package yqlib import ( "fmt" "testing" "github.com/mikefarah/yq/v4/test" ) var pathTests = []struct { path string expectedTokens []interface{} expectedPostFix []interface{} }{ // TODO: Ensure ALL documented examples have tests! sheesh // {"len(.)", append(make([]interface{}, 0), "LENGTH", "(", "SELF", ")")}, // {"\"len\"(.)", append(make([]interface{}, 0), "len", "TRAVERSE", "(", "SELF", ")")}, // {".a OR (.b OR .c)", append(make([]interface{}, 0), "a", "OR", "(", "b", "OR", "c", ")")}, // {"a OR (b OR c)", append(make([]interface{}, 0), "a", "OR", "(", "b", "OR", "c", ")")}, // {"a .- (b OR c)", append(make([]interface{}, 0), "a", " .- ", "(", "b", "OR", "c", ")")}, // {"(animal==3)", append(make([]interface{}, 0), "(", "animal", "==", int64(3), ")")}, // {"(animal==f3)", append(make([]interface{}, 0), "(", "animal", "==", "f3", ")")}, // {"apples.BANANAS", append(make([]interface{}, 0), "apples", "TRAVERSE", "BANANAS")}, // {"appl*.BANA*", append(make([]interface{}, 0), "appl*", "TRAVERSE", "BANA*")}, // {"a.b.**", append(make([]interface{}, 0), "a", "TRAVERSE", "b", "TRAVERSE", "**")}, // {"a.\"=\".frog", append(make([]interface{}, 0), "a", "TRAVERSE", "=", "TRAVERSE", "frog")}, // {"a.b.*", append(make([]interface{}, 0), "a", "TRAVERSE", "b", "TRAVERSE", "*")}, // {"a.b.thin*", append(make([]interface{}, 0), "a", "TRAVERSE", "b", "TRAVERSE", "thin*")}, // {".a.b.[0]", append(make([]interface{}, 0), "a", "TRAVERSE", "b", "TRAVERSE", int64(0))}, // {".a.b.[]", append(make([]interface{}, 0), "a", "TRAVERSE", "b", "TRAVERSE", "[]")}, // {".a.b.[+]", append(make([]interface{}, 0), "a", "TRAVERSE", "b", "TRAVERSE", "[+]")}, // {".a.b.[-12]", append(make([]interface{}, 0), "a", "TRAVERSE", "b", "TRAVERSE", int64(-12))}, // {".a.b.0", append(make([]interface{}, 0), "a", "TRAVERSE", "b", "TRAVERSE", "0")}, // {".a", append(make([]interface{}, 0), "a")}, // {".\"a.b\".c", append(make([]interface{}, 0), "a.b", "TRAVERSE", "c")}, // {`.b."foo.bar"`, append(make([]interface{}, 0), "b", "TRAVERSE", "foo.bar")}, // {`f | . == *og | length`, append(make([]interface{}, 0), "f", "TRAVERSE", "SELF", "EQUALS", "*og", "TRAVERSE", "LENGTH")}, // {`.a, .b`, append(make([]interface{}, 0), "a", "OR", "b")}, // {`[.a, .b]`, append(make([]interface{}, 0), "[", "a", "OR", "b", "]")}, // {`."[a", ."b]"`, append(make([]interface{}, 0), "[a", "OR", "b]")}, // {`.a[]`, append(make([]interface{}, 0), "a", "PIPE", "[]")}, // {`.[].a`, append(make([]interface{}, 0), "[]", "PIPE", "a")}, { `d0.a`, append(make([]interface{}, 0), "d0", "PIPE", "a"), append(make([]interface{}, 0), "d0", "a", "PIPE"), }, { `.a | (.[].b == "apple")`, append(make([]interface{}, 0), "a", "PIPE", "(", "[]", "PIPE", "b", "EQUALS", "apple (string)", ")"), append(make([]interface{}, 0), "a", "[]", "b", "PIPE", "apple (string)", "EQUALS", "PIPE"), }, { `.