use crate::ir::{ArgType, ElementType, Node, TensorType};
#[derive(Debug, Clone, new)]
pub struct ArgMinConfig {
pub axis: usize,
pub keepdims: bool,
}
pub fn argmin_config(node: &Node) -> ArgMinConfig {
let mut axis: i64 = 0;
let mut keepdims = true;
if node.inputs.len() != 1 {
panic!(
"ArgMin: multiple inputs are not supported (got {:?})",
node.inputs.len()
);
}
let tensor = match node.inputs.first().unwrap().clone().ty {
ArgType::Tensor(tensor) => tensor,
_ => panic!("Only tensor input is valid"),
};
for (key, value) in node.attrs.iter() {
match key.as_str() {
"axis" => axis = value.clone().into_i64(),
"select_last_index" => {
if value.clone().into_i64() != 0 {
panic!(
"select_last_index=1 is not supported for argmin in burn (got {value:?})"
);
}
}
"keepdims" => {
let keepdims_val = value.clone().into_i64();
if keepdims_val != 0 && keepdims_val != 1 {
panic!(
"Only keepdims=0 or keepdims=1 is supported for argmin in burn (got {value:?})",
);
}
keepdims = keepdims_val != 0;
}
_ => {}
}
}
if axis < 0 {
axis += tensor.rank as i64;
}
ArgMinConfig::new(axis as usize, keepdims)
}
pub fn argmin_update_outputs(node: &mut Node) {
log::debug!("ArgMin rank inference for node {}", node.name);
if node.inputs.len() != 1 {
panic!("ArgMin: multiple inputs are not supported");
}
let tensor = match &node.inputs[0].ty {
ArgType::Tensor(tensor) => tensor,
_ => panic!("Only tensor input is valid"),
};
log::debug!("ArgMin input rank for {}: {}", node.name, tensor.rank);
let config = argmin_config(node);
if config.keepdims {
node.outputs[0].ty = ArgType::Tensor(TensorType {
elem_type: ElementType::Int64,
rank: tensor.rank,
static_shape: None,
});
} else if tensor.rank == 1 {
node.outputs[0].ty = ArgType::Scalar(ElementType::Int64);
} else {
node.outputs[0].ty = ArgType::Tensor(TensorType {
elem_type: ElementType::Int64,
rank: tensor.rank - 1,
static_shape: None,
});
}
log::debug!(
"ArgMin output for {} (keepdims={}): {:?}",
node.name,
config.keepdims,
node.outputs[0].ty
);
}
#[cfg(test)]
mod tests {
#![allow(clippy::bool_assert_comparison)]
use super::*;
use crate::ir::{Argument, ElementType, NodeType};
use crate::node::test_utils::NodeBuilder;
fn create_test_node(axis: i64, select_last_index: i64, keepdims: i64) -> Node {
NodeBuilder::new(NodeType::ArgMin, "test_argmin")
.input_tensor_f32("data", 3, None)
.output_tensor_i64("output", 3, None)
.attr_int("axis", axis)
.attr_int("select_last_index", select_last_index)
.attr_int("keepdims", keepdims)
.build()
}
#[test]
fn test_argmin_config_basic() {
let node = create_test_node(0, 0, 1);
let config = argmin_config(&node);
assert_eq!(config.axis, 0);
assert_eq!(config.keepdims, true);
}
#[test]
fn test_argmin_config_negative_axis() {
let node = create_test_node(-2, 0, 1);
let config = argmin_config(&node);
assert_eq!(config.axis, 1); assert_eq!(config.keepdims, true);
}
#[test]
#[should_panic(expected = "ArgMin: multiple inputs are not supported")]
fn test_argmin_config_multiple_inputs() {
let mut node = create_test_node(0, 0, 1);
node.inputs.push(Argument {
name: "extra".to_string(),
ty: ArgType::Tensor(TensorType {
elem_type: ElementType::Float32,
rank: 1,
static_shape: None,
}),
value: None,
passed: true,
});
let _ = argmin_config(&node);
}
#[test]
fn test_argmin_config_keepdims_supported() {
let node_keepdims_0 = create_test_node(0, 0, 0);
let config_0 = argmin_config(&node_keepdims_0);
assert_eq!(config_0.axis, 0);
assert_eq!(config_0.keepdims, false);
let node_keepdims_1 = create_test_node(0, 0, 1);
let config_1 = argmin_config(&node_keepdims_1);
assert_eq!(config_1.axis, 0);
assert_eq!(config_1.keepdims, true);
}
#[test]
#[should_panic(expected = "Only keepdims=0 or keepdims=1 is supported for argmin in burn")]
fn test_argmin_config_keepdims_invalid() {
let node = create_test_node(0, 0, 2); let _ = argmin_config(&node);
}
#[test]
#[should_panic(expected = "select_last_index=1 is not supported for argmin in burn")]
fn test_argmin_config_select_last_index_invalid() {
let node = create_test_node(0, 1, 1); let _ = argmin_config(&node);
}
#[test]
fn test_argmin_update_outputs_keepdims_0() {
let mut node = NodeBuilder::new(NodeType::ArgMin, "test_argmin_keepdims_0")
.attr_int("axis", 1)
.attr_int("keepdims", 0)
.input_tensor_f32("data", 2, None) .output_tensor_i64("output", 2, None) .build();
argmin_update_outputs(&mut node);
match &node.outputs[0].ty {
ArgType::Tensor(tensor) => {
assert_eq!(tensor.rank, 1);
assert_eq!(tensor.elem_type, crate::ir::ElementType::Int64);
}
other => panic!("Expected tensor output, got {:?}", other),
}
}
#[test]
fn test_argmin_update_outputs_keepdims_1() {
let mut node = NodeBuilder::new(NodeType::ArgMin, "test_argmin_keepdims_1")
.attr_int("axis", 0)
.attr_int("keepdims", 1)
.input_tensor_f32("data", 3, None) .output_tensor_i64("output", 3, None) .build();
argmin_update_outputs(&mut node);
match &node.outputs[0].ty {
ArgType::Tensor(tensor) => {
assert_eq!(tensor.rank, 3);
assert_eq!(tensor.elem_type, crate::ir::ElementType::Int64);
}
other => panic!("Expected tensor output, got {:?}", other),
}
}
#[test]
fn test_argmin_update_outputs_keepdims_0_scalar() {
let mut node = NodeBuilder::new(NodeType::ArgMin, "test_argmin_1d_keepdims_0")
.attr_int("axis", 0)
.attr_int("keepdims", 0)
.input_tensor_f32("data", 1, None) .output_tensor_i64("output", 1, None) .build();
argmin_update_outputs(&mut node);
match &node.outputs[0].ty {
ArgType::Scalar(elem_type) => {
assert_eq!(*elem_type, crate::ir::ElementType::Int64);
}
other => panic!("Expected scalar output, got {:?}", other),
}
}
}