vendor/github.com/google/go-cmp/cmp/report_text.go - cloudstack-kubernetes-provider - Git at Google

 // Copyright 2019, The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE.md file.

 package cmp

 import (
 	"bytes"
 	"fmt"
 	"math/rand"
 	"strings"
 	"time"

 	"github.com/google/go-cmp/cmp/internal/flags"
 )

 var randBool = rand.New(rand.NewSource(time.Now().Unix())).Intn(2) == 0

 type indentMode int

 func (n indentMode) appendIndent(b []byte, d diffMode) []byte {
 	if flags.Deterministic || randBool {
 		// Use regular spaces (U+0020).
 		switch d {
 		case diffUnknown, diffIdentical:
 			b = append(b, "  "...)
 		case diffRemoved:
 			b = append(b, "- "...)
 		case diffInserted:
 			b = append(b, "+ "...)
 		}
 	} else {
 		// Use non-breaking spaces (U+00a0).
 		switch d {
 		case diffUnknown, diffIdentical:
 			b = append(b, "  "...)
 		case diffRemoved:
 			b = append(b, "- "...)
 		case diffInserted:
 			b = append(b, "+ "...)
 		}
 	}
 	return repeatCount(n).appendChar(b, '\t')
 }

 type repeatCount int

 func (n repeatCount) appendChar(b []byte, c byte) []byte {
 	for ; n > 0; n-- {
 		b = append(b, c)
 	}
 	return b
 }

 // textNode is a simplified tree-based representation of structured text.
 // Possible node types are textWrap, textList, or textLine.
 type textNode interface {
 	// Len reports the length in bytes of a single-line version of the tree.
 	// Nested textRecord.Diff and textRecord.Comment fields are ignored.
 	Len() int
 	// Equal reports whether the two trees are structurally identical.
 	// Nested textRecord.Diff and textRecord.Comment fields are compared.
 	Equal(textNode) bool
 	// String returns the string representation of the text tree.
 	// It is not guaranteed that len(x.String()) == x.Len(),
 	// nor that x.String() == y.String() implies that x.Equal(y).
 	String() string

 	// formatCompactTo formats the contents of the tree as a single-line string
 	// to the provided buffer. Any nested textRecord.Diff and textRecord.Comment
 	// fields are ignored.
 	//
 	// However, not all nodes in the tree should be collapsed as a single-line.
 	// If a node can be collapsed as a single-line, it is replaced by a textLine
 	// node. Since the top-level node cannot replace itself, this also returns
 	// the current node itself.
 	//
 	// This does not mutate the receiver.
 	formatCompactTo([]byte, diffMode) ([]byte, textNode)
 	// formatExpandedTo formats the contents of the tree as a multi-line string
 	// to the provided buffer. In order for column alignment to operate well,
 	// formatCompactTo must be called before calling formatExpandedTo.
 	formatExpandedTo([]byte, diffMode, indentMode) []byte
 }

 // textWrap is a wrapper that concatenates a prefix and/or a suffix
 // to the underlying node.
 type textWrap struct {
 	Prefix string   // e.g., "bytes.Buffer{"
 	Value  textNode // textWrap | textList | textLine
 	Suffix string   // e.g., "}"
 }

 func (s textWrap) Len() int {
 	return len(s.Prefix) + s.Value.Len() + len(s.Suffix)
 }
 func (s1 textWrap) Equal(s2 textNode) bool {
 	if s2, ok := s2.(textWrap); ok {
 		return s1.Prefix == s2.Prefix && s1.Value.Equal(s2.Value) && s1.Suffix == s2.Suffix
 	}
 	return false
 }
 func (s textWrap) String() string {
 	var d diffMode
 	var n indentMode
 	_, s2 := s.formatCompactTo(nil, d)
 	b := n.appendIndent(nil, d)      // Leading indent
 	b = s2.formatExpandedTo(b, d, n) // Main body
 	b = append(b, '\n')              // Trailing newline
 	return string(b)
 }
 func (s textWrap) formatCompactTo(b []byte, d diffMode) ([]byte, textNode) {
 	n0 := len(b) // Original buffer length
 	b = append(b, s.Prefix...)
 	b, s.Value = s.Value.formatCompactTo(b, d)
 	b = append(b, s.Suffix...)
 	if _, ok := s.Value.(textLine); ok {
 		return b, textLine(b[n0:])
 	}
 	return b, s
 }
 func (s textWrap) formatExpandedTo(b []byte, d diffMode, n indentMode) []byte {
 	b = append(b, s.Prefix...)
 	b = s.Value.formatExpandedTo(b, d, n)
 	b = append(b, s.Suffix...)
 	return b
 }

