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|
//! This module implements Nix attribute sets. They have flexible
//! backing implementations, as they are used in very versatile
//! use-cases that are all exposed the same way in the language
//! surface.
//!
//! Due to this, construction and management of attribute sets has
//! some peculiarities that are encapsulated within this module.
use std::borrow::Borrow;
use std::collections::{btree_map, BTreeMap};
use std::iter::FromIterator;
use std::rc::Rc;
use bstr::BStr;
use lazy_static::lazy_static;
use serde::de::{Deserializer, Error, Visitor};
use serde::Deserialize;
use super::string::NixString;
use super::thunk::ThunkSet;
use super::TotalDisplay;
use super::Value;
use crate::errors::ErrorKind;
use crate::CatchableErrorKind;
lazy_static! {
static ref NAME_S: NixString = "name".into();
static ref NAME_REF: &'static NixString = &NAME_S;
static ref VALUE_S: NixString = "value".into();
static ref VALUE_REF: &'static NixString = &VALUE_S;
}
#[cfg(test)]
mod tests;
#[derive(Clone, Debug, Deserialize, Default)]
pub(super) enum AttrsRep {
#[default]
Empty,
Map(BTreeMap<NixString, Value>),
/// Warning: this represents a **two**-attribute attrset, with
/// attribute names "name" and "value", like `{name="foo";
/// value="bar";}`, *not* `{foo="bar";}`!
KV {
name: Value,
value: Value,
},
}
impl AttrsRep {
fn select(&self, key: &BStr) -> Option<&Value> {
match self {
AttrsRep::Empty => None,
AttrsRep::KV { name, value } => match &**key {
b"name" => Some(name),
b"value" => Some(value),
_ => None,
},
AttrsRep::Map(map) => map.get(key),
}
}
fn contains(&self, key: &BStr) -> bool {
match self {
AttrsRep::Empty => false,
AttrsRep::KV { .. } => key == "name" || key == "value",
AttrsRep::Map(map) => map.contains_key(key),
}
}
}
#[repr(transparent)]
#[derive(Clone, Debug, Default)]
pub struct NixAttrs(pub(super) Rc<AttrsRep>);
impl From<AttrsRep> for NixAttrs {
fn from(rep: AttrsRep) -> Self {
NixAttrs(Rc::new(rep))
}
}
impl<K, V> FromIterator<(K, V)> for NixAttrs
where
NixString: From<K>,
Value: From<V>,
{
fn from_iter<T>(iter: T) -> NixAttrs
where
T: IntoIterator<Item = (K, V)>,
{
AttrsRep::Map(
iter.into_iter()
.map(|(k, v)| (k.into(), v.into()))
.collect(),
)
.into()
}
}
impl From<BTreeMap<NixString, Value>> for NixAttrs {
fn from(map: BTreeMap<NixString, Value>) -> Self {
AttrsRep::Map(map).into()
}
}
impl TotalDisplay for NixAttrs {
fn total_fmt(&self, f: &mut std::fmt::Formatter<'_>, set: &mut ThunkSet) -> std::fmt::Result {
if let Some(Value::String(s)) = self.select("type") {
if *s == "derivation" {
write!(f, "«derivation ")?;
if let Some(p) = self.select("drvPath") {
p.total_fmt(f, set)?;
} else {
write!(f, "???")?;
}
return write!(f, "»");
}
}
f.write_str("{ ")?;
for (name, value) in self.iter_sorted() {
write!(f, "{} = ", name.ident_str())?;
value.total_fmt(f, set)?;
f.write_str("; ")?;
}
f.write_str("}")
}
}
impl<'de> Deserialize<'de> for NixAttrs {
fn deserialize<D>(deserializer: D) -> Result<Self, D::Error>
where
D: Deserializer<'de>,
{
struct MapVisitor;
impl<'de> Visitor<'de> for MapVisitor {
type Value = NixAttrs;
fn expecting(&self, formatter: &mut std::fmt::Formatter) -> std::fmt::Result {
formatter.write_str("a valid Nix attribute set")
}
fn visit_map<A>(self, mut map: A) -> Result<Self::Value, A::Error>
where
A: serde::de::MapAccess<'de>,
{
let mut stack_array = Vec::with_capacity(map.size_hint().unwrap_or(0) * 2);
while let Some((key, value)) = map.next_entry()? {
stack_array.push(key);
stack_array.push(value);
}
Ok(NixAttrs::construct(stack_array.len() / 2, stack_array)
.map_err(A::Error::custom)?
