#![allow(unused)]
use crate::lexer::PtxToken;
use crate::unparser::{PtxUnparser, common::*};
pub mod section_0 {
use super::*;
use crate::r#type::instruction::mbarrier_test_wait::section_0::*;
impl PtxUnparser for MbarrierTestWaitSemScopeStateB64 {
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, "mbarrier");
push_directive(tokens, "test_wait");
if let Some(sem_0) = self.sem.as_ref() {
match sem_0 {
Sem::Acquire => {
push_directive(tokens, "acquire");
}
Sem::Relaxed => {
push_directive(tokens, "relaxed");
}
}
}
if let Some(scope_1) = self.scope.as_ref() {
match scope_1 {
Scope::Cluster => {
push_directive(tokens, "cluster");
}
Scope::Cta => {
push_directive(tokens, "cta");
}
}
}
if let Some(state_2) = self.state.as_ref() {
match state_2 {
State::SharedCta => {
push_directive(tokens, "shared::cta");
}
State::Shared => {
push_directive(tokens, "shared");
}
}
}
push_directive(tokens, "b64");
if spaced {
tokens.push(PtxToken::Space);
}
self.waitcomplete.unparse_tokens_mode(tokens, spaced);
tokens.push(PtxToken::Comma);
if spaced {
tokens.push(PtxToken::Space);
}
self.addr.unparse_tokens_mode(tokens, spaced);
tokens.push(PtxToken::Comma);
if spaced {
tokens.push(PtxToken::Space);
}
self.state2.unparse_tokens_mode(tokens, spaced);
tokens.push(PtxToken::Semicolon);
if spaced {
tokens.push(PtxToken::Newline);
}
}
}
impl PtxUnparser for MbarrierTestWaitParitySemScopeStateB64 {
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, "mbarrier");
push_directive(tokens, "test_wait");
push_directive(tokens, "parity");
if let Some(sem_3) = self.sem.as_ref() {
match sem_3 {
Sem::Acquire => {
push_directive(tokens, "acquire");
}
Sem::Relaxed => {
push_directive(tokens, "relaxed");
}
}
}
if let Some(scope_4) = self.scope.as_ref() {
match scope_4 {
Scope::Cluster => {
push_directive(tokens, "cluster");
}
Scope::Cta => {
push_directive(tokens, "cta");
}
}
}
if let Some(state_5) = self.state.as_ref() {
match state_5 {
State::SharedCta => {
push_directive(tokens, "shared::cta");
}
State::Shared => {
push_directive(tokens, "shared");
}
}
}
push_directive(tokens, "b64");
if spaced {
tokens.push(PtxToken::Space);
}
self.waitcomplete.unparse_tokens_mode(tokens, spaced);
tokens.push(PtxToken::Comma);
if spaced {
tokens.push(PtxToken::Space);
}
self.addr.unparse_tokens_mode(tokens, spaced);
tokens.push(PtxToken::Comma);
if spaced {
tokens.push(PtxToken::Space);
}
self.phaseparity.unparse_tokens_mode(tokens, spaced);
tokens.push(PtxToken::Semicolon);
if spaced {
tokens.push(PtxToken::Newline);
}
}
}
impl PtxUnparser for MbarrierTryWaitSemScopeStateB64 {
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, "mbarrier");
push_directive(tokens, "try_wait");
if let Some(sem_6) = self.sem.as_ref() {
match sem_6 {
Sem::Acquire => {
push_directive(tokens, "acquire");
}
Sem::Relaxed => {
push_directive(tokens, "relaxed");
}
}
}
if let Some(scope_7) = self.scope.as_ref() {
match scope_7 {
Scope::Cluster => {
push_directive(tokens, "cluster");
}
Scope::Cta => {
push_directive(tokens, "cta");
}
}
}
if let Some(state_8) = self.state.as_ref() {
match state_8 {
State::SharedCta => {
push_directive(tokens, "shared::cta");
}
State::Shared => {
push_directive(tokens, "shared");
}
}
}
push_directive(tokens, "b64");
if spaced {
tokens.push(PtxToken::Space);
}
self.waitcomplete.unparse_tokens_mode(tokens, spaced);
tokens.push(PtxToken::Comma);
if spaced {
tokens.push(PtxToken::Space);
}
self.addr.unparse_tokens_mode(tokens, spaced);
tokens.push(PtxToken::Comma);
if spaced {
tokens.push(PtxToken::Space);
}
self.state2.unparse_tokens_mode(tokens, spaced);
if self.suspendtimehint.is_some() {
tokens.push(PtxToken::Comma);
}
if let Some(opt_9) = self.suspendtimehint.as_ref() {
if spaced {
tokens.push(PtxToken::Space);
}
opt_9.unparse_tokens_mode(tokens, spaced);
}
tokens.push(PtxToken::Semicolon);
if spaced {
tokens.push(PtxToken::Newline);
}
}
}
impl PtxUnparser for MbarrierTryWaitParitySemScopeStateB64 {
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, "mbarrier");
push_directive(tokens, "try_wait");
push_directive(tokens, "parity");
if let Some(sem_10) = self.sem.as_ref() {
match sem_10 {
Sem::Acquire => {
push_directive(tokens, "acquire");
}
Sem::Relaxed => {
push_directive(tokens, "relaxed");
}
}
}
if let Some(scope_11) = self.scope.as_ref() {
match scope_11 {
Scope::Cluster => {
push_directive(tokens, "cluster");
}
Scope::Cta => {
push_directive(tokens, "cta");
}
}
}
if let Some(state_12) = self.state.as_ref() {
match state_12 {
State::SharedCta => {
push_directive(tokens, "shared::cta");
}
State::Shared => {
push_directive(tokens, "shared");
}
}
}
push_directive(tokens, "b64");
if spaced {
tokens.push(PtxToken::Space);
}
self.waitcomplete.unparse_tokens_mode(tokens, spaced);
tokens.push(PtxToken::Comma);
if spaced {
tokens.push(PtxToken::Space);
}
self.addr.unparse_tokens_mode(tokens, spaced);
tokens.push(PtxToken::Comma);
if spaced {
tokens.push(PtxToken::Space);
}
self.phaseparity.unparse_tokens_mode(tokens, spaced);
if self.suspendtimehint.is_some() {
tokens.push(PtxToken::Comma);
}
if let Some(opt_13) = self.suspendtimehint.as_ref() {
if spaced {
tokens.push(PtxToken::Space);
}
opt_13.unparse_tokens_mode(tokens, spaced);
}
tokens.push(PtxToken::Semicolon);
if spaced {
tokens.push(PtxToken::Newline);
}
}
}
}