terraform/lang/funcs/collection.go

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package funcs
import (
"fmt"
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"sort"
"github.com/zclconf/go-cty/cty"
"github.com/zclconf/go-cty/cty/convert"
"github.com/zclconf/go-cty/cty/function"
"github.com/zclconf/go-cty/cty/function/stdlib"
"github.com/zclconf/go-cty/cty/gocty"
)
var ElementFunc = function.New(&function.Spec{
Params: []function.Parameter{
{
Name: "list",
Type: cty.DynamicPseudoType,
},
{
Name: "index",
Type: cty.Number,
},
},
Type: func(args []cty.Value) (cty.Type, error) {
list := args[0]
listTy := list.Type()
switch {
case listTy.IsListType():
return listTy.ElementType(), nil
case listTy.IsTupleType():
etys := listTy.TupleElementTypes()
var index int
err := gocty.FromCtyValue(args[1], &index)
if err != nil {
// e.g. fractional number where whole number is required
return cty.DynamicPseudoType, fmt.Errorf("invalid index: %s", err)
}
if len(etys) == 0 {
return cty.DynamicPseudoType, fmt.Errorf("cannot use element function with an empty list")
}
index = index % len(etys)
return etys[index], nil
default:
return cty.DynamicPseudoType, fmt.Errorf("cannot read elements from %s", listTy.FriendlyName())
}
},
Impl: func(args []cty.Value, retType cty.Type) (cty.Value, error) {
var index int
err := gocty.FromCtyValue(args[1], &index)
if err != nil {
// can't happen because we checked this in the Type function above
return cty.DynamicVal, fmt.Errorf("invalid index: %s", err)
}
l := args[0].LengthInt()
if l == 0 {
return cty.DynamicVal, fmt.Errorf("cannot use element function with an empty list")
}
index = index % l
// We did all the necessary type checks in the type function above,
// so this is guaranteed not to fail.
return args[0].Index(cty.NumberIntVal(int64(index))), nil
},
})
var LengthFunc = function.New(&function.Spec{
Params: []function.Parameter{
{
Name: "value",
Type: cty.DynamicPseudoType,
AllowDynamicType: true,
AllowUnknown: true,
},
},
Type: func(args []cty.Value) (cty.Type, error) {
collTy := args[0].Type()
switch {
case collTy == cty.String || collTy.IsTupleType() || collTy.IsListType() || collTy.IsMapType() || collTy.IsSetType() || collTy == cty.DynamicPseudoType:
return cty.Number, nil
default:
return cty.Number, fmt.Errorf("argument must be a string, a collection type, or a structural type")
}
},
Impl: func(args []cty.Value, retType cty.Type) (cty.Value, error) {
coll := args[0]
collTy := args[0].Type()
switch {
case collTy == cty.DynamicPseudoType:
return cty.UnknownVal(cty.Number), nil
case collTy.IsTupleType():
l := len(collTy.TupleElementTypes())
return cty.NumberIntVal(int64(l)), nil
case collTy.IsObjectType():
l := len(collTy.AttributeTypes())
return cty.NumberIntVal(int64(l)), nil
case collTy == cty.String:
// We'll delegate to the cty stdlib strlen function here, because
// it deals with all of the complexities of tokenizing unicode
// grapheme clusters.
return stdlib.Strlen(coll)
case collTy.IsListType() || collTy.IsSetType() || collTy.IsMapType():
return coll.Length(), nil
default:
// Should never happen, because of the checks in our Type func above
return cty.UnknownVal(cty.Number), fmt.Errorf("impossible value type for length(...)")
}
},
})
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// CoalesceListFunc contructs a function that takes any number of list arguments
// and returns the first one that isn't empty.