.expect("Catchable values are unreachable here"))
}
}
deserializer.deserialize_map(MapVisitor)
}
}
impl NixAttrs {
pub fn empty() -> Self {
AttrsRep::Empty.into()
}
/// Compare two attribute sets by pointer equality. Only makes
/// sense for some attribute set representations, i.e. returning
/// `false` does not mean that the two attribute sets do not have
/// equal *content*.
pub fn ptr_eq(&self, other: &Self) -> bool {
Rc::ptr_eq(&self.0, &other.0)
}
/// Return an attribute set containing the merge of the two
/// provided sets. Keys from the `other` set have precedence.
pub fn update(self, other: Self) -> Self {
// Short-circuit on some optimal cases:
match (self.0.as_ref(), other.0.as_ref()) {
(AttrsRep::Empty, AttrsRep::Empty) => return self,
(AttrsRep::Empty, _) => return other,
(_, AttrsRep::Empty) => return self,
(AttrsRep::KV { .. }, AttrsRep::KV { .. }) => return other,
// Explicitly handle all branches instead of falling
// through, to ensure that we get at least some compiler
// errors if variants are modified.
(AttrsRep::Map(_), AttrsRep::Map(_))
| (AttrsRep::Map(_), AttrsRep::KV { .. })
| (AttrsRep::KV { .. }, AttrsRep::Map(_)) => {}
};
// Slightly more advanced, but still optimised updates
match (Rc::unwrap_or_clone(self.0), Rc::unwrap_or_clone(other.0)) {
(AttrsRep::Map(mut m), AttrsRep::KV { name, value }) => {
m.insert(NAME_S.clone(), name);
m.insert(VALUE_S.clone(), value);
AttrsRep::Map(m).into()
}
(AttrsRep::KV { name, value }, AttrsRep::Map(mut m)) => {
match m.entry(NAME_S.clone()) {
btree_map::Entry::Vacant(e) => {
e.insert(name);
}
btree_map::Entry::Occupied(_) => { /* name from `m` has precedence */ }
};
match m.entry(VALUE_S.clone()) {
btree_map::Entry::Vacant(e) => {
e.insert(value);
}
btree_map::Entry::Occupied(_) => { /* value from `m` has precedence */ }
};
AttrsRep::Map(m).into()
}
// Plain merge of maps.
(AttrsRep::Map(mut m1), AttrsRep::Map(m2)) => {
m1.extend(m2);
AttrsRep::Map(m1).into()
}
// Cases handled above by the borrowing match:
_ => unreachable!(),
}
}
/// Return the number of key-value entries in an attrset.
pub fn len(&self) -> usize {
match self.0.as_ref() {
AttrsRep::Map(map) => map.len(),
AttrsRep::Empty => 0,
AttrsRep::KV { .. } => 2,
}
}
pub fn is_empty(&self) -> bool {
match self.0.as_ref() {
AttrsRep::Map(map) => map.is_empty(),
AttrsRep::Empty => true,
AttrsRep::KV { .. } => false,
}
}
/// Select a value from an attribute set by key.
pub fn select<K>(&self, key: &K) -> Option<&Value>
where
K: Borrow<BStr> + ?Sized,
{
self.0.select(key.borrow())
}
/// Select a required value from an attribute set by key, return
/// an `AttributeNotFound` error if it is missing.
pub fn select_required<K>(&self, key: &K) -> Result<&Value, ErrorKind>
where
K: Borrow<BStr> + ?Sized,
{
self.select(key)
.ok_or_else(|| ErrorKind::AttributeNotFound {
name: key.borrow().to_string(),
})
}
pub fn contains<'a, K: 'a>(&self, key: K) -> bool
where
&'a BStr: From<K>,
{
self.0.contains(key.into())
}
/// Construct an iterator over all the key-value pairs in the attribute set.
