gowebbuild/vendor/github.com/evanw/esbuild/internal/logger/logger.go

1613 lines
37 KiB
Go
Raw Normal View History

package logger
// Logging is currently designed to look and feel like clang's error format.
// Errors are streamed asynchronously as they happen, each error contains the
// contents of the line with the error, and the error count is limited by
// default.
import (
"fmt"
"os"
"runtime"
"sort"
"strings"
"sync"
"time"
"unicode/utf8"
)
const defaultTerminalWidth = 80
type Log struct {
Level LogLevel
AddMsg func(Msg)
HasErrors func() bool
// This is called after the build has finished but before writing to stdout.
// It exists to ensure that deferred warning messages end up in the terminal
// before the data written to stdout.
AlmostDone func()
Done func() []Msg
}
type LogLevel int8
const (
LevelNone LogLevel = iota
LevelVerbose
LevelDebug
LevelInfo
LevelWarning
LevelError
LevelSilent
)
type MsgKind uint8
const (
Error MsgKind = iota
Warning
Info
Note
Debug
Verbose
)
func (kind MsgKind) String() string {
switch kind {
case Error:
return "ERROR"
case Warning:
return "WARNING"
case Info:
return "INFO"
case Note:
return "NOTE"
case Debug:
return "DEBUG"
case Verbose:
return "VERBOSE"
default:
panic("Internal error")
}
}
func (kind MsgKind) Icon() string {
// Special-case Windows command prompt, which only supports a few characters
if isProbablyWindowsCommandPrompt() {
switch kind {
case Error:
return "X"
case Warning:
return "▲"
case Info:
return "►"
case Note:
return "→"
case Debug:
return "●"
case Verbose:
return "♦"
default:
panic("Internal error")
}
}
switch kind {
case Error:
return "✘"
case Warning:
return "▲"
case Info:
return "▶"
case Note:
return "→"
case Debug:
return "●"
case Verbose:
return "⬥"
default:
panic("Internal error")
}
}
var windowsCommandPrompt struct {
mutex sync.Mutex
once bool
isProbablyCMD bool
}
func isProbablyWindowsCommandPrompt() bool {
windowsCommandPrompt.mutex.Lock()
defer windowsCommandPrompt.mutex.Unlock()
if !windowsCommandPrompt.once {
windowsCommandPrompt.once = true
// Assume we are running in Windows Command Prompt if we're on Windows. If
// so, we can't use emoji because it won't be supported. Except we can
// still use emoji if the WT_SESSION environment variable is present
// because that means we're running in the new Windows Terminal instead.
if runtime.GOOS == "windows" {
windowsCommandPrompt.isProbablyCMD = true
for _, env := range os.Environ() {
if strings.HasPrefix(env, "WT_SESSION=") {
windowsCommandPrompt.isProbablyCMD = false
break
}
}
}
}
return windowsCommandPrompt.isProbablyCMD
}
type Msg struct {
PluginName string
Kind MsgKind
Data MsgData
Notes []MsgData
}
type MsgData struct {
Text string
Location *MsgLocation
// Optional user-specified data that is passed through unmodified
UserDetail interface{}
}
type MsgLocation struct {
File string
Namespace string
Line int // 1-based
Column int // 0-based, in bytes
Length int // in bytes
LineText string
Suggestion string
}
type Loc struct {
// This is the 0-based index of this location from the start of the file, in bytes
Start int32
}
type Range struct {
Loc Loc
Len int32
}
func (r Range) End() int32 {
return r.Loc.Start + r.Len
}
type Span struct {
Text string
Range Range
}
// This type is just so we can use Go's native sort function
type SortableMsgs []Msg
func (a SortableMsgs) Len() int { return len(a) }
func (a SortableMsgs) Swap(i int, j int) { a[i], a[j] = a[j], a[i] }
func (a SortableMsgs) Less(i int, j int) bool {
ai := a[i]
aj := a[j]
aiLoc := ai.Data.Location
ajLoc := aj.Data.Location
if aiLoc == nil || ajLoc == nil {
return aiLoc == nil && ajLoc != nil
}
if aiLoc.File != ajLoc.File {
return aiLoc.File < ajLoc.File
}
if aiLoc.Line != ajLoc.Line {
return aiLoc.Line < ajLoc.Line
}
if aiLoc.Column != ajLoc.Column {
return aiLoc.Column < ajLoc.Column
}
if ai.Kind != aj.Kind {
return ai.Kind < aj.Kind
}
return ai.Data.Text < aj.Data.Text
}
// This is used to represent both file system paths (Namespace == "file") and
// abstract module paths (Namespace != "file"). Abstract module paths represent
// "virtual modules" when used for an input file and "package paths" when used
// to represent an external module.
type Path struct {
Text string
Namespace string
// This feature was added to support ancient CSS libraries that append things
// like "?#iefix" and "#icons" to some of their import paths as a hack for IE6.
// The intent is for these suffix parts to be ignored but passed through to
// the output. This is supported by other bundlers, so we also support this.
