From 351c15d28e0444fd8a78c510a0c4d62ed433c758 Mon Sep 17 00:00:00 2001 From: Thomas Voss Date: Wed, 7 Aug 2024 00:21:12 +0200 Subject: Genesis commit --- vendor/golang.org/x/text/message/catalog.go | 36 + .../golang.org/x/text/message/catalog/catalog.go | 365 ++++++++ vendor/golang.org/x/text/message/catalog/dict.go | 129 +++ vendor/golang.org/x/text/message/catalog/go19.go | 15 + .../golang.org/x/text/message/catalog/gopre19.go | 23 + vendor/golang.org/x/text/message/doc.go | 99 +++ vendor/golang.org/x/text/message/format.go | 510 +++++++++++ vendor/golang.org/x/text/message/message.go | 192 ++++ vendor/golang.org/x/text/message/print.go | 984 +++++++++++++++++++++ 9 files changed, 2353 insertions(+) create mode 100644 vendor/golang.org/x/text/message/catalog.go create mode 100644 vendor/golang.org/x/text/message/catalog/catalog.go create mode 100644 vendor/golang.org/x/text/message/catalog/dict.go create mode 100644 vendor/golang.org/x/text/message/catalog/go19.go create mode 100644 vendor/golang.org/x/text/message/catalog/gopre19.go create mode 100644 vendor/golang.org/x/text/message/doc.go create mode 100644 vendor/golang.org/x/text/message/format.go create mode 100644 vendor/golang.org/x/text/message/message.go create mode 100644 vendor/golang.org/x/text/message/print.go (limited to 'vendor/golang.org/x/text/message') diff --git a/vendor/golang.org/x/text/message/catalog.go b/vendor/golang.org/x/text/message/catalog.go new file mode 100644 index 0000000..068271d --- /dev/null +++ b/vendor/golang.org/x/text/message/catalog.go @@ -0,0 +1,36 @@ +// Copyright 2015 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 file. + +package message + +// TODO: some types in this file will need to be made public at some time. +// Documentation and method names will reflect this by using the exported name. + +import ( + "golang.org/x/text/language" + "golang.org/x/text/message/catalog" +) + +// MatchLanguage reports the matched tag obtained from language.MatchStrings for +// the Matcher of the DefaultCatalog. +func MatchLanguage(preferred ...string) language.Tag { + c := DefaultCatalog + tag, _ := language.MatchStrings(c.Matcher(), preferred...) + return tag +} + +// DefaultCatalog is used by SetString. +var DefaultCatalog catalog.Catalog = defaultCatalog + +var defaultCatalog = catalog.NewBuilder() + +// SetString calls SetString on the initial default Catalog. +func SetString(tag language.Tag, key string, msg string) error { + return defaultCatalog.SetString(tag, key, msg) +} + +// Set calls Set on the initial default Catalog. +func Set(tag language.Tag, key string, msg ...catalog.Message) error { + return defaultCatalog.Set(tag, key, msg...) +} diff --git a/vendor/golang.org/x/text/message/catalog/catalog.go b/vendor/golang.org/x/text/message/catalog/catalog.go new file mode 100644 index 0000000..96955d0 --- /dev/null +++ b/vendor/golang.org/x/text/message/catalog/catalog.go @@ -0,0 +1,365 @@ +// Copyright 2017 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 file. + +// Package catalog defines collections of translated format strings. +// +// This package mostly defines types for populating catalogs with messages. The +// catmsg package contains further definitions for creating custom message and +// dictionary types as well as packages that use Catalogs. +// +// Package catalog defines various interfaces: Dictionary, Loader, and Message. +// A Dictionary maintains a set of translations of format strings for a single +// language. The Loader interface defines a source of dictionaries. A +// translation of a format string is represented by a Message. +// +// # Catalogs +// +// A Catalog defines a programmatic interface for setting message translations. +// It maintains a set of per-language dictionaries with translations for a set +// of keys. For message translation to function properly, a translation should +// be defined for each key for each supported language. A dictionary may be +// underspecified, though, if there is a parent language that already defines +// the key. For example, a Dictionary for "en-GB" could leave out entries that +// are identical to those in a dictionary for "en". +// +// # Messages +// +// A Message is a format string which varies on the value of substitution +// variables. For instance, to indicate the number of results one could want "no +// results" if there are none, "1 result" if there is 1, and "%d results" for +// any other number. Catalog is agnostic to the kind of format strings that are +// used: for instance, messages can follow either the printf-style substitution +// from package fmt or use templates. +// +// A Message does not substitute arguments in the format string. This job is +// reserved for packages that render strings, such as message, that use Catalogs +// to selected string. This separation of concerns allows Catalog to be used to +// store any kind of formatting strings. +// +// # Selecting messages based on linguistic features of substitution arguments +// +// Messages may vary based on any linguistic features of the argument values. +// The most common one is plural form, but others exist. +// +// Selection messages are provided in packages that provide support for a +// specific linguistic feature. The following snippet uses plural.Selectf: +// +// catalog.Set(language.English, "You are %d minute(s) late.", +// plural.Selectf(1, "", +// plural.One, "You are 1 minute late.", +// plural.Other, "You are %d minutes late.")) +// +// In this example, a message is stored in the Catalog where one of two messages +// is selected based on the first argument, a number. The first message is +// selected if the argument is singular (identified by the selector "one") and +// the second message is selected in all other cases. The selectors are defined +// by the plural rules defined in CLDR. The selector "other" is special and will +// always match. Each language always defines one of the linguistic categories +// to be "other." For English, singular is "one" and plural is "other". +// +// Selects can be nested. This allows selecting sentences based on features of +// multiple arguments or multiple linguistic properties of a single argument. +// +// # String interpolation +// +// There is often a lot of commonality between the possible variants of a +// message. For instance, in the example above the word "minute" varies based on +// the plural catogory of the argument, but the rest of the sentence is +// identical. Using interpolation the above message can be rewritten as: +// +// catalog.Set(language.English, "You are %d minute(s) late.", +// catalog.Var("minutes", +// plural.Selectf(1, "", plural.One, "minute", plural.Other, "minutes")), +// catalog.String("You are %[1]d ${minutes} late.")) +// +// Var is defined to return the variable name if the message does not yield a +// match. This allows us to further simplify this snippet to +// +// catalog.Set(language.English, "You are %d minute(s) late.", +// catalog.Var("minutes", plural.Selectf(1, "", plural.One, "minute")), +// catalog.String("You are %d ${minutes} late.")) +// +// Overall this is still only a minor improvement, but things can get a lot more +// unwieldy if more than one linguistic feature is used to determine a message +// variant. Consider the following example: +// +// // argument 1: list of hosts, argument 2: list of guests +// catalog.Set(language.English, "%[1]v invite(s) %[2]v to their party.", +// catalog.Var("their", +// plural.Selectf(1, "" +// plural.One, gender.Select(1, "female", "her", "other", "his"))), +// catalog.Var("invites", plural.Selectf(1, "", plural.One, "invite")) +// catalog.String("%[1]v ${invites} %[2]v to ${their} party.")), +// +// Without variable substitution, this would have to be written as +// +// // argument 1: list of hosts, argument 2: list of guests +// catalog.Set(language.English, "%[1]v invite(s) %[2]v to their party.", +// plural.Selectf(1, "", +// plural.One, gender.Select(1, +// "female", "%[1]v invites %[2]v to her party." +// "other", "%[1]v invites %[2]v to his party."), +// plural.Other, "%[1]v invites %[2]v to their party.")) +// +// Not necessarily shorter, but using variables there is less duplication and +// the messages are more maintenance friendly. Moreover, languages may have up +// to six plural forms. This makes the use of variables more welcome. +// +// Different messages using the same inflections can reuse variables by moving +// them to macros. Using macros we can rewrite the message as: +// +// // argument 1: list of hosts, argument 2: list of guests +// catalog.SetString(language.English, "%[1]v invite(s) %[2]v to their party.", +// "%[1]v ${invites(1)} %[2]v to ${their(1)} party.") +// +// Where the following macros were defined separately. +// +// catalog.SetMacro(language.English, "invites", plural.Selectf(1, "", +// plural.One, "invite")) +// catalog.SetMacro(language.English, "their", plural.Selectf(1, "", +// plural.One, gender.Select(1, "female", "her", "other", "his"))), +// +// Placeholders use parentheses and the arguments to invoke a macro. +// +// # Looking up messages +// +// Message lookup using Catalogs is typically only done by specialized packages +// and is not something the user should be concerned with. For instance, to +// express the tardiness of a user using the related message we defined earlier, +// the user may use the package message like so: +// +// p := message.NewPrinter(language.English) +// p.Printf("You are %d minute(s) late.", 5) +// +// Which would print: +// +// You are 5 minutes late. +// +// This package is UNDER CONSTRUCTION and its API may change. +package catalog // import "golang.org/x/text/message/catalog" + +// TODO: +// Some way to freeze a catalog. +// - Locking on each lockup turns out to be about 50% of the total running time +// for some of the benchmarks in the message package. +// Consider these: +// - Sequence type to support sequences in user-defined messages. +// - Garbage collection: Remove dictionaries that can no longer be reached +// as other dictionaries have been added that cover all possible keys. + +import ( + "errors" + "fmt" + + "golang.org/x/text/internal" + + "golang.org/x/text/internal/catmsg" + "golang.org/x/text/language" +) + +// A Catalog allows lookup of translated messages. +type Catalog interface { + // Languages returns all languages for which the Catalog contains variants. + Languages() []language.Tag + + // Matcher returns a Matcher for languages from this Catalog. + Matcher() language.Matcher + + // A Context is used for evaluating Messages. + Context(tag language.Tag, r catmsg.Renderer) *Context + + // This method also makes Catalog a private interface. + lookup(tag language.Tag, key string) (data string, ok bool) +} + +// NewFromMap creates a Catalog from the given map. If a Dictionary is +// underspecified the entry is retrieved from a parent language. +func NewFromMap(dictionaries map[string]Dictionary, opts ...Option) (Catalog, error) { + options := options{} + for _, o := range opts { + o(&options) + } + c := &catalog{ + dicts: map[language.Tag]Dictionary{}, + } + _, hasFallback := dictionaries[options.fallback.String()] + if hasFallback { + // TODO: Should it be okay to not have a fallback language? + // Catalog generators could enforce there is always a fallback. + c.langs = append(c.langs, options.fallback) + } + for lang, dict := range dictionaries { + tag, err := language.Parse(lang) + if err != nil { + return nil, fmt.Errorf("catalog: invalid language tag %q", lang) + } + if _, ok := c.dicts[tag]; ok { + return nil, fmt.Errorf("catalog: duplicate entry for tag %q after normalization", tag) + } + c.dicts[tag] = dict + if !hasFallback || tag != options.fallback { + c.langs = append(c.langs, tag) + } + } + if hasFallback { + internal.SortTags(c.langs[1:]) + } else { + internal.SortTags(c.langs) + } + c.matcher = language.NewMatcher(c.langs) + return c, nil +} + +// A Dictionary is a source of translations for a single language. +type Dictionary interface { + // Lookup returns a message compiled with catmsg.Compile for the given key. + // It returns false for ok if such a message could not be found. + Lookup(key string) (data string, ok bool) +} + +type catalog struct { + langs []language.Tag + dicts map[language.Tag]Dictionary + macros store + matcher language.Matcher +} + +func (c *catalog) Languages() []language.Tag { return c.langs } +func (c *catalog) Matcher() language.Matcher { return c.matcher } + +func (c *catalog) lookup(tag language.Tag, key string) (data string, ok bool) { + for ; ; tag = tag.Parent() { + if dict, ok := c.dicts[tag]; ok { + if data, ok := dict.Lookup(key); ok { + return data, true + } + } + if tag == language.Und { + break + } + } + return "", false +} + +// Context returns a Context for formatting messages. +// Only one Message may be formatted per context at any given time. +func (c *catalog) Context(tag language.Tag, r catmsg.Renderer) *Context { + return &Context{ + cat: c, + tag: tag, + dec: catmsg.NewDecoder(tag, r, &dict{&c.macros, tag}), + } +} + +// A Builder allows building a Catalog programmatically. +type Builder struct { + options + matcher language.Matcher + + index store + macros store +} + +type options struct { + fallback language.Tag +} + +// An Option configures Catalog behavior. +type Option func(*options) + +// Fallback specifies the default fallback language. The default is Und. +func Fallback(tag language.Tag) Option { + return func(o *options) { o.fallback = tag } +} + +// TODO: +// // Catalogs specifies one or more sources for a Catalog. +// // Lookups are in order. +// // This can be changed inserting a Catalog used for setting, which implements +// // Loader, used for setting in the chain. +// func Catalogs(d ...Loader) Option { +// return nil +// } +// +// func Delims(start, end string) Option {} +// +// func Dict(tag language.Tag, d ...Dictionary) Option + +// NewBuilder returns an empty mutable Catalog. +func NewBuilder(opts ...Option) *Builder { + c := &Builder{} + for _, o := range opts { + o(&c.options) + } + return c +} + +// SetString is shorthand for Set(tag, key, String(msg)). +func (c *Builder) SetString(tag language.Tag, key string, msg string) error { + return c.set(tag, key, &c.index, String(msg)) +} + +// Set sets the translation for the given language and key. +// +// When evaluation this message, the first Message in the sequence to msgs to +// evaluate to a string will be the message returned. +func (c *Builder) Set(tag language.Tag, key string, msg ...Message) error { + return c.set(tag, key, &c.index, msg...) +} + +// SetMacro defines a Message that may be substituted in another message. +// The arguments to a macro Message are passed as arguments in the +// placeholder the form "${foo(arg1, arg2)}". +func (c *Builder) SetMacro(tag language.Tag, name string, msg ...Message) error { + return c.set(tag, name, &c.macros, msg...) +} + +// ErrNotFound indicates there was no message for the given key. +var ErrNotFound = errors.New("catalog: message not found") + +// String specifies a plain message string. It can be used as fallback if no +// other strings match or as a simple standalone message. +// +// It is an error to pass more than one String in a message sequence. +func String(name string) Message { + return catmsg.String(name) +} + +// Var sets a variable that may be substituted in formatting patterns using +// named substitution of the form "${name}". The name argument is used as a +// fallback if the statements do not produce a match. The statement sequence may +// not contain any Var calls. +// +// The name passed to a Var must be unique within message sequence. +func Var(name string, msg ...Message) Message { + return &catmsg.Var{Name: name, Message: firstInSequence(msg)} +} + +// Context returns a Context for formatting messages. +// Only one Message may be formatted per context at any given time. +func (b *Builder) Context(tag language.Tag, r catmsg.Renderer) *Context { + return &Context{ + cat: b, + tag: tag, + dec: catmsg.NewDecoder(tag, r, &dict{&b.macros, tag}), + } +} + +// A Context is used for evaluating Messages. +// Only one Message may be formatted per context at any given time. +type Context struct { + cat Catalog + tag language.Tag // TODO: use compact index. + dec *catmsg.Decoder +} + +// Execute looks up and executes the message with the given key. +// It returns ErrNotFound if no message could be found in the index. +func (c *Context) Execute(key string) error { + data, ok := c.cat.lookup(c.tag, key) + if !ok { + return ErrNotFound + } + return c.dec.Execute(data) +} diff --git a/vendor/golang.org/x/text/message/catalog/dict.go b/vendor/golang.org/x/text/message/catalog/dict.go new file mode 100644 index 0000000..a0eb818 --- /dev/null +++ b/vendor/golang.org/x/text/message/catalog/dict.go @@ -0,0 +1,129 @@ +// Copyright 2017 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 file. + +package catalog + +import ( + "sync" + + "golang.org/x/text/internal" + "golang.org/x/text/internal/catmsg" + "golang.org/x/text/language" +) + +// TODO: +// Dictionary returns a Dictionary that returns the first Message, using the +// given language tag, that matches: +// 1. the last one registered by one of the Set methods +// 2. returned by one of the Loaders +// 3. repeat from 1. using the parent language +// This approach allows messages to be underspecified. +// func (c *Catalog) Dictionary(tag language.Tag) (Dictionary, error) { +// // TODO: verify dictionary exists. +// return &dict{&c.index, tag}, nil +// } + +type dict struct { + s *store + tag language.Tag // TODO: make compact tag. +} + +func (d *dict) Lookup(key string) (data string, ok bool) { + return d.s.lookup(d.tag, key) +} + +func (b *Builder) lookup(tag language.Tag, key string) (data string, ok bool) { + return b.index.lookup(tag, key) +} + +func (c *Builder) set(tag language.Tag, key string, s *store, msg ...Message) error { + data, err := catmsg.Compile(tag, &dict{&c.macros, tag}, firstInSequence(msg)) + + s.mutex.Lock() + defer s.mutex.Unlock() + + m := s.index[tag] + if m == nil { + m = msgMap{} + if s.index == nil { + s.index = map[language.Tag]msgMap{} + } + c.matcher = nil + s.index[tag] = m + } + + m[key] = data + return err +} + +func (c *Builder) Matcher() language.Matcher { + c.index.mutex.RLock() + m := c.matcher + c.index.mutex.RUnlock() + if m != nil { + return m + } + + c.index.mutex.Lock() + if c.matcher == nil { + c.matcher = language.NewMatcher(c.unlockedLanguages()) + } + m = c.matcher + c.index.mutex.Unlock() + return m +} + +type store struct { + mutex sync.RWMutex + index map[language.Tag]msgMap +} + +type msgMap map[string]string + +func (s *store) lookup(tag language.Tag, key string) (data string, ok bool) { + s.mutex.RLock() + defer s.mutex.RUnlock() + + for ; ; tag = tag.Parent() { + if msgs, ok := s.index[tag]; ok { + if msg, ok := msgs[key]; ok { + return msg, true + } + } + if tag == language.Und { + break + } + } + return "", false +} + +// Languages returns all languages for which the Catalog contains variants. +func (b *Builder) Languages() []language.Tag { + s := &b.index + s.mutex.RLock() + defer s.mutex.RUnlock() + + return b.unlockedLanguages() +} + +func (b *Builder) unlockedLanguages() []language.Tag { + s := &b.index + if len(s.index) == 0 { + return nil + } + tags := make([]language.Tag, 0, len(s.index)) + _, hasFallback := s.index[b.options.fallback] + offset := 0 + if hasFallback { + tags = append(tags, b.options.fallback) + offset = 1 + } + for t := range s.index { + if t != b.options.fallback { + tags = append(tags, t) + } + } + internal.SortTags(tags[offset:]) + return tags +} diff --git a/vendor/golang.org/x/text/message/catalog/go19.go b/vendor/golang.org/x/text/message/catalog/go19.go new file mode 100644 index 0000000..291a4df --- /dev/null +++ b/vendor/golang.org/x/text/message/catalog/go19.go @@ -0,0 +1,15 @@ +// Copyright 2017 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 file. + +//go:build go1.9 + +package catalog + +import "golang.org/x/text/internal/catmsg" + +// A Message holds a collection of translations for the same phrase that may +// vary based on the values of substitution arguments. +type Message = catmsg.Message + +type firstInSequence = catmsg.FirstOf diff --git a/vendor/golang.org/x/text/message/catalog/gopre19.go b/vendor/golang.org/x/text/message/catalog/gopre19.go new file mode 100644 index 0000000..da44ebb --- /dev/null +++ b/vendor/golang.org/x/text/message/catalog/gopre19.go @@ -0,0 +1,23 @@ +// Copyright 2017 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 file. + +//go:build !go1.9 + +package catalog + +import "golang.org/x/text/internal/catmsg" + +// A Message holds a collection of translations for the same phrase that may +// vary based on the values of substitution arguments. +type Message interface { + catmsg.Message +} + +func firstInSequence(m []Message) catmsg.Message { + a := []catmsg.Message{} + for _, m := range m { + a = append(a, m) + } + return catmsg.FirstOf(a) +} diff --git a/vendor/golang.org/x/text/message/doc.go b/vendor/golang.org/x/text/message/doc.go new file mode 100644 index 0000000..4bf7bdc --- /dev/null +++ b/vendor/golang.org/x/text/message/doc.go @@ -0,0 +1,99 @@ +// Copyright 2017 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 file. + +// Package message implements formatted I/O for localized strings with functions +// analogous to the fmt's print functions. It is a drop-in replacement for fmt. +// +// # Localized Formatting +// +// A format string can be localized by replacing any of the print functions of +// fmt with an equivalent call to a Printer. +// +// p := message.NewPrinter(message.MatchLanguage("en")) +// p.Println(123456.78) // Prints 123,456.78 +// +// p.Printf("%d ducks in a row", 4331) // Prints 4,331 ducks in a row +// +// p := message.NewPrinter(message.MatchLanguage("nl")) +// p.Printf("Hoogte: %.1f meter", 1244.9) // Prints Hoogte: 1,244.9 meter +// +// p := message.NewPrinter(message.MatchLanguage("bn")) +// p.Println(123456.78) // Prints ১,২৩,৪৫৬.৭৮ +// +// Printer currently supports numbers and specialized types for which packages +// exist in x/text. Other builtin types such as time.Time and slices are +// planned. +// +// Format strings largely have the same meaning as with fmt with the following +// notable exceptions: +// - flag # always resorts to fmt for printing +// - verb 'f', 'e', 'g', 'd' use localized formatting unless the '#' flag is +// specified. +// - verb 'm' inserts a translation of a string argument. +// +// See package fmt for more options. +// +// # Translation +// +// The format strings that are passed to Printf, Sprintf, Fprintf, or Errorf +// are used as keys to look up translations for the specified languages. +// More on how these need to be specified below. +// +// One can use arbitrary keys to distinguish between otherwise ambiguous +// strings: +// +// p := message.NewPrinter(language.English) +// p.Printf("archive(noun)") // Prints "archive" +// p.Printf("archive(verb)") // Prints "archive" +// +// p := message.NewPrinter(language.German) +// p.Printf("archive(noun)") // Prints "Archiv" +// p.Printf("archive(verb)") // Prints "archivieren" +// +// To retain the fallback functionality, use Key: +// +// p.Printf(message.Key("archive(noun)", "archive")) +// p.Printf(message.Key("archive(verb)", "archive")) +// +// # Translation Pipeline +// +// Format strings that contain text need to be translated to support different +// locales. The first step is to extract strings that need to be translated. +// +// 1. Install gotext +// +// go get -u golang.org/x/text/cmd/gotext +// gotext -help +// +// 2. Mark strings in your source to be translated by using message.Printer, +// instead of the functions of the fmt package. +// +// 3. Extract the strings from your source +// +// gotext extract +// +// The output will be written to the textdata directory. +// +// 4. Send the files for translation +// +// It is planned to support multiple formats, but for now one will have to +// rewrite the JSON output to the desired format. +// +// 5. Inject translations into program +// +// 6. Repeat from 2 +// +// Right now this has to be done programmatically with calls to Set or +// SetString. These functions as well as the methods defined in +// see also package golang.org/x/text/message/catalog can be used to implement +// either dynamic or static loading of messages. +// +// # Plural and Gender Forms +// +// Translated messages can vary based on the plural and gender forms of +// substitution values. In general, it is up to the translators to provide +// alternative translations for such forms. See the packages in +// golang.org/x/text/feature and golang.org/x/text/message/catalog for more +// information. +package message diff --git a/vendor/golang.org/x/text/message/format.go