var CoalesceListFunc = function.New(&function.Spec{
Params: []function.Parameter{},
VarParam: &function.Parameter{
Name: "vals",
Type: cty.List(cty.DynamicPseudoType),
AllowUnknown: true,
AllowDynamicType: true,
AllowNull: true,
},
Type: func(args []cty.Value) (ret cty.Type, err error) {
if len(args) == 0 {
return cty.NilType, fmt.Errorf("at least one argument is required")
}
argTypes := make([]cty.Type, len(args))
for i, arg := range args {
argTypes[i] = arg.Type()
}
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retType, _ := convert.UnifyUnsafe(argTypes)
if retType == cty.NilType {
return cty.NilType, fmt.Errorf("all arguments must have the same type")
}
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return retType, nil
},
Impl: func(args []cty.Value, retType cty.Type) (ret cty.Value, err error) {
vals := make([]cty.Value, 0, len(args))
for _, arg := range args {
// We already know this will succeed because of the checks in our Type func above
arg, _ = convert.Convert(arg, retType)
it := arg.ElementIterator()
for it.Next() {
_, v := it.Element()
vals = append(vals, v)
}
if len(vals) > 0 {
return cty.ListVal(vals), nil
}
}
return cty.NilVal, fmt.Errorf("no non-null arguments")
},
})
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// CompactFunc contructs a function that takes a list of strings and returns a new list
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// with any empty string elements removed.
var CompactFunc = function.New(&function.Spec{
Params: []function.Parameter{
{
Name: "list",
Type: cty.List(cty.String),
},
},
Type: function.StaticReturnType(cty.List(cty.String)),
Impl: func(args []cty.Value, retType cty.Type) (ret cty.Value, err error) {
listVal := args[0]
if !listVal.IsWhollyKnown() {
// If some of the element values aren't known yet then we
// can't yet return a compacted list
return cty.UnknownVal(retType), nil
}
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var outputList []cty.Value
for it := listVal.ElementIterator(); it.Next(); {
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_, v := it.Element()
if v.AsString() == "" {
continue
}
outputList = append(outputList, v)
}
if len(outputList) == 0 {
return cty.ListValEmpty(cty.String), nil
}
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return cty.ListVal(outputList), nil
},
})
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// ContainsFunc contructs a function that determines whether a given list contains
// a given single value as one of its elements.
var ContainsFunc = function.New(&function.Spec{
Params: []function.Parameter{
{
Name: "list",
Type: cty.List(cty.DynamicPseudoType),
},
{
Name: "value",
Type: cty.DynamicPseudoType,
},
},
Type: function.StaticReturnType(cty.Bool),
Impl: func(args []cty.Value, retType cty.Type) (ret cty.Value, err error) {
_, err = Index(args[0], args[1])
if err != nil {
return cty.False, nil
}
return cty.True, nil
},
})
// IndexFunc contructs a function that finds the element index for a given value in a list.
var IndexFunc = function.New(&function.Spec{
Params: []function.Parameter{
{
Name: "list",
Type: cty.DynamicPseudoType,
},
{
Name: "value",
Type: cty.DynamicPseudoType,
},
},
Type: function.StaticReturnType(cty.Number),
Impl: func(args []cty.Value, retType cty.Type) (ret cty.Value, err error) {
if !(args[0].Type().IsListType() || args[0].Type().IsTupleType()) {
return cty.NilVal, fmt.Errorf("argument must be a list or tuple")
}
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if args[0].LengthInt() == 0 { // Easy path
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return cty.NilVal, fmt.Errorf("cannot search an empty list")
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}
for it := args[0].ElementIterator(); it.Next(); {
i, v := it.Element()
eq, err := stdlib.Equal(v, args[1])
if err != nil {
return cty.NilVal, err
}
if !eq.IsKnown() {
return cty.UnknownVal(cty.Number), nil
}
if eq.True() {
return i, nil
}
}
return cty.NilVal, fmt.Errorf("item not found")
},
})
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// DistinctFunc contructs a function that takes a list and returns a new list
// with any duplicate elements removed.
var DistinctFunc = function.New(&function.Spec{
Params: []function.Parameter{
{
Name: "list",
Type: cty.List(cty.DynamicPseudoType),
},
},
Type: func(args []cty.Value) (cty.Type, error) {
return args[0].Type(), nil
},
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Impl: func(args []cty.Value, retType cty.Type) (ret cty.Value, err error) {
listVal := args[0]
if !listVal.IsWhollyKnown() {
return cty.UnknownVal(retType), nil
}
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var list []cty.Value
for it := listVal.ElementIterator(); it.Next(); {
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_, v := it.Element()
list, err = appendIfMissing(list, v)
if err != nil {
return cty.NilVal, err
}
}
return cty.ListVal(list), nil
},
})
// ChunklistFunc contructs a function that splits a single list into fixed-size chunks,
// returning a list of lists.