 // textList is a comma-separated list of textWrap or textLine nodes.
 // The list may be formatted as multi-lines or single-line at the discretion
 // of the textList.formatCompactTo method.
 type textList []textRecord
 type textRecord struct {
 	Diff    diffMode     // e.g., 0 or '-' or '+'
 	Key     string       // e.g., "MyField"
 	Value   textNode     // textWrap | textLine
 	Comment fmt.Stringer // e.g., "6 identical fields"
 }

 // AppendEllipsis appends a new ellipsis node to the list if none already
 // exists at the end. If cs is non-zero it coalesces the statistics with the
 // previous diffStats.
 func (s *textList) AppendEllipsis(ds diffStats) {
 	hasStats := ds != diffStats{}
 	if len(*s) == 0 || !(*s)[len(*s)-1].Value.Equal(textEllipsis) {
 		if hasStats {
 			*s = append(*s, textRecord{Value: textEllipsis, Comment: ds})
 		} else {
 			*s = append(*s, textRecord{Value: textEllipsis})
 		}
 		return
 	}
 	if hasStats {
 		(*s)[len(*s)-1].Comment = (*s)[len(*s)-1].Comment.(diffStats).Append(ds)
 	}
 }

 func (s textList) Len() (n int) {
 	for i, r := range s {
 		n += len(r.Key)
 		if r.Key != "" {
 			n += len(": ")
 		}
 		n += r.Value.Len()
 		if i < len(s)-1 {
 			n += len(", ")
 		}
 	}
 	return n
 }

 func (s1 textList) Equal(s2 textNode) bool {
 	if s2, ok := s2.(textList); ok {
 		if len(s1) != len(s2) {
 			return false
 		}
 		for i := range s1 {
 			r1, r2 := s1[i], s2[i]
 			if !(r1.Diff == r2.Diff && r1.Key == r2.Key && r1.Value.Equal(r2.Value) && r1.Comment == r2.Comment) {
 				return false
 			}
 		}
 		return true
 	}
 	return false
 }

 func (s textList) String() string {
 	return textWrap{"{", s, "}"}.String()
 }

 func (s textList) formatCompactTo(b []byte, d diffMode) ([]byte, textNode) {
 	s = append(textList(nil), s...) // Avoid mutating original

 	// Determine whether we can collapse this list as a single line.
 	n0 := len(b) // Original buffer length
 	var multiLine bool
 	for i, r := range s {
 		if r.Diff == diffInserted || r.Diff == diffRemoved {
 			multiLine = true
 		}
 		b = append(b, r.Key...)
 		if r.Key != "" {
 			b = append(b, ": "...)
 		}
 		b, s[i].Value = r.Value.formatCompactTo(b, d|r.Diff)
 		if _, ok := s[i].Value.(textLine); !ok {
 			multiLine = true
 		}
 		if r.Comment != nil {
 			multiLine = true
 		}
 		if i < len(s)-1 {
 			b = append(b, ", "...)
 		}
 	}
 	// Force multi-lined output when printing a removed/inserted node that
 	// is sufficiently long.
 	if (d == diffInserted || d == diffRemoved) && len(b[n0:]) > 80 {
 		multiLine = true
 	}
 	if !multiLine {
 		return b, textLine(b[n0:])
 	}
 	return b, s
 }

 func (s textList) formatExpandedTo(b []byte, d diffMode, n indentMode) []byte {
 	alignKeyLens := s.alignLens(
 		func(r textRecord) bool {
 			_, isLine := r.Value.(textLine)
 			return r.Key == "" || !isLine
 		},
 		func(r textRecord) int { return len(r.Key) },
 	)
 	alignValueLens := s.alignLens(
 		func(r textRecord) bool {
 			_, isLine := r.Value.(textLine)
 			return !isLine || r.Value.Equal(textEllipsis) || r.Comment == nil
 		},
 		func(r textRecord) int { return len(r.Value.(textLine)) },
 	)

