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gerrit.openfyde.cn / swiftshader.googlesource.com / SwiftShader / a35d8232a5276bef4eae7230d0ed71ce89aa23e8 / . / src / OpenGL / compiler / IntermTraverse.cpp
blob: c79e1fcf2bf132d3316104769ad2ffd9911d6929 [file] [log] [blame]
John Bauman89401822014-05-06 15:04:28 -0400[diff] [blame]1//
2// Copyright (c) 2002-2010 The ANGLE Project Authors. All rights reserved.
3// Use of this source code is governed by a BSD-style license that can be
4// found in the LICENSE file.
5//
6
Nicolas Capenscc863da2015-01-21 15:50:55 -0500[diff] [blame]7#include "intermediate.h"
John Bauman89401822014-05-06 15:04:28 -0400[diff] [blame]8
9//
10// Traverse the intermediate representation tree, and
11// call a node type specific function for each node.
12// Done recursively through the member function Traverse().
13// Node types can be skipped if their function to call is 0,
14// but their subtree will still be traversed.
15// Nodes with children can have their whole subtree skipped
16// if preVisit is turned on and the type specific function
17// returns false.
18//
19// preVisit, postVisit, and rightToLeft control what order
20// nodes are visited in.
21//
22
23//
24// Traversal functions for terminals are straighforward....
25//
26void TIntermSymbol::traverse(TIntermTraverser* it)
27{
28 it->visitSymbol(this);
29}
30
31void TIntermConstantUnion::traverse(TIntermTraverser* it)
32{
33 it->visitConstantUnion(this);
34}
35
36//
37// Traverse a binary node.
38//
39void TIntermBinary::traverse(TIntermTraverser* it)
40{
41 bool visit = true;
42
43 //
44 // visit the node before children if pre-visiting.
45 //
46 if(it->preVisit)
47 {
48 visit = it->visitBinary(PreVisit, this);
49 }
50
51 //
52 // Visit the children, in the right order.
53 //
54 if(visit)
55 {
56 it->incrementDepth();
57
58 if(it->rightToLeft)
59 {
60 if(right)
61 {
62 right->traverse(it);
63 }
64
65 if(it->inVisit)
66 {
67 visit = it->visitBinary(InVisit, this);
68 }
69
70 if(visit && left)
71 {
72 left->traverse(it);
73 }
74 }
75 else
76 {
77 if(left)
78 {
79 left->traverse(it);
80 }
81
82 if(it->inVisit)
83 {
84 visit = it->visitBinary(InVisit, this);
85 }
86
87 if(visit && right)
88 {
89 right->traverse(it);
90 }
91 }
92
93 it->decrementDepth();
94 }
95
96 //
97 // Visit the node after the children, if requested and the traversal
98 // hasn't been cancelled yet.
99 //
100 if(visit && it->postVisit)
101 {
102 it->visitBinary(PostVisit, this);
103 }
104}
105
106//
107// Traverse a unary node. Same comments in binary node apply here.
108//
109void TIntermUnary::traverse(TIntermTraverser* it)
110{
111 bool visit = true;
112
113 if (it->preVisit)
114 visit = it->visitUnary(PreVisit, this);
115
116 if (visit) {
117 it->incrementDepth();
118 operand->traverse(it);
119 it->decrementDepth();
120 }
121
122 if (visit && it->postVisit)
123 it->visitUnary(PostVisit, this);
124}
125
126//
127// Traverse an aggregate node. Same comments in binary node apply here.
128//
129void TIntermAggregate::traverse(TIntermTraverser* it)
130{
131 bool visit = true;
132
133 if(it->preVisit)
134 {
135 visit = it->visitAggregate(PreVisit, this);
136 }
137
138 if(visit)
139 {
140 it->incrementDepth();
141
142 if(it->rightToLeft)
143 {
144 for(TIntermSequence::reverse_iterator sit = sequence.rbegin(); sit != sequence.rend(); sit++)
145 {
146 (*sit)->traverse(it);
147
148 if(visit && it->inVisit)
149 {
150 if(*sit != sequence.front())
151 {
152 visit = it->visitAggregate(InVisit, this);
153 }
154 }
155 }
156 }
157 else
158 {
159 for(TIntermSequence::iterator sit = sequence.begin(); sit != sequence.end(); sit++)
160 {
161 (*sit)->traverse(it);
162
163 if(visit && it->inVisit)
164 {
165 if(*sit != sequence.back())
166 {
167 visit = it->visitAggregate(InVisit, this);
168 }
169 }
170 }
171 }
172
173 it->decrementDepth();
174 }
175
176 if(visit && it->postVisit)
177 {
178 it->visitAggregate(PostVisit, this);
179 }
180}
181
182//
183// Traverse a selection node. Same comments in binary node apply here.
184//
185void TIntermSelection::traverse(TIntermTraverser* it)
186{
187 bool visit = true;
188
189 if (it->preVisit)
190 visit = it->visitSelection(PreVisit, this);
191
192 if (visit) {
193 it->incrementDepth();
194 if (it->rightToLeft) {
195 if (falseBlock)
196 falseBlock->traverse(it);
197 if (trueBlock)
198 trueBlock->traverse(it);
199 condition->traverse(it);
200 } else {
201 condition->traverse(it);
202 if (trueBlock)
203 trueBlock->traverse(it);
204 if (falseBlock)
205 falseBlock->traverse(it);
206 }
207 it->decrementDepth();
208 }
209
210 if (visit && it->postVisit)
211 it->visitSelection(PostVisit, this);
212}
213
214//
215// Traverse a loop node. Same comments in binary node apply here.
216//
217void TIntermLoop::traverse(TIntermTraverser* it)
218{
219 bool visit = true;
220
221 if(it->preVisit)
222 {
223 visit = it->visitLoop(PreVisit, this);
224 }
225
226 if(visit)
227 {
228 it->incrementDepth();
229
230 if(it->rightToLeft)
231 {
232 if(expr)
233 {
234 expr->traverse(it);
235 }
236
237 if(body)
238 {
239 body->traverse(it);
240 }
241
242 if(cond)
243 {
244 cond->traverse(it);
245 }
246 }
247 else
248 {
249 if(cond)
250 {
251 cond->traverse(it);
252 }
253
254 if(body)
255 {
256 body->traverse(it);
257 }
258
259 if(expr)
260 {
261 expr->traverse(it);
262 }
263 }
264
265 it->decrementDepth();
266 }
267
268 if(visit && it->postVisit)
269 {
270 it->visitLoop(PostVisit, this);
271 }
272}
273
274//
275// Traverse a branch node. Same comments in binary node apply here.
276//
277void TIntermBranch::traverse(TIntermTraverser* it)
278{
279 bool visit = true;
280
281 if (it->preVisit)
282 visit = it->visitBranch(PreVisit, this);
283
284 if (visit && expression) {
285 it->incrementDepth();
286 expression->traverse(it);
287 it->decrementDepth();
288 }
289
290 if (visit && it->postVisit)
291 it->visitBranch(PostVisit, this);
292}
293