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//! Original PTX specification:
//!
//! // shared::cta -> global
//! cp.reduce.async.bulk.tensor.dim.dst.src.redOp{.load_mode}.completion_mechanism{.level::cache_hint} [tensorMap, tensorCoords], [srcMem] {,cache-policy};
//! .dst = { .global };
//! .src = { .shared::cta };
//! .dim = { .1d, .2d, .3d, .4d, .5d };
//! .completion_mechanism = { .bulk_group };
//! .load_mode = { .tile, .im2col_no_offs };
//! .redOp = { .add, .min, .max, .inc, .dec, .and, .or, .xor};
#![allow(unused)]
use crate::lexer::PtxToken;
use crate::unparser::{PtxUnparser, common::*};
pub mod section_0 {
use super::*;
use crate::r#type::instruction::cp_reduce_async_bulk_tensor::section_0::*;
impl PtxUnparser for CpReduceAsyncBulkTensorDimDstSrcRedopLoadModeCompletionMechanismLevelCacheHint {
fn unparse_tokens(&self, tokens: &mut ::std::vec::Vec<PtxToken>) {
push_opcode(tokens, "cp");
push_directive(tokens, "reduce");
push_directive(tokens, "async");
push_directive(tokens, "bulk");
push_directive(tokens, "tensor");
match &self.dim {
Dim::_1d => {
push_directive(tokens, "1d");
}
Dim::_2d => {
push_directive(tokens, "2d");
}
Dim::_3d => {
push_directive(tokens, "3d");
}
Dim::_4d => {
push_directive(tokens, "4d");
}
Dim::_5d => {
push_directive(tokens, "5d");
}
}
match &self.dst {
Dst::Global => {
push_directive(tokens, "global");
}
}
match &self.src {
Src::SharedCta => {
push_directive(tokens, "shared::cta");
}
}
match &self.redop {
Redop::Add => {
push_directive(tokens, "add");
}
Redop::Min => {
push_directive(tokens, "min");
}
Redop::Max => {
push_directive(tokens, "max");
}
Redop::Inc => {
push_directive(tokens, "inc");
}
Redop::Dec => {
push_directive(tokens, "dec");
}
Redop::And => {
push_directive(tokens, "and");
}
Redop::Xor => {
push_directive(tokens, "xor");
}
Redop::Or => {
push_directive(tokens, "or");
}
}
if let Some(load_mode_0) = self.load_mode.as_ref() {
match load_mode_0 {
LoadMode::Im2colNoOffs => {
push_directive(tokens, "im2col_no_offs");
}
LoadMode::Tile => {
push_directive(tokens, "tile");
}
}
}
match &self.completion_mechanism {
CompletionMechanism::BulkGroup => {
push_directive(tokens, "bulk_group");
}
}
if self.level_cache_hint {
push_directive(tokens, "level::cache_hint");
}
self.tensormap.unparse_tokens(tokens);
tokens.push(PtxToken::Comma);
self.srcmem.unparse_tokens(tokens);
if self.cache_policy.is_some() { tokens.push(PtxToken::Comma); }
if let Some(opt_1) = self.cache_policy.as_ref() {
opt_1.unparse_tokens(tokens);
}
tokens.push(PtxToken::Semicolon);
}
}
}