 	// Format the list as a multi-lined output.
 	n++
 	for i, r := range s {
 		b = n.appendIndent(append(b, '\n'), d|r.Diff)
 		if r.Key != "" {
 			b = append(b, r.Key+": "...)
 		}
 		b = alignKeyLens[i].appendChar(b, ' ')

 		b = r.Value.formatExpandedTo(b, d|r.Diff, n)
 		if !r.Value.Equal(textEllipsis) {
 			b = append(b, ',')
 		}
 		b = alignValueLens[i].appendChar(b, ' ')

 		if r.Comment != nil {
 			b = append(b, " // "+r.Comment.String()...)
 		}
 	}
 	n--

 	return n.appendIndent(append(b, '\n'), d)
 }

 func (s textList) alignLens(
 	skipFunc func(textRecord) bool,
 	lenFunc func(textRecord) int,
 ) []repeatCount {
 	var startIdx, endIdx, maxLen int
 	lens := make([]repeatCount, len(s))
 	for i, r := range s {
 		if skipFunc(r) {
 			for j := startIdx; j < endIdx && j < len(s); j++ {
 				lens[j] = repeatCount(maxLen - lenFunc(s[j]))
 			}
 			startIdx, endIdx, maxLen = i+1, i+1, 0
 		} else {
 			if maxLen < lenFunc(r) {
 				maxLen = lenFunc(r)
 			}
 			endIdx = i + 1
 		}
 	}
 	for j := startIdx; j < endIdx && j < len(s); j++ {
 		lens[j] = repeatCount(maxLen - lenFunc(s[j]))
 	}
 	return lens
 }

 // textLine is a single-line segment of text and is always a leaf node
 // in the textNode tree.
 type textLine []byte

 var (
 	textNil      = textLine("nil")
 	textEllipsis = textLine("...")
 )

 func (s textLine) Len() int {
 	return len(s)
 }
 func (s1 textLine) Equal(s2 textNode) bool {
 	if s2, ok := s2.(textLine); ok {
 		return bytes.Equal([]byte(s1), []byte(s2))
 	}
 	return false
 }
 func (s textLine) String() string {
 	return string(s)
 }
 func (s textLine) formatCompactTo(b []byte, d diffMode) ([]byte, textNode) {
 	return append(b, s...), s
 }
 func (s textLine) formatExpandedTo(b []byte, _ diffMode, _ indentMode) []byte {
 	return append(b, s...)
 }

 type diffStats struct {
 	Name         string
 	NumIgnored   int
 	NumIdentical int
 	NumRemoved   int
 	NumInserted  int
 	NumModified  int
 }

 func (s diffStats) NumDiff() int {
 	return s.NumRemoved + s.NumInserted + s.NumModified
 }

 func (s diffStats) Append(ds diffStats) diffStats {
 	assert(s.Name == ds.Name)
 	s.NumIgnored += ds.NumIgnored
 	s.NumIdentical += ds.NumIdentical
 	s.NumRemoved += ds.NumRemoved
 	s.NumInserted += ds.NumInserted
 	s.NumModified += ds.NumModified
 	return s
 }

 // String prints a humanly-readable summary of coalesced records.
 //
 // Example:
 //	diffStats{Name: "Field", NumIgnored: 5}.String() => "5 ignored fields"
 func (s diffStats) String() string {
 	var ss []string
 	var sum int
 	labels := [...]string{"ignored", "identical", "removed", "inserted", "modified"}
 	counts := [...]int{s.NumIgnored, s.NumIdentical, s.NumRemoved, s.NumInserted, s.NumModified}
 	for i, n := range counts {
 		if n > 0 {
 			ss = append(ss, fmt.Sprintf("%d %v", n, labels[i]))
 		}
 		sum += n
 	}

 	// Pluralize the name (adjusting for some obscure English grammar rules).
 	name := s.Name
 	if sum > 1 {
 		name = name + "s"
 		if strings.HasSuffix(name, "ys") {
 			name = name[:len(name)-2] + "ies" // e.g., "entrys" => "entries"
 		}
 	}

