/* Nix evaluation tests for various lib functions. Since these tests are implemented with Nix evaluation, error checking is limited to what `builtins.tryEval` can detect, which is `throw`'s and `abort`'s, without error messages. If you need to test error messages or more complex evaluations, see ./modules.sh, ./sources.sh or ./filesystem.sh as examples. To run these tests: [nixpkgs]$ nix-instantiate --eval --strict lib/tests/misc.nix If the resulting list is empty, all tests passed. Alternatively, to run all `lib` tests: [nixpkgs]$ nix-build lib/tests/release.nix */ with import ../default.nix; let testingThrow = expr: { expr = (builtins.tryEval (builtins.seq expr "didn't throw")); expected = { success = false; value = false; }; }; testingDeepThrow = expr: testingThrow (builtins.deepSeq expr expr); testSanitizeDerivationName = { name, expected }: let drv = derivation { name = strings.sanitizeDerivationName name; builder = "x"; system = "x"; }; in { # Evaluate the derivation so an invalid name would be caught expr = builtins.seq drv.drvPath drv.name; inherit expected; }; in runTests { # TRIVIAL testId = { expr = id 1; expected = 1; }; testConst = { expr = const 2 3; expected = 2; }; testPipe = { expr = pipe 2 [ (x: x + 2) # 2 + 2 = 4 (x: x * 2) # 4 * 2 = 8 ]; expected = 8; }; testPipeEmpty = { expr = pipe 2 []; expected = 2; }; testPipeStrings = { expr = pipe [ 3 4 ] [ (map toString) (map (s: s + "\n")) concatStrings ]; expected = '' 3 4 ''; }; /* testOr = { expr = or true false; expected = true; }; */ testAnd = { expr = and true false; expected = false; }; testFix = { expr = fix (x: {a = if x ? a then "a" else "b";}); expected = {a = "a";}; }; testComposeExtensions = { expr = let obj = makeExtensible (self: { foo = self.bar; }); f = self: super: { bar = false; baz = true; }; g = self: super: { bar = super.baz or false; }; f_o_g = composeExtensions f g; composed = obj.extend f_o_g; in composed.foo; expected = true; }; testComposeManyExtensions0 = { expr = let obj = makeExtensible (self: { foo = true; }); emptyComposition = composeManyExtensions []; composed = obj.extend emptyComposition; in composed.foo; expected = true; }; testComposeManyExtensions = let f = self: super: { bar = false; baz = true; }; g = self: super: { bar = super.baz or false; }; h = self: super: { qux = super.bar or false; }; obj = makeExtensible (self: { foo = self.qux; }); in { expr = let composition = composeManyExtensions [f g h]; composed = obj.extend composition; in composed.foo; expected = (obj.extend (composeExtensions f (composeExtensions g h))).foo; }; testBitAnd = { expr = (bitAnd 3 10); expected = 2; }; testBitOr = { expr = (bitOr 3 10); expected = 11; }; testBitXor = { expr = (bitXor 3 10); expected = 9; }; testToHexString = { expr = toHexString 250; expected = "FA"; }; testToBaseDigits = { expr = toBaseDigits 2 6; expected = [ 1 1 0 ]; }; testFunctionArgsFunctor = { expr = functionArgs { __functor = self: { a, b }: null; }; expected = { a = false; b = false; }; }; testFunctionArgsSetFunctionArgs = { expr = functionArgs (setFunctionArgs (args: args.x) { x = false; }); expected = { x = false; }; }; # STRINGS testConcatMapStrings = { expr = concatMapStrings (x: x + ";") ["a" "b" "c"]; expected = "a;b;c;"; }; testConcatStringsSep = { expr = concatStringsSep "," ["a" "b" "c"]; expected = "a,b,c"; }; testConcatLines = { expr = concatLines ["a" "b" "c"]; expected = "a\nb\nc\n"; }; testSplitStringsSimple = { expr = strings.splitString "." "a.b.c.d"; expected = [ "a" "b" "c" "d" ]; }; testSplitStringsEmpty = { expr = strings.splitString "." "a..b"; expected = [ "a" "" "b" ]; }; testSplitStringsOne = { expr = strings.splitString ":" "a.b"; expected = [ "a.b" ]; }; testSplitStringsNone = { expr = strings.splitString "." ""; expected = [ "" ]; }; testSplitStringsFirstEmpty = { expr = strings.splitString "/" "/a/b/c"; expected = [ "" "a" "b" "c" ]; }; testSplitStringsLastEmpty = { expr = strings.splitString ":" "2001:db8:0:0042::8a2e:370:"; expected = [ "2001" "db8" "0" "0042" "" "8a2e" "370" "" ]; }; testSplitStringsRegex = { expr = strings.splitString "\\[{}]()^$?*+|." "A\\[{}]()^$?