forked from lix-project/lix
318 lines
11 KiB
C++
318 lines
11 KiB
C++
#include "command.hh"
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#include "store-api.hh"
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#include "progress-bar.hh"
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#include "fs-accessor.hh"
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#include "shared.hh"
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#include <queue>
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using namespace nix;
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static std::string hilite(const std::string & s, size_t pos, size_t len,
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const std::string & colour = ANSI_RED)
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{
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return
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std::string(s, 0, pos)
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+ colour
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+ std::string(s, pos, len)
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+ ANSI_NORMAL
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+ std::string(s, pos + len);
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}
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static std::string filterPrintable(const std::string & s)
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{
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std::string res;
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for (char c : s)
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res += isprint(c) ? c : '.';
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return res;
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}
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struct CmdWhyDepends : SourceExprCommand
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{
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std::string _package, _dependency;
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bool all = false;
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bool precise = false;
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CmdWhyDepends()
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{
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expectArgs({
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.label = "package",
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.handler = {&_package},
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.completer = {[&](size_t, std::string_view prefix) {
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completeInstallable(prefix);
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}}
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});
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expectArgs({
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.label = "dependency",
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.handler = {&_dependency},
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.completer = {[&](size_t, std::string_view prefix) {
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completeInstallable(prefix);
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}}
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});
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addFlag({
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.longName = "all",
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.shortName = 'a',
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.description = "Show all edges in the dependency graph leading from *package* to *dependency*, rather than just a shortest path.",
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.handler = {&all, true},
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});
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addFlag({
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.longName = "precise",
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.description = "For each edge in the dependency graph, show the files in the parent that cause the dependency.",
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.handler = {&precise, true},
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});
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}
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std::string description() override
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{
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return "show why a package has another package in its closure";
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}
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std::string doc() override
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{
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return
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#include "why-depends.md"
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;
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}
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Category category() override { return catSecondary; }
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void run(ref<Store> store) override
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{
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auto package = parseInstallable(store, _package);
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auto packagePath = Installable::toStorePath(getEvalStore(), store, Realise::Outputs, operateOn, package);
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/* We don't need to build `dependency`. We try to get the store
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* path if it's already known, and if not, then it's not a dependency.
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*
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* Why? If `package` does depends on `dependency`, then getting the
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* store path of `package` above necessitated having the store path
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* of `dependency`. The contrapositive is, if the store path of
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* `dependency` is not already known at this point (i.e. it's a CA
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* derivation which hasn't been built), then `package` did not need it
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* to build.
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*/
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auto dependency = parseInstallable(store, _dependency);
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auto derivedDependency = dependency->toDerivedPath();
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auto optDependencyPath = std::visit(overloaded {
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[](const DerivedPath::Opaque & nodrv) -> std::optional<StorePath> {
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return { nodrv.path };
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},
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[&](const DerivedPath::Built & hasdrv) -> std::optional<StorePath> {
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if (hasdrv.outputs.size() != 1) {
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throw Error("argument '%s' should evaluate to one store path", dependency->what());
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}
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auto outputMap = store->queryPartialDerivationOutputMap(hasdrv.drvPath);
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auto maybePath = outputMap.find(*hasdrv.outputs.begin());
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if (maybePath == outputMap.end()) {
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throw Error("unexpected end of iterator");
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}
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return maybePath->second;
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},
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}, derivedDependency.raw());
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StorePathSet closure;
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store->computeFSClosure({packagePath}, closure, false, false);
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if (!optDependencyPath.has_value() || !closure.count(*optDependencyPath)) {
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printError("'%s' does not depend on '%s'", package->what(), dependency->what());
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return;
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}
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auto dependencyPath = *optDependencyPath;
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auto dependencyPathHash = dependencyPath.hashPart();
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stopProgressBar(); // FIXME
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auto accessor = store->getFSAccessor();
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auto const inf = std::numeric_limits<size_t>::max();
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struct Node
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{
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StorePath path;
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StorePathSet refs;
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StorePathSet rrefs;
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size_t dist = inf;
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Node * prev = nullptr;
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bool queued = false;
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bool visited = false;
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};
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std::map<StorePath, Node> graph;
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for (auto & path : closure)
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graph.emplace(path, Node {
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.path = path,
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.refs = store->queryPathInfo(path)->references,
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.dist = path == dependencyPath ? 0 : inf
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});
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// Transpose the graph.