 	// Format the list according to English grammar (with Oxford comma).
 	switch n := len(ss); n {
 	case 0:
 		return ""
 	case 1, 2:
 		return strings.Join(ss, " and ") + " " + name
 	default:
 		return strings.Join(ss[:n-1], ", ") + ", and " + ss[n-1] + " " + name
 	}
 }

 type commentString string

 func (s commentString) String() string { return string(s) }
	// Copyright 2019, The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE.md file.

	package cmp

	import (
	"bytes"
	"fmt"
	"math/rand"
	"strings"
	"time"

	"github.com/google/go-cmp/cmp/internal/flags"
	)

	var randBool = rand.New(rand.NewSource(time.Now().Unix())).Intn(2) == 0

	type indentMode int

	func (n indentMode) appendIndent(b []byte, d diffMode) []byte {
	if flags.Deterministic \|\| randBool {
	// Use regular spaces (U+0020).
	switch d {
	case diffUnknown, diffIdentical:
	b = append(b, " "...)
	case diffRemoved:
	b = append(b, "- "...)
	case diffInserted:
	b = append(b, "+ "...)
	}
	} else {
	// Use non-breaking spaces (U+00a0).
	switch d {
	case diffUnknown, diffIdentical:
	b = append(b, " "...)
	case diffRemoved:
	b = append(b, "- "...)
	case diffInserted:
	b = append(b, "+ "...)
	}
	}
	return repeatCount(n).appendChar(b, '\t')
	}

	type repeatCount int

	func (n repeatCount) appendChar(b []byte, c byte) []byte {
	for ; n > 0; n-- {
	b = append(b, c)
	}
	return b
	}

	// textNode is a simplified tree-based representation of structured text.
	// Possible node types are textWrap, textList, or textLine.
	type textNode interface {
	// Len reports the length in bytes of a single-line version of the tree.
	// Nested textRecord.Diff and textRecord.Comment fields are ignored.
	Len() int
	// Equal reports whether the two trees are structurally identical.
	// Nested textRecord.Diff and textRecord.Comment fields are compared.
	Equal(textNode) bool
	// String returns the string representation of the text tree.
	// It is not guaranteed that len(x.String()) == x.Len(),
	// nor that x.String() == y.String() implies that x.Equal(y).
	String() string

	// formatCompactTo formats the contents of the tree as a single-line string
	// to the provided buffer. Any nested textRecord.Diff and textRecord.Comment
	// fields are ignored.
	//
	// However, not all nodes in the tree should be collapsed as a single-line.
	// If a node can be collapsed as a single-line, it is replaced by a textLine
	// node. Since the top-level node cannot replace itself, this also returns
	// the current node itself.
	//
	// This does not mutate the receiver.
	formatCompactTo([]byte, diffMode) ([]byte, textNode)
	// formatExpandedTo formats the contents of the tree as a multi-line string
	// to the provided buffer. In order for column alignment to operate well,
	// formatCompactTo must be called before calling formatExpandedTo.
	formatExpandedTo([]byte, diffMode, indentMode) []byte
	}

	// textWrap is a wrapper that concatenates a prefix and/or a suffix
	// to the underlying node.
	type textWrap struct {
	Prefix string // e.g., "bytes.Buffer{"
	Value textNode // textWrap \| textList \| textLine
	Suffix string // e.g., "}"
	}

	func (s textWrap) Len() int {
	return len(s.Prefix) + s.Value.Len() + len(s.Suffix)
	}
	func (s1 textWrap) Equal(s2 textNode) bool {
	if s2, ok := s2.(textWrap); ok {
	return s1.Prefix == s2.Prefix && s1.Value.Equal(s2.Value) && s1.Suffix == s2.Suffix
	}
	return false
	}
	func (s textWrap) String() string {
	var d diffMode
	var n indentMode
	_, s2 := s.formatCompactTo(nil, d)
	b := n.appendIndent(nil, d) // Leading indent
	b = s2.formatExpandedTo(b, d, n) // Main body
	b = append(b, '\n') // Trailing newline
	return string(b)
	}
	func (s textWrap) formatCompactTo(b []byte, d diffMode) ([]byte, textNode) {
	n0 := len(b) // Original buffer length
	b = append(b, s.Prefix...)
	b, s.Value = s.Value.formatCompactTo(b, d)
	b = append(b, s.Suffix...)
	if _, ok := s.Value.(textLine); ok {
	return b, textLine(b[n0:])
	}
	return b, s
	}
	func (s textWrap) formatExpandedTo(b []byte, d diffMode, n indentMode) []byte {
	b = append(b, s.Prefix...)
	b = s.Value.formatExpandedTo(b, d, n)
	b = append(b, s.Suffix...)
	return b
	}