var ChunklistFunc = function.New(&function.Spec{
Params: []function.Parameter{
{
Name: "list",
Type: cty.List(cty.DynamicPseudoType),
},
{
Name: "size",
Type: cty.Number,
},
},
Type: func(args []cty.Value) (cty.Type, error) {
return cty.List(args[0].Type()), nil
},
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Impl: func(args []cty.Value, retType cty.Type) (ret cty.Value, err error) {
listVal := args[0]
if !listVal.IsWhollyKnown() {
return cty.UnknownVal(retType), nil
}
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var size int
err = gocty.FromCtyValue(args[1], &size)
if err != nil {
return cty.NilVal, fmt.Errorf("invalid index: %s", err)
}
if size < 0 {
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return cty.NilVal, fmt.Errorf("the size argument must be positive")
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}
output := make([]cty.Value, 0)
// if size is 0, returns a list made of the initial list
if size == 0 {
output = append(output, listVal)
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return cty.ListVal(output), nil
}
chunk := make([]cty.Value, 0)
l := args[0].LengthInt()
i := 0
for it := listVal.ElementIterator(); it.Next(); {
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_, v := it.Element()
chunk = append(chunk, v)
// Chunk when index isn't 0, or when reaching the values's length
if (i+1)%size == 0 || (i+1) == l {
output = append(output, cty.ListVal(chunk))
chunk = make([]cty.Value, 0)
}
i++
}
return cty.ListVal(output), nil
},
})
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// FlattenFunc contructs a function that takes a list and replaces any elements
// that are lists with a flattened sequence of the list contents.
var FlattenFunc = function.New(&function.Spec{
Params: []function.Parameter{
{
Name: "list",
Type: cty.List(cty.DynamicPseudoType),
},
},
Type: function.StaticReturnType(cty.List(cty.DynamicPseudoType)),
Impl: func(args []cty.Value, retType cty.Type) (ret cty.Value, err error) {
inputList := args[0]
if !inputList.IsWhollyKnown() {
return cty.UnknownVal(retType), nil
}
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if inputList.LengthInt() == 0 {
return cty.ListValEmpty(retType.ElementType()), nil
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}
outputList := make([]cty.Value, 0)
return cty.ListVal(flattener(outputList, inputList)), nil
},
})
// Flatten until it's not a cty.List
func flattener(finalList []cty.Value, flattenList cty.Value) []cty.Value {
for it := flattenList.ElementIterator(); it.Next(); {
_, val := it.Element()
if val.Type().IsListType() {
finalList = flattener(finalList, val)
} else {
finalList = append(finalList, val)
}
}
return finalList
}
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// KeysFunc contructs a function that takes a map and returns a sorted list of the map keys.
var KeysFunc = function.New(&function.Spec{
Params: []function.Parameter{
{
Name: "inputMap",
Type: cty.Map(cty.DynamicPseudoType),
},
},
Type: function.StaticReturnType(cty.List(cty.String)),
Impl: func(args []cty.Value, retType cty.Type) (ret cty.Value, err error) {
var keys []cty.Value
for it := args[0].ElementIterator(); it.Next(); {
k, _ := it.Element()
keys = append(keys, k)
if err != nil {
return cty.ListValEmpty(cty.String), err
}
}
return cty.ListVal(keys), nil
},
})
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// ListFunc contructs a function that takes an arbitrary number of arguments
// and returns a list containing those values in the same order.
//
// This function is deprecated in Terraform v0.12
var ListFunc = function.New(&function.Spec{
Params: []function.Parameter{},
VarParam: &function.Parameter{
Name: "vals",
Type: cty.DynamicPseudoType,
AllowUnknown: true,
AllowDynamicType: true,
AllowNull: true,
},
Type: func(args []cty.Value) (ret cty.Type, err error) {
if len(args) == 0 {
return cty.NilType, fmt.Errorf("at least one argument is required")
}
argTypes := make([]cty.Type, len(args))
for i, arg := range args {
argTypes[i] = arg.Type()
}
retType, _ := convert.UnifyUnsafe(argTypes)
if retType == cty.NilType {
return cty.NilType, fmt.Errorf("all arguments must have the same type")
}
return cty.List(retType), nil
},
Impl: func(args []cty.Value, retType cty.Type) (ret cty.Value, err error) {
newList := make([]cty.Value, 0, len(args))
for _, arg := range args {
// We already know this will succeed because of the checks in our Type func above
arg, _ = convert.Convert(arg, retType.ElementType())
newList = append(newList, arg)
}
return cty.ListVal(newList), nil
},
})
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// LookupFunc contructs a function that performs dynamic lookups of map types.
