Add the sprig functions in the template engine

This commit is contained in:
thomasbach76 2017-08-10 20:42:39 +02:00 committed by Ludovic Fernandez
parent ff11467022
commit 7ff6c32452
42 changed files with 5671 additions and 50 deletions

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@ -613,6 +613,24 @@ If you want Træfik to watch file changes automatically, just add:
watch = true
```
The configuration files can be also templates written using functions provided by [go template](https://golang.org/pkg/text/template/) as well as functions provided by the [sprig library](http://masterminds.github.io/sprig/), like this:
```tmpl
[backends]
[backends.backend1]
url = "http://firstserver"
[backends.backend2]
url = "http://secondserver"
{{$frontends := dict "frontend1" "backend1" "frontend2" "backend2"}}
[frontends]
{{range $frontend, $backend := $frontends}}
[frontends.{{$frontend}}]
backend = "{{$backend}}"
{{end}}
```
## API backend
Træfik can be configured using a RESTful api.

16
glide.lock generated
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@ -1,5 +1,5 @@
hash: 1cb8a7bc9dcca526370e84514c3f0c76b342e25d40ba584826d22f7e93be584c
updated: 2017-08-01T19:11:22.221029923+02:00
hash: b0b29ccc1d46dcfb5a689d225fdd35ea3ffebb9e149bf0081229033cb515ad45
updated: 2017-08-10T19:56:04.346751095+02:00
imports:
- name: cloud.google.com/go
version: 2e6a95edb1071d750f6d7db777bf66cd2997af6c
@ -8,6 +8,8 @@ imports:
- internal
- name: github.com/abbot/go-http-auth
version: 0ddd408d5d60ea76e320503cc7dd091992dee608
- name: github.com/aokoli/goutils
version: 3391d3790d23d03408670993e957e8f408993c34
- name: github.com/ArthurHlt/go-eureka-client
version: 9d0a49cbd39aa3634ae1977e9f519a262b10adaf
subpackages:
@ -300,6 +302,10 @@ imports:
version: 19f2c401e122352c047a84d6584dd51e2fb8fcc4
subpackages:
- coordinate
- name: github.com/huandu/xstrings
version: 3959339b333561bf62a38b424fd41517c2c90f40
- name: github.com/imdario/mergo
version: 3e95a51e0639b4cf372f2ccf74c86749d747fbdc
- name: github.com/JamesClonk/vultr
version: 0f156dd232bc4ebf8a32ba83fec57c0e4c9db69f
subpackages:
@ -320,6 +326,10 @@ imports:
- buffer
- jlexer
- jwriter
- name: github.com/Masterminds/semver
version: 59c29afe1a994eacb71c833025ca7acf874bb1da
- name: github.com/Masterminds/sprig
version: 9526be0327b26ad31aa70296a7b10704883976d5
- name: github.com/mattn/go-colorable
version: 5411d3eea5978e6cdc258b30de592b60df6aba96
repo: https://github.com/mattn/go-colorable
@ -520,6 +530,8 @@ imports:
- bcrypt
- blowfish
- ocsp
- pbkdf2
- scrypt
- name: golang.org/x/net
version: 242b6b35177ec3909636b6cf6a47e8c2c6324b5d
subpackages:

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@ -198,6 +198,8 @@ import:
version: 04cdfd42973bb9c8589fd6a731800cf222fde1a9
subpackages:
- spew
- package: github.com/Masterminds/sprig
version: e039e20e500c2c025d9145be375e27cf42a94174
testImport:
- package: github.com/stvp/go-udp-testing
- package: github.com/docker/libcompose

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@ -351,7 +351,7 @@ func (p *Provider) getBackend(application marathon.Application) string {
if label, ok := p.getLabel(application, types.LabelBackend); ok {
return label
}
return provider.Replace("/", "-", application.ID)
return strings.Replace(application.ID, "/", "-", -1)
}
func (p *Provider) getSubDomain(name string) string {

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@ -12,6 +12,7 @@ import (
"unicode"
"github.com/BurntSushi/toml"
"github.com/Masterminds/sprig"
"github.com/containous/traefik/autogen"
"github.com/containous/traefik/log"
"github.com/containous/traefik/safe"
@ -59,14 +60,12 @@ func (p *BaseProvider) GetConfiguration(defaultTemplateFile string, funcMap temp
err error
)
configuration := new(types.Configuration)
var defaultFuncMap = template.FuncMap{
"replace": Replace,
"tolower": strings.ToLower,
"normalize": Normalize,
"split": split,
"contains": contains,
}
var defaultFuncMap = sprig.TxtFuncMap()
// tolower is deprecated in favor of sprig's lower function
defaultFuncMap["tolower"] = strings.ToLower
defaultFuncMap["normalize"] = Normalize
defaultFuncMap["split"] = split
for funcID, funcElement := range funcMap {
defaultFuncMap[funcID] = funcElement
}
@ -102,15 +101,6 @@ func (p *BaseProvider) GetConfiguration(defaultTemplateFile string, funcMap temp
return configuration, nil
}
// Replace is an alias for strings.Replace
func Replace(s1 string, s2 string, s3 string) string {
return strings.Replace(s3, s1, s2, -1)
}
func contains(substr, s string) bool {
return strings.Contains(s, substr)
}
func split(sep, s string) []string {
return strings.Split(s, sep)
}

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@ -145,37 +145,6 @@ func TestGetConfiguration(t *testing.T) {
}
}
func TestReplace(t *testing.T) {
cases := []struct {
str string
expected string
}{
{
str: "",
expected: "",
},
{
str: "foo",
expected: "bar",
},
{
str: "foo foo",
expected: "bar bar",
},
{
str: "somethingfoo",
expected: "somethingbar",
},
}
for _, c := range cases {
actual := Replace("foo", "bar", c.str)
if actual != c.expected {
t.Fatalf("expected %q, got %q, for %q", c.expected, actual, c.str)
}
}
}
func TestGetConfigurationReturnsCorrectMaxConnConfiguration(t *testing.T) {
templateFile, err := ioutil.TempFile("", "provider-configuration")
if err != nil {
@ -380,3 +349,51 @@ func TestDefaultFuncMap(t *testing.T) {
t.Fatal("Frontend frontend-1 should exists, but it not")
}
}
func TestSprigFunctions(t *testing.T) {
templateFile, err := ioutil.TempFile("", "provider-configuration")
if err != nil {
t.Fatal(err)
}
defer os.RemoveAll(templateFile.Name())
data := []byte(`
{{$backend_name := trimAll "-" uuidv4}}
[backends]
[backends.{{$backend_name}}]
[backends.{{$backend_name}}.circuitbreaker]
[backends.{{$backend_name}}.servers.server2]
url = "http://172.17.0.3:80"
weight = 1
[frontends]
[frontends.{{normalize "frontend/1"}}]
backend = "{{$backend_name}}"
passHostHeader = true
[frontends.frontend-1.routes.test_2]
rule = "Path"
value = "/test"`)
err = ioutil.WriteFile(templateFile.Name(), data, 0700)
if err != nil {
t.Fatal(err)
}
provider := &myProvider{
BaseProvider{
Filename: templateFile.Name(),
},
nil,
}
configuration, err := provider.GetConfiguration(templateFile.Name(), nil, nil)
if err != nil {
t.Fatalf("Shouldn't have error out, got %v", err)
}
if configuration == nil {
t.Fatal("Configuration should not be nil, but was")
}
if len(configuration.Backends) != 1 {
t.Fatal("one backend should be defined, but it's not")
}
if _, ok := configuration.Frontends["frontend-1"]; !ok {
t.Fatal("Frontend frontend-1 should exists, but it not")
}
}

20
vendor/github.com/Masterminds/semver/LICENSE.txt generated vendored Normal file
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@ -0,0 +1,20 @@
The Masterminds
Copyright (C) 2014-2015, Matt Butcher and Matt Farina
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.

24
vendor/github.com/Masterminds/semver/collection.go generated vendored Normal file
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@ -0,0 +1,24 @@
package semver
// Collection is a collection of Version instances and implements the sort
// interface. See the sort package for more details.
// https://golang.org/pkg/sort/
type Collection []*Version
// Len returns the length of a collection. The number of Version instances
// on the slice.
func (c Collection) Len() int {
return len(c)
}
// Less is needed for the sort interface to compare two Version objects on the
// slice. If checks if one is less than the other.
func (c Collection) Less(i, j int) bool {
return c[i].LessThan(c[j])
}
// Swap is needed for the sort interface to replace the Version objects
// at two different positions in the slice.
func (c Collection) Swap(i, j int) {
c[i], c[j] = c[j], c[i]
}

421
vendor/github.com/Masterminds/semver/constraints.go generated vendored Normal file
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@ -0,0 +1,421 @@
package semver
import (
"errors"
"fmt"
"regexp"
"strings"
)
// Constraints is one or more constraint that a semantic version can be
// checked against.
type Constraints struct {
constraints [][]*constraint
}
// NewConstraint returns a Constraints instance that a Version instance can
// be checked against. If there is a parse error it will be returned.
func NewConstraint(c string) (*Constraints, error) {
// Rewrite - ranges into a comparison operation.
c = rewriteRange(c)
ors := strings.Split(c, "||")
or := make([][]*constraint, len(ors))
for k, v := range ors {
cs := strings.Split(v, ",")
result := make([]*constraint, len(cs))
for i, s := range cs {
pc, err := parseConstraint(s)
if err != nil {
return nil, err
}
result[i] = pc
}
or[k] = result
}
o := &Constraints{constraints: or}
return o, nil
}
// Check tests if a version satisfies the constraints.
func (cs Constraints) Check(v *Version) bool {
// loop over the ORs and check the inner ANDs
for _, o := range cs.constraints {
joy := true
for _, c := range o {
if !c.check(v) {
joy = false
break
}
}
if joy {
return true
}
}
return false
}
// Validate checks if a version satisfies a constraint. If not a slice of
// reasons for the failure are returned in addition to a bool.
func (cs Constraints) Validate(v *Version) (bool, []error) {
// loop over the ORs and check the inner ANDs
var e []error
for _, o := range cs.constraints {
joy := true
for _, c := range o {
if !c.check(v) {
em := fmt.Errorf(c.msg, v, c.orig)
e = append(e, em)
joy = false
}
}
if joy {
return true, []error{}
}
}
return false, e
}
var constraintOps map[string]cfunc
var constraintMsg map[string]string
var constraintRegex *regexp.Regexp
func init() {
constraintOps = map[string]cfunc{
"": constraintTildeOrEqual,
"=": constraintTildeOrEqual,
"!=": constraintNotEqual,
">": constraintGreaterThan,
"<": constraintLessThan,
">=": constraintGreaterThanEqual,
"=>": constraintGreaterThanEqual,
"<=": constraintLessThanEqual,
"=<": constraintLessThanEqual,
"~": constraintTilde,
"~>": constraintTilde,
"^": constraintCaret,
}
constraintMsg = map[string]string{
"": "%s is not equal to %s",
"=": "%s is not equal to %s",
"!=": "%s is equal to %s",
">": "%s is less than or equal to %s",
"<": "%s is greater than or equal to %s",
">=": "%s is less than %s",
"=>": "%s is less than %s",
"<=": "%s is greater than %s",
"=<": "%s is greater than %s",
"~": "%s does not have same major and minor version as %s",
"~>": "%s does not have same major and minor version as %s",
"^": "%s does not have same major version as %s",
}
ops := make([]string, 0, len(constraintOps))
for k := range constraintOps {
ops = append(ops, regexp.QuoteMeta(k))
}
constraintRegex = regexp.MustCompile(fmt.Sprintf(
`^\s*(%s)\s*(%s)\s*$`,
strings.Join(ops, "|"),
cvRegex))
constraintRangeRegex = regexp.MustCompile(fmt.Sprintf(
`\s*(%s)\s+-\s+(%s)\s*`,
cvRegex, cvRegex))
}
// An individual constraint
type constraint struct {
// The callback function for the restraint. It performs the logic for
// the constraint.
function cfunc
msg string
// The version used in the constraint check. For example, if a constraint
// is '<= 2.0.0' the con a version instance representing 2.0.0.
con *Version
// The original parsed version (e.g., 4.x from != 4.x)
orig string
// When an x is used as part of the version (e.g., 1.x)
minorDirty bool
dirty bool
}
// Check if a version meets the constraint
func (c *constraint) check(v *Version) bool {
return c.function(v, c)
}
type cfunc func(v *Version, c *constraint) bool
func parseConstraint(c string) (*constraint, error) {
m := constraintRegex.FindStringSubmatch(c)
if m == nil {
return nil, fmt.Errorf("improper constraint: %s", c)
}
ver := m[2]
orig := ver
minorDirty := false
dirty := false
if isX(m[3]) {
ver = "0.0.0"
dirty = true
} else if isX(strings.TrimPrefix(m[4], ".")) {
minorDirty = true
dirty = true
ver = fmt.Sprintf("%s.0.0%s", m[3], m[6])
} else if isX(strings.TrimPrefix(m[5], ".")) {
dirty = true
ver = fmt.Sprintf("%s%s.0%s", m[3], m[4], m[6])
}
con, err := NewVersion(ver)
if err != nil {
// The constraintRegex should catch any regex parsing errors. So,
// we should never get here.
return nil, errors.New("constraint Parser Error")
}
cs := &constraint{
function: constraintOps[m[1]],
msg: constraintMsg[m[1]],
con: con,
orig: orig,
minorDirty: minorDirty,
dirty: dirty,
}
return cs, nil
}
// Constraint functions
func constraintNotEqual(v *Version, c *constraint) bool {
if c.dirty {
// If there is a pre-release on the version but the constraint isn't looking
// for them assume that pre-releases are not compatible. See issue 21 for
// more details.
if v.Prerelease() != "" && c.con.Prerelease() == "" {
return false
}
if c.con.Major() != v.Major() {
return true
}
if c.con.Minor() != v.Minor() && !c.minorDirty {
return true
} else if c.minorDirty {
return false
}
return false
}
return !v.Equal(c.con)
}
func constraintGreaterThan(v *Version, c *constraint) bool {
// An edge case the constraint is 0.0.0 and the version is 0.0.0-someprerelease
// exists. This that case.
if !isNonZero(c.con) && isNonZero(v) {
return true
}
// If there is a pre-release on the version but the constraint isn't looking
// for them assume that pre-releases are not compatible. See issue 21 for
// more details.
if v.Prerelease() != "" && c.con.Prerelease() == "" {
return false
}
return v.Compare(c.con) == 1
}
func constraintLessThan(v *Version, c *constraint) bool {
// If there is a pre-release on the version but the constraint isn't looking
// for them assume that pre-releases are not compatible. See issue 21 for
// more details.
if v.Prerelease() != "" && c.con.Prerelease() == "" {
return false
}
if !c.dirty {
return v.Compare(c.con) < 0
}
if v.Major() > c.con.Major() {
return false
} else if v.Minor() > c.con.Minor() && !c.minorDirty {
return false
}
return true
}
func constraintGreaterThanEqual(v *Version, c *constraint) bool {
// An edge case the constraint is 0.0.0 and the version is 0.0.0-someprerelease
// exists. This that case.
if !isNonZero(c.con) && isNonZero(v) {
return true
}
// If there is a pre-release on the version but the constraint isn't looking
// for them assume that pre-releases are not compatible. See issue 21 for
// more details.
if v.Prerelease() != "" && c.con.Prerelease() == "" {
return false
}
return v.Compare(c.con) >= 0
}
func constraintLessThanEqual(v *Version, c *constraint) bool {
// If there is a pre-release on the version but the constraint isn't looking
// for them assume that pre-releases are not compatible. See issue 21 for
// more details.
if v.Prerelease() != "" && c.con.Prerelease() == "" {
return false
}
if !c.dirty {
return v.Compare(c.con) <= 0
}
if v.Major() > c.con.Major() {
return false
} else if v.Minor() > c.con.Minor() && !c.minorDirty {
return false
}
return true
}
// ~*, ~>* --> >= 0.0.0 (any)
// ~2, ~2.x, ~2.x.x, ~>2, ~>2.x ~>2.x.x --> >=2.0.0, <3.0.0
// ~2.0, ~2.0.x, ~>2.0, ~>2.0.x --> >=2.0.0, <2.1.0
// ~1.2, ~1.2.x, ~>1.2, ~>1.2.x --> >=1.2.0, <1.3.0
// ~1.2.3, ~>1.2.3 --> >=1.2.3, <1.3.0
// ~1.2.0, ~>1.2.0 --> >=1.2.0, <1.3.0
func constraintTilde(v *Version, c *constraint) bool {
// If there is a pre-release on the version but the constraint isn't looking
// for them assume that pre-releases are not compatible. See issue 21 for
// more details.
if v.Prerelease() != "" && c.con.Prerelease() == "" {
return false
}
if v.LessThan(c.con) {
return false
}
// ~0.0.0 is a special case where all constraints are accepted. It's
// equivalent to >= 0.0.0.
if c.con.Major() == 0 && c.con.Minor() == 0 && c.con.Patch() == 0 {
return true
}
if v.Major() != c.con.Major() {
return false
}
if v.Minor() != c.con.Minor() && !c.minorDirty {
return false
}
return true
}
// When there is a .x (dirty) status it automatically opts in to ~. Otherwise
// it's a straight =
func constraintTildeOrEqual(v *Version, c *constraint) bool {
// If there is a pre-release on the version but the constraint isn't looking
// for them assume that pre-releases are not compatible. See issue 21 for
// more details.
if v.Prerelease() != "" && c.con.Prerelease() == "" {
return false
}
if c.dirty {
c.msg = constraintMsg["~"]
return constraintTilde(v, c)
}
return v.Equal(c.con)
}
// ^* --> (any)
// ^2, ^2.x, ^2.x.x --> >=2.0.0, <3.0.0
// ^2.0, ^2.0.x --> >=2.0.0, <3.0.0
// ^1.2, ^1.2.x --> >=1.2.0, <2.0.0
// ^1.2.3 --> >=1.2.3, <2.0.0
// ^1.2.0 --> >=1.2.0, <2.0.0
func constraintCaret(v *Version, c *constraint) bool {
// If there is a pre-release on the version but the constraint isn't looking
// for them assume that pre-releases are not compatible. See issue 21 for
// more details.
if v.Prerelease() != "" && c.con.Prerelease() == "" {
return false
}
if v.LessThan(c.con) {
return false
}
if v.Major() != c.con.Major() {
return false
}
return true
}
var constraintRangeRegex *regexp.Regexp
const cvRegex string = `v?([0-9|x|X|\*]+)(\.[0-9|x|X|\*]+)?(\.[0-9|x|X|\*]+)?` +
`(-([0-9A-Za-z\-]+(\.[0-9A-Za-z\-]+)*))?` +
`(\+([0-9A-Za-z\-]+(\.[0-9A-Za-z\-]+)*))?`
func isX(x string) bool {
switch x {
case "x", "*", "X":
return true
default:
return false
}
}
func rewriteRange(i string) string {
m := constraintRangeRegex.FindAllStringSubmatch(i, -1)
if m == nil {
return i
}
o := i
for _, v := range m {
t := fmt.Sprintf(">= %s, <= %s", v[1], v[11])
o = strings.Replace(o, v[0], t, 1)
}
return o
}
// Detect if a version is not zero (0.0.0)
func isNonZero(v *Version) bool {
if v.Major() != 0 || v.Minor() != 0 || v.Patch() != 0 || v.Prerelease() != "" {
return true
}
return false
}

115
vendor/github.com/Masterminds/semver/doc.go generated vendored Normal file
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@ -0,0 +1,115 @@
/*
Package semver provides the ability to work with Semantic Versions (http://semver.org) in Go.
