map(|(_, s)| s.clone())
.unwrap_or(Span { start: 0, end: 0 });
let expected = &[".32x32b"];
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 Shape4 {
fn parse(stream: &mut PtxTokenStream) -> Result<Self, PtxParseError> {
{
let saved_pos = stream.position();
if stream.expect_string(".16x32bx2").is_ok() {
return Ok(Shape4::_16x32bx2);
}
stream.set_position(saved_pos);
}
let span = stream
.peek()
.map(|(_, s)| s.clone())
.unwrap_or(Span { start: 0, end: 0 });
let expected = &[".16x32bx2"];
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 Type {
fn parse(stream: &mut PtxTokenStream) -> Result<Self, PtxParseError> {
{
let saved_pos = stream.position();
if stream.expect_string(".u32").is_ok() {
return Ok(Type::U32);
}
stream.set_position(saved_pos);
}
let saved_pos = stream.position();
{
let saved_pos = stream.position();
if stream.expect_string(".s32").is_ok() {
return Ok(Type::S32);
}
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 = &[".u32", ".s32"];
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 Tcgen05LdSyncAlignedShape1NumPackB32 {
fn parse(stream: &mut PtxTokenStream) -> Result<Self, PtxParseError> {
stream.expect_string("tcgen05")?;
stream.expect_string(".ld")?;
let ld = ();
stream.expect_complete()?;
stream.expect_string(".sync")?;
let sync = ();
stream.expect_complete()?;
stream.expect_string(".aligned")?;
let aligned = ();
stream.expect_complete()?;
let shape1 = Shape1::parse(stream)?;
stream.expect_complete()?;
let num = Num::parse(stream)?;
stream.expect_complete()?;
let saved_pos = stream.position();
let pack = match Pack::parse(stream) {
Ok(val) => Some(val),
Err(_) => {
stream.set_position(saved_pos);
None
}
};
stream.expect_complete()?;
stream.expect_string(".b32")?;
let b32 = ();
stream.expect_complete()?;
let r = GeneralOperand::parse(stream)?;
stream.expect_complete()?;
stream.expect(&PtxToken::Comma)?;
let taddr = AddressOperand::parse(stream)?;
stream.expect_complete()?;
stream.expect_complete()?;
stream.expect(&PtxToken::Semicolon)?;
Ok(Tcgen05LdSyncAlignedShape1NumPackB32 {
ld,
sync,
aligned,
shape1,
num,
pack,
b32,
r,
taddr,
})
}
}
impl PtxParser for Tcgen05LdSyncAlignedShape2NumPackB32 {
fn parse(stream: &mut PtxTokenStream) -> Result<Self, PtxParseError> {
stream.expect_string("tcgen05")?;
stream.expect_string(".ld")?;
let ld = ();
stream.expect_complete()?;
stream.expect_string(".sync")?;
let sync = ();
stream.expect_complete()?;
stream.expect_string(".aligned")?;
let aligned = ();
stream.expect_complete()?;
let shape2 = Shape2::parse(stream)?;
stream.expect_complete()?;
let num = Num::parse(stream)?;
stream.expect_complete()?;
let saved_pos = stream.position();
let pack = match Pack::parse(stream) {
Ok(val) => Some(val),
Err(_) => {
stream.set_position(saved_pos);
None
}
};
stream.expect_complete()?;
stream.expect_string(".b32")?;
let b32 = ();
stream.expect_complete()?;
let r = GeneralOperand::parse(stream)?;
stream.expect_complete()?;
stream.expect(&PtxToken::Comma)?;
let taddr = AddressOperand::parse(stream)?;
stream.expect_complete()?;
stream.expect(&PtxToken::Comma)?;
let immhalfsplitoff = GeneralOperand::parse(stream)?;
stream.expect_complete()?;
stream.expect_complete()?;
stream.expect(&PtxToken::Semicolon)?;
Ok(Tcgen05LdSyncAlignedShape2NumPackB32 {
ld,
sync,
aligned,
shape2,
num,
pack,
b32,
r,
taddr,
immhalfsplitoff,
})
}
}
impl PtxParser for Tcgen05LdRedSyncAlignedShape3NumRedopAbsNanF32 {
fn parse(stream: &mut PtxTokenStream) -> Result<Self, PtxParseError> {
stream.expect_string("tcgen05")?;
stream.expect_string(".ld")?;
let ld = ();
stream.expect_complete()?;
stream.expect_string(".red")?;
let red = ();
stream.expect_complete()?;
stream.expect_string(".sync")?;
let sync = ();
stream.expect_complete()?;
stream.expect_string(".aligned")?;
let aligned = ();
stream.expect_complete()?;
let shape3 = Shape3::parse(stream)?;
stream.expect_complete()?;
let num = Num::parse(stream)?;
stream.expect_complete()?;
let redop = Redop::parse(stream)?;
stream.expect_complete()?;
let saved_pos = stream.position();
let abs = stream.expect_string(".abs").is_ok();
if !abs {
stream.set_position(saved_pos);
}
stream.expect_complete()?;
let saved_pos = stream.position();
let nan = stream.expect_string(".NaN").is_ok();
if !nan {
stream.set_position(saved_pos);
}
stream.expect_complete()?;
stream.expect_string(".f32")?;
let f32 = ();
stream.expect_complete()?;
let r = GeneralOperand::parse(stream)?;
stream.expect_complete()?;
stream.expect(&PtxToken::Comma)?;