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for (auto & node : graph)
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for (auto & ref : node.second.refs)
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graph.find(ref)->second.rrefs.insert(node.first);
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/* Run Dijkstra's shortest path algorithm to get the distance
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of every path in the closure to 'dependency'. */
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std::priority_queue<Node *> queue;
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queue.push(&graph.at(dependencyPath));
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while (!queue.empty()) {
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auto & node = *queue.top();
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queue.pop();
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for (auto & rref : node.rrefs) {
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auto & node2 = graph.at(rref);
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auto dist = node.dist + 1;
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if (dist < node2.dist) {
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node2.dist = dist;
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node2.prev = &node;
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if (!node2.queued) {
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node2.queued = true;
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queue.push(&node2);
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}
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}
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}
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}
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/* Print the subgraph of nodes that have 'dependency' in their
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closure (i.e., that have a non-infinite distance to
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'dependency'). Print every edge on a path between `package`
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and `dependency`. */
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std::function<void(Node &, const std::string &, const std::string &)> printNode;
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struct BailOut { };
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printNode = [&](Node & node, const std::string & firstPad, const std::string & tailPad) {
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auto pathS = store->printStorePath(node.path);
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assert(node.dist != inf);
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if (precise) {
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logger->cout("%s%s%s%s" ANSI_NORMAL,
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firstPad,
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node.visited ? "\e[38;5;244m" : "",
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firstPad != "" ? "→ " : "",
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pathS);
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}
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if (node.path == dependencyPath && !all
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&& packagePath != dependencyPath)
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throw BailOut();
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if (node.visited) return;
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if (precise) node.visited = true;
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/* Sort the references by distance to `dependency` to
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ensure that the shortest path is printed first. */
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std::multimap<size_t, Node *> refs;
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std::set<std::string> hashes;
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for (auto & ref : node.refs) {
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if (ref == node.path && packagePath != dependencyPath) continue;
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auto & node2 = graph.at(ref);
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if (node2.dist == inf) continue;
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refs.emplace(node2.dist, &node2);
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hashes.insert(std::string(node2.path.hashPart()));
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}
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/* For each reference, find the files and symlinks that
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contain the reference. */
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std::map<std::string, Strings> hits;
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std::function<void(const Path &)> visitPath;
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visitPath = [&](const Path & p) {
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auto st = accessor->stat(p);
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auto p2 = p == pathS ? "/" : std::string(p, pathS.size() + 1);
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auto getColour = [&](const std::string & hash) {
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return hash == dependencyPathHash ? ANSI_GREEN : ANSI_BLUE;
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};
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if (st.type == FSAccessor::Type::tDirectory) {
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auto names = accessor->readDirectory(p);
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for (auto & name : names)
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visitPath(p + "/" + name);
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}
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else if (st.type == FSAccessor::Type::tRegular) {
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auto contents = accessor->readFile(p);
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for (auto & hash : hashes) {
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auto pos = contents.find(hash);
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if (pos != std::string::npos) {
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size_t margin = 32;
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auto pos2 = pos >= margin ? pos - margin : 0;
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hits[hash].emplace_back(fmt("%s: …%s…\n",
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p2,
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hilite(filterPrintable(
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std::string(contents, pos2, pos - pos2 + hash.size() + margin)),
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pos - pos2, StorePath::HashLen,
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getColour(hash))));
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}
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}
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}
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else if (st.type == FSAccessor::Type::tSymlink) {
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auto target = accessor->readLink(p);
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for (auto & hash : hashes) {
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auto pos = target.find(hash);
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if (pos != std::string::npos)
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hits[hash].emplace_back(fmt("%s -> %s\n", p2,
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hilite(target, pos, StorePath::HashLen, getColour(hash))));
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}
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}
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};
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// FIXME: should use scanForReferences().
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if (precise) visitPath(pathS);
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for (auto & ref : refs) {
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std::string hash(ref.second->path.hashPart());
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bool last = all ? ref == *refs.rbegin() : true;
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for (auto & hit : hits[hash]) {
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bool first = hit == *hits[hash].begin();
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std::cout << tailPad
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<< (first ? (last ? treeLast : treeConn) : (last ? treeNull : treeLine))
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<< hit;
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if (!all) break;
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}
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if (!precise) {
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auto pathS = store->printStorePath(ref.second->path);
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logger->cout("%s%s%s%s" ANSI_NORMAL,
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firstPad,
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ref.second->visited ? "\e[38;5;244m" : "",
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last ? treeLast : treeConn,
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pathS);
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node.visited = true;
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}
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printNode(*ref.second,
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tailPad + (last ? treeNull : treeLine),
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tailPad + (last ? treeNull : treeLine));
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}
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};
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RunPager pager;
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try {
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if (!precise) {
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logger->cout("%s", store->printStorePath(graph.at(packagePath).path));
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}
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printNode(graph.at(packagePath), "", "");
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} catch (BailOut & ) { }
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}
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};
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static auto rCmdWhyDepends = registerCommand<CmdWhyDepends>("why-depends");
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