b/vendor/golang.org/x/text/message/format.go new file mode 100644 index 0000000..a47d17d --- /dev/null +++ b/vendor/golang.org/x/text/message/format.go @@ -0,0 +1,510 @@ +// Copyright 2017 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 file. + +package message + +import ( + "bytes" + "strconv" + "unicode/utf8" + + "golang.org/x/text/internal/format" +) + +const ( + ldigits = "0123456789abcdefx" + udigits = "0123456789ABCDEFX" +) + +const ( + signed = true + unsigned = false +) + +// A formatInfo is the raw formatter used by Printf etc. +// It prints into a buffer that must be set up separately. +type formatInfo struct { + buf *bytes.Buffer + + format.Parser + + // intbuf is large enough to store %b of an int64 with a sign and + // avoids padding at the end of the struct on 32 bit architectures. + intbuf [68]byte +} + +func (f *formatInfo) init(buf *bytes.Buffer) { + f.ClearFlags() + f.buf = buf +} + +// writePadding generates n bytes of padding. +func (f *formatInfo) writePadding(n int) { + if n <= 0 { // No padding bytes needed. + return + } + f.buf.Grow(n) + // Decide which byte the padding should be filled with. + padByte := byte(' ') + if f.Zero { + padByte = byte('0') + } + // Fill padding with padByte. + for i := 0; i < n; i++ { + f.buf.WriteByte(padByte) // TODO: make more efficient. + } +} + +// pad appends b to f.buf, padded on left (!f.minus) or right (f.minus). +func (f *formatInfo) pad(b []byte) { + if !f.WidthPresent || f.Width == 0 { + f.buf.Write(b) + return + } + width := f.Width - utf8.RuneCount(b) + if !f.Minus { + // left padding + f.writePadding(width) + f.buf.Write(b) + } else { + // right padding + f.buf.Write(b) + f.writePadding(width) + } +} + +// padString appends s to f.buf, padded on left (!f.minus) or right (f.minus). +func (f *formatInfo) padString(s string) { + if !f.WidthPresent || f.Width == 0 { + f.buf.WriteString(s) + return + } + width := f.Width - utf8.RuneCountInString(s) + if !f.Minus { + // left padding + f.writePadding(width) + f.buf.WriteString(s) + } else { + // right padding + f.buf.WriteString(s) + f.writePadding(width) + } +} + +// fmt_boolean formats a boolean. +func (f *formatInfo) fmt_boolean(v bool) { + if v { + f.padString("true") + } else { + f.padString("false") + } +} + +// fmt_unicode formats a uint64 as "U+0078" or with f.sharp set as "U+0078 'x'". +func (f *formatInfo) fmt_unicode(u uint64) { + buf := f.intbuf[0:] + + // With default precision set the maximum needed buf length is 18 + // for formatting -1 with %#U ("U+FFFFFFFFFFFFFFFF") which fits + // into the already allocated intbuf with a capacity of 68 bytes. + prec := 4 + if f.PrecPresent && f.Prec > 4 { + prec = f.Prec + // Compute space needed for "U+" , number, " '", character, "'". + width := 2 + prec + 2 + utf8.UTFMax + 1 + if width > len(buf) { + buf = make([]byte, width) + } + } + + // Format into buf, ending at buf[i]. Formatting numbers is easier right-to-left. + i := len(buf) + + // For %#U we want to add a space and a quoted character at the end of the buffer. + if f.Sharp && u <= utf8.MaxRune && strconv.IsPrint(rune(u)) { + i-- + buf[i] = '\'' + i -= utf8.RuneLen(rune(u)) + utf8.EncodeRune(buf[i:], rune(u)) + i-- + buf[i] = '\'' + i-- + buf[i] = ' ' + } + // Format the Unicode code point u as a hexadecimal number. + for u >= 16 { + i-- + buf[i] = udigits[u&0xF] + prec-- + u >>= 4 + } + i-- + buf[i] = udigits[u] + prec-- + // Add zeros in front of the number until requested precision is reached. + for prec > 0 { + i-- + buf[i] = '0' + prec-- + } + // Add a leading "U+". + i-- + buf[i] = '+' + i-- + buf[i] = 'U' + + oldZero := f.Zero + f.Zero = false + f.pad(buf[i:]) + f.Zero = oldZero +} + +// fmt_integer formats signed and unsigned integers. +func (f *formatInfo) fmt_integer(u uint64, base int, isSigned bool, digits string) { + negative := isSigned && int64(u) < 0 + if negative { + u = -u + } + + buf := f.intbuf[0:] + // The already allocated f.intbuf with a capacity of 68 bytes + // is large enough for integer formatting when no precision or width is set. + if f.WidthPresent || f.PrecPresent { + // Account 3 extra bytes for possible addition of a sign and "0x". + width := 3 + f.Width + f.Prec // wid and prec are always positive. + if width > len(buf) { + // We're going to need a bigger boat. + buf = make([]byte, width) + } + } + + // Two ways to ask for extra leading zero digits: %.3d or %03d. + // If both are specified the f.zero flag is ignored and + // padding with spaces is used instead. + prec := 0 + if f.PrecPresent { + prec = f.Prec + // Precision of 0 and value of 0 means "print nothing" but padding. + if prec == 0 && u == 0 { + oldZero := f.Zero + f.Zero = false + f.writePadding(f.Width) + f.Zero = oldZero + return + } + } else if f.Zero && f.WidthPresent { + prec = f.Width + if negative || f.Plus || f.Space { + prec-- // leave room for sign + } + } + + // Because printing is easier right-to-left: format u into buf, ending at buf[i]. + // We could make things marginally faster by splitting the 32-bit case out + // into a separate block but it's not worth the duplication, so u has 64 bits. + i := len(buf) + // Use constants for the division and modulo for more efficient code. + // Switch cases ordered by popularity. + switch base { + case 10: + for u >= 10 { + i-- + next := u / 10 + buf[i] = byte('0' + u - next*10) + u = next + } + case 16: + for u >= 16 { + i-- + buf[i] = digits[u&0xF] + u >>= 4 + } + case 8: + for u >= 8 { + i-- + buf[i] = byte('0' + u&7) + u >>= 3 + } + case 2: + for u >= 2 { + i-- + buf[i] = byte('0' + u&1) + u >>= 1 + } + default: + panic("fmt: unknown base; can't happen") + } + i-- + buf[i] = digits[u] + for i > 0 && prec > len(buf)-i { + i-- + buf[i] = '0' + } + + // Various prefixes: 0x, -, etc. + if f.Sharp { + switch base { + case 8: + if buf[i] != '0' { + i-- + buf[i] = '0' + } + case 16: + // Add a leading 0x or 0X. + i-- + buf[i] = digits[16] + i-- + buf[i] = '0' + } + } + + if negative { + i-- + buf[i] = '-' + } else if f.Plus { + i-- + buf[i] = '+' + } else if f.Space { + i-- + buf[i] = ' ' + } + + // Left padding with zeros has already been handled like precision earlier + // or the f.zero flag is ignored due to an explicitly set precision. + oldZero := f.Zero + f.Zero = false + f.pad(buf[i:]) + f.Zero = oldZero +} + +// truncate truncates the string to the specified precision, if present. +func (f *formatInfo) truncate(s string) string { + if f.PrecPresent { + n := f.Prec + for i := range s { + n-- + if n < 0 { + return s[:i] + } + } + } + return s +} + +// fmt_s formats a string. +func (f *formatInfo) fmt_s(s string) { + s = f.truncate(s) + f.padString(s) +} + +// fmt_sbx formats a string or byte slice as a hexadecimal encoding of its bytes. +func (f *formatInfo) fmt_sbx(s string, b []byte, digits string) { + length := len(b) + if b == nil { + // No byte slice present. Assume string s should be encoded. + length = len(s) + } + // Set length to not process more bytes than the precision demands. + if f.PrecPresent && f.Prec < length { + length = f.Prec + } + // Compute width of the encoding taking into account the f.sharp and f.space flag. + width := 2 * length + if width > 0 { + if f.Space { + // Each element encoded by two hexadecimals will get a leading 0x or 0X. + if f.Sharp { + width *= 2 + } + // Elements will be separated by a space. + width += length - 1 + } else if f.Sharp { + // Only a leading 0x or 0X will be added for the whole string. + width += 2 + } + } else { // The byte slice or string that should be encoded is empty. + if f.WidthPresent { + f.writePadding(f.Width) + } + return + } + // Handle padding to the left. + if f.WidthPresent && f.Width > width && !f.Minus { + f.writePadding(f.Width - width) + } + // Write the encoding directly into the output buffer. + buf := f.buf + if f.Sharp { + // Add leading 0x or 0X. + buf.WriteByte('0') + buf.WriteByte(digits[16]) + } + var c byte + for i := 0; i < length; i++ { + if f.Space && i > 0 { + // Separate elements with a space. + buf.WriteByte(' ') + if f.Sharp { + // Add leading 0x or 0X for each element. + buf.WriteByte('0') + buf.WriteByte(digits[16]) + } + } + if b != nil { + c = b[i] // Take a byte from the input byte slice. + } else { + c = s[i] // Take a byte from the input string. + } + // Encode each byte as