use super::prelude::*;
impl NodeCodegen for onnx_ir::node::avg_pool1d::AveragePool1dNode {
fn inputs(&self) -> &[Argument] {
&self.inputs
}
fn outputs(&self) -> &[Argument] {
&self.outputs
}
fn field(&self) -> Option<Field> {
let name = Ident::new(&self.name, Span::call_site());
let kernel_size = self.config.kernel_size.to_tokens();
let strides = self.config.stride.to_tokens();
let count_include_pad = self.config.count_include_pad;
let ceil_mode = self.config.ceil_mode;
let shape = self.inputs[0].ty.static_shape_known();
let input_spatial = shape.as_deref().map(|s| &s[2..]);
let padding = crate::burn::codegen::resolve_auto_pad_1d(
&self.config.auto_pad,
&self.config.padding,
input_spatial,
self.config.kernel_size,
self.config.stride,
self.config.dilation,
)
.to_tokens();
Some(Field::new(
self.name.clone(),
quote! {
AvgPool1d
},
quote! {
let #name = AvgPool1dConfig::new(#kernel_size)
.with_stride(#strides)
.with_padding(#padding)
.with_count_include_pad(#count_include_pad)
.with_ceil_mode(#ceil_mode)
.init();
},
))
}
fn forward(&self, scope: &mut ScopeAtPosition<'_>) -> TokenStream {
let input = scope.arg(self.inputs.first().unwrap());
let output = arg_to_ident(self.outputs.first().unwrap());
let field = Ident::new(&self.name, Span::call_site());
quote! {
let #output = self.#field.forward(#input);
}
}
fn register_imports(&self, imports: &mut BurnImports) {
imports.register("burn::nn::pool::AvgPool1d");
imports.register("burn::nn::pool::AvgPool1dConfig");
imports.register("burn::nn::PaddingConfig1d");
}
}
#[cfg(test)]
mod tests {
use super::super::test_helpers::*;
use burn::tensor::DType;
use insta::assert_snapshot;
use onnx_ir::node::avg_pool1d::{AveragePool1dNode, AveragePool1dNodeBuilder, AvgPool1dConfig};
use onnx_ir::padding::{AutoPad, PaddingConfig1d};
fn create_avg_pool1d_node(name: &str, ceil_mode: bool) -> AveragePool1dNode {
let config = AvgPool1dConfig::new(
3,
1,
PaddingConfig1d::Valid,
false,
1,
ceil_mode,
AutoPad::NotSet,
);
AveragePool1dNodeBuilder::new(name)
.input_tensor("input", 3, DType::F32)
.output_tensor("output", 3, DType::F32)
.config(config)
.build()
}
fn create_avg_pool1d_node_asymmetric(name: &str) -> AveragePool1dNode {
let config = AvgPool1dConfig::new(
3,
1,
PaddingConfig1d::Explicit(1, 2),
false,
1,
false,
AutoPad::NotSet,
);
AveragePool1dNodeBuilder::new(name)
.input_tensor("input", 3, DType::F32)
.output_tensor("output", 3, DType::F32)
.config(config)
.build()
}
#[test]
fn test_avg_pool1d_forward() {
let node = create_avg_pool1d_node("pool1", false);
let code = codegen_forward_default(&node);
assert_snapshot!(code, @r"
pub fn forward(&self, input: Tensor<B, 3>) -> Tensor<B, 3> {
let output = self.pool1.forward(input);
output
}
");
}
#[test]
fn test_avg_pool1d_forward_with_clone() {
let node = create_avg_pool1d_node("pool1", false);
let code = codegen_forward_with_clone(&node);
assert_snapshot!(code, @r"
pub fn forward(&self, input: Tensor<B, 3>) -> Tensor<B, 3> {
let output = self.pool1.forward(input.clone());
output
}
");
}
#[test]
fn test_avg_pool1d_field_init_ceil_mode_false() {
let node = create_avg_pool1d_node("pool1", false);
let code = codegen_field_init(&node);
assert_snapshot!(code, @r#"
let pool1 = AvgPool1dConfig::new(3)
.with_stride(1)
.with_padding(PaddingConfig1d::Valid)
.with_count_include_pad(false)
.with_ceil_mode(false)
.init();
"#);
}
#[test]
fn test_avg_pool1d_field_init_ceil_mode_true() {
let node = create_avg_pool1d_node("pool1", true);
let code = codegen_field_init(&node);
assert_snapshot!(code, @r#"
let pool1 = AvgPool1dConfig::new(3)
.with_stride(1)
.with_padding(PaddingConfig1d::Valid)
.with_count_include_pad(false)
.with_ceil_mode(true)
.init();
"#);
}
#[test]
fn test_avg_pool1d_field_init_auto_pad_same_upper() {
let config = AvgPool1dConfig::new(
3,
1,
PaddingConfig1d::Valid,
false,
1,
false,
AutoPad::SameUpper,
);
let node = AveragePool1dNodeBuilder::new("pool1")
.input_tensor_shape("input", vec![1, 3, 7], DType::F32)
.output_tensor("output", 3, DType::F32)
.config(config)
.build();
let code = codegen_field_init(&node);
assert_snapshot!(code, @r#"
let pool1 = AvgPool1dConfig::new(3)
.with_stride(1)
.with_padding(PaddingConfig1d::Explicit(1, 1))
.with_count_include_pad(false)
.with_ceil_mode(false)
.init();
"#);
}
#[test]
fn test_avg_pool1d_field_init_asymmetric_padding() {
let node = create_avg_pool1d_node_asymmetric("pool1");
let code = codegen_field_init(&node);
assert_snapshot!(code, @r"
let pool1 = AvgPool1dConfig::new(3)
.with_stride(1)
.with_padding(PaddingConfig1d::Explicit(1, 2))
.with_count_include_pad(false)
.with_ceil_mode(false)
.init();
");
}
}