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formatter.go
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formatter.go
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package httpexpect
import (
"bytes"
"encoding/json"
"flag"
"fmt"
"math"
"net/http/httputil"
"os"
"path/filepath"
"regexp"
"strconv"
"strings"
"sync"
"testing"
"text/template"
"github.com/TylerBrock/colorjson"
"github.com/fatih/color"
"github.com/mattn/go-isatty"
"github.com/mitchellh/go-wordwrap"
"github.com/sanity-io/litter"
"github.com/yudai/gojsondiff"
"github.com/yudai/gojsondiff/formatter"
)
// Formatter is used to format assertion messages into strings.
type Formatter interface {
FormatSuccess(*AssertionContext) string
FormatFailure(*AssertionContext, *AssertionFailure) string
}
// DefaultFormatter is the default Formatter implementation.
//
// DefaultFormatter gathers values from AssertionContext and AssertionFailure,
// converts them to strings, and creates FormatData struct. Then it passes
// FormatData to the template engine (text/template) to format message.
//
// You can control what is included and what is excluded from messages via
// several public fields.
//
// If desired, you can provide custom templates and function map. This may
// be easier than creating your own formatter from scratch.
type DefaultFormatter struct {
// Exclude test name and request name from failure report.
DisableNames bool
// Exclude assertion path from failure report.
DisablePaths bool
// Exclude aliased assertion path from failure report.
DisableAliases bool
// Exclude diff from failure report.
DisableDiffs bool
// Exclude HTTP request from failure report.
DisableRequests bool
// Exclude HTTP response from failure report.
DisableResponses bool
// Thousand separator.
// Default is DigitSeparatorUnderscore.
DigitSeparator DigitSeparator
// Float printing format.
// Default is FloatFormatAuto.
FloatFormat FloatFormat
// Defines whether to print stacktrace on failure and in what format.
// Default is StacktraceModeDisabled.
StacktraceMode StacktraceMode
// Colorization mode.
// Default is ColorModeAuto.
ColorMode ColorMode
// Wrap text to keep lines below given width.
// Use zero for default width, and negative value to disable wrapping.
LineWidth int
// If not empty, used to format success messages.
// If empty, default template is used.
SuccessTemplate string
// If not empty, used to format failure messages.
// If empty, default template is used.
FailureTemplate string
// When SuccessTemplate or FailureTemplate is set, this field
// defines the function map passed to template engine.
// May be nil.
TemplateFuncs template.FuncMap
}
// FormatSuccess implements Formatter.FormatSuccess.
func (f *DefaultFormatter) FormatSuccess(ctx *AssertionContext) string {
if f.SuccessTemplate != "" {
return f.applyTemplate("SuccessTemplate",
f.SuccessTemplate, f.TemplateFuncs, ctx, nil)
} else {
return f.applyTemplate("SuccessTemplate",
defaultSuccessTemplate, defaultTemplateFuncs, ctx, nil)
}
}
// FormatFailure implements Formatter.FormatFailure.
func (f *DefaultFormatter) FormatFailure(
ctx *AssertionContext, failure *AssertionFailure,
) string {
if f.FailureTemplate != "" {
return f.applyTemplate("FailureTemplate",
f.FailureTemplate, f.TemplateFuncs, ctx, failure)
} else {
return f.applyTemplate("FailureTemplate",
defaultFailureTemplate, defaultTemplateFuncs, ctx, failure)
}
}
// DigitSeparator defines the separator used to format integers and floats.
type DigitSeparator int
const (
// Separate using underscore
DigitSeparatorUnderscore DigitSeparator = iota
// Separate using comma
DigitSeparatorComma
// Separate using apostrophe
DigitSeparatorApostrophe
// Do not separate
DigitSeparatorNone
)
// FloatFormat defines the format in which all floats are printed.
type FloatFormat int
const (
// Print floats in scientific notation for large exponents,
// otherwise print in decimal notation.
// Precision is the smallest needed to identify the value uniquely.
// Similar to %g format.
FloatFormatAuto FloatFormat = iota
// Always print floats in decimal notation.
// Precision is the smallest needed to identify the value uniquely.
// Similar to %f format.
