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rootdata.go
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rootdata.go
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// Copyright 2017 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package gps
import (
"sort"
"github.com/armon/go-radix"
"github.com/golang/dep/gps/pkgtree"
)
// rootdata holds static data and constraining rules from the root project for
// use in solving.
type rootdata struct {
// Path to the root of the project on which gps is operating.
dir string
// Ruleset for ignored import paths.
ir *pkgtree.IgnoredRuleset
// Map of packages to require.
req map[string]bool
// A ProjectConstraints map containing the validated (guaranteed non-empty)
// overrides declared by the root manifest.
ovr ProjectConstraints
// A map of the ProjectRoot (local names) that should be allowed to change
chng map[ProjectRoot]struct{}
// Flag indicating all projects should be allowed to change, without regard
// for lock.
chngall bool
// A map of the project names listed in the root's lock.
rlm map[ProjectRoot]LockedProject
// A defensively copied instance of the root manifest.
rm SimpleManifest
// A defensively copied instance of the root lock.
rl safeLock
// A defensively copied instance of params.RootPackageTree
rpt pkgtree.PackageTree
// The ProjectAnalyzer to use for all GetManifestAndLock calls.
an ProjectAnalyzer
}
// externalImportList returns a list of the unique imports from the root data.
// Ignores and requires are taken into consideration, stdlib is excluded, and
// errors within the local set of package are not backpropagated.
func (rd rootdata) externalImportList(stdLibFn func(string) bool) []string {
rm, _ := rd.rpt.ToReachMap(true, true, false, rd.ir)
reach := rm.FlattenFn(stdLibFn)
// If there are any requires, slide them into the reach list, as well.
if len(rd.req) > 0 {
// Make a map of imports that are both in the import path list and the
// required list to avoid duplication.
skip := make(map[string]bool, len(rd.req))
for _, r := range reach {
if rd.req[r] {
skip[r] = true
}
}
for r := range rd.req {
if !skip[r] {
reach = append(reach, r)
}
}
}
sort.Strings(reach)
return reach
}
func (rd rootdata) getApplicableConstraints(stdLibFn func(string) bool) []workingConstraint {
pc := rd.rm.DependencyConstraints()
// Ensure that overrides which aren't in the combined pc map already make it
// in. Doing so makes input hashes equal in more useful cases.
for pr, pp := range rd.ovr {
if _, has := pc[pr]; !has {
cpp := ProjectProperties{
Constraint: pp.Constraint,
Source: pp.Source,
}
if cpp.Constraint == nil {
cpp.Constraint = anyConstraint{}
}
pc[pr] = cpp
}
}
// Now override them all to produce a consolidated workingConstraint slice
combined := rd.ovr.overrideAll(pc)
type wccount struct {
count int
wc workingConstraint
}
xt := radix.New()
for _, wc := range combined {
xt.Insert(string(wc.Ident.ProjectRoot), wccount{wc: wc})
}
// Walk all dep import paths we have to consider and mark the corresponding
// wc entry in the trie, if any
for _, im := range rd.externalImportList(stdLibFn) {
if stdLibFn(im) {
continue
}
if pre, v, match := xt.LongestPrefix(im); match && isPathPrefixOrEqual(pre, im) {
wcc := v.(wccount)
wcc.count++
xt.Insert(pre, wcc)
}
}
var ret []workingConstraint
xt.Walk(func(s string, v interface{}) bool {
wcc := v.(wccount)
if wcc.count > 0 {
ret = append(ret, wcc.wc)
}
return false
})
return ret
}
func (rd rootdata) combineConstraints() []workingConstraint {
return rd.ovr.overrideAll(rd.rm.DependencyConstraints())
}
// needVersionListFor indicates whether we need a version list for a given
// project root, based solely on general solver inputs (no constraint checking
// required). Assuming the argument is not the root project itself, this will be
// true if any of the following conditions hold:
//
// - ChangeAll is on
// - The project is not in the lock
// - The project is in the lock, but is also in the list of projects to change
func (rd rootdata) needVersionsFor(pr ProjectRoot) bool {
if rd.isRoot(pr) {
return false
}
if rd.chngall {
return true
}
if _, has := rd.rlm[pr]; !has {
// not in the lock
return true
}
if _, has := rd.chng[pr]; has {
// in the lock, but marked for change
return true
}
// in the lock, not marked for change
return false
}
func (rd rootdata) isRoot(pr ProjectRoot) bool {
return pr == ProjectRoot(rd.rpt.ImportRoot)
}
// rootAtom creates an atomWithPackages that represents the root project.
func (rd rootdata) rootAtom() atomWithPackages {
a := atom{
id: ProjectIdentifier{
ProjectRoot: ProjectRoot(rd.rpt.ImportRoot),
},
// This is a hack so that the root project doesn't have a nil version.
// It's sort of OK because the root never makes it out into the results.
// We may need a more elegant solution if we discover other side
// effects, though.
v: rootRev,
}
list := make([]string, 0, len(rd.rpt.Packages))
for path, pkg := range rd.rpt.Packages {
if pkg.Err != nil && !rd.ir.IsIgnored(path) {
list = append(list, path)
}
}
sort.Strings(list)
return atomWithPackages{
a: a,
pl: list,
}
}