[] | select(. == "*at")`, append(make([]interface{}, 0), "[]", "PIPE", "SELECT", "(", "SELF", "EQUALS", "*at (string)", ")"), append(make([]interface{}, 0), "[]", "SELF", "*at (string)", "EQUALS", "SELECT", "PIPE"), }, { `[true]`, append(make([]interface{}, 0), "[", "true (bool)", "]"), append(make([]interface{}, 0), "true (bool)", "COLLECT", "PIPE"), }, { `[true, false]`, append(make([]interface{}, 0), "[", "true (bool)", "UNION", "false (bool)", "]"), append(make([]interface{}, 0), "true (bool)", "false (bool)", "UNION", "COLLECT", "PIPE"), }, { `"mike": .a`, append(make([]interface{}, 0), "mike (string)", "CREATE_MAP", "a"), append(make([]interface{}, 0), "mike (string)", "a", "CREATE_MAP"), }, { `.a: "mike"`, append(make([]interface{}, 0), "a", "CREATE_MAP", "mike (string)"), append(make([]interface{}, 0), "a", "mike (string)", "CREATE_MAP"), }, { `{"mike": .a}`, append(make([]interface{}, 0), "{", "mike (string)", "CREATE_MAP", "a", "}"), append(make([]interface{}, 0), "mike (string)", "a", "CREATE_MAP", "COLLECT_OBJECT", "PIPE"), }, { `{.a: "mike"}`, append(make([]interface{}, 0), "{", "a", "CREATE_MAP", "mike (string)", "}"), append(make([]interface{}, 0), "a", "mike (string)", "CREATE_MAP", "COLLECT_OBJECT", "PIPE"), }, { `{.a: .c, .b[]: .f.g[]}`, append(make([]interface{}, 0), "{", "a", "CREATE_MAP", "c", "UNION", "b", "PIPE", "[]", "CREATE_MAP", "f", "PIPE", "g", "PIPE", "[]", "}"), append(make([]interface{}, 0), "a", "c", "CREATE_MAP", "b", "[]", "PIPE", "f", "g", "PIPE", "[]", "PIPE", "CREATE_MAP", "UNION", "COLLECT_OBJECT", "PIPE"), }, { `explode(.a.b)`, append(make([]interface{}, 0), "EXPLODE", "(", "a", "PIPE", "b", ")"), append(make([]interface{}, 0), "a", "b", "PIPE", "EXPLODE"), }, { `.a.b style="folded"`, append(make([]interface{}, 0), "a", "PIPE", "b", "ASSIGN_STYLE", "folded (string)"), append(make([]interface{}, 0), "a", "b", "PIPE", "folded (string)", "ASSIGN_STYLE"), }, // { // `.a.b tag="!!str"`, // append(make([]interface{}, 0), "EXPLODE", "(", "a", "PIPE", "b", ")"), // append(make([]interface{}, 0), "a", "b", "PIPE", "EXPLODE"), // }, { `""`, append(make([]interface{}, 0), " (string)"), append(make([]interface{}, 0), " (string)"), }, { `.foo* | (. style="flow")`, append(make([]interface{}, 0), "foo*", "PIPE", "(", "SELF", "ASSIGN_STYLE", "flow (string)", ")"), append(make([]interface{}, 0), "foo*", "SELF", "flow (string)", "ASSIGN_STYLE", "PIPE"), }, { `{}`, append(make([]interface{}, 0), "{", "}"), append(make([]interface{}, 0), "EMPTY", "COLLECT_OBJECT", "PIPE"), }, // {".animals | .==cat", append(make([]interface{}, 0), "animals", "TRAVERSE", "SELF", "EQUALS", "cat")}, // {".animals | (. == cat)", append(make([]interface{}, 0), "animals", "TRAVERSE", "(", "SELF", "EQUALS", "cat", ")")}, // {".animals | (.