FloatFormatDecimal
// Always print floats in scientific notation.
// Precision is the smallest needed to identify the value uniquely.
// Similar to %e format.
FloatFormatScientific
)
// StacktraceMode defines the format of stacktrace.
type StacktraceMode int
const (
// Don't print stacktrace.
StacktraceModeDisabled StacktraceMode = iota
// Standard, verbose format.
StacktraceModeStandard
// Compact format.
StacktraceModeCompact
)
// ColorMode defines how the text color is enabled.
type ColorMode int
const (
// Automatically enable colors if ALL of the following is true:
// - stdout is a tty / console
// - AssertionHandler is known to output to testing.T
// - testing.Verbose() is true
//
// Colors are forcibly enabled if FORCE_COLOR environment variable
// is set to a positive integer.
//
// Colors are forcibly disabled if TERM is "dumb" or NO_COLOR
// environment variable is set to non-empty string.
ColorModeAuto ColorMode = iota
// Unconditionally enable colors.
ColorModeAlways
// Unconditionally disable colors.
ColorModeNever
)
// FormatData defines data passed to template engine when DefaultFormatter
// formats assertion. You can use these fields in your custom templates.
type FormatData struct {
TestName string
RequestName string
AssertPath []string
AssertType string
AssertSeverity string
Errors []string
HaveActual bool
Actual string
HaveExpected bool
IsNegation bool
IsComparison bool
ExpectedKind string
Expected []string
HaveReference bool
Reference string
HaveDelta bool
Delta string
HaveDiff bool
Diff string
HaveRequest bool
Request string
HaveResponse bool
Response string
HaveStacktrace bool
Stacktrace []string
EnableColors bool
LineWidth int
}
const (
kindRange = "range"
kindSchema = "schema"
kindPath = "path"
kindRegexp = "regexp"
kindFormat = "format"
kindFormatList = "formats"
kindKey = "key"
kindElement = "element"
kindSubset = "subset"
kindValue = "value"
kindValueList = "values"
)
func (f *DefaultFormatter) applyTemplate(
templateName string,
templateString string,
templateFuncs template.FuncMap,
ctx *AssertionContext,
failure *AssertionFailure,
) string {
templateData := f.buildFormatData(ctx, failure)
t, err := template.New(templateName).Funcs(templateFuncs).Parse(templateString)
if err != nil {
panic(err)
}
var b bytes.Buffer
err = t.Execute(&b, templateData)
if err != nil {
panic(err)
}
return b.String()
}
func (f *DefaultFormatter) buildFormatData(
ctx *AssertionContext, failure *AssertionFailure,
) *FormatData {
data := FormatData{}
f.fillGeneral(&data, ctx)
if failure != nil {
data.AssertType = failure.Type.String()
data.AssertSeverity = failure.Severity.String()
f.fillErrors(&data, ctx, failure)
if failure.Actual != nil {
f.fillActual(&data, ctx, failure)
}
if failure.Expected != nil {
f.fillExpected(&data, ctx, failure)
f.fillIsNegation(&data, ctx, failure)
f.fillIsComparison(&data, ctx, failure)
}
if failure.Reference != nil {
f.fillReference(&data, ctx, failure)
}
if failure.Delta != nil {
f.fillDelta(&data, ctx, failure)
}
f.fillRequest(&data, ctx, failure)
f.fillResponse(&data, ctx, failure)
f.fillStacktrace(&data, ctx, failure)
}
return &data
}
func (f *DefaultFormatter) fillGeneral(
data *FormatData, ctx *AssertionContext,
) {
if !f.DisableNames {
data.TestName = ctx.TestName