#[allow(clippy::needless_lifetimes)]
pub fn iter<'a>(&'a self) -> Iter<KeyValue<'a>> {
Iter(match &self.0.as_ref() {
AttrsRep::Map(map) => KeyValue::Map(map.iter()),
AttrsRep::Empty => KeyValue::Empty,
AttrsRep::KV {
ref name,
ref value,
} => KeyValue::KV {
name,
value,
at: IterKV::default(),
},
})
}
/// Same as iter(), but marks call sites which rely on the
/// iteration being lexicographic.
pub fn iter_sorted(&self) -> Iter<KeyValue<'_>> {
self.iter()
}
/// Same as [IntoIterator::into_iter], but marks call sites which rely on the
/// iteration being lexicographic.
pub fn into_iter_sorted(self) -> OwnedAttrsIterator {
self.into_iter()
}
/// Construct an iterator over all the keys of the attribute set
pub fn keys(&self) -> Keys {
Keys(match self.0.as_ref() {
AttrsRep::Empty => KeysInner::Empty,
AttrsRep::KV { .. } => KeysInner::KV(IterKV::default()),
// TODO(tazjin): only sort when required, not always.
AttrsRep::Map(m) => KeysInner::Map(m.keys()),
})
}
/// Implement construction logic of an attribute set, to encapsulate
/// logic about attribute set optimisations inside of this module.
pub fn construct(
count: usize,
mut stack_slice: Vec<Value>,
) -> Result<Result<Self, CatchableErrorKind>, ErrorKind> {
debug_assert!(
stack_slice.len() == count * 2,
"construct_attrs called with count == {}, but slice.len() == {}",
count,
stack_slice.len(),
);
// Optimisation: Empty attribute set
if count == 0 {
return Ok(Ok(AttrsRep::Empty.into()));
}
// Optimisation: KV pattern
if count == 2 {
if let Some(kv) = attempt_optimise_kv(&mut stack_slice) {
return Ok(Ok(kv));
}
}
let mut attrs_map = BTreeMap::new();
for _ in 0..count {
let value = stack_slice.pop().unwrap();
let key = stack_slice.pop().unwrap();
match key {
Value::String(ks) => set_attr(&mut attrs_map, ks, value)?,
Value::Null => {
// This is in fact valid, but leads to the value
// being ignored and nothing being set, i.e. `{
// ${null} = 1; } => { }`.
continue;
}
Value::Catchable(err) => return Ok(Err(*err)),
other => return Err(ErrorKind::InvalidAttributeName(other)),
}
}
Ok(Ok(AttrsRep::Map(attrs_map).into()))
}
/// Construct an optimized "KV"-style attribute set given the value for the
/// `"name"` key, and the value for the `"value"` key
pub(crate) fn from_kv(name: Value, value: Value) -> Self {
AttrsRep::KV { name, value }.into()
}
}
impl IntoIterator for NixAttrs {
type Item = (NixString, Value);
type IntoIter = OwnedAttrsIterator;
fn into_iter(self) -> Self::IntoIter {
match Rc::unwrap_or_clone(self.0) {
AttrsRep::Empty => OwnedAttrsIterator(IntoIterRepr::Empty),
AttrsRep::KV { name, value } => OwnedAttrsIterator(IntoIterRepr::Finite(
vec![(NAME_REF.clone(), name), (VALUE_REF.clone(), value)].into_iter(),
)),
AttrsRep::Map(map) => OwnedAttrsIterator(IntoIterRepr::Map(map.into_iter())),
}
}
}
/// In Nix, name/value attribute pairs are frequently constructed from
/// literals. This particular case should avoid allocation of a map,
/// additional heap values etc. and use the optimised `KV` variant
/// instead.
///
/// ```norust
/// `slice` is the top of the stack from which the attrset is being
/// constructed, e.g.
///
/// slice: [ "value" 5 "name" "foo" ]
/// index: 0 1 2 3
/// stack: 3 2 1 0
/// ```
fn attempt_optimise_kv(slice: &mut [Value]) -> Option<NixAttrs> {
let (name_idx, value_idx) = {
match (&slice[2], &slice[0]) {
(Value::String(s1), Value::String(s2)) if (*s1 == *NAME_S && *s2 == *VALUE_S) => (3, 1),
(Value::String(s1), Value::String(s2)) if (*s1 == *VALUE_S && *s2 == *NAME_S) => (1, 3),
// Technically this branch lets type errors pass,
// but they will be caught during normal attribute
// set construction instead.
_ => return None,
}
};
Some(NixAttrs::from_kv(
slice[name_idx].clone(),
slice[value_idx].clone(),
))
}
/// Set an attribute on an in-construction attribute set, while
/// checking against duplicate keys.
fn set_attr(
map: &mut BTreeMap<NixString, Value>,
key: NixString,
value: Value,
) -> Result<(), ErrorKind> {
match map.entry(key) {
btree_map::Entry::Occupied(entry) => Err(ErrorKind::DuplicateAttrsKey {
key: entry.key().to_string(),
}),
btree_map::Entry::Vacant(entry) => {
entry.insert(value);
Ok(())
}
}
}
/// Internal helper type to track the iteration status of an iterator
/// over the name/value representation.
