mirror of
https://github.com/go-sylixos/elvish.git
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a7c4bbb00f
Most of the remaining untested lines have a dependency on fsutil.GetHome.
238 lines
8.0 KiB
Go
238 lines
8.0 KiB
Go
package eval_test
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import (
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"testing"
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. "src.elv.sh/pkg/eval"
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"src.elv.sh/pkg/eval/errs"
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. "src.elv.sh/pkg/testutil"
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. "src.elv.sh/pkg/eval/evaltest"
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"src.elv.sh/pkg/eval/vals"
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)
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func TestCompound(t *testing.T) {
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Test(t,
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That("put {fi,elvi}sh{1.0,1.1}").Puts(
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"fish1.0", "fish1.1", "elvish1.0", "elvish1.1"),
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// As a special case, an empty compound expression evaluates to an empty
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// string.
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That("put {}").Puts(""),
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That("put [&k=][k]").Puts(""),
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// TODO: Test the case where fsutil.GetHome returns an error.
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// Error in any of the components throws an exception.
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That("put a{[][1]}").Throws(ErrorWithType(errs.OutOfRange{}), "[][1]"),
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// Error in concatenating the values throws an exception.
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That("put []a").Throws(ErrorWithMessage("cannot concatenate list and string")),
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// Error when applying tilde throws an exception.
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That("put ~[]").Throws(ErrorWithMessage("tilde doesn't work on value of type list")),
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)
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}
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func TestIndexing(t *testing.T) {
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Test(t,
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That("put [a b c][2]").Puts("c"),
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That("put [][0]").Throws(ErrorWithType(errs.OutOfRange{}), "[][0]"),
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That("put [&key=value][key]").Puts("value"),
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That("put [&key=value][bad]").Throws(
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vals.NoSuchKey("bad"), "[&key=value][bad]"),
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That("put (fail x)[a]").Throws(FailError{"x"}, "fail x"),
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That("put [foo][(fail x)]").Throws(FailError{"x"}, "fail x"),
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)
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}
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func TestListLiteral(t *testing.T) {
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Test(t,
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That("put [a b c]").Puts(vals.MakeList("a", "b", "c")),
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That("put []").Puts(vals.EmptyList),
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// List expression errors if an element expression errors.
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That("put [ [][0] ]").Throws(ErrorWithType(errs.OutOfRange{}), "[][0]"),
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)
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}
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func TestMapLiteral(t *testing.T) {
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Test(t,
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That("put [&key=value]").Puts(vals.MakeMap("key", "value")),
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That("put [&]").Puts(vals.EmptyMap),
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// Map keys and values may evaluate to multiple values as long as their
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// numbers match.
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That("put [&{a b}={foo bar}]").Puts(vals.MakeMap("a", "foo", "b", "bar")),
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// Map expression errors if a key or value expression errors.
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That("put [ &[][0]=a ]").Throws(ErrorWithType(errs.OutOfRange{}), "[][0]"),
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That("put [ &a=[][0] ]").Throws(ErrorWithType(errs.OutOfRange{}), "[][0]"),
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// Map expression errors if number of keys and values in a single pair
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// does not match.
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That("put [&{a b}={foo bar lorem}]").Throws(ErrorWithMessage("2 keys but 3 values")),
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)
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}
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func TestStringLiteral(t *testing.T) {
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Test(t,
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That(`put 'such \"''literal'`).Puts(`such \"'literal`),
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That(`put "much \n\033[31;1m$cool\033[m"`).
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Puts("much \n\033[31;1m$cool\033[m"),
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)
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}
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func TestTilde(t *testing.T) {
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home, cleanup := InTempHome()
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defer cleanup()
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ApplyDir(Dir{"file1": "", "file2": ""})
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Test(t,
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// Tilde
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// -----
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That("put ~").Puts(home),
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That("put ~/src").Puts(home+"/src"),
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// Make sure that tilde processing retains trailing slashes.
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That("put ~/src/").Puts(home+"/src/"),
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// Tilde and wildcard.
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That("put ~/*").Puts(home+"/file1", home+"/file2"),
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// TODO: Add regression test for #793.
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// TODO: Add regression test for #1246.
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)
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}
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func TestWildcard(t *testing.T) {
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Test(t,
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That("put ***").DoesNotCompile(),
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)
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// More tests in glob_test.go
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}
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func TestOutputCapture(t *testing.T) {
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Test(t,
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// Output capture
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That("put (put lorem ipsum)").Puts("lorem", "ipsum"),
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That("put (print \"lorem\nipsum\")").Puts("lorem", "ipsum"),
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// \r\n is also supported as a line separator
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That(`print "lorem\r\nipsum\r\n" | all`).Puts("lorem", "ipsum"),
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)
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}
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func TestExceptionCapture(t *testing.T) {
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Test(t,
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// Exception capture
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That("bool ?(nop); bool ?(e:false)").Puts(true, false),
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)
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}
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func TestVariableUse(t *testing.T) {
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Test(t,
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That("x = foo", "put $x").Puts("foo"),
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// Must exist before use
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That("put $x").DoesNotCompile(),
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That("put $x[0]").DoesNotCompile(),
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// Compounding
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That("x = SHELL", "put 'WOW, SUCH '$x', MUCH COOL'\n").