two hexadecimal digits. + buf.WriteByte(digits[c>>4]) + buf.WriteByte(digits[c&0xF]) + } + // Handle padding to the right. + if f.WidthPresent && f.Width > width && f.Minus { + f.writePadding(f.Width - width) + } +} + +// fmt_sx formats a string as a hexadecimal encoding of its bytes. +func (f *formatInfo) fmt_sx(s, digits string) { + f.fmt_sbx(s, nil, digits) +} + +// fmt_bx formats a byte slice as a hexadecimal encoding of its bytes. +func (f *formatInfo) fmt_bx(b []byte, digits string) { + f.fmt_sbx("", b, digits) +} + +// fmt_q formats a string as a double-quoted, escaped Go string constant. +// If f.sharp is set a raw (backquoted) string may be returned instead +// if the string does not contain any control characters other than tab. +func (f *formatInfo) fmt_q(s string) { + s = f.truncate(s) + if f.Sharp && strconv.CanBackquote(s) { + f.padString("`" + s + "`") + return + } + buf := f.intbuf[:0] + if f.Plus { + f.pad(strconv.AppendQuoteToASCII(buf, s)) + } else { + f.pad(strconv.AppendQuote(buf, s)) + } +} + +// fmt_c formats an integer as a Unicode character. +// If the character is not valid Unicode, it will print '\ufffd'. +func (f *formatInfo) fmt_c(c uint64) { + r := rune(c) + if c > utf8.MaxRune { + r = utf8.RuneError + } + buf := f.intbuf[:0] + w := utf8.EncodeRune(buf[:utf8.UTFMax], r) + f.pad(buf[:w]) +} + +// fmt_qc formats an integer as a single-quoted, escaped Go character constant. +// If the character is not valid Unicode, it will print '\ufffd'. +func (f *formatInfo) fmt_qc(c uint64) { + r := rune(c) + if c > utf8.MaxRune { + r = utf8.RuneError + } + buf := f.intbuf[:0] + if f.Plus { + f.pad(strconv.AppendQuoteRuneToASCII(buf, r)) + } else { + f.pad(strconv.AppendQuoteRune(buf, r)) + } +} + +// fmt_float formats a float64. It assumes that verb is a valid format specifier +// for strconv.AppendFloat and therefore fits into a byte. +func (f *formatInfo) fmt_float(v float64, size int, verb rune, prec int) { + // Explicit precision in format specifier overrules default precision. + if f.PrecPresent { + prec = f.Prec + } + // Format number, reserving space for leading + sign if needed. + num := strconv.AppendFloat(f.intbuf[:1], v, byte(verb), prec, size) + if num[1] == '-' || num[1] == '+' { + num = num[1:] + } else { + num[0] = '+' + } + // f.space means to add a leading space instead of a "+" sign unless + // the sign is explicitly asked for by f.plus. + if f.Space && num[0] == '+' && !f.Plus { + num[0] = ' ' + } + // Special handling for infinities and NaN, + // which don't look like a number so shouldn't be padded with zeros. + if num[1] == 'I' || num[1] == 'N' { + oldZero := f.Zero + f.Zero = false + // Remove sign before NaN if not asked for. + if num[1] == 'N' && !f.Space && !f.Plus { + num = num[1:] + } + f.pad(num) + f.Zero = oldZero + return + } + // The sharp flag forces printing a decimal point for non-binary formats + // and retains trailing zeros, which we may need to restore. + if f.Sharp && verb != 'b' { + digits := 0 + switch verb { + case 'v', 'g', 'G': + digits = prec + // If no precision is set explicitly use a precision of 6. + if digits == -1 { + digits = 6 + } + } + + // Buffer pre-allocated with enough room for + // exponent notations of the form "e+123". + var tailBuf [5]byte + tail := tailBuf[:0] + + hasDecimalPoint := false + // Starting from i = 1 to skip sign at num[0]. + for i := 1; i < len(num); i++ { + switch num[i] { + case '.': + hasDecimalPoint = true + case 'e', 'E': + tail = append(tail, num[i:]...) + num = num[:i] + default: + digits-- + } + } + if !hasDecimalPoint { + num = append(num, '.') + } + for digits > 0 { + num = append(num, '0') + digits-- + } + num = append(num, tail...) + } + // We want a sign if asked for and if the sign is not positive. + if f.Plus || num[0] != '+' { + // If we're zero padding to the left we want the sign before the leading zeros. + // Achieve this by writing the sign out and then padding the unsigned number. + if f.Zero && f.WidthPresent && f.Width > len(num) { + f.buf.WriteByte(num[0]) + f.writePadding(f.Width - len(num)) + f.buf.Write(num[1:]) + return + } + f.pad(num) + return + } + // No sign to show and the number is positive; just print the unsigned number. + f.pad(num[1:]) +} diff --git a/vendor/golang.org/x/text/message/message.go b/vendor/golang.org/x/text/message/message.go new file mode 100644 index 0000000..91a9726 --- /dev/null +++ b/vendor/golang.org/x/text/message/message.go @@ -0,0 +1,192 @@ +// Copyright 2015 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 file. + +package message // import "golang.org/x/text/message" + +import ( + "io" + "os" + + // Include features to facilitate generated catalogs. + _ "golang.org/x/text/feature/plural" + + "golang.org/x/text/internal/number" + "golang.org/x/text/language" + "golang.org/x/text/message/catalog" +) + +// A Printer implements language-specific formatted I/O analogous to the fmt +// package. +type Printer struct { + // the language + tag language.Tag + + toDecimal number.Formatter + toScientific number.Formatter + + cat catalog.Catalog +} + +type options struct { + cat catalog.Catalog + // TODO: + // - allow %s to print integers in written form (tables are likely too large + // to enable this by default). + // - list behavior + // +} + +// An Option defines an option of a Printer. +type Option func(o *options) + +// Catalog defines the catalog to be used. +func Catalog(c catalog.Catalog) Option { + return func(o *options) { o.cat = c } +} + +// NewPrinter returns a Printer that formats messages tailored to language t. +func NewPrinter(t language.Tag, opts ...Option) *Printer { + options := &options{ + cat: DefaultCatalog, + } + for _, o := range opts { + o(options) + } + p := &Printer{ + tag: t, + cat: options.cat, + } + p.toDecimal.InitDecimal(t) + p.toScientific.InitScientific(t) + return p +} + +// Sprint is like fmt.Sprint, but using language-specific formatting. +func (p *Printer) Sprint(a ...interface{}) string { + pp := newPrinter(p) + pp.doPrint(a) + s := pp.String() + pp.free() + return s +} + +// Fprint is like fmt.Fprint, but using language-specific formatting. +func (p *Printer) Fprint(w io.Writer, a ...interface{}) (n int, err error) { + pp := newPrinter(p) + pp.doPrint(a) + n64, err := io.Copy(w, &pp.Buffer) + pp.free() + return int(n64), err +} + +// Print is like fmt.Print, but using language-specific formatting. +func (p *Printer) Print(a ...interface{}) (n int, err error) { + return p.Fprint(os.Stdout, a...) +} + +// Sprintln is like fmt.Sprintln, but using language-specific formatting. +func (p *Printer) Sprintln(a ...interface{}) string { + pp := newPrinter(p) + pp.doPrintln(a) + s := pp.String() + pp.free() + return s +} + +// Fprintln is like fmt.Fprintln, but using language-specific formatting. +func (p *Printer) Fprintln(w io.Writer, a ...interface{}) (n int, err error) { + pp := newPrinter(p) + pp.doPrintln(a) + n64, err := io.Copy(w, &pp.Buffer) + pp.free() + return int(n64), err +} + +// Println is like fmt.Println, but using language-specific formatting. +func (p *Printer) Println(a ...interface{}) (n int, err error) { + return p.Fprintln(os.Stdout, a...) +} + +// Sprintf is like fmt.Sprintf, but using language-specific formatting. +func (p *Printer) Sprintf(key Reference, a ...interface{}) string { + pp := newPrinter(p) + lookupAndFormat(pp, key, a) + s := pp.String() + pp.free() + return s +} + +// Fprintf is like fmt.Fprintf, but using language-specific formatting. +func (p *Printer) Fprintf(w io.Writer, key Reference, a ...interface{}) (n int, err error) { + pp := newPrinter(p) + lookupAndFormat(pp, key, a) + n, err = w.Write(pp.Bytes()) + pp.free() + return n, err + +} + +// Printf is like fmt.Printf, but using language-specific formatting. +func (p *Printer) Printf(key Reference, a ...interface{}) (n int, err error) { + pp := newPrinter(p) + lookupAndFormat(pp, key, a) + n, err = os.Stdout.Write(pp.Bytes()) + pp.free() + return n, err +} + +func lookupAndFormat(p *printer, r Reference, a []interface{}) { + p.fmt.Reset(a) + switch v := r.