compiler/rustc_middle/src/mir/patch.rs - toolchain/rustc - Git at Google

 use rustc_index::{Idx, IndexVec};
 use rustc_middle::mir::*;
 use rustc_middle::ty::Ty;
 use rustc_span::Span;

 /// This struct represents a patch to MIR, which can add
 /// new statements and basic blocks and patch over block
 /// terminators.
 pub struct MirPatch<'tcx> {
     patch_map: IndexVec<BasicBlock, Option<TerminatorKind<'tcx>>>,
     new_blocks: Vec<BasicBlockData<'tcx>>,
     new_statements: Vec<(Location, StatementKind<'tcx>)>,
     new_locals: Vec<LocalDecl<'tcx>>,
     resume_block: Option<BasicBlock>,
     // Only for unreachable in cleanup path.
     unreachable_cleanup_block: Option<BasicBlock>,
     // Cached block for UnwindTerminate (with reason)
     terminate_block: Option<(BasicBlock, UnwindTerminateReason)>,
     body_span: Span,
     next_local: usize,
 }

 impl<'tcx> MirPatch<'tcx> {
     pub fn new(body: &Body<'tcx>) -> Self {
         let mut result = MirPatch {
             patch_map: IndexVec::from_elem(None, &body.basic_blocks),
             new_blocks: vec![],
             new_statements: vec![],
             new_locals: vec![],
             next_local: body.local_decls.len(),
             resume_block: None,
             unreachable_cleanup_block: None,
             terminate_block: None,
             body_span: body.span,
         };

         for (bb, block) in body.basic_blocks.iter_enumerated() {
             // Check if we already have a resume block
             if matches!(block.terminator().kind, TerminatorKind::UnwindResume)
                 && block.statements.is_empty()
             {
                 result.resume_block = Some(bb);
                 continue;
             }

             // Check if we already have an unreachable block
             if matches!(block.terminator().kind, TerminatorKind::Unreachable)
                 && block.statements.is_empty()
                 && block.is_cleanup
             {
                 result.unreachable_cleanup_block = Some(bb);
                 continue;
             }

             // Check if we already have a terminate block
             if let TerminatorKind::UnwindTerminate(reason) = block.terminator().kind
                 && block.statements.is_empty()
             {
                 result.terminate_block = Some((bb, reason));
                 continue;
             }
         }

         result
     }

     pub fn resume_block(&mut self) -> BasicBlock {
         if let Some(bb) = self.resume_block {
             return bb;
         }

         let bb = self.new_block(BasicBlockData {
             statements: vec![],
             terminator: Some(Terminator {
                 source_info: SourceInfo::outermost(self.body_span),
                 kind: TerminatorKind::UnwindResume,
             }),
             is_cleanup: true,
         });
         self.resume_block = Some(bb);
         bb
     }

     pub fn unreachable_cleanup_block(&mut self) -> BasicBlock {
         if let Some(bb) = self.unreachable_cleanup_block {
             return bb;
         }

         let bb = self.new_block(BasicBlockData {
             statements: vec![],
             terminator: Some(Terminator {
                 source_info: SourceInfo::outermost(self.body_span),
                 kind: TerminatorKind::Unreachable,
             }),
             is_cleanup: true,
         });
         self.unreachable_cleanup_block = Some(bb);
         bb
     }

     pub fn terminate_block(&mut self, reason: UnwindTerminateReason) -> BasicBlock {
         if let Some((cached_bb, cached_reason)) = self.terminate_block
             && reason == cached_reason
         {
             return cached_bb;
         }

         let bb = self.new_block(BasicBlockData {
             statements: vec![],
             terminator: Some(Terminator {
                 source_info: SourceInfo::outermost(self.body_span),
                 kind: TerminatorKind::UnwindTerminate(reason),
             }),
             is_cleanup: true,
         });
         self.terminate_block = Some((bb, reason));
         bb
     }

     pub fn is_patched(&self, bb: BasicBlock) -> bool {
         self.patch_map[bb].is_some()
     }

