polars_schema/
schema.rs

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use core::fmt::{Debug, Formatter};
use core::hash::{Hash, Hasher};

use indexmap::map::MutableKeys;
use polars_error::{polars_bail, polars_ensure, polars_err, PolarsResult};
use polars_utils::aliases::{InitHashMaps, PlIndexMap};
use polars_utils::pl_str::PlSmallStr;

#[derive(Clone, Default)]
#[cfg_attr(feature = "serde", derive(serde::Serialize, serde::Deserialize))]
pub struct Schema<D> {
    fields: PlIndexMap<PlSmallStr, D>,
}

impl<D: Eq> Eq for Schema<D> {}

impl<D> Schema<D> {
    pub fn with_capacity(capacity: usize) -> Self {
        let fields = PlIndexMap::with_capacity(capacity);
        Self { fields }
    }

    /// Reserve `additional` memory spaces in the schema.
    pub fn reserve(&mut self, additional: usize) {
        self.fields.reserve(additional);
    }

    /// The number of fields in the schema.
    #[inline]
    pub fn len(&self) -> usize {
        self.fields.len()
    }

    #[inline]
    pub fn is_empty(&self) -> bool {
        self.fields.is_empty()
    }

    /// Rename field `old` to `new`, and return the (owned) old name.
    ///
    /// If `old` is not present in the schema, the schema is not modified and `None` is returned. Otherwise the schema
    /// is updated and `Some(old_name)` is returned.
    pub fn rename(&mut self, old: &str, new: PlSmallStr) -> Option<PlSmallStr> {
        // Remove `old`, get the corresponding index and dtype, and move the last item in the map to that position
        let (old_index, old_name, dtype) = self.fields.swap_remove_full(old)?;
        // Insert the same dtype under the new name at the end of the map and store that index
        let (new_index, _) = self.fields.insert_full(new, dtype);
        // Swap the two indices to move the originally last element back to the end and to move the new element back to
        // its original position
        self.fields.swap_indices(old_index, new_index);

        Some(old_name)
    }

    pub fn insert(&mut self, key: PlSmallStr, value: D) -> Option<D> {
        self.fields.insert(key, value)
    }

    /// Insert a field with `name` and `dtype` at the given `index` into this schema.
    ///
    /// If a field named `name` already exists, it is updated with the new dtype. Regardless, the field named `name` is
    /// always moved to the given index. Valid indices range from `0` (front of the schema) to `self.len()` (after the
    /// end of the schema).
    ///
    /// For a non-mutating version that clones the schema, see [`new_inserting_at_index`][Self::new_inserting_at_index].
    ///
    /// Runtime: **O(n)** where `n` is the number of fields in the schema.
    ///
    /// Returns:
    /// - If index is out of bounds, `Err(PolarsError)`
    /// - Else if `name` was already in the schema, `Ok(Some(old_dtype))`
    /// - Else `Ok(None)`
    pub fn insert_at_index(
        &mut self,
        mut index: usize,
        name: PlSmallStr,
        dtype: D,
    ) -> PolarsResult<Option<D>> {
        polars_ensure!(
            index <= self.len(),
            OutOfBounds:
                "index {} is out of bounds for schema with length {} (the max index allowed is self.len())",
                    index,
                    self.len()
        );

        let (old_index, old_dtype) = self.fields.insert_full(name, dtype);

        // If we're moving an existing field, one-past-the-end will actually be out of bounds. Also, self.len() won't
        // have changed after inserting, so `index == self.len()` is the same as it was before inserting.
        if old_dtype.is_some() && index == self.len() {
            index -= 1;
        }
        self.fields.move_index(old_index, index);
        Ok(old_dtype)
    }

    /// Get a reference to the dtype of the field named `name`, or `None` if the field doesn't exist.
    pub fn get(&self, name: &str) -> Option<&D> {
        self.fields.get(name)
    }

    /// Get a reference to the dtype of the field named `name`, or `Err(PolarsErr)` if the field doesn't exist.
    pub fn try_get(&self, name: &str) -> PolarsResult<&D> {
        self.get(name)
            .ok_or_else(|| polars_err!(SchemaFieldNotFound: "{}", name))
    }

    /// Get a mutable reference to the dtype of the field named `name`, or `Err(PolarsErr)` if the field doesn't exist.
    pub fn try_get_mut(&mut self, name: &str) -> PolarsResult<&mut D> {
        self.fields
            .get_mut(name)
            .ok_or_else(|| polars_err!(SchemaFieldNotFound: "{}", name))
    }