==c*)", append(make([]interface{}, 0), "animals", "TRAVERSE", "(", "SELF", "EQUALS", "c*", ")")}, // {"animals(a.b==c*)", append(make([]interface{}, 0), "animals", "TRAVERSE", "(", "a", "TRAVERSE", "b", "==", "c*", ")")}, // {"animals.(a.b==c*)", append(make([]interface{}, 0), "animals", "TRAVERSE", "(", "a", "TRAVERSE", "b", "==", "c*", ")")}, // {"(a.b==c*).animals", append(make([]interface{}, 0), "(", "a", "TRAVERSE", "b", "==", "c*", ")", "TRAVERSE", "animals")}, // {"(a.b==c*)animals", append(make([]interface{}, 0), "(", "a", "TRAVERSE", "b", "==", "c*", ")", "TRAVERSE", "animals")}, // {"[1].a.d", append(make([]interface{}, 0), int64(1), "TRAVERSE", "a", "TRAVERSE", "d")}, // {"[1]a.d", append(make([]interface{}, 0), int64(1), "TRAVERSE", "a", "TRAVERSE", "d")}, // {"a[0]c", append(make([]interface{}, 0), "a", "TRAVERSE", int64(0), "TRAVERSE", "c")}, // {"a.[0].c", append(make([]interface{}, 0), "a", "TRAVERSE", int64(0), "TRAVERSE", "c")}, // {"[0]", append(make([]interface{}, 0), int64(0))}, // {"0", append(make([]interface{}, 0), int64(0))}, // {"a.b[+]c", append(make([]interface{}, 0), "a", "TRAVERSE", "b", "TRAVERSE", "[+]", "TRAVERSE", "c")}, // {"a.cool(s.d.f == cool)", append(make([]interface{}, 0), "a", "TRAVERSE", "cool", "TRAVERSE", "(", "s", "TRAVERSE", "d", "TRAVERSE", "f", " == ", "cool", ")")}, // {"a.cool.(s.d.f==cool OR t.b.h==frog).caterpillar", append(make([]interface{}, 0), "a", "TRAVERSE", "cool", "TRAVERSE", "(", "s", "TRAVERSE", "d", "TRAVERSE", "f", "==", "cool", "OR", "t", "TRAVERSE", "b", "TRAVERSE", "h", "==", "frog", ")", "TRAVERSE", "caterpillar")}, // {"a.cool(s.d.f==cool and t.b.h==frog)*", append(make([]interface{}, 0), "a", "TRAVERSE", "cool", "TRAVERSE", "(", "s", "TRAVERSE", "d", "TRAVERSE", "f", "==", "cool", "and", "t", "TRAVERSE", "b", "TRAVERSE", "h", "==", "frog", ")", "TRAVERSE", "*")}, // {"a.cool(s.d.f==cool and t.b.h==frog).th*", append(make([]interface{}, 0), "a", "TRAVERSE", "cool", "TRAVERSE", "(", "s", "TRAVERSE", "d", "TRAVERSE", "f", "==", "cool", "and", "t", "TRAVERSE", "b", "TRAVERSE", "h", "==", "frog", ")", "TRAVERSE", "th*")}, } var tokeniser = NewPathTokeniser() var postFixer = NewPathPostFixer() func TestPathParsing(t *testing.T) { for _, tt := range pathTests { tokens, err := tokeniser.Tokenise(tt.path) if err != nil { t.Error(tt.path, err) } var tokenValues []interface{} for _, token := range tokens { tokenValues = append(tokenValues, token.toString()) } test.AssertResultComplexWithContext(t, tt.expectedTokens, tokenValues, fmt.Sprintf("tokenise: %v", tt.path)) results, errorP := postFixer.ConvertToPostfix(tokens) var readableResults []interface{} for _, token := range results { readableResults = append(readableResults, token.toString()) } if errorP != nil { t.Error(tt.path, err) } test.AssertResultComplexWithContext(t, tt.expectedPostFix, readableResults, fmt.Sprintf("postfix: %v", tt.path)) } }