mirror of
https://github.com/opentofu/opentofu.git
synced 2024-12-28 01:41:48 -06:00
286 lines
6.2 KiB
Go
286 lines
6.2 KiB
Go
// Copyright (c) HashiCorp, Inc.
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// SPDX-License-Identifier: MPL-2.0
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package dag
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import (
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"bytes"
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"fmt"
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"sort"
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"strings"
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)
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// DotOpts are the options for generating a dot formatted Graph.
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type DotOpts struct {
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// Allows some nodes to decide to only show themselves when the user has
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// requested the "verbose" graph.
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Verbose bool
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// Highlight Cycles
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DrawCycles bool
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// How many levels to expand modules as we draw
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MaxDepth int
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// use this to keep the cluster_ naming convention from the previous dot writer
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cluster bool
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}
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// GraphNodeDotter can be implemented by a node to cause it to be included
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// in the dot graph. The Dot method will be called which is expected to
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// return a representation of this node.
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type GraphNodeDotter interface {
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// Dot is called to return the dot formatting for the node.
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// The first parameter is the title of the node.
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// The second parameter includes user-specified options that affect the dot
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// graph. See GraphDotOpts below for details.
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DotNode(string, *DotOpts) *DotNode
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}
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// DotNode provides a structure for Vertices to return in order to specify their
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// dot format.
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type DotNode struct {
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Name string
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Attrs map[string]string
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}
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// Returns the DOT representation of this Graph.
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func (g *marshalGraph) Dot(opts *DotOpts) []byte {
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if opts == nil {
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opts = &DotOpts{
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DrawCycles: true,
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MaxDepth: -1,
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Verbose: true,
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}
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}
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var w indentWriter
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w.WriteString("digraph {\n")
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w.Indent()
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// some dot defaults
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w.WriteString(`compound = "true"` + "\n")
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w.WriteString(`newrank = "true"` + "\n")
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// the top level graph is written as the first subgraph
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w.WriteString(`subgraph "root" {` + "\n")
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g.writeBody(opts, &w)
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// cluster isn't really used other than for naming purposes in some graphs
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opts.cluster = opts.MaxDepth != 0
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maxDepth := opts.MaxDepth
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if maxDepth == 0 {
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maxDepth = -1
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}
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for _, s := range g.Subgraphs {
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g.writeSubgraph(s, opts, maxDepth, &w)
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}
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w.Unindent()
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w.WriteString("}\n")
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return w.Bytes()
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}
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func (v *marshalVertex) dot(g *marshalGraph, opts *DotOpts) []byte {
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var buf bytes.Buffer
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graphName := g.Name
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if graphName == "" {
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graphName = "root"
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}
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name := v.Name
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attrs := v.Attrs
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if v.graphNodeDotter != nil {
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node := v.graphNodeDotter.DotNode(name, opts)
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if node == nil {
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return []byte{}
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}
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newAttrs := make(map[string]string)
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for k, v := range attrs {
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newAttrs[k] = v
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}
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for k, v := range node.Attrs {
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newAttrs[k] = v
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}
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name = node.Name
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attrs = newAttrs
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}
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buf.WriteString(fmt.Sprintf(`"[%s] %s"`, graphName, name))
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writeAttrs(&buf, attrs)
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buf.WriteByte('\n')
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return buf.Bytes()
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}
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func (e *marshalEdge) dot(g *marshalGraph) string {
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var buf bytes.Buffer
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graphName := g.Name
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if graphName == "" {
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graphName = "root"
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}
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sourceName := g.vertexByID(e.Source).Name
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targetName := g.vertexByID(e.Target).Name
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s := fmt.Sprintf(`"[%s] %s" -> "[%s] %s"`, graphName, sourceName, graphName, targetName)
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buf.WriteString(s)
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writeAttrs(&buf, e.Attrs)
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return buf.String()
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}
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func cycleDot(e *marshalEdge, g *marshalGraph) string {
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return e.dot(g) + ` [color = "red", penwidth = "2.0"]`
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}
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// Write the subgraph body. The is recursive, and the depth argument is used to
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// record the current depth of iteration.