*+|.B"; expected = [ "A" "B" ]; }; testSplitStringsDerivation = { expr = take 3 (strings.splitString "/" (derivation { name = "name"; builder = "builder"; system = "system"; })); expected = ["" "nix" "store"]; }; testSplitVersionSingle = { expr = versions.splitVersion "1"; expected = [ "1" ]; }; testSplitVersionDouble = { expr = versions.splitVersion "1.2"; expected = [ "1" "2" ]; }; testSplitVersionTriple = { expr = versions.splitVersion "1.2.3"; expected = [ "1" "2" "3" ]; }; testPadVersionLess = { expr = versions.pad 3 "1.2"; expected = "1.2.0"; }; testPadVersionLessExtra = { expr = versions.pad 3 "1.3-rc1"; expected = "1.3.0-rc1"; }; testPadVersionMore = { expr = versions.pad 3 "1.2.3.4"; expected = "1.2.3"; }; testIsStorePath = { expr = let goodPath = "${builtins.storeDir}/d945ibfx9x185xf04b890y4f9g3cbb63-python-2.7.11"; in { storePath = isStorePath goodPath; storePathDerivation = isStorePath (import ../.. { system = "x86_64-linux"; }).hello; storePathAppendix = isStorePath "${goodPath}/bin/python"; nonAbsolute = isStorePath (concatStrings (tail (stringToCharacters goodPath))); asPath = isStorePath (/. + goodPath); otherPath = isStorePath "/something/else"; otherVals = { attrset = isStorePath {}; list = isStorePath []; int = isStorePath 42; }; }; expected = { storePath = true; storePathDerivation = true; storePathAppendix = false; nonAbsolute = false; asPath = true; otherPath = false; otherVals = { attrset = false; list = false; int = false; }; }; }; testEscapeXML = { expr = escapeXML ''"test" 'test' < & >''; expected = ""test" 'test' < & >"; }; testToShellVars = { expr = '' ${toShellVars { STRing01 = "just a 'string'"; _array_ = [ "with" "more strings" ]; assoc."with some" = '' strings possibly newlines ''; drv = { outPath = "/drv"; foo = "ignored attribute"; }; path = /path; stringable = { __toString = _: "hello toString"; bar = "ignored attribute"; }; }} ''; expected = '' STRing01='just a '\'''string'\'''' declare -a _array_=('with' 'more strings') declare -A assoc=(['with some']='strings possibly newlines ') drv='/drv' path='/path' stringable='hello toString' ''; }; testHasInfixFalse = { expr = hasInfix "c" "abde"; expected = false; }; testHasInfixTrue = { expr = hasInfix "c" "abcde"; expected = true; }; testHasInfixDerivation = { expr = hasInfix "hello" (import ../.. { system = "x86_64-linux"; }).hello; expected = true; }; testHasInfixPath = { expr = hasInfix "tests" ./.; expected = true; }; testHasInfixPathStoreDir = { expr = hasInfix builtins.storeDir ./.; expected = true; }; testHasInfixToString = { expr = hasInfix "a" { __toString = _: "a"; }; expected = true; }; testRemovePrefixExample1 = { expr = removePrefix "foo." "foo.bar.baz"; expected = "bar.baz"; }; testRemovePrefixExample2 = { expr = removePrefix "xxx" "foo.bar.baz"; expected = "foo.bar.baz"; }; testRemovePrefixEmptyPrefix = { expr = removePrefix "" "foo"; expected = "foo"; }; testRemovePrefixEmptyString = { expr = removePrefix "foo" ""; expected = ""; }; testRemovePrefixEmptyBoth = { expr = removePrefix "" ""; expected = ""; }; testNormalizePath = { expr = strings.normalizePath "//a/b//c////d/"; expected = "/a/b/c/d/"; }; testCharToInt = { expr = strings.charToInt "A"; expected = 65; }; testEscapeC = { expr = strings.escapeC [ " " ] "Hello World"; expected = "Hello\\x20World"; }; testEscapeURL = testAllTrue [ ("" == strings.escapeURL "") ("Hello" == strings.escapeURL "Hello") ("Hello%20World" == strings.escapeURL "Hello World") ("Hello%2FWorld" == strings.escapeURL "Hello/World") ("42%25" == strings.escapeURL "42%") ("%20%3F%26%3D%23%2B%25%21%3C%3E%23%22%7B%7D%7C%5C%5E%5B%5D%60%09%3A%2F%40%24%27%28%29%2A%2C%3B" == strings.escapeURL " ?&=#+%!<>#\"{}|\\^[]`\t:/@$'()*,;") ]; testToInt = testAllTrue [ # Naive (123 == toInt "123") (0 == toInt "0") # Whitespace Padding (123 == toInt " 123") (123 == toInt "123 ") (123 == toInt " 123 ") (123 == toInt " 123 ") (0 == toInt " 0") (0 == toInt "0 ") (0 == toInt " 0 ") (-1 == toInt "-1") (-1 == toInt " -1 ") ]; testToIntFails = testAllTrue [ ( builtins.tryEval (toInt "") == { success = false; value = false; } ) ( builtins.tryEval (toInt "123 123") == { success = false; value = false; } ) ( builtins.tryEval (toInt "0 123") == { success = false; value = false; } ) ( builtins.tryEval (toInt " 0d ") == { success = false; value = false; } ) ( builtins.tryEval (toInt " 1d ") == { success = false; value = false; } ) ( builtins.tryEval (toInt " d0 ") == { success = false; value = false; } ) ( builtins.tryEval (toInt "00") == { success = false; value = false; } ) ( builtins.tryEval (toInt "01") == { success = false; value = false; } ) ( builtins.tryEval (toInt "002") == { success = false; value = false; } ) ( builtins.tryEval (toInt " 002 ") == { success = false; value = false; } ) ( builtins.tryEval (toInt " foo ") == { success = false; value = false; } ) ( builtins.tryEval (toInt " foo 123 ") == { success = false; value = false; } ) ( builtins.tryEval (toInt " foo123 ") == { success = false; value = false; } ) ]; testToIntBase10 = testAllTrue [ # Naive (123 == toIntBase10 "123") (0 == toIntBase10 "0") # Whitespace Padding (123 == toIntBase10 " 123") (123 == toIntBase10 "123 ") (123 == toIntBase10 " 123 ") (123 == toIntBase10 " 123 ") (0 == toIntBase10 " 0") (0 == toIntBase10 "0 ") (0 == toIntBase10 " 0 ") # Zero Padding (123 == toIntBase10 "0123") (123 == toIntBase10 "0000123") (0 == toIntBase10 "000000") # Whitespace and Zero Padding (123 == toIntBase10 " 0123") (123 == toIntBase10 "0123 ") (123 == toIntBase10 " 0123 ") (123 == toIntBase10 " 