    /// Return all data about the field named `name`: its index in the schema, its name, and its dtype.
    ///
    /// Returns `Some((index, &name, &dtype))` if the field exists, `None` if it doesn't.
    pub fn get_full(&self, name: &str) -> Option<(usize, &PlSmallStr, &D)> {
        self.fields.get_full(name)
    }

    /// Return all data about the field named `name`: its index in the schema, its name, and its dtype.
    ///
    /// Returns `Ok((index, &name, &dtype))` if the field exists, `Err(PolarsErr)` if it doesn't.
    pub fn try_get_full(&self, name: &str) -> PolarsResult<(usize, &PlSmallStr, &D)> {
        self.fields
            .get_full(name)
            .ok_or_else(|| polars_err!(SchemaFieldNotFound: "{}", name))
    }

    /// Get references to the name and dtype of the field at `index`.
    ///
    /// If `index` is inbounds, returns `Some((&name, &dtype))`, else `None`. See
    /// [`get_at_index_mut`][Self::get_at_index_mut] for a mutable version.
    pub fn get_at_index(&self, index: usize) -> Option<(&PlSmallStr, &D)> {
        self.fields.get_index(index)
    }

    pub fn try_get_at_index(&self, index: usize) -> PolarsResult<(&PlSmallStr, &D)> {
        self.fields.get_index(index).ok_or_else(|| polars_err!(ComputeError: "index {index} out of bounds with 'schema' of len: {}", self.len()))
    }

    /// Get mutable references to the name and dtype of the field at `index`.
    ///
    /// If `index` is inbounds, returns `Some((&mut name, &mut dtype))`, else `None`. See
    /// [`get_at_index`][Self::get_at_index] for an immutable version.
    pub fn get_at_index_mut(&mut self, index: usize) -> Option<(&mut PlSmallStr, &mut D)> {
        self.fields.get_index_mut2(index)
    }

    /// Swap-remove a field by name and, if the field existed, return its dtype.
    ///
    /// If the field does not exist, the schema is not modified and `None` is returned.
    ///
    /// This method does a `swap_remove`, which is O(1) but **changes the order of the schema**: the field named `name`
    /// is replaced by the last field, which takes its position. For a slower, but order-preserving, method, use
    /// [`shift_remove`][Self::shift_remove].
    pub fn remove(&mut self, name: &str) -> Option<D> {
        self.fields.swap_remove(name)
    }

    /// Remove a field by name, preserving order, and, if the field existed, return its dtype.
    ///
    /// If the field does not exist, the schema is not modified and `None` is returned.
    ///
    /// This method does a `shift_remove`, which preserves the order of the fields in the schema but **is O(n)**. For a
    /// faster, but not order-preserving, method, use [`remove`][Self::remove].
    pub fn shift_remove(&mut self, name: &str) -> Option<D> {
        self.fields.shift_remove(name)
    }

    /// Remove a field by name, preserving order, and, if the field existed, return its dtype.
    ///
    /// If the field does not exist, the schema is not modified and `None` is returned.
    ///
    /// This method does a `shift_remove`, which preserves the order of the fields in the schema but **is O(n)**. For a
    /// faster, but not order-preserving, method, use [`remove`][Self::remove].
    pub fn shift_remove_index(&mut self, index: usize) -> Option<(PlSmallStr, D)> {
        self.fields.shift_remove_index(index)
    }

    /// Whether the schema contains a field named `name`.
    pub fn contains(&self, name: &str) -> bool {
        self.get(name).is_some()
    }

    /// Change the field named `name` to the given `dtype` and return the previous dtype.
    ///
    /// If `name` doesn't already exist in the schema, the schema is not modified and `None` is returned. Otherwise
    /// returns `Some(old_dtype)`.
    ///
    /// This method only ever modifies an existing field and never adds a new field to the schema. To add a new field,
    /// use [`with_column`][Self::with_column] or [`insert_at_index`][Self::insert_at_index].
    pub fn set_dtype(&mut self, name: &str, dtype: D) -> Option<D> {
        let old_dtype = self.fields.get_mut(name)?;
        Some(std::mem::replace(old_dtype, dtype))
    }

    /// Change the field at the given index to the given `dtype` and return the previous dtype.
    ///
    /// If the index is out of bounds, the schema is not modified and `None` is returned. Otherwise returns
    /// `Some(old_dtype)`.
    ///
    /// This method only ever modifies an existing index and never adds a new field to the schema. To add a new field,
    /// use [`with_column`][Self::with_column] or [`insert_at_index`][Self::insert_at_index].
    pub fn set_dtype_at_index(&mut self, index: usize, dtype: D) -> Option<D> {
        let (_, old_dtype) = self.fields.get_index_mut(index)?;
        Some(std::mem::replace(old_dtype, dtype))
    }

