ptx_parser/parser/instruction/
rsqrt.rs1#![allow(unused)]
7
8use crate::lexer::PtxToken;
9use crate::parser::{PtxParseError, PtxParser, PtxTokenStream, Span};
10use crate::r#type::common::*;
11
12pub mod section_0 {
13 use super::*;
14 use crate::r#type::instruction::rsqrt::section_0::*;
15
16 impl PtxParser for RsqrtApproxFtzF32 {
17 fn parse(stream: &mut PtxTokenStream) -> Result<Self, PtxParseError> {
18 stream.expect_string("rsqrt")?;
19 stream.expect_string(".approx")?;
20 let approx = ();
21 stream.expect_complete()?;
22 let saved_pos = stream.position();
23 let ftz = stream.expect_string(".ftz").is_ok();
24 if !ftz {
25 stream.set_position(saved_pos);
26 }
27 stream.expect_complete()?;
28 stream.expect_string(".f32")?;
29 let f32 = ();
30 stream.expect_complete()?;
31 let d = GeneralOperand::parse(stream)?;
32 stream.expect_complete()?;
33 stream.expect(&PtxToken::Comma)?;
34 let a = GeneralOperand::parse(stream)?;
35 stream.expect_complete()?;
36 stream.expect_complete()?;
37 stream.expect(&PtxToken::Semicolon)?;
38 Ok(RsqrtApproxFtzF32 {
39 approx,
40 ftz,
41 f32,
42 d,
43 a,
44 })
45 }
46 }
47
48 impl PtxParser for RsqrtApproxF64 {
49 fn parse(stream: &mut PtxTokenStream) -> Result<Self, PtxParseError> {
50 stream.expect_string("rsqrt")?;
51 stream.expect_string(".approx")?;
52 let approx = ();
53 stream.expect_complete()?;
54 stream.expect_string(".f64")?;
55 let f64 = ();
56 stream.expect_complete()?;
57 let d = GeneralOperand::parse(stream)?;
58 stream.expect_complete()?;
59 stream.expect(&PtxToken::Comma)?;
60 let a = GeneralOperand::parse(stream)?;
61 stream.expect_complete()?;
62 stream.expect_complete()?;
63 stream.expect(&PtxToken::Semicolon)?;
64 Ok(RsqrtApproxF64 { approx, f64, d, a })
65 }
66 }
67}