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func (g *marshalGraph) writeSubgraph(sg *marshalGraph, opts *DotOpts, depth int, w *indentWriter) {
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if depth == 0 {
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return
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}
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depth--
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name := sg.Name
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if opts.cluster {
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// we prefix with cluster_ to match the old dot output
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name = "cluster_" + name
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sg.Attrs["label"] = sg.Name
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}
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w.WriteString(fmt.Sprintf("subgraph %q {\n", name))
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sg.writeBody(opts, w)
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for _, sg := range sg.Subgraphs {
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g.writeSubgraph(sg, opts, depth, w)
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}
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}
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func (g *marshalGraph) writeBody(opts *DotOpts, w *indentWriter) {
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w.Indent()
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for _, as := range attrStrings(g.Attrs) {
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w.WriteString(as + "\n")
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}
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// list of Vertices that aren't to be included in the dot output
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skip := map[string]bool{}
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for _, v := range g.Vertices {
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if v.graphNodeDotter == nil {
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skip[v.ID] = true
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continue
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}
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w.Write(v.dot(g, opts))
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}
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var dotEdges []string
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if opts.DrawCycles {
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for _, c := range g.Cycles {
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if len(c) < 2 {
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continue
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}
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for i, j := 0, 1; i < len(c); i, j = i+1, j+1 {
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if j >= len(c) {
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j = 0
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}
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src := c[i]
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tgt := c[j]
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if skip[src.ID] || skip[tgt.ID] {
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continue
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}
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e := &marshalEdge{
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Name: fmt.Sprintf("%s|%s", src.Name, tgt.Name),
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Source: src.ID,
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Target: tgt.ID,
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Attrs: make(map[string]string),
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}
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dotEdges = append(dotEdges, cycleDot(e, g))
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src = tgt
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}
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}
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}
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for _, e := range g.Edges {
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dotEdges = append(dotEdges, e.dot(g))
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}
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// srot these again to match the old output
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sort.Strings(dotEdges)
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for _, e := range dotEdges {
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w.WriteString(e + "\n")
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}
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w.Unindent()
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w.WriteString("}\n")
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}
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func writeAttrs(buf *bytes.Buffer, attrs map[string]string) {
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if len(attrs) > 0 {
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buf.WriteString(" [")
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buf.WriteString(strings.Join(attrStrings(attrs), ", "))
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buf.WriteString("]")
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}
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}
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func attrStrings(attrs map[string]string) []string {
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strings := make([]string, 0, len(attrs))
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for k, v := range attrs {
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strings = append(strings, fmt.Sprintf("%s = %q", k, v))
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}
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sort.Strings(strings)
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return strings
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}
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// Provide a bytes.Buffer like structure, which will indent when starting a
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// newline.
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type indentWriter struct {
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bytes.Buffer
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level int
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}
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func (w *indentWriter) indent() {
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newline := []byte("\n")
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if !bytes.HasSuffix(w.Bytes(), newline) {
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return
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}
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for i := 0; i < w.level; i++ {
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w.Buffer.WriteString("\t")
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}
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}
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// Indent increases indentation by 1
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func (w *indentWriter) Indent() { w.level++ }
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// Unindent decreases indentation by 1
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func (w *indentWriter) Unindent() { w.level-- }
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// the following methods intercecpt the byte.Buffer writes and insert the
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// indentation when starting a new line.
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func (w *indentWriter) Write(b []byte) (int, error) {
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w.indent()
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return w.Buffer.Write(b)
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}
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func (w *indentWriter) WriteString(s string) (int, error) {
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w.indent()
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return w.Buffer.WriteString(s)
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}
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func (w *indentWriter) WriteByte(b byte) error {
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w.indent()
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return w.Buffer.WriteByte(b)
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}
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func (w *indentWriter) WriteRune(r rune) (int, error) {
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w.indent()
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return w.Buffer.WriteRune(r)
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}
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