oxigraph/python/src/sparql.rs

use crate::io::{allow_threads_unsafe, map_io_err, map_parse_error};
use crate::map_storage_error;
use crate::model::*;
use oxigraph::model::Term;
use oxigraph::sparql::*;
use pyo3::basic::CompareOp;
use pyo3::exceptions::{
    PyNotImplementedError, PyRuntimeError, PySyntaxError, PyTypeError, PyValueError,
};

use pyo3::prelude::*;
use std::vec::IntoIter;

pub fn parse_query(
    query: &str,
    base_iri: Option<&str>,
    use_default_graph_as_union: bool,
    default_graph: Option<&PyAny>,
    named_graphs: Option<&PyAny>,
) -> PyResult<Query> {
    let mut query = allow_threads_unsafe(|| Query::parse(query, base_iri))
        .map_err(|e| map_evaluation_error(e.into()))?;

    if use_default_graph_as_union && default_graph.is_some() {
        return Err(PyValueError::new_err(
            "The query() method use_default_graph_as_union and default_graph arguments should not be set at the same time",
        ));
    }

    if use_default_graph_as_union {
        query.dataset_mut().set_default_graph_as_union();
    }

    if let Some(default_graph) = default_graph {
        if let Ok(default_graphs) = default_graph.iter() {
            query.dataset_mut().set_default_graph(
                default_graphs
                    .map(|graph| Ok(graph?.extract::<PyGraphName>()?.into()))
                    .collect::<PyResult<_>>()?,
            )
        } else if let Ok(default_graph) = default_graph.extract::<PyGraphName>() {
            query
                .dataset_mut()
                .set_default_graph(vec![default_graph.into()]);
        } else {
            return Err(PyValueError::new_err(
                format!("The query() method default_graph argument should be a NamedNode, a BlankNode, the DefaultGraph or a not empty list of them. {} found", default_graph.get_type()
                )));
        }
    }

    if let Some(named_graphs) = named_graphs {
        query.dataset_mut().set_available_named_graphs(
            named_graphs
                .iter()?
                .map(|graph| Ok(graph?.extract::<PyNamedOrBlankNode>()?.into()))
                .collect::<PyResult<_>>()?,
        )
    }

    Ok(query)
}

pub fn query_results_to_python(py: Python<'_>, results: QueryResults) -> PyObject {
    match results {
        QueryResults::Solutions(inner) => PyQuerySolutions { inner }.into_py(py),
        QueryResults::Graph(inner) => PyQueryTriples { inner }.into_py(py),
        QueryResults::Boolean(b) => b.into_py(py),
    }
}

/// Tuple associating variables and terms that are the result of a SPARQL ``SELECT`` query.
///
/// It is the equivalent of a row in SQL.
///
/// It could be indexes by variable name (:py:class:`Variable` or :py:class:`str`) or position in the tuple (:py:class:`int`).
/// Unpacking also works.
///
/// >>> store = Store()
/// >>> store.add(Quad(NamedNode('http://example.com'), NamedNode('http://example.com/p'), Literal('1')))
/// >>> solution = next(store.query('SELECT ?s ?p ?o WHERE { ?s ?p ?o }'))
/// >>> solution[Variable('s')]
/// <NamedNode value=http://example.com>
/// >>> solution['s']
/// <NamedNode value=http://example.com>
/// >>> solution[0]
/// <NamedNode value=http://example.com>
/// >>> s, p, o = solution
/// >>> s
/// <NamedNode value=http://example.com>
#[pyclass(frozen, unsendable, name = "QuerySolution", module = "pyoxigraph")]
pub struct PyQuerySolution {
    inner: QuerySolution,
}

#[pymethods]
impl PyQuerySolution {
    fn __repr__(&self) -> String {
        let mut buffer = String::new();
        buffer.push_str("<QuerySolution");
        for (k, v) in self.inner.iter() {
            buffer.push(' ');
            buffer.push_str(k.as_str());
            buffer.push('=');
            term_repr(v.as_ref(), &mut buffer)
        }
        buffer.push('>');
        buffer
    }

    fn __richcmp__(&self, other: &Self, op: CompareOp) -> PyResult<bool> {
        match op {
            CompareOp::Eq => Ok(self.inner == other.inner),
            CompareOp::Ne => Ok(self.inner != other.inner),
            _ => Err(PyNotImplementedError::new_err(
                "Ordering is not implemented",
            )),
        }
    }

