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1
2
3
4
5 package ssa
6
7 import "testing"
8
9 func testLCAgen(t *testing.T, bg blockGen, size int) {
10 c := testConfig(t)
11 fun := c.Fun("entry", bg(size)...)
12 CheckFunc(fun.f)
13 if size == 4 {
14 t.Logf(fun.f.String())
15 }
16 lca1 := makeLCArange(fun.f)
17 lca2 := makeLCAeasy(fun.f)
18 for _, b := range fun.f.Blocks {
19 for _, c := range fun.f.Blocks {
20 l1 := lca1.find(b, c)
21 l2 := lca2.find(b, c)
22 if l1 != l2 {
23 t.Errorf("lca(%s,%s)=%s, want %s", b, c, l1, l2)
24 }
25 }
26 }
27 }
28
29 func TestLCALinear(t *testing.T) {
30 testLCAgen(t, genLinear, 10)
31 testLCAgen(t, genLinear, 100)
32 }
33
34 func TestLCAFwdBack(t *testing.T) {
35 testLCAgen(t, genFwdBack, 10)
36 testLCAgen(t, genFwdBack, 100)
37 }
38
39 func TestLCAManyPred(t *testing.T) {
40 testLCAgen(t, genManyPred, 10)
41 testLCAgen(t, genManyPred, 100)
42 }
43
44 func TestLCAMaxPred(t *testing.T) {
45 testLCAgen(t, genMaxPred, 10)
46 testLCAgen(t, genMaxPred, 100)
47 }
48
49 func TestLCAMaxPredValue(t *testing.T) {
50 testLCAgen(t, genMaxPredValue, 10)
51 testLCAgen(t, genMaxPredValue, 100)
52 }
53
54
55 type lcaEasy struct {
56 parent []*Block
57 }
58
59 func makeLCAeasy(f *Func) *lcaEasy {
60 return &lcaEasy{parent: dominators(f)}
61 }
62
63 func (lca *lcaEasy) find(a, b *Block) *Block {
64 da := lca.depth(a)
65 db := lca.depth(b)
66 for da > db {
67 da--
68 a = lca.parent[a.ID]
69 }
70 for da < db {
71 db--
72 b = lca.parent[b.ID]
73 }
74 for a != b {
75 a = lca.parent[a.ID]
76 b = lca.parent[b.ID]
77 }
78 return a
79 }
80
81 func (lca *lcaEasy) depth(b *Block) int {
82 n := 0
83 for b != nil {
84 b = lca.parent[b.ID]
85 n++
86 }
87 return n
88 }
89
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