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1 /*
2  * Copyright 2011 Christoph Bumiller
3  *
4  * Permission is hereby granted, free of charge, to any person obtaining a
5  * copy of this software and associated documentation files (the "Software"),
6  * to deal in the Software without restriction, including without limitation
7  * the rights to use, copy, modify, merge, publish, distribute, sublicense,
8  * and/or sell copies of the Software, and to permit persons to whom the
9  * Software is furnished to do so, subject to the following conditions:
10  *
11  * The above copyright notice and this permission notice shall be included in
12  * all copies or substantial portions of the Software.
13  *
14  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
15  * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
16  * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.  IN NO EVENT SHALL
17  * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR
18  * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
19  * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
20  * OTHER DEALINGS IN THE SOFTWARE.
21  */
22 
23 #ifndef __NV50_IR_GRAPH_H__
24 #define __NV50_IR_GRAPH_H__
25 
26 #include "codegen/nv50_ir_util.h"
27 #include <vector>
28 
29 namespace nv50_ir {
30 
31 #define ITER_NODE(x) reinterpret_cast<Graph::Node *>((x).get())
32 #define ITER_EDGE(x) reinterpret_cast<Graph::Edge *>((x).get())
33 
34 // A connected graph.
35 class Graph
36 {
37 public:
38    class Node;
39 
40    class Edge
41    {
42    public:
43       enum Type
44       {
45          UNKNOWN,
46          TREE,
47          FORWARD,
48          BACK,
49          CROSS, // e.g. loop break
50       };
51 
52       Edge(Node *dst, Node *src, Type kind);
~Edge()53       ~Edge() { unlink(); }
54 
getOrigin()55       inline Node *getOrigin() const { return origin; }
getTarget()56       inline Node *getTarget() const { return target; }
57 
getType()58       inline Type getType() const { return type; }
59       const char *typeStr() const;
60 
61    private:
62       Node *origin;
63       Node *target;
64 
65       Type type;
66       Edge *next[2]; // next edge outgoing/incident from/to origin/target
67       Edge *prev[2];
68 
69       void unlink();
70 
71       friend class Graph;
72    };
73 
74    class EdgeIterator : public Iterator
75    {
76    public:
EdgeIterator()77       EdgeIterator() : e(0), t(0), d(0), rev(false) { }
EdgeIterator(Graph::Edge * first,int dir,bool reverse)78       EdgeIterator(Graph::Edge *first, int dir, bool reverse)
79          : d(dir), rev(reverse)
80       {
81          t = e = ((rev && first) ? first->prev[d] : first);
82       }
83 
next()84       virtual void next()
85       {
86          Graph::Edge *n = (rev ? e->prev[d] : e->next[d]);
87          e = (n == t ? NULL : n);
88       }
end()89       virtual bool end() const { return !e; }
get()90       virtual void *get() const { return e; }
91 
getNode()92       inline Node *getNode() const { assert(e); return d ?
93                                                    e->origin : e->target; }
getEdge()94       inline Edge *getEdge() const { return e; }
getType()95       inline Edge::Type getType() { return e ? e->getType() : Edge::UNKNOWN; }
96 
97    private:
98       Graph::Edge *e;
99       Graph::Edge *t;
100       int d;
101       bool rev;
102    };
103 
104    class Node
105    {
106    public:
107       Node(void *);
~Node()108       ~Node() { cut(); }
109 
110       void attach(Node *, Edge::Type);
111       bool detach(Node *);
112       void cut();
113 
114       inline EdgeIterator outgoing(bool reverse = false) const;
115       inline EdgeIterator incident(bool reverse = false) const;
116 
117       inline Node *parent() const; // returns NULL if count(incident edges) != 1
118 
119       bool reachableBy(const Node *node, const Node *term) const;
120 
121       inline bool visit(int);
122       inline int  getSequence() const;
123 
124       inline int incidentCountFwd() const; // count of incident non-back edges
incidentCount()125       inline int incidentCount() const { return inCount; }
outgoingCount()126       inline int outgoingCount() const { return outCount; }
127 
getGraph()128       Graph *getGraph() const { return graph; }
129 
130       void *data;
131 
132    private:
133       Edge *in;
134       Edge *out;
135       Graph *graph;
136 
137       int visited;
138 
139       int16_t inCount;
140       int16_t outCount;
141    public:
142       int tag; // for temporary use
143 
144       friend class Graph;
145    };
146 
147 public:
148    Graph();
149    virtual ~Graph(); // does *not* free the nodes (make it an option ?)
150 
getRoot()151    inline Node *getRoot() const { return root; }
152 
getSize()153    inline unsigned int getSize() const { return size; }
154 
155    inline int nextSequence();
156 
157    void insert(Node *node); // attach to or set as root
158 
159    IteratorRef iteratorDFS(bool preorder = true);
160    IteratorRef iteratorCFG();
161 
162    // safe iterators are unaffected by changes to the *edges* of the graph
163    IteratorRef safeIteratorDFS(bool preorder = true);
164    IteratorRef safeIteratorCFG();
165 
166    void classifyEdges();
167 
168    // @weights: indexed by Node::tag
169    int findLightestPathWeight(Node *, Node *, const std::vector<int>& weights);
170 
171 private:
172    void classifyDFS(Node *, int&);
173 
174 private:
175    Node *root;
176    unsigned int size;
177    int sequence;
178 };
179 
nextSequence()180 int Graph::nextSequence()
181 {
182    return ++sequence;
183 }
184 
parent()185 Graph::Node *Graph::Node::parent() const
186 {
187    if (inCount != 1)
188       return NULL;
189    assert(in);
190    return in->origin;
191 }
192 
visit(int v)193 bool Graph::Node::visit(int v)
194 {
195    if (visited == v)
196       return false;
197    visited = v;
198    return true;
199 }
200 
getSequence()201 int Graph::Node::getSequence() const
202 {
203    return visited;
204 }
205 
outgoing(bool reverse)206 Graph::EdgeIterator Graph::Node::outgoing(bool reverse) const
207 {
208    return EdgeIterator(out, 0, reverse);
209 }
210 
incident(bool reverse)211 Graph::EdgeIterator Graph::Node::incident(bool reverse) const
212 {
213    return EdgeIterator(in, 1, reverse);
214 }
215 
incidentCountFwd()216 int Graph::Node::incidentCountFwd() const
217 {
218    int n = 0;
219    for (EdgeIterator ei = incident(); !ei.end(); ei.next())
220       if (ei.getType() != Edge::BACK)
221          ++n;
222    return n;
223 }
224 
225 } // namespace nv50_ir
226 
227 #endif // __NV50_IR_GRAPH_H__
228