     pub fn terminator_loc(&self, body: &Body<'tcx>, bb: BasicBlock) -> Location {
         let offset = match bb.index().checked_sub(body.basic_blocks.len()) {
             Some(index) => self.new_blocks[index].statements.len(),
             None => body[bb].statements.len(),
         };
         Location { block: bb, statement_index: offset }
     }

     pub fn new_local_with_info(
         &mut self,
         ty: Ty<'tcx>,
         span: Span,
         local_info: LocalInfo<'tcx>,
     ) -> Local {
         let index = self.next_local;
         self.next_local += 1;
         let mut new_decl = LocalDecl::new(ty, span);
         **new_decl.local_info.as_mut().assert_crate_local() = local_info;
         self.new_locals.push(new_decl);
         Local::new(index)
     }

     pub fn new_temp(&mut self, ty: Ty<'tcx>, span: Span) -> Local {
         let index = self.next_local;
         self.next_local += 1;
         self.new_locals.push(LocalDecl::new(ty, span));
         Local::new(index)
     }

     pub fn new_block(&mut self, data: BasicBlockData<'tcx>) -> BasicBlock {
         let block = BasicBlock::new(self.patch_map.len());
         debug!("MirPatch: new_block: {:?}: {:?}", block, data);
         self.new_blocks.push(data);
         self.patch_map.push(None);
         block
     }

     pub fn patch_terminator(&mut self, block: BasicBlock, new: TerminatorKind<'tcx>) {
         assert!(self.patch_map[block].is_none());
         debug!("MirPatch: patch_terminator({:?}, {:?})", block, new);
         self.patch_map[block] = Some(new);
     }

     pub fn add_statement(&mut self, loc: Location, stmt: StatementKind<'tcx>) {
         debug!("MirPatch: add_statement({:?}, {:?})", loc, stmt);
         self.new_statements.push((loc, stmt));
     }

     pub fn add_assign(&mut self, loc: Location, place: Place<'tcx>, rv: Rvalue<'tcx>) {
         self.add_statement(loc, StatementKind::Assign(Box::new((place, rv))));
     }

     pub fn apply(self, body: &mut Body<'tcx>) {
         debug!(
             "MirPatch: {:?} new temps, starting from index {}: {:?}",
             self.new_locals.len(),
             body.local_decls.len(),
             self.new_locals
         );
         debug!(
             "MirPatch: {} new blocks, starting from index {}",
             self.new_blocks.len(),
             body.basic_blocks.len()
         );
         let bbs = if self.patch_map.is_empty() && self.new_blocks.is_empty() {
             body.basic_blocks.as_mut_preserves_cfg()
         } else {
             body.basic_blocks.as_mut()
         };
         bbs.extend(self.new_blocks);
         body.local_decls.extend(self.new_locals);
         for (src, patch) in self.patch_map.into_iter_enumerated() {
             if let Some(patch) = patch {
                 debug!("MirPatch: patching block {:?}", src);
                 bbs[src].terminator_mut().kind = patch;
             }
         }

         let mut new_statements = self.new_statements;
         new_statements.sort_by_key(|s| s.0);

         let mut delta = 0;
         let mut last_bb = START_BLOCK;
         for (mut loc, stmt) in new_statements {
             if loc.block != last_bb {
                 delta = 0;
                 last_bb = loc.block;
             }
             debug!("MirPatch: adding statement {:?} at loc {:?}+{}", stmt, loc, delta);
             loc.statement_index += delta;
             let source_info = Self::source_info_for_index(&body[loc.block], loc);
             body[loc.block]
                 .statements
                 .insert(loc.statement_index, Statement { source_info, kind: stmt });
             delta += 1;
         }
     }

     pub fn source_info_for_index(data: &BasicBlockData<'_>, loc: Location) -> SourceInfo {
         match data.statements.get(loc.statement_index) {
             Some(stmt) => stmt.source_info,
             None => data.terminator().source_info,
         }
     }

     pub fn source_info_for_location(&self, body: &Body<'tcx>, loc: Location) -> SourceInfo {
         let data = match loc.block.index().checked_sub(body.basic_blocks.len()) {
             Some(new) => &self.new_blocks[new],
             None => &body[loc.block],
         };
         Self::source_info_for_index(data, loc)
     }
 }
	use rustc_index::{Idx, IndexVec};
	use rustc_middle::mir::*;
	use rustc_middle::ty::Ty;
	use rustc_span::Span;