0000123") (123 == toIntBase10 "0000123 ") (123 == toIntBase10 " 0000123 ") (0 == toIntBase10 " 000000") (0 == toIntBase10 "000000 ") (0 == toIntBase10 " 000000 ") (-1 == toIntBase10 "-1") (-1 == toIntBase10 " -1 ") ]; testToIntBase10Fails = testAllTrue [ ( builtins.tryEval (toIntBase10 "") == { success = false; value = false; } ) ( builtins.tryEval (toIntBase10 "123 123") == { success = false; value = false; } ) ( builtins.tryEval (toIntBase10 "0 123") == { success = false; value = false; } ) ( builtins.tryEval (toIntBase10 " 0d ") == { success = false; value = false; } ) ( builtins.tryEval (toIntBase10 " 1d ") == { success = false; value = false; } ) ( builtins.tryEval (toIntBase10 " d0 ") == { success = false; value = false; } ) ( builtins.tryEval (toIntBase10 " foo ") == { success = false; value = false; } ) ( builtins.tryEval (toIntBase10 " foo 123 ") == { success = false; value = false; } ) ( builtins.tryEval (toIntBase10 " foo 00123 ") == { success = false; value = false; } ) ( builtins.tryEval (toIntBase10 " foo00123 ") == { success = false; value = false; } ) ]; # LISTS testFilter = { expr = filter (x: x != "a") ["a" "b" "c" "a"]; expected = ["b" "c"]; }; testFold = let f = op: fold: fold op 0 (range 0 100); # fold with associative operator assoc = f builtins.add; # fold with non-associative operator nonAssoc = f builtins.sub; in { expr = { assocRight = assoc foldr; # right fold with assoc operator is same as left fold assocRightIsLeft = assoc foldr == assoc foldl; nonAssocRight = nonAssoc foldr; nonAssocLeft = nonAssoc foldl; # with non-assoc operator the fold results are not the same nonAssocRightIsNotLeft = nonAssoc foldl != nonAssoc foldr; # fold is an alias for foldr foldIsRight = nonAssoc fold == nonAssoc foldr; }; expected = { assocRight = 5050; assocRightIsLeft = true; nonAssocRight = 50; nonAssocLeft = (-5050); nonAssocRightIsNotLeft = true; foldIsRight = true; }; }; testTake = testAllTrue [ ([] == (take 0 [ 1 2 3 ])) ([1] == (take 1 [ 1 2 3 ])) ([ 1 2 ] == (take 2 [ 1 2 3 ])) ([ 1 2 3 ] == (take 3 [ 1 2 3 ])) ([ 1 2 3 ] == (take 4 [ 1 2 3 ])) ]; testListHasPrefixExample1 = { expr = lists.hasPrefix [ 1 2 ] [ 1 2 3 4 ]; expected = true; }; testListHasPrefixExample2 = { expr = lists.hasPrefix [ 0 1 ] [ 1 2 3 4 ]; expected = false; }; testListHasPrefixLazy = { expr = lists.hasPrefix [ 1 ] [ 1 (abort "lib.lists.hasPrefix is not lazy") ]; expected = true; }; testListHasPrefixEmptyPrefix = { expr = lists.hasPrefix [ ] [ 1 2 ]; expected = true; }; testListHasPrefixEmptyList = { expr = lists.hasPrefix [ 1 2 ] [ ]; expected = false; }; testListRemovePrefixExample1 = { expr = lists.removePrefix [ 1 2 ] [ 1 2 3 4 ]; expected = [ 3 4 ]; }; testListRemovePrefixExample2 = { expr = (builtins.tryEval (lists.removePrefix [ 0 1 ] [ 1 2 3 4 ])).success; expected = false; }; testListRemovePrefixEmptyPrefix = { expr = lists.removePrefix [ ] [ 1 2 ]; expected = [ 1 2 ]; }; testListRemovePrefixEmptyList = { expr = (builtins.tryEval (lists.removePrefix [ 1 2 ] [ ])).success; expected = false; }; testFoldAttrs = { expr = foldAttrs (n: a: [n] ++ a) [] [ { a = 2; b = 7; } { a = 3; c = 8; } ]; expected = { a = [ 2 3 ]; b = [7]; c = [8];}; }; testListCommonPrefixExample1 = { expr = lists.commonPrefix [ 1 2 3 4 5 6 ] [ 1 2 4 8 ]; expected = [ 1 2 ]; }; testListCommonPrefixExample2 = { expr = lists.commonPrefix [ 1 2 3 ] [ 1 2 3 4 5 ]; expected = [ 1 2 3 ]; }; testListCommonPrefixExample3 = { expr = lists.commonPrefix [ 1 2 3 ] [ 4 5 6 ]; expected = [ ]; }; testListCommonPrefixEmpty = { expr = lists.commonPrefix [ ] [ 1 2 3 ]; expected = [ ]; }; testListCommonPrefixSame = { expr = lists.commonPrefix [ 1 2 3 ] [ 1 2 3 ]; expected = [ 1 2 3 ]; }; testListCommonPrefixLazy = { expr = lists.commonPrefix [ 1 ] [ 1 (abort "lib.lists.commonPrefix shouldn't evaluate this")]; expected = [ 1 ]; }; # This would stack overflow if `commonPrefix` were implemented using recursion testListCommonPrefixLong = let longList = genList (n: n) 100000; in { expr = lists.commonPrefix longList longList; expected = longList; }; testSort = { expr = sort builtins.lessThan [ 40 2 30 42 ]; expected = [2 30 40 42]; }; testReplicate = { expr = replicate 3 "a"; expected = ["a" "a" "a"]; }; testToIntShouldConvertStringToInt = { expr = toInt "27"; expected = 27; }; testToIntShouldThrowErrorIfItCouldNotConvertToInt = { expr = builtins.tryEval (toInt "\"foo\""); expected = { success = false; value = false; }; }; testHasAttrByPathTrue = { expr = hasAttrByPath ["a" "b"] { a = { b = "yey"; }; }; expected = true; }; testHasAttrByPathFalse = { expr = hasAttrByPath ["a" "b"] { a = { c = "yey"; }; }; expected = false; }; testFindFirstIndexExample1 = { expr = lists.findFirstIndex (x: x > 3) (abort "index found, so a default must not be evaluated") [ 1 6 4 ]; expected = 1; }; testFindFirstIndexExample2 = { expr = lists.findFirstIndex (x: x > 9) "a very specific default" [ 1 6 4 ]; expected = "a very specific default"; }; testFindFirstIndexEmpty = { expr = lists.findFirstIndex (abort "when the list is empty, the predicate is not needed") null []; expected = null; }; testFindFirstIndexSingleMatch = { expr = lists.findFirstIndex (x: x == 5) null [ 5 ]; expected = 0; }; testFindFirstIndexSingleDefault = { expr = lists.findFirstIndex (x: false) null [ (abort "if the predicate doesn't access the value, it must not be evaluated") ]; expected = null; }; testFindFirstIndexNone = { expr = builtins.tryEval (lists.findFirstIndex (x: x == 2) null [ 1 (throw "the last element must be evaluated when there's no match") ]); expected = { success = false; value = false; }; }; # Makes sure that the implementation doesn't cause a stack overflow testFindFirstIndexBig = { expr = lists.findFirstIndex (x: x == 1000000) null (range 0 1000000); expected = 1000000; }; testFindFirstIndexLazy = { expr = lists.findFirstIndex (x: x == 1) null [ 1 (abort "list elements after the match must not be evaluated") ]; expected = 0; }; testFindFirstExample1 = { expr = lists.findFirst (x: x > 3) 7 [ 1 6 4 ]; expected = 6; }; testFindFirstExample2 = { expr = lists.findFirst (x: x > 9) 7 [ 1 6 4 ]; expected = 7; }; # ATTRSETS testConcatMapAttrs = { expr = concatMapAttrs (name: value: { ${name} = value; ${name + value} = value; }) { foo = "bar"; foobar = "baz"; }; expected = { foo = "bar"; foobar = "baz"; foobarbaz = "baz"; }; }; # code from example testFoldlAttrs = { expr = { example = foldlAttrs (acc: name: value: { sum = acc.sum + value; names = acc.names ++ [ name ]; }) { sum = 0; names = [ ]; } { foo = 1; bar = 10; }; # should just return the initial value emptySet = foldlAttrs (throw "function not needed") 123 { }; # should just evaluate to the last value accNotNeeded = foldlAttrs (_acc: _name: v: v) (throw "accumulator not needed") { z = 3; a = 2; }; # the accumulator doesnt have to be an attrset it can be as trivial as being just a number or string trivialAcc = foldlAttrs (acc: _name: v: acc * 10 + v) 1 { z = 1; a = 2; }; }; expected = { example = { sum = 11; names = [ "bar" "foo" ]; }; emptySet = 123; accNotNeeded = 3; trivialAcc = 121; }; }; testMergeAttrsListExample1 = { expr = attrsets.mergeAttrsList [ { a = 0; b = 1; } { c = 2; d = 3; } ]; expected = { a = 0; b = 1; c = 2; d = 3; }; }; testMergeAttrsListExample2 = { expr = attrsets.mergeAttrsList [ { a = 0; } { a = 1; } ]; expected = { a = 1; }; }; testMergeAttrsListExampleMany = let list = genList (n: listToAttrs (genList (m: let # Integer divide n by two to create duplicate attributes str = "halfn${toString (n / 2)}m${toString m}"; in nameValuePair str str ) 100) ) 100; in { expr = attrsets.mergeAttrsList list; expected = foldl' mergeAttrs { } list; }; # code from the example testRecursiveUpdateUntil = { expr = recursiveUpdateUntil (path: l: r: path == ["foo"]) { # first attribute set foo.bar = 1; foo.baz = 2; bar = 3; } { #second attribute set foo.bar = 1; foo.quz = 2; baz = 4; }; expected = { foo.bar = 1; # 'foo.*' from the second set foo.quz = 2; # bar = 3; # 'bar' from the first set baz = 4; # 'baz' from the second set }; }; testOverrideExistingEmpty = { expr = overrideExisting {} { a = 1; }; expected = {}; }; testOverrideExistingDisjoint = { expr = overrideExisting { b = 2; } { a = 1; }; expected = { b = 2; }; }; testOverrideExistingOverride = { expr = overrideExisting { a = 3; b = 2; } { a = 1; }; expected = { a = 1; b = 2; }; }; # GENERATORS # these tests assume attributes are converted to lists # in alphabetical order testMkKeyValueDefault = { expr = generators.mkKeyValueDefault {} ":" "f:oo" "bar"; expected = ''f\:oo:bar''; }; testMkValueString = { expr = let vals = { int = 42; string = ''fo"o''; bool = true; bool2 = false; null = null; # float = 42.23; # floats are strange }; in mapAttrs (const (generators.mkValueStringDefault {})) vals; expected = { int = "42"; string = ''fo"o''; bool = "true"; bool2 = "false"; null = "null"; # float = "42.23" true false [ "bar" ] ]''; }; }; testToKeyValue = { expr = generators.toKeyValue {} { key = "value"; "other=key" = "baz"; }; expected = '' key=value other\=key=baz ''; }; testToINIEmpty = { expr = generators.toINI {} {}; expected = ""; }; testToINIEmptySection = { expr = generators.toINI {} { foo = {}; bar = {}; }; expected = '' [bar] [foo] ''; }; testToINIDuplicateKeys = { expr = generators.toINI { listsAsDuplicateKeys = true; } { foo.bar = true; baz.qux = [ 1 false ]; }; expected = '' [baz] qux=1 qux=false [foo] bar=true ''; }; testToINIDefaultEscapes = { expr = generators.toINI {} { "no [ and ] allowed unescaped" = { "and also no = in keys" = 42; }; }; expected = '' [no \[ and \] allowed unescaped] and also no \= in keys=42 ''; }; testToINIDefaultFull = { expr = generators.toINI {} { "section 