Specifically it provides the ability to:
* Parse semantic versions
* Sort semantic versions
* Check if a semantic version fits within a set of constraints
* Optionally work with a `v` prefix
Parsing Semantic Versions
To parse a semantic version use the `NewVersion` function. For example,
v, err := semver.NewVersion("1.2.3-beta.1+build345")
If there is an error the version wasn't parseable. The version object has methods
to get the parts of the version, compare it to other versions, convert the
version back into a string, and get the original string. For more details
please see the documentation at https://godoc.org/github.com/Masterminds/semver.
Sorting Semantic Versions
A set of versions can be sorted using the `sort` package from the standard library.
For example,
raw := []string{"1.2.3", "1.0", "1.3", "2", "0.4.2",}
vs := make([]*semver.Version, len(raw))
for i, r := range raw {
v, err := semver.NewVersion(r)
if err != nil {
t.Errorf("Error parsing version: %s", err)
}
vs[i] = v
}
sort.Sort(semver.Collection(vs))
Checking Version Constraints
Checking a version against version constraints is one of the most featureful
parts of the package.
c, err := semver.NewConstraint(">= 1.2.3")
if err != nil {
// Handle constraint not being parseable.
}
v, _ := semver.NewVersion("1.3")
if err != nil {
// Handle version not being parseable.
}
// Check if the version meets the constraints. The a variable will be true.
a := c.Check(v)
Basic Comparisons
There are two elements to the comparisons. First, a comparison string is a list
of comma separated and comparisons. These are then separated by || separated or
comparisons. For example, `">= 1.2, < 3.0.0 || >= 4.2.3"` is looking for a
comparison that's greater than or equal to 1.2 and less than 3.0.0 or is
greater than or equal to 4.2.3.
The basic comparisons are:
* `=`: equal (aliased to no operator)
* `!=`: not equal
* `>`: greater than
* `<`: less than
* `>=`: greater than or equal to
* `<=`: less than or equal to
Hyphen Range Comparisons
There are multiple methods to handle ranges and the first is hyphens ranges.
These look like:
* `1.2 - 1.4.5` which is equivalent to `>= 1.2, <= 1.4.5`
* `2.3.4 - 4.5` which is equivalent to `>= 2.3.4, <= 4.5`
Wildcards In Comparisons
The `x`, `X`, and `*` characters can be used as a wildcard character. This works
for all comparison operators. When used on the `=` operator it falls
back to the pack level comparison (see tilde below). For example,
* `1.2.x` is equivalent to `>= 1.2.0, < 1.3.0`
* `>= 1.2.x` is equivalent to `>= 1.2.0`
* `<= 2.x` is equivalent to `<= 3`
* `*` is equivalent to `>= 0.0.0`
Tilde Range Comparisons (Patch)
The tilde (`~`) comparison operator is for patch level ranges when a minor
version is specified and major level changes when the minor number is missing.
For example,
* `~1.2.3` is equivalent to `>= 1.2.3, < 1.3.0`
* `~1` is equivalent to `>= 1, < 2`
* `~2.3` is equivalent to `>= 2.3, < 2.4`
* `~1.2.x` is equivalent to `>= 1.2.0, < 1.3.0`
* `~1.x` is equivalent to `>= 1, < 2`
Caret Range Comparisons (Major)
The caret (`^`) comparison operator is for major level changes. This is useful
when comparisons of API versions as a major change is API breaking. For example,
* `^1.2.3` is equivalent to `>= 1.2.3, < 2.0.0`
* `^1.2.x` is equivalent to `>= 1.2.0, < 2.0.0`
* `^2.3` is equivalent to `>= 2.3, < 3`
* `^2.x` is equivalent to `>= 2.0.0, < 3`
*/
package semver

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package semver
import (
"bytes"
"errors"
"fmt"
"regexp"
"strconv"
"strings"
)
// The compiled version of the regex created at init() is cached here so it
// only needs to be created once.
var versionRegex *regexp.Regexp
var validPrereleaseRegex *regexp.Regexp
var (
// ErrInvalidSemVer is returned a version is found to be invalid when
// being parsed.
ErrInvalidSemVer = errors.New("Invalid Semantic Version")
// ErrInvalidMetadata is returned when the metadata is an invalid format
ErrInvalidMetadata = errors.New("Invalid Metadata string")
// ErrInvalidPrerelease is returned when the pre-release is an invalid format
ErrInvalidPrerelease = errors.New("Invalid Prerelease string")
)
// SemVerRegex is the regular expression used to parse a semantic version.
const SemVerRegex string = `v?([0-9]+)(\.[0-9]+)?(\.[0-9]+)?` +
`(-([0-9A-Za-z\-]+(\.[0-9A-Za-z\-]+)*))?` +
`(\+([0-9A-Za-z\-]+(\.[0-9A-Za-z\-]+)*))?`
// ValidPrerelease is the regular expression which validates
// both prerelease and metadata values.
const ValidPrerelease string = `^([0-9A-Za-z\-]+(\.[0-9A-Za-z\-]+)*)`
// Version represents a single semantic version.
type Version struct {
major, minor, patch int64
pre string
metadata string
original string
}
func init() {
versionRegex = regexp.MustCompile("^" + SemVerRegex + "$")
validPrereleaseRegex = regexp.MustCompile(ValidPrerelease)
}
// NewVersion parses a given version and returns an instance of Version or
// an error if unable to parse the version.
func NewVersion(v string) (*Version, error) {
m := versionRegex.FindStringSubmatch(v)
if m == nil {
return nil, ErrInvalidSemVer
}
sv := &Version{
metadata: m[8],
pre: m[5],
original: v,
}
var temp int64
temp, err := strconv.ParseInt(m[1], 10, 32)
if err != nil {
return nil, fmt.Errorf("Error parsing version segment: %s", err)
}
sv.major = temp
if m[2] != "" {
temp, err = strconv.ParseInt(strings.TrimPrefix(m[2], "."), 10, 32)
if err != nil {
return nil, fmt.Errorf("Error parsing version segment: %s", err)
}
sv.minor = temp
} else {
sv.minor = 0
}
if m[3] != "" {
temp, err = strconv.ParseInt(strings.TrimPrefix(m[3], "."), 10, 32)
if err != nil {
return nil, fmt.Errorf("Error parsing version segment: %s", err)
}
sv.patch = temp
} else {
sv.patch = 0
}
return sv, nil
}
// MustParse parses a given version and panics on error.
func MustParse(v string) *Version {
sv, err := NewVersion(v)
if err != nil {
panic(err)
}
return sv
}
// String converts a Version object to a string.
// Note, if the original version contained a leading v this version will not.
// See the Original() method to retrieve the original value. Semantic Versions
// don't contain a leading v per the spec. Instead it's optional on
// impelementation.
func (v *Version) String() string {
var buf bytes.Buffer
fmt.Fprintf(&buf, "%d.%d.%d", v.major, v.minor, v.patch)
if v.pre != "" {
fmt.Fprintf(&buf, "-%s", v.pre)
}
if v.metadata != "" {
fmt.Fprintf(&buf, "+%s", v.metadata)
}
return buf.String()
}
// Original returns the original value passed in to be parsed.
func (v *Version) Original() string {
return v.original
}
// Major returns the major version.
func (v *Version) Major() int64 {
return v.major
}
// Minor returns the minor version.
func (v *Version) Minor() int64 {
return v.minor
}
// Patch returns the patch version.
func (v *Version) Patch() int64 {
return v.patch
}
// Prerelease returns the pre-release version.
func (v *Version) Prerelease() string {
return v.pre
}
// Metadata returns the metadata on the version.
func (v *Version) Metadata() string {
return v.metadata
}
// originalVPrefix returns the original 'v' prefix if any.
func (v *Version) originalVPrefix() string {
// Note, only lowercase v is supported as a prefix by the parser.
if v.original != "" && v.original[:1] == "v" {
return v.original[:1]
}
return ""
}
// IncPatch produces the next patch version.
// If the current version does not have prerelease/metadata information,
// it unsets metadata and prerelease values, increments patch number.
// If the current version has any of prerelease or metadata information,
// it unsets both values and keeps curent patch value
func (v Version) IncPatch() Version {
vNext := v
// according to http://semver.org/#spec-item-9
// Pre-release versions have a lower precedence than the associated normal version.
// according to http://semver.org/#spec-item-10
// Build metadata SHOULD be ignored when determining version precedence.
if v.pre != "" {
vNext.metadata = ""
vNext.pre = ""
} else {
vNext.metadata = ""
vNext.pre = ""
vNext.patch = v.patch + 1
}
vNext.original = v.originalVPrefix() + "" + vNext.String()
return vNext
}
// IncMinor produces the next minor version.
// Sets patch to 0.
// Increments minor number.
// Unsets metadata.
// Unsets prerelease status.
func (v Version) IncMinor() Version {
vNext := v
vNext.metadata = ""
vNext.pre = ""
vNext.patch = 0
vNext.minor = v.minor + 1
vNext.original = v.originalVPrefix() + "" + vNext.String()
return vNext
}
// IncMajor produces the next major version.
// Sets patch to 0.
// Sets minor to 0.
// Increments major number.
// Unsets metadata.
// Unsets prerelease status.
func (v Version) IncMajor() Version {
vNext := v
vNext.metadata = ""
vNext.pre = ""
vNext.patch = 0
vNext.minor = 0
vNext.major = v.major + 1
vNext.original = v.originalVPrefix() + "" + vNext.String()
return vNext
}
// SetPrerelease defines the prerelease value.
// Value must not include the required 'hypen' prefix.
func (v Version) SetPrerelease(prerelease string) (Version, error) {
vNext := v
if len(prerelease) > 0 && !validPrereleaseRegex.MatchString(prerelease) {
return vNext, ErrInvalidPrerelease
}
vNext.pre = prerelease
vNext.original = v.originalVPrefix() + "" + vNext.String()
return vNext, nil
}
// SetMetadata defines metadata value.
// Value must not include the required 'plus' prefix.
func (v Version) SetMetadata(metadata string) (Version, error) {
vNext := v
if len(metadata) > 0 && !validPrereleaseRegex.MatchString(metadata) {
return vNext, ErrInvalidMetadata
}
vNext.metadata = metadata
vNext.original = v.originalVPrefix() + "" + vNext.String()
return vNext, nil
}
// LessThan tests if one version is less than another one.
func (v *Version) LessThan(o *Version) bool {
return v.Compare(o) < 0
}
// GreaterThan tests if one version is greater than another one.
func (v *Version) GreaterThan(o *Version) bool {
return v.Compare(o) > 0
}
// Equal tests if two versions are equal to each other.
// Note, versions can be equal with different metadata since metadata
// is not considered part of the comparable version.
func (v *Version) Equal(o *Version) bool {
return v.Compare(o) == 0
}
// Compare compares this version to another one. It returns -1, 0, or 1 if
// the version smaller, equal, or larger than the other version.
//
// Versions are compared by X.Y.Z. Build metadata is ignored. Prerelease is
// lower than the version without a prerelease.
func (v *Version) Compare(o *Version) int {
// Compare the major, minor, and patch version for differences. If a
// difference is found return the comparison.
if d := compareSegment(v.Major(), o.Major()); d != 0 {
return d
}
if d := compareSegment(v.Minor(), o.Minor()); d != 0 {
return d
}
if d := compareSegment(v.Patch(), o.Patch()); d != 0 {
return d
}
// At this point the major, minor, and patch versions are the same.
ps := v.pre
po := o.Prerelease()
if ps == "" && po == "" {
return 0
}
if ps == "" {
return 1
}
if po == "" {
return -1
}
return comparePrerelease(ps, po)
}
func compareSegment(v, o int64) int {
if v < o {
return -1
}
if v > o {
return 1
}
return 0
}
func comparePrerelease(v, o string) int {
// split the prelease versions by their part. The separator, per the spec,
// is a .
sparts := strings.Split(v, ".")
oparts := strings.Split(o, ".")
// Find the longer length of the parts to know how many loop iterations to
// go through.
slen := len(sparts)
olen := len(oparts)
l := slen
if olen > slen {
l = olen
}
// Iterate over each part of the prereleases to compare the differences.
for i := 0; i < l; i++ {
// Since the lentgh of the parts can be different we need to create
// a placeholder. This is to avoid out of bounds issues.
stemp := ""
if i < slen {
stemp = sparts[i]
}
otemp := ""
if i < olen {
otemp = oparts[i]
}
d := comparePrePart(stemp, otemp)
if d != 0 {
return d
}
}
// Reaching here means two versions are of equal value but have different
// metadata (the part following a +). They are not identical in string form
// but the version comparison finds them to be equal.
return 0
}
func comparePrePart(s, o string) int {
// Fastpath if they are equal
if s == o {
return 0
}
// When s or o are empty we can use the other in an attempt to determine
// the response.
if o == "" {
_, n := strconv.ParseInt(s, 10, 64)
if n != nil {
return -1
}
return 1
}
if s == "" {
_, n := strconv.ParseInt(o, 10, 64)
if n != nil {
return 1
}
return -1
}
if s > o {
return 1
}
return -1
}

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Sprig
Copyright (C) 2013 Masterminds
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.

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package sprig
import (
"bytes"
"crypto/dsa"
"crypto/ecdsa"
"crypto/elliptic"
"crypto/hmac"
"crypto/rand"
"crypto/rsa"
"crypto/sha256"
"crypto/x509"
"encoding/asn1"
"encoding/binary"
"encoding/hex"
"encoding/pem"
"fmt"
"math/big"
uuid "github.com/satori/go.uuid"
"golang.org/x/crypto/scrypt"
)
func sha256sum(input string) string {
hash := sha256.Sum256([]byte(input))
return hex.EncodeToString(hash[:])
}
// uuidv4 provides a safe and secure UUID v4 implementation
func uuidv4() string {
return fmt.Sprintf("%s", uuid.NewV4())
}
var master_password_seed = "com.lyndir.masterpassword"
var password_type_templates = map[string][][]byte{
"maximum": {[]byte("anoxxxxxxxxxxxxxxxxx"), []byte("axxxxxxxxxxxxxxxxxno")},
"long": {[]byte("CvcvnoCvcvCvcv"), []byte("CvcvCvcvnoCvcv"), []byte("CvcvCvcvCvcvno"), []byte("CvccnoCvcvCvcv"), []byte("CvccCvcvnoCvcv"),
[]byte("CvccCvcvCvcvno"), []byte("CvcvnoCvccCvcv"), []byte("CvcvCvccnoCvcv"), []byte("CvcvCvccCvcvno"), []byte("CvcvnoCvcvCvcc"),
[]byte("CvcvCvcvnoCvcc"), []byte("CvcvCvcvCvccno"), []byte("CvccnoCvccCvcv"), []byte("CvccCvccnoCvcv"), []byte("CvccCvccCvcvno"),
[]byte("CvcvnoCvccCvcc"), []byte("CvcvCvccnoCvcc"), []byte("CvcvCvccCvccno"), []byte("CvccnoCvcvCvcc"), []byte("CvccCvcvnoCvcc"),
[]byte("CvccCvcvCvccno")},
"medium": {[]byte("CvcnoCvc"), []byte("CvcCvcno")},
"short": {[]byte("Cvcn")},
"basic": {[]byte("aaanaaan"), []byte("aannaaan"), []byte("aaannaaa")},
"pin": {[]byte("nnnn")},
}
var template_characters = map[byte]string{
'V': "AEIOU",
'C': "BCDFGHJKLMNPQRSTVWXYZ",
'v': "aeiou",
'c': "bcdfghjklmnpqrstvwxyz",
'A': "AEIOUBCDFGHJKLMNPQRSTVWXYZ",
'a': "AEIOUaeiouBCDFGHJKLMNPQRSTVWXYZbcdfghjklmnpqrstvwxyz",
'n': "0123456789",
'o': "@&%?,=[]_:-+*$#!'^~;()/.",
'x': "AEIOUaeiouBCDFGHJKLMNPQRSTVWXYZbcdfghjklmnpqrstvwxyz0123456789!@#$%^&*()",
}
func derivePassword(counter uint32, password_type, password, user, site string) string {
var templates = password_type_templates[password_type]
if templates == nil {
return fmt.Sprintf("cannot find password template %s", password_type)
}
var buffer bytes.Buffer
buffer.WriteString(master_password_seed)
binary.Write(&buffer, binary.BigEndian, uint32(len(user)))
buffer.WriteString(user)
salt := buffer.Bytes()
key, err := scrypt.Key([]byte(password), salt, 32768, 8, 2, 64)
if err != nil {
return fmt.Sprintf("failed to derive password: %s", err)
}
buffer.Truncate(len(master_password_seed))
binary.Write(&buffer, binary.BigEndian, uint32(len(site)))
buffer.WriteString(site)
binary.Write(&buffer, binary.BigEndian, counter)
var hmacv = hmac.New(sha256.New, key)
hmacv.Write(buffer.Bytes())
var seed = hmacv.Sum(nil)
var temp = templates[int(seed[0])%len(templates)]
buffer.Truncate(0)
for i, element := range temp {
pass_chars := template_characters[element]
pass_char := pass_chars[int(seed[i+1])%len(pass_chars)]
buffer.WriteByte(pass_char)
}
return buffer.String()
}
func generatePrivateKey(typ string) string {
var priv interface{}
var err error
switch typ {
case "", "rsa":
// good enough for government work
priv, err = rsa.GenerateKey(rand.Reader, 4096)
case "dsa":
key := new(dsa.PrivateKey)
// again, good enough for government work
if err = dsa.GenerateParameters(&key.Parameters, rand.Reader, dsa.L2048N256); err != nil {
return fmt.Sprintf("failed to generate dsa params: %s", err)
}
err = dsa.GenerateKey(key, rand.Reader)
priv = key
case "ecdsa":
// again, good enough for government work
priv, err = ecdsa.GenerateKey(elliptic.P256(), rand.Reader)
default:
return "Unknown type " + typ
}
if err != nil {
return fmt.Sprintf("failed to generate private key: %s", err)
}
return string(pem.EncodeToMemory(pemBlockForKey(priv)))
}
type DSAKeyFormat struct {
Version int
P, Q, G, Y, X *big.Int
}
func pemBlockForKey(priv interface{}) *pem.Block {
switch k := priv.(type) {
case *rsa.PrivateKey:
return &pem.Block{Type: "RSA PRIVATE KEY", Bytes: x509.MarshalPKCS1PrivateKey(k)}
case *dsa.PrivateKey:
val := DSAKeyFormat{
P: k.P, Q: k.Q, G: k.G,
Y: k.Y, X: k.X,
}
bytes, _ := asn1.Marshal(val)
return &pem.Block{Type: "DSA PRIVATE KEY", Bytes: bytes}
case *ecdsa.PrivateKey:
b, _ := x509.MarshalECPrivateKey(k)
return &pem.Block{Type: "EC PRIVATE KEY", Bytes: b}
default:
return nil
}
}

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package sprig
import (
"time"
)
// Given a format and a date, format the date string.