	/// This struct represents a patch to MIR, which can add
	/// new statements and basic blocks and patch over block
	/// terminators.
	pub struct MirPatch<'tcx> {
	patch_map: IndexVec<BasicBlock, Option<TerminatorKind<'tcx>>>,
	new_blocks: Vec<BasicBlockData<'tcx>>,
	new_statements: Vec<(Location, StatementKind<'tcx>)>,
	new_locals: Vec<LocalDecl<'tcx>>,
	resume_block: Option<BasicBlock>,
	// Only for unreachable in cleanup path.
	unreachable_cleanup_block: Option<BasicBlock>,
	// Cached block for UnwindTerminate (with reason)
	terminate_block: Option<(BasicBlock, UnwindTerminateReason)>,
	body_span: Span,
	next_local: usize,
	}

	impl<'tcx> MirPatch<'tcx> {
	pub fn new(body: &Body<'tcx>) -> Self {
	let mut result = MirPatch {
	patch_map: IndexVec::from_elem(None, &body.basic_blocks),
	new_blocks: vec![],
	new_statements: vec![],
	new_locals: vec![],
	next_local: body.local_decls.len(),
	resume_block: None,
	unreachable_cleanup_block: None,
	terminate_block: None,
	body_span: body.span,
	};

	for (bb, block) in body.basic_blocks.iter_enumerated() {
	// Check if we already have a resume block
	if matches!(block.terminator().kind, TerminatorKind::UnwindResume)
	&& block.statements.is_empty()
	{
	result.resume_block = Some(bb);
	continue;
	}

	// Check if we already have an unreachable block
	if matches!(block.terminator().kind, TerminatorKind::Unreachable)
	&& block.statements.is_empty()
	&& block.is_cleanup
	{
	result.unreachable_cleanup_block = Some(bb);
	continue;
	}

	// Check if we already have a terminate block
	if let TerminatorKind::UnwindTerminate(reason) = block.terminator().kind
	&& block.statements.is_empty()
	{
	result.terminate_block = Some((bb, reason));
	continue;
	}
	}

	result
	}

	pub fn resume_block(&mut self) -> BasicBlock {
	if let Some(bb) = self.resume_block {
	return bb;
	}

	let bb = self.new_block(BasicBlockData {
	statements: vec![],
	terminator: Some(Terminator {
	source_info: SourceInfo::outermost(self.body_span),
	kind: TerminatorKind::UnwindResume,
	}),
	is_cleanup: true,
	});
	self.resume_block = Some(bb);
	bb
	}

	pub fn unreachable_cleanup_block(&mut self) -> BasicBlock {
	if let Some(bb) = self.unreachable_cleanup_block {
	return bb;
	}

	let bb = self.new_block(BasicBlockData {
	statements: vec![],
	terminator: Some(Terminator {
	source_info: SourceInfo::outermost(self.body_span),
	kind: TerminatorKind::Unreachable,
	}),
	is_cleanup: true,
	});
	self.unreachable_cleanup_block = Some(bb);
	bb
	}

	pub fn terminate_block(&mut self, reason: UnwindTerminateReason) -> BasicBlock {
	if let Some((cached_bb, cached_reason)) = self.terminate_block
	&& reason == cached_reason
	{
	return cached_bb;
	}

	let bb = self.new_block(BasicBlockData {
	statements: vec![],
	terminator: Some(Terminator {
	source_info: SourceInfo::outermost(self.body_span),
	kind: TerminatorKind::UnwindTerminate(reason),
	}),
	is_cleanup: true,
	});
	self.terminate_block = Some((bb, reason));
	bb
	}

	pub fn is_patched(&self, bb: BasicBlock) -> bool {
	self.patch_map[bb].is_some()
	}