1" = { attribute1 = 5; x = "Me-se JarJar Binx"; # booleans are converted verbatim by default boolean = false; }; "foo[]" = { "he\\h=he" = "this is okay"; }; }; expected = '' [foo\[\]] he\h\=he=this is okay [section 1] attribute1=5 boolean=false x=Me-se JarJar Binx ''; }; testToINIWithGlobalSectionEmpty = { expr = generators.toINIWithGlobalSection {} { globalSection = { }; sections = { }; }; expected = '' ''; }; testToINIWithGlobalSectionGlobalEmptyIsTheSameAsToINI = let sections = { "section 1" = { attribute1 = 5; x = "Me-se JarJar Binx"; }; "foo" = { "he\\h=he" = "this is okay"; }; }; in { expr = generators.toINIWithGlobalSection {} { globalSection = {}; sections = sections; }; expected = generators.toINI {} sections; }; testToINIWithGlobalSectionFull = { expr = generators.toINIWithGlobalSection {} { globalSection = { foo = "bar"; test = false; }; sections = { "section 1" = { attribute1 = 5; x = "Me-se JarJar Binx"; }; "foo" = { "he\\h=he" = "this is okay"; }; }; }; expected = '' foo=bar test=false [foo] he\h\=he=this is okay [section 1] attribute1=5 x=Me-se JarJar Binx ''; }; /* right now only invocation check */ testToJSONSimple = let val = { foobar = [ "baz" 1 2 3 ]; }; in { expr = generators.toJSON {} val; # trivial implementation expected = builtins.toJSON val; }; /* right now only invocation check */ testToYAMLSimple = let val = { list = [ { one = 1; } { two = 2; } ]; all = 42; }; in { expr = generators.toYAML {} val; # trivial implementation expected = builtins.toJSON val; }; testToPretty = let deriv = derivation { name = "test"; builder = "/bin/sh"; system = "aarch64-linux"; }; in { expr = mapAttrs (const (generators.toPretty { multiline = false; })) rec { int = 42; float = 0.1337; bool = true; emptystring = ""; string = "fn\${o}\"r\\d"; newlinestring = "\n"; path = /. + "/foo"; null_ = null; function = x: x; functionArgs = { arg ? 4, foo }: arg; list = [ 3 4 function [ false ] ]; emptylist = []; attrs = { foo = null; "foo b/ar" = "baz"; }; emptyattrs = {}; drv = deriv; }; expected = rec { int = "42"; float = "0.1337"; bool = "true"; emptystring = ''""''; string = ''"fn\''${o}\"r\\d"''; newlinestring = "\"\\n\""; path = "/foo"; null_ = "null"; function = ""; functionArgs = ""; list = "[ 3 4 ${function} [ false ] ]"; emptylist = "[ ]"; attrs = "{ foo = null; \"foo b/ar\" = \"baz\"; }"; emptyattrs = "{ }"; drv = ""; }; }; testToPrettyLimit = let a.b = 1; a.c = a; in { expr = generators.toPretty { } (generators.withRecursion { throwOnDepthLimit = false; depthLimit = 2; } a); expected = "{\n b = 1;\n c = {\n b = \"\";\n c = {\n b = \"\";\n c = \"\";\n };\n };\n}"; }; testToPrettyLimitThrow = let a.b = 1; a.c = a; in { expr = (builtins.tryEval (generators.toPretty { } (generators.withRecursion { depthLimit = 2; } a))).success; expected = false; }; testWithRecursionDealsWithFunctors = let functor = { __functor = self: { a, b, }: null; }; a = { value = "1234"; b = functor; c.d = functor; }; in { expr = generators.toPretty { } (generators.withRecursion { depthLimit = 1; throwOnDepthLimit = false; } a); expected = "{\n b = ;\n c = {\n d = \"\";\n };\n value = \"\";\n}"; }; testToPrettyMultiline = { expr = mapAttrs (const (generators.toPretty { })) rec { list = [ 3 4 [ false ] ]; attrs = { foo = null; bar.foo = "baz"; }; newlinestring = "\n"; multilinestring = '' hello ''${there} te'''st ''; multilinestring' = '' hello there test''; }; expected = rec { list = '' [ 3 4 [ false ] ]''; attrs = '' { bar = { foo = "baz"; }; foo = null; }''; newlinestring = "''\n \n''"; multilinestring = '' ''' hello '''''${there} te''''st '''''; multilinestring' = '' ''' hello there test'''''; }; }; testToPrettyAllowPrettyValues = { expr = generators.toPretty { allowPrettyValues = true; } { __pretty = v: "«" + v + "»"; val = "foo"; }; expected = "«foo»"; }; testToPlist = let deriv = derivation { name = "test"; builder = "/bin/sh"; system = "aarch64-linux"; }; in { expr = mapAttrs (const (generators.toPlist { })) { value = { nested.values = rec { int = 42; float = 0.1337; bool = true; emptystring = ""; string = "fn\${o}\"r\\d"; newlinestring = "\n"; path = /. + "/foo"; null_ = null; list = [ 3 4 "test" ]; emptylist = []; attrs = { foo = null; "foo b/ar" = "baz"; }; emptyattrs = {}; }; }; }; expected = { value = builtins.readFile ./test-to-plist-expected.plist; }; }; testToLuaEmptyAttrSet = { expr = generators.toLua {} {}; expected = ''{}''; }; testToLuaEmptyList = { expr = generators.toLua {} []; expected = ''{}''; }; testToLuaListOfVariousTypes = { expr = generators.toLua {} [ null 43 3.14159 true ]; expected = '' { nil, 43, 3.14159, true }''; }; testToLuaString = { expr = generators.toLua {} ''double-quote (") and single quotes (')''; expected = ''"double-quote (\") and single quotes (')"''; }; testToLuaAttrsetWithLuaInline = { expr = generators.toLua {} { x = generators.mkLuaInline ''"abc" .. "def"''; }; expected = '' { ["x"] = ("abc" .. "def") }''; }; testToLuaAttrsetWithSpaceInKey = { expr = generators.toLua {} { "some space and double-quote (\")" = 42; }; expected = '' { ["some space and double-quote (\")"] = 42 }''; }; testToLuaWithoutMultiline = { expr = generators.toLua { multiline = false; } [ 41 43 ]; expected = ''{ 41, 43 }''; }; testToLuaEmptyBindings = { expr = generators.toLua { asBindings = true; } {}; expected = ""; }; testToLuaBindings = { expr = generators.toLua { asBindings = true; } { x1 = 41; _y = { a = 43; }; }; expected = '' _y = { ["a"] = 43 } x1 = 41 ''; }; testToLuaPartialTableBindings = { expr = generators.toLua { asBindings = true; } { "x.y" = 42; }; expected = '' x.y = 42 ''; }; testToLuaIndentedBindings = { expr = generators.toLua { asBindings = true; indent = " "; } { x = { y = 42; }; }; expected = " x = {\n [\"y\"] = 42\n }\n"; }; testToLuaBindingsWithSpace = testingThrow ( generators.toLua { asBindings = true; } { "with space" = 42; } ); testToLuaBindingsWithLeadingDigit = testingThrow ( generators.toLua { asBindings = true; } { "11eleven" = 42; } ); testToLuaBasicExample = { expr = generators.toLua {} { cmd = [ "typescript-language-server" "--stdio" ]; settings.workspace.library = generators.mkLuaInline ''vim.api.nvim_get_runtime_file("", true)''; }; expected = '' { ["cmd"] = { "typescript-language-server", "--stdio" }, ["settings"] = { ["workspace"] = { ["library"] = (vim.api.nvim_get_runtime_file("", true)) } } }''; }; # CLI testToGNUCommandLine = { expr = cli.toGNUCommandLine {} { data = builtins.toJSON { id = 0; }; X = "PUT"; retry = 3; retry-delay = null; url = [ "https://example.com/foo" "https://example.com/bar" ]; silent = false; verbose = true; }; expected = [ "-X" "PUT" "--data" "{\"id\":0}" "--retry" "3" "--url" "https://example.com/foo" "--url" "https://example.com/bar" "--verbose" ]; }; testToGNUCommandLineShell = { expr = cli.toGNUCommandLineShell {} { data = builtins.toJSON { id = 0; }; X = "PUT"; retry = 3; retry-delay = null; url = [ "https://example.com/foo" "https://example.com/bar" ]; silent = false; verbose = true; }; expected = "'-X' 'PUT' '--data' '{\"id\":0}' '--retry' '3' '--url' 'https://example.com/foo' '--url' 'https://example.com/bar' '--verbose'"; }; testSanitizeDerivationNameLeadingDots = testSanitizeDerivationName { name = "..foo"; expected = "foo"; }; testSanitizeDerivationNameUnicode = testSanitizeDerivationName { name = "fö"; expected = "f-"; }; testSanitizeDerivationNameAscii = testSanitizeDerivationName { name = " !\"#$%&'()*+,-./0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTUVWXYZ[\\]^_`abcdefghijklmnopqrstuvwxyz{|}~"; expected = "-+--.-0123456789-=-?-ABCDEFGHIJKLMNOPQRSTUVWXYZ-_-abcdefghijklmnopqrstuvwxyz-"; }; testSanitizeDerivationNameTooLong = testSanitizeDerivationName { name = "This string is loooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooong"; expected = "loooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooooong"; }; testSanitizeDerivationNameTooLongWithInvalid = testSanitizeDerivationName { name = "Hello there aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa &&&&&&&&"; expected = "there-aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa-"; }; testSanitizeDerivationNameEmpty = testSanitizeDerivationName { name = ""; expected = "unknown"; }; testFreeformOptions = { expr = let submodule = { lib, ... }: { freeformType = lib.types.attrsOf (lib.types.submodule { options.bar = lib.mkOption {}; }); options.bar = lib.mkOption {}; }; module = { lib, ... }: { options.foo = lib.mkOption { type = lib.types.submodule submodule; }; }; options = (evalModules { modules = [ module ]; }).options; locs = filter (o: ! o.internal) (optionAttrSetToDocList options); in map (o: o.loc) locs; expected = [ [ "_module" "args" ] [ "foo" ] [ "foo" "" "bar" ] [ "foo" "bar" ] ]; }; testCartesianProductOfEmptySet = { expr = cartesianProductOfSets {}; expected = [ {} ]; }; testCartesianProductOfOneSet = { expr = cartesianProductOfSets { a = [ 1 2 3 ]; }; expected = [ { a = 1; } { a = 2; } { a = 3; } ]; }; testCartesianProductOfTwoSets = { expr = cartesianProductOfSets { a = [ 1 ]; b = [ 10 20 ]; }; expected = [ { a = 1; b = 10; } { a = 1; b = 20; } ]; }; testCartesianProductOfTwoSetsWithOneEmpty = { expr = cartesianProductOfSets { a = [ ]; b = [ 10 20 ]; }; expected = [ ]; }; testCartesianProductOfThreeSets = { expr = cartesianProductOfSets { a = [ 1 2 3 ]; b = [ 10 20 30 ]; c = [ 100 200 300 ]; }; expected = [ { a = 1; b = 10; c = 100; } { a = 1; b = 10; c = 200; } { a = 1; b = 10; c = 300; } { a = 1; b = 20; c = 100; } { a = 1; b = 20; c = 200; } { a = 1; b = 20; c = 300; } { a = 1; b = 30; c = 100; } { a = 1; b = 30; c = 200; } { a = 1; b = 30; c = 300; } { a = 2; b = 10; c = 100; } { a = 2; b = 10; c = 200; } { a = 2; b = 10; c = 300; } { a = 2; b = 20; c = 100; } { a = 2; b = 20; c = 200; } { a = 2; b = 20; c = 300; } { a = 2; b = 30; c = 100; } { a = 2; b = 30; c = 200; } { a = 2; b = 30; c = 300; } { a = 3; b = 10; c = 100; } { a = 3; b = 10; c = 200; } { a = 3; b = 10; c = 300; } { a = 3; b = 20; c = 100; } { a = 3; b = 20; c = 200; } { a = 3; b = 20; c = 300; } { a = 3; b = 30; c = 100; } { a = 3; b = 30; c = 200; } { a = 3; b = 30; c = 300; } ]; }; # The example from the showAttrPath documentation testShowAttrPathExample = { expr = showAttrPath [ "foo" "10" "bar" ]; expected = "foo.