package hclsyntax import ( "testing" "github.com/hashicorp/hcl/v2" "github.com/zclconf/go-cty/cty" ) func TestTemplateExprParseAndValue(t *testing.T) { // This is a combo test that exercises both the parser and the Value // method, with the focus on the latter but indirectly testing the former. tests := []struct { input string ctx *hcl.EvalContext want cty.Value diagCount int }{ { `1`, nil, cty.StringVal("1"), 0, }, { `(1)`, nil, cty.StringVal("(1)"), 0, }, { `true`, nil, cty.StringVal("true"), 0, }, { ` hello world `, nil, cty.StringVal("\nhello world\n"), 0, }, { `hello ${"world"}`, nil, cty.StringVal("hello world"), 0, }, { `hello\nworld`, // backslash escapes not supported in bare templates nil, cty.StringVal("hello\\nworld"), 0, }, { `hello ${12.5}`, nil, cty.StringVal("hello 12.5"), 0, }, { `silly ${"${"nesting"}"}`, nil, cty.StringVal("silly nesting"), 0, }, { `silly ${"${true}"}`, nil, cty.StringVal("silly true"), 0, }, { `hello $${escaped}`, nil, cty.StringVal("hello ${escaped}"), 0, }, { `hello $$nonescape`, nil, cty.StringVal("hello $$nonescape"), 0, }, { `${true}`, nil, cty.True, // any single expression is unwrapped without stringification 0, }, { `trim ${~ "trim"}`, nil, cty.StringVal("trimtrim"), 0, }, { `${"trim" ~} trim`, nil, cty.StringVal("trimtrim"), 0, }, { `trim ${~"trim"~} trim`, nil, cty.StringVal("trimtrimtrim"), 0, }, { ` ${~ true ~} `, nil, cty.StringVal("true"), // can't trim space to reduce to a single expression 0, }, { `${"hello "}${~"trim"~}${" hello"}`, nil, cty.StringVal("hello trim hello"), // trimming can't reach into a neighboring interpolation 0, }, { `${true}${~"trim"~}${true}`, nil, cty.StringVal("truetrimtrue"), // trimming is no-op of neighbors aren't literal strings 0, }, { `%{ if true ~} hello %{~ endif }`, nil, cty.StringVal("hello"), 0, }, { `%{ if false ~} hello %{~ endif}`, nil, cty.StringVal(""), 0, }, { `%{ if true ~} hello %{~ else ~} goodbye %{~ endif }`, nil, cty.StringVal("hello"), 0, }, { `%{ if false ~} hello %{~ else ~} goodbye %{~ endif }`, nil, cty.StringVal("goodbye"), 0, }, { `%{ if true ~} %{~ if false ~} hello %{~ else ~} goodbye %{~ endif ~} %{~ endif }`, nil, cty.StringVal("goodbye"), 0, }, { `%{ if false ~} %{~ if false ~} hello %{~ else ~} goodbye %{~ endif ~} %{~ endif }`, nil, cty.StringVal(""), 0, }, { `%{ of true ~} hello %{~ endif}`, nil, cty.UnknownVal(cty.String), 2, // "of" is not a valid control keyword, and "endif" is therefore also unexpected }, { `%{ for v in ["a", "b", "c"] }${v}%{ endfor }`, nil, cty.StringVal("abc"), 0, }, { `%{ for v in ["a", "b", "c"] } ${v} %{ endfor }`, nil, cty.StringVal(" a b c "), 0, }, { `%{ for v in ["a", "b", "c"] ~} ${v} %{~ endfor }`, nil, cty.StringVal("abc"), 0, }, { `%{ for v in [] }${v}%{ endfor }`, nil, cty.StringVal(""), 0, }, { `%{ for i, v in ["a", "b", "c"] }${i}${v}%{ endfor }`, nil, cty.StringVal("0a1b2c"), 0, }, { `%{ for k, v in {"A" = "a", "B" = "b", "C" = "c"} }${k}${v}%{ endfor }`, nil, cty.StringVal("AaBbCc"), 0, }, { `%{ for v in ["a", "b", "c"] }${v}${nl}%{ endfor }`, &hcl.EvalContext{ Variables: map[string]cty.Value{ "nl": cty.StringVal("\n"), }, }, cty.StringVal("a\nb\nc\n"), 0, }, { `\n`, // backslash escapes are not interpreted in template literals nil, cty.StringVal("\\n"), 0, }, { `\uu1234`, // backslash escapes are not interpreted in template literals nil, // (this is intentionally an invalid one to ensure we don't produce an error) cty.StringVal("\\uu1234"), 0, }, { `$`, nil, cty.StringVal("$"), 0, }, { `$$`, nil, cty.StringVal("$$"), 0, }, { `%`, nil, cty.StringVal("%"), 0, }, { `%%`, nil, cty.StringVal("%%"), 0, }, } for _, test := range tests { t.Run(test.input, func(t *testing.T) { expr, parseDiags := ParseTemplate([]byte(test.input), "", hcl.Pos{Line: 1, Column: 1, Byte: 0}) got, valDiags := expr.Value(test.ctx) diagCount := len(parseDiags) + len(valDiags) if diagCount != test.diagCount { t.Errorf("wrong number of diagnostics %d; want %d", diagCount, test.diagCount) for _, diag := range parseDiags { t.Logf(" - %s", diag.Error()) } for _, diag := range valDiags { t.Logf(" - %s", diag.Error()) } } if !got.RawEquals(test.want) { t.Errorf("wrong result\ngot: %#v\nwant: %#v", got, test.want) } }) } }