diff options
author | Vincent Ambo <tazjin@google.com> | 2019-08-11T19·05+0100 |
---|---|---|
committer | Vincent Ambo <github@tazj.in> | 2019-08-13T23·02+0100 |
commit | 92078527dbe8f853d984a4038e718c662c016741 (patch) | |
tree | 1561a14a41b823ef52f25772294bebcf5f0059f6 /tools/nixery | |
parent | ce31598f4264a3c8af749b3fd533a905dcd69edc (diff) |
feat(group-layers): Add preliminary size & popularity considerations
As described in the design document, this adds considerations for closure size and popularity. All closures meeting a certain threshold for either value will have an extra edge from the image root to themselves inserted in the graph, which will cause them to be considered for inclusion in a separate layer. This is preliminary because popularity is considered as a boolean toggle (the input I generated only contains the top ~200 most popular packages), but it should be using either absolute popularity values or percentiles (needs some experimentation).
Diffstat (limited to 'tools/nixery')
-rw-r--r-- | tools/nixery/group-layers/group-layers.go | 92 |
1 files changed, 66 insertions, 26 deletions
diff --git a/tools/nixery/group-layers/group-layers.go b/tools/nixery/group-layers/group-layers.go index 1ee67433deeb..7be89e4e6761 100644 --- a/tools/nixery/group-layers/group-layers.go +++ b/tools/nixery/group-layers/group-layers.go @@ -108,9 +108,7 @@ import ( "flag" "io/ioutil" "log" - "fmt" "regexp" - "os" "gonum.org/v1/gonum/graph/simple" "gonum.org/v1/gonum/graph/flow" @@ -131,12 +129,20 @@ type exportReferences struct { } `json:"graph"` } +// Popularity data for each Nix package that was calculated in advance. +// +// Popularity is a number from 1-100 that represents the +// popularity percentile in which this package resides inside +// of the nixpkgs tree. +type pkgsMetadata = map[string]int + // closure as pointed to by the graph nodes. type closure struct { GraphID int64 Path string Size uint64 Refs []string + Popularity int // TODO(tazjin): popularity and other funny business } @@ -149,7 +155,36 @@ func (c *closure) DOTID() string { return nixRegexp.ReplaceAllString(c.Path, "") } -func insertEdges(graph *simple.DirectedGraph, cmap *map[string]*closure, node *closure) { +// bigOrPopular checks whether this closure should be considered for +// separation into its own layer, even if it would otherwise only +// appear in a subtree of the dominator tree. +func (c *closure) bigOrPopular(pkgs *pkgsMetadata) bool { + const sizeThreshold = 100 * 1000000 // 100MB + + if c.Size > sizeThreshold { + return true + } + + // TODO(tazjin): After generating the full data, this should + // be changed to something other than a simple inclusion + // (currently the test-data only contains the top 200 + // packages). + pop, ok := (*pkgs)[c.DOTID()] + if ok { + log.Printf("%q is popular!\n", c.DOTID()) + } + c.Popularity = pop + return ok +} + +func insertEdges(graph *simple.DirectedGraph, pop *pkgsMetadata, cmap *map[string]*closure, node *closure) { + // Big or popular nodes get a separate edge from the top to + // flag them for their own layer. + if node.bigOrPopular(pop) && !graph.HasEdgeFromTo(0, node.ID()) { + edge := graph.NewEdge(graph.Node(0), node) + graph.SetEdge(edge) + } + for _, c := range node.Refs { // Nix adds a self reference to each node, which // should not be inserted. @@ -161,7 +196,7 @@ func insertEdges(graph *simple.DirectedGraph, cmap *map[string]*closure, node *c } // Create a graph structure from the references supplied by Nix. -func buildGraph(refs *exportReferences) *simple.DirectedGraph { +func buildGraph(refs *exportReferences, pop *pkgsMetadata) *simple.DirectedGraph { cmap := make(map[string]*closure) graph := simple.NewDirectedGraph() @@ -196,15 +231,15 @@ func buildGraph(refs *exportReferences) *simple.DirectedGraph { } for _, c := range cmap { - insertEdges(graph, &cmap, c) + insertEdges(graph, pop, &cmap, c) } - gv, err := dot.Marshal(graph, "deps", "", "") - if err != nil { - log.Fatalf("Could not encode graph: %s\n", err) - } - fmt.Print(string(gv)) - os.Exit(0) + // gv, err := dot.Marshal(graph, "deps", "", "") + // if err != nil { + // log.Fatalf("Could not encode graph: %s\n", err) + // } + // fmt.Print(string(gv)) + // os.Exit(0) return graph } @@ -233,25 +268,16 @@ func dominate(graph *simple.DirectedGraph) { if err != nil { log.Fatalf("Could not encode graph: %s\n", err) } - fmt.Print(string(gv)) - - // fmt.Printf("%v edges in the graph\n", graph.Edges().Len()) - // top := 0 - // for _, n := range dt.DominatedBy(0) { - // fmt.Printf("%q is top-level\n", n.(*closure).Path) - // top++ - // } - // fmt.Printf("%v total top-level nodes\n", top) - // root := dt.Root().(*closure) - // fmt.Printf("dominator tree root is %q\n", root.Path) - // fmt.Printf("%v nodes can reach to 1\n", nodes.Len()) + ioutil.WriteFile("graph.dot", gv, 0644) } func main() { - inputFile := flag.String("input", ".attrs.json", "Input file containing graph") + graphFile := flag.String("graph", ".attrs.json", "Input file containing graph") + popFile := flag.String("pop", "popularity.json", "Package popularity data") flag.Parse() - file, err := ioutil.ReadFile(*inputFile) + // Parse graph data + file, err := ioutil.ReadFile(*graphFile) if err != nil { log.Fatalf("Failed to load input: %s\n", err) } @@ -262,6 +288,20 @@ func main() { log.Fatalf("Failed to deserialise input: %s\n", err) } - graph := buildGraph(&refs) + // Parse popularity data + popBytes, err := ioutil.ReadFile(*popFile) + if err != nil { + log.Fatalf("Failed to load input: %s\n", err) + } + + var pop pkgsMetadata + err = json.Unmarshal(popBytes, &pop) + if err != nil { + log.Fatalf("Failed to deserialise input: %s\n", err) + } + + log.Printf("%v\n", pop) + + graph := buildGraph(&refs, &pop) dominate(graph) } |