data.RequestName = ctx.RequestName
}
if !f.DisablePaths {
if !f.DisableAliases {
data.AssertPath = ctx.AliasedPath
} else {
data.AssertPath = ctx.Path
}
}
switch f.ColorMode {
case ColorModeAuto:
switch colorMode() {
case colorsUnsupported:
data.EnableColors = false
case colorsForced:
data.EnableColors = true
case colorsSupported:
data.EnableColors = ctx.TestingTB && flag.Parsed() && testing.Verbose()
}
case ColorModeAlways:
data.EnableColors = true
case ColorModeNever:
data.EnableColors = false
}
if f.LineWidth != 0 {
data.LineWidth = f.LineWidth
} else {
data.LineWidth = defaultLineWidth
}
}
func (f *DefaultFormatter) fillErrors(
data *FormatData, ctx *AssertionContext, failure *AssertionFailure,
) {
data.Errors = []string{}
for _, err := range failure.Errors {
if refIsNil(err) {
continue
}
data.Errors = append(data.Errors, err.Error())
}
}
func (f *DefaultFormatter) fillActual(
data *FormatData, ctx *AssertionContext, failure *AssertionFailure,
) {
switch failure.Type { //nolint
case AssertUsage, AssertOperation:
data.HaveActual = false
case AssertType, AssertNotType:
data.HaveActual = true
data.Actual = f.formatTypedValue(failure.Actual.Value)
default:
data.HaveActual = true
data.Actual = f.formatValue(failure.Actual.Value)
}
}
func (f *DefaultFormatter) fillExpected(
data *FormatData, ctx *AssertionContext, failure *AssertionFailure,
) {
switch failure.Type {
case AssertUsage, AssertOperation,
AssertType, AssertNotType,
AssertValid, AssertNotValid,
AssertNil, AssertNotNil,
AssertEmpty, AssertNotEmpty,
AssertNotEqual:
data.HaveExpected = false
case AssertEqual:
data.HaveExpected = true
data.ExpectedKind = kindValue
data.Expected = []string{
f.formatValue(failure.Expected.Value),
}
if !f.DisableDiffs && failure.Actual != nil && failure.Expected != nil {
data.Diff, data.HaveDiff = f.formatDiff(
failure.Expected.Value, failure.Actual.Value)
}
case AssertLt, AssertLe, AssertGt, AssertGe:
data.HaveExpected = true
data.ExpectedKind = kindValue
data.Expected = []string{
f.formatValue(failure.Expected.Value),
}
case AssertInRange, AssertNotInRange:
data.HaveExpected = true
data.ExpectedKind = kindRange
data.Expected = f.formatRangeValue(failure.Expected.Value)
case AssertMatchSchema, AssertNotMatchSchema:
data.HaveExpected = true
data.ExpectedKind = kindSchema
data.Expected = []string{
f.formatMatchValue(failure.Expected.Value),
}
case AssertMatchPath, AssertNotMatchPath:
data.HaveExpected = true
data.ExpectedKind = kindPath
data.Expected = []string{
f.formatMatchValue(failure.Expected.Value),
}
case AssertMatchRegexp, AssertNotMatchRegexp:
data.HaveExpected = true
data.ExpectedKind = kindRegexp
data.Expected = []string{
f.formatMatchValue(failure.Expected.Value),
}
case AssertMatchFormat, AssertNotMatchFormat:
data.HaveExpected = true
if extractList(failure.Expected.Value) != nil {
data.ExpectedKind = kindFormatList
} else {
data.ExpectedKind = kindFormat
}
data.Expected = f.formatListValue(failure.Expected.Value)
case AssertContainsKey, AssertNotContainsKey:
data.HaveExpected = true
data.ExpectedKind = kindKey
data.Expected = []string{
f.formatValue(failure.Expected.Value),
}
case AssertContainsElement, AssertNotContainsElement:
data.HaveExpected = true
data.ExpectedKind = kindElement
data.Expected = []string{
