use crate::ir::{Argument, Node, RawNode};
use crate::processor::{
InputSpec, NodeProcessor, NodeSpec, OutputPreferences, OutputSpec, ProcessError, same_as_input,
};
use derive_new::new;
use onnx_ir_derive::NodeBuilder;
#[derive(Debug, Clone, new)]
pub struct SeluConfig {
pub alpha: f64,
pub gamma: f64,
}
#[derive(Debug, Clone, NodeBuilder)]
pub struct SeluNode {
pub name: String,
pub inputs: Vec<Argument>,
pub outputs: Vec<Argument>,
pub config: SeluConfig,
}
pub(crate) struct SeluProcessor;
impl NodeProcessor for SeluProcessor {
type Config = SeluConfig;
fn spec(&self) -> NodeSpec {
NodeSpec {
min_opset: 1,
max_opset: None,
inputs: InputSpec::Exact(1),
outputs: OutputSpec::Exact(1),
}
}
fn infer_types(
&self,
node: &mut RawNode,
_opset: usize,
_output_preferences: &OutputPreferences,
) -> Result<(), ProcessError> {
for (key, _value) in node.attrs.iter() {
match key.as_str() {
"alpha" | "gamma" => {}
_ => {
return Err(ProcessError::InvalidAttribute {
name: key.clone(),
reason: format!("Unexpected attribute for Selu: {}", key),
});
}
}
}
same_as_input(node);
Ok(())
}
fn extract_config(&self, node: &RawNode, _opset: usize) -> Result<Self::Config, ProcessError> {
let mut alpha = 1.673_263_192_176_818_8_f64;
let mut gamma = 1.050_701_022_148_132_3_f64;
for (key, value) in node.attrs.iter() {
match key.as_str() {
"alpha" => alpha = value.clone().into_f32() as f64,
"gamma" => gamma = value.clone().into_f32() as f64,
_ => {}
}
}
Ok(SeluConfig { alpha, gamma })
}
fn build_node(&self, builder: RawNode, opset: usize) -> Node {
let config = self
.extract_config(&builder, opset)
.expect("Config extraction failed");
Node::Selu(SeluNode {
name: builder.name,
inputs: builder.inputs,
outputs: builder.outputs,
config,
})
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate::ir::NodeType;
use crate::node::test_utils::TestNodeBuilder;
fn create_test_node() -> RawNode {
TestNodeBuilder::new(NodeType::Selu, "test_selu")
.input_tensor_f32("X", 4, None)
.output_default("Y")
.build()
}
#[test]
fn test_selu_config_default() {
let node = create_test_node();
let processor = SeluProcessor;
let config = processor.extract_config(&node, 16).unwrap();
assert!((config.alpha - 1.67326319217681884765625).abs() < 1e-6);
assert!((config.gamma - 1.05070102214813232421875).abs() < 1e-6);
}
#[test]
fn test_selu_config_custom() {
let mut node = create_test_node();
node.attrs
.insert("alpha".to_string(), crate::ir::AttributeValue::Float32(2.0));
node.attrs
.insert("gamma".to_string(), crate::ir::AttributeValue::Float32(0.5));
let processor = SeluProcessor;
let config = processor.extract_config(&node, 16).unwrap();
assert!((config.alpha - 2.0).abs() < 1e-6);
assert!((config.gamma - 0.5).abs() < 1e-6);
}
#[test]
fn test_selu_infer_types() {
let mut node = create_test_node();
let processor = SeluProcessor;
let prefs = OutputPreferences::new();
processor.infer_types(&mut node, 16, &prefs).unwrap();
match &node.outputs[0].ty {
crate::ir::ArgType::Tensor(t) => {
assert_eq!(t.rank, 4);
assert_eq!(t.dtype, crate::ir::DType::F32);
}
_ => panic!("Expected tensor output"),
}
}
}