//
// Date can be a `time.Time` or an `int, int32, int64`.
// In the later case, it is treated as seconds since UNIX
// epoch.
func date(fmt string, date interface{}) string {
return dateInZone(fmt, date, "Local")
}
func htmlDate(date interface{}) string {
return dateInZone("2006-01-02", date, "Local")
}
func htmlDateInZone(date interface{}, zone string) string {
return dateInZone("2006-01-02", date, zone)
}
func dateInZone(fmt string, date interface{}, zone string) string {
var t time.Time
switch date := date.(type) {
default:
t = time.Now()
case time.Time:
t = date
case int64:
t = time.Unix(date, 0)
case int:
t = time.Unix(int64(date), 0)
case int32:
t = time.Unix(int64(date), 0)
}
loc, err := time.LoadLocation(zone)
if err != nil {
loc, _ = time.LoadLocation("UTC")
}
return t.In(loc).Format(fmt)
}
func dateModify(fmt string, date time.Time) time.Time {
d, err := time.ParseDuration(fmt)
if err != nil {
return date
}
return date.Add(d)
}

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package sprig
import (
"encoding/json"
"reflect"
)
// dfault checks whether `given` is set, and returns default if not set.
//
// This returns `d` if `given` appears not to be set, and `given` otherwise.
//
// For numeric types 0 is unset.
// For strings, maps, arrays, and slices, len() = 0 is considered unset.
// For bool, false is unset.
// Structs are never considered unset.
//
// For everything else, including pointers, a nil value is unset.
func dfault(d interface{}, given ...interface{}) interface{} {
if empty(given) || empty(given[0]) {
return d
}
return given[0]
}
// empty returns true if the given value has the zero value for its type.
func empty(given interface{}) bool {
g := reflect.ValueOf(given)
if !g.IsValid() {
return true
}
// Basically adapted from text/template.isTrue
switch g.Kind() {
default:
return g.IsNil()
case reflect.Array, reflect.Slice, reflect.Map, reflect.String:
return g.Len() == 0
case reflect.Bool:
return g.Bool() == false
case reflect.Complex64, reflect.Complex128:
return g.Complex() == 0
case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:
return g.Int() == 0
case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64, reflect.Uintptr:
return g.Uint() == 0
case reflect.Float32, reflect.Float64:
return g.Float() == 0
case reflect.Struct:
return false
}
return true
}
// coalesce returns the first non-empty value.
func coalesce(v ...interface{}) interface{} {
for _, val := range v {
if !empty(val) {
return val
}
}
return nil
}
// toJson encodes an item into a JSON string
func toJson(v interface{}) string {
output, _ := json.Marshal(v)
return string(output)
}
// toPrettyJson encodes an item into a pretty (indented) JSON string
func toPrettyJson(v interface{}) string {
output, _ := json.MarshalIndent(v, "", " ")
return string(output)
}

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vendor/github.com/Masterminds/sprig/dict.go generated vendored Normal file
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package sprig
import "github.com/imdario/mergo"
func set(d map[string]interface{}, key string, value interface{}) map[string]interface{} {
d[key] = value
return d
}
func unset(d map[string]interface{}, key string) map[string]interface{} {
delete(d, key)
return d
}
func hasKey(d map[string]interface{}, key string) bool {
_, ok := d[key]
return ok
}
func pluck(key string, d ...map[string]interface{}) []interface{} {
res := []interface{}{}
for _, dict := range d {
if val, ok := dict[key]; ok {
res = append(res, val)
}
}
return res
}
func keys(dict map[string]interface{}) []string {
k := []string{}
for key := range dict {
k = append(k, key)
}
return k
}
func pick(dict map[string]interface{}, keys ...string) map[string]interface{} {
res := map[string]interface{}{}
for _, k := range keys {
if v, ok := dict[k]; ok {
res[k] = v
}
}
return res
}
func omit(dict map[string]interface{}, keys ...string) map[string]interface{} {
res := map[string]interface{}{}
omit := make(map[string]bool, len(keys))
for _, k := range keys {
omit[k] = true
}
for k, v := range dict {
if _, ok := omit[k]; !ok {
res[k] = v
}
}
return res
}
func dict(v ...interface{}) map[string]interface{} {
dict := map[string]interface{}{}
lenv := len(v)
for i := 0; i < lenv; i += 2 {
key := strval(v[i])
if i+1 >= lenv {
dict[key] = ""
continue
}
dict[key] = v[i+1]
}
return dict
}
func merge(dst map[string]interface{}, src map[string]interface{}) interface{} {
if err := mergo.Merge(&dst, src); err != nil {
// Swallow errors inside of a template.
return ""
}
return dst
}

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vendor/github.com/Masterminds/sprig/doc.go generated vendored Normal file
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/*
Sprig: Template functions for Go.
This package contains a number of utility functions for working with data
inside of Go `html/template` and `text/template` files.
To add these functions, use the `template.Funcs()` method:
t := templates.New("foo").Funcs(sprig.FuncMap())
Note that you should add the function map before you parse any template files.
In several cases, Sprig reverses the order of arguments from the way they
appear in the standard library. This is to make it easier to pipe
arguments into functions.
Date Functions
- date FORMAT TIME: Format a date, where a date is an integer type or a time.Time type, and
format is a time.Format formatting string.
- dateModify: Given a date, modify it with a duration: `date_modify "-1.5h" now`. If the duration doesn't
parse, it returns the time unaltered. See `time.ParseDuration` for info on duration strings.
- now: Current time.Time, for feeding into date-related functions.
- htmlDate TIME: Format a date for use in the value field of an HTML "date" form element.
- dateInZone FORMAT TIME TZ: Like date, but takes three arguments: format, timestamp,
timezone.
- htmlDateInZone TIME TZ: Like htmlDate, but takes two arguments: timestamp,
timezone.
String Functions
- abbrev: Truncate a string with ellipses. `abbrev 5 "hello world"` yields "he..."
- abbrevboth: Abbreviate from both sides, yielding "...lo wo..."
- trunc: Truncate a string (no suffix). `trunc 5 "Hello World"` yields "hello".
- trim: strings.TrimSpace
- trimAll: strings.Trim, but with the argument order reversed `trimAll "$" "$5.00"` or `"$5.00 | trimAll "$"`
- trimSuffix: strings.TrimSuffix, but with the argument order reversed: `trimSuffix "-" "ends-with-"`
- trimPrefix: strings.TrimPrefix, but with the argument order reversed `trimPrefix "$" "$5"`
- upper: strings.ToUpper
- lower: strings.ToLower
- nospace: Remove all space characters from a string. `nospace "h e l l o"` becomes "hello"
- title: strings.Title
- untitle: Remove title casing
- repeat: strings.Repeat, but with the arguments switched: `repeat count str`. (This simplifies common pipelines)
- substr: Given string, start, and length, return a substr.
- initials: Given a multi-word string, return the initials. `initials "Matt Butcher"` returns "MB"
- randAlphaNum: Given a length, generate a random alphanumeric sequence
- randAlpha: Given a length, generate an alphabetic string
- randAscii: Given a length, generate a random ASCII string (symbols included)
- randNumeric: Given a length, generate a string of digits.
- wrap: Force a line wrap at the given width. `wrap 80 "imagine a longer string"`
- wrapWith: Wrap a line at the given length, but using 'sep' instead of a newline. `wrapWith 50, "<br>", $html`
- contains: strings.Contains, but with the arguments switched: `contains substr str`. (This simplifies common pipelines)
- hasPrefix: strings.hasPrefix, but with the arguments switched
- hasSuffix: strings.hasSuffix, but with the arguments switched
- quote: Wrap string(s) in double quotation marks, escape the contents by adding '\' before '"'.
- squote: Wrap string(s) in double quotation marks, does not escape content.
- cat: Concatenate strings, separating them by spaces. `cat $a $b $c`.
- indent: Indent a string using space characters. `indent 4 "foo\nbar"` produces " foo\n bar"
- replace: Replace an old with a new in a string: `$name | replace " " "-"`
- plural: Choose singular or plural based on length: `len $fish | plural "one anchovy" "many anchovies"`
- sha256sum: Generate a hex encoded sha256 hash of the input
- toString: Convert something to a string
String Slice Functions:
- join: strings.Join, but as `join SEP SLICE`
- split: strings.Split, but as `split SEP STRING`. The results are returned
as a map with the indexes set to _N, where N is an integer starting from 0.
Use it like this: `{{$v := "foo/bar/baz" | split "/"}}{{$v._0}}` (Prints `foo`)
- splitList: strings.Split, but as `split SEP STRING`. The results are returned
as an array.
- toStrings: convert a list to a list of strings. 'list 1 2 3 | toStrings' produces '["1" "2" "3"]'
- sortAlpha: sort a list lexicographically.
Integer Slice Functions:
- until: Given an integer, returns a slice of counting integers from 0 to one
less than the given integer: `range $i, $e := until 5`
- untilStep: Given start, stop, and step, return an integer slice starting at
'start', stopping at `stop`, and incrementing by 'step. This is the same
as Python's long-form of 'range'.
Conversions:
- atoi: Convert a string to an integer. 0 if the integer could not be parsed.
- in64: Convert a string or another numeric type to an int64.
- int: Convert a string or another numeric type to an int.
- float64: Convert a string or another numeric type to a float64.
Defaults:
- default: Give a default value. Used like this: trim " "| default "empty".
Since trim produces an empty string, the default value is returned. For
things with a length (strings, slices, maps), len(0) will trigger the default.
For numbers, the value 0 will trigger the default. For booleans, false will
trigger the default. For structs, the default is never returned (there is
no clear empty condition). For everything else, nil value triggers a default.
- empty: Return true if the given value is the zero value for its type.
Caveats: structs are always non-empty. This should match the behavior of
{{if pipeline}}, but can be used inside of a pipeline.
- coalesce: Given a list of items, return the first non-empty one.
This follows the same rules as 'empty'. '{{ coalesce .someVal 0 "hello" }}`
will return `.someVal` if set, or else return "hello". The 0 is skipped
because it is an empty value.
- compact: Return a copy of a list with all of the empty values removed.
'list 0 1 2 "" | compact' will return '[1 2]'
OS:
- env: Resolve an environment variable
- expandenv: Expand a string through the environment
File Paths:
- base: Return the last element of a path. https://golang.org/pkg/path#Base
- dir: Remove the last element of a path. https://golang.org/pkg/path#Dir
- clean: Clean a path to the shortest equivalent name. (e.g. remove "foo/.."
from "foo/../bar.html") https://golang.org/pkg/path#Clean
- ext: https://golang.org/pkg/path#Ext
- isAbs: https://golang.org/pkg/path#IsAbs
Encoding:
- b64enc: Base 64 encode a string.
- b64dec: Base 64 decode a string.
Reflection:
- typeOf: Takes an interface and returns a string representation of the type.
For pointers, this will return a type prefixed with an asterisk(`*`). So
a pointer to type `Foo` will be `*Foo`.
- typeIs: Compares an interface with a string name, and returns true if they match.
Note that a pointer will not match a reference. For example `*Foo` will not
match `Foo`.
- typeIsLike: Compares an interface with a string name and returns true if
the interface is that `name` or that `*name`. In other words, if the given
value matches the given type or is a pointer to the given type, this returns
true.
- kindOf: Takes an interface and returns a string representation of its kind.
- kindIs: Returns true if the given string matches the kind of the given interface.
Note: None of these can test whether or not something implements a given
interface, since doing so would require compiling the interface in ahead of
time.
Data Structures:
- tuple: Takes an arbitrary list of items and returns a slice of items. Its
tuple-ish properties are mainly gained through the template idiom, and not
through an API provided here. WARNING: The implementation of tuple will
change in the future.
- list: An arbitrary ordered list of items. (This is prefered over tuple.)
- dict: Takes a list of name/values and returns a map[string]interface{}.
The first parameter is converted to a string and stored as a key, the
second parameter is treated as the value. And so on, with odds as keys and
evens as values. If the function call ends with an odd, the last key will
be assigned the empty string. Non-string keys are converted to strings as
follows: []byte are converted, fmt.Stringers will have String() called.
errors will have Error() called. All others will be passed through
fmt.Sprtinf("%v").
Lists Functions:
These are used to manipulate lists: '{{ list 1 2 3 | reverse | first }}'
- first: Get the first item in a 'list'. 'list 1 2 3 | first' prints '1'
- last: Get the last item in a 'list': 'list 1 2 3 | last ' prints '3'
- rest: Get all but the first item in a list: 'list 1 2 3 | rest' returns '[2 3]'
- initial: Get all but the last item in a list: 'list 1 2 3 | initial' returns '[1 2]'
- append: Add an item to the end of a list: 'append $list 4' adds '4' to the end of '$list'
- prepend: Add an item to the beginning of a list: 'prepend $list 4' puts 4 at the beginning of the list.
- reverse: Reverse the items in a list.
- uniq: Remove duplicates from a list.
- without: Return a list with the given values removed: 'without (list 1 2 3) 1' would return '[2 3]'
- has: Return 'true' if the item is found in the list: 'has "foo" $list' will return 'true' if the list contains "foo"
Dict Functions:
These are used to manipulate dicts.
- set: Takes a dict, a key, and a value, and sets that key/value pair in
the dict. `set $dict $key $value`. For convenience, it returns the dict,
even though the dict was modified in place.
- unset: Takes a dict and a key, and deletes that key/value pair from the
dict. `unset $dict $key`. This returns the dict for convenience.
- hasKey: Takes a dict and a key, and returns boolean true if the key is in
the dict.
- pluck: Given a key and one or more maps, get all of the values for that key.
- keys: Get an array of all of the keys in a dict.
- pick: Select just the given keys out of the dict, and return a new dict.
- omit: Return a dict without the given keys.
Math Functions:
Integer functions will convert integers of any width to `int64`. If a
string is passed in, functions will attempt to convert with
`strconv.ParseInt(s, 1064)`. If this fails, the value will be treated as 0.
- add1: Increment an integer by 1
- add: Sum an arbitrary number of integers
- sub: Subtract the second integer from the first
- div: Divide the first integer by the second
- mod: Module of first integer divided by second
- mul: Multiply integers
- max: Return the biggest of a series of one or more integers
- min: Return the smallest of a series of one or more integers
- biggest: DEPRECATED. Return the biggest of a series of one or more integers
Crypto Functions:
- genPrivateKey: Generate a private key for the given cryptosystem. If no
argument is supplied, by default it will generate a private key using
the RSA algorithm. Accepted values are `rsa`, `dsa`, and `ecdsa`.
- derivePassword: Derive a password from the given parameters according to the ["Master Password" algorithm](http://masterpasswordapp.com/algorithm.html)
Given parameters (in order) are:
`counter` (starting with 1), `password_type` (maximum, long, medium, short, basic, or pin), `password`,
`user`, and `site`
SemVer Functions:
These functions provide version parsing and comparisons for SemVer 2 version
strings.
- semver: Parse a semantic version and return a Version object.
- semverCompare: Compare a SemVer range to a particular version.
*/
package sprig

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package sprig
import (
"errors"
"html/template"
"os"
"path"
"strconv"
"strings"
ttemplate "text/template"
"time"
util "github.com/aokoli/goutils"
"github.com/huandu/xstrings"
)
// Produce the function map.
//
// Use this to pass the functions into the template engine:
//
// tpl := template.New("foo").Funcs(sprig.FuncMap()))
//
func FuncMap() template.FuncMap {
return HtmlFuncMap()
}
// HermeticTextFuncMap returns a 'text/template'.FuncMap with only repeatable functions.
func HermeticTxtFuncMap() ttemplate.FuncMap {
r := TxtFuncMap()
for _, name := range nonhermeticFunctions {
delete(r, name)
}
return r
}
// HermeticHtmlFuncMap returns an 'html/template'.Funcmap with only repeatable functions.
func HermeticHtmlFuncMap() template.FuncMap {
r := HtmlFuncMap()
for _, name := range nonhermeticFunctions {
delete(r, name)
}
return r
}
// TextFuncMap returns a 'text/template'.FuncMap
func TxtFuncMap() ttemplate.FuncMap {
return ttemplate.FuncMap(GenericFuncMap())
}
// HtmlFuncMap returns an 'html/template'.Funcmap
func HtmlFuncMap() template.FuncMap {
return template.FuncMap(GenericFuncMap())
}
// GenericFuncMap returns a copy of the basic function map as a map[string]interface{}.
func GenericFuncMap() map[string]interface{} {
gfm := make(map[string]interface{}, len(genericMap))
for k, v := range genericMap {
gfm[k] = v
}
return gfm
}
// These functions are not guaranteed to evaluate to the same result for given input, because they
// refer to the environemnt or global state.
var nonhermeticFunctions = []string{
// Date functions
"date",
"date_in_zone",
"date_modify",
"now",
"htmlDate",
"htmlDateInZone",
"dateInZone",
"dateModify",
// Strings
"randAlphaNum",
"randAlpha",
"randAscii",
"randNumeric",
"uuidv4",
// OS
"env",
"expandenv",
}
var genericMap = map[string]interface{}{
"hello": func() string { return "Hello!" },
// Date functions
"date": date,
"date_in_zone": dateInZone,
"date_modify": dateModify,
"now": func() time.Time { return time.Now() },
"htmlDate": htmlDate,
"htmlDateInZone": htmlDateInZone,
"dateInZone": dateInZone,
"dateModify": dateModify,
// Strings
"abbrev": abbrev,
"abbrevboth": abbrevboth,
"trunc": trunc,
"trim": strings.TrimSpace,
"upper": strings.ToUpper,
"lower": strings.ToLower,
"title": strings.Title,
"untitle": untitle,
"substr": substring,
// Switch order so that "foo" | repeat 5
"repeat": func(count int, str string) string { return strings.Repeat(str, count) },
// Deprecated: Use trimAll.
