ptx-90-parser 0.4.4

Parse NVIDIA PTX 9.0 assembly into a structured AST and explore modules via a CLI.
Documentation 
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157

//! Original PTX specification:
//!
//! slct.dtype.s32        d, a, b, c;
//! slct{.ftz}.dtype.f32  d, a, b, c;
//! .dtype = { .b16, .b32, .b64,
//! .u16, .u32, .u64,
//! .s16, .s32, .s64,
//! .f32, .f64 };

#![allow(unused)]

use crate::lexer::PtxToken;
use crate::unparser::{PtxUnparser, common::*};

pub mod section_0 {
    use super::*;
    use crate::r#type::instruction::slct::section_0::*;

    impl PtxUnparser for SlctDtypeS32 {
        fn unparse_tokens(&self, tokens: &mut ::std::vec::Vec<PtxToken>) {
            self.unparse_tokens_mode(tokens, false);
        }
        fn unparse_tokens_mode(&self, tokens: &mut ::std::vec::Vec<PtxToken>, spaced: bool) {
            push_opcode(tokens, "slct");
            match &self.dtype {
                Dtype::B16 => {
                    push_directive(tokens, "b16");
                }
                Dtype::B32 => {
                    push_directive(tokens, "b32");
                }
                Dtype::B64 => {
                    push_directive(tokens, "b64");
                }
                Dtype::U16 => {
                    push_directive(tokens, "u16");
                }
                Dtype::U32 => {
                    push_directive(tokens, "u32");
                }
                Dtype::U64 => {
                    push_directive(tokens, "u64");
                }
                Dtype::S16 => {
                    push_directive(tokens, "s16");
                }
                Dtype::S32 => {
                    push_directive(tokens, "s32");
                }
                Dtype::S64 => {
                    push_directive(tokens, "s64");
                }
                Dtype::F32 => {
                    push_directive(tokens, "f32");
                }
                Dtype::F64 => {
                    push_directive(tokens, "f64");
                }
            }
            push_directive(tokens, "s32");
            if spaced {
                tokens.push(PtxToken::Space);
            }
            self.d.unparse_tokens_mode(tokens, spaced);
            tokens.push(PtxToken::Comma);
            if spaced {
                tokens.push(PtxToken::Space);
            }
            self.a.unparse_tokens_mode(tokens, spaced);
            tokens.push(PtxToken::Comma);
            if spaced {
                tokens.push(PtxToken::Space);
            }
            self.b.unparse_tokens_mode(tokens, spaced);
            tokens.push(PtxToken::Comma);
            if spaced {
                tokens.push(PtxToken::Space);
            }
            self.c.unparse_tokens_mode(tokens, spaced);
            tokens.push(PtxToken::Semicolon);
            if spaced {
                tokens.push(PtxToken::Newline);
            }
        }
    }

    impl PtxUnparser for SlctFtzDtypeF32 {
        fn unparse_tokens(&self, tokens: &mut ::std::vec::Vec<PtxToken>) {
            self.unparse_tokens_mode(tokens, false);
        }
        fn unparse_tokens_mode(&self, tokens: &mut ::std::vec::Vec<PtxToken>, spaced: bool) {
            push_opcode(tokens, "slct");
            if self.ftz {
                push_directive(tokens, "ftz");
            }
            match &self.dtype {
                Dtype::B16 => {
                    push_directive(tokens, "b16");
                }
                Dtype::B32 => {
                    push_directive(tokens, "b32");
                }
                Dtype::B64 => {
                    push_directive(tokens, "b64");
                }
                Dtype::U16 => {
                    push_directive(tokens, "u16");
                }
                Dtype::U32 => {
                    push_directive(tokens, "u32");
                }
                Dtype::U64 => {
                    push_directive(tokens, "u64");
                }
                Dtype::S16 => {
                    push_directive(tokens, "s16");
                }
                Dtype::S32 => {
                    push_directive(tokens, "s32");
                }
                Dtype::S64 => {
                    push_directive(tokens, "s64");
                }
                Dtype::F32 => {
                    push_directive(tokens, "f32");
                }
                Dtype::F64 => {
                    push_directive(tokens, "f64");
                }
            }
            push_directive(tokens, "f32");
            if spaced {
                tokens.push(PtxToken::Space);
            }
            self.d.unparse_tokens_mode(tokens, spaced);
            tokens.push(PtxToken::Comma);
            if spaced {
                tokens.push(PtxToken::Space);
            }
            self.a.unparse_tokens_mode(tokens, spaced);
            tokens.push(PtxToken::Comma);
            if spaced {
                tokens.push(PtxToken::Space);
            }
            self.b.unparse_tokens_mode(tokens, spaced);
            tokens.push(PtxToken::Comma);
            if spaced {
                tokens.push(PtxToken::Space);
            }
            self.c.unparse_tokens_mode(tokens, spaced);
            tokens.push(PtxToken::Semicolon);
            if spaced {
                tokens.push(PtxToken::Newline);
            }
        }
    }
}