Java Code Examples for com.sun.tools.javac.comp.Infer.GraphSolver.InferenceGraph.Node#addDependency()
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com.sun.tools.javac.comp.Infer.GraphSolver.InferenceGraph.Node#addDependency() .
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Example 1
Source File: Infer.java From TencentKona-8 with GNU General Public License v2.0 | 5 votes |
/** * Create the graph nodes. First a simple node is created for every inference * variables to be solved. Then Tarjan is used to found all connected components * in the graph. For each component containing more than one node, a super node is * created, effectively replacing the original cyclic nodes. */ void initNodes(Map<Type, Set<Type>> stuckDeps) { //add nodes nodes = new ArrayList<Node>(); for (Type t : inferenceContext.restvars()) { nodes.add(new Node(t)); } //add dependencies for (Node n_i : nodes) { Type i = n_i.data.first(); Set<Type> optDepsByNode = stuckDeps.get(i); for (Node n_j : nodes) { Type j = n_j.data.first(); UndetVar uv_i = (UndetVar)inferenceContext.asUndetVar(i); if (Type.containsAny(uv_i.getBounds(InferenceBound.values()), List.of(j))) { //update i's bound dependencies n_i.addDependency(DependencyKind.BOUND, n_j); } if (optDepsByNode != null && optDepsByNode.contains(j)) { //update i's stuck dependencies n_i.addDependency(DependencyKind.STUCK, n_j); } } } //merge cyclic nodes ArrayList<Node> acyclicNodes = new ArrayList<Node>(); for (List<? extends Node> conSubGraph : GraphUtils.tarjan(nodes)) { if (conSubGraph.length() > 1) { Node root = conSubGraph.head; root.mergeWith(conSubGraph.tail); for (Node n : conSubGraph) { notifyUpdate(n, root); } } acyclicNodes.add(conSubGraph.head); } nodes = acyclicNodes; }
Example 2
Source File: Infer.java From jdk8u60 with GNU General Public License v2.0 | 5 votes |
/** * Create the graph nodes. First a simple node is created for every inference * variables to be solved. Then Tarjan is used to found all connected components * in the graph. For each component containing more than one node, a super node is * created, effectively replacing the original cyclic nodes. */ void initNodes(Map<Type, Set<Type>> stuckDeps) { //add nodes nodes = new ArrayList<Node>(); for (Type t : inferenceContext.restvars()) { nodes.add(new Node(t)); } //add dependencies for (Node n_i : nodes) { Type i = n_i.data.first(); Set<Type> optDepsByNode = stuckDeps.get(i); for (Node n_j : nodes) { Type j = n_j.data.first(); UndetVar uv_i = (UndetVar)inferenceContext.asUndetVar(i); if (Type.containsAny(uv_i.getBounds(InferenceBound.values()), List.of(j))) { //update i's bound dependencies n_i.addDependency(DependencyKind.BOUND, n_j); } if (optDepsByNode != null && optDepsByNode.contains(j)) { //update i's stuck dependencies n_i.addDependency(DependencyKind.STUCK, n_j); } } } //merge cyclic nodes ArrayList<Node> acyclicNodes = new ArrayList<Node>(); for (List<? extends Node> conSubGraph : GraphUtils.tarjan(nodes)) { if (conSubGraph.length() > 1) { Node root = conSubGraph.head; root.mergeWith(conSubGraph.tail); for (Node n : conSubGraph) { notifyUpdate(n, root); } } acyclicNodes.add(conSubGraph.head); } nodes = acyclicNodes; }
Example 3
Source File: Infer.java From openjdk-jdk8u with GNU General Public License v2.0 | 5 votes |
/** * Create the graph nodes. First a simple node is created for every inference * variables to be solved. Then Tarjan is used to found all connected components * in the graph. For each component containing more than one node, a super node is * created, effectively replacing the original cyclic nodes. */ void initNodes(Map<Type, Set<Type>> stuckDeps) { //add nodes nodes = new ArrayList<Node>(); for (Type t : inferenceContext.restvars()) { nodes.add(new Node(t)); } //add dependencies for (Node n_i : nodes) { Type i = n_i.data.first(); Set<Type> optDepsByNode = stuckDeps.get(i); for (Node n_j : nodes) { Type j = n_j.data.first(); UndetVar uv_i = (UndetVar)inferenceContext.asUndetVar(i); if (Type.containsAny(uv_i.getBounds(InferenceBound.values()), List.of(j))) { //update i's bound dependencies n_i.addDependency(DependencyKind.BOUND, n_j); } if (optDepsByNode != null && optDepsByNode.contains(j)) { //update i's stuck dependencies n_i.addDependency(DependencyKind.STUCK, n_j); } } } //merge cyclic nodes ArrayList<Node> acyclicNodes = new ArrayList<Node>(); for (List<? extends Node> conSubGraph : GraphUtils.tarjan(nodes)) { if (conSubGraph.length() > 1) { Node root = conSubGraph.head; root.mergeWith(conSubGraph.tail); for (Node n : conSubGraph) { notifyUpdate(n, root); } } acyclicNodes.add(conSubGraph.head); } nodes = acyclicNodes; }