"trimall": func(a, b string) string { return strings.Trim(b, a) },
// Switch order so that "$foo" | trimall "$"
"trimAll": func(a, b string) string { return strings.Trim(b, a) },
"trimSuffix": func(a, b string) string { return strings.TrimSuffix(b, a) },
"trimPrefix": func(a, b string) string { return strings.TrimPrefix(b, a) },
"nospace": util.DeleteWhiteSpace,
"initials": initials,
"randAlphaNum": randAlphaNumeric,
"randAlpha": randAlpha,
"randAscii": randAscii,
"randNumeric": randNumeric,
"swapcase": util.SwapCase,
"shuffle": xstrings.Shuffle,
"snakecase": xstrings.ToSnakeCase,
"camelcase": xstrings.ToCamelCase,
"wrap": func(l int, s string) string { return util.Wrap(s, l) },
"wrapWith": func(l int, sep, str string) string { return util.WrapCustom(str, l, sep, true) },
// Switch order so that "foobar" | contains "foo"
"contains": func(substr string, str string) bool { return strings.Contains(str, substr) },
"hasPrefix": func(substr string, str string) bool { return strings.HasPrefix(str, substr) },
"hasSuffix": func(substr string, str string) bool { return strings.HasSuffix(str, substr) },
"quote": quote,
"squote": squote,
"cat": cat,
"indent": indent,
"replace": replace,
"plural": plural,
"sha256sum": sha256sum,
"toString": strval,
// Wrap Atoi to stop errors.
"atoi": func(a string) int { i, _ := strconv.Atoi(a); return i },
"int64": toInt64,
"int": toInt,
"float64": toFloat64,
//"gt": func(a, b int) bool {return a > b},
//"gte": func(a, b int) bool {return a >= b},
//"lt": func(a, b int) bool {return a < b},
//"lte": func(a, b int) bool {return a <= b},
// split "/" foo/bar returns map[int]string{0: foo, 1: bar}
"split": split,
"splitList": func(sep, orig string) []string { return strings.Split(orig, sep) },
"toStrings": strslice,
"until": until,
"untilStep": untilStep,
// VERY basic arithmetic.
"add1": func(i interface{}) int64 { return toInt64(i) + 1 },
"add": func(i ...interface{}) int64 {
var a int64 = 0
for _, b := range i {
a += toInt64(b)
}
return a
},
"sub": func(a, b interface{}) int64 { return toInt64(a) - toInt64(b) },
"div": func(a, b interface{}) int64 { return toInt64(a) / toInt64(b) },
"mod": func(a, b interface{}) int64 { return toInt64(a) % toInt64(b) },
"mul": func(a interface{}, v ...interface{}) int64 {
val := toInt64(a)
for _, b := range v {
val = val * toInt64(b)
}
return val
},
"biggest": max,
"max": max,
"min": min,
// string slices. Note that we reverse the order b/c that's better
// for template processing.
"join": join,
"sortAlpha": sortAlpha,
// Defaults
"default": dfault,
"empty": empty,
"coalesce": coalesce,
"compact": compact,
"toJson": toJson,
"toPrettyJson": toPrettyJson,
// Reflection
"typeOf": typeOf,
"typeIs": typeIs,
"typeIsLike": typeIsLike,
"kindOf": kindOf,
"kindIs": kindIs,
// OS:
"env": func(s string) string { return os.Getenv(s) },
"expandenv": func(s string) string { return os.ExpandEnv(s) },
// File Paths:
"base": path.Base,
"dir": path.Dir,
"clean": path.Clean,
"ext": path.Ext,
"isAbs": path.IsAbs,
// Encoding:
"b64enc": base64encode,
"b64dec": base64decode,
"b32enc": base32encode,
"b32dec": base32decode,
// Data Structures:
"tuple": list, // FIXME: with the addition of append/prepend these are no longer immutable.
"list": list,
"dict": dict,
"set": set,
"unset": unset,
"hasKey": hasKey,
"pluck": pluck,
"keys": keys,
"pick": pick,
"omit": omit,
"merge": merge,
"append": push, "push": push,
"prepend": prepend,
"first": first,
"rest": rest,
"last": last,
"initial": initial,
"reverse": reverse,
"uniq": uniq,
"without": without,
"has": func(needle interface{}, haystack []interface{}) bool { return inList(haystack, needle) },
// Crypto:
"genPrivateKey": generatePrivateKey,
"derivePassword": derivePassword,
// UUIDs:
"uuidv4": uuidv4,
// SemVer:
"semver": semver,
"semverCompare": semverCompare,
// Flow Control:
"fail": func(msg string) (string, error) { return "", errors.New(msg) },
}

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package sprig
import (
"reflect"
"sort"
)
func list(v ...interface{}) []interface{} {
return v
}
func push(list []interface{}, v interface{}) []interface{} {
return append(list, v)
}
func prepend(list []interface{}, v interface{}) []interface{} {
return append([]interface{}{v}, list...)
}
func last(list []interface{}) interface{} {
l := len(list)
if l == 0 {
return nil
}
return list[l-1]
}
func first(list []interface{}) interface{} {
if len(list) == 0 {
return nil
}
return list[0]
}
func rest(list []interface{}) []interface{} {
if len(list) == 0 {
return list
}
return list[1:]
}
func initial(list []interface{}) []interface{} {
l := len(list)
if l == 0 {
return list
}
return list[:l-1]
}
func sortAlpha(list interface{}) []string {
k := reflect.Indirect(reflect.ValueOf(list)).Kind()
switch k {
case reflect.Slice, reflect.Array:
a := strslice(list)
s := sort.StringSlice(a)
s.Sort()
return s
}
return []string{strval(list)}
}
func reverse(v []interface{}) []interface{} {
// We do not sort in place because the incomming array should not be altered.
l := len(v)
c := make([]interface{}, l)
for i := 0; i < l; i++ {
c[l-i-1] = v[i]
}
return c
}
func compact(list []interface{}) []interface{} {
res := []interface{}{}
for _, item := range list {
if !empty(item) {
res = append(res, item)
}
}
return res
}
func uniq(list []interface{}) []interface{} {
dest := []interface{}{}
for _, item := range list {
if !inList(dest, item) {
dest = append(dest, item)
}
}
return dest
}
func inList(haystack []interface{}, needle interface{}) bool {
for _, h := range haystack {
if reflect.DeepEqual(needle, h) {
return true
}
}
return false
}
func without(list []interface{}, omit ...interface{}) []interface{} {
res := []interface{}{}
for _, i := range list {
if !inList(omit, i) {
res = append(res, i)
}
}
return res
}

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package sprig
import (
"math"
"reflect"
"strconv"
)
// toFloat64 converts 64-bit floats
func toFloat64(v interface{}) float64 {
if str, ok := v.(string); ok {
iv, err := strconv.ParseFloat(str, 64)
if err != nil {
return 0
}
return iv
}
val := reflect.Indirect(reflect.ValueOf(v))
switch val.Kind() {
case reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64, reflect.Int:
return float64(val.Int())
case reflect.Uint8, reflect.Uint16, reflect.Uint32:
return float64(val.Uint())
case reflect.Uint, reflect.Uint64:
return float64(val.Uint())
case reflect.Float32, reflect.Float64:
return val.Float()
case reflect.Bool:
if val.Bool() == true {
return 1
}
return 0
default:
return 0
}
}
func toInt(v interface{}) int {
//It's not optimal. Bud I don't want duplicate toInt64 code.
return int(toInt64(v))
}
// toInt64 converts integer types to 64-bit integers
func toInt64(v interface{}) int64 {
if str, ok := v.(string); ok {
iv, err := strconv.ParseInt(str, 10, 64)
if err != nil {
return 0
}
return iv
}
val := reflect.Indirect(reflect.ValueOf(v))
switch val.Kind() {
case reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64, reflect.Int:
return val.Int()
case reflect.Uint8, reflect.Uint16, reflect.Uint32:
return int64(val.Uint())
case reflect.Uint, reflect.Uint64:
tv := val.Uint()
if tv <= math.MaxInt64 {
return int64(tv)
}
// TODO: What is the sensible thing to do here?
return math.MaxInt64
case reflect.Float32, reflect.Float64:
return int64(val.Float())
case reflect.Bool:
if val.Bool() == true {
return 1
}
return 0
default:
return 0
}
}
func max(a interface{}, i ...interface{}) int64 {
aa := toInt64(a)
for _, b := range i {
bb := toInt64(b)
if bb > aa {
aa = bb
}
}
return aa
}
func min(a interface{}, i ...interface{}) int64 {
aa := toInt64(a)
for _, b := range i {
bb := toInt64(b)
if bb < aa {
aa = bb
}
}
return aa
}
func until(count int) []int {
step := 1
if count < 0 {
step = -1
}
return untilStep(0, count, step)
}
func untilStep(start, stop, step int) []int {
v := []int{}
if stop < start {
if step >= 0 {
return v
}
for i := start; i > stop; i += step {
v = append(v, i)
}
return v
}
if step <= 0 {
return v
}
for i := start; i < stop; i += step {
v = append(v, i)
}
return v
}

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package sprig
import (
"fmt"
"reflect"
)
// typeIs returns true if the src is the type named in target.
func typeIs(target string, src interface{}) bool {
return target == typeOf(src)
}
func typeIsLike(target string, src interface{}) bool {
t := typeOf(src)
return target == t || "*"+target == t
}
func typeOf(src interface{}) string {
return fmt.Sprintf("%T", src)
}
func kindIs(target string, src interface{}) bool {
return target == kindOf(src)
}
func kindOf(src interface{}) string {
return reflect.ValueOf(src).Kind().String()
}

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vendor/github.com/Masterminds/sprig/semver.go generated vendored Normal file
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package sprig
import (
sv2 "github.com/Masterminds/semver"
)
func semverCompare(constraint, version string) (bool, error) {
c, err := sv2.NewConstraint(constraint)
if err != nil {
return false, err
}
v, err := sv2.NewVersion(version)
if err != nil {
return false, err
}
return c.Check(v), nil
}
func semver(version string) (*sv2.Version, error) {
return sv2.NewVersion(version)
}

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package sprig
import (
"encoding/base32"
"encoding/base64"
"fmt"
"reflect"
"strconv"
"strings"
util "github.com/aokoli/goutils"
)
func base64encode(v string) string {
return base64.StdEncoding.EncodeToString([]byte(v))
}
func base64decode(v string) string {
data, err := base64.StdEncoding.DecodeString(v)
if err != nil {
return err.Error()
}
return string(data)
}
func base32encode(v string) string {
return base32.StdEncoding.EncodeToString([]byte(v))
}
func base32decode(v string) string {
data, err := base32.StdEncoding.DecodeString(v)
if err != nil {
return err.Error()
}
return string(data)
}
func abbrev(width int, s string) string {
if width < 4 {
return s
}
r, _ := util.Abbreviate(s, width)
return r
}
func abbrevboth(left, right int, s string) string {
if right < 4 || left > 0 && right < 7 {
return s
}
r, _ := util.AbbreviateFull(s, left, right)
return r
}
func initials(s string) string {
// Wrap this just to eliminate the var args, which templates don't do well.
return util.Initials(s)
}
func randAlphaNumeric(count int) string {
// It is not possible, it appears, to actually generate an error here.
r, _ := util.RandomAlphaNumeric(count)
return r
}
func randAlpha(count int) string {
r, _ := util.RandomAlphabetic(count)
return r
}
func randAscii(count int) string {
r, _ := util.RandomAscii(count)
return r
}
func randNumeric(count int) string {
r, _ := util.RandomNumeric(count)
return r
}
func untitle(str string) string {
return util.Uncapitalize(str)
}
func quote(str ...interface{}) string {
out := make([]string, len(str))
for i, s := range str {
out[i] = fmt.Sprintf("%q", strval(s))
}
return strings.Join(out, " ")
}
func squote(str ...interface{}) string {
out := make([]string, len(str))
for i, s := range str {
out[i] = fmt.Sprintf("'%v'", s)
}
return strings.Join(out, " ")
}
func cat(v ...interface{}) string {
r := strings.TrimSpace(strings.Repeat("%v ", len(v)))
return fmt.Sprintf(r, v...)
}
func indent(spaces int, v string) string {
pad := strings.Repeat(" ", spaces)
return pad + strings.Replace(v, "\n", "\n"+pad, -1)
}
func replace(old, new, src string) string {
return strings.Replace(src, old, new, -1)
}
func plural(one, many string, count int) string {
if count == 1 {
return one
}
return many
}
func strslice(v interface{}) []string {
switch v := v.(type) {
case []string:
return v
case []interface{}:
l := len(v)
b := make([]string, l)
for i := 0; i < l; i++ {
b[i] = strval(v[i])
}
return b
default:
val := reflect.ValueOf(v)
switch val.Kind() {
case reflect.Array, reflect.Slice:
l := val.Len()
b := make([]string, l)
for i := 0; i < l; i++ {
b[i] = strval(val.Index(i).Interface())
}
return b
default:
return []string{strval(v)}
}
}
}
func strval(v interface{}) string {
switch v := v.(type) {
case string:
return v
case []byte:
return string(v)
case error:
return v.Error()
case fmt.Stringer:
return v.String()
default:
return fmt.Sprintf("%v", v)
}
}
func trunc(c int, s string) string {
if len(s) <= c {
return s
}
return s[0:c]
}
func join(sep string, v interface{}) string {
return strings.Join(strslice(v), sep)
}
func split(sep, orig string) map[string]string {
parts := strings.Split(orig, sep)
res := make(map[string]string, len(parts))
for i, v := range parts {
res["_"+strconv.Itoa(i)] = v
}
return res
}
// substring creates a substring of the given string.
//
// If start is < 0, this calls string[:length].
//
// If start is >= 0 and length < 0, this calls string[start:]
//
// Otherwise, this calls string[start, length].
func substring(start, length int, s string) string {
if start < 0 {
return s[:length]
}
if length < 0 {
return s[start:]
}
return s[start:length]
}

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Apache License
Version 2.0, January 2004
http://www.apache.org/licenses/
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/*
Copyright 2014 Alexander Okoli
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package goutils
import (
"fmt"
"math"
"math/rand"
"regexp"
"time"
"unicode"
)
// RANDOM provides the time-based seed used to generate random numbers
var RANDOM = rand.New(rand.NewSource(time.Now().UnixNano()))
/*
RandomNonAlphaNumeric creates a random string whose length is the number of characters specified.
Characters will be chosen from the set of all characters (ASCII/Unicode values between 0 to 2,147,483,647 (math.MaxInt32)).
Parameter:
count - the length of random string to create
Returns:
string - the random string
error - an error stemming from an invalid parameter within underlying function, RandomSeed(...)
*/
func RandomNonAlphaNumeric(count int) (string, error) {
return RandomAlphaNumericCustom(count, false, false)
}
/*
RandomAscii creates a random string whose length is the number of characters specified.
Characters will be chosen from the set of characters whose ASCII value is between 32 and 126 (inclusive).
Parameter:
count - the length of random string to create
Returns:
string - the random string
error - an error stemming from an invalid parameter within underlying function, RandomSeed(...)
*/
func RandomAscii(count int) (string, error) {
return Random(count, 32, 127, false, false)
}
/*
RandomNumeric creates a random string whose length is the number of characters specified.
Characters will be chosen from the set of numeric characters.
Parameter:
count - the length of random string to create
Returns:
string - the random string
error - an error stemming from an invalid parameter within underlying function, RandomSeed(...)
*/
func RandomNumeric(count int) (string, error) {
return Random(count, 0, 0, false, true)
}
/*
RandomAlphabetic creates a random string whose length is the number of characters specified.
Characters will be chosen from the set of alpha-numeric characters as indicated by the arguments.
Parameters:
count - the length of random string to create
letters - if true, generated string may include alphabetic characters
numbers - if true, generated string may include numeric characters
Returns:
string - the random string
error - an error stemming from an invalid parameter within underlying function, RandomSeed(...)
*/
func RandomAlphabetic(count int) (string, error) {
return Random(count, 0, 0, true, false)
}
/*
RandomAlphaNumeric creates a random string whose length is the number of characters specified.
Characters will be chosen from the set of alpha-numeric characters.
Parameter:
count - the length of random string to create
Returns:
string - the random string
error - an error stemming from an invalid parameter within underlying function, RandomSeed(...)
*/
func RandomAlphaNumeric(count int) (string, error) {
RandomString, err := Random(count, 0, 0, true, true)
if err != nil {
return "", fmt.Errorf("Error: %s", err)
}
match, err := regexp.MatchString("([0-9]+)", RandomString)
if err != nil {
panic(err)
}
if !match {
//Get the position between 0 and the length of the string-1 to insert a random number
position := rand.Intn(count)
//Insert a random number between [0-9] in the position
RandomString = RandomString[:position] + string('0'+rand.Intn(10)) + RandomString[position+1:]
return RandomString, err
}
return RandomString, err
}
/*
RandomAlphaNumericCustom creates a random string whose length is the number of characters specified.
Characters will be chosen from the set of alpha-numeric characters as indicated by the arguments.
Parameters:
count - the length of random string to create
letters - if true, generated string may include alphabetic characters
numbers - if true, generated string may include numeric characters
Returns:
string - the random string
error - an error stemming from an invalid parameter within underlying function, RandomSeed(...)
