61890b15cb
* wip * move print and JSON functions to modules * builtin functions are not replacable now * builtin functions are added for default nil symbol table * importables: builtin modules and source modules * refactoring runtime tests * fix tests * update documentation * cleanup * clean up cli * fix REPL prints
206 lines
6.4 KiB
Go
206 lines
6.4 KiB
Go
package runtime_test
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import (
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"math"
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"math/rand"
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"testing"
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"github.com/d5/tengo/objects"
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)
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func TestBuiltin(t *testing.T) {
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m := Opts().Module("math",
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&objects.BuiltinModule{
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Attrs: map[string]objects.Object{
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"abs": &objects.UserFunction{
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Name: "abs",
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Value: func(args ...objects.Object) (ret objects.Object, err error) {
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v, _ := objects.ToFloat64(args[0])
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return &objects.Float{Value: math.Abs(v)}, nil
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},
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},
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},
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})
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// builtin
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expect(t, `math := import("math"); out = math.abs(1)`, m, 1.0)
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expect(t, `math := import("math"); out = math.abs(-1)`, m, 1.0)
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expect(t, `math := import("math"); out = math.abs(1.0)`, m, 1.0)
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expect(t, `math := import("math"); out = math.abs(-1.0)`, m, 1.0)
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}
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func TestUserModules(t *testing.T) {
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// export none
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expect(t, `out = import("mod1")`, Opts().Module("mod1", `fn := func() { return 5.0 }; a := 2`), objects.UndefinedValue)
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// export values
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expect(t, `out = import("mod1")`, Opts().Module("mod1", `export 5`), 5)
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expect(t, `out = import("mod1")`, Opts().Module("mod1", `export "foo"`), "foo")
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// export compound types
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expect(t, `out = import("mod1")`, Opts().Module("mod1", `export [1, 2, 3]`), IARR{1, 2, 3})
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expect(t, `out = import("mod1")`, Opts().Module("mod1", `export {a: 1, b: 2}`), IMAP{"a": 1, "b": 2})
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// export value is immutable
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expectError(t, `m1 := import("mod1"); m1.a = 5`, Opts().Module("mod1", `export {a: 1, b: 2}`), "not index-assignable")
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expectError(t, `m1 := import("mod1"); m1[1] = 5`, Opts().Module("mod1", `export [1, 2, 3]`), "not index-assignable")
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// code after export statement will not be executed
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expect(t, `out = import("mod1")`, Opts().Module("mod1", `a := 10; export a; a = 20`), 10)
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expect(t, `out = import("mod1")`, Opts().Module("mod1", `a := 10; export a; a = 20; export a`), 10)
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// export function
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expect(t, `out = import("mod1")()`, Opts().Module("mod1", `export func() { return 5.0 }`), 5.0)
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// export function that reads module-global variable
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expect(t, `out = import("mod1")()`, Opts().Module("mod1", `a := 1.5; export func() { return a + 5.0 }`), 6.5)
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// export function that read local variable
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expect(t, `out = import("mod1")()`, Opts().Module("mod1", `export func() { a := 1.5; return a + 5.0 }`), 6.5)
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// export function that read free variables
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expect(t, `out = import("mod1")()`, Opts().Module("mod1", `export func() { a := 1.5; return func() { return a + 5.0 }() }`), 6.5)
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// recursive function in module
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expect(t, `out = import("mod1")`, Opts().Module(
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"mod1", `
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a := func(x) {
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return x == 0 ? 0 : x + a(x-1)
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}
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export a(5)
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`), 15)
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expect(t, `out = import("mod1")`, Opts().Module(
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"mod1", `
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export func() {
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a := func(x) {
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return x == 0 ? 0 : x + a(x-1)
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}
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return a(5)
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}()
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`), 15)
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// (main) -> mod1 -> mod2
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expect(t, `out = import("mod1")()`,
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Opts().Module("mod1", `export import("mod2")`).
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Module("mod2", `export func() { return 5.0 }`),
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5.0)
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// (main) -> mod1 -> mod2
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// -> mod2
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expect(t, `import("mod1"); out = import("mod2")()`,
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Opts().Module("mod1", `export import("mod2")`).