    fn __len__(&self) -> usize {
        self.inner.len()
    }

    fn __getitem__(&self, input: &PyAny) -> PyResult<Option<PyTerm>> {
        if let Ok(key) = usize::extract(input) {
            Ok(self.inner.get(key).map(|term| PyTerm::from(term.clone())))
        } else if let Ok(key) = <&str>::extract(input) {
            Ok(self.inner.get(key).map(|term| PyTerm::from(term.clone())))
        } else if let Ok(key) = input.extract::<PyRef<PyVariable>>() {
            Ok(self
                .inner
                .get(<&Variable>::from(&*key))
                .map(|term| PyTerm::from(term.clone())))
        } else {
            Err(PyTypeError::new_err(format!(
                "{} is not an integer of a string",
                input.get_type().name()?,
            )))
        }
    }

    #[allow(clippy::unnecessary_to_owned)]
    fn __iter__(&self) -> SolutionValueIter {
        SolutionValueIter {
            inner: self.inner.values().to_vec().into_iter(),
        }
    }
}

#[pyclass(module = "pyoxigraph")]
pub struct SolutionValueIter {
    inner: IntoIter<Option<Term>>,
}

#[pymethods]
impl SolutionValueIter {
    fn __iter__(slf: PyRef<'_, Self>) -> PyRef<Self> {
        slf
    }

    fn __next__(&mut self) -> Option<Option<PyTerm>> {
        self.inner.next().map(|v| v.map(PyTerm::from))
    }
}

/// An iterator of :py:class:`QuerySolution` returned by a SPARQL ``SELECT`` query
///
/// >>> store = Store()
/// >>> store.add(Quad(NamedNode('http://example.com'), NamedNode('http://example.com/p'), Literal('1')))
/// >>> list(store.query('SELECT ?s WHERE { ?s ?p ?o }'))
/// [<QuerySolution s=<NamedNode value=http://example.com>>]
#[pyclass(unsendable, name = "QuerySolutions", module = "pyoxigraph")]
pub struct PyQuerySolutions {
    inner: QuerySolutionIter,
}

#[pymethods]
impl PyQuerySolutions {
    /// :return: the ordered list of all variables that could appear in the query results
    /// :rtype: list(Variable)
    ///
    /// >>> store = Store()
    /// >>> store.query('SELECT ?s WHERE { ?s ?p ?o }').variables
    /// [<Variable value=s>]
    #[getter]
    fn variables(&self) -> Vec<PyVariable> {
        self.inner
            .variables()
            .iter()
            .map(|v| v.clone().into())
            .collect()
    }

    fn __iter__(slf: PyRef<'_, Self>) -> PyRef<Self> {
        slf
    }

    fn __next__(&mut self) -> PyResult<Option<PyQuerySolution>> {
        Ok(allow_threads_unsafe(|| self.inner.next())
            .transpose()
            .map_err(map_evaluation_error)?
            .map(move |inner| PyQuerySolution { inner }))
    }
}

/// An iterator of :py:class:`Triple` returned by a SPARQL ``CONSTRUCT`` or ``DESCRIBE`` query
///
/// >>> store = Store()
/// >>> store.add(Quad(NamedNode('http://example.com'), NamedNode('http://example.com/p'), Literal('1')))
/// >>> list(store.query('CONSTRUCT WHERE { ?s ?p ?o }'))
/// [<Triple subject=<NamedNode value=http://example.com> predicate=<NamedNode value=http://example.com/p> object=<Literal value=1 datatype=<NamedNode value=http://www.w3.org/2001/XMLSchema#string>>>]
#[pyclass(unsendable, name = "QueryTriples", module = "pyoxigraph")]
pub struct PyQueryTriples {
    inner: QueryTripleIter,
}

#[pymethods]
impl PyQueryTriples {
    fn __iter__(slf: PyRef<'_, Self>) -> PyRef<Self> {
        slf
    }

    fn __next__(&mut self) -> PyResult<Option<PyTriple>> {
        Ok(allow_threads_unsafe(|| self.inner.next())
            .transpose()
            .map_err(map_evaluation_error)?
            .map(Into::into))
    }
}

pub fn map_evaluation_error(error: EvaluationError) -> PyErr {
    match error {
        EvaluationError::Parsing(error) => PySyntaxError::new_err(error.to_string()),
        EvaluationError::Storage(error) => map_storage_error(error),
        EvaluationError::Io(error) => map_io_err(error),
        EvaluationError::GraphParsing(error) => map_parse_error(error),
        EvaluationError::Query(error) => PyValueError::new_err(error.to_string()),
        _ => PyRuntimeError::new_err(error.to_string()),
    }
}