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// This code is part of Qiskit. | ||
// | ||
// (C) Copyright IBM 2024 | ||
// | ||
// This code is licensed under the Apache License, Version 2.0. You may | ||
// obtain a copy of this license in the LICENSE.txt file in the root directory | ||
// of this source tree or at http://www.apache.org/licenses/LICENSE-2.0. | ||
// | ||
// Any modifications or derivative works of this code must retain this | ||
// copyright notice, and modified files need to carry a notice indicating | ||
// that they have been altered from the originals. | ||
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||
use pyo3::exceptions::PyValueError; | ||
use pyo3::prelude::*; | ||
use pyo3::types::PyString; | ||
use pyo3::Python; | ||
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/// Affect the dynamic scaling of the weight of node-set-based heuristics (basic and lookahead). | ||
#[pyclass] | ||
#[pyo3(module = "qiskit._accelerate.sabre", frozen)] | ||
#[derive(Clone, Copy, PartialEq, Eq)] | ||
pub enum SetScaling { | ||
/// No dynamic scaling of the weight. | ||
Constant, | ||
/// Scale the weight by the current number of nodes in the set (e.g., if it contains 5 nodes, | ||
/// the weight will be multiplied by ``0.2``). | ||
Size, | ||
} | ||
#[pymethods] | ||
impl SetScaling { | ||
pub fn __reduce__(&self, py: Python) -> PyResult<Py<PyAny>> { | ||
let name = match self { | ||
SetScaling::Constant => "Constant", | ||
SetScaling::Size => "Size", | ||
}; | ||
Ok(( | ||
py.import_bound("builtins")?.getattr("getattr")?, | ||
(py.get_type_bound::<Self>(), name), | ||
) | ||
.into_py(py)) | ||
} | ||
} | ||
|
||
/// Define the characteristics of the basic heuristic. This is a simple sum of the physical | ||
/// distances of every gate in the front layer. | ||
#[pyclass] | ||
#[pyo3(module = "qiskit._accelerate.sabre", frozen)] | ||
#[derive(Clone, Copy, PartialEq)] | ||
pub struct BasicHeuristic { | ||
/// The relative weighting of this heuristic to others. Typically you should just set this to | ||
/// 1.0 and define everything else in terms of this. | ||
pub weight: f64, | ||
/// Set the dynamic scaling of the weight based on the layer it is applying to. | ||
pub scale: SetScaling, | ||
} | ||
#[pymethods] | ||
impl BasicHeuristic { | ||
#[new] | ||
pub fn new(weight: f64, scale: SetScaling) -> Self { | ||
Self { weight, scale } | ||
} | ||
|
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pub fn __getnewargs__(&self, py: Python) -> Py<PyAny> { | ||
(self.weight, self.scale).into_py(py) | ||
} | ||
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||
pub fn __eq__(&self, py: Python, other: Py<PyAny>) -> bool { | ||
if let Ok(other) = other.extract::<Self>(py) { | ||
self == &other | ||
} else { | ||
false | ||
} | ||
} | ||
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pub fn __repr__(&self, py: Python) -> PyResult<Py<PyAny>> { | ||
let fmt = "BasicHeuristic(weight={!r}, scale={!r})"; | ||
Ok(PyString::new_bound(py, fmt) | ||
.call_method1("format", (self.weight, self.scale))? | ||
.into_py(py)) | ||
} | ||
} | ||
|
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/// Define the characteristics of the lookahead heuristic. This is a sum of the physical distances | ||
/// of every gate in the lookahead set, which is gates immediately after the front layer. | ||
#[pyclass] | ||
#[pyo3(module = "qiskit._accelerate.sabre", frozen)] | ||
#[derive(Clone, Copy, PartialEq)] | ||
pub struct LookaheadHeuristic { | ||
/// The relative weight of this heuristic. Typically this is defined relative to the | ||
