219 lines
6.6 KiB
Go
219 lines
6.6 KiB
Go
package outline
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import (
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"go/ast"
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"go/token"
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"strconv"
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)
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const (
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// undefinedTextAlt is used if the spec/container text cannot be derived
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undefinedTextAlt = "undefined"
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)
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// ginkgoMetadata holds useful bits of information for every entry in the outline
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type ginkgoMetadata struct {
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// Name is the spec or container function name, e.g. `Describe` or `It`
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Name string `json:"name"`
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// Text is the `text` argument passed to specs, and some containers
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Text string `json:"text"`
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// Start is the position of first character of the spec or container block
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Start int `json:"start"`
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// End is the position of first character immediately after the spec or container block
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End int `json:"end"`
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Spec bool `json:"spec"`
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Focused bool `json:"focused"`
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Pending bool `json:"pending"`
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}
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// ginkgoNode is used to construct the outline as a tree
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type ginkgoNode struct {
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ginkgoMetadata
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Nodes []*ginkgoNode `json:"nodes"`
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}
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type walkFunc func(n *ginkgoNode)
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func (n *ginkgoNode) PreOrder(f walkFunc) {
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f(n)
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for _, m := range n.Nodes {
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m.PreOrder(f)
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}
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}
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func (n *ginkgoNode) PostOrder(f walkFunc) {
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for _, m := range n.Nodes {
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m.PostOrder(f)
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}
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f(n)
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}
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func (n *ginkgoNode) Walk(pre, post walkFunc) {
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pre(n)
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for _, m := range n.Nodes {
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m.Walk(pre, post)
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}
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post(n)
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}
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// PropagateInheritedProperties propagates the Pending and Focused properties
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// through the subtree rooted at n.
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func (n *ginkgoNode) PropagateInheritedProperties() {
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n.PreOrder(func(thisNode *ginkgoNode) {
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for _, descendantNode := range thisNode.Nodes {
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if thisNode.Pending {
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descendantNode.Pending = true
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descendantNode.Focused = false
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}
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if thisNode.Focused && !descendantNode.Pending {
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descendantNode.Focused = true
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}
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}
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})
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}
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// BackpropagateUnfocus propagates the Focused property through the subtree
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// rooted at n. It applies the rule described in the Ginkgo docs:
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// > Nested programmatically focused specs follow a simple rule: if a
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// > leaf-node is marked focused, any of its ancestor nodes that are marked
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// > focus will be unfocused.
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func (n *ginkgoNode) BackpropagateUnfocus() {
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focusedSpecInSubtreeStack := []bool{}
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n.PostOrder(func(thisNode *ginkgoNode) {
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if thisNode.Spec {
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focusedSpecInSubtreeStack = append(focusedSpecInSubtreeStack, thisNode.Focused)
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return
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}
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focusedSpecInSubtree := false
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for range thisNode.Nodes {
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focusedSpecInSubtree = focusedSpecInSubtree || focusedSpecInSubtreeStack[len(focusedSpecInSubtreeStack)-1]
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focusedSpecInSubtreeStack = focusedSpecInSubtreeStack[0 : len(focusedSpecInSubtreeStack)-1]
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}
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focusedSpecInSubtreeStack = append(focusedSpecInSubtreeStack, focusedSpecInSubtree)
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if focusedSpecInSubtree {
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thisNode.Focused = false
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}
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})
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}
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func packageAndIdentNamesFromCallExpr(ce *ast.CallExpr) (string, string, bool) {
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switch ex := ce.Fun.(type) {
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case *ast.Ident:
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return "", ex.Name, true
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case *ast.SelectorExpr:
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pkgID, ok := ex.X.(*ast.Ident)
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if !ok {
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return "", "", false
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}
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// A package identifier is top-level, so Obj must be nil
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if pkgID.Obj != nil {
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return "", "", false
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}
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if ex.Sel == nil {
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return "", "", false
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}
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return pkgID.Name, ex.Sel.Name, true
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default:
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return "", "", false
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}
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}
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// absoluteOffsetsForNode derives the absolute character offsets of the node start and
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// end positions.