var LookupFunc = function.New(&function.Spec{
Params: []function.Parameter{
{
Name: "inputMap",
Type: cty.Map(cty.DynamicPseudoType),
},
{
Name: "key",
Type: cty.String,
},
},
VarParam: &function.Parameter{
Name: "default",
Type: cty.DynamicPseudoType,
AllowUnknown: true,
AllowDynamicType: true,
AllowNull: true,
},
Type: func(args []cty.Value) (ret cty.Type, err error) {
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if len(args) < 1 || len(args) > 3 {
return cty.NilType, fmt.Errorf("lookup() takes two or three arguments, got %d", len(args))
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}
return args[0].Type().ElementType(), nil
},
Impl: func(args []cty.Value, retType cty.Type) (ret cty.Value, err error) {
var defaultVal cty.Value
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defaultValueSet := false
if len(args) == 3 {
defaultVal = args[2]
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defaultValueSet = true
}
mapVar := args[0]
lookupKey := args[1].AsString()
if !mapVar.IsWhollyKnown() {
return cty.UnknownVal(retType), nil
}
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if mapVar.HasIndex(cty.StringVal(lookupKey)) == cty.True {
v := mapVar.Index(cty.StringVal(lookupKey))
if ty := v.Type(); !ty.Equals(cty.NilType) {
switch {
case ty.Equals(cty.String):
return cty.StringVal(v.AsString()), nil
case ty.Equals(cty.Number):
return cty.NumberVal(v.AsBigFloat()), nil
default:
return cty.NilVal, fmt.Errorf("lookup() can only be used with flat lists")
}
}
}
if defaultValueSet {
defaultVal, err = convert.Convert(defaultVal, retType)
if err != nil {
return cty.NilVal, err
}
return defaultVal, nil
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}
return cty.UnknownVal(cty.DynamicPseudoType), fmt.Errorf(
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"lookup failed to find '%s'", lookupKey)
},
})
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// MapFunc contructs a function that takes an even number of arguments and
// returns a map whose elements are constructed from consecutive pairs of arguments.
//
// This function is deprecated in Terraform v0.12
var MapFunc = function.New(&function.Spec{
Params: []function.Parameter{},
VarParam: &function.Parameter{
Name: "vals",
Type: cty.DynamicPseudoType,
AllowUnknown: true,
AllowDynamicType: true,
AllowNull: true,
},
Type: func(args []cty.Value) (ret cty.Type, err error) {
if len(args) < 2 || len(args)%2 != 0 {
return cty.NilType, fmt.Errorf("map requires an even number of two or more arguments, got %d", len(args))
}
argTypes := make([]cty.Type, len(args)/2)
index := 0
for i := 0; i < len(args); i += 2 {
argTypes[index] = args[i+1].Type()
index++
}
valType, _ := convert.UnifyUnsafe(argTypes)
if valType == cty.NilType {
return cty.NilType, fmt.Errorf("all arguments must have the same type")
}
return cty.Map(valType), nil
},
Impl: func(args []cty.Value, retType cty.Type) (ret cty.Value, err error) {
for _, arg := range args {
if !arg.IsWhollyKnown() {
return cty.UnknownVal(retType), nil
}
}
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outputMap := make(map[string]cty.Value)
for i := 0; i < len(args); i += 2 {
key := args[i].AsString()
err := gocty.FromCtyValue(args[i], &key)
if err != nil {
return cty.NilVal, err
}
val := args[i+1]
var variable cty.Value
err = gocty.FromCtyValue(val, &variable)
if err != nil {
return cty.NilVal, err
}
// We already know this will succeed because of the checks in our Type func above
variable, _ = convert.Convert(variable, retType.ElementType())
// Check for duplicate keys
if _, ok := outputMap[key]; ok {
return cty.NilVal, fmt.Errorf("argument %d is a duplicate key: %q", i+1, key)
}
outputMap[key] = variable
}
return cty.MapVal(outputMap), nil
},
})
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// MatchkeysFunc contructs a function that constructs a new list by taking a
// subset of elements from one list whose indexes match the corresponding
// indexes of values in another list.