    /// Insert a new column in the [`Schema`].
    ///
    /// If an equivalent name already exists in the schema: the name remains and
    /// retains in its place in the order, its corresponding value is updated
    /// with [`D`] and the older dtype is returned inside `Some(_)`.
    ///
    /// If no equivalent key existed in the map: the new name-dtype pair is
    /// inserted, last in order, and `None` is returned.
    ///
    /// To enforce the index of the resulting field, use [`insert_at_index`][Self::insert_at_index].
    ///
    /// Computes in **O(1)** time (amortized average).
    pub fn with_column(&mut self, name: PlSmallStr, dtype: D) -> Option<D> {
        self.fields.insert(name, dtype)
    }

    /// Merge `other` into `self`.
    ///
    /// Merging logic:
    /// - Fields that occur in `self` but not `other` are unmodified
    /// - Fields that occur in `other` but not `self` are appended, in order, to the end of `self`
    /// - Fields that occur in both `self` and `other` are updated with the dtype from `other`, but keep their original
    ///   index
    pub fn merge(&mut self, other: Self) {
        self.fields.extend(other.fields)
    }

    /// Iterates over the `(&name, &dtype)` pairs in this schema.
    ///
    /// For an owned version, use [`iter_fields`][Self::iter_fields], which clones the data to iterate owned `Field`s
    pub fn iter(&self) -> impl ExactSizeIterator<Item = (&PlSmallStr, &D)> + '_ {
        self.fields.iter()
    }

    pub fn iter_mut(&mut self) -> impl ExactSizeIterator<Item = (&PlSmallStr, &mut D)> + '_ {
        self.fields.iter_mut()
    }

    /// Iterates over references to the names in this schema.
    pub fn iter_names(&self) -> impl '_ + ExactSizeIterator<Item = &PlSmallStr> {
        self.fields.iter().map(|(name, _dtype)| name)
    }

    pub fn iter_names_cloned(&self) -> impl '_ + ExactSizeIterator<Item = PlSmallStr> {
        self.iter_names().cloned()
    }

    /// Iterates over references to the dtypes in this schema.
    pub fn iter_values(&self) -> impl '_ + ExactSizeIterator<Item = &D> {
        self.fields.iter().map(|(_name, dtype)| dtype)
    }

    pub fn into_iter_values(self) -> impl ExactSizeIterator<Item = D> {
        self.fields.into_values()
    }

    /// Iterates over mut references to the dtypes in this schema.
    pub fn iter_values_mut(&mut self) -> impl '_ + ExactSizeIterator<Item = &mut D> {
        self.fields.iter_mut().map(|(_name, dtype)| dtype)
    }

    pub fn index_of(&self, name: &str) -> Option<usize> {
        self.fields.get_index_of(name)
    }

    pub fn try_index_of(&self, name: &str) -> PolarsResult<usize> {
        let Some(i) = self.fields.get_index_of(name) else {
            polars_bail!(
                ColumnNotFound:
                "unable to find column {:?}; valid columns: {:?}",
                name, self.iter_names().collect::<Vec<_>>(),
            )
        };

        Ok(i)
    }
}

impl<D> Schema<D>
where
    D: Clone + Default,
{
    /// Create a new schema from this one, inserting a field with `name` and `dtype` at the given `index`.
    ///
    /// If a field named `name` already exists, it is updated with the new dtype. Regardless, the field named `name` is
    /// always moved to the given index. Valid indices range from `0` (front of the schema) to `self.len()` (after the
    /// end of the schema).
    ///
    /// For a mutating version that doesn't clone, see [`insert_at_index`][Self::insert_at_index].
    ///
    /// Runtime: **O(m * n)** where `m` is the (average) length of the field names and `n` is the number of fields in
    /// the schema. This method clones every field in the schema.
    ///
    /// Returns: `Ok(new_schema)` if `index <= self.len()`, else `Err(PolarsError)`
    pub fn new_inserting_at_index(
        &self,
        index: usize,
        name: PlSmallStr,
        field: D,
    ) -> PolarsResult<Self> {
        polars_ensure!(
            index <= self.len(),
            OutOfBounds:
                "index {} is out of bounds for schema with length {} (the max index allowed is self.len())",
                    index,
                    self.len()
        );

        let mut new = Self::default();
        let mut iter = self.fields.iter().filter_map(|(fld_name, dtype)| {
            (fld_name != &name).then_some((fld_name.clone(), dtype.clone()))
        });
        new.fields.extend(iter.by_ref().take(index));
        new.fields.insert(name.clone(), field);
        new.fields.extend(iter);
        Ok(new)
    }