	// textList is a comma-separated list of textWrap or textLine nodes.
	// The list may be formatted as multi-lines or single-line at the discretion
	// of the textList.formatCompactTo method.
	type textList []textRecord
	type textRecord struct {
	Diff diffMode // e.g., 0 or '-' or '+'
	Key string // e.g., "MyField"
	Value textNode // textWrap \| textLine
	Comment fmt.Stringer // e.g., "6 identical fields"
	}

	// AppendEllipsis appends a new ellipsis node to the list if none already
	// exists at the end. If cs is non-zero it coalesces the statistics with the
	// previous diffStats.
	func (s *textList) AppendEllipsis(ds diffStats) {
	hasStats := ds != diffStats{}
	if len(s) == 0 \|\| !(s)[len(*s)-1].Value.Equal(textEllipsis) {
	if hasStats {
	s = append(s, textRecord{Value: textEllipsis, Comment: ds})
	} else {
	s = append(s, textRecord{Value: textEllipsis})
	}
	return
	}
	if hasStats {
	(s)[len(s)-1].Comment = (s)[len(s)-1].Comment.(diffStats).Append(ds)
	}
	}

	func (s textList) Len() (n int) {
	for i, r := range s {
	n += len(r.Key)
	if r.Key != "" {
	n += len(": ")
	}
	n += r.Value.Len()
	if i < len(s)-1 {
	n += len(", ")
	}
	}
	return n
	}

	func (s1 textList) Equal(s2 textNode) bool {
	if s2, ok := s2.(textList); ok {
	if len(s1) != len(s2) {
	return false
	}
	for i := range s1 {
	r1, r2 := s1[i], s2[i]
	if !(r1.Diff == r2.Diff && r1.Key == r2.Key && r1.Value.Equal(r2.Value) && r1.Comment == r2.Comment) {
	return false
	}
	}
	return true
	}
	return false
	}

	func (s textList) String() string {
	return textWrap{"{", s, "}"}.String()
	}

	func (s textList) formatCompactTo(b []byte, d diffMode) ([]byte, textNode) {
	s = append(textList(nil), s...) // Avoid mutating original

	// Determine whether we can collapse this list as a single line.
	n0 := len(b) // Original buffer length
	var multiLine bool
	for i, r := range s {
	if r.Diff == diffInserted \|\| r.Diff == diffRemoved {
	multiLine = true
	}
	b = append(b, r.Key...)
	if r.Key != "" {
	b = append(b, ": "...)
	}
	b, s[i].Value = r.Value.formatCompactTo(b, d\|r.Diff)
	if _, ok := s[i].Value.(textLine); !ok {
	multiLine = true
	}
	if r.Comment != nil {
	multiLine = true
	}
	if i < len(s)-1 {
	b = append(b, ", "...)
	}
	}
	// Force multi-lined output when printing a removed/inserted node that
	// is sufficiently long.
	if (d == diffInserted \|\| d == diffRemoved) && len(b[n0:]) > 80 {
	multiLine = true
	}
	if !multiLine {
	return b, textLine(b[n0:])
	}
	return b, s
	}

	func (s textList) formatExpandedTo(b []byte, d diffMode, n indentMode) []byte {
	alignKeyLens := s.alignLens(
	func(r textRecord) bool {
	_, isLine := r.Value.(textLine)
	return r.Key == "" \|\| !isLine
	},
	func(r textRecord) int { return len(r.Key) },
	)
	alignValueLens := s.alignLens(
	func(r textRecord) bool {
	_, isLine := r.Value.(textLine)
	return !isLine \|\| r.Value.Equal(textEllipsis) \|\| r.Comment == nil
	},
	func(r textRecord) int { return len(r.Value.(textLine)) },
	)

