use runmat_builtins::{
BuiltinCompletionPolicy, BuiltinDescriptor, BuiltinErrorDescriptor, BuiltinOutputMode,
BuiltinParamArity, BuiltinParamDescriptor, BuiltinParamType, BuiltinSignatureDescriptor, Value,
};
use runmat_macros::runtime_builtin;
use crate::builtins::common::spec::{
BroadcastSemantics, BuiltinFusionSpec, BuiltinGpuSpec, ConstantStrategy, GpuOpKind,
ReductionNaN, ResidencyPolicy, ShapeRequirements,
};
use crate::builtins::control::tf_model::{output_complex_column, TfModel};
use crate::builtins::control::type_resolvers::zero_type;
use crate::BuiltinResult;
const ZERO_OUTPUT: [BuiltinParamDescriptor; 1] = [BuiltinParamDescriptor {
name: "z",
ty: BuiltinParamType::Any,
arity: BuiltinParamArity::Required,
default: None,
description: "Zeros of the SISO tf model as a column vector.",
}];
const ZERO_INPUTS: [BuiltinParamDescriptor; 1] = [BuiltinParamDescriptor {
name: "sys",
ty: BuiltinParamType::Any,
arity: BuiltinParamArity::Required,
default: None,
description: "SISO tf model.",
}];
const ZERO_SIGNATURES: [BuiltinSignatureDescriptor; 1] = [BuiltinSignatureDescriptor {
label: "z = zero(sys)",
inputs: &ZERO_INPUTS,
outputs: &ZERO_OUTPUT,
}];
const ZERO_ERRORS: [BuiltinErrorDescriptor; 4] = [
BuiltinErrorDescriptor {
code: "RM.ZERO.INVALID_MODEL",
identifier: Some("RunMat:zero:InvalidModel"),
when: "Input system is not a valid SISO tf object.",
message: "zero: invalid model",
},
BuiltinErrorDescriptor {
code: "RM.ZERO.UNSUPPORTED_MODEL",
identifier: Some("RunMat:zero:UnsupportedModel"),
when: "Model form is unsupported.",
message: "zero: unsupported model",
},
BuiltinErrorDescriptor {
code: "RM.ZERO.INVALID_ARGUMENT",
identifier: Some("RunMat:zero:InvalidArgument"),
when: "Model metadata or arguments are malformed.",
message: "zero: invalid argument",
},
BuiltinErrorDescriptor {
code: "RM.ZERO.INTERNAL",
identifier: Some("RunMat:zero:Internal"),
when: "Root calculation or output construction failed.",
message: "zero: internal error",
},
];
pub const ZERO_DESCRIPTOR: BuiltinDescriptor = BuiltinDescriptor {
signatures: &ZERO_SIGNATURES,
output_mode: BuiltinOutputMode::Fixed,
completion_policy: BuiltinCompletionPolicy::Public,
errors: &ZERO_ERRORS,
};
#[runmat_macros::register_gpu_spec(builtin_path = "crate::builtins::control::zero")]
pub const GPU_SPEC: BuiltinGpuSpec = BuiltinGpuSpec {
name: "zero",
op_kind: GpuOpKind::Custom("control-zeros"),
supported_precisions: &[],
broadcast: BroadcastSemantics::None,
provider_hooks: &[],
constant_strategy: ConstantStrategy::InlineLiteral,
residency: ResidencyPolicy::GatherImmediately,
nan_mode: ReductionNaN::Include,
two_pass_threshold: None,
workgroup_size: None,
accepts_nan_mode: false,
notes: "zero computes roots from host-side transfer-function metadata.",
};
#[runmat_macros::register_fusion_spec(builtin_path = "crate::builtins::control::zero")]
pub const FUSION_SPEC: BuiltinFusionSpec = BuiltinFusionSpec {
name: "zero",
shape: ShapeRequirements::Any,
constant_strategy: ConstantStrategy::InlineLiteral,
elementwise: None,
reduction: None,
emits_nan: false,
notes: "zero is model analysis and is not fused.",
};
#[runtime_builtin(
name = "zero",
category = "control",
summary = "Return zeros of SISO transfer-function models.",
keywords = "zero,zeros,control system,transfer function,tf",
type_resolver(zero_type),
descriptor(crate::builtins::control::zero::ZERO_DESCRIPTOR),
builtin_path = "crate::builtins::control::zero"
)]
async fn zero_builtin(sys: Value) -> BuiltinResult<Value> {
let model = TfModel::from_value_async(sys, "zero").await?;
output_complex_column(model.zeros()?, "zero")
}
#[cfg(test)]
mod tests {
use super::*;
use futures::executor::block_on;
use runmat_builtins::Tensor;
#[test]
fn zero_returns_roots_of_numerator() {
let sys = block_on(crate::call_builtin_async(
"tf",
&[
Value::Tensor(Tensor::new(vec![1.0, 3.0, 2.0], vec![1, 3]).unwrap()),
Value::Tensor(Tensor::new(vec![1.0, 4.0], vec![1, 2]).unwrap()),
],
))
.expect("tf");
let Value::Tensor(zeros) = block_on(zero_builtin(sys)).expect("zero") else {
panic!("expected real zeros");
};
assert_eq!(zeros.shape, vec![2, 1]);
assert!(zeros.data.iter().any(|z| (*z + 1.0).abs() < 1.0e-8));
assert!(zeros.data.iter().any(|z| (*z + 2.0).abs() < 1.0e-8));
}
#[test]
fn zero_returns_complex_conjugate_roots() {
let sys = block_on(crate::call_builtin_async(
"tf",
&[
Value::Tensor(Tensor::new(vec![1.0, 0.0, 1.0], vec![1, 3]).unwrap()),
Value::Tensor(Tensor::new(vec![1.0, 1.0], vec![1, 2]).unwrap()),
],
))
.expect("tf");
let Value::ComplexTensor(zeros) = block_on(zero_builtin(sys)).expect("zero") else {
panic!("expected complex zeros");
};
assert_eq!(zeros.shape, vec![2, 1]);
assert!(zeros.data.iter().all(|(re, _)| re.abs() < 1.0e-8));
assert!(zeros.data.iter().any(|(_, im)| (*im - 1.0).abs() < 1.0e-8));
assert!(zeros.data.iter().any(|(_, im)| (*im + 1.0).abs() < 1.0e-8));
}
#[test]
fn zero_static_gain_returns_empty_column() {
let sys = block_on(crate::call_builtin_async(
"tf",
&[Value::Num(5.0), Value::Num(2.0)],
))
.expect("tf");
let Value::Tensor(zeros) = block_on(zero_builtin(sys)).expect("zero") else {
panic!("expected real empty column");
};
assert_eq!(zeros.shape, vec![0, 1]);
assert!(zeros.data.is_empty());
}
}