237 lines
5.0 KiB
V
237 lines
5.0 KiB
V
// Copyright (c) 2019-2022 Alexander Medvednikov. All rights reserved.
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// Use of this source code is governed by an MIT license
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// that can be found in the LICENSE file.
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// Directed acyclic graph
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// this implementation is specifically suited to ordering dependencies
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module depgraph
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import v.dotgraph
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struct DepGraphNode {
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pub mut:
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name string
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value i64
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deps []string
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}
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pub struct DepGraph {
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pub mut:
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acyclic bool
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nodes []DepGraphNode
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values map[string]i64
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}
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struct OrderedDepMap {
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mut:
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keys []string
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data map[string][]string
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}
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pub fn new_ordered_dependency_map() OrderedDepMap {
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mut res := OrderedDepMap{}
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unsafe { res.keys.flags.set(.noslices) }
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return res
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}
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pub fn (mut o OrderedDepMap) set(name string, deps []string) {
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if name !in o.data {
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o.keys << name
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}
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o.data[name] = deps
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}
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pub fn (mut o OrderedDepMap) add(name string, deps []string) {
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mut d := o.get(name)
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for dep in deps {
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if dep !in d {
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d << dep
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}
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}
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o.set(name, d)
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}
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pub fn (o &OrderedDepMap) get(name string) []string {
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res := o.data[name] or { []string{} }
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return res
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}
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pub fn (mut o OrderedDepMap) delete(name string) {
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if name !in o.data {
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panic('delete: no such key: $name')
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}
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for i, _ in o.keys {
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if o.keys[i] == name {
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o.keys.delete(i)
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break
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}
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}
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o.data.delete(name)
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}
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pub fn (mut o OrderedDepMap) apply_diff(name string, deps []string) {
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mut diff := []string{}
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deps_of_name := o.get(name)
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for dep in deps_of_name {
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if dep !in deps {
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diff << dep
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}
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}
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o.set(name, diff)
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}
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pub fn (o &OrderedDepMap) size() int {
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return o.data.len
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}
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pub fn new_dep_graph() &DepGraph {
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return &DepGraph{
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acyclic: true
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nodes: []DepGraphNode{cap: 1024}
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}
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}
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pub fn (mut graph DepGraph) add(mod string, deps []string) {
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new_node := DepGraphNode{
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name: mod
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deps: deps.clone()
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}
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graph.nodes << new_node
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graph.values[mod] = 0
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}
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pub fn (mut graph DepGraph) add_with_value(mod string, deps []string, value i64) {
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new_node := DepGraphNode{
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name: mod
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value: value
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deps: deps.clone()
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}
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graph.nodes << new_node
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graph.values[mod] = value
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}
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pub fn (graph &DepGraph) resolve() &DepGraph {
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mut node_names := new_ordered_dependency_map()
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mut node_deps := new_ordered_dependency_map()
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for node in graph.nodes {
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node_names.add(node.name, node.deps)
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node_deps.add(node.name, node.deps)
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}
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mut iterations := 0
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mut resolved := new_dep_graph()
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for node_deps.size() != 0 {
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iterations++
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mut ready_set := []string{}
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for name in node_deps.keys {
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deps := node_deps.get(name)
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if deps.len == 0 {
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ready_set << name
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}
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}
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if ready_set.len == 0 {
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mut g := new_dep_graph()
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g.acyclic = false
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for name in node_deps.keys {
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g.add_with_value(name, node_names.get(name), graph.values[name])
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}
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return g
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}
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for name in ready_set {
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node_deps.delete(name)
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resolved_deps := node_names.get(name)
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resolved.add_with_value(name, resolved_deps, graph.values[name])
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}
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for name in node_deps.keys {
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node_deps.apply_diff(name, ready_set)
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}
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}
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return resolved
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}
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pub fn (graph &DepGraph) last_node() DepGraphNode {
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return graph.nodes[graph.nodes.len - 1]
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}
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pub fn (graph &DepGraph) display() string {
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mut out := []string{}
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for node in graph.nodes {
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for dep in node.deps {
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out << ' * $node.name -> $dep'
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}
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}
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return out.join('\n')
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}
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struct NodeNames {
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mut:
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is_cycle map[string]bool
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names map[string][]string
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}
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pub fn (graph &DepGraph) display_cycles() string {
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mut seen := false
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mut out := []string{}
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mut nn := NodeNames{}
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for node in graph.nodes {
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nn.names[node.name] = node.deps
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}
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for k, _ in nn.names {
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mut cycle_names := []string{}
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if k in nn.is_cycle {
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continue
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}
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seen, cycle_names = nn.is_part_of_cycle(k, cycle_names)
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if seen {
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out << ' * ' + cycle_names.join(' -> ')
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nn.is_cycle = map[string]bool{}
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}
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}
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return out.join('\n')
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}
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fn (mut nn NodeNames) is_part_of_cycle(name string, already_seen []string) (bool, []string) {
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mut seen := false
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mut new_already_seen := already_seen.clone()
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if name in nn.is_cycle {
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return nn.is_cycle[name], new_already_seen
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}
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if name in already_seen {
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new_already_seen << name
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nn.is_cycle[name] = true
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return true, new_already_seen
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}
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new_already_seen << name
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deps := nn.names[name]
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if deps.len == 0 {
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nn.is_cycle[name] = false
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return false, new_already_seen
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}
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for d in deps {
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mut d_already_seen := new_already_seen.clone()
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seen, d_already_seen = nn.is_part_of_cycle(d, d_already_seen)
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if seen {
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new_already_seen = d_already_seen.clone()
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nn.is_cycle[name] = true
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return true, new_already_seen
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}
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}
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nn.is_cycle[name] = false
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return false, new_already_seen
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}
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pub fn show(graph &DepGraph, path string) {
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mut dg := dotgraph.new('ModGraph', 'ModGraph for $path', 'blue')
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mbuiltin := 'builtin'
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for node in graph.nodes {
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is_main := node.name == 'main'
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dg.new_node(node.name, should_highlight: is_main)
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mut deps := node.deps.clone()
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if node.name != mbuiltin && mbuiltin !in deps {
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deps << mbuiltin
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}
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for dep in deps {
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dg.new_edge(node.name, dep, should_highlight: is_main)
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}
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}
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dg.finish()
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}
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