hcl/hclwrite/node.go
Martin Atkins c8c208e083 hclwrite: Body.SetAttributeValue
For now, this is the only way to set an attribute, and so attributes can
only be set to literal values.

Later this will be generalized so that this is just a helper wrapper
around a "SetAttribute" method that just uses a given expression, which
then helps by constructing the expression from the value first.
2018-08-09 08:44:48 -07:00

232 lines
4.6 KiB
Go

package hclwrite
import (
"fmt"
"github.com/google/go-cmp/cmp"
)
// node represents a node in the AST.
type node struct {
content nodeContent
list *nodes
before, after *node
}
func newNode(c nodeContent) *node {
return &node{
content: c,
}
}
func (n *node) Equal(other *node) bool {
return cmp.Equal(n.content, other.content)
}
func (n *node) BuildTokens(to Tokens) Tokens {
return n.content.BuildTokens(to)
}
// Detach removes the receiver from the list it currently belongs to. If the
// node is not currently in a list, this is a no-op.
func (n *node) Detach() {
if n.list == nil {
return
}
if n.before != nil {
n.before.after = n.after
}
if n.after != nil {
n.after.before = n.before
}
if n.list.first == n {
n.list.first = n.after
}
if n.list.last == n {
n.list.last = n.before
}
n.list = nil
n.before = nil
n.after = nil
}
// ReplaceWith removes the receiver from the list it currently belongs to and
// inserts a new node with the given content in its place. If the node is not
// currently in a list, this function will panic.
//
// The return value is the newly-constructed node, containing the given content.
// After this function returns, the reciever is no longer attached to a list.
func (n *node) ReplaceWith(c nodeContent) *node {
if n.list == nil {
panic("can't replace node that is not in a list")
}
before := n.before
after := n.after
list := n.list
n.before, n.after, n.list = nil, nil, nil
nn := newNode(c)
nn.before = before
nn.after = after
nn.list = list
if before != nil {
before.after = nn
}
if after != nil {
after.before = nn
}
return nn
}
func (n *node) assertUnattached() {
if n.list != nil {
panic(fmt.Sprintf("attempt to attach already-attached node %#v", n))
}
}
// nodeContent is the interface type implemented by all AST content types.
type nodeContent interface {
walkChildNodes(w internalWalkFunc)
BuildTokens(to Tokens) Tokens
}
// nodes is a list of nodes.
type nodes struct {
first, last *node
}
func (ns *nodes) BuildTokens(to Tokens) Tokens {
for n := ns.first; n != nil; n = n.after {
to = n.BuildTokens(to)
}
return to
}
func (ns *nodes) Append(c nodeContent) *node {
n := &node{
content: c,
}
ns.AppendNode(n)
n.list = ns
return n
}
func (ns *nodes) AppendNode(n *node) {
if ns.last != nil {
n.before = ns.last
ns.last.after = n
}
n.list = ns
ns.last = n
if ns.first == nil {
ns.first = n
}
}
func (ns *nodes) AppendUnstructuredTokens(tokens Tokens) *node {
if len(tokens) == 0 {
return nil
}
n := newNode(tokens)
ns.AppendNode(n)
n.list = ns
return n
}
// nodeSet is an unordered set of nodes. It is used to describe a set of nodes
// that all belong to the same list that have some role or characteristic
// in common.
type nodeSet map[*node]struct{}
func newNodeSet() nodeSet {
return make(nodeSet)
}
func (ns nodeSet) Has(n *node) bool {
if ns == nil {
return false
}
_, exists := ns[n]
return exists
}
func (ns nodeSet) Add(n *node) {
ns[n] = struct{}{}
}
func (ns nodeSet) Remove(n *node) {
delete(ns, n)
}
func (ns nodeSet) List() []*node {
if len(ns) == 0 {
return nil
}
ret := make([]*node, 0, len(ns))
// Determine which list we are working with. We assume here that all of
// the nodes belong to the same list, since that is part of the contract
// for nodeSet.
var list *nodes
for n := range ns {
list = n.list
break
}
// We recover the order by iterating over the whole list. This is not
// the most efficient way to do it, but our node lists should always be
// small so not worth making things more complex.
for n := list.first; n != nil; n = n.after {
if ns.Has(n) {
ret = append(ret, n)
}
}
return ret
}
type internalWalkFunc func(*node)
// inTree can be embedded into a content struct that has child nodes to get
// a standard implementation of the NodeContent interface and a record of
// a potential parent node.
type inTree struct {
parent *node
children *nodes
}
func newInTree() inTree {
return inTree{
children: &nodes{},
}
}
func (it *inTree) assertUnattached() {
if it.parent != nil {
panic(fmt.Sprintf("node is already attached to %T", it.parent.content))
}
}
func (it *inTree) walkChildNodes(w internalWalkFunc) {
for n := it.children.first; n != nil; n = n.after {
w(n)
}
}
func (it *inTree) BuildTokens(to Tokens) Tokens {
for n := it.children.first; n != nil; n = n.after {
to = n.BuildTokens(to)
}
return to
}
// leafNode can be embedded into a content struct to give it a do-nothing
// implementation of walkChildNodes
type leafNode struct {
}
func (n *leafNode) walkChildNodes(w internalWalkFunc) {
}