#[derive(Debug, Default)]
pub enum IterKV {
#[default]
Name,
Value,
Done,
}
impl IterKV {
fn next(&mut self) {
match *self {
Self::Name => *self = Self::Value,
Self::Value => *self = Self::Done,
Self::Done => {}
}
}
}
/// Iterator representation over the keys *and* values of an attribute
/// set.
pub enum KeyValue<'a> {
Empty,
KV {
name: &'a Value,
value: &'a Value,
at: IterKV,
},
Map(btree_map::Iter<'a, NixString, Value>),
}
/// Iterator over a Nix attribute set.
// This wrapper type exists to make the inner "raw" iterator
// inaccessible.
#[repr(transparent)]
pub struct Iter<T>(T);
impl<'a> Iterator for Iter<KeyValue<'a>> {
type Item = (&'a NixString, &'a Value);
fn next(&mut self) -> Option<Self::Item> {
match &mut self.0 {
KeyValue::Map(inner) => inner.next(),
KeyValue::Empty => None,
KeyValue::KV { name, value, at } => match at {
IterKV::Name => {
at.next();
Some((&NAME_REF, name))
}
IterKV::Value => {
at.next();
Some((&VALUE_REF, value))
}
IterKV::Done => None,
},
}
}
}
impl<'a> ExactSizeIterator for Iter<KeyValue<'a>> {
fn len(&self) -> usize {
match &self.0 {
KeyValue::Empty => 0,
KeyValue::KV { .. } => 2,
KeyValue::Map(inner) => inner.len(),
}
}
}
enum KeysInner<'a> {
Empty,
KV(IterKV),
Map(btree_map::Keys<'a, NixString, Value>),
}
pub struct Keys<'a>(KeysInner<'a>);
impl<'a> Iterator for Keys<'a> {
type Item = &'a NixString;
fn next(&mut self) -> Option<Self::Item> {
match &mut self.0 {
KeysInner::Empty => None,
KeysInner::KV(at @ IterKV::Name) => {
at.next();
Some(&NAME_REF)
}
KeysInner::KV(at @ IterKV::Value) => {
at.next();
Some(&VALUE_REF)
}
KeysInner::KV(IterKV::Done) => None,
KeysInner::Map(m) => m.next(),
}
}
}
impl<'a> IntoIterator for &'a NixAttrs {
type Item = (&'a NixString, &'a Value);
type IntoIter = Iter<KeyValue<'a>>;
fn into_iter(self) -> Self::IntoIter {
self.iter()
}
}
impl<'a> ExactSizeIterator for Keys<'a> {
fn len(&self) -> usize {
match &self.0 {
KeysInner::Empty => 0,
KeysInner::KV(_) => 2,
KeysInner::Map(m) => m.len(),
}
}
}
/// Internal representation of an owning attrset iterator
pub enum IntoIterRepr {
Empty,
Finite(std::vec::IntoIter<(NixString, Value)>),
Map(btree_map::IntoIter<NixString, Value>),
}
/// Wrapper type which hides the internal implementation details from
/// users.
#[repr(transparent)]
pub struct OwnedAttrsIterator(IntoIterRepr);
impl Iterator for OwnedAttrsIterator {
type Item = (NixString, Value);
fn next(&mut self) -> Option<Self::Item> {
match &mut self.0 {
IntoIterRepr::Empty => None,
IntoIterRepr::Finite(inner) => inner.next(),
IntoIterRepr::Map(m) => m.next(),
}
}
}
impl ExactSizeIterator for OwnedAttrsIterator {
fn len(&self) -> usize {
match &self.0 {
IntoIterRepr::Empty => 0,
IntoIterRepr::Finite(inner) => inner.len(),
IntoIterRepr::Map(inner) => inner.len(),
}
}
}
impl DoubleEndedIterator for OwnedAttrsIterator {
fn next_back(&mut self) -> Option<Self::Item> {
match &mut self.0 {
IntoIterRepr::Empty => None,
IntoIterRepr::Finite(inner) => inner.next_back(),
IntoIterRepr::Map(inner) => inner.next_back(),
}
}
}
|