f.formatValue(failure.Expected.Value),
}
case AssertContainsSubset, AssertNotContainsSubset:
data.HaveExpected = true
data.ExpectedKind = kindSubset
data.Expected = []string{
f.formatValue(failure.Expected.Value),
}
case AssertBelongs, AssertNotBelongs:
data.HaveExpected = true
data.ExpectedKind = kindValueList
data.Expected = f.formatListValue(failure.Expected.Value)
}
}
func (f *DefaultFormatter) fillIsNegation(
data *FormatData, ctx *AssertionContext, failure *AssertionFailure,
) {
switch failure.Type {
case AssertUsage, AssertOperation,
AssertType,
AssertValid,
AssertNil,
AssertEmpty,
AssertEqual,
AssertLt, AssertLe, AssertGt, AssertGe,
AssertInRange,
AssertMatchSchema,
AssertMatchPath,
AssertMatchRegexp,
AssertMatchFormat,
AssertContainsKey,
AssertContainsElement,
AssertContainsSubset,
AssertBelongs:
break
case AssertNotType,
AssertNotValid,
AssertNotNil,
AssertNotEmpty,
AssertNotEqual,
AssertNotInRange,
AssertNotMatchSchema,
AssertNotMatchPath,
AssertNotMatchRegexp,
AssertNotMatchFormat,
AssertNotContainsKey,
AssertNotContainsElement,
AssertNotContainsSubset,
AssertNotBelongs:
data.IsNegation = true
}
}
func (f *DefaultFormatter) fillIsComparison(
data *FormatData, ctx *AssertionContext, failure *AssertionFailure,
) {
switch failure.Type { //nolint
case AssertLt, AssertLe, AssertGt, AssertGe:
data.IsComparison = true
}
}
func (f *DefaultFormatter) fillReference(
data *FormatData, ctx *AssertionContext, failure *AssertionFailure,
) {
data.HaveReference = true
data.Reference = f.formatValue(failure.Reference.Value)
}
func (f *DefaultFormatter) fillDelta(
data *FormatData, ctx *AssertionContext, failure *AssertionFailure,
) {
data.HaveDelta = true
data.Delta = f.formatValue(failure.Delta.Value)
}
func (f *DefaultFormatter) fillRequest(
data *FormatData, ctx *AssertionContext, failure *AssertionFailure,
) {
if !f.DisableRequests && ctx.Request != nil && ctx.Request.httpReq != nil {
dump, err := httputil.DumpRequest(ctx.Request.httpReq, false)
if err != nil {
return
}
data.HaveRequest = true
data.Request = string(dump)
}
}
func (f *DefaultFormatter) fillResponse(
data *FormatData, ctx *AssertionContext, failure *AssertionFailure,
) {
if !f.DisableResponses && ctx.Response != nil && ctx.Response.httpResp != nil {
dump, err := httputil.DumpResponse(ctx.Response.httpResp, false)
if err != nil {
return
}
text := strings.Replace(string(dump), "\r\n", "\n", -1)
lines := strings.SplitN(text, "\n", 2)
data.HaveResponse = true
data.Response = fmt.Sprintf("%s %s\n%s", lines[0], ctx.Response.rtt, lines[1])
}
}
func (f *DefaultFormatter) fillStacktrace(
data *FormatData, ctx *AssertionContext, failure *AssertionFailure,
) {
data.Stacktrace = []string{}
switch f.StacktraceMode {
case StacktraceModeDisabled:
break
case StacktraceModeStandard:
for _, entry := range failure.Stacktrace {
data.HaveStacktrace = true
data.Stacktrace = append(data.Stacktrace,
fmt.Sprintf("%s()\n\t%s:%d +0x%x",
entry.Func.Name(), entry.File, entry.Line, entry.FuncOffset))
}
case StacktraceModeCompact:
for _, entry := range failure.Stacktrace {
if entry.IsEntrypoint {
break
}
data.HaveStacktrace = true
data.Stacktrace = append(data.Stacktrace,
fmt.Sprintf("%s() at %s:%d (%s)",
entry.FuncName, filepath.Base(entry.File), entry.Line, entry.FuncPackage))
