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internal/rosa/azalea: evaluator
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Browse Source 
Performance is sufficient for the use case, despite the fact that I could not even think of a lower-effort way to do this:

BenchmarkParse-128        	   55100	     21494 ns/op
BenchmarkEvaluate-128     	  131670	      9248 ns/op

Signed-off-by: Ophestra <cat@gensokyo.uk>
This commit is contained in:
Ophestra
2026-05-16 21:54:40 +09:00
parent d38d306147
commit 371757fde0
3 changed files with 675 additions and 0 deletions
Download Patch File Download Diff File Expand all files Collapse all files

13
internal/rosa/azalea/azalea_test.go
View File

@@ -154,3 +154,16 @@ func TestParse(t *testing.T) {
}) })
} }
} }
func BenchmarkParse(b *testing.B) {
r := strings.NewReader(sample)
for b.Loop() {
if _, err := Parse(r); err != nil {
b.Fatal(err)
}
b.StopTimer()
r.Reset(sample)
b.StartTimer()
}
}

305
internal/rosa/azalea/evaluate.go Normal file
View File

@@ -0,0 +1,305 @@
package azalea
import (
"errors"
"fmt"
"maps"
"reflect"
"unique"
)
// Value are types supported by the language.
type Value interface {
bool | int64 | string | []string | [][2]string
}
type (
// FArg is an argument passed to [F].
FArg struct {
K unique.Handle[Ident]
V any
R bool
}
// FArgs are arguments passed to [F].
FArgs []FArg
// F is the implementation of a [Func].
F struct {
F func(isPackage bool, args FArgs) (v string, set bool, err error)
V map[unique.Handle[Ident]]any
}
)
// Apply applies named arguments and rejects unused arguments.
func (args FArgs) Apply(v map[unique.Handle[Ident]]any) error {
for _, arg := range args {
if arg.V == nil {
// unset
continue
}
r, ok := v[arg.K]
if !ok {
if arg.R {
continue
}
return UndefinedError(arg.K.Value())
}
err := storeE(r, arg.V)
if err != nil {
return err
}
}
return nil
}
// A Frame refers to local variables and debugging information.
type Frame struct {
// Local constants.
Val map[unique.Handle[Ident]]any
// Functions.
Func map[unique.Handle[Ident]]F
}
// UnsupportedExprError is an expression with invalid concrete type.
type UnsupportedExprError struct{ E any }
func (e UnsupportedExprError) Error() string {
return fmt.Sprintf("unsupported expression %#v", e.E)
}
// UndefinedError is an identifier not defined in any stack frame visible to the
// expression containing it.
type UndefinedError Ident
func (e UndefinedError) Error() string {
return "undefined: " + string(e)
}
// evaluate is evaluateAny with a type parameter.
func evaluate[T Value](s []Frame, expr any, rp *T) bool {
return evaluateAny(s, expr, rp)
}
// TypeError is an unexpected type during evaluation.
type TypeError struct {
Concrete, Asserted reflect.Type
}
func (e TypeError) Error() string {
return "expected " + e.Asserted.String() + ", got " + e.Concrete.String()
}
func (e TypeError) Is(err error) bool {
var v TypeError
return errors.As(err, &v) &&
e.Asserted == v.Asserted &&
e.Concrete == v.Concrete
}
// storeE is a convenience function to set the value of a result pointer.
func storeE(rp any, r any) error {
