mirror of
https://github.com/Jguer/yay
synced 2024-10-31 04:12:51 +00:00
546 lines
12 KiB
Go
546 lines
12 KiB
Go
package main
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import (
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"fmt"
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"strings"
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alpm "github.com/jguer/go-alpm"
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rpc "github.com/mikkeloscar/aur"
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gopkg "github.com/mikkeloscar/gopkgbuild"
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)
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type depTree struct {
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ToProcess stringSet
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Repo map[string]*alpm.Package
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Aur map[string]*rpc.Pkg
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Missing stringSet
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Groups stringSet
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}
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type depCatagories struct {
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Repo []*alpm.Package
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Aur []*rpc.Pkg
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MakeOnly stringSet
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Bases map[string][]*rpc.Pkg
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}
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func makeDepTree() *depTree {
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dt := depTree{
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make(stringSet),
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make(map[string]*alpm.Package),
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make(map[string]*rpc.Pkg),
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make(stringSet),
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make(stringSet),
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}
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return &dt
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}
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func makeDependCatagories() *depCatagories {
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dc := depCatagories{
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make([]*alpm.Package, 0),
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make([]*rpc.Pkg, 0),
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make(stringSet),
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make(map[string][]*rpc.Pkg),
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}
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return &dc
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}
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// Cut the version requirement from a dependency leaving just the name.
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func splitNameFromDep(dep string) (string, string) {
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split := strings.FieldsFunc(dep, func(c rune) bool {
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return c == '>' || c == '<' || c == '='
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})
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if len(split) == 1 {
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return split[0], ""
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}
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return split[0], split[1]
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}
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//split apart db/package to db and package
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func splitDbFromName(pkg string) (string, string) {
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split := strings.SplitN(pkg, "/", 2)
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if len(split) == 2 {
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return split[0], split[1]
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}
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return "", split[0]
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}
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// Step two of dependency resolving. We already have all the information on the
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// packages we need, now it's just about ordering them correctly.
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// pkgs is a list of targets, the packages we want to install. Dependencies are
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// not included.
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// For each package we want we iterate down the tree until we hit the bottom.
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// This is done recursively for each branch.
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// The start of the tree is defined as the package we want.
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// When we hit the bottom of the branch we know thats the first package
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// we need to install so we add it to the start of the to install
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// list (dc.Aur and dc.Repo).
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// We work our way up until there is another branch to go down and do it all
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// again.
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//
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// Here is a visual example:
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//
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// a
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// / \
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// b c
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// / \
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// d e
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//
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// We see a and it needs b and c
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// We see b and it needs d and e
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// We see d - it needs nothing so we add d to our list and move up
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// We see e - it needs nothing so we add e to our list and move up
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// We see c - it needs nothing so we add c to our list and move up
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//
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// The final install order would come out as debca
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//
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// There is a little more to this, handling provides, multiple packages wanting the
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// same dependencies, etc. This is just the basic premise.
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func getDepCatagories(pkgs []string, dt *depTree) (*depCatagories, error) {
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dc := makeDependCatagories()
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seen := make(stringSet)
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for _, pkg := range dt.Aur {
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_, ok := dc.Bases[pkg.PackageBase]
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if !ok {
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dc.Bases[pkg.PackageBase] = make([]*rpc.Pkg, 0)
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}
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dc.Bases[pkg.PackageBase] = append(dc.Bases[pkg.PackageBase], pkg)
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}
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for _, pkg := range pkgs {
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_, name := splitDbFromName(pkg)
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dep, _ := splitNameFromDep(name)
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alpmpkg, exists := dt.Repo[dep]
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if exists {
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repoDepCatagoriesRecursive(alpmpkg, dc, dt, false)
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dc.Repo = append(dc.Repo, alpmpkg)
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delete(dt.Repo, dep)
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}
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aurpkg, exists := dt.Aur[dep]
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if exists {
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depCatagoriesRecursive(aurpkg, dc, dt, false, seen)
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if !seen.get(aurpkg.PackageBase) {
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dc.Aur = append(dc.Aur, aurpkg)
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seen.set(aurpkg.PackageBase)
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}
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delete(dt.Aur, dep)
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}
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}
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for _, base := range dc.Bases {
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for _, pkg := range base {
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for _, dep := range pkg.Depends {
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dc.MakeOnly.remove(dep)
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}
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}
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}
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for _, pkg := range dc.Repo {
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pkg.Depends().ForEach(func(_dep alpm.Depend) error {
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dep := _dep.Name
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dc.MakeOnly.remove(dep)
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return nil
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})
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}
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for _, pkg := range pkgs {
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dc.MakeOnly.remove(pkg)
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}
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dupes := make(map[*alpm.Package]struct{})
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filteredRepo := make([]*alpm.Package, 0)
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for _, pkg := range dc.Repo {
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_, ok := dupes[pkg]
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if ok {
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continue
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}
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dupes[pkg] = struct{}{}
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filteredRepo = append(filteredRepo, pkg)
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}