}
}
}
func (f *DefaultFormatter) formatValue(value interface{}) string {
if flt := extractFloat32(value); flt != nil {
return f.reformatNumber(f.formatFloatValue(*flt, 32))
}
if flt := extractFloat64(value); flt != nil {
return f.reformatNumber(f.formatFloatValue(*flt, 64))
}
if refIsNum(value) {
return f.reformatNumber(fmt.Sprintf("%v", value))
}
if !refIsNil(value) && !refIsHTTP(value) {
if s, _ := value.(fmt.Stringer); s != nil {
if ss := s.String(); strings.TrimSpace(ss) != "" {
return ss
}
}
if b, err := json.MarshalIndent(value, "", defaultIndent); err == nil {
return string(b)
}
}
sq := litter.Options{
Separator: defaultIndent,
}
return sq.Sdump(value)
}
func (f *DefaultFormatter) formatFloatValue(value float64, bits int) string {
switch f.FloatFormat {
case FloatFormatAuto:
if _, frac := math.Modf(value); frac != 0 {
return strconv.FormatFloat(value, 'g', -1, bits)
} else {
return strconv.FormatFloat(value, 'f', -1, bits)
}
case FloatFormatDecimal:
return strconv.FormatFloat(value, 'f', -1, bits)
case FloatFormatScientific:
return strconv.FormatFloat(value, 'e', -1, bits)
default:
return fmt.Sprintf("%v", value)
}
}
func (f *DefaultFormatter) formatTypedValue(value interface{}) string {
if refIsNum(value) {
return fmt.Sprintf("%T(%v)", value, f.formatValue(value))
}
return fmt.Sprintf("%T(%#v)", value, value)
}
func (f *DefaultFormatter) formatMatchValue(value interface{}) string {
if str := extractString(value); str != nil {
return *str
}
return f.formatValue(value)
}
func (f *DefaultFormatter) formatRangeValue(value interface{}) []string {
if rng := exctractRange(value); rng != nil {
if refIsNum(rng.Min) && refIsNum(rng.Max) {
return []string{
fmt.Sprintf("[%v; %v]", f.formatValue(rng.Min), f.formatValue(rng.Max)),
}
} else {
return []string{
fmt.Sprintf("%v", rng.Min),
fmt.Sprintf("%v", rng.Max),
}
}
} else {
return []string{
f.formatValue(value),
}
}
}
func (f *DefaultFormatter) formatListValue(value interface{}) []string {
if lst := extractList(value); lst != nil {
s := make([]string, 0, len(*lst))
for _, e := range *lst {
s = append(s, f.formatValue(e))
}
return s
} else {
return []string{
f.formatValue(value),
}
}
}
func (f *DefaultFormatter) formatDiff(expected, actual interface{}) (string, bool) {
differ := gojsondiff.New()
var diff gojsondiff.Diff
if ve, ok := expected.(map[string]interface{}); ok {
if va, ok := actual.(map[string]interface{}); ok {
diff = differ.CompareObjects(ve, va)
} else {
return "", false
}
} else if ve, ok := expected.([]interface{}); ok {
if va, ok := actual.([]interface{}); ok {
diff = differ.CompareArrays(ve, va)
} else {
return "", false
}
} else {
return "", false
}
if !diff.Modified() {
return "", false
}
config := formatter.AsciiFormatterConfig{
ShowArrayIndex: true,
}
fa := formatter.NewAsciiFormatter(expected, config)
str, err := fa.Format(diff)
if err != nil {
return "", false
}
diffText := "--- expected\n+++ actual\n" + str
return diffText, true
}
func (f *DefaultFormatter) reformatNumber(numStr string) string {
signPart, intPart, fracPart, expPart := f.decomposeNumber(numStr)
if intPart == "" {
return numStr
}
var sb strings.Builder
sb.WriteString(signPart)
sb.WriteString(f.applySeparator(intPart, -1))
if fracPart != "" {
sb.WriteString(".")