*/
func RandomAlphaNumericCustom(count int, letters bool, numbers bool) (string, error) {
return Random(count, 0, 0, letters, numbers)
}
/*
Random creates a random string based on a variety of options, using default source of randomness.
This method has exactly the same semantics as RandomSeed(int, int, int, bool, bool, []char, *rand.Rand), but
instead of using an externally supplied source of randomness, it uses the internal *rand.Rand instance.
Parameters:
count - the length of random string to create
start - the position in set of chars (ASCII/Unicode int) to start at
end - the position in set of chars (ASCII/Unicode int) to end before
letters - if true, generated string may include alphabetic characters
numbers - if true, generated string may include numeric characters
chars - the set of chars to choose randoms from. If nil, then it will use the set of all chars.
Returns:
string - the random string
error - an error stemming from an invalid parameter within underlying function, RandomSeed(...)
*/
func Random(count int, start int, end int, letters bool, numbers bool, chars ...rune) (string, error) {
return RandomSeed(count, start, end, letters, numbers, chars, RANDOM)
}
/*
RandomSeed creates a random string based on a variety of options, using supplied source of randomness.
If the parameters start and end are both 0, start and end are set to ' ' and 'z', the ASCII printable characters, will be used,
unless letters and numbers are both false, in which case, start and end are set to 0 and math.MaxInt32, respectively.
If chars is not nil, characters stored in chars that are between start and end are chosen.
This method accepts a user-supplied *rand.Rand instance to use as a source of randomness. By seeding a single *rand.Rand instance
with a fixed seed and using it for each call, the same random sequence of strings can be generated repeatedly and predictably.
Parameters:
count - the length of random string to create
start - the position in set of chars (ASCII/Unicode decimals) to start at
end - the position in set of chars (ASCII/Unicode decimals) to end before
letters - if true, generated string may include alphabetic characters
numbers - if true, generated string may include numeric characters
chars - the set of chars to choose randoms from. If nil, then it will use the set of all chars.
random - a source of randomness.
Returns:
string - the random string
error - an error stemming from invalid parameters: if count < 0; or the provided chars array is empty; or end <= start; or end > len(chars)
*/
func RandomSeed(count int, start int, end int, letters bool, numbers bool, chars []rune, random *rand.Rand) (string, error) {
if count == 0 {
return "", nil
} else if count < 0 {
err := fmt.Errorf("randomstringutils illegal argument: Requested random string length %v is less than 0.", count) // equiv to err := errors.New("...")
return "", err
}
if chars != nil && len(chars) == 0 {
err := fmt.Errorf("randomstringutils illegal argument: The chars array must not be empty")
return "", err
}
if start == 0 && end == 0 {
if chars != nil {
end = len(chars)
} else {
if !letters && !numbers {
end = math.MaxInt32
} else {
end = 'z' + 1
start = ' '
}
}
} else {
if end <= start {
err := fmt.Errorf("randomstringutils illegal argument: Parameter end (%v) must be greater than start (%v)", end, start)
return "", err
}
if chars != nil && end > len(chars) {
err := fmt.Errorf("randomstringutils illegal argument: Parameter end (%v) cannot be greater than len(chars) (%v)", end, len(chars))
return "", err
}
}
buffer := make([]rune, count)
gap := end - start
// high-surrogates range, (\uD800-\uDBFF) = 55296 - 56319
// low-surrogates range, (\uDC00-\uDFFF) = 56320 - 57343
for count != 0 {
count--
var ch rune
if chars == nil {
ch = rune(random.Intn(gap) + start)
} else {
ch = chars[random.Intn(gap)+start]
}
if letters && unicode.IsLetter(ch) || numbers && unicode.IsDigit(ch) || !letters && !numbers {
if ch >= 56320 && ch <= 57343 { // low surrogate range
if count == 0 {
count++
} else {
// Insert low surrogate
buffer[count] = ch
count--
// Insert high surrogate
buffer[count] = rune(55296 + random.Intn(128))
}
} else if ch >= 55296 && ch <= 56191 { // High surrogates range (Partial)
if count == 0 {
count++
} else {
// Insert low surrogate
buffer[count] = rune(56320 + random.Intn(128))
count--
// Insert high surrogate
buffer[count] = ch
}
} else if ch >= 56192 && ch <= 56319 {
// private high surrogate, skip it
count++
} else {
// not one of the surrogates*
buffer[count] = ch
}
} else {
count++
}
}
return string(buffer), nil
}

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/*
Copyright 2014 Alexander Okoli
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package goutils
import (
"bytes"
"fmt"
"strings"
"unicode"
)
// Typically returned by functions where a searched item cannot be found
const INDEX_NOT_FOUND = -1
/*
Abbreviate abbreviates a string using ellipses. This will turn the string "Now is the time for all good men" into "Now is the time for..."
Specifically, the algorithm is as follows:
- If str is less than maxWidth characters long, return it.
- Else abbreviate it to (str[0:maxWidth - 3] + "...").
- If maxWidth is less than 4, return an illegal argument error.
- In no case will it return a string of length greater than maxWidth.
Parameters:
str - the string to check
maxWidth - maximum length of result string, must be at least 4
Returns:
string - abbreviated string
error - if the width is too small
*/
func Abbreviate(str string, maxWidth int) (string, error) {
return AbbreviateFull(str, 0, maxWidth)
}
/*
AbbreviateFull abbreviates a string using ellipses. This will turn the string "Now is the time for all good men" into "...is the time for..."
This function works like Abbreviate(string, int), but allows you to specify a "left edge" offset. Note that this left edge is not
necessarily going to be the leftmost character in the result, or the first character following the ellipses, but it will appear
somewhere in the result.
In no case will it return a string of length greater than maxWidth.
Parameters:
str - the string to check
offset - left edge of source string
maxWidth - maximum length of result string, must be at least 4
Returns:
string - abbreviated string
error - if the width is too small
*/
func AbbreviateFull(str string, offset int, maxWidth int) (string, error) {
if str == "" {
return "", nil
}
if maxWidth < 4 {
err := fmt.Errorf("stringutils illegal argument: Minimum abbreviation width is 4")
return "", err
}
if len(str) <= maxWidth {
return str, nil
}
if offset > len(str) {
offset = len(str)
}
if len(str)-offset < (maxWidth - 3) { // 15 - 5 < 10 - 3 = 10 < 7
offset = len(str) - (maxWidth - 3)
}
abrevMarker := "..."
if offset <= 4 {
return str[0:maxWidth-3] + abrevMarker, nil // str.substring(0, maxWidth - 3) + abrevMarker;
}
if maxWidth < 7 {
err := fmt.Errorf("stringutils illegal argument: Minimum abbreviation width with offset is 7")
return "", err
}
if (offset + maxWidth - 3) < len(str) { // 5 + (10-3) < 15 = 12 < 15
abrevStr, _ := Abbreviate(str[offset:len(str)], (maxWidth - 3))
return abrevMarker + abrevStr, nil // abrevMarker + abbreviate(str.substring(offset), maxWidth - 3);
}
return abrevMarker + str[(len(str)-(maxWidth-3)):len(str)], nil // abrevMarker + str.substring(str.length() - (maxWidth - 3));
}
/*
DeleteWhiteSpace deletes all whitespaces from a string as defined by unicode.IsSpace(rune).
It returns the string without whitespaces.
Parameter:
str - the string to delete whitespace from, may be nil
Returns:
the string without whitespaces
*/
func DeleteWhiteSpace(str string) string {
if str == "" {
return str
}
sz := len(str)
var chs bytes.Buffer
count := 0
for i := 0; i < sz; i++ {
ch := rune(str[i])
if !unicode.IsSpace(ch) {
chs.WriteRune(ch)
count++
}
}
if count == sz {
return str
}
return chs.String()
}
/*
IndexOfDifference compares two strings, and returns the index at which the strings begin to differ.
Parameters:
str1 - the first string
str2 - the second string
Returns:
the index where str1 and str2 begin to differ; -1 if they are equal
*/
func IndexOfDifference(str1 string, str2 string) int {
if str1 == str2 {
return INDEX_NOT_FOUND
}
if IsEmpty(str1) || IsEmpty(str2) {
return 0
}
var i int
for i = 0; i < len(str1) && i < len(str2); i++ {
if rune(str1[i]) != rune(str2[i]) {
break
}
}
if i < len(str2) || i < len(str1) {
return i
}
return INDEX_NOT_FOUND
}
/*
IsBlank checks if a string is whitespace or empty (""). Observe the following behavior:
goutils.IsBlank("") = true
goutils.IsBlank(" ") = true
goutils.IsBlank("bob") = false
goutils.IsBlank(" bob ") = false
Parameter:
str - the string to check
Returns:
true - if the string is whitespace or empty ("")
*/
func IsBlank(str string) bool {
strLen := len(str)
if str == "" || strLen == 0 {
return true
}
for i := 0; i < strLen; i++ {
if unicode.IsSpace(rune(str[i])) == false {
return false
}
}
return true
}
/*
IndexOf returns the index of the first instance of sub in str, with the search beginning from the
index start point specified. -1 is returned if sub is not present in str.
An empty string ("") will return -1 (INDEX_NOT_FOUND). A negative start position is treated as zero.
A start position greater than the string length returns -1.
Parameters:
str - the string to check
sub - the substring to find
start - the start position; negative treated as zero
Returns:
the first index where the sub string was found (always >= start)
*/
func IndexOf(str string, sub string, start int) int {
if start < 0 {
start = 0
}
if len(str) < start {
return INDEX_NOT_FOUND
}
if IsEmpty(str) || IsEmpty(sub) {
return INDEX_NOT_FOUND
}
partialIndex := strings.Index(str[start:len(str)], sub)
if partialIndex == -1 {
return INDEX_NOT_FOUND
}
return partialIndex + start
}
// IsEmpty checks if a string is empty (""). Returns true if empty, and false otherwise.
func IsEmpty(str string) bool {
return len(str) == 0
}

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/*
Copyright 2014 Alexander Okoli
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
/*
Package goutils provides utility functions to manipulate strings in various ways.
The code snippets below show examples of how to use goutils. Some functions return
errors while others do not, so usage would vary as a result.
Example:
package main
import (
"fmt"
"github.com/aokoli/goutils"
)
func main() {
// EXAMPLE 1: A goutils function which returns no errors
fmt.Println (goutils.Initials("John Doe Foo")) // Prints out "JDF"
// EXAMPLE 2: A goutils function which returns an error
rand1, err1 := goutils.Random (-1, 0, 0, true, true)
if err1 != nil {
fmt.Println(err1) // Prints out error message because -1 was entered as the first parameter in goutils.Random(...)
} else {
fmt.Println(rand1)
}
}
*/
package goutils
import (
"bytes"
"strings"
"unicode"
)
// VERSION indicates the current version of goutils
const VERSION = "1.0.0"
/*
Wrap wraps a single line of text, identifying words by ' '.
New lines will be separated by '\n'. Very long words, such as URLs will not be wrapped.
Leading spaces on a new line are stripped. Trailing spaces are not stripped.
Parameters:
str - the string to be word wrapped
wrapLength - the column (a column can fit only one character) to wrap the words at, less than 1 is treated as 1
Returns:
a line with newlines inserted
*/
func Wrap(str string, wrapLength int) string {
return WrapCustom(str, wrapLength, "", false)
}
/*
WrapCustom wraps a single line of text, identifying words by ' '.
Leading spaces on a new line are stripped. Trailing spaces are not stripped.
Parameters:
str - the string to be word wrapped
wrapLength - the column number (a column can fit only one character) to wrap the words at, less than 1 is treated as 1
newLineStr - the string to insert for a new line, "" uses '\n'
wrapLongWords - true if long words (such as URLs) should be wrapped
Returns:
a line with newlines inserted
*/
func WrapCustom(str string, wrapLength int, newLineStr string, wrapLongWords bool) string {
if str == "" {
return ""
}
if newLineStr == "" {
newLineStr = "\n" // TODO Assumes "\n" is seperator. Explore SystemUtils.LINE_SEPARATOR from Apache Commons
}
if wrapLength < 1 {
wrapLength = 1
}
inputLineLength := len(str)
offset := 0
var wrappedLine bytes.Buffer
for inputLineLength-offset > wrapLength {
if rune(str[offset]) == ' ' {
offset++
continue
}
end := wrapLength + offset + 1
spaceToWrapAt := strings.LastIndex(str[offset:end], " ") + offset
if spaceToWrapAt >= offset {
// normal word (not longer than wrapLength)
wrappedLine.WriteString(str[offset:spaceToWrapAt])
wrappedLine.WriteString(newLineStr)
offset = spaceToWrapAt + 1
} else {
// long word or URL
if wrapLongWords {
end := wrapLength + offset
// long words are wrapped one line at a time
wrappedLine.WriteString(str[offset:end])
wrappedLine.WriteString(newLineStr)
offset += wrapLength
} else {
// long words aren't wrapped, just extended beyond limit
end := wrapLength + offset
spaceToWrapAt = strings.IndexRune(str[end:len(str)], ' ') + end
if spaceToWrapAt >= 0 {
wrappedLine.WriteString(str[offset:spaceToWrapAt])
wrappedLine.WriteString(newLineStr)
offset = spaceToWrapAt + 1
} else {
wrappedLine.WriteString(str[offset:len(str)])
offset = inputLineLength
}
}
}
}
wrappedLine.WriteString(str[offset:len(str)])
return wrappedLine.String()
}
/*
Capitalize capitalizes all the delimiter separated words in a string. Only the first letter of each word is changed.
To convert the rest of each word to lowercase at the same time, use CapitalizeFully(str string, delimiters ...rune).
The delimiters represent a set of characters understood to separate words. The first string character
and the first non-delimiter character after a delimiter will be capitalized. A "" input string returns "".
Capitalization uses the Unicode title case, normally equivalent to upper case.
Parameters:
str - the string to capitalize
delimiters - set of characters to determine capitalization, exclusion of this parameter means whitespace would be delimeter
Returns:
capitalized string
*/
func Capitalize(str string, delimiters ...rune) string {
var delimLen int
if delimiters == nil {
delimLen = -1
} else {
delimLen = len(delimiters)
}
if str == "" || delimLen == 0 {
return str
}
buffer := []rune(str)
capitalizeNext := true
for i := 0; i < len(buffer); i++ {
ch := buffer[i]
if isDelimiter(ch, delimiters...) {
capitalizeNext = true
} else if capitalizeNext {
buffer[i] = unicode.ToTitle(ch)
capitalizeNext = false
}
}
return string(buffer)
}
/*
CapitalizeFully converts all the delimiter separated words in a string into capitalized words, that is each word is made up of a
titlecase character and then a series of lowercase characters. The delimiters represent a set of characters understood
to separate words. The first string character and the first non-delimiter character after a delimiter will be capitalized.
Capitalization uses the Unicode title case, normally equivalent to upper case.
Parameters:
str - the string to capitalize fully
delimiters - set of characters to determine capitalization, exclusion of this parameter means whitespace would be delimeter
Returns:
capitalized string
*/
func CapitalizeFully(str string, delimiters ...rune) string {
var delimLen int
if delimiters == nil {
delimLen = -1
} else {
delimLen = len(delimiters)
}
if str == "" || delimLen == 0 {
return str
}
str = strings.ToLower(str)
return Capitalize(str, delimiters...)
}
/*
Uncapitalize uncapitalizes all the whitespace separated words in a string. Only the first letter of each word is changed.
The delimiters represent a set of characters understood to separate words. The first string character and the first non-delimiter
character after a delimiter will be uncapitalized. Whitespace is defined by unicode.IsSpace(char).
Parameters:
str - the string to uncapitalize fully
delimiters - set of characters to determine capitalization, exclusion of this parameter means whitespace would be delimeter
Returns:
uncapitalized string
*/
func Uncapitalize(str string, delimiters ...rune) string {
var delimLen int
if delimiters == nil {
delimLen = -1
} else {
delimLen = len(delimiters)
}
if str == "" || delimLen == 0 {
return str
}
buffer := []rune(str)
uncapitalizeNext := true // TODO Always makes capitalize/un apply to first char.
for i := 0; i < len(buffer); i++ {
ch := buffer[i]
if isDelimiter(ch, delimiters...) {
uncapitalizeNext = true
} else if uncapitalizeNext {
buffer[i] = unicode.ToLower(ch)
uncapitalizeNext = false
}
}
return string(buffer)
}
/*
SwapCase swaps the case of a string using a word based algorithm.
Conversion algorithm:
Upper case character converts to Lower case
Title case character converts to Lower case
Lower case character after Whitespace or at start converts to Title case
Other Lower case character converts to Upper case
Whitespace is defined by unicode.IsSpace(char).
Parameters:
str - the string to swap case
Returns:
the changed string
*/
func SwapCase(str string) string {
if str == "" {
return str
}
buffer := []rune(str)
whitespace := true
for i := 0; i < len(buffer); i++ {
ch := buffer[i]
if unicode.IsUpper(ch) {
buffer[i] = unicode.ToLower(ch)
whitespace = false
} else if unicode.IsTitle(ch) {
buffer[i] = unicode.ToLower(ch)
whitespace = false
} else if unicode.IsLower(ch) {
if whitespace {
buffer[i] = unicode.ToTitle(ch)
whitespace = false
} else {
buffer[i] = unicode.ToUpper(ch)
}
} else {
whitespace = unicode.IsSpace(ch)
}
}
return string(buffer)
}
/*
Initials extracts the initial letters from each word in the string. The first letter of the string and all first
letters after the defined delimiters are returned as a new string. Their case is not changed. If the delimiters
parameter is excluded, then Whitespace is used. Whitespace is defined by unicode.IsSpacea(char). An empty delimiter array returns an empty string.
Parameters:
str - the string to get initials from
delimiters - set of characters to determine words, exclusion of this parameter means whitespace would be delimeter
Returns:
string of initial letters
*/
func Initials(str string, delimiters ...rune) string {
if str == "" {
return str
}
if delimiters != nil && len(delimiters) == 0 {
return ""
}
strLen := len(str)
var buf bytes.Buffer
lastWasGap := true
for i := 0; i < strLen; i++ {
ch := rune(str[i])
if isDelimiter(ch, delimiters...) {
lastWasGap = true
} else if lastWasGap {
buf.WriteRune(ch)
lastWasGap = false
}
}
return buf.String()
}
// private function (lower case func name)
func isDelimiter(ch rune, delimiters ...rune) bool {
if delimiters == nil {
return unicode.IsSpace(ch)
}
for _, delimiter := range delimiters {
if ch == delimiter {
return true
}
}
return false
}

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The MIT License (MIT)
Copyright (c) 2015 Huan Du
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.