Example 4
Source File: Infer.java From lua-for-android with BSD 3-Clause "New" or "Revised" License | 5 votes |
/** * Create the graph nodes. First a simple node is created for every inference * variables to be solved. Then Tarjan is used to found all connected components * in the graph. For each component containing more than one node, a super node is * created, effectively replacing the original cyclic nodes. */ void initNodes() { //add nodes nodes = new ArrayList<>(); for (Type t : inferenceContext.restvars()) { nodes.add(new Node(t)); } //add dependencies for (Node n_i : nodes) { Type i = n_i.data.first(); for (Node n_j : nodes) { Type j = n_j.data.first(); // don't compare a variable to itself if (i != j) { UndetVar uv_i = (UndetVar)inferenceContext.asUndetVar(i); if (Type.containsAny(uv_i.getBounds(InferenceBound.values()), List.of(j))) { //update i's bound dependencies n_i.addDependency(n_j); } } } } //merge cyclic nodes ArrayList<Node> acyclicNodes = new ArrayList<>(); for (List<? extends Node> conSubGraph : GraphUtils.tarjan(nodes)) { if (conSubGraph.length() > 1) { Node root = conSubGraph.head; root.mergeWith(conSubGraph.tail); for (Node n : conSubGraph) { notifyUpdate(n, root); } } acyclicNodes.add(conSubGraph.head); } nodes = acyclicNodes; }
Example 5
Source File: Infer.java From openjdk-jdk8u-backup with GNU General Public License v2.0 | 5 votes |
/** * Create the graph nodes. First a simple node is created for every inference * variables to be solved. Then Tarjan is used to found all connected components * in the graph. For each component containing more than one node, a super node is * created, effectively replacing the original cyclic nodes. */ void initNodes(Map<Type, Set<Type>> stuckDeps) { //add nodes nodes = new ArrayList<Node>(); for (Type t : inferenceContext.restvars()) { nodes.add(new Node(t)); } //add dependencies for (Node n_i : nodes) { Type i = n_i.data.first(); Set<Type> optDepsByNode = stuckDeps.get(i); for (Node n_j : nodes) { Type j = n_j.data.first(); UndetVar uv_i = (UndetVar)inferenceContext.asUndetVar(i); if (Type.containsAny(uv_i.getBounds(InferenceBound.values()), List.of(j))) { //update i's bound dependencies n_i.addDependency(DependencyKind.BOUND, n_j); } if (optDepsByNode != null && optDepsByNode.contains(j)) { //update i's stuck dependencies n_i.addDependency(DependencyKind.STUCK, n_j); } } } //merge cyclic nodes ArrayList<Node> acyclicNodes = new ArrayList<Node>(); for (List<? extends Node> conSubGraph : GraphUtils.tarjan(nodes)) { if (conSubGraph.length() > 1) { Node root = conSubGraph.head; root.mergeWith(conSubGraph.tail); for (Node n : conSubGraph) { notifyUpdate(n, root); } } acyclicNodes.add(conSubGraph.head); } nodes = acyclicNodes; }
Example 6
Source File: Infer.java From openjdk-jdk9 with GNU General Public License v2.0 | 5 votes |
/** * Create the graph nodes. First a simple node is created for every inference * variables to be solved. Then Tarjan is used to found all connected components * in the graph. For each component containing more than one node, a super node is * created, effectively replacing the original cyclic nodes. */ void initNodes() { //add nodes nodes = new ArrayList<>(); for (Type t : inferenceContext.restvars()) { nodes.add(new Node(t)); } //add dependencies for (Node n_i : nodes) { Type i = n_i.data.first(); for (Node n_j : nodes) { Type j = n_j.data.first(); UndetVar uv_i = (UndetVar)inferenceContext.asUndetVar(i); if (Type.containsAny(uv_i.getBounds(InferenceBound.values()), List.of(j))) { //update i's bound dependencies n_i.addDependency(n_j); } } } //merge cyclic nodes ArrayList<Node> acyclicNodes = new ArrayList<>(); for (List<? extends Node> conSubGraph : GraphUtils.tarjan(nodes)) { if (conSubGraph.length() > 1) { Node root = conSubGraph.head; root.mergeWith(conSubGraph.tail); for (Node n : conSubGraph) { notifyUpdate(n, root); } } acyclicNodes.add(conSubGraph.head); } nodes = acyclicNodes; }
Example 7
