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Add a dominator tree implementation.

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This commit is contained in:
Morgan Phillips
2016-07-31 21:40:11 -07:00
parent a8beb542a5
commit 967a7c64d4
5 changed files with 201 additions and 2 deletions
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2
cranelift/src/libcretonne/cfg.rs
View File

@@ -89,7 +89,7 @@ impl ControlFlowGraph {
self.data[to].predecessors.push(from); self.data[to].predecessors.push(from);
} }
fn get_predecessors(&self, ebb: Ebb) -> &Vec<BasicBlock> { pub fn get_predecessors(&self, ebb: Ebb) -> &Vec<BasicBlock> {
&self.data[ebb].predecessors &self.data[ebb].predecessors
} }

138
cranelift/src/libcretonne/dominator_tree.rs Normal file
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@@ -0,0 +1,138 @@
/// ! A Dominator Tree represented as mappings of Ebbs to their immediate dominator.
use cfg::*;
use ir::entities::Ebb;
use entity_map::EntityMap;
pub struct DominatorTree {
data: EntityMap<Ebb, Option<Ebb>>,
}
impl DominatorTree {
pub fn new(cfg: &ControlFlowGraph) -> DominatorTree {
let mut dt = DominatorTree { data: EntityMap::new() };
dt.build(cfg);
dt
}
pub fn build(&mut self, cfg: &ControlFlowGraph) {
let reverse_postorder_map = cfg.reverse_postorder_ebbs();
let ebbs = reverse_postorder_map.keys().collect::<Vec<Ebb>>();
let len = reverse_postorder_map.len();
for (i, ebb) in ebbs.iter().enumerate() {
if i > 0 {
self.data.push(None);
} else {
self.data.push(Some(ebb.clone()));
}
}
let mut changed = len > 0;
while changed {
changed = false;
for i in 1..len {
let ebb = ebbs[i];
let preds = cfg.get_predecessors(ebb);
let mut new_idom = None;
for &(p, _) in preds {
if new_idom == None {
new_idom = Some(p);
continue;
}
if let Some(_) = self.data[p] {
new_idom =
Some(self.intersect(&reverse_postorder_map, p, new_idom.unwrap()));
}
}
match self.data[ebb] {
None => {
self.data[ebb] = new_idom;
changed = true;
}
Some(idom) => {
// Old idom != New idom
if idom != new_idom.unwrap() {
self.data[ebb] = new_idom;
changed = true;
}
}
}
}
}
}
fn intersect(&self, ordering: &EntityMap<Ebb, usize>, first: Ebb, second: Ebb) -> Ebb {
println!("A {} B {}", first, second);
let mut a = first;
let mut b = second;
while a != b {
while ordering[a] < ordering[b] {
a = self.data[a].unwrap();
}
while ordering[b] < ordering[a] {
b = self.data[b].unwrap();
}
}
a
}
pub fn idom(&self, ebb: Ebb) -> Option<Ebb> {
self.data[ebb].clone()
}
pub fn len(&self) -> usize {
self.data.len()
}
}
#[cfg(test)]
mod test {
use super::*;
use ir::Function;
use cfg::ControlFlowGraph;
use test_utils::make_inst;
#[test]
fn empty() {
let func = Function::new();
let cfg = ControlFlowGraph::new(&func);
let dtree = DominatorTree::new(&cfg);
assert_eq!(dtree.len(), 0);
}
#[test]
fn non_zero_entry_block() {
let mut func = Function::new();
let ebb3 = func.dfg.make_ebb();
let ebb1 = func.dfg.make_ebb();
let ebb2 = func.dfg.make_ebb();
let ebb0 = func.dfg.make_ebb();
func.layout.append_ebb(ebb3);
func.layout.append_ebb(ebb1);
func.layout.append_ebb(ebb2);
func.layout.append_ebb(ebb0);
let jmp_ebb3_ebb1 = make_inst::jump(&mut func, ebb1);
let br_ebb1_ebb0 = make_inst::branch(&mut func, ebb0);
let jmp_ebb1_ebb2 = make_inst::jump(&mut func, ebb2);
let jmp_ebb2_ebb0 = make_inst::jump(&mut func, ebb0);
func.layout.append_inst(br_ebb1_ebb0, ebb1);
func.layout.append_inst(jmp_ebb1_ebb2, ebb1);
func.layout.append_inst(jmp_ebb2_ebb0, ebb2);
func.layout.append_inst(jmp_ebb3_ebb1, ebb3);
let cfg = ControlFlowGraph::new(&func);
let dt = DominatorTree::new(&cfg);
assert_eq!(func.layout.entry_block().unwrap(), ebb3);
assert_eq!(dt.len(), cfg.len());
assert_eq!(dt.idom(ebb3).unwrap(), ebb3);
assert_eq!(dt.idom(ebb1).unwrap(), ebb3);
assert_eq!(dt.idom(ebb2).unwrap(), ebb1);
assert_eq!(dt.idom(ebb0).unwrap(), ebb1);
}
}

2
cranelift/src/libcretonne/lib.rs
View File

@@ -10,7 +10,7 @@ pub const VERSION: &'static str = env!("CARGO_PKG_VERSION");
pub mod ir; pub mod ir;
pub mod write; pub mod write;
pub mod cfg; pub mod cfg;
pub mod dominator_tree;
pub mod entity_map; pub mod entity_map;
#[cfg(test)]pub mod test_utils; #[cfg(test)]pub mod test_utils;

60
cranelift/src/libcretonne/tests/dominator_tree.rs Normal file
View File

@@ -0,0 +1,60 @@
extern crate cretonne;
extern crate cton_reader;
use self::cton_reader::parser::Parser;
use self::cretonne::ir::entities::Ebb;
use self::cretonne::cfg::ControlFlowGraph;
use self::cretonne::dominator_tree::DominatorTree;
fn test_dominator_tree(function_source: &str, idoms: Vec<u32>) {
let func = &Parser::parse(function_source).unwrap()[0];
let cfg = ControlFlowGraph::new(&func);
let dtree = DominatorTree::new(&cfg);
assert_eq!(dtree.len(), idoms.len());
for (i, j) in idoms.iter().enumerate() {
let ebb = Ebb::with_number(i.clone() as u32);
let idom = Ebb::with_number(*j);
assert_eq!(dtree.idom(ebb.unwrap()), idom);
}
}
#[test]
fn basic() {
test_dominator_tree("
function test(i32) {
ebb0(v0: i32):
jump ebb1
ebb1:
brz v0, ebb3
jump ebb2
ebb2:
jump ebb3
ebb3:
return
}
", vec![0, 0, 1, 1]);
}
#[test]
fn loops() {
test_dominator_tree("
function test(i32) {
ebb0(v0: i32):
brz v0, ebb1
jump ebb2
ebb1:
jump ebb3
ebb2:
brz v0, ebb4
jump ebb5
ebb3:
jump ebb4
ebb4:
brz v0, ebb3
jump ebb5
ebb5:
brz v0, ebb4
return
}
", vec![0, 0, 0, 0, 0, 0]);
}

1
cranelift/src/libcretonne/tests/lib.rs
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@@ -1 +1,2 @@
pub mod cfg_traversal; pub mod cfg_traversal;
pub mod dominator_tree;