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Module("mod2", `export func() { return 5.0 }`),
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5.0)
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// (main) -> mod1 -> mod2 -> mod3
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// -> mod2 -> mod3
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expect(t, `import("mod1"); out = import("mod2")()`,
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Opts().Module("mod1", `export import("mod2")`).
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Module("mod2", `export import("mod3")`).
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Module("mod3", `export func() { return 5.0 }`),
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5.0)
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// cyclic imports
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// (main) -> mod1 -> mod2 -> mod1
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expectError(t, `import("mod1")`,
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Opts().Module("mod1", `import("mod2")`).
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Module("mod2", `import("mod1")`),
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"Compile Error: cyclic module import: mod1\n\tat mod2:1:1")
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// (main) -> mod1 -> mod2 -> mod3 -> mod1
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expectError(t, `import("mod1")`,
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Opts().Module("mod1", `import("mod2")`).
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Module("mod2", `import("mod3")`).
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Module("mod3", `import("mod1")`),
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"Compile Error: cyclic module import: mod1\n\tat mod3:1:1")
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// (main) -> mod1 -> mod2 -> mod3 -> mod2
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expectError(t, `import("mod1")`,
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Opts().Module("mod1", `import("mod2")`).
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Module("mod2", `import("mod3")`).
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Module("mod3", `import("mod2")`),
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"Compile Error: cyclic module import: mod2\n\tat mod3:1:1")
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// unknown modules
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expectError(t, `import("mod0")`, Opts().Module("mod1", `a := 5`), "module 'mod0' not found")
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expectError(t, `import("mod1")`, Opts().Module("mod1", `import("mod2")`), "module 'mod2' not found")
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// module is immutable but its variables is not necessarily immutable.
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expect(t, `m1 := import("mod1"); m1.a.b = 5; out = m1.a.b`,
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Opts().Module("mod1", `export {a: {b: 3}}`),
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5)
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// make sure module has same builtin functions
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expect(t, `out = import("mod1")`,
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Opts().Module("mod1", `export func() { return type_name(0) }()`),
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"int")
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// 'export' statement is ignored outside module
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expect(t, `a := 5; export func() { a = 10 }(); out = a`, Opts().Skip2ndPass(), 5)
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// 'export' must be in the top-level
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expectError(t, `import("mod1")`,
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Opts().Module("mod1", `func() { export 5 }()`),
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"Compile Error: export not allowed inside function\n\tat mod1:1:10")
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expectError(t, `import("mod1")`,
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Opts().Module("mod1", `func() { func() { export 5 }() }()`),
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"Compile Error: export not allowed inside function\n\tat mod1:1:19")
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// module cannot access outer scope
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expectError(t, `a := 5; import("mod1")`,
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Opts().Module("mod1", `export a`),
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"Compile Error: unresolved reference 'a'\n\tat mod1:1:8")
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// runtime error within modules
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expectError(t, `
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a := 1;
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b := import("mod1");
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b(a)`,
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Opts().Module("mod1", `
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export func(a) {
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a()
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}
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`), "Runtime Error: not callable: int\n\tat mod1:3:4\n\tat test:4:1")
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}
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func TestModuleBlockScopes(t *testing.T) {
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m := Opts().Module("rand",
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&objects.BuiltinModule{
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Attrs: map[string]objects.Object{
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"intn": &objects.UserFunction{
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Name: "abs",
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Value: func(args ...objects.Object) (ret objects.Object, err error) {
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v, _ := objects.ToInt64(args[0])
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return &objects.Int{Value: rand.Int63n(v)}, nil
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},
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},
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},
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})
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// block scopes in module
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expect(t, `out = import("mod1")()`, m.Module(
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"mod1", `
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rand := import("rand")
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foo := func() { return 1 }
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export func() {
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rand.intn(3)
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return foo()
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}`), 1)
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expect(t, `out = import("mod1")()`, m.Module(
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"mod1", `
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rand := import("rand")
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foo := func() { return 1 }
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export func() {
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rand.intn(3)
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if foo() {}
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return 10
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}
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`), 10)
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expect(t, `out = import("mod1")()`, m.Module(
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"mod1", `
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rand := import("rand")
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foo := func() { return 1 }
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export func() {
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rand.intn(3)
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if true { foo() }
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return 10
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}
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`), 10)
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}
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