IgnoredSuffix string
Flags PathFlags
}
type PathFlags uint8
const (
// This corresponds to a value of "false' in the "browser" package.json field
PathDisabled PathFlags = 1 << iota
)
func (p Path) IsDisabled() bool {
return (p.Flags & PathDisabled) != 0
}
func (a Path) ComesBeforeInSortedOrder(b Path) bool {
return a.Namespace > b.Namespace ||
(a.Namespace == b.Namespace && (a.Text < b.Text ||
(a.Text == b.Text && (a.Flags < b.Flags ||
(a.Flags == b.Flags && a.IgnoredSuffix < b.IgnoredSuffix)))))
}
var noColorResult bool
var noColorOnce sync.Once
func hasNoColorEnvironmentVariable() bool {
noColorOnce.Do(func() {
for _, key := range os.Environ() {
// Read "NO_COLOR" from the environment. This is a convention that some
// software follows. See https://no-color.org/ for more information.
if strings.HasPrefix(key, "NO_COLOR=") {
noColorResult = true
}
}
})
return noColorResult
}
// This has a custom implementation instead of using "filepath.Dir/Base/Ext"
// because it should work the same on Unix and Windows. These names end up in
// the generated output and the generated output should not depend on the OS.
func PlatformIndependentPathDirBaseExt(path string) (dir string, base string, ext string) {
for {
i := strings.LastIndexAny(path, "/\\")
// Stop if there are no more slashes
if i < 0 {
base = path
break
}
// Stop if we found a non-trailing slash
if i+1 != len(path) {
dir, base = path[:i], path[i+1:]
break
}
// Ignore trailing slashes
path = path[:i]
}
// Strip off the extension
if dot := strings.LastIndexByte(base, '.'); dot >= 0 {
base, ext = base[:dot], base[dot:]
}
return
}
type Source struct {
Index uint32
// This is used as a unique key to identify this source file. It should never
// be shown to the user (e.g. never print this to the terminal).
//
// If it's marked as an absolute path, it's a platform-dependent path that
// includes environment-specific things such as Windows backslash path
// separators and potentially the user's home directory. Only use this for
// passing to syscalls for reading and writing to the file system. Do not
// include this in any output data.
//
// If it's marked as not an absolute path, it's an opaque string that is used
// to refer to an automatically-generated module.
KeyPath Path
// This is used for error messages and the metadata JSON file.
//
// This is a mostly platform-independent path. It's relative to the current
// working directory and always uses standard path separators. Use this for
// referencing a file in all output data. These paths still use the original
// case of the path so they may still work differently on file systems that
// are case-insensitive vs. case-sensitive.
PrettyPath string
// An identifier that is mixed in to automatically-generated symbol names to
// improve readability. For example, if the identifier is "util" then the
// symbol for an "export default" statement will be called "util_default".
IdentifierName string
Contents string
}
func (s *Source) TextForRange(r Range) string {
return s.Contents[r.Loc.Start : r.Loc.Start+r.Len]
}
func (s *Source) LocBeforeWhitespace(loc Loc) Loc {
for loc.Start > 0 {
c, width := utf8.DecodeLastRuneInString(s.Contents[:loc.Start])
if c != ' ' && c != '\t' && c != '\r' && c != '\n' {
break
}
loc.Start -= int32(width)
}
return loc
}
func (s *Source) RangeOfOperatorBefore(loc Loc, op string) Range {
text := s.Contents[:loc.Start]
index := strings.LastIndex(text, op)
if index >= 0 {
return Range{Loc: Loc{Start: int32(index)}, Len: int32(len(op))}
}
return Range{Loc: loc}
}
func (s *Source) RangeOfOperatorAfter(loc Loc, op string) Range {
text := s.Contents[loc.Start:]
index := strings.Index(text, op)
if index >= 0 {
return Range{Loc: Loc{Start: loc.Start + int32(index)}, Len: int32(len(op))}
}
return Range{Loc: loc}
}
func (s *Source) RangeOfString(loc Loc) Range {
text := s.Contents[loc.Start:]
if len(text) == 0 {
return Range{Loc: loc, Len: 0}
}
quote := text[0]
if quote == '"' || quote == '\'' {
// Search for the matching quote character
for i := 1; i < len(text); i++ {
c := text[i]
if c == quote {
return Range{Loc: loc, Len: int32(i + 1)}
} else if c == '\\' {
i += 1
}
}
}
return Range{Loc: loc, Len: 0}
}
func (s *Source) RangeOfNumber(loc Loc) (r Range) {
text := s.Contents[loc.Start:]
r = Range{Loc: loc, Len: 0}