pv := reflect.ValueOf(rp).Elem()
v := reflect.ValueOf(r)
pt, vt := pv.Type(), v.Type()
if !vt.AssignableTo(pt) {
return TypeError{vt, pt}
}
pv.Set(v)
return nil
}
// store is like storeE, but panics if error is non-nil.
func store[T Value](rp any, r T) {
err := storeE(rp, r)
if err != nil {
panic(err)
}
}
// EvaluationError is an error and the expression it occurred in.
type EvaluationError struct {
Expr any
Err error
}
// Unwrap returns the underlying error.
func (e EvaluationError) Unwrap() error { return e.Err }
// Error returns a very long error description that should not be presented
// to the user directly.
func (e EvaluationError) Error() string {
return fmt.Sprintf("expression %#v: %v", e.Expr, e.Err)
}
// evaluateAny implements [Evaluate].
func evaluateAny(s []Frame, expr, rp any) bool {
defer func() {
r := recover()
if r == nil {
return
}
err, ok := r.(error)
if !ok {
panic(r)
}
if _, ok = err.(EvaluationError); ok {
panic(err)
}
panic(EvaluationError{expr, err})
}()
switch e := expr.(type) {
case Int:
store(rp, int64(e))
return true
case String:
store(rp, string(e))
return true
case Ident:
var (
v any
ok bool
)
for i := range s {
v, ok = s[len(s)-1-i].Val[unique.Make(e)]
if ok {
break
}
}
if !ok {
panic(UndefinedError(e))
}
if err := storeE(rp, v); err != nil {
panic(err)
}
return true
case Val:
if len(e) == 1 {
switch v := e[0].(type) {
case Ident:
switch v {
case "unset":
return false
case "true":
store(rp, true)
return true
case "false":
store(rp, false)
return true
default:
return evaluateAny(s, v, rp)
}
default:
return evaluateAny(s, e[0], rp)
}
}
var v string
for i := range e {
var _r string
if evaluate(s, e[i], &_r) {
v += _r
}
}
store(rp, v)
return true
case Array:
r := make([]string, 0, len(e))
for i := range e {
var _r string
if evaluate(s, e[i], &_r) {
r = append(r, _r)
}
}
store(rp, r)
return true
case []KV:
r := make([][2]string, 0, len(e))
for i := range e {
var _r string
if e[i].V == nil || evaluate(s, e[i].V, &_r) {
r = append(r, [2]string{string(e[i].K), _r})
}
}
store(rp, r)
return true
case Func:
var (
f F
ok bool
)
for i := range s {
f, ok = s[len(s)-1-i].Func[unique.Make(e.Ident)]
if ok {
break
}
}
if !ok {
panic(UndefinedError(e.Ident))
}
argc := len(e.Args)
for _, arg := range e.Args {
argc += len(arg.K) - 1
}
fargs := make([]FArg, 0, len(e.Args))
s = append(s, Frame{Val: maps.Clone(f.V)})
fp := &s[len(s)-1]
for _, arg := range e.Args {
farg := FArg{R: arg.R}
if !evaluateAny(s, arg.V, &farg.V) {
farg.V = nil
}
for _, name := range arg.K {
h := unique.Make(name)
farg.K = h
fargs = append(fargs, farg)
if arg.R && farg.V != nil {
if fp.Val == nil {
fp.Val = make(map[unique.Handle[Ident]]any)
}
(*fp).Val[h] = farg.V
}
}
}
v, set, err := f.F(e.Package, fargs)
if err != nil {
panic(err)
}
store(rp, v)
return set
default:
panic(UnsupportedExprError{expr})
}
}
// Evaluate evaluates a statement and returns its value.
func Evaluate[T Value](s []Frame, expr any) (v T, set bool, err error) {
defer func() {
r := recover()
if r == nil {
return
}
_err, ok := r.(error)
if !ok {
panic(r)
}
err = _err
}()
set = evaluate[T](s, expr, &v)
return
}