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// Copyright 2015 Huan Du. All rights reserved.
// Licensed under the MIT license that can be found in the LICENSE file.
package xstrings
import (
"bytes"
)
const _BUFFER_INIT_GROW_SIZE_MAX = 2048
// Lazy initialize a buffer.
func allocBuffer(orig, cur string) *bytes.Buffer {
output := &bytes.Buffer{}
maxSize := len(orig) * 4
// Avoid to reserve too much memory at once.
if maxSize > _BUFFER_INIT_GROW_SIZE_MAX {
maxSize = _BUFFER_INIT_GROW_SIZE_MAX
}
output.Grow(maxSize)
output.WriteString(orig[:len(orig)-len(cur)])
return output
}

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// Copyright 2015 Huan Du. All rights reserved.
// Licensed under the MIT license that can be found in the LICENSE file.
package xstrings
import (
"bytes"
"math/rand"
"unicode"
"unicode/utf8"
)
// ToCamelCase can convert all lower case characters behind underscores
// to upper case character.
// Underscore character will be removed in result except following cases.
// * More than 1 underscore.
// "a__b" => "A_B"
// * At the beginning of string.
// "_a" => "_A"
// * At the end of string.
// "ab_" => "Ab_"
func ToCamelCase(str string) string {
if len(str) == 0 {
return ""
}
buf := &bytes.Buffer{}
var r0, r1 rune
var size int
// leading '_' will appear in output.
for len(str) > 0 {
r0, size = utf8.DecodeRuneInString(str)
str = str[size:]
if r0 != '_' {
break
}
buf.WriteRune(r0)
}
if len(str) == 0 {
return buf.String()
}
buf.WriteRune(unicode.ToUpper(r0))
r0, size = utf8.DecodeRuneInString(str)
str = str[size:]
for len(str) > 0 {
r1 = r0
r0, size = utf8.DecodeRuneInString(str)
str = str[size:]
if r1 == '_' && r0 != '_' {
r0 = unicode.ToUpper(r0)
} else {
buf.WriteRune(r1)
}
}
buf.WriteRune(r0)
return buf.String()
}
// ToSnakeCase can convert all upper case characters in a string to
// underscore format.
//
// Some samples.
// "FirstName" => "first_name"
// "HTTPServer" => "http_server"
// "NoHTTPS" => "no_https"
// "GO_PATH" => "go_path"
// "GO PATH" => "go_path" // space is converted to underscore.
// "GO-PATH" => "go_path" // hyphen is converted to underscore.
func ToSnakeCase(str string) string {
if len(str) == 0 {
return ""
}
buf := &bytes.Buffer{}
var prev, r0, r1 rune
var size int
r0 = '_'
for len(str) > 0 {
prev = r0
r0, size = utf8.DecodeRuneInString(str)
str = str[size:]
switch {
case r0 == utf8.RuneError:
buf.WriteByte(byte(str[0]))
case unicode.IsUpper(r0):
if prev != '_' {
buf.WriteRune('_')
}
buf.WriteRune(unicode.ToLower(r0))
if len(str) == 0 {
break
}
r0, size = utf8.DecodeRuneInString(str)
str = str[size:]
if !unicode.IsUpper(r0) {
buf.WriteRune(r0)
break
}
// find next non-upper-case character and insert `_` properly.
// it's designed to convert `HTTPServer` to `http_server`.
// if there are more than 2 adjacent upper case characters in a word,
// treat them as an abbreviation plus a normal word.
for len(str) > 0 {
r1 = r0
r0, size = utf8.DecodeRuneInString(str)
str = str[size:]
if r0 == utf8.RuneError {
buf.WriteRune(unicode.ToLower(r1))
buf.WriteByte(byte(str[0]))
break
}
if !unicode.IsUpper(r0) {
if r0 == '_' || r0 == ' ' || r0 == '-' {
r0 = '_'
buf.WriteRune(unicode.ToLower(r1))
} else {
buf.WriteRune('_')
buf.WriteRune(unicode.ToLower(r1))
buf.WriteRune(r0)
}
break
}
buf.WriteRune(unicode.ToLower(r1))
}
if len(str) == 0 || r0 == '_' {
buf.WriteRune(unicode.ToLower(r0))
break
}
default:
if r0 == ' ' || r0 == '-' {
r0 = '_'
}
buf.WriteRune(r0)
}
}
return buf.String()
}
// SwapCase will swap characters case from upper to lower or lower to upper.
func SwapCase(str string) string {
var r rune
var size int
buf := &bytes.Buffer{}
for len(str) > 0 {
r, size = utf8.DecodeRuneInString(str)
switch {
case unicode.IsUpper(r):
buf.WriteRune(unicode.ToLower(r))
case unicode.IsLower(r):
buf.WriteRune(unicode.ToUpper(r))
default:
buf.WriteRune(r)
}
str = str[size:]
}
return buf.String()
}
// FirstRuneToUpper converts first rune to upper case if necessary.
func FirstRuneToUpper(str string) string {
if str == "" {
return str
}
r, size := utf8.DecodeRuneInString(str)
if !unicode.IsLower(r) {
return str
}
buf := &bytes.Buffer{}
buf.WriteRune(unicode.ToUpper(r))
buf.WriteString(str[size:])
return buf.String()
}
// FirstRuneToLower converts first rune to lower case if necessary.
func FirstRuneToLower(str string) string {
if str == "" {
return str
}
r, size := utf8.DecodeRuneInString(str)
if !unicode.IsUpper(r) {
return str
}
buf := &bytes.Buffer{}
buf.WriteRune(unicode.ToLower(r))
buf.WriteString(str[size:])
return buf.String()
}
// Shuffle randomizes runes in a string and returns the result.
// It uses default random source in `math/rand`.
func Shuffle(str string) string {
if str == "" {
return str
}
runes := []rune(str)
index := 0
for i := len(runes) - 1; i > 0; i-- {
index = rand.Intn(i + 1)
if i != index {
runes[i], runes[index] = runes[index], runes[i]
}
}
return string(runes)
}
// ShuffleSource randomizes runes in a string with given random source.
func ShuffleSource(str string, src rand.Source) string {
if str == "" {
return str
}
runes := []rune(str)
index := 0
r := rand.New(src)
for i := len(runes) - 1; i > 0; i-- {
index = r.Intn(i + 1)
if i != index {
runes[i], runes[index] = runes[index], runes[i]
}
}
return string(runes)
}
// Successor returns the successor to string.
//
// If there is one alphanumeric rune is found in string, increase the rune by 1.
// If increment generates a "carry", the rune to the left of it is incremented.
// This process repeats until there is no carry, adding an additional rune if necessary.
//
// If there is no alphanumeric rune, the rightmost rune will be increased by 1
// regardless whether the result is a valid rune or not.
//
// Only following characters are alphanumeric.
// * a - z
// * A - Z
// * 0 - 9
//
// Samples (borrowed from ruby's String#succ document):
// "abcd" => "abce"
// "THX1138" => "THX1139"
// "<<koala>>" => "<<koalb>>"
// "1999zzz" => "2000aaa"
// "ZZZ9999" => "AAAA0000"
// "***" => "**+"
func Successor(str string) string {
if str == "" {
return str
}
var r rune
var i int
carry := ' '
runes := []rune(str)
l := len(runes)
lastAlphanumeric := l
for i = l - 1; i >= 0; i-- {
r = runes[i]
if ('a' <= r && r <= 'y') ||
('A' <= r && r <= 'Y') ||
('0' <= r && r <= '8') {
runes[i]++
carry = ' '
lastAlphanumeric = i
break
}
switch r {
case 'z':
runes[i] = 'a'
carry = 'a'
lastAlphanumeric = i
case 'Z':
runes[i] = 'A'
carry = 'A'
lastAlphanumeric = i
case '9':
runes[i] = '0'
carry = '0'
lastAlphanumeric = i
}
}
// Needs to add one character for carry.
if i < 0 && carry != ' ' {
buf := &bytes.Buffer{}
buf.Grow(l + 4) // Reserve enough space for write.
if lastAlphanumeric != 0 {
buf.WriteString(str[:lastAlphanumeric])
}
buf.WriteRune(carry)
for _, r = range runes[lastAlphanumeric:] {
buf.WriteRune(r)
}
return buf.String()
}
// No alphanumeric character. Simply increase last rune's value.
if lastAlphanumeric == l {
runes[l-1]++
}
return string(runes)
}

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// Copyright 2015 Huan Du. All rights reserved.
// Licensed under the MIT license that can be found in the LICENSE file.
package xstrings
import (
"unicode"
"unicode/utf8"
)
// Get str's utf8 rune length.
func Len(str string) int {
return utf8.RuneCountInString(str)
}
// Count number of words in a string.
//
// Word is defined as a locale dependent string containing alphabetic characters,
// which may also contain but not start with `'` and `-` characters.
func WordCount(str string) int {
var r rune
var size, n int
inWord := false
for len(str) > 0 {
r, size = utf8.DecodeRuneInString(str)
switch {
case isAlphabet(r):
if !inWord {
inWord = true
n++
}
case inWord && (r == '\'' || r == '-'):
// Still in word.
default:
inWord = false
}
str = str[size:]
}
return n
}
const minCJKCharacter = '\u3400'
// Checks r is a letter but not CJK character.
func isAlphabet(r rune) bool {
if !unicode.IsLetter(r) {
return false
}
switch {
// Quick check for non-CJK character.
case r < minCJKCharacter:
return true
// Common CJK characters.
case r >= '\u4E00' && r <= '\u9FCC':
return false
// Rare CJK characters.
case r >= '\u3400' && r <= '\u4D85':
return false
// Rare and historic CJK characters.
case r >= '\U00020000' && r <= '\U0002B81D':
return false
}
return true
}
// Width returns string width in monotype font.
// Multi-byte characters are usually twice the width of single byte characters.
//
// Algorithm comes from `mb_strwidth` in PHP.
// http://php.net/manual/en/function.mb-strwidth.php
func Width(str string) int {
var r rune
var size, n int
for len(str) > 0 {
r, size = utf8.DecodeRuneInString(str)
n += RuneWidth(r)
str = str[size:]
}
return n
}
// RuneWidth returns character width in monotype font.
// Multi-byte characters are usually twice the width of single byte characters.
//
// Algorithm comes from `mb_strwidth` in PHP.
// http://php.net/manual/en/function.mb-strwidth.php
func RuneWidth(r rune) int {
switch {
case r == utf8.RuneError || r < '\x20':
return 0
case '\x20' <= r && r < '\u2000':
return 1
case '\u2000' <= r && r < '\uFF61':
return 2
case '\uFF61' <= r && r < '\uFFA0':
return 1
case '\uFFA0' <= r:
return 2
}
return 0
}

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// Copyright 2015 Huan Du. All rights reserved.
// Licensed under the MIT license that can be found in the LICENSE file.
// Package `xstrings` is to provide string algorithms which are useful but not included in `strings` package.
// See project home page for details. https://github.com/huandu/xstrings
//
// Package `xstrings` assumes all strings are encoded in utf8.
package xstrings

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// Copyright 2015 Huan Du. All rights reserved.
// Licensed under the MIT license that can be found in the LICENSE file.
package xstrings
import (
"bytes"
"unicode/utf8"
)
// ExpandTabs can expand tabs ('\t') rune in str to one or more spaces dpending on
// current column and tabSize.
// The column number is reset to zero after each newline ('\n') occurring in the str.
//
// ExpandTabs uses RuneWidth to decide rune's width.
// For example, CJK characters will be treated as two characters.
//
// If tabSize <= 0, ExpandTabs panics with error.
//
// Samples:
// ExpandTabs("a\tbc\tdef\tghij\tk", 4) => "a bc def ghij k"
// ExpandTabs("abcdefg\thij\nk\tl", 4) => "abcdefg hij\nk l"
// ExpandTabs("z中\t文\tw", 4) => "z中 文 w"
func ExpandTabs(str string, tabSize int) string {
if tabSize <= 0 {
panic("tab size must be positive")
}
var r rune
var i, size, column, expand int
var output *bytes.Buffer
orig := str
for len(str) > 0 {
r, size = utf8.DecodeRuneInString(str)
if r == '\t' {
expand = tabSize - column%tabSize
if output == nil {
output = allocBuffer(orig, str)
}
for i = 0; i < expand; i++ {
output.WriteByte(byte(' '))
}
column += expand
} else {
if r == '\n' {
column = 0
} else {
column += RuneWidth(r)
}
if output != nil {
output.WriteRune(r)
}
}
str = str[size:]
}
if output == nil {
return orig
}
return output.String()
}
// LeftJustify returns a string with pad string at right side if str's rune length is smaller than length.
// If str's rune length is larger than length, str itself will be returned.
//
// If pad is an empty string, str will be returned.
//
// Samples:
// LeftJustify("hello", 4, " ") => "hello"
// LeftJustify("hello", 10, " ") => "hello "
// LeftJustify("hello", 10, "123") => "hello12312"
func LeftJustify(str string, length int, pad string) string {
l := Len(str)
if l >= length || pad == "" {
return str
}
remains := length - l
padLen := Len(pad)
output := &bytes.Buffer{}
output.Grow(len(str) + (remains/padLen+1)*len(pad))
output.WriteString(str)
writePadString(output, pad, padLen, remains)
return output.String()
}
// RightJustify returns a string with pad string at left side if str's rune length is smaller than length.
// If str's rune length is larger than length, str itself will be returned.
//
// If pad is an empty string, str will be returned.
//
// Samples:
// RightJustify("hello", 4, " ") => "hello"
// RightJustify("hello", 10, " ") => " hello"
// RightJustify("hello", 10, "123") => "12312hello"
func RightJustify(str string, length int, pad string) string {
l := Len(str)
if l >= length || pad == "" {
return str
}
remains := length - l
padLen := Len(pad)
output := &bytes.Buffer{}
output.Grow(len(str) + (remains/padLen+1)*len(pad))
writePadString(output, pad, padLen, remains)
output.WriteString(str)
return output.String()
}
// Center returns a string with pad string at both side if str's rune length is smaller than length.
// If str's rune length is larger than length, str itself will be returned.
//
// If pad is an empty string, str will be returned.
//
// Samples:
// Center("hello", 4, " ") => "hello"
// Center("hello", 10, " ") => " hello "
// Center("hello", 10, "123") => "12hello123"
func Center(str string, length int, pad string) string {
l := Len(str)
if l >= length || pad == "" {
return str
}
remains := length - l
padLen := Len(pad)
output := &bytes.Buffer{}
output.Grow(len(str) + (remains/padLen+1)*len(pad))
writePadString(output, pad, padLen, remains/2)
output.WriteString(str)
writePadString(output, pad, padLen, (remains+1)/2)
return output.String()
}
func writePadString(output *bytes.Buffer, pad string, padLen, remains int) {
var r rune
var size int
repeats := remains / padLen
for i := 0; i < repeats; i++ {
output.WriteString(pad)
}
remains = remains % padLen
if remains != 0 {
for i := 0; i < remains; i++ {
r, size = utf8.DecodeRuneInString(pad)
output.WriteRune(r)
pad = pad[size:]
}
}
}

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// Copyright 2015 Huan Du. All rights reserved.
// Licensed under the MIT license that can be found in the LICENSE file.
package xstrings
import (
"bytes"
"strings"
"unicode/utf8"
)
// Reverse a utf8 encoded string.
func Reverse(str string) string {
var size int
tail := len(str)
buf := make([]byte, tail)
s := buf
for len(str) > 0 {
_, size = utf8.DecodeRuneInString(str)
tail -= size
s = append(s[:tail], []byte(str[:size])...)
str = str[size:]
}
return string(buf)
}
// Slice a string by rune.
//
// Start must satisfy 0 <= start <= rune length.
//
// End can be positive, zero or negative.
// If end >= 0, start and end must satisfy start <= end <= rune length.
// If end < 0, it means slice to the end of string.
//
// Otherwise, Slice will panic as out of range.
func Slice(str string, start, end int) string {
var size, startPos, endPos int
origin := str
if start < 0 || end > len(str) || (end >= 0 && start > end) {
panic("out of range")
}
if end >= 0 {
end -= start
}
for start > 0 && len(str) > 0 {
_, size = utf8.DecodeRuneInString(str)
start--
startPos += size
str = str[size:]
}
if end < 0 {
return origin[startPos:]
}
endPos = startPos
for end > 0 && len(str) > 0 {
_, size = utf8.DecodeRuneInString(str)
end--
endPos += size
str = str[size:]
}
if len(str) == 0 && (start > 0 || end > 0) {
panic("out of range")
}
return origin[startPos:endPos]
}
// Partition splits a string by sep into three parts.
// The return value is a slice of strings with head, match and tail.
//
// If str contains sep, for example "hello" and "l", Partition returns
// "he", "l", "lo"
//
// If str doesn't contain sep, for example "hello" and "x", Partition returns
// "hello", "", ""
func Partition(str, sep string) (head, match, tail string) {
index := strings.Index(str, sep)
if index == -1 {
head = str
return
}
head = str[:index]
match = str[index : index+len(sep)]
tail = str[index+len(sep):]
return
}
// LastPartition splits a string by last instance of sep into three parts.
// The return value is a slice of strings with head, match and tail.
//
// If str contains sep, for example "hello" and "l", LastPartition returns
// "hel", "l", "o"
//
// If str doesn't contain sep, for example "hello" and "x", LastPartition returns
// "", "", "hello"
func LastPartition(str, sep string) (head, match, tail string) {
index := strings.LastIndex(str, sep)
if index == -1 {
tail = str
return
}
head = str[:index]
match = str[index : index+len(sep)]
tail = str[index+len(sep):]
return
}
// Insert src into dst at given rune index.
// Index is counted by runes instead of bytes.
//
// If index is out of range of dst, panic with out of range.
func Insert(dst, src string, index int) string {
return Slice(dst, 0, index) + src + Slice(dst, index, -1)
}
// Scrubs invalid utf8 bytes with repl string.