\"10\".bar"; }; testShowAttrPathEmpty = { expr = showAttrPath []; expected = ""; }; testShowAttrPathVarious = { expr = showAttrPath [ "." "foo" "2" "a2-b" "_bc'de" ]; expected = ''".".foo."2".a2-b._bc'de''; }; testGroupBy = { expr = groupBy (n: toString (mod n 5)) (range 0 16); expected = { "0" = [ 0 5 10 15 ]; "1" = [ 1 6 11 16 ]; "2" = [ 2 7 12 ]; "3" = [ 3 8 13 ]; "4" = [ 4 9 14 ]; }; }; testGroupBy' = { expr = groupBy' builtins.add 0 (x: boolToString (x > 2)) [ 5 1 2 3 4 ]; expected = { false = 3; true = 12; }; }; # The example from the updateManyAttrsByPath documentation testUpdateManyAttrsByPathExample = { expr = updateManyAttrsByPath [ { path = [ "a" "b" ]; update = old: { d = old.c; }; } { path = [ "a" "b" "c" ]; update = old: old + 1; } { path = [ "x" "y" ]; update = old: "xy"; } ] { a.b.c = 0; }; expected = { a = { b = { d = 1; }; }; x = { y = "xy"; }; }; }; # If there are no updates, the value is passed through testUpdateManyAttrsByPathNone = { expr = updateManyAttrsByPath [] "something"; expected = "something"; }; # A single update to the root path is just like applying the function directly testUpdateManyAttrsByPathSingleIncrement = { expr = updateManyAttrsByPath [ { path = [ ]; update = old: old + 1; } ] 0; expected = 1; }; # Multiple updates can be applied are done in order testUpdateManyAttrsByPathMultipleIncrements = { expr = updateManyAttrsByPath [ { path = [ ]; update = old: old + "a"; } { path = [ ]; update = old: old + "b"; } { path = [ ]; update = old: old + "c"; } ] ""; expected = "abc"; }; # If an update doesn't use the value, all previous updates are not evaluated testUpdateManyAttrsByPathLazy = { expr = updateManyAttrsByPath [ { path = [ ]; update = old: old + throw "nope"; } { path = [ ]; update = old: "untainted"; } ] (throw "start"); expected = "untainted"; }; # Deeply nested attributes can be updated without affecting others testUpdateManyAttrsByPathDeep = { expr = updateManyAttrsByPath [ { path = [ "a" "b" "c" ]; update = old: old + 1; } ] { a.b.c = 0; a.b.z = 0; a.y.z = 0; x.y.z = 0; }; expected = { a.b.c = 1; a.b.z = 0; a.y.z = 0; x.y.z = 0; }; }; # Nested attributes are updated first testUpdateManyAttrsByPathNestedBeforehand = { expr = updateManyAttrsByPath [ { path = [ "a" ]; update = old: old // { x = old.b; }; } { path = [ "a" "b" ]; update = old: old + 1; } ] { a.b = 0; }; expected = { a.b = 1; a.x = 1; }; }; ## Levenshtein distance functions and co. testCommonPrefixLengthEmpty = { expr = strings.commonPrefixLength "" "hello"; expected = 0; }; testCommonPrefixLengthSame = { expr = strings.commonPrefixLength "hello" "hello"; expected = 5; }; testCommonPrefixLengthDiffering = { expr = strings.commonPrefixLength "hello" "hey"; expected = 2; }; testCommonSuffixLengthEmpty = { expr = strings.commonSuffixLength "" "hello"; expected = 0; }; testCommonSuffixLengthSame = { expr = strings.commonSuffixLength "hello" "hello"; expected = 5; }; testCommonSuffixLengthDiffering = { expr = strings.commonSuffixLength "test" "rest"; expected = 3; }; testLevenshteinEmpty = { expr = strings.levenshtein "" ""; expected = 0; }; testLevenshteinOnlyAdd = { expr = strings.levenshtein "" "hello there"; expected = 11; }; testLevenshteinOnlyRemove = { expr = strings.levenshtein "hello there" ""; expected = 11; }; testLevenshteinOnlyTransform = { expr = strings.levenshtein "abcdef" "ghijkl"; expected = 6; }; testLevenshteinMixed = { expr = strings.levenshtein "kitchen" "sitting"; expected = 5; }; testLevenshteinAtMostZeroFalse = { expr = strings.levenshteinAtMost 0 "foo" "boo"; expected = false; }; testLevenshteinAtMostZeroTrue = { expr = strings.levenshteinAtMost 0 "foo" "foo"; expected = true; }; testLevenshteinAtMostOneFalse = { expr = strings.levenshteinAtMost 1 "car" "ct"; expected = false; }; testLevenshteinAtMostOneTrue = { expr = strings.levenshteinAtMost 1 "car" "cr"; expected = true; }; # We test levenshteinAtMost 2 particularly well because it uses a complicated # implementation testLevenshteinAtMostTwoIsEmpty = { expr = strings.levenshteinAtMost 2 "" ""; expected = true; }; testLevenshteinAtMostTwoIsZero = { expr = strings.levenshteinAtMost 2 "abcdef" "abcdef"; expected = true; }; testLevenshteinAtMostTwoIsOne = { expr = strings.levenshteinAtMost 2 "abcdef" "abddef"; expected = true; }; testLevenshteinAtMostTwoDiff0False = { expr = strings.levenshteinAtMost 2 "abcdef" "aczyef"; expected = false; }; testLevenshteinAtMostTwoDiff0Outer = { expr = strings.levenshteinAtMost 2 "abcdef" "zbcdez"; expected = true; }; testLevenshteinAtMostTwoDiff0DelLeft = { expr = strings.levenshteinAtMost 2 "abcdef" "bcdefz"; expected = true; }; testLevenshteinAtMostTwoDiff0DelRight = { expr = strings.levenshteinAtMost 2 "abcdef" "zabcde"; expected = true; }; testLevenshteinAtMostTwoDiff1False = { expr = strings.levenshteinAtMost 2 "abcdef" "bddez"; expected = false; }; testLevenshteinAtMostTwoDiff1DelLeft = { expr = strings.levenshteinAtMost 2 "abcdef" "bcdez"; expected = true; }; testLevenshteinAtMostTwoDiff1DelRight = { expr = strings.levenshteinAtMost 2 "abcdef" "zbcde"; expected = true; }; testLevenshteinAtMostTwoDiff2False = { expr = strings.levenshteinAtMost 2 "hello" "hxo"; expected = false; }; testLevenshteinAtMostTwoDiff2True = { expr = strings.levenshteinAtMost 2 "hello" "heo"; expected = true; }; testLevenshteinAtMostTwoDiff3 = { expr = strings.levenshteinAtMost 2 "hello" "ho"; expected = false; }; testLevenshteinAtMostThreeFalse = { expr = strings.levenshteinAtMost 3 "hello" "Holla!"; expected = false; }; testLevenshteinAtMostThreeTrue = { expr = strings.levenshteinAtMost 3 "hello" "Holla"; expected = true; }; # lazyDerivation testLazyDerivationIsLazyInDerivationForAttrNames = { expr = attrNames (lazyDerivation { derivation = throw "not lazy enough"; }); # It's ok to add attribute names here when lazyDerivation is improved # in accordance with its inline comments. expected = [ "drvPath" "meta" "name" "out" "outPath" "outputName" "outputs" "system" "type" ]; }; testLazyDerivationIsLazyInDerivationForPassthruAttr = { expr = (lazyDerivation { derivation = throw "not lazy enough"; passthru.tests = "whatever is in tests"; }).tests; expected = "whatever is in tests"; }; testLazyDerivationIsLazyInDerivationForPassthruAttr2 = { # passthru.tests is not a special case. It works for any attr. expr = (lazyDerivation { derivation = throw "not lazy enough"; passthru.foo = "whatever is in foo"; }).foo; expected = "whatever is in foo"; }; testLazyDerivationIsLazyInDerivationForMeta = { expr = (lazyDerivation { derivation = throw "not lazy enough"; meta = "whatever is in meta"; }).meta; expected = "whatever is in meta"; }; testLazyDerivationReturnsDerivationAttrs = let derivation = { type = "derivation"; outputs = ["out"]; out = "test out"; outPath = "test outPath"; outputName = "out"; drvPath = "test drvPath"; name = "test name"; system = "test system"; meta = "test meta"; }; in { expr = lazyDerivation { inherit derivation; }; expected = derivation; }; testTypeDescriptionInt = { expr = (with types; int).description; expected = "signed integer"; }; testTypeDescriptionListOfInt = { expr = (with types; listOf int).description; expected = "list of signed integer"; }; testTypeDescriptionListOfListOfInt = { expr = (with types; listOf (listOf int)).description; expected = "list of list of signed integer"; }; testTypeDescriptionListOfEitherStrOrBool = { expr = (with types; listOf (either str bool)).description; expected = "list of (string or boolean)"; }; testTypeDescriptionEitherListOfStrOrBool = { expr = (with types; either (listOf bool) str).description; expected = "(list of boolean) or string"; }; testTypeDescriptionEitherStrOrListOfBool = { expr = (with types; either str (listOf bool)).description; expected = "string or list of boolean"; }; testTypeDescriptionOneOfListOfStrOrBool = { expr = (with types; oneOf [ (listOf bool) str ]).description; expected = "(list of boolean) or string"; }; testTypeDescriptionOneOfListOfStrOrBoolOrNumber = { expr = (with types; oneOf [ (listOf bool) str number ]).description; expected = "(list of boolean) or string or signed integer or floating point number"; }; testTypeDescriptionEitherListOfBoolOrEitherStringOrNumber = { expr = (with types; either (listOf bool) (either str number)).description; expected = "(list of boolean) or string or signed integer or floating point number"; }; testTypeDescriptionEitherEitherListOfBoolOrStringOrNumber = { expr = (with types; either (either (listOf bool) str) number).description; expected = "(list of boolean) or string or signed integer or floating point number"; }; testTypeDescriptionEitherNullOrBoolOrString = { expr = (with types; either (nullOr bool) str).description; expected = "null or boolean or string"; }; testTypeDescriptionEitherListOfEitherBoolOrStrOrInt = { expr = (with types; either (listOf (either bool str)) int).description; expected = "(list of (boolean or string)) or signed integer"; }; testTypeDescriptionEitherIntOrListOrEitherBoolOrStr = { expr = (with types; either int (listOf (either bool str))).description; expected = "signed integer or list of (boolean or string)"; }; }