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prefix_test.go
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prefix_test.go
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package gofakes3
import (
"fmt"
"reflect"
"testing"
)
func TestPrefixMatch(t *testing.T) {
// Cheapo helpers for hiding pointer strings, which are used to increase
// information density in the test case table:
s := func(v string) *string { return &v }
for idx, tc := range []struct {
key string
p *string
d *string
out *string
common bool
}{
{key: "foo/bar", p: s("foo"), d: s("/"), out: s("foo/"), common: true},
{key: "foo/bar", p: s("foo/ba"), d: s("/"), out: s("foo/bar")},
{key: "foo/bar", p: s("foo/ba/"), d: s("/"), out: nil},
{key: "foo/bar", p: s("/"), d: s("/"), out: s("foo/"), common: true},
// Without a delimiter, it's just a boring ol' prefix match:
{key: "foo/bar", p: s("foo/b"), out: s("foo/b")},
{key: "foo/bar", p: s("foo/"), out: s("foo/")},
{key: "foo/bar", p: s("foo"), out: s("foo")},
{key: "foo/bar", p: s("fo"), out: s("fo")},
{key: "foo/bar", p: s("f"), out: s("f")},
{key: "foo/bar", p: s("q"), out: nil},
// This could be a source of trouble - does "no prefix" mean "match
// everything" or "match nothing"? What about "empty prefix"? For now,
// these cases simply document what the curret algorithm is expected to
// do, but this needs further exploration:
{key: "foo/bar", p: nil, out: s("foo/bar")},
{key: "foo/bar", p: s(""), out: s("")},
} {
t.Run("", func(t *testing.T) {
prefix := Prefix{
HasPrefix: tc.p != nil,
HasDelimiter: tc.d != nil,
Prefix: unwrapStr(tc.p),
Delimiter: unwrapStr(tc.d),
}
var match PrefixMatch
matched := prefix.Match(tc.key, &match)
if (tc.out == nil) != (!matched) {
t.Fatal("prefix match failed at index", idx)
}
if tc.out != nil {
if *tc.out != match.MatchedPart {
t.Fatal("prefix matched part failed at index", idx, *tc.out, "!=", match.MatchedPart)
}
if tc.common != match.CommonPrefix {
t.Fatal("prefix common failed at index", idx)
}
}
})
}
}
func TestNewPrefix(t *testing.T) {
s := func(in string) *string { return &in }
for _, tc := range []struct {
prefix, delim *string
out Prefix
}{
{nil, nil, Prefix{}},
{s("foo"), nil, Prefix{HasPrefix: true, Prefix: "foo"}},
{nil, s("foo"), Prefix{HasDelimiter: true, Delimiter: "foo"}},
{s("foo"), s("bar"), Prefix{HasPrefix: true, Prefix: "foo", HasDelimiter: true, Delimiter: "bar"}},
} {
t.Run("", func(t *testing.T) {
exp := NewPrefix(tc.prefix, tc.delim)
if !reflect.DeepEqual(tc.out, exp) {
t.Fatal(tc.out, "!=", exp)
}
})
}
}
func TestPrefixFilePrefix(t *testing.T) {
s := func(v string) *string { return &v }
for idx, tc := range []struct {
p, d *string
ok bool
path, rem string
}{
{s("foo/bar"), s("/"), true, "foo", "bar"},
{s("foo/bar/"), s("/"), true, "foo/bar", ""},
{s("foo/bar/b"), s("/"), true, "foo/bar", "b"},
{s("foo"), s("/"), true, "", "foo"},
{s("foo/"), s("/"), true, "foo", ""},
{s("/"), s("/"), true, "", ""},
{s(""), s("/"), true, "", ""},
{s(""), nil, false, "", ""},
{s("foo"), nil, false, "", ""},
{s("foo/bar"), nil, false, "", ""},
{s("foo-bar"), s("-"), false, "", ""},
} {
t.Run(fmt.Sprintf("%d/(%s-%s)", idx, tc.path, tc.rem), func(t *testing.T) {
prefix := NewPrefix(tc.p, tc.d)
foundPath, foundRem, ok := prefix.FilePrefix()
if tc.ok != ok {
t.Fatal()
} else if tc.ok {
if tc.path != foundPath {
t.Fatal("prefix path", tc.path, "!=", foundPath)
}
if tc.rem != foundRem {
t.Fatal("prefix rem", tc.rem, "!=", foundRem)
}
}
})
}
}
func unwrapStr(v *string) string {
if v != nil {
return *v
}
return ""
}