    /// Merge borrowed `other` into `self`.
    ///
    /// Merging logic:
    /// - Fields that occur in `self` but not `other` are unmodified
    /// - Fields that occur in `other` but not `self` are appended, in order, to the end of `self`
    /// - Fields that occur in both `self` and `other` are updated with the dtype from `other`, but keep their original
    ///   index
    pub fn merge_from_ref(&mut self, other: &Self) {
        self.fields.extend(
            other
                .iter()
                .map(|(column, field)| (column.clone(), field.clone())),
        )
    }

    /// Generates another schema with just the specified columns selected from this one.
    pub fn try_project<I>(&self, columns: I) -> PolarsResult<Self>
    where
        I: IntoIterator,
        I::Item: AsRef<str>,
    {
        let schema = columns
            .into_iter()
            .map(|c| {
                let name = c.as_ref();
                let (_, name, dtype) = self
                    .fields
                    .get_full(name)
                    .ok_or_else(|| polars_err!(col_not_found = name))?;
                PolarsResult::Ok((name.clone(), dtype.clone()))
            })
            .collect::<PolarsResult<PlIndexMap<PlSmallStr, _>>>()?;
        Ok(Self::from(schema))
    }

    pub fn try_project_indices(&self, indices: &[usize]) -> PolarsResult<Self> {
        let fields = indices
            .iter()
            .map(|&i| {
                let Some((k, v)) = self.fields.get_index(i) else {
                    polars_bail!(
                        SchemaFieldNotFound:
                        "projection index {} is out of bounds for schema of length {}",
                        i, self.fields.len()
                    );
                };

                Ok((k.clone(), v.clone()))
            })
            .collect::<PolarsResult<PlIndexMap<_, _>>>()?;

        Ok(Self { fields })
    }

    /// Returns a new [`Schema`] with a subset of all fields whose `predicate`
    /// evaluates to true.
    pub fn filter<F: Fn(usize, &D) -> bool>(self, predicate: F) -> Self {
        let fields = self
            .fields
            .into_iter()
            .enumerate()
            .filter_map(|(index, (name, d))| {
                if (predicate)(index, &d) {
                    Some((name, d))
                } else {
                    None
                }
            })
            .collect();

        Self { fields }
    }
}

pub fn debug_ensure_matching_schema_names<D>(lhs: &Schema<D>, rhs: &Schema<D>) -> PolarsResult<()> {
    if cfg!(debug_assertions) {
        let lhs = lhs.iter_names().collect::<Vec<_>>();
        let rhs = rhs.iter_names().collect::<Vec<_>>();

        if lhs != rhs {
            polars_bail!(
                SchemaMismatch:
                "lhs: {:?} rhs: {:?}",
                lhs, rhs
            )
        }
    }

    Ok(())
}

impl<D: Debug> Debug for Schema<D> {
    fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result {
        writeln!(f, "Schema:")?;
        for (name, field) in self.fields.iter() {
            writeln!(f, "name: {name}, field: {field:?}")?;
        }
        Ok(())
    }
}

impl<D: Hash> Hash for Schema<D> {
    fn hash<H: Hasher>(&self, state: &mut H) {
        self.fields.iter().for_each(|v| v.hash(state))
    }
}

// Schemas will only compare equal if they have the same fields in the same order. We can't use `self.inner ==
// other.inner` because [`IndexMap`] ignores order when checking equality, but we don't want to ignore it.
impl<D: PartialEq> PartialEq for Schema<D> {
    fn eq(&self, other: &Self) -> bool {
        self.fields.len() == other.fields.len()
            && self
                .fields
                .iter()
                .zip(other.fields.iter())
                .all(|(a, b)| a == b)
    }
}

impl<D> From<PlIndexMap<PlSmallStr, D>> for Schema<D> {
    fn from(fields: PlIndexMap<PlSmallStr, D>) -> Self {
        Self { fields }
    }
}

impl<F, D> FromIterator<F> for Schema<D>
where
    F: Into<(PlSmallStr, D)>,
{
    fn from_iter<I: IntoIterator<Item = F>>(iter: I) -> Self {
        let fields = PlIndexMap::from_iter(iter.into_iter().map(|x| x.into()));
        Self { fields }
    }
}

impl<F, D> Extend<F> for Schema<D>
where
    F: Into<(PlSmallStr, D)>,
{
    fn extend<T: IntoIterator<Item = F>>(&mut self, iter: T) {
        self.fields.extend(iter.into_iter().map(|x| x.into()))
    }
}

impl<D> IntoIterator for Schema<D> {
    type IntoIter = <PlIndexMap<PlSmallStr, D> as IntoIterator>::IntoIter;
    type Item = (PlSmallStr, D);

    fn into_iter(self) -> Self::IntoIter {
        self.fields.into_iter()
    }
}