var MatchkeysFunc = function.New(&function.Spec{
Params: []function.Parameter{
{
Name: "values",
Type: cty.List(cty.DynamicPseudoType),
},
{
Name: "keys",
Type: cty.List(cty.DynamicPseudoType),
},
{
Name: "searchset",
Type: cty.List(cty.DynamicPseudoType),
},
},
Type: func(args []cty.Value) (cty.Type, error) {
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if !args[1].Type().Equals(args[2].Type()) {
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return cty.NilType, fmt.Errorf("lists must be of the same type")
}
return args[0].Type(), nil
},
Impl: func(args []cty.Value, retType cty.Type) (ret cty.Value, err error) {
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if args[0].LengthInt() != args[1].LengthInt() {
return cty.ListValEmpty(retType.ElementType()), fmt.Errorf("length of keys and values should be equal")
}
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output := make([]cty.Value, 0)
values := args[0]
keys := args[1]
searchset := args[2]
// if searchset is empty, return an empty list.
if searchset.LengthInt() == 0 {
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return cty.ListValEmpty(retType.ElementType()), nil
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}
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if !values.IsWhollyKnown() || !keys.IsWhollyKnown() {
return cty.UnknownVal(retType), nil
}
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i := 0
for it := keys.ElementIterator(); it.Next(); {
_, key := it.Element()
for iter := searchset.ElementIterator(); iter.Next(); {
_, search := iter.Element()
eq, err := stdlib.Equal(key, search)
if err != nil {
return cty.NilVal, err
}
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if !eq.IsKnown() {
return cty.ListValEmpty(retType.ElementType()), nil
}
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if eq.True() {
v := values.Index(cty.NumberIntVal(int64(i)))
output = append(output, v)
break
}
}
i++
}
// if we haven't matched any key, then output is an empty list.
if len(output) == 0 {
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return cty.ListValEmpty(retType.ElementType()), nil
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}
return cty.ListVal(output), nil
},
})
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// MergeFunc contructs a function that takes an arbitrary number of maps and
// returns a single map that contains a merged set of elements from all of the maps.
//
// If more than one given map defines the same key then the one that is later in
// the argument sequence takes precedence.
var MergeFunc = function.New(&function.Spec{
Params: []function.Parameter{},
VarParam: &function.Parameter{
Name: "maps",
Type: cty.DynamicPseudoType,
AllowDynamicType: true,
AllowNull: true,
},
Type: function.StaticReturnType(cty.DynamicPseudoType),
Impl: func(args []cty.Value, retType cty.Type) (ret cty.Value, err error) {
outputMap := make(map[string]cty.Value)
for _, arg := range args {
if !arg.IsWhollyKnown() {
return cty.UnknownVal(retType), nil
}
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if !arg.Type().IsObjectType() && !arg.Type().IsMapType() {
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return cty.NilVal, fmt.Errorf("arguments must be maps or objects, got %#v", arg.Type().FriendlyName())
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}
for it := arg.ElementIterator(); it.Next(); {
k, v := it.Element()
outputMap[k.AsString()] = v
}
}
return cty.ObjectVal(outputMap), nil
},
})
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// SliceFunc contructs a function that extracts some consecutive elements
// from within a list.
var SliceFunc = function.New(&function.Spec{
Params: []function.Parameter{
{
Name: "list",
Type: cty.List(cty.DynamicPseudoType),
},
{
Name: "startIndex",
Type: cty.Number,
},
{
Name: "endIndex",
Type: cty.Number,
},
},
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Type: func(args []cty.Value) (cty.Type, error) {
return args[0].Type(), nil
},
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Impl: func(args []cty.Value, retType cty.Type) (ret cty.Value, err error) {
inputList := args[0]
if !inputList.IsWhollyKnown() {
return cty.UnknownVal(retType), nil
}
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var startIndex, endIndex int
if err = gocty.FromCtyValue(args[1], &startIndex); err != nil {
return cty.NilVal, fmt.Errorf("invalid start index: %s", err)
}
if err = gocty.FromCtyValue(args[2], &endIndex); err != nil {
return cty.NilVal, fmt.Errorf("invalid start index: %s", err)
}
if startIndex < 0 {
return cty.NilVal, fmt.Errorf("from index must be >= 0")
}
if endIndex > inputList.LengthInt() {
return cty.NilVal, fmt.Errorf("to index must be <= length of the input list")
}
if startIndex > endIndex {
return cty.NilVal, fmt.Errorf("from index must be <= to index")
}
var outputList []cty.Value
i := 0
for it := inputList.ElementIterator(); it.Next(); {
_, v := it.Element()
if i >= startIndex && i < endIndex {
outputList = append(outputList, v)
}
i++
}
if len(outputList) == 0 {
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return cty.ListValEmpty(retType.ElementType()), nil
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}
return cty.ListVal(outputList), nil
},
})
// TransposeFunc contructs a function that takes a map of lists of strings and
// swaps the keys and values to produce a new map of lists of strings.
