112 lines
3.1 KiB
Rust
112 lines
3.1 KiB
Rust
use crate::to_pyerr;
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use pyo3::{
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basic::CompareOp,
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prelude::*,
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types::{PyTuple, PyType},
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};
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use serde::{Deserialize, Serialize};
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use tantivy::schema;
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/// A Facet represent a point in a given hierarchy.
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///
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/// They are typically represented similarly to a filepath. For instance, an
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/// e-commerce website could have a Facet for /electronics/tv_and_video/led_tv.
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///
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/// A document can be associated to any number of facets. The hierarchy
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/// implicitely imply that a document belonging to a facet also belongs to the
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/// ancestor of its facet. In the example above, /electronics/tv_and_video/
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/// and /electronics.
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#[pyclass(frozen, module = "tantivy")]
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#[derive(Clone, Deserialize, PartialEq, Serialize)]
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pub(crate) struct Facet {
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pub(crate) inner: schema::Facet,
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}
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#[pymethods]
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impl Facet {
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/// Creates a `Facet` from its binary representation.
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#[staticmethod]
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fn from_encoded(encoded_bytes: Vec<u8>) -> PyResult<Self> {
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let inner =
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schema::Facet::from_encoded(encoded_bytes).map_err(to_pyerr)?;
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Ok(Self { inner })
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}
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/// Create a new instance of the "root facet" Equivalent to /.
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#[classmethod]
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fn root(_cls: &PyType) -> Facet {
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Facet {
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inner: schema::Facet::root(),
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}
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}
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/// Returns true if the facet is the root facet /.
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#[getter]
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fn is_root(&self) -> bool {
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self.inner.is_root()
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}
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/// Returns true if another Facet is a subfacet of this facet.
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/// Args:
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/// other (Facet): The Facet that we should check if this facet is a
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/// subset of.
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fn is_prefix_of(&self, other: &Facet) -> bool {
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self.inner.is_prefix_of(&other.inner)
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}
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/// Create a Facet object from a string.
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/// Args:
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/// facet_string (str): The string that contains a facet.
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///
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/// Returns the created Facet.
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#[classmethod]
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fn from_string(_cls: &PyType, facet_string: &str) -> Facet {
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Facet {
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inner: schema::Facet::from(facet_string),
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}
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}
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/// Returns the list of `segments` that forms a facet path.
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///
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/// For instance `//europe/france` becomes `["europe", "france"]`.
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fn to_path(&self) -> Vec<&str> {
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self.inner.to_path()
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}
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/// Returns the facet string representation.
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fn to_path_str(&self) -> String {
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self.inner.to_string()
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}
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fn __repr__(&self) -> PyResult<String> {
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Ok(format!("Facet({})", self.to_path_str()))
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}
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fn __richcmp__(
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&self,
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other: &Self,
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op: CompareOp,
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py: Python<'_>,
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) -> PyObject {
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match op {
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CompareOp::Eq => (self == other).into_py(py),
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CompareOp::Ne => (self != other).into_py(py),
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_ => py.NotImplemented(),
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}
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}
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fn __reduce__<'a>(
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slf: PyRef<'a, Self>,
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py: Python<'a>,
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) -> PyResult<&'a PyTuple> {
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let encoded_bytes = slf.inner.encoded_str().as_bytes().to_vec();
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Ok(PyTuple::new(
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py,
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[
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slf.into_py(py).getattr(py, "from_encoded")?,
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PyTuple::new(py, [encoded_bytes]).to_object(py),
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],
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))
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}
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}
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