	// Format the list as a multi-lined output.
	n++
	for i, r := range s {
	b = n.appendIndent(append(b, '\n'), d\|r.Diff)
	if r.Key != "" {
	b = append(b, r.Key+": "...)
	}
	b = alignKeyLens[i].appendChar(b, ' ')

	b = r.Value.formatExpandedTo(b, d\|r.Diff, n)
	if !r.Value.Equal(textEllipsis) {
	b = append(b, ',')
	}
	b = alignValueLens[i].appendChar(b, ' ')

	if r.Comment != nil {
	b = append(b, " // "+r.Comment.String()...)
	}
	}
	n--

	return n.appendIndent(append(b, '\n'), d)
	}

	func (s textList) alignLens(
	skipFunc func(textRecord) bool,
	lenFunc func(textRecord) int,
	) []repeatCount {
	var startIdx, endIdx, maxLen int
	lens := make([]repeatCount, len(s))
	for i, r := range s {
	if skipFunc(r) {
	for j := startIdx; j < endIdx && j < len(s); j++ {
	lens[j] = repeatCount(maxLen - lenFunc(s[j]))
	}
	startIdx, endIdx, maxLen = i+1, i+1, 0
	} else {
	if maxLen < lenFunc(r) {
	maxLen = lenFunc(r)
	}
	endIdx = i + 1
	}
	}
	for j := startIdx; j < endIdx && j < len(s); j++ {
	lens[j] = repeatCount(maxLen - lenFunc(s[j]))
	}
	return lens
	}

	// textLine is a single-line segment of text and is always a leaf node
	// in the textNode tree.
	type textLine []byte

	var (
	textNil = textLine("nil")
	textEllipsis = textLine("...")
	)

	func (s textLine) Len() int {
	return len(s)
	}
	func (s1 textLine) Equal(s2 textNode) bool {
	if s2, ok := s2.(textLine); ok {
	return bytes.Equal([]byte(s1), []byte(s2))
	}
	return false
	}
	func (s textLine) String() string {
	return string(s)
	}
	func (s textLine) formatCompactTo(b []byte, d diffMode) ([]byte, textNode) {
	return append(b, s...), s
	}
	func (s textLine) formatExpandedTo(b []byte, _ diffMode, _ indentMode) []byte {
	return append(b, s...)
	}

	type diffStats struct {
	Name string
	NumIgnored int
	NumIdentical int
	NumRemoved int
	NumInserted int
	NumModified int
	}

	func (s diffStats) NumDiff() int {
	return s.NumRemoved + s.NumInserted + s.NumModified
	}

	func (s diffStats) Append(ds diffStats) diffStats {
	assert(s.Name == ds.Name)
	s.NumIgnored += ds.NumIgnored
	s.NumIdentical += ds.NumIdentical
	s.NumRemoved += ds.NumRemoved
	s.NumInserted += ds.NumInserted
	s.NumModified += ds.NumModified
	return s
	}

	// String prints a humanly-readable summary of coalesced records.
	//
	// Example:
	// diffStats{Name: "Field", NumIgnored: 5}.String() => "5 ignored fields"
	func (s diffStats) String() string {
	var ss []string
	var sum int
	labels := [...]string{"ignored", "identical", "removed", "inserted", "modified"}
	counts := [...]int{s.NumIgnored, s.NumIdentical, s.NumRemoved, s.NumInserted, s.NumModified}
	for i, n := range counts {
	if n > 0 {
	ss = append(ss, fmt.Sprintf("%d %v", n, labels[i]))
	}
	sum += n
	}

	// Pluralize the name (adjusting for some obscure English grammar rules).
	name := s.Name
	if sum > 1 {
	name = name + "s"
	if strings.HasSuffix(name, "ys") {
	name = name[:len(name)-2] + "ies" // e.g., "entrys" => "entries"
	}
	}

	// Format the list according to English grammar (with Oxford comma).
	switch n := len(ss); n {
	case 0:
	return ""
	case 1, 2:
	return strings.Join(ss, " and ") + " " + name
	default:
	return strings.Join(ss[:n-1], ", ") + ", and " + ss[n-1] + " " + name
	}
	}

	type commentString string

	func (s commentString) String() string { return string(s) }