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dc.Repo = filteredRepo
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return dc, nil
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}
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func repoDepCatagoriesRecursive(pkg *alpm.Package, dc *depCatagories, dt *depTree, isMake bool) {
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pkg.Depends().ForEach(func(_dep alpm.Depend) error {
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dep := _dep.Name
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alpmpkg, exists := dt.Repo[dep]
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if exists {
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delete(dt.Repo, dep)
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repoDepCatagoriesRecursive(alpmpkg, dc, dt, isMake)
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if isMake {
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dc.MakeOnly.set(alpmpkg.Name())
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}
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dc.Repo = append(dc.Repo, alpmpkg)
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}
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return nil
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})
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}
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func depCatagoriesRecursive(_pkg *rpc.Pkg, dc *depCatagories, dt *depTree, isMake bool, seen stringSet) {
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for _, pkg := range dc.Bases[_pkg.PackageBase] {
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for _, deps := range [3][]string{pkg.Depends, pkg.MakeDepends, pkg.CheckDepends} {
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for _, _dep := range deps {
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dep, _ := splitNameFromDep(_dep)
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aurpkg, exists := dt.Aur[dep]
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if exists {
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delete(dt.Aur, dep)
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depCatagoriesRecursive(aurpkg, dc, dt, isMake, seen)
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if !seen.get(aurpkg.PackageBase) {
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dc.Aur = append(dc.Aur, aurpkg)
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seen.set(aurpkg.PackageBase)
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}
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if isMake {
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dc.MakeOnly.set(aurpkg.Name)
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}
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}
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alpmpkg, exists := dt.Repo[dep]
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if exists {
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delete(dt.Repo, dep)
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repoDepCatagoriesRecursive(alpmpkg, dc, dt, isMake)
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if isMake {
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dc.MakeOnly.set(alpmpkg.Name())
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}
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dc.Repo = append(dc.Repo, alpmpkg)
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}
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}
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isMake = true
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}
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}
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}
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// This is step one for dependency resolving. pkgs is a slice of the packages you
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// want to resolve the dependencies for. They can be a mix of aur and repo
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// dependencies. All unmet dependencies will be resolved.
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//
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// For Aur dependencies depends, makedepends and checkdepends are resolved but
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// for repo packages only depends are resolved as they are prebuilt.
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// The return will be split into three catagories: Repo, Aur and Missing.
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// The return is in no way ordered. This step is is just aimed at gathering the
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// packages we need.
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//
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// This has been designed to make the least amount of rpc requests as possible.
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// Web requests are probably going to be the bottleneck here so minimizing them
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// provides a nice speed boost.
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//
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// Here is a visual expample of the request system.
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// Remember only unsatisfied packages are requested, if a package is already
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// installed we dont bother.
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//
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// a
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// / \
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// b c
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// / \
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// d e
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//
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// We see a so we send a request for a
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// We see a wants b and c so we send a request for b and c
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// We see d and e so we send a request for d and e
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//
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// Thats 5 packages in 3 requests. The amount of requests needed should always be
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// the same as the height of the tree.
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// The example does not really do this justice, In the real world where packages
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// have 10+ dependencies each this is a very nice optimization.
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func getDepTree(pkgs []string) (*depTree, error) {
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dt := makeDepTree()
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localDb, err := alpmHandle.LocalDb()
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if err != nil {
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return dt, err
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}
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syncDb, err := alpmHandle.SyncDbs()
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if err != nil {
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return dt, err
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}
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for _, pkg := range pkgs {
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db, name := splitDbFromName(pkg)
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var foundPkg *alpm.Package
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var singleDb *alpm.Db
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if db == "aur" {
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dt.ToProcess.set(name)
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continue
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}
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// Check the repos for a matching dep
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if db != "" {
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singleDb, err = alpmHandle.SyncDbByName(db)
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if err != nil {
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return dt, err
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}
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foundPkg, err = singleDb.PkgCache().FindSatisfier(name)
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} else {
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foundPkg, err = syncDb.FindSatisfier(name)
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}
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if err == nil {
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repoTreeRecursive(foundPkg, dt, localDb, syncDb)
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continue
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} else {
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//would be better to check the groups from singleDb if
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//the user specified a db but theres no easy way to do
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//it without making alpm_lists so dont bother for now
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//db/group is probably a rare use case
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_, err := syncDb.PkgCachebyGroup(name)
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if err == nil {
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dt.Groups.set(pkg)
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continue
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}
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}
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if db == "" {
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dt.ToProcess.set(name)
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} else {
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dt.Missing.set(pkg)
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}
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}
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if len(dt.ToProcess) > 0 {
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fmt.Println(bold(cyan("::") + " Querying AUR..."))
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}
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err = depTreeRecursive(dt, localDb, syncDb, false)
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if err != nil {
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return dt, err
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}
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if !cmdArgs.existsArg("d", "nodeps") {
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err = checkVersions(dt)
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}
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return dt, err
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}
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// Takes a repo package,
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// gives all of the non installed deps,
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// repeats on each sub dep.