/// :class:`.BasicHeuristic`, which generally has its weight set to 1.0. | ||
pub weight: f64, | ||
/// Number of gates to consider in the heuristic. | ||
pub size: usize, | ||
/// Dynamic scaling of the heuristic weight depending on the lookahead set. | ||
pub scale: SetScaling, | ||
} | ||
#[pymethods] | ||
impl LookaheadHeuristic { | ||
#[new] | ||
pub fn new(weight: f64, size: usize, scale: SetScaling) -> Self { | ||
Self { | ||
weight, | ||
size, | ||
scale, | ||
} | ||
} | ||
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pub fn __getnewargs__(&self, py: Python) -> Py<PyAny> { | ||
(self.weight, self.size, self.scale).into_py(py) | ||
} | ||
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pub fn __eq__(&self, py: Python, other: Py<PyAny>) -> bool { | ||
if let Ok(other) = other.extract::<Self>(py) { | ||
self == &other | ||
} else { | ||
false | ||
} | ||
} | ||
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pub fn __repr__(&self, py: Python) -> PyResult<Py<PyAny>> { | ||
let fmt = "LookaheadHeuristic(weight={!r}, size={!r}, scale={!r})"; | ||
Ok(PyString::new_bound(py, fmt) | ||
.call_method1("format", (self.weight, self.size, self.scale))? | ||
.into_py(py)) | ||
} | ||
} | ||
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/// Define the characteristics of the "decay" heuristic. In this, each physical qubit has a | ||
/// multiplier associated with it, beginning at 1.0, and has :attr:`increment` added to it each time | ||
/// the qubit is involved in a swap. The final heuristic is calculated by multiplying all other | ||
/// components by the maximum multiplier involved in a given swap. | ||
#[pyclass] | ||
#[pyo3(module = "qiskit._accelerate.sabre", frozen)] | ||
#[derive(Clone, Copy, PartialEq)] | ||
pub struct DecayHeuristic { | ||
/// The amount to add onto the multiplier of a physical qubit when it is used. | ||
pub increment: f64, | ||
/// How frequently (in terms of swaps in the layer) to reset all qubit multipliers back to 1.0. | ||
pub reset: usize, | ||
} | ||
#[pymethods] | ||
impl DecayHeuristic { | ||
#[new] | ||
pub fn new(increment: f64, reset: usize) -> Self { | ||
Self { increment, reset } | ||
} | ||
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pub fn __getnewargs__(&self, py: Python) -> Py<PyAny> { | ||
(self.increment, self.reset).into_py(py) | ||
} | ||
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pub fn __eq__(&self, py: Python, other: Py<PyAny>) -> bool { | ||
if let Ok(other) = other.extract::<Self>(py) { | ||
self == &other | ||
} else { | ||
false | ||
} | ||
} | ||
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pub fn __repr__(&self, py: Python) -> PyResult<Py<PyAny>> { | ||
let fmt = "DecayHeuristic(increment={!r}, reset={!r})"; | ||
Ok(PyString::new_bound(py, fmt) | ||
.call_method1("format", (self.increment, self.reset))? | ||
.into_py(py)) | ||
} | ||
} | ||
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/// A complete description of the heuristic that Sabre will use. See the individual elements for a | ||
/// greater description. | ||
#[pyclass] | ||
#[pyo3(module = "qiskit._accelerate.sabre", frozen)] | ||
#[derive(Clone, PartialEq)] | ||
pub struct Heuristic { | ||
pub basic: Option<BasicHeuristic>, | ||
pub lookahead: Option<LookaheadHeuristic>, | ||
pub decay: Option<DecayHeuristic>, | ||
pub best_epsilon: f64, | ||
pub attempt_limit: usize, | ||
} | ||
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#[pymethods] | ||
impl Heuristic { | ||
/// Construct a new Sabre heuristic. This can either be made directly of the desired | ||