(type) { + case string: + if p.catContext.Execute(v) == catalog.ErrNotFound { + p.Render(v) + return + } + case key: + if p.catContext.Execute(v.id) == catalog.ErrNotFound && + p.catContext.Execute(v.fallback) == catalog.ErrNotFound { + p.Render(v.fallback) + return + } + default: + panic("key argument is not a Reference") + } +} + +type rawPrinter struct { + p *printer +} + +func (p rawPrinter) Render(msg string) { p.p.WriteString(msg) } +func (p rawPrinter) Arg(i int) interface{} { return nil } + +// Arg implements catmsg.Renderer. +func (p *printer) Arg(i int) interface{} { // TODO, also return "ok" bool + i-- + if uint(i) < uint(len(p.fmt.Args)) { + return p.fmt.Args[i] + } + return nil +} + +// Render implements catmsg.Renderer. +func (p *printer) Render(msg string) { + p.doPrintf(msg) +} + +// A Reference is a string or a message reference. +type Reference interface { + // TODO: also allow []string +} + +// Key creates a message Reference for a message where the given id is used for +// message lookup and the fallback is returned when no matches are found. +func Key(id string, fallback string) Reference { + return key{id, fallback} +} + +type key struct { + id, fallback string +} diff --git a/vendor/golang.org/x/text/message/print.go b/vendor/golang.org/x/text/message/print.go new file mode 100644 index 0000000..da304cc --- /dev/null +++ b/vendor/golang.org/x/text/message/print.go @@ -0,0 +1,984 @@ +// Copyright 2017 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 file. + +package message + +import ( + "bytes" + "fmt" // TODO: consider copying interfaces from package fmt to avoid dependency. + "math" + "reflect" + "sync" + "unicode/utf8" + + "golang.org/x/text/internal/format" + "golang.org/x/text/internal/number" + "golang.org/x/text/language" + "golang.org/x/text/message/catalog" +) + +// Strings for use with buffer.WriteString. +// This is less overhead than using buffer.Write with byte arrays. +const ( + commaSpaceString = ", " + nilAngleString = "" + nilParenString = "(nil)" + nilString = "nil" + mapString = "map[" + percentBangString = "%!" + missingString = "(MISSING)" + badIndexString = "(BADINDEX)" + panicString = "(PANIC=" + extraString = "%!(EXTRA " + badWidthString = "%!(BADWIDTH)" + badPrecString = "%!(BADPREC)" + noVerbString = "%!(NOVERB)" + + invReflectString = "" +) + +var printerPool = sync.Pool{ + New: func() interface{} { return new(printer) }, +} + +// newPrinter allocates a new printer struct or grabs a cached one. +func newPrinter(pp *Printer) *printer { + p := printerPool.Get().(*printer) + p.Printer = *pp + // TODO: cache most of the following call. + p.catContext = pp.cat.Context(pp.tag, p) + + p.panicking = false + p.erroring = false + p.fmt.init(&p.Buffer) + return p +} + +// free saves used printer structs in printerFree; avoids an allocation per invocation. +func (p *printer) free() { + p.Buffer.Reset() + p.arg = nil + p.value = reflect.Value{} + printerPool.Put(p) +} + +// printer is used to store a printer's state. +// It implements "golang.org/x/text/internal/format".State. +type printer struct { + Printer + + // the context for looking up message translations + catContext *catalog.Context + + // buffer for accumulating output. + bytes.Buffer + + // arg holds the current item, as an interface{}. + arg interface{} + // value is used instead of arg for reflect values. + value reflect.Value + + // fmt is used to format basic items such as integers or strings. + fmt formatInfo + + // panicking is set by catchPanic to avoid infinite panic, recover, panic, ... recursion. + panicking bool + // erroring is set when printing an error string to guard against calling handleMethods. + erroring bool +} + +// Language implements "golang.org/x/text/internal/format".State. +func (p *printer) Language() language.Tag { return p.tag } + +func (p *printer) Width() (wid int, ok bool) { return p.fmt.Width, p.fmt.WidthPresent } + +func (p *printer) Precision() (prec int, ok bool) { return p.fmt.Prec, p.fmt.PrecPresent } + +func (p *printer) Flag(b int) bool { + switch b { + case '-': + return p.fmt.Minus + case '+': + return p.fmt.Plus || p.fmt.PlusV + case '#': + return p.fmt.Sharp || p.fmt.SharpV + case ' ': + return p.fmt.Space + case '0': + return p.fmt.Zero + } + return false +} + +// getField gets the i'th field of the struct value. +// If the field is itself is an interface, return a value for +// the thing inside the interface, not the interface itself. +func getField(v reflect.Value, i int) reflect.Value { + val := v.Field(i) + if val.Kind() == reflect.Interface && !val.IsNil() { + val = val.Elem() + } + return val +} + +func (p *printer) unknownType(v reflect.Value) { + if !v.IsValid() { + p.WriteString(nilAngleString) + return + } + p.WriteByte('?') + p.WriteString(v.Type().String()) + p.WriteByte('?') +} + +func (p *printer) badVerb(verb rune) { + p.erroring = true + p.WriteString(percentBangString) + p.WriteRune(verb) + p.WriteByte('(') + switch { + case p.arg != nil: + p.WriteString(reflect.TypeOf(p.arg).String()) + p.WriteByte('=') + p.printArg(p.arg, 'v') + case p.value.IsValid(): + p.WriteString(p.value.Type().String()) + p.WriteByte('=') + p.printValue(p.value, 'v', 0) + default: + p.WriteString(nilAngleString) + } + p.WriteByte(')') + p.erroring = false +} + +func (p *printer) fmtBool(v bool, verb rune) { + switch verb { + case 't', 'v': + p.fmt.fmt_boolean(v) + default: + p.badVerb(verb) + } +} + +// fmt0x64 formats a uint64 in hexadecimal and prefixes it with 0x or +// not, as requested, by temporarily setting the sharp flag. +func (p *printer) fmt0x64(v uint64, leading0x bool) { + sharp := p.fmt.Sharp + p.fmt.Sharp = leading0x + p.fmt.fmt_integer(v, 16, unsigned, ldigits) + p.fmt.Sharp = sharp +} + +// fmtInteger formats a signed or unsigned integer. +func (p *printer) fmtInteger(v uint64, isSigned bool, verb rune) { + switch verb { + case 'v': + if p.fmt.SharpV && !isSigned { + p.fmt0x64(v, true) + return + } + fallthrough + case 'd': + if p.fmt.Sharp || p.fmt.SharpV { + p.fmt.fmt_integer(v, 10, isSigned, ldigits) + } else { + p.fmtDecimalInt(v, isSigned) + } + case 'b': + p.fmt.fmt_integer(v, 2, isSigned, ldigits) + case 'o': + p.fmt.fmt_integer(v, 8, isSigned, ldigits) + case 'x': + p.fmt.fmt_integer(v, 16, isSigned, ldigits) + case 'X': + p.fmt.fmt_integer(v, 16, isSigned, udigits) + case 'c': + p.fmt.fmt_c(v) + case 'q': + if v <= utf8.MaxRune { + p.fmt.fmt_qc(v) + } else { + p.badVerb(verb) + } + case 'U': + p.fmt.fmt_unicode(v) + default: + p.badVerb(verb) + } +} + +// fmtFloat formats a float. The default precision for each verb +// is specified as last argument in the call to fmt_float. +func (p *printer) fmtFloat(v float64, size int, verb rune) { + switch verb { + case 'b': + p.fmt.fmt_float(v, size, verb, -1) + case 'v': + verb = 'g' + fallthrough + case 'g', 'G': + if p.fmt.Sharp || p.fmt.SharpV { + p.fmt.fmt_float(v, size, verb, -1) + } else { + p.fmtVariableFloat(v, size) + } + case 'e', 'E': + if p.fmt.Sharp || p.fmt.SharpV { + p.fmt.fmt_float(v, size, verb, 6) + } else { + p.fmtScientific(v, size, 6) + } + case 'f', 'F': + if p.fmt.Sharp || p.fmt.SharpV { + p.fmt.fmt_float(v, size, verb, 6) + } else { + p.fmtDecimalFloat(v, size, 6) + } + default: + p.badVerb(verb) + } +} + +func (p *printer) setFlags(f *number.Formatter) { + f.Flags &^= number.ElideSign + if p.fmt.Plus || p.fmt.Space { + f.Flags |= number.AlwaysSign + if !p.fmt.Plus { + f.Flags |= number.ElideSign + } + } else { + f.Flags &^= number.AlwaysSign + } +} + +func (p *printer) updatePadding(f *number.Formatter) { + f.Flags &^= number.PadMask + if p.fmt.Minus { + f.Flags |= number.PadAfterSuffix + } else { + f.Flags |= number.PadBeforePrefix + } + f.PadRune = ' ' + f.FormatWidth = uint16(p.fmt.Width) +} + +func (p *printer) initDecimal(minFrac, maxFrac int) { + f := &p.toDecimal + f.MinIntegerDigits = 1 + f.MaxIntegerDigits = 0 + f.MinFractionDigits = uint8(minFrac) + f.MaxFractionDigits = int16(maxFrac) + p.setFlags(f) + f.PadRune = 0 + if p.fmt.WidthPresent { + if p.fmt.Zero { + wid := p.fmt.Width + // Use significant integers for this. + // TODO: this is not the same as width, but so be it. + if f.MinFractionDigits > 0 { + wid -= 1 + int(f.MinFractionDigits) + } + if p.fmt.Plus || p.fmt.Space { + wid-- + } + if wid > 0 && wid > int(f.MinIntegerDigits) { + f.MinIntegerDigits = uint8(wid) + } + } + p.updatePadding(f) + } +} + +func (p *printer) initScientific(minFrac, maxFrac int) { + f := &p.toScientific + if maxFrac < 0 { + f.SetPrecision(maxFrac) + } else { + f.SetPrecision(maxFrac + 1) + f.MinFractionDigits = uint8(minFrac) + f.MaxFractionDigits = int16(maxFrac) + } + f.MinExponentDigits = 2 + p.setFlags(f) + f.PadRune = 0 + if p.fmt.WidthPresent { + f.Flags &^= number.PadMask + if p.fmt.Zero { + f.PadRune = f.Digit(0) + f.Flags |= number.PadAfterPrefix + } else { + f.PadRune = ' ' + f.Flags |= number.PadBeforePrefix + } + p.updatePadding(f) + } +} + +func (p *printer) fmtDecimalInt(v uint64, isSigned bool) { + var d number.Decimal + + f := &p.toDecimal + if p.fmt.PrecPresent { + p.setFlags(f) + f.MinIntegerDigits = uint8(p.fmt.Prec) + f.MaxIntegerDigits = 0 + f.MinFractionDigits = 0 + f.MaxFractionDigits = 0 + if p.fmt.WidthPresent { + p.updatePadding(f) + } + } else { + p.initDecimal(0, 0) + } + d.ConvertInt(p.toDecimal.RoundingContext, isSigned, v) + + out := p.toDecimal.Format([]byte(nil), &d) + p.Buffer.Write(out) +} + +func (p *printer) fmtDecimalFloat(v float64, size, prec int) { + var d number.Decimal + if p.fmt.PrecPresent { + prec = p.fmt.Prec + } + p.initDecimal(prec, prec) + d.ConvertFloat(p.toDecimal.RoundingContext, v, size) + + out := p.toDecimal.Format([]byte(nil), &d) + p.Buffer.Write(out) +} + +func (p *printer) fmtVariableFloat(v float64, size int) { + prec := -1 + if p.fmt.PrecPresent { + prec = p.fmt.Prec + } + var d number.Decimal + p.initScientific(0, prec) + d.ConvertFloat(p.toScientific.RoundingContext, v, size) + + // Copy logic of 'g' formatting from strconv. It is simplified a bit as + // we don't have to mind having prec > len(d.Digits). + shortest := prec < 0 + ePrec := prec + if shortest { + prec = len(d.Digits) + ePrec = 6 + } else if prec == 0 { + prec = 1 + ePrec = 1 + } + exp := int(d.Exp) - 1 + if exp < -4 || exp >= ePrec { + p.initScientific(0, prec) + + out := p.toScientific.Format([]byte(nil), &d) + p.Buffer.Write(out) + } else { + if prec > int(d.Exp) { + prec = len(d.Digits) + } + if prec -= int(d.Exp); prec < 0 { + prec = 0 + } + p.initDecimal(0, prec) + + out := p.toDecimal.Format([]byte(nil), &d) + p.Buffer.Write(out) + } +} + +func (p *printer) fmtScientific(v float64, size, prec int) { + var d number.Decimal + if p.fmt.PrecPresent { + prec = p.fmt.Prec + } + p.initScientific(prec, prec) + rc := p.toScientific.RoundingContext + d.ConvertFloat(rc, v, size) + + out := p.toScientific.Format([]byte(nil), &d) + p.Buffer.Write(out) + +} + +// fmtComplex formats a complex number v with +// r = real(v) and j = imag(v) as (r+ji) using +// fmtFloat for r and j formatting. +func (p *printer) fmtComplex(v complex128, size int, verb rune) { + // Make sure any unsupported verbs are found before the + // calls to fmtFloat to not generate an incorrect error string. + switch verb { + case 'v', 'b', 'g', 'G', 'f', 'F', 'e', 'E': + p.WriteByte('(') + p.fmtFloat(real(v), size/2, verb) + // Imaginary part always has a sign. + if math.IsNaN(imag(v)) { + // By CLDR's rules, NaNs do not use patterns or signs. As this code + // relies on AlwaysSign working for imaginary parts, we need to + // manually handle NaNs. + f := &p.toScientific + p.setFlags(f) + p.updatePadding(f) + p.setFlags(f) + nan := f.Symbol(number.SymNan) + extra := 0 + if w, ok := p.Width(); ok { + extra = w - utf8.RuneCountInString(nan) - 1 + } + if f.Flags&number.PadAfterNumber == 0 { + for ; extra > 0; extra-- { + p.WriteRune(f.PadRune) + } + } + p.WriteString(f.Symbol(number.SymPlusSign)) + p.WriteString(nan) + for ; extra > 0; extra-- { + p.WriteRune(f.PadRune) + } + p.WriteString("i)") + return + } + oldPlus := p.fmt.Plus + p.fmt.Plus = true + p.fmtFloat(imag(v), size/2, verb) + p.WriteString("i)") // TODO: use symbol? + p.fmt.Plus = oldPlus + default: + p.badVerb(verb) + } +} + +func (p *printer) fmtString(v string, verb rune) { + switch verb { + case 'v': + if p.fmt.SharpV { + p.fmt.fmt_q(v) + } else { + p.fmt.fmt_s(v) + } + case 's': + p.fmt.fmt_s(v) + case 'x': + p.fmt.fmt_sx(v, ldigits) + case 'X': + p.fmt.fmt_sx(v, udigits) + case 'q': + p.fmt.fmt_q(v) + case 'm': + ctx := p.cat.Context(p.tag, rawPrinter{p}) + if ctx.Execute(v) == catalog.ErrNotFound { + p.WriteString(v) + } + default: + p.badVerb(verb) + } +} + +func (p *printer) fmtBytes(v []byte, verb rune, typeString string) { + switch verb { + case 'v', 'd': + if p.fmt.SharpV { + p.WriteString(typeString) + if v == nil { + p.WriteString(nilParenString) + return + } + p.WriteByte('{') + for i, c := range v { + if i > 0 { + p.WriteString(commaSpaceString) + } + p.fmt0x64(uint64(c), true) + } + p.WriteByte('}') + } else { + p.WriteByte('[') + for i, c := range v { + if i > 0 { + p.WriteByte(' ') + } + p.fmt.fmt_integer(uint64(c), 10, unsigned, ldigits) + } + p.WriteByte(']') + } + case 's': + p.fmt.fmt_s(string(v)) + case 'x': + p.fmt.fmt_bx(v, ldigits) + case 'X': + p.fmt.fmt_bx(v, udigits) + case 'q': + p.fmt.fmt_q(string(v)) + default: + p.printValue(reflect.ValueOf(v), verb, 0) + } +} + +func (p *printer) fmtPointer(value reflect.Value, verb rune) { + var u uintptr + switch value.Kind() { + case reflect.Chan, reflect.Func, reflect.Map, reflect.Ptr, reflect.Slice, reflect.UnsafePointer: + u = value.Pointer() + default: + p.badVerb(verb) + return + } + + switch verb { + case 'v': + if p.fmt.SharpV { + p.WriteByte('(') + p.WriteString(value.Type().String()) + p.WriteString(")(") + if u == 0 { + p.WriteString(nilString) + } else { + p.fmt0x64(uint64(u), true) + } + p.WriteByte(')') + } else { + if u == 0 { + p.fmt.padString(nilAngleString) + } else { + p.fmt0x64(uint64(u), !p.fmt.Sharp) + } + } + case 'p': + p.fmt0x64(uint64(u), !p.fmt.Sharp) + case 'b', 'o', 'd', 'x', 'X': + if verb == 'd' { + p.fmt.Sharp = true // Print as standard go. TODO: does this make sense? + } + p.fmtInteger(uint64(u), unsigned, verb) + default: + p.badVerb(verb) + } +} + +func (p *printer) catchPanic(arg interface{}, verb rune) { + if err := recover(); err != nil { + // If it's a nil pointer, just say "". The likeliest causes are a + // Stringer that fails to guard against nil or a nil pointer for a + // value receiver, and in either case, "" is a nice result. + if v := reflect.ValueOf(arg); v.Kind() == reflect.Ptr && v.IsNil() { + p.WriteString(nilAngleString) + return + } + // Otherwise print a concise panic message. Most of the time the panic + // value will print itself nicely. + if p.panicking { + // Nested panics; the recursion in printArg cannot succeed. + panic(err) + } + + oldFlags := p.fmt.Parser + // For this output we want default behavior. + p.fmt.ClearFlags() + + p.WriteString(percentBangString) + p.WriteRune(verb) + p.WriteString(panicString) + p.panicking = true + p.printArg(err, 'v') + p.panicking = false + p.WriteByte(')') + + p.fmt.Parser = oldFlags + } +} + +func (p *printer) handleMethods(verb rune) (handled bool) { + if p.erroring { + return + } + // Is it a Formatter? + if formatter, ok := p.arg.(format.Formatter); ok { + handled = true + defer p.catchPanic(p.arg, verb) + formatter.Format(p, verb) + return + } + if formatter, ok := p.arg.(fmt.Formatter); ok { + handled = true + defer p.catchPanic(p.arg, verb) + formatter.Format(p, verb) + return + } + + // If we're doing Go syntax and the argument knows how to supply it, take care of it now. + if p.fmt.SharpV { + if stringer, ok := p.arg.(fmt.GoStringer); ok { + handled = true + defer p.catchPanic(p.arg, verb) + // Print the result of GoString unadorned. + p.fmt.fmt_s(stringer.GoString()) + return + } + } else { + // If a string is acceptable according to the format, see if + // the value satisfies one of the string-valued interfaces. + // Println etc. set verb to %v, which is "stringable". + switch verb { + case 'v', 's', 'x', 'X', 'q': + // Is it an error or Stringer? + // The duplication in the bodies is necessary: + // setting handled and deferring catchPanic + // must happen before calling the method. + switch v := p.arg.(type) { + case error: + handled = true + defer p.catchPanic(p.arg, verb) + p.fmtString(v.Error(), verb) + return + + case fmt.Stringer: + handled = true + defer p.catchPanic(p.arg, verb) + p.fmtString(v.String(), verb) + return + } + } + } + return false +} + +func (p *printer) printArg(arg interface{}, verb rune) { + p.arg = arg + p.value = reflect.Value{} + + if arg == nil { + switch verb { + case 'T', 'v': + p.fmt.padString(nilAngleString) + default: + p.badVerb(verb) + } + return + } + + // Special processing considerations. + // %T (the value's type) and %p (its address) are special; we always do them first. + switch verb { + case 'T': + p.fmt.fmt_s(reflect.TypeOf(arg).String()) + return + case 'p': + p.fmtPointer(reflect.ValueOf(arg), 'p') + return + } + + // Some types can be done without reflection. + switch f := arg.