Source File: Infer.java From hottub with GNU General Public License v2.0 | 5 votes |
/** * Create the graph nodes. First a simple node is created for every inference * variables to be solved. Then Tarjan is used to found all connected components * in the graph. For each component containing more than one node, a super node is * created, effectively replacing the original cyclic nodes. */ void initNodes(Map<Type, Set<Type>> stuckDeps) { //add nodes nodes = new ArrayList<Node>(); for (Type t : inferenceContext.restvars()) { nodes.add(new Node(t)); } //add dependencies for (Node n_i : nodes) { Type i = n_i.data.first(); Set<Type> optDepsByNode = stuckDeps.get(i); for (Node n_j : nodes) { Type j = n_j.data.first(); UndetVar uv_i = (UndetVar)inferenceContext.asUndetVar(i); if (Type.containsAny(uv_i.getBounds(InferenceBound.values()), List.of(j))) { //update i's bound dependencies n_i.addDependency(DependencyKind.BOUND, n_j); } if (optDepsByNode != null && optDepsByNode.contains(j)) { //update i's stuck dependencies n_i.addDependency(DependencyKind.STUCK, n_j); } } } //merge cyclic nodes ArrayList<Node> acyclicNodes = new ArrayList<Node>(); for (List<? extends Node> conSubGraph : GraphUtils.tarjan(nodes)) { if (conSubGraph.length() > 1) { Node root = conSubGraph.head; root.mergeWith(conSubGraph.tail); for (Node n : conSubGraph) { notifyUpdate(n, root); } } acyclicNodes.add(conSubGraph.head); } nodes = acyclicNodes; }
Example 8
Source File: Infer.java From openjdk-8-source with GNU General Public License v2.0 | 5 votes |
/** * Create the graph nodes. First a simple node is created for every inference * variables to be solved. Then Tarjan is used to found all connected components * in the graph. For each component containing more than one node, a super node is * created, effectively replacing the original cyclic nodes. */ void initNodes(Map<Type, Set<Type>> stuckDeps) { //add nodes nodes = new ArrayList<Node>(); for (Type t : inferenceContext.restvars()) { nodes.add(new Node(t)); } //add dependencies for (Node n_i : nodes) { Type i = n_i.data.first(); Set<Type> optDepsByNode = stuckDeps.get(i); for (Node n_j : nodes) { Type j = n_j.data.first(); UndetVar uv_i = (UndetVar)inferenceContext.asFree(i); if (Type.containsAny(uv_i.getBounds(InferenceBound.values()), List.of(j))) { //update i's bound dependencies n_i.addDependency(DependencyKind.BOUND, n_j); } if (optDepsByNode != null && optDepsByNode.contains(j)) { //update i's stuck dependencies n_i.addDependency(DependencyKind.STUCK, n_j); } } } //merge cyclic nodes ArrayList<Node> acyclicNodes = new ArrayList<Node>(); for (List<? extends Node> conSubGraph : GraphUtils.tarjan(nodes)) { if (conSubGraph.length() > 1) { Node root = conSubGraph.head; root.mergeWith(conSubGraph.tail); for (Node n : conSubGraph) { notifyUpdate(n, root); } } acyclicNodes.add(conSubGraph.head); } nodes = acyclicNodes; }
Example 9
Source File: Infer.java From openjdk-8 with GNU General Public License v2.0 | 5 votes |
/** * Create the graph nodes. First a simple node is created for every inference * variables to be solved. Then Tarjan is used to found all connected components * in the graph. For each component containing more than one node, a super node is * created, effectively replacing the original cyclic nodes. */ void initNodes(Map<Type, Set<Type>> stuckDeps) { //add nodes nodes = new ArrayList<Node>(); for (Type t : inferenceContext.restvars()) { nodes.add(new Node(t)); } //add dependencies for (Node n_i : nodes) { Type i = n_i.data.first(); Set<Type> optDepsByNode = stuckDeps.get(i); for (Node n_j : nodes) { Type j = n_j.data.first(); UndetVar uv_i = (UndetVar)inferenceContext.asFree(i); if (Type.containsAny(uv_i.getBounds(InferenceBound.values()), List.of(j))) { //update i's bound dependencies n_i.addDependency(DependencyKind.BOUND, n_j); } if (optDepsByNode != null && optDepsByNode.contains(j)) { //update i's stuck dependencies n_i.addDependency(DependencyKind.STUCK, n_j); } } } //merge cyclic nodes ArrayList<Node> acyclicNodes = new ArrayList<Node>(); for (List<? extends Node> conSubGraph : GraphUtils.tarjan(nodes)) { if (conSubGraph.length() > 1) { Node root = conSubGraph.head; root.mergeWith(conSubGraph.tail); for (Node n : conSubGraph) { notifyUpdate(n, root); } } acyclicNodes.add(conSubGraph.head); } nodes = acyclicNodes; }