sb.WriteString(f.applySeparator(fracPart, +1))
}
if expPart != "" {
sb.WriteString("e")
sb.WriteString(expPart)
}
return sb.String()
}
var (
decomposeRegexp = regexp.MustCompile(`^([+-])?(\d+)([.](\d+))?([eE]([+-]?\d+))?$`)
)
func (f *DefaultFormatter) decomposeNumber(numStr string) (
signPart, intPart, fracPart, expPart string,
) {
parts := decomposeRegexp.FindStringSubmatch(numStr)
if len(parts) > 1 {
signPart = parts[1]
}
if len(parts) > 2 {
intPart = parts[2]
}
if len(parts) > 4 {
fracPart = parts[4]
}
if len(parts) > 6 {
expPart = parts[6]
}
return
}
func (f *DefaultFormatter) applySeparator(numStr string, dir int) string {
var separator string
switch f.DigitSeparator {
case DigitSeparatorUnderscore:
separator = "_"
break
case DigitSeparatorApostrophe:
separator = "'"
break
case DigitSeparatorComma:
separator = ","
break
case DigitSeparatorNone:
default:
return numStr
}
var sb strings.Builder
cnt := 0
if dir < 0 {
cnt = len(numStr)
}
for i := 0; i != len(numStr); i++ {
sb.WriteByte(numStr[i])
cnt += dir
if cnt%3 == 0 && i != len(numStr)-1 {
sb.WriteString(separator)
}
}
return sb.String()
}
func extractString(value interface{}) *string {
switch s := value.(type) {
case string:
return &s
default:
return nil
}
}
func extractFloat32(value interface{}) *float64 {
switch f := value.(type) {
case float32:
ff := float64(f)
return &ff
default:
return nil
}
}
func extractFloat64(value interface{}) *float64 {
switch f := value.(type) {
case float64:
return &f
default:
return nil
}
}
func exctractRange(value interface{}) *AssertionRange {
switch rng := value.(type) {
case AssertionRange:
return &rng
case *AssertionRange: // invalid, but we handle it
return rng
default:
return nil
}
}
func extractList(value interface{}) *AssertionList {
switch lst := value.(type) {
case AssertionList:
return &lst
case *AssertionList: // invalid, but we handle it
return lst
default:
return nil
}
}
var (
colorsSupportedOnce sync.Once
colorsSupportedMode int
)
const (
colorsUnsupported = iota
colorsSupported
colorsForced
)
func colorMode() int {
colorsSupportedOnce.Do(func() {
if s := os.Getenv("FORCE_COLOR"); len(s) != 0 {
if n, err := strconv.Atoi(s); err == nil && n > 0 {
colorsSupportedMode = colorsForced
return
}
}
if (isatty.IsTerminal(os.Stdout.Fd()) || isatty.IsCygwinTerminal(os.Stdout.Fd())) &&
len(os.Getenv("NO_COLOR")) == 0 &&
!strings.HasPrefix(os.Getenv("TERM"), "dumb") {
colorsSupportedMode = colorsSupported
return
}
colorsSupportedMode = colorsUnsupported
return
})
return colorsSupportedMode
}
const (
defaultIndent = " "
defaultLineWidth = 60
)
var defaultColors = map[string]color.Attribute{
// regular
"Black": color.FgBlack,
"Red": color.FgRed,
"Green": color.FgGreen,
"Yellow": color.FgYellow,
"Magenta": color.FgMagenta,
"Cyan": color.FgCyan,
"White": color.FgWhite,
// bright
"HiBlack": color.FgHiBlack,
"HiRed": color.FgHiRed,
"HiGreen": color.FgHiGreen,
"HiYellow": color.FgHiYellow,
"HiMagenta": color.FgHiMagenta,
"HiCyan": color.FgHiCyan,
"HiWhite": color.FgHiWhite,
}
var defaultTemplateFuncs = template.FuncMap{
"trim": func(input string) string {
return strings.TrimSpace(input)
},
"indent": func(input string) string {
var sb strings.Builder
for _, s := range strings.Split(input, "\n") {
if sb.Len() != 0 {
sb.WriteString("\n")
}
sb.WriteString(defaultIndent)
sb.WriteString(s)
}
return sb.String()
},
"wrap": func(width int, input string) string {
input = strings.TrimSpace(input)
width -= len(defaultIndent)
if width <= 0 {
return input
}
return wordwrap.WrapString(input, uint(width))
},
"join": func(width int, tokenList []string) string {
width -= len(defaultIndent)
if width <= 0 {
return strings.Join(tokenList, ".")
}
var sb strings.Builder
lineLen := 0
lineNum := 0
write := func(s string) {
sb.WriteString(s)
lineLen += len(s)
}
for n, token := range tokenList {
if lineLen+len(token)+1 > width {
write("\n")
lineLen = 0
if lineNum < 2 {
lineNum++
}
}
if lineLen == 0 {
for l := 0; l < lineNum; l++ {
write(defaultIndent)
}
}
write(token)
if n != len(tokenList)-1 {
write(".")
}
}
return sb.String()