/// components, or you can make an empty heuristic and use the ``with_*`` methods to add | ||
/// components to it. | ||
/// | ||
/// Args: | ||
/// attempt_limit (int): the maximum number of swaps to attempt before using a fallback | ||
/// "escape" mechanism to forcibly route a gate. Set this to ``None`` to entirely | ||
/// disable the mechanism, but beware that it's possible (on large coupling maps with a | ||
/// lookahead heuristic component) for Sabre to get stuck in an inescapable arbitrarily | ||
/// deep local minimum of the heuristic. If this happens, and the escape mechanism is | ||
/// disabled entirely, Sabre will enter an infinite loop. | ||
/// best_epsilon (float): the floating-point epsilon to use when comparing scores to find | ||
/// the best value. | ||
#[new] | ||
#[pyo3(signature = (basic=None, lookahead=None, decay=None, attempt_limit=1000, best_epsilon=1e-10))] | ||
pub fn new( | ||
basic: Option<BasicHeuristic>, | ||
lookahead: Option<LookaheadHeuristic>, | ||
decay: Option<DecayHeuristic>, | ||
attempt_limit: Option<usize>, | ||
best_epsilon: f64, | ||
) -> Self { | ||
Self { | ||
basic, | ||
lookahead, | ||
decay, | ||
best_epsilon, | ||
attempt_limit: attempt_limit.unwrap_or(usize::MAX), | ||
} | ||
} | ||
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pub fn __getnewargs__(&self, py: Python) -> Py<PyAny> { | ||
( | ||
self.basic, | ||
self.lookahead, | ||
self.decay, | ||
self.attempt_limit, | ||
self.best_epsilon, | ||
) | ||
.into_py(py) | ||
} | ||
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/// Set the weight of the ``basic`` heuristic (the sum of distances of gates in the front | ||
/// layer). This is often set to ``1.0``. You almost certainly should enable this part of the | ||
/// heuristic, or it's highly unlikely that Sabre will be able to make any progress. | ||
pub fn with_basic(&self, weight: f64, scale: SetScaling) -> Self { | ||
Self { | ||
basic: Some(BasicHeuristic { weight, scale }), | ||
..self.clone() | ||
} | ||
} | ||
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/// Set the weight and extended-set size of the ``lookahead`` heuristic. The weight here | ||
/// should typically be less than that of ``basic``. | ||
pub fn with_lookahead(&self, weight: f64, size: usize, scale: SetScaling) -> Self { | ||
Self { | ||
lookahead: Some(LookaheadHeuristic { | ||
weight, | ||
size, | ||
scale, | ||
}), | ||
..self.clone() | ||
} | ||
} | ||
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/// Set the multiplier increment and reset interval of the decay heuristic. The reset interval | ||
/// must be non-zero. | ||
pub fn with_decay(&self, increment: f64, reset: usize) -> PyResult<Self> { | ||
if reset == 0 { | ||
Err(PyValueError::new_err("decay reset interval cannot be zero")) | ||
} else { | ||
Ok(Self { | ||
decay: Some(DecayHeuristic { increment, reset }), | ||
..self.clone() | ||
}) | ||
} | ||
} | ||
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pub fn __eq__(&self, py: Python, other: Py<PyAny>) -> bool { | ||
if let Ok(other) = other.extract::<Self>(py) { | ||
self == &other | ||
} else { | ||
false | ||
} | ||
} | ||
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pub fn __repr__(&self, py: Python) -> PyResult<Py<PyAny>> { | ||
let fmt = "Heuristic(basic={!r}, lookahead={!r}, decay={!r}, attempt_limit={!r}, best_epsilon={!r})"; | ||
Ok(PyString::new_bound(py, fmt) | ||
.call_method1( | ||
"format", | ||
( | ||
self.basic, | ||
self.lookahead, | ||
self.decay, | ||
self.attempt_limit, | ||
self.best_epsilon, | ||
), | ||
)? | ||
.into_py(py)) | ||
} | ||
} |
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