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opentofu/config/hcl2_shim_util_test.go
Martin Atkins 71e989ba3e config/hcl2shim: make some of the HCL2 shim functions public 
The value-conversion machinery is also needed in the main "terraform"
package to help us populate our HCL2 evaluation scope, so a subset of the
shim functions move here into a new package where they can be public.

Some of them remain private within the config package since they depend
on some other symbols in the config package, and they are not needed
by outside callers anyway.
2017-10-16 17:54:02 -07:00

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package config
import (
"testing"
hcl2 "github.com/hashicorp/hcl2/hcl"
hcl2syntax "github.com/hashicorp/hcl2/hcl/hclsyntax"
"github.com/zclconf/go-cty/cty"
)
func TestHCL2InterpolationFuncs(t *testing.T) {
// This is not a comprehensive test of all the functions (they are tested
// in interpolation_funcs_test.go already) but rather just calling a
// representative set via the HCL2 API to verify that the HCL2-to-HIL
// function shim is working as expected.
tests := []struct {
Expr string
Want cty.Value
Err bool
}{
{
`upper("hello")`,
cty.StringVal("HELLO"),
false,
},
{
`abs(-2)`,
cty.NumberIntVal(2),
false,
},
{
`abs(-2.5)`,
cty.NumberFloatVal(2.5),
false,
},
{
`cidrsubnet("")`,
cty.DynamicVal,
true, // not enough arguments
},
{
`cidrsubnet("10.1.0.0/16", 8, 2)`,
cty.StringVal("10.1.2.0/24"),
false,
},
{
`concat([])`,
// Since HIL doesn't maintain element type information for list
// types, HCL2 can't either without elements to sniff.
cty.ListValEmpty(cty.DynamicPseudoType),
false,
},
{
`concat([], [])`,
cty.ListValEmpty(cty.DynamicPseudoType),
false,
},
{
`concat(["a"], ["b", "c"])`,
cty.ListVal([]cty.Value{
cty.StringVal("a"),
cty.StringVal("b"),
cty.StringVal("c"),
}),
false,
},
{
`list()`,
cty.ListValEmpty(cty.DynamicPseudoType),
false,
},
{
`list("a", "b", "c")`,
cty.ListVal([]cty.Value{
cty.StringVal("a"),
cty.StringVal("b"),
cty.StringVal("c"),
}),
false,
},
{
`list(list("a"), list("b"), list("c"))`,
// The types emerge here in a bit of a strange tangle because of
// the guesswork we do when trying to recover lost information from
// HIL, but the rest of the language doesn't really care whether
// we use lists or tuples here as long as we are consistent with
// the type system invariants.
cty.ListVal([]cty.Value{
cty.TupleVal([]cty.Value{cty.StringVal("a")}),
cty.TupleVal([]cty.Value{cty.StringVal("b")}),
cty.TupleVal([]cty.Value{cty.StringVal("c")}),
}),
false,
},
{
`list(list("a"), "b")`,
cty.DynamicVal,
true, // inconsistent types
},
{
`length([])`,
cty.NumberIntVal(0),
false,
},
{
`length([2])`,
cty.NumberIntVal(1),
false,
},
{
`jsonencode(2)`,
cty.StringVal(`2`),
false,
},
{
`jsonencode(true)`,
cty.StringVal(`true`),
false,
},
{
`jsonencode("foo")`,
cty.StringVal(`"foo"`),
false,
},
{
`jsonencode({})`,
cty.StringVal(`{}`),
false,
},
{
`jsonencode([1])`,
cty.StringVal(`[1]`),
false,
},
{
`jsondecode("{}")`,
cty.EmptyObjectVal,
false,
},
{
`jsondecode("[5, true]")[0]`,
cty.NumberIntVal(5),
false,
},
}
for _, test := range tests {
t.Run(test.Expr, func(t *testing.T) {
expr, diags := hcl2syntax.ParseExpression([]byte(test.Expr), "", hcl2.Pos{Line: 1, Column: 1})
if len(diags) != 0 {
for _, diag := range diags {
t.Logf("- %s", diag)
}
t.Fatalf("unexpected diagnostics while parsing expression")
}
got, diags := expr.Value(&hcl2.EvalContext{
Functions: hcl2InterpolationFuncs(),
})
gotErr := diags.HasErrors()
if gotErr != test.Err {
if test.Err {
t.Errorf("expected errors but got none")
} else {
t.Errorf("unexpected errors")
for _, diag := range diags {
t.Logf("- %s", diag)
}
}
}
if !got.RawEquals(test.Want) {
t.Errorf("wrong result\nexpr: %s\ngot: %#v\nwant: %#v", test.Expr, got, test.Want)
}
})
}
}
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