elvish/pkg/eval/builtin_fn_misc_test.go

158 lines
4.9 KiB
Go

package eval_test
import (
"os"
"testing"
"time"
"src.elv.sh/pkg/diag"
. "src.elv.sh/pkg/eval"
"src.elv.sh/pkg/must"
"src.elv.sh/pkg/parse"
"src.elv.sh/pkg/eval/errs"
. "src.elv.sh/pkg/eval/evaltest"
"src.elv.sh/pkg/eval/vals"
"src.elv.sh/pkg/testutil"
)
func TestKindOf(t *testing.T) {
Test(t,
That("kind-of a []").Puts("string", "list"),
thatOutputErrorIsBubbled("kind-of a"),
)
}
func TestConstantly(t *testing.T) {
Test(t,
That(`var f = (constantly foo); $f; $f`).Puts("foo", "foo"),
thatOutputErrorIsBubbled("(constantly foo)"),
)
}
func TestCallCommand(t *testing.T) {
Test(t,
That(`call {|arg &opt=v| put $arg $opt } [foo] [&opt=bar]`).
Puts("foo", "bar"),
That(`call { } [foo] [&[]=bar]`).
Throws(errs.BadValue{What: "option key", Valid: "string", Actual: "list"}),
)
}
func TestEval(t *testing.T) {
Test(t,
That("eval 'put x'").Puts("x"),
// Using variable from the local scope.
That("var x = foo; eval 'put $x'").Puts("foo"),
// Setting a variable in the local scope.
That("var x = foo; eval 'set x = bar'; put $x").Puts("bar"),
// Using variable from the upvalue scope.
That("var x = foo; { nop $x; eval 'put $x' }").Puts("foo"),
// Specifying a namespace.
That("var n = (ns [&x=foo]); eval 'put $x' &ns=$n").Puts("foo"),
// Altering variables in the specified namespace.
That("var n = (ns [&x=foo]); eval 'set x = bar' &ns=$n; put $n[x]").Puts("bar"),
// Newly created variables do not appear in the local namespace.
That("eval 'x = foo'; put $x").DoesNotCompile(),
// Newly created variables do not alter the specified namespace, either.
That("var n = (ns [&]); eval &ns=$n 'var x = foo'; put $n[x]").
Throws(vals.NoSuchKey("x"), "$n[x]"),
// However, newly created variable can be accessed in the final
// namespace using &on-end.
That("eval &on-end={|n| put $n[x] } 'var x = foo'").Puts("foo"),
// Parse error.
That("eval '['").Throws(ErrorWithType(&parse.Error{})),
// Compilation error.
That("eval 'put $x'").Throws(ErrorWithType(&diag.Error{})),
// Exception.
That("eval 'fail x'").Throws(FailError{"x"}),
)
}
func TestDeprecate(t *testing.T) {
Test(t,
That("deprecate msg").PrintsStderrWith("msg"),
// Different call sites trigger multiple deprecation messages
That("fn f { deprecate msg }", "f 2>"+os.DevNull, "f").
PrintsStderrWith("msg"),
// The same call site only triggers the message once
That("fn f { deprecate msg}", "fn g { f }", "g 2>"+os.DevNull, "g 2>&1").
DoesNothing(),
)
}
func TestTime(t *testing.T) {
Test(t,
// Since runtime duration is non-deterministic, we only have some sanity
// checks here.
That("time { echo foo } | var a _ = (all)", "put $a").Puts("foo"),
That("var duration = ''",
"time &on-end={|x| set duration = $x } { echo foo } | var out = (all)",
"put $out", "kind-of $duration").Puts("foo", "number"),
That("time { fail body } | nop (all)").Throws(FailError{"body"}),
That("time &on-end={|_| fail on-end } { }").Throws(
FailError{"on-end"}),
That("time &on-end={|_| fail on-end } { fail body }").Throws(
FailError{"body"}),
thatOutputErrorIsBubbled("time { }"),
)
}
func TestUseMod(t *testing.T) {
testutil.InTempDir(t)
must.WriteFile("mod.elv", "var x = value")
Test(t,
That("put (use-mod ./mod)[x]").Puts("value"),
)
}
func TestSleep(t *testing.T) {
testutil.Set(t, TimeAfter,
func(fm *Frame, d time.Duration) <-chan time.Time {
fm.ValueOutput().Put(d)
return time.After(0)
})
Test(t,
That(`sleep 0`).Puts(0*time.Second),
That(`sleep 1`).Puts(1*time.Second),
That(`sleep 1.3s`).Puts(1300*time.Millisecond),
That(`sleep 0.1`).Puts(100*time.Millisecond),
That(`sleep 0.1ms`).Puts(100*time.Microsecond),
That(`sleep 3h5m7s`).Puts((3*3600+5*60+7)*time.Second),
That(`sleep 1x`).Throws(ErrInvalidSleepDuration, "sleep 1x"),
That(`sleep -7`).Throws(ErrNegativeSleepDuration, "sleep -7"),
That(`sleep -3h`).Throws(ErrNegativeSleepDuration, "sleep -3h"),
That(`sleep 1/2`).Puts(time.Second/2), // rational number string
// Verify the correct behavior if a numeric type, rather than a string, is passed to the
// command.
That(`sleep (num 42)`).Puts(42*time.Second),
That(`sleep (num 0)`).Puts(0*time.Second),
That(`sleep (num 1.7)`).Puts(1700*time.Millisecond),
That(`sleep (num -7)`).Throws(ErrNegativeSleepDuration, "sleep (num -7)"),
// An invalid argument type should raise an exception.
That(`sleep [1]`).Throws(ErrInvalidSleepDuration, "sleep [1]"),
)
}
func TestResolve(t *testing.T) {
libdir := testutil.InTempDir(t)
must.WriteFile("mod.elv", "fn func { }")
TestWithSetup(t, func(ev *Evaler) { ev.LibDirs = []string{libdir} },
That("resolve for").Puts("special"),
That("resolve put").Puts("$put~"),
That("fn f { }; resolve f").Puts("$f~"),
That("use mod; resolve mod:func").Puts("$mod:func~"),
That("resolve cat").Puts("(external cat)"),
That(`resolve external`).Puts("$external~"),
)
}