if len(text) > 0 {
if c := text[0]; c >= '0' && c <= '9' {
r.Len = 1
for int(r.Len) < len(text) {
c := text[r.Len]
if (c < '0' || c > '9') && (c < 'a' || c > 'z') && (c < 'A' || c > 'Z') && c != '.' && c != '_' {
break
}
r.Len++
}
}
}
return
}
func (s *Source) RangeOfLegacyOctalEscape(loc Loc) (r Range) {
text := s.Contents[loc.Start:]
r = Range{Loc: loc, Len: 0}
if len(text) >= 2 && text[0] == '\\' {
r.Len = 2
for r.Len < 4 && int(r.Len) < len(text) {
c := text[r.Len]
if c < '0' || c > '9' {
break
}
r.Len++
}
}
return
}
func plural(prefix string, count int, shown int, someAreMissing bool) string {
var text string
if count == 1 {
text = fmt.Sprintf("%d %s", count, prefix)
} else {
text = fmt.Sprintf("%d %ss", count, prefix)
}
if shown < count {
text = fmt.Sprintf("%d of %s", shown, text)
} else if someAreMissing && count > 1 {
text = "all " + text
}
return text
}
func errorAndWarningSummary(errors int, warnings int, shownErrors int, shownWarnings int) string {
someAreMissing := shownWarnings < warnings || shownErrors < errors
switch {
case errors == 0:
return plural("warning", warnings, shownWarnings, someAreMissing)
case warnings == 0:
return plural("error", errors, shownErrors, someAreMissing)
default:
return fmt.Sprintf("%s and %s",
plural("warning", warnings, shownWarnings, someAreMissing),
plural("error", errors, shownErrors, someAreMissing))
}
}
type APIKind uint8
const (
GoAPI APIKind = iota
CLIAPI
JSAPI
)
// This can be used to customize error messages for the current API kind
var API APIKind
type TerminalInfo struct {
IsTTY bool
UseColorEscapes bool
Width int
Height int
}
func NewStderrLog(options OutputOptions) Log {
var mutex sync.Mutex
var msgs SortableMsgs
terminalInfo := GetTerminalInfo(os.Stderr)
errors := 0
warnings := 0
shownErrors := 0
shownWarnings := 0
hasErrors := false
remainingMessagesBeforeLimit := options.MessageLimit
if remainingMessagesBeforeLimit == 0 {
remainingMessagesBeforeLimit = 0x7FFFFFFF
}
var deferredWarnings []Msg
didFinalizeLog := false
finalizeLog := func() {
if didFinalizeLog {
return
}
didFinalizeLog = true
// Print the deferred warning now if there was no error after all
for remainingMessagesBeforeLimit > 0 && len(deferredWarnings) > 0 {
shownWarnings++
writeStringWithColor(os.Stderr, deferredWarnings[0].String(options, terminalInfo))
deferredWarnings = deferredWarnings[1:]
remainingMessagesBeforeLimit--
}
// Print out a summary
if options.MessageLimit > 0 && errors+warnings > options.MessageLimit {
writeStringWithColor(os.Stderr, fmt.Sprintf("%s shown (disable the message limit with --log-limit=0)\n",
errorAndWarningSummary(errors, warnings, shownErrors, shownWarnings)))
} else if options.LogLevel <= LevelInfo && (warnings != 0 || errors != 0) {
writeStringWithColor(os.Stderr, fmt.Sprintf("%s\n",
errorAndWarningSummary(errors, warnings, shownErrors, shownWarnings)))
}
}
switch options.Color {
case ColorNever:
terminalInfo.UseColorEscapes = false
case ColorAlways:
terminalInfo.UseColorEscapes = SupportsColorEscapes
}
return Log{
Level: options.LogLevel,
AddMsg: func(msg Msg) {
mutex.Lock()
defer mutex.Unlock()
msgs = append(msgs, msg)
switch msg.Kind {
case Verbose:
if options.LogLevel <= LevelVerbose {
writeStringWithColor(os.Stderr, msg.String(options, terminalInfo))
}
case Debug:
if options.LogLevel <= LevelDebug {
writeStringWithColor(os.Stderr, msg.String(options, terminalInfo))
}
case Info:
if options.LogLevel <= LevelInfo {
writeStringWithColor(os.Stderr, msg.String(options, terminalInfo))
}
case Error:
hasErrors = true
if options.LogLevel <= LevelError {
errors++
}
case Warning:
if options.LogLevel <= LevelWarning {
warnings++
}
}
// Be silent if we're past the limit so we don't flood the terminal
if remainingMessagesBeforeLimit == 0 {
return
}
switch msg.Kind {
case Error:
if options.LogLevel <= LevelError {
shownErrors++
writeStringWithColor(os.Stderr, msg.String(options, terminalInfo))
remainingMessagesBeforeLimit--
}
case Warning:
if options.LogLevel <= LevelWarning {
if remainingMessagesBeforeLimit > (options.MessageLimit+1)/2 {
shownWarnings++
writeStringWithColor(os.Stderr, msg.String(options, terminalInfo))
remainingMessagesBeforeLimit--
} else {
// If we have less than half of the slots left, wait for potential
// future errors instead of using up all of the slots with warnings.
