178 lines
4.8 KiB
Go
178 lines
4.8 KiB
Go
package hclwrite
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import (
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"github.com/hashicorp/hcl/v2/hclsyntax"
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"github.com/zclconf/go-cty/cty"
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)
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type Block struct {
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inTree
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leadComments *node
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typeName *node
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labels *node
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open *node
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body *node
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close *node
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}
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func newBlock() *Block {
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return &Block{
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inTree: newInTree(),
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}
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}
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// NewBlock constructs a new, empty block with the given type name and labels.
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func NewBlock(typeName string, labels []string) *Block {
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block := newBlock()
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block.init(typeName, labels)
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return block
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}
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func (b *Block) init(typeName string, labels []string) {
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nameTok := newIdentToken(typeName)
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nameObj := newIdentifier(nameTok)
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b.leadComments = b.children.Append(newComments(nil))
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b.typeName = b.children.Append(nameObj)
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labelsObj := newBlockLabels(labels)
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b.labels = b.children.Append(labelsObj)
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b.open = b.children.AppendUnstructuredTokens(Tokens{
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{
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Type: hclsyntax.TokenOBrace,
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Bytes: []byte{'{'},
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},
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{
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Type: hclsyntax.TokenNewline,
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Bytes: []byte{'\n'},
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},
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})
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body := newBody() // initially totally empty; caller can append to it subsequently
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b.body = b.children.Append(body)
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b.close = b.children.AppendUnstructuredTokens(Tokens{
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{
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Type: hclsyntax.TokenCBrace,
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Bytes: []byte{'}'},
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},
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{
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Type: hclsyntax.TokenNewline,
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Bytes: []byte{'\n'},
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},
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})
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}
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// Body returns the body that represents the content of the receiving block.
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//
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// Appending to or otherwise modifying this body will make changes to the
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// tokens that are generated between the blocks open and close braces.
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func (b *Block) Body() *Body {
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return b.body.content.(*Body)
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}
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// Type returns the type name of the block.
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func (b *Block) Type() string {
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typeNameObj := b.typeName.content.(*identifier)
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return string(typeNameObj.token.Bytes)
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}
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// SetType updates the type name of the block to a given name.
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func (b *Block) SetType(typeName string) {
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nameTok := newIdentToken(typeName)
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nameObj := newIdentifier(nameTok)
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b.typeName.ReplaceWith(nameObj)
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}
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// Labels returns the labels of the block.
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func (b *Block) Labels() []string {
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return b.labelsObj().Current()
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}
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// SetLabels updates the labels of the block to given labels.
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// Since we cannot assume that old and new labels are equal in length,
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// remove old labels and insert new ones before TokenOBrace.
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func (b *Block) SetLabels(labels []string) {
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b.labelsObj().Replace(labels)
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}
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// labelsObj returns the internal node content representation of the block
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// labels. This is not part of the public API because we're intentionally
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// exposing only a limited API to get/set labels on the block itself in a
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// manner similar to the main hcl.Block type, but our block accessors all
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// use this to get the underlying node content to work with.
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func (b *Block) labelsObj() *blockLabels {
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return b.labels.content.(*blockLabels)
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}
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type blockLabels struct {
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inTree
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items nodeSet
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}
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func newBlockLabels(labels []string) *blockLabels {
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ret := &blockLabels{
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inTree: newInTree(),
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items: newNodeSet(),
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}
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ret.Replace(labels)
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return ret
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}
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func (bl *blockLabels) Replace(newLabels []string) {
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bl.inTree.children.Clear()
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bl.items.Clear()
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for _, label := range newLabels {
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labelToks := TokensForValue(cty.StringVal(label))
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// Force a new label to use the quoted form, which is the idiomatic
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// form. The unquoted form is supported in HCL 2 only for compatibility
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// with historical use in HCL 1.
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labelObj := newQuoted(labelToks)
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labelNode := bl.children.Append(labelObj)
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bl.items.Add(labelNode)
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}
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}
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func (bl *blockLabels) Current() []string {
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labelNames := make([]string, 0, len(bl.items))
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list := bl.items.List()
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for _, label := range list {
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switch labelObj := label.content.(type) {
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case *identifier:
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if labelObj.token.Type == hclsyntax.TokenIdent {
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labelString := string(labelObj.token.Bytes)
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labelNames = append(labelNames, labelString)
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}
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case *quoted:
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tokens := labelObj.tokens
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if len(tokens) == 3 &&
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tokens[0].Type == hclsyntax.TokenOQuote &&
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tokens[1].Type == hclsyntax.TokenQuotedLit &&
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tokens[2].Type == hclsyntax.TokenCQuote {
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// Note that TokenQuotedLit may contain escape sequences.
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labelString, diags := hclsyntax.ParseStringLiteralToken(tokens[1].asHCLSyntax())
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// If parsing the string literal returns error diagnostics
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// then we can just assume the label doesn't match, because it's invalid in some way.
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if !diags.HasErrors() {
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labelNames = append(labelNames, labelString)
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}
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} else if len(tokens) == 2 &&
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tokens[0].Type == hclsyntax.TokenOQuote &&
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tokens[1].Type == hclsyntax.TokenCQuote {
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// An open quote followed immediately by a closing quote is a
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// valid but unusual blank string label.
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labelNames = append(labelNames, "")
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}
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default:
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// If neither of the previous cases are true (should be impossible)
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// then we can just ignore it, because it's invalid too.
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}
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}
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return labelNames
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}
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