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func absoluteOffsetsForNode(fset *token.FileSet, n ast.Node) (start, end int) {
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return fset.PositionFor(n.Pos(), false).Offset, fset.PositionFor(n.End(), false).Offset
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}
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// ginkgoNodeFromCallExpr derives an outline entry from a go AST subtree
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// corresponding to a Ginkgo container or spec.
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func ginkgoNodeFromCallExpr(fset *token.FileSet, ce *ast.CallExpr, ginkgoPackageName *string) (*ginkgoNode, bool) {
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packageName, identName, ok := packageAndIdentNamesFromCallExpr(ce)
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if !ok {
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return nil, false
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}
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n := ginkgoNode{}
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n.Name = identName
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n.Start, n.End = absoluteOffsetsForNode(fset, ce)
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n.Nodes = make([]*ginkgoNode, 0)
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switch identName {
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case "It", "Specify", "Entry":
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n.Spec = true
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n.Text = textOrAltFromCallExpr(ce, undefinedTextAlt)
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return &n, ginkgoPackageName != nil && *ginkgoPackageName == packageName
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case "FIt", "FSpecify", "FEntry":
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n.Spec = true
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n.Focused = true
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n.Text = textOrAltFromCallExpr(ce, undefinedTextAlt)
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return &n, ginkgoPackageName != nil && *ginkgoPackageName == packageName
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case "PIt", "PSpecify", "XIt", "XSpecify", "PEntry", "XEntry":
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n.Spec = true
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n.Pending = true
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n.Text = textOrAltFromCallExpr(ce, undefinedTextAlt)
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return &n, ginkgoPackageName != nil && *ginkgoPackageName == packageName
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case "Context", "Describe", "When", "DescribeTable":
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n.Text = textOrAltFromCallExpr(ce, undefinedTextAlt)
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return &n, ginkgoPackageName != nil && *ginkgoPackageName == packageName
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case "FContext", "FDescribe", "FWhen", "FDescribeTable":
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n.Focused = true
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n.Text = textOrAltFromCallExpr(ce, undefinedTextAlt)
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return &n, ginkgoPackageName != nil && *ginkgoPackageName == packageName
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case "PContext", "PDescribe", "PWhen", "XContext", "XDescribe", "XWhen", "PDescribeTable", "XDescribeTable":
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n.Pending = true
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n.Text = textOrAltFromCallExpr(ce, undefinedTextAlt)
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return &n, ginkgoPackageName != nil && *ginkgoPackageName == packageName
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case "By":
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n.Text = textOrAltFromCallExpr(ce, undefinedTextAlt)
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return &n, ginkgoPackageName != nil && *ginkgoPackageName == packageName
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case "AfterEach", "BeforeEach":
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return &n, ginkgoPackageName != nil && *ginkgoPackageName == packageName
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case "JustAfterEach", "JustBeforeEach":
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return &n, ginkgoPackageName != nil && *ginkgoPackageName == packageName
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case "AfterSuite", "BeforeSuite":
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return &n, ginkgoPackageName != nil && *ginkgoPackageName == packageName
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case "SynchronizedAfterSuite", "SynchronizedBeforeSuite":
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return &n, ginkgoPackageName != nil && *ginkgoPackageName == packageName
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default:
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return nil, false
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}
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}
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// textOrAltFromCallExpr tries to derive the "text" of a Ginkgo spec or
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// container. If it cannot derive it, it returns the alt text.
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func textOrAltFromCallExpr(ce *ast.CallExpr, alt string) string {
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text, defined := textFromCallExpr(ce)
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if !defined {
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return alt
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}
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return text
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}
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// textFromCallExpr tries to derive the "text" of a Ginkgo spec or container. If
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// it cannot derive it, it returns false.
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func textFromCallExpr(ce *ast.CallExpr) (string, bool) {
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if len(ce.Args) < 1 {
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return "", false
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}
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text, ok := ce.Args[0].(*ast.BasicLit)
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if !ok {
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return "", false
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}
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switch text.Kind {
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case token.CHAR, token.STRING:
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// For token.CHAR and token.STRING, Value is quoted
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unquoted, err := strconv.Unquote(text.Value)
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if err != nil {
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// If unquoting fails, just use the raw Value
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return text.Value, true
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}
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return unquoted, true
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default:
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return text.Value, true
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}
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}
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