var TransposeFunc = function.New(&function.Spec{
Params: []function.Parameter{
{
Name: "values",
Type: cty.Map(cty.List(cty.String)),
},
},
Type: function.StaticReturnType(cty.Map(cty.List(cty.String))),
Impl: func(args []cty.Value, retType cty.Type) (ret cty.Value, err error) {
inputMap := args[0]
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if !inputMap.IsWhollyKnown() {
return cty.UnknownVal(retType), nil
}
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outputMap := make(map[string]cty.Value)
tmpMap := make(map[string][]string)
for it := inputMap.ElementIterator(); it.Next(); {
inKey, inVal := it.Element()
for iter := inVal.ElementIterator(); iter.Next(); {
_, val := iter.Element()
if !val.Type().Equals(cty.String) {
return cty.MapValEmpty(cty.List(cty.String)), fmt.Errorf("input must be a map of lists of strings")
}
outKey := val.AsString()
if _, ok := tmpMap[outKey]; !ok {
tmpMap[outKey] = make([]string, 0)
}
outVal := tmpMap[outKey]
outVal = append(outVal, inKey.AsString())
sort.Strings(outVal)
tmpMap[outKey] = outVal
}
}
for outKey, outVal := range tmpMap {
values := make([]cty.Value, 0)
for _, v := range outVal {
values = append(values, cty.StringVal(v))
}
outputMap[outKey] = cty.ListVal(values)
}
return cty.MapVal(outputMap), nil
},
})
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// ValuesFunc contructs a function that returns a list of the map values,
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// in the order of the sorted keys.
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var ValuesFunc = function.New(&function.Spec{
Params: []function.Parameter{
{
Name: "values",
Type: cty.Map(cty.DynamicPseudoType),
},
},
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Type: func(args []cty.Value) (ret cty.Type, err error) {
return cty.List(args[0].Type().ElementType()), nil
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},
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Impl: func(args []cty.Value, retType cty.Type) (ret cty.Value, err error) {
mapVar := args[0]
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if mapVar.LengthInt() == 0 {
return cty.ListValEmpty(retType.ElementType()), nil
}
if !mapVar.IsWhollyKnown() {
return cty.UnknownVal(retType), nil
}
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keys, err := Keys(mapVar)
if err != nil {
return cty.NilVal, err
}
var values []cty.Value
for it := keys.ElementIterator(); it.Next(); {
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_, k := it.Element()
value := mapVar.Index(cty.StringVal(k.AsString()))
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values = append(values, value)
}
if len(values) == 0 {
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return cty.ListValEmpty(retType.ElementType()), nil
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}
return cty.ListVal(values), nil
},
})
// ZipmapFunc contructs a function that constructs a map from a list of keys
// and a corresponding list of values.
var ZipmapFunc = function.New(&function.Spec{
Params: []function.Parameter{
{
Name: "keys",
Type: cty.List(cty.String),
},
{
Name: "values",
Type: cty.List(cty.DynamicPseudoType),
},
},
Type: func(args []cty.Value) (ret cty.Type, err error) {
keys := args[0]
values := args[1]
if keys.LengthInt() == 0 {
return cty.Map(cty.DynamicPseudoType), nil
}
if keys.LengthInt() != values.LengthInt() {
return cty.NilType, fmt.Errorf("count of keys (%d) does not match count of values (%d)",
keys.LengthInt(), values.LengthInt())
}
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return cty.Map(values.Type().ElementType()), nil
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},
Impl: func(args []cty.Value, retType cty.Type) (ret cty.Value, err error) {
keys := args[0]
values := args[1]
if keys.LengthInt() == 0 {
return cty.MapValEmpty(cty.DynamicPseudoType), nil
}
output := make(map[string]cty.Value)
i := 0
for it := keys.ElementIterator(); it.Next(); {
_, v := it.Element()
val := values.Index(cty.NumberIntVal(int64(i)))
output[v.AsString()] = val
i++
}
return cty.MapVal(output), nil
},
})
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// helper function to add an element to a list, if it does not already exist
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func appendIfMissing(slice []cty.Value, element cty.Value) ([]cty.Value, error) {
for _, ele := range slice {
eq, err := stdlib.Equal(ele, element)
if err != nil {
return slice, err
}
if eq.True() {
return slice, nil
}
}
return append(slice, element), nil
}
// Element returns a single element from a given list at the given index. If
// index is greater than the length of the list then it is wrapped modulo
// the list length.