// We want the log for a failed build to always have at least one
// error in it.
deferredWarnings = append(deferredWarnings, msg)
}
}
}
},
HasErrors: func() bool {
mutex.Lock()
defer mutex.Unlock()
return hasErrors
},
AlmostDone: func() {
mutex.Lock()
defer mutex.Unlock()
finalizeLog()
},
Done: func() []Msg {
mutex.Lock()
defer mutex.Unlock()
finalizeLog()
sort.Stable(msgs)
return msgs
},
}
}
func PrintErrorToStderr(osArgs []string, text string) {
PrintMessageToStderr(osArgs, Msg{Kind: Error, Data: MsgData{Text: text}})
}
func OutputOptionsForArgs(osArgs []string) OutputOptions {
options := OutputOptions{IncludeSource: true}
// Implement a mini argument parser so these options always work even if we
// haven't yet gotten to the general-purpose argument parsing code
for _, arg := range osArgs {
switch arg {
case "--color=false":
options.Color = ColorNever
case "--color=true":
options.Color = ColorAlways
case "--log-level=info":
options.LogLevel = LevelInfo
case "--log-level=warning":
options.LogLevel = LevelWarning
case "--log-level=error":
options.LogLevel = LevelError
case "--log-level=silent":
options.LogLevel = LevelSilent
}
}
return options
}
func PrintMessageToStderr(osArgs []string, msg Msg) {
log := NewStderrLog(OutputOptionsForArgs(osArgs))
log.AddMsg(msg)
log.Done()
}
type Colors struct {
Reset string
Bold string
Dim string
Underline string
Red string
Green string
Blue string
Cyan string
Magenta string
Yellow string
RedBgRed string
RedBgWhite string
GreenBgGreen string
GreenBgWhite string
BlueBgBlue string
BlueBgWhite string
CyanBgCyan string
CyanBgBlack string
MagentaBgMagenta string
MagentaBgBlack string
YellowBgYellow string
YellowBgBlack string
}
var TerminalColors = Colors{
Reset: "\033[0m",
Bold: "\033[1m",
Dim: "\033[37m",
Underline: "\033[4m",
Red: "\033[31m",
Green: "\033[32m",
Blue: "\033[34m",
Cyan: "\033[36m",
Magenta: "\033[35m",
Yellow: "\033[33m",
RedBgRed: "\033[41;31m",
RedBgWhite: "\033[41;97m",
GreenBgGreen: "\033[42;32m",
GreenBgWhite: "\033[42;97m",
BlueBgBlue: "\033[44;34m",
BlueBgWhite: "\033[44;97m",
CyanBgCyan: "\033[46;36m",
CyanBgBlack: "\033[46;30m",
MagentaBgMagenta: "\033[45;35m",
MagentaBgBlack: "\033[45;30m",
YellowBgYellow: "\033[43;33m",
YellowBgBlack: "\033[43;30m",
}
func PrintText(file *os.File, level LogLevel, osArgs []string, callback func(Colors) string) {
options := OutputOptionsForArgs(osArgs)
// Skip logging these if these logs are disabled
if options.LogLevel > level {
return
}
PrintTextWithColor(file, options.Color, callback)
}
func PrintTextWithColor(file *os.File, useColor UseColor, callback func(Colors) string) {
var useColorEscapes bool
switch useColor {
case ColorNever:
useColorEscapes = false
case ColorAlways:
useColorEscapes = SupportsColorEscapes
case ColorIfTerminal:
useColorEscapes = GetTerminalInfo(file).UseColorEscapes
}
var colors Colors
if useColorEscapes {
colors = TerminalColors
}
writeStringWithColor(file, callback(colors))
}
type SummaryTableEntry struct {
Dir string
Base string
Size string
Bytes int
IsSourceMap bool
}
// This type is just so we can use Go's native sort function
type SummaryTable []SummaryTableEntry
func (t SummaryTable) Len() int { return len(t) }
func (t SummaryTable) Swap(i int, j int) { t[i], t[j] = t[j], t[i] }
func (t SummaryTable) Less(i int, j int) bool {
ti := t[i]
tj := t[j]
// Sort source maps last
if !ti.IsSourceMap && tj.IsSourceMap {
return true
}
if ti.IsSourceMap && !tj.IsSourceMap {
return false
}
// Sort by size first
if ti.Bytes > tj.Bytes {
return true
}
if ti.Bytes < tj.Bytes {
return false
}
// Sort alphabetically by directory first
if ti.Dir < tj.Dir {
return true
}
if ti.Dir > tj.Dir {
return false
}
// Then sort alphabetically by file name
return ti.Base < tj.Base
}
// Show a warning icon next to output files that are 1mb or larger
const sizeWarningThreshold = 1024 * 1024
func PrintSummary(useColor UseColor, table SummaryTable, start *time.Time) {
PrintTextWithColor(os.Stderr, useColor, func(colors Colors) string {
isProbablyWindowsCommandPrompt := isProbablyWindowsCommandPrompt()
sb := strings.Builder{}
if len(table) > 0 {
info := GetTerminalInfo(os.Stderr)
// Truncate the table in case it's really long
maxLength := info.Height / 2
if info.Height == 0 {
maxLength = 20
} else if maxLength < 5 {
maxLength = 5
}
length := len(table)
sort.Sort(table)
if length > maxLength {
table = table[:maxLength]
}
// Compute the maximum width of the size column
spacingBetweenColumns := 2
hasSizeWarning := false
maxPath := 0
maxSize := 0
for _, entry := range table {
path := len(entry.Dir) + len(entry.Base)
size := len(entry.Size) + spacingBetweenColumns
if path > maxPath {
maxPath = path
}
if size > maxSize {
maxSize = size
}
if !entry.IsSourceMap && entry.Bytes >= sizeWarningThreshold {
hasSizeWarning = true
}
}
margin := " "
layoutWidth := info.Width
if layoutWidth < 1 {
layoutWidth = defaultTerminalWidth
}
layoutWidth -= 2 * len(margin)
if hasSizeWarning {
// Add space for the warning icon
layoutWidth -= 2
}
if layoutWidth > maxPath+maxSize {
layoutWidth = maxPath + maxSize
}
sb.WriteByte('\n')
for _, entry := range table {
dir, base := entry.Dir, entry.Base
pathWidth := layoutWidth - maxSize
// Truncate the path with "..." to fit on one line
if len(dir)+len(base) > pathWidth {
// Trim the directory from the front, leaving the trailing slash
if len(dir) > 0 {
n := pathWidth - len(base) - 3
if n < 1 {
n = 1
}
dir = "..." + dir[len(dir)-n:]
}
// Trim the file name from the back
if len(dir)+len(base) > pathWidth {
n := pathWidth - len(dir) - 3
if n < 0 {
n = 0
}
base = base[:n] + "..."
