forked from cerc-io/plugeth
289b30715d
This commit converts the dependency management from Godeps to the vendor folder, also switching the tool from godep to trash. Since the upstream tool lacks a few features proposed via a few PRs, until those PRs are merged in (if), use github.com/karalabe/trash. You can update dependencies via trash --update. All dependencies have been updated to their latest version. Parts of the build system are reworked to drop old notions of Godeps and invocation of the go vet command so that it doesn't run against the vendor folder, as that will just blow up during vetting. The conversion drops OpenCL (and hence GPU mining support) from ethash and our codebase. The short reasoning is that there's noone to maintain and having opencl libs in our deps messes up builds as go install ./... tries to build them, failing with unsatisfied link errors for the C OpenCL deps. golang.org/x/net/context is not vendored in. We expect it to be fetched by the user (i.e. using go get). To keep ci.go builds reproducible the package is "vendored" in build/_vendor.
198 lines
5.0 KiB
Go
198 lines
5.0 KiB
Go
// Copyright 2014 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package language
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import (
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"fmt"
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"sort"
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)
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// The Coverage interface is used to define the level of coverage of an
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// internationalization service. Note that not all types are supported by all
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// services. As lists may be generated on the fly, it is recommended that users
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// of a Coverage cache the results.
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type Coverage interface {
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// Tags returns the list of supported tags.
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Tags() []Tag
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// BaseLanguages returns the list of supported base languages.
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BaseLanguages() []Base
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// Scripts returns the list of supported scripts.
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Scripts() []Script
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// Regions returns the list of supported regions.
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Regions() []Region
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}
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var (
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// Supported defines a Coverage that lists all supported subtags. Tags
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// always returns nil.
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Supported Coverage = allSubtags{}
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)
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// TODO:
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// - Support Variants, numbering systems.
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// - CLDR coverage levels.
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// - Set of common tags defined in this package.
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type allSubtags struct{}
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// Regions returns the list of supported regions. As all regions are in a
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// consecutive range, it simply returns a slice of numbers in increasing order.
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// The "undefined" region is not returned.
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func (s allSubtags) Regions() []Region {
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reg := make([]Region, numRegions)
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for i := range reg {
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reg[i] = Region{regionID(i + 1)}
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}
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return reg
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}
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// Scripts returns the list of supported scripts. As all scripts are in a
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// consecutive range, it simply returns a slice of numbers in increasing order.
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// The "undefined" script is not returned.
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func (s allSubtags) Scripts() []Script {
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scr := make([]Script, numScripts)
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for i := range scr {
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scr[i] = Script{scriptID(i + 1)}
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}
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return scr
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}
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// BaseLanguages returns the list of all supported base languages. It generates
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// the list by traversing the internal structures.
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func (s allSubtags) BaseLanguages() []Base {
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base := make([]Base, 0, numLanguages)
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for i := 0; i < langNoIndexOffset; i++ {
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// We included "und" already for the value 0.
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if i != nonCanonicalUnd {
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base = append(base, Base{langID(i)})
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}
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}
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i := langNoIndexOffset
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for _, v := range langNoIndex {
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for k := 0; k < 8; k++ {
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if v&1 == 1 {
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base = append(base, Base{langID(i)})
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}
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v >>= 1
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i++
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}
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}
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return base
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}
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// Tags always returns nil.
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func (s allSubtags) Tags() []Tag {
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return nil
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}
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// coverage is used used by NewCoverage which is used as a convenient way for
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// creating Coverage implementations for partially defined data. Very often a
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// package will only need to define a subset of slices. coverage provides a
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// convenient way to do this. Moreover, packages using NewCoverage, instead of
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// their own implementation, will not break if later new slice types are added.
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type coverage struct {
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tags func() []Tag
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bases func() []Base
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scripts func() []Script
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regions func() []Region
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}
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func (s *coverage) Tags() []Tag {
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if s.tags == nil {
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return nil
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}
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return s.tags()
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}
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// bases implements sort.Interface and is used to sort base languages.
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type bases []Base
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func (b bases) Len() int {
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return len(b)
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}
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func (b bases) Swap(i, j int) {
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b[i], b[j] = b[j], b[i]
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}
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func (b bases) Less(i, j int) bool {
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return b[i].langID < b[j].langID
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}
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// BaseLanguages returns the result from calling s.bases if it is specified or
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// otherwise derives the set of supported base languages from tags.
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func (s *coverage) BaseLanguages() []Base {
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if s.bases == nil {
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tags := s.Tags()
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if len(tags) == 0 {
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return nil
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}
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a := make([]Base, len(tags))
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for i, t := range tags {
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a[i] = Base{langID(t.lang)}
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}
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sort.Sort(bases(a))
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k := 0
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for i := 1; i < len(a); i++ {
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if a[k] != a[i] {
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k++
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a[k] = a[i]
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}
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}
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return a[:k+1]
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}
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return s.bases()
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}
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func (s *coverage) Scripts() []Script {
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if s.scripts == nil {
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return nil
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}
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return s.scripts()
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}
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func (s *coverage) Regions() []Region {
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if s.regions == nil {
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return nil
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}
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return s.regions()
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}
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// NewCoverage returns a Coverage for the given lists. It is typically used by
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// packages providing internationalization services to define their level of
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// coverage. A list may be of type []T or func() []T, where T is either Tag,
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// Base, Script or Region. The returned Coverage derives the value for Bases
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// from Tags if no func or slice for []Base is specified. For other unspecified
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// types the returned Coverage will return nil for the respective methods.
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func NewCoverage(list ...interface{}) Coverage {
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s := &coverage{}
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for _, x := range list {
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switch v := x.(type) {
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case func() []Base:
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s.bases = v
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case func() []Script:
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s.scripts = v
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case func() []Region:
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s.regions = v
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case func() []Tag:
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s.tags = v
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case []Base:
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s.bases = func() []Base { return v }
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case []Script:
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s.scripts = func() []Script { return v }
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case []Region:
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s.regions = func() []Region { return v }
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case []Tag:
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s.tags = func() []Tag { return v }
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default:
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panic(fmt.Sprintf("language: unsupported set type %T", v))
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}
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}
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return s
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}
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