compiler/rustc_mir_dataflow/src/points.rs - rust - Git at Google

 use rustc_index::{Idx, IndexVec};
 use rustc_middle::mir::{BasicBlock, Body, Location};

 /// Maps between a `Location` and a `PointIndex` (and vice versa).
 pub struct DenseLocationMap {
     /// For each basic block, how many points are contained within?
     statements_before_block: IndexVec<BasicBlock, usize>,

     /// Map backward from each point to the basic block that it
     /// belongs to.
     basic_blocks: IndexVec<PointIndex, BasicBlock>,

     num_points: usize,
 }

 impl DenseLocationMap {
     #[inline]
     pub fn new(body: &Body<'_>) -> Self {
         let mut num_points = 0;
         let statements_before_block: IndexVec<BasicBlock, usize> = body
             .basic_blocks
             .iter()
             .map(|block_data| {
                 let v = num_points;
                 num_points += block_data.statements.len() + 1;
                 v
             })
             .collect();

         let mut basic_blocks = IndexVec::with_capacity(num_points);
         for (bb, bb_data) in body.basic_blocks.iter_enumerated() {
             basic_blocks.extend((0..=bb_data.statements.len()).map(|_| bb));
         }

         Self { statements_before_block, basic_blocks, num_points }
     }

     /// Total number of point indices
     #[inline]
     pub fn num_points(&self) -> usize {
         self.num_points
     }

     /// Converts a `Location` into a `PointIndex`. O(1).
     #[inline]
     pub fn point_from_location(&self, location: Location) -> PointIndex {
         let Location { block, statement_index } = location;
         let start_index = self.statements_before_block[block];
         PointIndex::new(start_index + statement_index)
     }

     /// Returns the `PointIndex` for the first statement in the given `BasicBlock`. O(1).
     #[inline]
     pub fn entry_point(&self, block: BasicBlock) -> PointIndex {
         let start_index = self.statements_before_block[block];
         PointIndex::new(start_index)
     }

     /// Return the PointIndex for the block start of this index.
     #[inline]
     pub fn to_block_start(&self, index: PointIndex) -> PointIndex {
         PointIndex::new(self.statements_before_block[self.basic_blocks[index]])
     }

     /// Converts a `PointIndex` back to a location. O(1).
     #[inline]
     pub fn to_location(&self, index: PointIndex) -> Location {
         assert!(index.index() < self.num_points);
         let block = self.basic_blocks[index];
         let start_index = self.statements_before_block[block];
         let statement_index = index.index() - start_index;
         Location { block, statement_index }
     }

     /// Sometimes we get point-indices back from bitsets that may be
     /// out of range (because they round up to the nearest 2^N number
     /// of bits). Use this function to filter such points out if you
     /// like.
     #[inline]
     pub fn point_in_range(&self, index: PointIndex) -> bool {
         index.index() < self.num_points
     }
 }

 rustc_index::newtype_index! {
     /// A single integer representing a `Location` in the MIR control-flow
     /// graph. Constructed efficiently from `DenseLocationMap`.
     #[orderable]
     #[debug_format = "PointIndex({})"]
     pub struct PointIndex {}
 }
	use rustc_index::{Idx, IndexVec};
	use rustc_middle::mir::{BasicBlock, Body, Location};

	/// Maps between a `Location` and a `PointIndex` (and vice versa).
	pub struct DenseLocationMap {
	/// For each basic block, how many points are contained within?
	statements_before_block: IndexVec<BasicBlock, usize>,

	/// Map backward from each point to the basic block that it
	/// belongs to.
	basic_blocks: IndexVec<PointIndex, BasicBlock>,

	num_points: usize,
	}

	impl DenseLocationMap {
	#[inline]
	pub fn new(body: &Body<'_>) -> Self {
	let mut num_points = 0;
	let statements_before_block: IndexVec<BasicBlock, usize> = body
	.basic_blocks
	.iter()
	.map(\|block_data\| {
	let v = num_points;
	num_points += block_data.statements.len() + 1;
	v
	})
	.collect();

	let mut basic_blocks = IndexVec::with_capacity(num_points);
	for (bb, bb_data) in body.basic_blocks.iter_enumerated() {
	basic_blocks.extend((0..=bb_data.statements.len()).map(\|_\| bb));
	}

	Self { statements_before_block, basic_blocks, num_points }
	}

	/// Total number of point indices
	#[inline]
	pub fn num_points(&self) -> usize {
	self.num_points
	}

	/// Converts a `Location` into a `PointIndex`. O(1).
	#[inline]
	pub fn point_from_location(&self, location: Location) -> PointIndex {
	let Location { block, statement_index } = location;
	let start_index = self.statements_before_block[block];
	PointIndex::new(start_index + statement_index)
	}

	/// Returns the `PointIndex` for the first statement in the given `BasicBlock`. O(1).
	#[inline]
	pub fn entry_point(&self, block: BasicBlock) -> PointIndex {
	let start_index = self.statements_before_block[block];
	PointIndex::new(start_index)
	}

	/// Return the PointIndex for the block start of this index.
	#[inline]
	pub fn to_block_start(&self, index: PointIndex) -> PointIndex {
	PointIndex::new(self.statements_before_block[self.basic_blocks[index]])
	}

	/// Converts a `PointIndex` back to a location. O(1).
	#[inline]
	pub fn to_location(&self, index: PointIndex) -> Location {
	assert!(index.index() < self.num_points);
	let block = self.basic_blocks[index];
	let start_index = self.statements_before_block[block];
	let statement_index = index.index() - start_index;
	Location { block, statement_index }
	}

	/// Sometimes we get point-indices back from bitsets that may be
	/// out of range (because they round up to the nearest 2^N number
	/// of bits). Use this function to filter such points out if you
	/// like.
	#[inline]
	pub fn point_in_range(&self, index: PointIndex) -> bool {
	index.index() < self.num_points
	}
	}

	rustc_index::newtype_index! {
	/// A single integer representing a `Location` in the MIR control-flow
	/// graph. Constructed efficiently from `DenseLocationMap`.
	#[orderable]
	#[debug_format = "PointIndex({})"]
	pub struct PointIndex {}
	}