}
}
spacer := layoutWidth - len(entry.Size) - len(dir) - len(base)
if spacer < 0 {
spacer = 0
}
// Put a warning next to the size if it's above a certain threshold
sizeColor := colors.Cyan
sizeWarning := ""
if !entry.IsSourceMap && entry.Bytes >= sizeWarningThreshold {
sizeColor = colors.Yellow
// Emoji don't work in Windows Command Prompt
if !isProbablyWindowsCommandPrompt {
sizeWarning = " ⚠️"
}
}
sb.WriteString(fmt.Sprintf("%s%s%s%s%s%s%s%s%s%s%s%s\n",
margin,
colors.Dim,
dir,
colors.Reset,
colors.Bold,
base,
colors.Reset,
strings.Repeat(" ", spacer),
sizeColor,
entry.Size,
sizeWarning,
colors.Reset,
))
}
// Say how many remaining files are not shown
if length > maxLength {
plural := "s"
if length == maxLength+1 {
plural = ""
}
sb.WriteString(fmt.Sprintf("%s%s...and %d more output file%s...%s\n", margin, colors.Dim, length-maxLength, plural, colors.Reset))
}
}
sb.WriteByte('\n')
lightningSymbol := "⚡ "
// Emoji don't work in Windows Command Prompt
if isProbablyWindowsCommandPrompt {
lightningSymbol = ""
}
// Printing the time taken is optional
if start != nil {
sb.WriteString(fmt.Sprintf("%s%sDone in %dms%s\n",
lightningSymbol,
colors.Green,
time.Since(*start).Milliseconds(),
colors.Reset,
))
}
return sb.String()
})
}
type DeferLogKind uint8
const (
DeferLogAll DeferLogKind = iota
DeferLogNoVerboseOrDebug
)
func NewDeferLog(kind DeferLogKind) Log {
var msgs SortableMsgs
var mutex sync.Mutex
var hasErrors bool
return Log{
Level: LevelInfo,
AddMsg: func(msg Msg) {
if kind == DeferLogNoVerboseOrDebug && (msg.Kind == Verbose || msg.Kind == Debug) {
return
}
mutex.Lock()
defer mutex.Unlock()
if msg.Kind == Error {
hasErrors = true
}
msgs = append(msgs, msg)
},
HasErrors: func() bool {
mutex.Lock()
defer mutex.Unlock()
return hasErrors
},
AlmostDone: func() {
},
Done: func() []Msg {
mutex.Lock()
defer mutex.Unlock()
sort.Stable(msgs)
return msgs
},
}
}
type UseColor uint8
const (
ColorIfTerminal UseColor = iota
ColorNever
ColorAlways
)
type OutputOptions struct {
IncludeSource bool
MessageLimit int
Color UseColor
LogLevel LogLevel
}
func (msg Msg) String(options OutputOptions, terminalInfo TerminalInfo) string {
// Format the message
text := msgString(options.IncludeSource, terminalInfo, msg.Kind, msg.Data, msg.PluginName)
// Format the notes
var oldData MsgData
for i, note := range msg.Notes {
if options.IncludeSource && (i == 0 || strings.IndexByte(oldData.Text, '\n') >= 0 || oldData.Location != nil) {
text += "\n"
}
text += msgString(options.IncludeSource, terminalInfo, Note, note, "")
oldData = note
}
// Add extra spacing between messages if source code is present
if options.IncludeSource {
text += "\n"
}
return text
}
// The number of margin characters in addition to the line number
const extraMarginChars = 9
func marginWithLineText(maxMargin int, line int) string {
number := fmt.Sprintf("%d", line)
return fmt.Sprintf(" %s%s │ ", strings.Repeat(" ", maxMargin-len(number)), number)
}
func emptyMarginText(maxMargin int, isLast bool) string {
space := strings.Repeat(" ", maxMargin)
if isLast {
return fmt.Sprintf(" %s ╵ ", space)
}
return fmt.Sprintf(" %s │ ", space)
}
func msgString(includeSource bool, terminalInfo TerminalInfo, kind MsgKind, data MsgData, pluginName string) string {
if !includeSource {
if loc := data.Location; loc != nil {
return fmt.Sprintf("%s: %s: %s\n", loc.File, kind.String(), data.Text)
}
return fmt.Sprintf("%s: %s\n", kind.String(), data.Text)
}
var colors Colors
if terminalInfo.UseColorEscapes {
colors = TerminalColors
}
var iconColor string
var kindColorBrackets string
var kindColorText string
location := ""
if data.Location != nil {
maxMargin := len(fmt.Sprintf("%d", data.Location.Line))
d := detailStruct(data, terminalInfo, maxMargin)
if d.Suggestion != "" {
location = fmt.Sprintf("\n %s:%d:%d:\n%s%s%s%s%s%s\n%s%s%s%s%s\n%s%s%s%s%s\n%s",
d.Path, d.Line, d.Column,
colors.Dim, d.SourceBefore, colors.Green, d.SourceMarked, colors.Dim, d.SourceAfter,
emptyMarginText(maxMargin, false), d.Indent, colors.Green, d.Marker, colors.Dim,
emptyMarginText(maxMargin, true), d.Indent, colors.Green, d.Suggestion, colors.Reset,
d.ContentAfter,
)
} else {