357
internal/rosa/azalea/evaluate_test.go Normal file
View File

@@ -0,0 +1,357 @@
package azalea_test
import (
"errors"
"fmt"
"reflect"
"strings"
"testing"
"unique"
. "hakurei.app/internal/rosa/azalea"
)
// makeStackCheck creates a stack with a single frame with a single function "f"
// which calls the check function internally.
func makeStackCheck(check func(args FArgs) (string, error)) []Frame {
return []Frame{{Func: map[unique.Handle[Ident]]F{
unique.Make(Ident("f")): {F: func(
isPackage bool,
args FArgs,
) (v string, set bool, err error) {
set = true
v, err = check(args)
if isPackage {
err = errors.New("unexpected package")
}
return
}},
}}}
}
// makeWantArgs makes a stack for validating the arguments of a single function "f".
func makeWantArgs(want FArgs) []Frame {
return makeStackCheck(func(got FArgs) (string, error) {
if !reflect.DeepEqual(got, want) {
return "", fmt.Errorf("f: %#v, want %#v", got, want)
}
return "\xfc", nil
})
}
func TestEvaluate(t *testing.T) {
t.Parallel()
testCases := []struct {
name string
data string
s []Frame
want string
err error
}{
{"apply unset", `f { v = unset; }`, makeStackCheck(func(
args FArgs,
) (v string, err error) {
v = "\xfd"
err = args.Apply(map[unique.Handle[Ident]]any{
unique.Make(Ident("v")): &v,
})
return
}), "\xfd", nil},
{"apply bad type", `f { v = 9; }`, makeStackCheck(func(
args FArgs,
) (v string, err error) {
v = "\xfd"
err = args.Apply(map[unique.Handle[Ident]]any{
unique.Make(Ident("v")): &v,
})
return
}), "", TypeError{
Concrete: reflect.TypeFor[int64](),
Asserted: reflect.TypeFor[string](),
}},
{"apply undefined", `f { v = 9; }`, makeStackCheck(func(
args FArgs,
) (v string, err error) {
v = "\xfd"
err = args.Apply(map[unique.Handle[Ident]]any{})
return
}), "", EvaluationError{
Expr: Func{
Ident: Ident("f"),
Args: []Arg{
{K: []Ident{"v"}, V: Val{Int(9)}},
},
},
Err: UndefinedError("v"),
}},
{"apply bound undefined", `f { _v* = "\x00"; v = _v; }`, makeStackCheck(func(
args FArgs,
) (v string, err error) {
v = "\xfd"
err = args.Apply(map[unique.Handle[Ident]]any{
unique.Make(Ident("v")): &v,
})
return
}), "\x00", nil},
{"undefined function", `f {}`, nil, "", EvaluationError{
Expr: Func{Ident: "f"},
Err: UndefinedError("f"),
}},
{"error wrap deep", `f { v = nil; }`, makeStackCheck(func(
FArgs,
) (string, error) {
panic("unreachable")
}), "", EvaluationError{
Expr: Ident("nil"),
Err: UndefinedError("nil"),
}},
}
for _, tc := range testCases {
t.Run(tc.name, func(t *testing.T) {
t.Parallel()
var expr Func
if e, err := Parse(strings.NewReader(tc.data)); err != nil {
t.Fatal(err)
} else if len(e) != 1 {
t.Fatalf("got expression %#v", e)
} else {
expr = e[0].(Func)
}
r, set, err := Evaluate[string](tc.s, expr)
if set != (err == nil) {
t.Error("Evaluate: unexpected unset")
}
if r != tc.want {
t.Errorf("Evaluate: %q, want %q", r, tc.want)
}
var errEquals bool
if errors.As(err, new(TypeError)) {
errEquals = errors.Is(err, tc.err)
} else {
errEquals = reflect.DeepEqual(err, tc.err)
}
if !errEquals {
t.Errorf("Evaluate: error = %v, want %v", err, tc.err)
}
})
}
}
func TestEvaluateGCC(t *testing.T) {
t.Parallel()
var gcc Func
if e, err := Parse(strings.NewReader(sample)); err != nil {
t.Fatal(err)
} else {
gcc = e[0].(Func)
}
var got [4]FArgs
if r, set, err := Evaluate[string]([]Frame{{
Func: map[unique.Handle[Ident]]F{
unique.Make(Ident("gcc")): {F: func(
isPackage bool,
args FArgs,
) (v string, set bool, err error) {
v = "\x00"
if !isPackage {
err = errors.New("not a package")
}
set = true
got[0] = args
return
}, V: map[unique.Handle[Ident]]any{
unique.Make(Ident("binutils")): "binutils",
unique.Make(Ident("mpc")): "mpc",
unique.Make(Ident("zlib")): "zlib",
unique.Make(Ident("libucontext")): "libucontext",
unique.Make(Ident("kernel-headers")): "kernel-headers",
}},
unique.Make(Ident("remoteTar")): {F: func(
isPackage bool,
args FArgs,
) (v string, set bool, err error) {
if isPackage {
err = errors.New("unexpected package")