(type) { + case bool: + p.fmtBool(f, verb) + case float32: + p.fmtFloat(float64(f), 32, verb) + case float64: + p.fmtFloat(f, 64, verb) + case complex64: + p.fmtComplex(complex128(f), 64, verb) + case complex128: + p.fmtComplex(f, 128, verb) + case int: + p.fmtInteger(uint64(f), signed, verb) + case int8: + p.fmtInteger(uint64(f), signed, verb) + case int16: + p.fmtInteger(uint64(f), signed, verb) + case int32: + p.fmtInteger(uint64(f), signed, verb) + case int64: + p.fmtInteger(uint64(f), signed, verb) + case uint: + p.fmtInteger(uint64(f), unsigned, verb) + case uint8: + p.fmtInteger(uint64(f), unsigned, verb) + case uint16: + p.fmtInteger(uint64(f), unsigned, verb) + case uint32: + p.fmtInteger(uint64(f), unsigned, verb) + case uint64: + p.fmtInteger(f, unsigned, verb) + case uintptr: + p.fmtInteger(uint64(f), unsigned, verb) + case string: + p.fmtString(f, verb) + case []byte: + p.fmtBytes(f, verb, "[]byte") + case reflect.Value: + // Handle extractable values with special methods + // since printValue does not handle them at depth 0. + if f.IsValid() && f.CanInterface() { + p.arg = f.Interface() + if p.handleMethods(verb) { + return + } + } + p.printValue(f, verb, 0) + default: + // If the type is not simple, it might have methods. + if !p.handleMethods(verb) { + // Need to use reflection, since the type had no + // interface methods that could be used for formatting. + p.printValue(reflect.ValueOf(f), verb, 0) + } + } +} + +// printValue is similar to printArg but starts with a reflect value, not an interface{} value. +// It does not handle 'p' and 'T' verbs because these should have been already handled by printArg. +func (p *printer) printValue(value reflect.Value, verb rune, depth int) { + // Handle values with special methods if not already handled by printArg (depth == 0). + if depth > 0 && value.IsValid() && value.CanInterface() { + p.arg = value.Interface() + if p.handleMethods(verb) { + return + } + } + p.arg = nil + p.value = value + + switch f := value; value.Kind() { + case reflect.Invalid: + if depth == 0 { + p.WriteString(invReflectString) + } else { + switch verb { + case 'v': + p.WriteString(nilAngleString) + default: + p.badVerb(verb) + } + } + case reflect.Bool: + p.fmtBool(f.Bool(), verb) + case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64: + p.fmtInteger(uint64(f.Int()), signed, verb) + case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64, reflect.Uintptr: + p.fmtInteger(f.Uint(), unsigned, verb) + case reflect.Float32: + p.fmtFloat(f.Float(), 32, verb) + case reflect.Float64: + p.fmtFloat(f.Float(), 64, verb) + case reflect.Complex64: + p.fmtComplex(f.Complex(), 64, verb) + case reflect.Complex128: + p.fmtComplex(f.Complex(), 128, verb) + case reflect.String: + p.fmtString(f.String(), verb) + case reflect.Map: + if p.fmt.SharpV { + p.WriteString(f.Type().String()) + if f.IsNil() { + p.WriteString(nilParenString) + return + } + p.WriteByte('{') + } else { + p.WriteString(mapString) + } + keys := f.MapKeys() + for i, key := range keys { + if i > 0 { + if p.fmt.SharpV { + p.WriteString(commaSpaceString) + } else { + p.WriteByte(' ') + } + } + p.printValue(key, verb, depth+1) + p.WriteByte(':') + p.printValue(f.MapIndex(key), verb, depth+1) + } + if p.fmt.SharpV { + p.WriteByte('}') + } else { + p.WriteByte(']') + } + case reflect.Struct: + if p.fmt.SharpV { + p.WriteString(f.Type().String()) + } + p.WriteByte('{') + for i := 0; i < f.NumField(); i++ { + if i > 0 { + if p.fmt.SharpV { + p.WriteString(commaSpaceString) + } else { + p.WriteByte(' ') + } + } + if p.fmt.PlusV || p.fmt.SharpV { + if name := f.Type().Field(i).Name; name != "" { + p.WriteString(name) + p.WriteByte(':') + } + } + p.printValue(getField(f, i), verb, depth+1) + } + p.WriteByte('}') + case reflect.Interface: + value := f.Elem() + if !value.IsValid() { + if p.fmt.SharpV { + p.WriteString(f.Type().String()) + p.WriteString(nilParenString) + } else { + p.WriteString(nilAngleString) + } + } else { + p.printValue(value, verb, depth+1) + } + case reflect.Array, reflect.Slice: + switch verb { + case 's', 'q', 'x', 'X': + // Handle byte and uint8 slices and arrays special for the above verbs. + t := f.Type() + if t.Elem().Kind() == reflect.Uint8 { + var bytes []byte + if f.Kind() == reflect.Slice { + bytes = f.Bytes() + } else if f.CanAddr() { + bytes = f.Slice(0, f.Len()).Bytes() + } else { + // We have an array, but we cannot Slice() a non-addressable array, + // so we build a slice by hand. This is a rare case but it would be nice + // if reflection could help a little more. + bytes = make([]byte, f.Len()) + for i := range bytes { + bytes[i] = byte(f.Index(i).Uint()) + } + } + p.fmtBytes(bytes, verb, t.String()) + return + } + } + if p.fmt.SharpV { + p.WriteString(f.Type().String()) + if f.Kind() == reflect.Slice && f.IsNil() { + p.WriteString(nilParenString) + return + } + p.WriteByte('{') + for i := 0; i < f.Len(); i++ { + if i > 0 { + p.WriteString(commaSpaceString) + } + p.printValue(f.Index(i), verb, depth+1) + } + p.WriteByte('}') + } else { + p.WriteByte('[') + for i := 0; i < f.Len(); i++ { + if i > 0 { + p.WriteByte(' ') + } + p.printValue(f.Index(i), verb, depth+1) + } + p.WriteByte(']') + } + case reflect.Ptr: + // pointer to array or slice or struct? ok at top level + // but not embedded (avoid loops) + if depth == 0 && f.Pointer() != 0 { + switch a := f.Elem(); a.Kind() { + case reflect.Array, reflect.Slice, reflect.Struct, reflect.Map: + p.WriteByte('&') + p.printValue(a, verb, depth+1) + return + } + } + fallthrough + case reflect.Chan, reflect.Func, reflect.UnsafePointer: + p.fmtPointer(f, verb) + default: + p.unknownType(f) + } +} + +func (p *printer) badArgNum(verb rune) { + p.WriteString(percentBangString) + p.WriteRune(verb) + p.WriteString(badIndexString) +} + +func (p *printer) missingArg(verb rune) { + p.WriteString(percentBangString) + p.WriteRune(verb) + p.WriteString(missingString) +} + +func (p *printer) doPrintf(fmt string) { + for p.fmt.Parser.SetFormat(fmt); p.fmt.Scan(); { + switch p.fmt.Status { + case format.StatusText: + p.WriteString(p.fmt.Text()) + case format.StatusSubstitution: + p.printArg(p.Arg(p.fmt.ArgNum), p.fmt.Verb) + case format.StatusBadWidthSubstitution: + p.WriteString(badWidthString) + p.printArg(p.Arg(p.fmt.ArgNum), p.fmt.Verb) + case format.StatusBadPrecSubstitution: + p.WriteString(badPrecString) + p.printArg(p.Arg(p.fmt.ArgNum), p.fmt.Verb) + case format.StatusNoVerb: + p.WriteString(noVerbString) + case format.StatusBadArgNum: + p.badArgNum(p.fmt.Verb) + case format.StatusMissingArg: + p.missingArg(p.fmt.Verb) + default: + panic("unreachable") + } + } + + // Check for extra arguments, but only if there was at least one ordered + // argument. Note that this behavior is necessarily different from fmt: + // different variants of messages may opt to drop some or all of the + // arguments. + if !p.fmt.Reordered && p.fmt.ArgNum < len(p.fmt.Args) && p.fmt.ArgNum != 0 { + p.fmt.ClearFlags() + p.WriteString(extraString) + for i, arg := range p.fmt.Args[p.fmt.ArgNum:] { + if i > 0 { + p.WriteString(commaSpaceString) + } + if arg == nil { + p.WriteString(nilAngleString) + } else { + p.WriteString(reflect.TypeOf(arg).String()) + p.WriteString("=") + p.printArg(arg, 'v') + } + } + p.WriteByte(')') + } +} + +func (p *printer) doPrint(a []interface{}) { + prevString := false + for argNum, arg := range a { + isString := arg != nil && reflect.TypeOf(arg).Kind() == reflect.String + // Add a space between two non-string arguments. + if argNum > 0 && !isString && !prevString { + p.WriteByte(' ') + } + p.printArg(arg, 'v') + prevString = isString + } +} + +// doPrintln is like doPrint but always adds a space between arguments +// and a newline after the last argument. +func (p *printer) doPrintln(a []interface{}) { + for argNum, arg := range a { + if argNum > 0 { + p.WriteByte(' ') + } + p.printArg(arg, 'v') + } + p.WriteByte('\n') +} -- cgit v1.2.3