location = fmt.Sprintf("\n %s:%d:%d:\n%s%s%s%s%s%s\n%s%s%s%s%s\n%s",
d.Path, d.Line, d.Column,
colors.Dim, d.SourceBefore, colors.Green, d.SourceMarked, colors.Dim, d.SourceAfter,
emptyMarginText(maxMargin, true), d.Indent, colors.Green, d.Marker, colors.Reset,
d.ContentAfter,
)
}
}
switch kind {
case Verbose:
iconColor = colors.Cyan
kindColorBrackets = colors.CyanBgCyan
kindColorText = colors.CyanBgBlack
case Debug:
iconColor = colors.Green
kindColorBrackets = colors.GreenBgGreen
kindColorText = colors.GreenBgWhite
case Info:
iconColor = colors.Blue
kindColorBrackets = colors.BlueBgBlue
kindColorText = colors.BlueBgWhite
case Error:
iconColor = colors.Red
kindColorBrackets = colors.RedBgRed
kindColorText = colors.RedBgWhite
case Warning:
iconColor = colors.Yellow
kindColorBrackets = colors.YellowBgYellow
kindColorText = colors.YellowBgBlack
case Note:
sb := strings.Builder{}
for _, line := range strings.Split(data.Text, "\n") {
// Special-case word wrapping
if wrapWidth := terminalInfo.Width; wrapWidth > 2 {
if wrapWidth > 100 {
wrapWidth = 100 // Enforce a maximum paragraph width for readability
}
for _, run := range wrapWordsInString(line, wrapWidth-2) {
sb.WriteString(" ")
sb.WriteString(linkifyText(run, colors.Underline, colors.Reset))
sb.WriteByte('\n')
}
continue
}
// Otherwise, just write an indented line
sb.WriteString(" ")
sb.WriteString(linkifyText(line, colors.Underline, colors.Reset))
sb.WriteByte('\n')
}
sb.WriteString(location)
return sb.String()
}
if pluginName != "" {
pluginName = fmt.Sprintf("%s%s[plugin %s]%s ", colors.Bold, colors.Magenta, pluginName, colors.Reset)
}
return fmt.Sprintf("%s%s %s[%s%s%s]%s %s%s%s%s\n%s",
iconColor, kind.Icon(),
kindColorBrackets, kindColorText, kind.String(), kindColorBrackets, colors.Reset,
pluginName,
colors.Bold, data.Text, colors.Reset,
location,
)
}
func linkifyText(text string, underline string, reset string) string {
if underline == "" {
return text
}
https := strings.Index(text, "https://")
if https == -1 {
return text
}
sb := strings.Builder{}
for {
https := strings.Index(text, "https://")
if https == -1 {
break
}
end := strings.IndexByte(text[https:], ' ')
if end == -1 {
end = len(text)
} else {
end += https
}
// Remove trailing punctuation
if end > https {
switch text[end-1] {
case '.', ',', '?', '!', ')', ']', '}':
end--
}
}
sb.WriteString(text[:https])
sb.WriteString(underline)
sb.WriteString(text[https:end])
sb.WriteString(reset)
text = text[end:]
}
sb.WriteString(text)
return sb.String()
}
func wrapWordsInString(text string, width int) []string {
runs := []string{}
outer:
for text != "" {
i := 0
x := 0
wordEndI := 0
// Skip over any leading spaces
for i < len(text) && text[i] == ' ' {
i++
x++
}
// Find out how many words will fit in this run
for i < len(text) {
oldWordEndI := wordEndI
wordStartI := i
// Find the end of the word
for i < len(text) {
c, width := utf8.DecodeRuneInString(text[i:])
if c == ' ' {
break
}
i += width
x += 1 // Naively assume that each unicode code point is a single column
}
wordEndI = i
// Split into a new run if this isn't the first word in the run and the end is past the width
if wordStartI > 0 && x > width {
runs = append(runs, text[:oldWordEndI])
text = text[wordStartI:]
continue outer
}
// Skip over any spaces after the word
for i < len(text) && text[i] == ' ' {
i++
x++
}
}
// If we get here, this is the last run (i.e. everything fits)
break
}
// Remove any trailing spaces on the last run
for len(text) > 0 && text[len(text)-1] == ' ' {
text = text[:len(text)-1]
}
runs = append(runs, text)
return runs
}
type MsgDetail struct {
Path string
Line int
Column int
SourceBefore string
SourceMarked string
SourceAfter string
Indent string
Marker string
Suggestion string
ContentAfter string
}
// It's not common for large files to have many warnings. But when it happens,
// we want to make sure that it's not too slow. Source code locations are
// represented as byte offsets for compactness but transforming these to
// line/column locations for warning messages requires scanning through the
// file. A naive approach for this would cause O(n^2) scanning time for n
// warnings distributed throughout the file.