	pub fn terminator_loc(&self, body: &Body<'tcx>, bb: BasicBlock) -> Location {
	let offset = match bb.index().checked_sub(body.basic_blocks.len()) {
	Some(index) => self.new_blocks[index].statements.len(),
	None => body[bb].statements.len(),
	};
	Location { block: bb, statement_index: offset }
	}

	pub fn new_local_with_info(
	&mut self,
	ty: Ty<'tcx>,
	span: Span,
	local_info: LocalInfo<'tcx>,
	) -> Local {
	let index = self.next_local;
	self.next_local += 1;
	let mut new_decl = LocalDecl::new(ty, span);
	**new_decl.local_info.as_mut().assert_crate_local() = local_info;
	self.new_locals.push(new_decl);
	Local::new(index)
	}

	pub fn new_temp(&mut self, ty: Ty<'tcx>, span: Span) -> Local {
	let index = self.next_local;
	self.next_local += 1;
	self.new_locals.push(LocalDecl::new(ty, span));
	Local::new(index)
	}

	pub fn new_block(&mut self, data: BasicBlockData<'tcx>) -> BasicBlock {
	let block = BasicBlock::new(self.patch_map.len());
	debug!("MirPatch: new_block: {:?}: {:?}", block, data);
	self.new_blocks.push(data);
	self.patch_map.push(None);
	block
	}

	pub fn patch_terminator(&mut self, block: BasicBlock, new: TerminatorKind<'tcx>) {
	assert!(self.patch_map[block].is_none());
	debug!("MirPatch: patch_terminator({:?}, {:?})", block, new);
	self.patch_map[block] = Some(new);
	}

	pub fn add_statement(&mut self, loc: Location, stmt: StatementKind<'tcx>) {
	debug!("MirPatch: add_statement({:?}, {:?})", loc, stmt);
	self.new_statements.push((loc, stmt));
	}

	pub fn add_assign(&mut self, loc: Location, place: Place<'tcx>, rv: Rvalue<'tcx>) {
	self.add_statement(loc, StatementKind::Assign(Box::new((place, rv))));
	}

	pub fn apply(self, body: &mut Body<'tcx>) {
	debug!(
	"MirPatch: {:?} new temps, starting from index {}: {:?}",
	self.new_locals.len(),
	body.local_decls.len(),
	self.new_locals
	);
	debug!(
	"MirPatch: {} new blocks, starting from index {}",
	self.new_blocks.len(),
	body.basic_blocks.len()
	);
	let bbs = if self.patch_map.is_empty() && self.new_blocks.is_empty() {
	body.basic_blocks.as_mut_preserves_cfg()
	} else {
	body.basic_blocks.as_mut()
	};
	bbs.extend(self.new_blocks);
	body.local_decls.extend(self.new_locals);
	for (src, patch) in self.patch_map.into_iter_enumerated() {
	if let Some(patch) = patch {
	debug!("MirPatch: patching block {:?}", src);
	bbs[src].terminator_mut().kind = patch;
	}
	}

	let mut new_statements = self.new_statements;
	new_statements.sort_by_key(\|s\| s.0);

	let mut delta = 0;
	let mut last_bb = START_BLOCK;
	for (mut loc, stmt) in new_statements {
	if loc.block != last_bb {
	delta = 0;
	last_bb = loc.block;
	}
	debug!("MirPatch: adding statement {:?} at loc {:?}+{}", stmt, loc, delta);
	loc.statement_index += delta;
	let source_info = Self::source_info_for_index(&body[loc.block], loc);
	body[loc.block]
	.statements
	.insert(loc.statement_index, Statement { source_info, kind: stmt });
	delta += 1;
	}
	}

	pub fn source_info_for_index(data: &BasicBlockData<'_>, loc: Location) -> SourceInfo {
	match data.statements.get(loc.statement_index) {
	Some(stmt) => stmt.source_info,
	None => data.terminator().source_info,
	}
	}

	pub fn source_info_for_location(&self, body: &Body<'tcx>, loc: Location) -> SourceInfo {
	let data = match loc.block.index().checked_sub(body.basic_blocks.len()) {
	Some(new) => &self.new_blocks[new],
	None => &body[loc.block],
	};
	Self::source_info_for_index(data, loc)
	}
	}