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Puts("WOW, SUCH SHELL, MUCH COOL"),
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// Splicing
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That("x = [elvish rules]", "put $@x").Puts("elvish", "rules"),
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// Variable namespace
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// ------------------
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// Pseudo-namespace local: accesses the local scope.
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That("x = outer; { local:x = inner; put $local:x }").Puts("inner"),
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// Pseudo-namespace up: accesses upvalues.
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That("x = outer; { local:x = inner; put $up:x }").Puts("outer"),
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// Unqualified name prefers local: to up:.
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That("x = outer; { local:x = inner; put $x }").Puts("inner"),
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// Unqualified name resolves to upvalue if no local name exists.
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That("x = outer; { put $x }").Puts("outer"),
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// Unqualified name resolves to builtin if no local name or upvalue
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// exists.
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That("put $true").Puts(true),
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// A name can be explicitly unqualified by having a leading colon.
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That("x = val; put $:x").Puts("val"),
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That("put $:true").Puts(true),
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// Pseudo-namespace E: provides read-write access to environment
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// variables. Colons inside the name are supported.
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That("set-env a:b VAL; put $E:a:b").Puts("VAL"),
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That("E:a:b = VAL2; get-env a:b").Puts("VAL2"),
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// Pseudo-namespace e: provides readonly access to external commands.
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// Only names ending in ~ are resolved, and resolution always succeeds
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// regardless of whether the command actually exists. Colons inside the
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// name are supported.
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That("put $e:a:b~").Puts(NewExternalCmd("a:b")),
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// A "normal" namespace access indexes the namespace as a variable.
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That("ns: = (ns [&a= val]); put $ns:a").Puts("val"),
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// Multi-level namespace access is supported.
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That("ns: = (ns [&a:= (ns [&b= val])]); put $ns:a:b").Puts("val"),
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// Multi-level namespace access can have a leading colon to signal that
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// the first component is unqualified.
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That("ns: = (ns [&a:= (ns [&b= val])]); put $:ns:a:b").Puts("val"),
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// Multi-level namespace access can be combined with the local:
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// pseudo-namespaces.
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That("ns: = (ns [&a:= (ns [&b= val])]); put $local:ns:a:b").Puts("val"),
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// Multi-level namespace access can be combined with the up:
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// pseudo-namespaces.
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That("ns: = (ns [&a:= (ns [&b= val])]); { put $up:ns:a:b }").Puts("val"),
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)
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}
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func TestClosure(t *testing.T) {
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Test(t,
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That("[]{ }").DoesNothing(),
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That("[x]{put $x} foo").Puts("foo"),
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// Assigning to captured variable
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That("var x = lorem; []{set x = ipsum}; put $x").Puts("ipsum"),
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That("var x = lorem; []{ put $x; set x = ipsum }; put $x").
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Puts("lorem", "ipsum"),
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// Assigning to element of captured variable
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That("x = a; { x = b }; put $x").Puts("b"),
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That("x = [a]; { x[0] = b }; put $x[0]").Puts("b"),
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// Shadowing
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That("var x = ipsum; []{ var x = lorem; put $x }; put $x").
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Puts("lorem", "ipsum"),
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// Shadowing by argument
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That("var x = ipsum; [x]{ put $x; set x = BAD } lorem; put $x").
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Puts("lorem", "ipsum"),
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// Closure captures new local variables every time
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That("fn f []{ var x = (num 0); put { set x = (+ $x 1) } { put $x } }",
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"var inc1 put1 = (f); $put1; $inc1; $put1",
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"var inc2 put2 = (f); $put2; $inc2; $put2").Puts(0, 1, 0, 1),
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// Rest argument.
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That("[x @xs]{ put $x $xs } a b c").Puts("a", vals.MakeList("b", "c")),
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That("[a @b c]{ put $a $b $c } a b c d").
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Puts("a", vals.MakeList("b", "c"), "d"),
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// Options.
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That("[a &k=v]{ put $a $k } foo &k=bar").Puts("foo", "bar"),
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// Option default value.
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That("[a &k=v]{ put $a $k } foo").Puts("foo", "v"),
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// Option must have default value
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That("[&k]{ }").DoesNotCompile(),
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// Exception when evaluating option default value.
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That("[&a=[][0]]{ }").Throws(ErrorWithType(errs.OutOfRange{}), "[][0]"),
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// Option default value must be one value.
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That("[&a=(put foo bar)]{ }").Throws(
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errs.ArityMismatch{What: "option default value", ValidLow: 1, ValidHigh: 1, Actual: 2},
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"(put foo bar)"),
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// Argument name must be unqualified.
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That("[a:b]{ }").DoesNotCompile(),
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// Argument name must not be empty.
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That("['']{ }").DoesNotCompile(),
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That("[@]{ }").DoesNotCompile(),
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// Option name must be unqualified.
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That("[&a:b=1]{ }").DoesNotCompile(),
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// Option name must not be empty.
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That("[&''=b]{ }").DoesNotCompile(),
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// Should not have multiple rest arguments.
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That("[@a @b]{ }").DoesNotCompile(),
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)
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}
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