//
// Warnings are typically generated sequentially as the file is scanned. So
// one way of optimizing this is to just start scanning from where we left
// off last time instead of always starting from the beginning of the file.
// That's what this object does.
//
// Another option could be to eagerly populate an array of line/column offsets
// and then use binary search for each query. This might slow down the common
// case of a file with only at most a few warnings though, so think before
// optimizing too much. Performance in the zero or one warning case is by far
// the most important.
type LineColumnTracker struct {
contents string
prettyPath string
offset int32
line int32
lineStart int32
lineEnd int32
hasLineStart bool
hasLineEnd bool
hasSource bool
}
func MakeLineColumnTracker(source *Source) LineColumnTracker {
if source == nil {
return LineColumnTracker{
hasSource: false,
}
}
return LineColumnTracker{
contents: source.Contents,
prettyPath: source.PrettyPath,
hasLineStart: true,
hasSource: true,
}
}
func (tracker *LineColumnTracker) MsgData(r Range, text string) MsgData {
return MsgData{
Text: text,
Location: tracker.MsgLocationOrNil(r),
}
}
func (t *LineColumnTracker) scanTo(offset int32) {
contents := t.contents
i := t.offset
// Scan forward
if i < offset {
for {
r, size := utf8.DecodeRuneInString(contents[i:])
i += int32(size)
switch r {
case '\n':
t.hasLineStart = true
t.hasLineEnd = false
t.lineStart = i
if i == int32(size) || contents[i-int32(size)-1] != '\r' {
t.line++
}
case '\r', '\u2028', '\u2029':
t.hasLineStart = true
t.hasLineEnd = false
t.lineStart = i
t.line++
}
if i >= offset {
t.offset = i
return
}
}
}
// Scan backward
if i > offset {
for {
r, size := utf8.DecodeLastRuneInString(contents[:i])
i -= int32(size)
switch r {
case '\n':
t.hasLineStart = false
t.hasLineEnd = true
t.lineEnd = i
if i == 0 || contents[i-1] != '\r' {
t.line--
}
case '\r', '\u2028', '\u2029':
t.hasLineStart = false
t.hasLineEnd = true
t.lineEnd = i
t.line--
}
if i <= offset {
t.offset = i
return
}
}
}
}
func (t *LineColumnTracker) computeLineAndColumn(offset int) (lineCount int, columnCount int, lineStart int, lineEnd int) {
t.scanTo(int32(offset))
// Scan for the start of the line
if !t.hasLineStart {
contents := t.contents
i := t.offset
for i > 0 {
r, size := utf8.DecodeLastRuneInString(contents[:i])
if r == '\n' || r == '\r' || r == '\u2028' || r == '\u2029' {
break
}
i -= int32(size)
}
t.hasLineStart = true
t.lineStart = i
}
// Scan for the end of the line
if !t.hasLineEnd {
contents := t.contents
i := t.offset
n := int32(len(contents))
for i < n {
r, size := utf8.DecodeRuneInString(contents[i:])
if r == '\n' || r == '\r' || r == '\u2028' || r == '\u2029' {
break
}
i += int32(size)
}
t.hasLineEnd = true
t.lineEnd = i
}
return int(t.line), offset - int(t.lineStart), int(t.lineStart), int(t.lineEnd)
}
func (tracker *LineColumnTracker) MsgLocationOrNil(r Range) *MsgLocation {
if tracker == nil || !tracker.hasSource {
return nil
}
// Convert the index into a line and column number
lineCount, columnCount, lineStart, lineEnd := tracker.computeLineAndColumn(int(r.Loc.Start))
return &MsgLocation{
File: tracker.prettyPath,
Line: lineCount + 1, // 0-based to 1-based
Column: columnCount,
Length: int(r.Len),
LineText: tracker.contents[lineStart:lineEnd],
}
}
func detailStruct(data MsgData, terminalInfo TerminalInfo, maxMargin int) MsgDetail {
// Only highlight the first line of the line text
loc := *data.Location
endOfFirstLine := len(loc.LineText)
for i, c := range loc.LineText {
if c == '\r' || c == '\n' || c == '\u2028' || c == '\u2029' {
endOfFirstLine = i
break
}
}
firstLine := loc.LineText[:endOfFirstLine]
afterFirstLine := loc.LineText[endOfFirstLine:]
if afterFirstLine != "" && !strings.HasSuffix(afterFirstLine, "\n") {
afterFirstLine += "\n"
}
// Clamp values in range
if loc.Line < 0 {
loc.Line = 0
}
if loc.Column < 0 {
loc.Column = 0
}
if loc.Length < 0 {
loc.Length = 0
}
if loc.Column > endOfFirstLine {
loc.Column = endOfFirstLine
}