func Element(list, index cty.Value) (cty.Value, error) {
return ElementFunc.Call([]cty.Value{list, index})
}
// Length returns the number of elements in the given collection or number of
// Unicode characters in the given string.
func Length(collection cty.Value) (cty.Value, error) {
return LengthFunc.Call([]cty.Value{collection})
}
// CoalesceList takes any number of list arguments and returns the first one that isn't empty.
func CoalesceList(args ...cty.Value) (cty.Value, error) {
return CoalesceListFunc.Call(args)
}
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// Compact takes a list of strings and returns a new list
// with any empty string elements removed.
func Compact(list cty.Value) (cty.Value, error) {
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return CompactFunc.Call([]cty.Value{list})
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}
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// Contains determines whether a given list contains a given single value
// as one of its elements.
func Contains(list, value cty.Value) (cty.Value, error) {
return ContainsFunc.Call([]cty.Value{list, value})
}
// Index finds the element index for a given value in a list.
func Index(list, value cty.Value) (cty.Value, error) {
return IndexFunc.Call([]cty.Value{list, value})
}
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// Distinct takes a list and returns a new list with any duplicate elements removed.
func Distinct(list cty.Value) (cty.Value, error) {
return DistinctFunc.Call([]cty.Value{list})
}
// Chunklist splits a single list into fixed-size chunks, returning a list of lists.
func Chunklist(list, size cty.Value) (cty.Value, error) {
return ChunklistFunc.Call([]cty.Value{list, size})
}
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// Flatten takes a list and replaces any elements that are lists with a flattened
// sequence of the list contents.
func Flatten(list cty.Value) (cty.Value, error) {
return FlattenFunc.Call([]cty.Value{list})
}
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// Keys takes a map and returns a sorted list of the map keys.
func Keys(inputMap cty.Value) (cty.Value, error) {
return KeysFunc.Call([]cty.Value{inputMap})
}
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// List takes any number of list arguments and returns a list containing those
// values in the same order.
func List(args ...cty.Value) (cty.Value, error) {
return ListFunc.Call(args)
}
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// Lookup performs a dynamic lookup into a map.
// There are two required arguments, map and key, plus an optional default,
// which is a value to return if no key is found in map.
func Lookup(args ...cty.Value) (cty.Value, error) {
return LookupFunc.Call(args)
}
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// Map takes an even number of arguments and returns a map whose elements are constructed
// from consecutive pairs of arguments.
func Map(args ...cty.Value) (cty.Value, error) {
return MapFunc.Call(args)
}
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// Matchkeys constructs a new list by taking a subset of elements from one list
// whose indexes match the corresponding indexes of values in another list.
func Matchkeys(values, keys, searchset cty.Value) (cty.Value, error) {
return MatchkeysFunc.Call([]cty.Value{values, keys, searchset})
}
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// Merge takes an arbitrary number of maps and returns a single map that contains
// a merged set of elements from all of the maps.
//
// If more than one given map defines the same key then the one that is later in
// the argument sequence takes precedence.
func Merge(maps ...cty.Value) (cty.Value, error) {
return MergeFunc.Call(maps)
}
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// Slice extracts some consecutive elements from within a list.
func Slice(list, start, end cty.Value) (cty.Value, error) {
return SliceFunc.Call([]cty.Value{list, start, end})
}
// Transpose takes a map of lists of strings and swaps the keys and values to
// produce a new map of lists of strings.
func Transpose(values cty.Value) (cty.Value, error) {
return TransposeFunc.Call([]cty.Value{values})
}
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// Values returns a list of the map values, in the order of the sorted keys.
// This function only works on flat maps.
func Values(values cty.Value) (cty.Value, error) {
return ValuesFunc.Call([]cty.Value{values})
}
// Zipmap constructs a map from a list of keys and a corresponding list of values.
func Zipmap(keys, values cty.Value) (cty.Value, error) {
return ZipmapFunc.Call([]cty.Value{keys, values})
}