return
}
var url, checksum string
var compress int
if err = args.Apply(map[unique.Handle[Ident]]any{
unique.Make(Ident("url")): &url,
unique.Make(Ident("checksum")): &checksum,
unique.Make(Ident("compress")): &compress,
}); err != nil {
return
}
if compress != 0xcafe {
err = fmt.Errorf("unexpected compress %#v", compress)
}
set = true
v = url + "?checksum=" + checksum
return
}, V: map[unique.Handle[Ident]]any{
unique.Make(Ident("gzip")): 0xcafe,
}},
unique.Make(Ident("make")): {F: func(
isPackage bool,
args FArgs,
) (v string, set bool, err error) {
v = "\x01"
if isPackage {
err = errors.New("unexpected package")
}
set = true
got[1] = args
return
}},
unique.Make(Ident("arch")): {F: func(
isPackage bool,
args FArgs,
) (v string, set bool, err error) {
set = false
if isPackage {
err = errors.New("unexpected package")
}
got[2] = args
return
}},
unique.Make(Ident("noop")): {F: func(
isPackage bool,
args FArgs,
) (v string, set bool, err error) {
set = false
if isPackage {
err = errors.New("unexpected package")
}
set = true
got[3] = args
return
}, V: map[unique.Handle[Ident]]any{
unique.Make(Ident("value")): "\xfd",
}},
},
}}, gcc); err != nil {
t.Fatal(err)
} else if r != "\x00" {
t.Fatalf("package: %q", r)
} else if !set {
t.Fatal("package: unset")
}
want := [...]FArgs{
{
{K: unique.Make(Ident("description")), V: "The GNU Compiler Collection"},
{K: unique.Make(Ident("website")), V: "https://www.gnu.org/software/gcc"},
{K: unique.Make(Ident("anitya")), V: int64(6502)},
{K: unique.Make(Ident("version")), V: "16.1.0", R: true},
{K: unique.Make(Ident("source")), V: "https://ftp.tsukuba.wide.ad.jp/software/gcc/releases/gcc-16.1.0/gcc-16.1.0.tar.gz?checksum=4ASoWbxaA2FW7PAB0zzHDPC5XnNhyaAyjtDPpGzceSLeYnEIXsNYZR3PA_Zu5P0K"},
{K: unique.Make(Ident("patches")), V: []string{"musl-off64_t-loff_t.patch", "musl-legacy-lfs.patch"}},
{K: unique.Make(Ident("exclusive")), V: true},
{K: unique.Make(Ident("exec")), V: "\x01"},
{K: unique.Make(Ident("inputs")), V: []string{
"binutils",
"mpc",
"zlib",
"libucontext",
"kernel-headers",
}},
},
{
{K: unique.Make(Ident("configure")), V: [][2]string{{"disable-multilib", ""}, {"enable-default-pie", ""}, {"disable-nls", ""}, {"with-gnu-as", ""}, {"with-gnu-ld", ""}, {"with-system-zlib", ""}, {"enable-languages", "c,c++,go"}, {"with-native-system-header-dir", "/system/include"}}},
{K: unique.Make(Ident("make")), V: []string{"BOOT_CFLAGS='-O2 -g'", "\x00", "bootstrap"}},
{K: unique.Make(Ident("skip-check")), V: true},
},
{
{K: unique.Make(Ident("amd64")), V: "''"},
{K: unique.Make(Ident("arm64")), V: "''"},
{K: unique.Make(Ident("default"))},
},
{{K: unique.Make(Ident("key")), V: "\xfd"}},
}
if !reflect.DeepEqual(got, want) {
t.Errorf("package: args = %#v, want %#v", got, want)
}
}
func BenchmarkEvaluate(b *testing.B) {
var gcc Func
if e, err := Parse(strings.NewReader(sample)); err != nil {
b.Fatal(err)
} else {
gcc = e[0].(Func)
}
s := []Frame{{
Func: map[unique.Handle[Ident]]F{
unique.Make(Ident("gcc")): {F: func(
bool,
FArgs,
) (v string, set bool, err error) {
return
}, V: map[unique.Handle[Ident]]any{
unique.Make(Ident("binutils")): "binutils",
unique.Make(Ident("mpc")): "mpc",
unique.Make(Ident("zlib")): "zlib",
unique.Make(Ident("libucontext")): "libucontext",
unique.Make(Ident("kernel-headers")): "kernel-headers",
}},
unique.Make(Ident("remoteTar")): {F: func(
bool,
FArgs,
) (v string, set bool, err error) {
return
}, V: map[unique.Handle[Ident]]any{
unique.Make(Ident("gzip")): 0xcafe,
}},
unique.Make(Ident("make")): {F: func(
bool,
FArgs,
) (v string, set bool, err error) {
return
}},
unique.Make(Ident("arch")): {F: func(
bool,
FArgs,
) (v string, set bool, err error) {
return
}},
unique.Make(Ident("noop")): {F: func(
bool,
FArgs,
) (v string, set bool, err error) {
return
}, V: map[unique.Handle[Ident]]any{
unique.Make(Ident("value")): "\xfd",
}},
},
}}
for b.Loop() {
if _, _, err := Evaluate[string](s, gcc); err != nil {
b.Fatal(err)
}
}
}