ptx_parser/unparser/instruction/testp.rs
1//! Original PTX specification:
2//!
3//! testp.op.type p, a; // result is .pred
4//! .op = { .finite, .infinite,
5//! .number, .notanumber,
6//! .normal, .subnormal };
7//! .type = { .f32, .f64 };
8
9#![allow(unused)]
10
11use crate::lexer::PtxToken;
12use crate::unparser::{PtxUnparser, common::*};
13
14pub mod section_0 {
15 use super::*;
16 use crate::r#type::instruction::testp::section_0::*;
17
18 impl PtxUnparser for TestpOpType {
19 fn unparse_tokens(&self, tokens: &mut ::std::vec::Vec<PtxToken>) {
20 push_opcode(tokens, "testp");
21 match &self.op {
22 Op::Notanumber => {
23 push_directive(tokens, "notanumber");
24 }
25 Op::Subnormal => {
26 push_directive(tokens, "subnormal");
27 }
28 Op::Infinite => {
29 push_directive(tokens, "infinite");
30 }
31 Op::Finite => {
32 push_directive(tokens, "finite");
33 }
34 Op::Number => {
35 push_directive(tokens, "number");
36 }
37 Op::Normal => {
38 push_directive(tokens, "normal");
39 }
40 }
41 match &self.type_ {
42 Type::F32 => {
43 push_directive(tokens, "f32");
44 }
45 Type::F64 => {
46 push_directive(tokens, "f64");
47 }
48 }
49 self.p.unparse_tokens(tokens);
50 tokens.push(PtxToken::Comma);
51 self.a.unparse_tokens(tokens);
52 tokens.push(PtxToken::Semicolon);
53 }
54 }
55
56}
57