// Adjacent invalid bytes are replaced only once.
func Scrub(str, repl string) string {
var buf *bytes.Buffer
var r rune
var size, pos int
var hasError bool
origin := str
for len(str) > 0 {
r, size = utf8.DecodeRuneInString(str)
if r == utf8.RuneError {
if !hasError {
if buf == nil {
buf = &bytes.Buffer{}
}
buf.WriteString(origin[:pos])
hasError = true
}
} else if hasError {
hasError = false
buf.WriteString(repl)
origin = origin[pos:]
pos = 0
}
pos += size
str = str[size:]
}
if buf != nil {
buf.WriteString(origin)
return buf.String()
}
// No invalid byte.
return origin
}
// Splits a string into words. Returns a slice of words.
// If there is no word in a string, return nil.
//
// Word is defined as a locale dependent string containing alphabetic characters,
// which may also contain but not start with `'` and `-` characters.
func WordSplit(str string) []string {
var word string
var words []string
var r rune
var size, pos int
inWord := false
for len(str) > 0 {
r, size = utf8.DecodeRuneInString(str)
switch {
case isAlphabet(r):
if !inWord {
inWord = true
word = str
pos = 0
}
case inWord && (r == '\'' || r == '-'):
// Still in word.
default:
if inWord {
inWord = false
words = append(words, word[:pos])
}
}
pos += size
str = str[size:]
}
if inWord {
words = append(words, word[:pos])
}
return words
}

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vendor/github.com/huandu/xstrings/translate.go generated vendored Normal file
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// Copyright 2015 Huan Du. All rights reserved.
// Licensed under the MIT license that can be found in the LICENSE file.
package xstrings
import (
"bytes"
"unicode"
"unicode/utf8"
)
type runeRangeMap struct {
FromLo rune // Lower bound of range map.
FromHi rune // An inclusive higher bound of range map.
ToLo rune
ToHi rune
}
type runeDict struct {
Dict [unicode.MaxASCII + 1]rune
}
type runeMap map[rune]rune
// Translator can translate string with pre-compiled from and to patterns.
// If a from/to pattern pair needs to be used more than once, it's recommended
// to create a Translator and reuse it.
type Translator struct {
quickDict *runeDict // A quick dictionary to look up rune by index. Only availabe for latin runes.
runeMap runeMap // Rune map for translation.
ranges []*runeRangeMap // Ranges of runes.
mappedRune rune // If mappedRune >= 0, all matched runes are translated to the mappedRune.
reverted bool // If to pattern is empty, all matched characters will be deleted.
hasPattern bool
}
// NewTranslator creates new Translator through a from/to pattern pair.
func NewTranslator(from, to string) *Translator {
tr := &Translator{}
if from == "" {
return tr
}
reverted := from[0] == '^'
deletion := len(to) == 0
if reverted {
from = from[1:]
}
var fromStart, fromEnd, fromRangeStep rune
var toStart, toEnd, toRangeStep rune
var fromRangeSize, toRangeSize rune
var singleRunes []rune
// Update the to rune range.
updateRange := func() {
// No more rune to read in the to rune pattern.
if toEnd == utf8.RuneError {
return
}
if toRangeStep == 0 {
to, toStart, toEnd, toRangeStep = nextRuneRange(to, toEnd)
return
}
// Current range is not empty. Consume 1 rune from start.
if toStart != toEnd {
toStart += toRangeStep
return
}
// No more rune. Repeat the last rune.
if to == "" {
toEnd = utf8.RuneError
return
}
// Both start and end are used. Read two more runes from the to pattern.
to, toStart, toEnd, toRangeStep = nextRuneRange(to, utf8.RuneError)
}
if deletion {
toStart = utf8.RuneError
toEnd = utf8.RuneError
} else {
// If from pattern is reverted, only the last rune in the to pattern will be used.
if reverted {
var size int
for len(to) > 0 {
toStart, size = utf8.DecodeRuneInString(to)
to = to[size:]
}
toEnd = utf8.RuneError
} else {
to, toStart, toEnd, toRangeStep = nextRuneRange(to, utf8.RuneError)
}
}
fromEnd = utf8.RuneError
for len(from) > 0 {
from, fromStart, fromEnd, fromRangeStep = nextRuneRange(from, fromEnd)
// fromStart is a single character. Just map it with a rune in the to pattern.
if fromRangeStep == 0 {
singleRunes = tr.addRune(fromStart, toStart, singleRunes)
updateRange()
continue
}
for toEnd != utf8.RuneError && fromStart != fromEnd {
// If mapped rune is a single character instead of a range, simply shift first
// rune in the range.
if toRangeStep == 0 {
singleRunes = tr.addRune(fromStart, toStart, singleRunes)
updateRange()
fromStart += fromRangeStep
continue
}
fromRangeSize = (fromEnd - fromStart) * fromRangeStep
toRangeSize = (toEnd - toStart) * toRangeStep
// Not enough runes in the to pattern. Need to read more.
if fromRangeSize > toRangeSize {
fromStart, toStart = tr.addRuneRange(fromStart, fromStart+toRangeSize*fromRangeStep, toStart, toEnd, singleRunes)
fromStart += fromRangeStep
updateRange()
// Edge case: If fromRangeSize == toRangeSize + 1, the last fromStart value needs be considered
// as a single rune.
if fromStart == fromEnd {
singleRunes = tr.addRune(fromStart, toStart, singleRunes)
updateRange()
}
continue
}
fromStart, toStart = tr.addRuneRange(fromStart, fromEnd, toStart, toStart+fromRangeSize*toRangeStep, singleRunes)
updateRange()
break
}
if fromStart == fromEnd {
fromEnd = utf8.RuneError
continue
}
fromStart, toStart = tr.addRuneRange(fromStart, fromEnd, toStart, toStart, singleRunes)
fromEnd = utf8.RuneError
}
if fromEnd != utf8.RuneError {
singleRunes = tr.addRune(fromEnd, toStart, singleRunes)
}
tr.reverted = reverted
tr.mappedRune = -1
tr.hasPattern = true
// Translate RuneError only if in deletion or reverted mode.
if deletion || reverted {
tr.mappedRune = toStart
}
return tr
}
func (tr *Translator) addRune(from, to rune, singleRunes []rune) []rune {
if from <= unicode.MaxASCII {
if tr.quickDict == nil {
tr.quickDict = &runeDict{}
}
tr.quickDict.Dict[from] = to
} else {
if tr.runeMap == nil {
tr.runeMap = make(runeMap)
}
tr.runeMap[from] = to
}
singleRunes = append(singleRunes, from)
return singleRunes
}
func (tr *Translator) addRuneRange(fromLo, fromHi, toLo, toHi rune, singleRunes []rune) (rune, rune) {
var r rune
var rrm *runeRangeMap
if fromLo < fromHi {
rrm = &runeRangeMap{
FromLo: fromLo,
FromHi: fromHi,
ToLo: toLo,
ToHi: toHi,
}
} else {
rrm = &runeRangeMap{
FromLo: fromHi,
FromHi: fromLo,
ToLo: toHi,
ToHi: toLo,
}
}
// If there is any single rune conflicts with this rune range, clear single rune record.
for _, r = range singleRunes {
if rrm.FromLo <= r && r <= rrm.FromHi {
if r <= unicode.MaxASCII {
tr.quickDict.Dict[r] = 0
} else {
delete(tr.runeMap, r)
}
}
}
tr.ranges = append(tr.ranges, rrm)
return fromHi, toHi
}
func nextRuneRange(str string, last rune) (remaining string, start, end rune, rangeStep rune) {
var r rune
var size int
remaining = str
escaping := false
isRange := false
for len(remaining) > 0 {
r, size = utf8.DecodeRuneInString(remaining)
remaining = remaining[size:]
// Parse special characters.
if !escaping {
if r == '\\' {
escaping = true
continue
}
if r == '-' {
// Ignore slash at beginning of string.
if last == utf8.RuneError {
continue
}
start = last
isRange = true
continue
}
}
escaping = false
if last != utf8.RuneError {
// This is a range which start and end are the same.
// Considier it as a normal character.
if isRange && last == r {
isRange = false
continue
}
start = last
end = r
if isRange {
if start < end {
rangeStep = 1
} else {
rangeStep = -1
}
}
return
}
last = r
}
start = last
end = utf8.RuneError
return
}
// Translate str with a from/to pattern pair.
//
// See comment in Translate function for usage and samples.
func (tr *Translator) Translate(str string) string {
if !tr.hasPattern || str == "" {
return str
}
var r rune
var size int
var needTr bool
orig := str
var output *bytes.Buffer
for len(str) > 0 {
r, size = utf8.DecodeRuneInString(str)
r, needTr = tr.TranslateRune(r)
if needTr && output == nil {
output = allocBuffer(orig, str)
}
if r != utf8.RuneError && output != nil {
output.WriteRune(r)
}
str = str[size:]
}
// No character is translated.
if output == nil {
return orig
}
return output.String()
}
// TranslateRune return translated rune and true if r matches the from pattern.
// If r doesn't match the pattern, original r is returned and translated is false.
func (tr *Translator) TranslateRune(r rune) (result rune, translated bool) {
switch {
case tr.quickDict != nil:
if r <= unicode.MaxASCII {
result = tr.quickDict.Dict[r]
if result != 0 {
translated = true
if tr.mappedRune >= 0 {
result = tr.mappedRune
}
break
}
}
fallthrough
case tr.runeMap != nil:
var ok bool
if result, ok = tr.runeMap[r]; ok {
translated = true
if tr.mappedRune >= 0 {
result = tr.mappedRune
}
break
}
fallthrough
default:
var rrm *runeRangeMap
ranges := tr.ranges
for i := len(ranges) - 1; i >= 0; i-- {
rrm = ranges[i]
if rrm.FromLo <= r && r <= rrm.FromHi {
translated = true
if tr.mappedRune >= 0 {
result = tr.mappedRune
break
}
if rrm.ToLo < rrm.ToHi {
result = rrm.ToLo + r - rrm.FromLo
} else if rrm.ToLo > rrm.ToHi {
// ToHi can be smaller than ToLo if range is from higher to lower.
result = rrm.ToLo - r + rrm.FromLo
} else {
result = rrm.ToLo
}
break
}
}
}
if tr.reverted {
if !translated {
result = tr.mappedRune
}
translated = !translated
}
if !translated {
result = r
}
return
}
// HasPattern returns true if Translator has one pattern at least.
func (tr *Translator) HasPattern() bool {
return tr.hasPattern
}
// Translate str with the characters defined in from replaced by characters defined in to.
//
// From and to are patterns representing a set of characters. Pattern is defined as following.
//
// * Special characters
// * '-' means a range of runes, e.g.
// * "a-z" means all characters from 'a' to 'z' inclusive;
// * "z-a" means all characters from 'z' to 'a' inclusive.
// * '^' as first character means a set of all runes excepted listed, e.g.
// * "^a-z" means all characters except 'a' to 'z' inclusive.
// * '\' escapes special characters.
// * Normal character represents itself, e.g. "abc" is a set including 'a', 'b' and 'c'.
//
// Translate will try to find a 1:1 mapping from from to to.
// If to is smaller than from, last rune in to will be used to map "out of range" characters in from.
//
// Note that '^' only works in the from pattern. It will be considered as a normal character in the to pattern.
//
// If the to pattern is an empty string, Translate works exactly the same as Delete.
//
// Samples:
// Translate("hello", "aeiou", "12345") => "h2ll4"
// Translate("hello", "a-z", "A-Z") => "HELLO"
// Translate("hello", "z-a", "a-z") => "svool"
// Translate("hello", "aeiou", "*") => "h*ll*"
// Translate("hello", "^l", "*") => "**ll*"
// Translate("hello ^ world", `\^lo`, "*") => "he*** * w*r*d"
func Translate(str, from, to string) string {
tr := NewTranslator(from, to)
return tr.Translate(str)
}
// Delete runes in str matching the pattern.
// Pattern is defined in Translate function.
//
// Samples:
// Delete("hello", "aeiou") => "hll"
// Delete("hello", "a-k") => "llo"
// Delete("hello", "^a-k") => "he"
func Delete(str, pattern string) string {
tr := NewTranslator(pattern, "")
return tr.Translate(str)
}
// Count how many runes in str match the pattern.
// Pattern is defined in Translate function.
//
// Samples:
// Count("hello", "aeiou") => 3
// Count("hello", "a-k") => 3
// Count("hello", "^a-k") => 2
func Count(str, pattern string) int {
if pattern == "" || str == "" {
return 0
}
var r rune
var size int
var matched bool
tr := NewTranslator(pattern, "")
cnt := 0
for len(str) > 0 {
r, size = utf8.DecodeRuneInString(str)
str = str[size:]
if _, matched = tr.TranslateRune(r); matched {
cnt++
}
}
return cnt
}
// Squeeze deletes adjacent repeated runes in str.
// If pattern is not empty, only runes matching the pattern will be squeezed.
//
// Samples:
// Squeeze("hello", "") => "helo"
// Squeeze("hello", "m-z") => "hello"
func Squeeze(str, pattern string) string {
var last, r rune
var size int
var skipSqueeze, matched bool
var tr *Translator
var output *bytes.Buffer
orig := str
last = -1
if len(pattern) > 0 {
tr = NewTranslator(pattern, "")
}
for len(str) > 0 {
r, size = utf8.DecodeRuneInString(str)
// Need to squeeze the str.
if last == r && !skipSqueeze {
if tr != nil {
if _, matched = tr.TranslateRune(r); !matched {
skipSqueeze = true
}
}
if output == nil {
output = allocBuffer(orig, str)
}
if skipSqueeze {
output.WriteRune(r)
}
} else {
if output != nil {
output.WriteRune(r)
}
last = r
}
str = str[size:]
}
if output == nil {
return orig
}
return output.String()
}

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vendor/github.com/imdario/mergo/LICENSE generated vendored Normal file
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Copyright (c) 2013 Dario Castañé. All rights reserved.
Copyright (c) 2012 The Go Authors. All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions are
met:
* Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
* Redistributions in binary form must reproduce the above
copyright notice, this list of conditions and the following disclaimer
in the documentation and/or other materials provided with the
distribution.
* Neither the name of Google Inc. nor the names of its
contributors may be used to endorse or promote products derived from
this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

44
vendor/github.com/imdario/mergo/doc.go generated vendored Normal file
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// Copyright 2013 Dario Castañé. All rights reserved.
// Copyright 2009 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 mergo merges same-type structs and maps by setting default values in zero-value fields.
Mergo won't merge unexported (private) fields but will do recursively any exported one. It also won't merge structs inside maps (because they are not addressable using Go reflection).
Usage
From my own work-in-progress project:
type networkConfig struct {
Protocol string
Address string
ServerType string `json: "server_type"`
Port uint16
}
type FssnConfig struct {
Network networkConfig
}
var fssnDefault = FssnConfig {
networkConfig {
"tcp",
"127.0.0.1",
"http",
31560,
},
}
// Inside a function [...]
if err := mergo.Merge(&config, fssnDefault); err != nil {
log.Fatal(err)
}
// More code [...]
*/
package mergo

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// Copyright 2014 Dario Castañé. All rights reserved.
// Copyright 2009 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.
// Based on src/pkg/reflect/deepequal.go from official
// golang's stdlib.
package mergo
import (
"fmt"
"reflect"
"unicode"
"unicode/utf8"
)
func changeInitialCase(s string, mapper func(rune) rune) string {
if s == "" {
return s
}
r, n := utf8.DecodeRuneInString(s)
return string(mapper(r)) + s[n:]
}
func isExported(field reflect.StructField) bool {
r, _ := utf8.DecodeRuneInString(field.Name)
return r >= 'A' && r <= 'Z'
}
// Traverses recursively both values, assigning src's fields values to dst.
// The map argument tracks comparisons that have already been seen, which allows
// short circuiting on recursive types.
func deepMap(dst, src reflect.Value, visited map[uintptr]*visit, depth int, overwrite bool) (err error) {
if dst.CanAddr() {
addr := dst.UnsafeAddr()
h := 17 * addr
seen := visited[h]
typ := dst.Type()
for p := seen; p != nil; p = p.next {
if p.ptr == addr && p.typ == typ {
return nil
}
}
// Remember, remember...
visited[h] = &visit{addr, typ, seen}
}
zeroValue := reflect.Value{}
switch dst.Kind() {
case reflect.Map:
dstMap := dst.Interface().(map[string]interface{})
for i, n := 0, src.NumField(); i < n; i++ {
srcType := src.Type()
field := srcType.Field(i)
if !isExported(field) {
continue
}
fieldName := field.Name
fieldName = changeInitialCase(fieldName, unicode.ToLower)
if v, ok := dstMap[fieldName]; !ok || (isEmptyValue(reflect.ValueOf(v)) || overwrite) {
dstMap[fieldName] = src.Field(i).Interface()
}
}
case reflect.Struct:
srcMap := src.Interface().(map[string]interface{})
for key := range srcMap {
srcValue := srcMap[key]
fieldName := changeInitialCase(key, unicode.ToUpper)
dstElement := dst.FieldByName(fieldName)
if dstElement == zeroValue {
// We discard it because the field doesn't exist.
continue
}
srcElement := reflect.ValueOf(srcValue)
dstKind := dstElement.Kind()
srcKind := srcElement.Kind()
if srcKind == reflect.Ptr && dstKind != reflect.Ptr {
srcElement = srcElement.Elem()
srcKind = reflect.TypeOf(srcElement.Interface()).Kind()
} else if dstKind == reflect.Ptr {
// Can this work? I guess it can't.
if srcKind != reflect.Ptr && srcElement.CanAddr() {
srcPtr := srcElement.Addr()
srcElement = reflect.ValueOf(srcPtr)
srcKind = reflect.Ptr
}
}
if !srcElement.IsValid() {
continue
}
if srcKind == dstKind {
if err = deepMerge(dstElement, srcElement, visited, depth+1, overwrite); err != nil {
return
}
} else {
if srcKind == reflect.Map {
if err = deepMap(dstElement, srcElement, visited, depth+1, overwrite); err != nil {
return
}
} else {
return fmt.Errorf("type mismatch on %s field: found %v, expected %v", fieldName, srcKind, dstKind)
}
}
}
}
return
}
// Map sets fields' values in dst from src.
// src can be a map with string keys or a struct. dst must be the opposite:
// if src is a map, dst must be a valid pointer to struct. If src is a struct,
// dst must be map[string]interface{}.
// It won't merge unexported (private) fields and will do recursively
// any exported field.
// If dst is a map, keys will be src fields' names in lower camel case.
// Missing key in src that doesn't match a field in dst will be skipped. This
// doesn't apply if dst is a map.