if loc.Length > endOfFirstLine-loc.Column {
loc.Length = endOfFirstLine - loc.Column
}
spacesPerTab := 2
lineText := renderTabStops(firstLine, spacesPerTab)
textUpToLoc := renderTabStops(firstLine[:loc.Column], spacesPerTab)
markerStart := len(textUpToLoc)
markerEnd := markerStart
indent := strings.Repeat(" ", estimateWidthInTerminal(textUpToLoc))
marker := "^"
// Extend markers to cover the full range of the error
if loc.Length > 0 {
markerEnd = len(renderTabStops(firstLine[:loc.Column+loc.Length], spacesPerTab))
}
// Clip the marker to the bounds of the line
if markerStart > len(lineText) {
markerStart = len(lineText)
}
if markerEnd > len(lineText) {
markerEnd = len(lineText)
}
if markerEnd < markerStart {
markerEnd = markerStart
}
// Trim the line to fit the terminal width
width := terminalInfo.Width
if width < 1 {
width = defaultTerminalWidth
}
width -= maxMargin + extraMarginChars
if width < 1 {
width = 1
}
if loc.Column == endOfFirstLine {
// If the marker is at the very end of the line, the marker will be a "^"
// character that extends one column past the end of the line. In this case
// we should reserve a column at the end so the marker doesn't wrap.
width -= 1
}
if len(lineText) > width {
// Try to center the error
sliceStart := (markerStart + markerEnd - width) / 2
if sliceStart > markerStart-width/5 {
sliceStart = markerStart - width/5
}
if sliceStart < 0 {
sliceStart = 0
}
if sliceStart > len(lineText)-width {
sliceStart = len(lineText) - width
}
sliceEnd := sliceStart + width
// Slice the line
slicedLine := lineText[sliceStart:sliceEnd]
markerStart -= sliceStart
markerEnd -= sliceStart
if markerStart < 0 {
markerStart = 0
}
if markerEnd > len(slicedLine) {
markerEnd = len(slicedLine)
}
// Truncate the ends with "..."
if len(slicedLine) > 3 && sliceStart > 0 {
slicedLine = "..." + slicedLine[3:]
if markerStart < 3 {
markerStart = 3
}
}
if len(slicedLine) > 3 && sliceEnd < len(lineText) {
slicedLine = slicedLine[:len(slicedLine)-3] + "..."
if markerEnd > len(slicedLine)-3 {
markerEnd = len(slicedLine) - 3
}
if markerEnd < markerStart {
markerEnd = markerStart
}
}
// Now we can compute the indent
lineText = slicedLine
indent = strings.Repeat(" ", estimateWidthInTerminal(lineText[:markerStart]))
}
// If marker is still multi-character after clipping, make the marker wider
if markerEnd-markerStart > 1 {
marker = strings.Repeat("~", estimateWidthInTerminal(lineText[markerStart:markerEnd]))
}
// Put a margin before the marker indent
margin := marginWithLineText(maxMargin, loc.Line)
return MsgDetail{
Path: loc.File,
Line: loc.Line,
Column: loc.Column,
SourceBefore: margin + lineText[:markerStart],
SourceMarked: lineText[markerStart:markerEnd],
SourceAfter: lineText[markerEnd:],
Indent: indent,
Marker: marker,
Suggestion: loc.Suggestion,
ContentAfter: afterFirstLine,
}
}
// Estimate the number of columns this string will take when printed
func estimateWidthInTerminal(text string) int {
// For now just assume each code point is one column. This is wrong but is
// less wrong than assuming each code unit is one column.
width := 0
for text != "" {
c, size := utf8.DecodeRuneInString(text)
text = text[size:]
// Ignore the Zero Width No-Break Space character (UTF-8 BOM)
if c != 0xFEFF {
width++
}
}
return width
}
func renderTabStops(withTabs string, spacesPerTab int) string {
if !strings.ContainsRune(withTabs, '\t') {
return withTabs
}
withoutTabs := strings.Builder{}
count := 0
for _, c := range withTabs {
if c == '\t' {
spaces := spacesPerTab - count%spacesPerTab
for i := 0; i < spaces; i++ {
withoutTabs.WriteRune(' ')
count++
}
} else {
withoutTabs.WriteRune(c)
count++
}
}
return withoutTabs.String()
}
func (log Log) Add(kind MsgKind, tracker *LineColumnTracker, r Range, text string) {
log.AddMsg(Msg{
Kind: kind,
Data: tracker.MsgData(r, text),
})
}
func (log Log) AddWithNotes(kind MsgKind, tracker *LineColumnTracker, r Range, text string, notes []MsgData) {
log.AddMsg(Msg{
Kind: kind,
Data: tracker.MsgData(r, text),
Notes: notes,
})
}