let redval = GeneralOperand::parse(stream)?;
stream.expect_complete()?;
stream.expect(&PtxToken::Comma)?;
let taddr = AddressOperand::parse(stream)?;
stream.expect_complete()?;
stream.expect_complete()?;
stream.expect(&PtxToken::Semicolon)?;
Ok(Tcgen05LdRedSyncAlignedShape3NumRedopAbsNanF32 {
ld,
red,
sync,
aligned,
shape3,
num,
redop,
abs,
nan,
f32,
r,
redval,
taddr,
})
}
}
impl PtxParser for Tcgen05LdRedSyncAlignedShape4NumRedopAbsNanF32 {
fn parse(stream: &mut PtxTokenStream) -> Result<Self, PtxParseError> {
stream.expect_string("tcgen05")?;
stream.expect_string(".ld")?;
let ld = ();
stream.expect_complete()?;
stream.expect_string(".red")?;
let red = ();
stream.expect_complete()?;
stream.expect_string(".sync")?;
let sync = ();
stream.expect_complete()?;
stream.expect_string(".aligned")?;
let aligned = ();
stream.expect_complete()?;
let shape4 = Shape4::parse(stream)?;
stream.expect_complete()?;
let num = Num::parse(stream)?;
stream.expect_complete()?;
let redop = Redop::parse(stream)?;
stream.expect_complete()?;
let saved_pos = stream.position();
let abs = stream.expect_string(".abs").is_ok();
if !abs {
stream.set_position(saved_pos);
}
stream.expect_complete()?;
let saved_pos = stream.position();
let nan = stream.expect_string(".NaN").is_ok();
if !nan {
stream.set_position(saved_pos);
}
stream.expect_complete()?;
stream.expect_string(".f32")?;
let f32 = ();
stream.expect_complete()?;
let r = GeneralOperand::parse(stream)?;
stream.expect_complete()?;
stream.expect(&PtxToken::Comma)?;
let redval = GeneralOperand::parse(stream)?;
stream.expect_complete()?;
stream.expect(&PtxToken::Comma)?;
let taddr = AddressOperand::parse(stream)?;
stream.expect_complete()?;
stream.expect(&PtxToken::Comma)?;
let immhalfsplitoff = GeneralOperand::parse(stream)?;
stream.expect_complete()?;
stream.expect_complete()?;
stream.expect(&PtxToken::Semicolon)?;
Ok(Tcgen05LdRedSyncAlignedShape4NumRedopAbsNanF32 {
ld,
red,
sync,
aligned,
shape4,
num,
redop,
abs,
nan,
f32,
r,
redval,
taddr,
immhalfsplitoff,
})
}
}
impl PtxParser for Tcgen05LdRedSyncAlignedShape3NumRedopType {
fn parse(stream: &mut PtxTokenStream) -> Result<Self, PtxParseError> {
stream.expect_string("tcgen05")?;
stream.expect_string(".ld")?;
let ld = ();
stream.expect_complete()?;
stream.expect_string(".red")?;
let red = ();
stream.expect_complete()?;
stream.expect_string(".sync")?;
let sync = ();
stream.expect_complete()?;
stream.expect_string(".aligned")?;
let aligned = ();
stream.expect_complete()?;
let shape3 = Shape3::parse(stream)?;
stream.expect_complete()?;
let num = Num::parse(stream)?;
stream.expect_complete()?;
let redop = Redop::parse(stream)?;
stream.expect_complete()?;
let type_ = Type::parse(stream)?;
stream.expect_complete()?;
let r = GeneralOperand::parse(stream)?;
stream.expect_complete()?;
stream.expect(&PtxToken::Comma)?;
let redval = GeneralOperand::parse(stream)?;
stream.expect_complete()?;
stream.expect(&PtxToken::Comma)?;
let taddr = AddressOperand::parse(stream)?;
stream.expect_complete()?;
stream.expect_complete()?;
stream.expect(&PtxToken::Semicolon)?;
Ok(Tcgen05LdRedSyncAlignedShape3NumRedopType {
ld,
red,
sync,
aligned,
shape3,
num,
redop,
type_,
r,
redval,
taddr,
})
}
}
impl PtxParser for Tcgen05LdRedSyncAlignedShape4NumRedopType {
fn parse(stream: &mut PtxTokenStream) -> Result<Self, PtxParseError> {
stream.expect_string("tcgen05")?;
stream.expect_string(".ld")?;
let ld = ();
stream.expect_complete()?;
stream.expect_string(".red")?;
let red = ();
stream.expect_complete()?;
stream.expect_string(".sync")?;
let sync = ();
stream.expect_complete()?;
stream.expect_string(".aligned")?;
let aligned = ();
stream.expect_complete()?;
let shape4 = Shape4::parse(stream)?;
stream.expect_complete()?;
let num = Num::parse(stream)?;
stream.expect_complete()?;
let redop = Redop::parse(stream)?;
stream.expect_complete()?;
let type_ = Type::parse(stream)?;
stream.expect_complete()?;
let r = GeneralOperand::parse(stream)?;
stream.expect_complete()?;
stream.expect(&PtxToken::Comma)?;
let redval = GeneralOperand::parse(stream)?;
stream.expect_complete()?;
stream.expect(&PtxToken::Comma)?;
let taddr = AddressOperand::parse(stream)?;
stream.expect_complete()?;
stream.expect(&PtxToken::Comma)?;
let immhalfsplitoff = GeneralOperand::parse(stream)?;
stream.expect_complete()?;
stream.expect_complete()?;
stream.expect(&PtxToken::Semicolon)?;
Ok(Tcgen05LdRedSyncAlignedShape4NumRedopType {
ld,
red,
sync,
aligned,
shape4,
num,
redop,
type_,
r,
redval,
taddr,
immhalfsplitoff,
})
}
}
}