// This is separated method from Merge because it is cleaner and it keeps sane
// semantics: merging equal types, mapping different (restricted) types.
func Map(dst, src interface{}) error {
return _map(dst, src, false)
}
// MapWithOverwrite will do the same as Map except that non-empty dst attributes will be overriden by
// non-empty src attribute values.
func MapWithOverwrite(dst, src interface{}) error {
return _map(dst, src, true)
}
func _map(dst, src interface{}, overwrite bool) error {
var (
vDst, vSrc reflect.Value
err error
)
if vDst, vSrc, err = resolveValues(dst, src); err != nil {
return err
}
// To be friction-less, we redirect equal-type arguments
// to deepMerge. Only because arguments can be anything.
if vSrc.Kind() == vDst.Kind() {
return deepMerge(vDst, vSrc, make(map[uintptr]*visit), 0, overwrite)
}
switch vSrc.Kind() {
case reflect.Struct:
if vDst.Kind() != reflect.Map {
return ErrExpectedMapAsDestination
}
case reflect.Map:
if vDst.Kind() != reflect.Struct {
return ErrExpectedStructAsDestination
}
default:
return ErrNotSupported
}
return deepMap(vDst, vSrc, make(map[uintptr]*visit), 0, overwrite)
}

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vendor/github.com/imdario/mergo/merge.go generated vendored Normal file
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// Copyright 2013 Dario Castañé. All rights reserved.
// Copyright 2009 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.
// Based on src/pkg/reflect/deepequal.go from official
// golang's stdlib.
package mergo
import (
"reflect"
)
// Traverses recursively both values, assigning src's fields values to dst.
// The map argument tracks comparisons that have already been seen, which allows
// short circuiting on recursive types.
func deepMerge(dst, src reflect.Value, visited map[uintptr]*visit, depth int, overwrite bool) (err error) {
if !src.IsValid() {
return
}
if dst.CanAddr() {
addr := dst.UnsafeAddr()
h := 17 * addr
seen := visited[h]
typ := dst.Type()
for p := seen; p != nil; p = p.next {
if p.ptr == addr && p.typ == typ {
return nil
}
}
// Remember, remember...
visited[h] = &visit{addr, typ, seen}
}
switch dst.Kind() {
case reflect.Struct:
for i, n := 0, dst.NumField(); i < n; i++ {
if err = deepMerge(dst.Field(i), src.Field(i), visited, depth+1, overwrite); err != nil {
return
}
}
case reflect.Map:
for _, key := range src.MapKeys() {
srcElement := src.MapIndex(key)
if !srcElement.IsValid() {
continue
}
dstElement := dst.MapIndex(key)
switch srcElement.Kind() {
case reflect.Chan, reflect.Func, reflect.Map, reflect.Ptr, reflect.Interface, reflect.Slice:
if srcElement.IsNil() {
continue
}
fallthrough
default:
if !srcElement.CanInterface() {
continue
}
switch reflect.TypeOf(srcElement.Interface()).Kind() {
case reflect.Struct:
fallthrough
case reflect.Ptr:
fallthrough
case reflect.Map:
if err = deepMerge(dstElement, srcElement, visited, depth+1, overwrite); err != nil {
return
}
}
}
if !isEmptyValue(srcElement) && (overwrite || (!dstElement.IsValid() || isEmptyValue(dst))) {
if dst.IsNil() {
dst.Set(reflect.MakeMap(dst.Type()))
}
dst.SetMapIndex(key, srcElement)
}
}
case reflect.Ptr:
fallthrough
case reflect.Interface:
if src.IsNil() {
break
} else if dst.IsNil() {
if dst.CanSet() && (overwrite || isEmptyValue(dst)) {
dst.Set(src)
}
} else if err = deepMerge(dst.Elem(), src.Elem(), visited, depth+1, overwrite); err != nil {
return
}
default:
if dst.CanSet() && !isEmptyValue(src) && (overwrite || isEmptyValue(dst)) {
dst.Set(src)
}
}
return
}
// Merge will fill any empty for value type attributes on the dst struct using corresponding
// src attributes if they themselves are not empty. dst and src must be valid same-type structs
// and dst must be a pointer to struct.
// It won't merge unexported (private) fields and will do recursively any exported field.
func Merge(dst, src interface{}) error {
return merge(dst, src, false)
}
// MergeWithOverwrite will do the same as Merge except that non-empty dst attributes will be overriden by
// non-empty src attribute values.
func MergeWithOverwrite(dst, src interface{}) error {
return merge(dst, src, true)
}
func merge(dst, src interface{}, overwrite bool) error {
var (
vDst, vSrc reflect.Value
err error
)
if vDst, vSrc, err = resolveValues(dst, src); err != nil {
return err
}
if vDst.Type() != vSrc.Type() {
return ErrDifferentArgumentsTypes
}
return deepMerge(vDst, vSrc, make(map[uintptr]*visit), 0, overwrite)
}

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vendor/github.com/imdario/mergo/mergo.go generated vendored Normal file
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// Copyright 2013 Dario Castañé. All rights reserved.
// Copyright 2009 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.
// Based on src/pkg/reflect/deepequal.go from official
// golang's stdlib.
package mergo
import (
"errors"
"reflect"
)
// Errors reported by Mergo when it finds invalid arguments.
var (
ErrNilArguments = errors.New("src and dst must not be nil")
ErrDifferentArgumentsTypes = errors.New("src and dst must be of same type")
ErrNotSupported = errors.New("only structs and maps are supported")
ErrExpectedMapAsDestination = errors.New("dst was expected to be a map")
ErrExpectedStructAsDestination = errors.New("dst was expected to be a struct")
)
// During deepMerge, must keep track of checks that are
// in progress. The comparison algorithm assumes that all
// checks in progress are true when it reencounters them.
// Visited are stored in a map indexed by 17 * a1 + a2;
type visit struct {
ptr uintptr
typ reflect.Type
next *visit
}
// From src/pkg/encoding/json.
func isEmptyValue(v reflect.Value) bool {
switch v.Kind() {
case reflect.Array, reflect.Map, reflect.Slice, reflect.String:
return v.Len() == 0
case reflect.Bool:
return !v.Bool()
case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:
return v.Int() == 0
case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64, reflect.Uintptr:
return v.Uint() == 0
case reflect.Float32, reflect.Float64:
return v.Float() == 0
case reflect.Interface, reflect.Ptr:
return v.IsNil()
}
return false
}
func resolveValues(dst, src interface{}) (vDst, vSrc reflect.Value, err error) {
if dst == nil || src == nil {
err = ErrNilArguments
return
}
vDst = reflect.ValueOf(dst).Elem()
if vDst.Kind() != reflect.Struct && vDst.Kind() != reflect.Map {
err = ErrNotSupported
return
}
vSrc = reflect.ValueOf(src)
// We check if vSrc is a pointer to dereference it.
if vSrc.Kind() == reflect.Ptr {
vSrc = vSrc.Elem()
}
return
}
// Traverses recursively both values, assigning src's fields values to dst.
// The map argument tracks comparisons that have already been seen, which allows
// short circuiting on recursive types.
func deeper(dst, src reflect.Value, visited map[uintptr]*visit, depth int) (err error) {
if dst.CanAddr() {
addr := dst.UnsafeAddr()
h := 17 * addr
seen := visited[h]
typ := dst.Type()
for p := seen; p != nil; p = p.next {
if p.ptr == addr && p.typ == typ {
return nil
}
}
// Remember, remember...
visited[h] = &visit{addr, typ, seen}
}
return // TODO refactor
}

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vendor/golang.org/x/crypto/pbkdf2/pbkdf2.go generated vendored Normal file
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// Copyright 2012 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 pbkdf2 implements the key derivation function PBKDF2 as defined in RFC
2898 / PKCS #5 v2.0.
A key derivation function is useful when encrypting data based on a password
or any other not-fully-random data. It uses a pseudorandom function to derive
a secure encryption key based on the password.
While v2.0 of the standard defines only one pseudorandom function to use,
HMAC-SHA1, the drafted v2.1 specification allows use of all five FIPS Approved
Hash Functions SHA-1, SHA-224, SHA-256, SHA-384 and SHA-512 for HMAC. To
choose, you can pass the `New` functions from the different SHA packages to
pbkdf2.Key.
*/
package pbkdf2 // import "golang.org/x/crypto/pbkdf2"
import (
"crypto/hmac"
"hash"
)
// Key derives a key from the password, salt and iteration count, returning a
// []byte of length keylen that can be used as cryptographic key. The key is
// derived based on the method described as PBKDF2 with the HMAC variant using
// the supplied hash function.
//
// For example, to use a HMAC-SHA-1 based PBKDF2 key derivation function, you
// can get a derived key for e.g. AES-256 (which needs a 32-byte key) by
// doing:
//
// dk := pbkdf2.Key([]byte("some password"), salt, 4096, 32, sha1.New)
//
// Remember to get a good random salt. At least 8 bytes is recommended by the
// RFC.
//
// Using a higher iteration count will increase the cost of an exhaustive
// search but will also make derivation proportionally slower.
func Key(password, salt []byte, iter, keyLen int, h func() hash.Hash) []byte {
prf := hmac.New(h, password)
hashLen := prf.Size()
numBlocks := (keyLen + hashLen - 1) / hashLen
var buf [4]byte
dk := make([]byte, 0, numBlocks*hashLen)
U := make([]byte, hashLen)
for block := 1; block <= numBlocks; block++ {
// N.B.: || means concatenation, ^ means XOR
// for each block T_i = U_1 ^ U_2 ^ ... ^ U_iter
// U_1 = PRF(password, salt || uint(i))
prf.Reset()
prf.Write(salt)
buf[0] = byte(block >> 24)
buf[1] = byte(block >> 16)
buf[2] = byte(block >> 8)
buf[3] = byte(block)
prf.Write(buf[:4])
dk = prf.Sum(dk)
T := dk[len(dk)-hashLen:]
copy(U, T)
// U_n = PRF(password, U_(n-1))
for n := 2; n <= iter; n++ {
prf.Reset()
prf.Write(U)
U = U[:0]
U = prf.Sum(U)
for x := range U {
T[x] ^= U[x]
}
}
}
return dk[:keyLen]
}

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vendor/golang.org/x/crypto/scrypt/scrypt.go generated vendored Normal file
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// Copyright 2012 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 scrypt implements the scrypt key derivation function as defined in
// Colin Percival's paper "Stronger Key Derivation via Sequential Memory-Hard
// Functions" (http://www.tarsnap.com/scrypt/scrypt.pdf).
package scrypt // import "golang.org/x/crypto/scrypt"
import (
"crypto/sha256"
"errors"
"golang.org/x/crypto/pbkdf2"
)
const maxInt = int(^uint(0) >> 1)
// blockCopy copies n numbers from src into dst.
func blockCopy(dst, src []uint32, n int) {
copy(dst, src[:n])
}
// blockXOR XORs numbers from dst with n numbers from src.
func blockXOR(dst, src []uint32, n int) {
for i, v := range src[:n] {
dst[i] ^= v
}
}
// salsaXOR applies Salsa20/8 to the XOR of 16 numbers from tmp and in,
// and puts the result into both both tmp and out.
func salsaXOR(tmp *[16]uint32, in, out []uint32) {
w0 := tmp[0] ^ in[0]
w1 := tmp[1] ^ in[1]
w2 := tmp[2] ^ in[2]
w3 := tmp[3] ^ in[3]
w4 := tmp[4] ^ in[4]
w5 := tmp[5] ^ in[5]
w6 := tmp[6] ^ in[6]
w7 := tmp[7] ^ in[7]
w8 := tmp[8] ^ in[8]
w9 := tmp[9] ^ in[9]
w10 := tmp[10] ^ in[10]
w11 := tmp[11] ^ in[11]
w12 := tmp[12] ^ in[12]
w13 := tmp[13] ^ in[13]
w14 := tmp[14] ^ in[14]
w15 := tmp[15] ^ in[15]
x0, x1, x2, x3, x4, x5, x6, x7, x8 := w0, w1, w2, w3, w4, w5, w6, w7, w8
x9, x10, x11, x12, x13, x14, x15 := w9, w10, w11, w12, w13, w14, w15
for i := 0; i < 8; i += 2 {
u := x0 + x12
x4 ^= u<<7 | u>>(32-7)
u = x4 + x0
x8 ^= u<<9 | u>>(32-9)
u = x8 + x4
x12 ^= u<<13 | u>>(32-13)
u = x12 + x8
x0 ^= u<<18 | u>>(32-18)
u = x5 + x1
x9 ^= u<<7 | u>>(32-7)
u = x9 + x5
x13 ^= u<<9 | u>>(32-9)
u = x13 + x9
x1 ^= u<<13 | u>>(32-13)
u = x1 + x13
x5 ^= u<<18 | u>>(32-18)
u = x10 + x6
x14 ^= u<<7 | u>>(32-7)
u = x14 + x10
x2 ^= u<<9 | u>>(32-9)
u = x2 + x14
x6 ^= u<<13 | u>>(32-13)
u = x6 + x2
x10 ^= u<<18 | u>>(32-18)
u = x15 + x11
x3 ^= u<<7 | u>>(32-7)
u = x3 + x15
x7 ^= u<<9 | u>>(32-9)
u = x7 + x3
x11 ^= u<<13 | u>>(32-13)
u = x11 + x7
x15 ^= u<<18 | u>>(32-18)
u = x0 + x3
x1 ^= u<<7 | u>>(32-7)
u = x1 + x0
x2 ^= u<<9 | u>>(32-9)
u = x2 + x1
x3 ^= u<<13 | u>>(32-13)
u = x3 + x2
x0 ^= u<<18 | u>>(32-18)
u = x5 + x4
x6 ^= u<<7 | u>>(32-7)
u = x6 + x5
x7 ^= u<<9 | u>>(32-9)
u = x7 + x6
x4 ^= u<<13 | u>>(32-13)
u = x4 + x7
x5 ^= u<<18 | u>>(32-18)
u = x10 + x9
x11 ^= u<<7 | u>>(32-7)
u = x11 + x10
x8 ^= u<<9 | u>>(32-9)
u = x8 + x11
x9 ^= u<<13 | u>>(32-13)
u = x9 + x8
x10 ^= u<<18 | u>>(32-18)
u = x15 + x14
x12 ^= u<<7 | u>>(32-7)
u = x12 + x15
x13 ^= u<<9 | u>>(32-9)
u = x13 + x12
x14 ^= u<<13 | u>>(32-13)
u = x14 + x13
x15 ^= u<<18 | u>>(32-18)
}
x0 += w0
x1 += w1
x2 += w2
x3 += w3
x4 += w4
x5 += w5
x6 += w6
x7 += w7
x8 += w8
x9 += w9
x10 += w10
x11 += w11
x12 += w12
x13 += w13
x14 += w14
x15 += w15
out[0], tmp[0] = x0, x0
out[1], tmp[1] = x1, x1
out[2], tmp[2] = x2, x2
out[3], tmp[3] = x3, x3
out[4], tmp[4] = x4, x4
out[5], tmp[5] = x5, x5
out[6], tmp[6] = x6, x6
out[7], tmp[7] = x7, x7
out[8], tmp[8] = x8, x8
out[9], tmp[9] = x9, x9
out[10], tmp[10] = x10, x10
out[11], tmp[11] = x11, x11
out[12], tmp[12] = x12, x12
out[13], tmp[13] = x13, x13
out[14], tmp[14] = x14, x14
out[15], tmp[15] = x15, x15
}
func blockMix(tmp *[16]uint32, in, out []uint32, r int) {
blockCopy(tmp[:], in[(2*r-1)*16:], 16)
for i := 0; i < 2*r; i += 2 {
salsaXOR(tmp, in[i*16:], out[i*8:])
salsaXOR(tmp, in[i*16+16:], out[i*8+r*16:])
}
}
func integer(b []uint32, r int) uint64 {
j := (2*r - 1) * 16
return uint64(b[j]) | uint64(b[j+1])<<32
}
func smix(b []byte, r, N int, v, xy []uint32) {
var tmp [16]uint32
x := xy
y := xy[32*r:]
j := 0
for i := 0; i < 32*r; i++ {
x[i] = uint32(b[j]) | uint32(b[j+1])<<8 | uint32(b[j+2])<<16 | uint32(b[j+3])<<24
j += 4
}
for i := 0; i < N; i += 2 {
blockCopy(v[i*(32*r):], x, 32*r)
blockMix(&tmp, x, y, r)
blockCopy(v[(i+1)*(32*r):], y, 32*r)
blockMix(&tmp, y, x, r)
}
for i := 0; i < N; i += 2 {
j := int(integer(x, r) & uint64(N-1))
blockXOR(x, v[j*(32*r):], 32*r)
blockMix(&tmp, x, y, r)
j = int(integer(y, r) & uint64(N-1))
blockXOR(y, v[j*(32*r):], 32*r)
blockMix(&tmp, y, x, r)
}
j = 0
for _, v := range x[:32*r] {
b[j+0] = byte(v >> 0)
b[j+1] = byte(v >> 8)
b[j+2] = byte(v >> 16)
b[j+3] = byte(v >> 24)
j += 4
}
}
// Key derives a key from the password, salt, and cost parameters, returning
// a byte slice of length keyLen that can be used as cryptographic key.
//
// N is a CPU/memory cost parameter, which must be a power of two greater than 1.
// r and p must satisfy r * p < 2³⁰. If the parameters do not satisfy the
// limits, the function returns a nil byte slice and an error.
//
// For example, you can get a derived key for e.g. AES-256 (which needs a
// 32-byte key) by doing:
//
// dk := scrypt.Key([]byte("some password"), salt, 16384, 8, 1, 32)
//
// The recommended parameters for interactive logins as of 2009 are N=16384,
// r=8, p=1. They should be increased as memory latency and CPU parallelism
// increases. Remember to get a good random salt.
func Key(password, salt []byte, N, r, p, keyLen int) ([]byte, error) {
if N <= 1 || N&(N-1) != 0 {
return nil, errors.New("scrypt: N must be > 1 and a power of 2")
}
if uint64(r)*uint64(p) >= 1<<30 || r > maxInt/128/p || r > maxInt/256 || N > maxInt/128/r {
return nil, errors.New("scrypt: parameters are too large")
}
xy := make([]uint32, 64*r)
v := make([]uint32, 32*N*r)
b := pbkdf2.Key(password, salt, 1, p*128*r, sha256.New)
for i := 0; i < p; i++ {
smix(b[i*128*r:], r, N, v, xy)
}
return pbkdf2.Key(password, b, 1, keyLen, sha256.New), nil
}