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func repoTreeRecursive(pkg *alpm.Package, dt *depTree, localDb *alpm.Db, syncDb alpm.DbList) (err error) {
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_, exists := dt.Repo[pkg.Name()]
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if exists {
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return
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}
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dt.Repo[pkg.Name()] = pkg
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(*pkg).Provides().ForEach(func(dep alpm.Depend) (err error) {
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dt.Repo[dep.Name] = pkg
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return nil
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})
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(*pkg).Depends().ForEach(func(dep alpm.Depend) (err error) {
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_, exists := dt.Repo[dep.Name]
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if exists {
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return
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}
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_, isInstalled := localDb.PkgCache().FindSatisfier(dep.String())
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if isInstalled == nil {
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return
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}
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repoPkg, inRepos := syncDb.FindSatisfier(dep.String())
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if inRepos == nil {
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repoTreeRecursive(repoPkg, dt, localDb, syncDb)
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return
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}
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dt.Missing.set(dep.String())
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return
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})
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return
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}
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func depTreeRecursive(dt *depTree, localDb *alpm.Db, syncDb alpm.DbList, isMake bool) (err error) {
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if len(dt.ToProcess) == 0 {
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return
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}
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nextProcess := make(stringSet)
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currentProcess := make(stringSet)
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// Strip version conditions
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for _dep := range dt.ToProcess {
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dep, _ := splitNameFromDep(_dep)
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currentProcess.set(dep)
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}
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// Assume toprocess only contains aur stuff we have not seen
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info, err := aurInfo(currentProcess.toSlice())
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if err != nil {
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return
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}
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// Cache the results
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for _, pkg := range info {
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// Copying to p fixes a bug.
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// Would rather not copy but cant find another way to fix.
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p := pkg
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dt.Aur[pkg.Name] = &p
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}
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// Loop through to process and check if we now have
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// each packaged cached.
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// If not cached, we assume it is missing.
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for pkgName := range currentProcess {
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pkg, exists := dt.Aur[pkgName]
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// Did not get it in the request.
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if !exists {
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dt.Missing.set(pkgName)
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continue
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}
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// for each dep and makedep
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for _, deps := range [3][]string{pkg.Depends, pkg.MakeDepends, pkg.CheckDepends} {
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for _, versionedDep := range deps {
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dep, _ := splitNameFromDep(versionedDep)
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_, exists = dt.Aur[dep]
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// We have it cached so skip.
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if exists {
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continue
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}
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_, exists = dt.Repo[dep]
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// We have it cached so skip.
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if exists {
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continue
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}
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_, exists = dt.Missing[dep]
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// We know it does not resolve so skip.
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if exists {
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continue
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}
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// Check if already installed.
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_, isInstalled := localDb.PkgCache().FindSatisfier(versionedDep)
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if isInstalled == nil && config.ReBuild != "tree" {
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continue
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}
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// Check the repos for a matching dep.
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repoPkg, inRepos := syncDb.FindSatisfier(versionedDep)
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if inRepos == nil {
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if isInstalled == nil && config.ReBuild == "tree" {
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continue
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}
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repoTreeRecursive(repoPkg, dt, localDb, syncDb)
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continue
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}
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// If all else fails add it to next search.
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nextProcess.set(versionedDep)
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}
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}
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}
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dt.ToProcess = nextProcess
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depTreeRecursive(dt, localDb, syncDb, true)
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return
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}
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func checkVersions(dt *depTree) error {
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depStrings := make([]string, 0)
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has := make(map[string][]string)
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for _, pkg := range dt.Aur {
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for _, deps := range [3][]string{pkg.Depends, pkg.MakeDepends, pkg.CheckDepends} {
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for _, dep := range deps {
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_, _dep := splitNameFromDep(dep)
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if _dep != "" {
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depStrings = append(depStrings, dep)
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}
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}
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}
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addMapStringSlice(has, pkg.Name, pkg.Version)
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for _, name := range pkg.Provides {
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_name, _ver := splitNameFromDep(name)
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if _ver != "" {
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addMapStringSlice(has, _name, _ver)
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} else {
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delete(has, _name)
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}
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}
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}
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for _, pkg := range dt.Repo {
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pkg.Depends().ForEach(func(dep alpm.Depend) error {
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if dep.Mod != alpm.DepModAny {
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depStrings = append(depStrings, dep.String())
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}
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return nil
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})
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addMapStringSlice(has, pkg.Name(), pkg.Version())
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pkg.Provides().ForEach(func(dep alpm.Depend) error {
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if dep.Mod != alpm.DepModAny {
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addMapStringSlice(has, dep.Name, dep.Version)
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} else {
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delete(has, dep.Name)
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}
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return nil
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})
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}
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deps, _ := gopkg.ParseDeps(depStrings)
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for _, dep := range deps {
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satisfied := false
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verStrs, ok := has[dep.Name]
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if !ok {
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continue
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}
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for _, verStr := range verStrs {
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version, err := gopkg.NewCompleteVersion(verStr)
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if err != nil {
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return err
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}
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if version.Satisfies(dep) {
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satisfied = true
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break
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}
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}
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if !satisfied {
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dt.Missing.set(dep.String())
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}
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}
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return nil
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}
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