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1/*
2 * Copyright (C) 2011 Apple Inc. All rights reserved.
3 *
4 * Redistribution and use in source and binary forms, with or without
5 * modification, are permitted provided that the following conditions
6 * are met:
7 * 1. Redistributions of source code must retain the above copyright
8 * notice, this list of conditions and the following disclaimer.
9 * 2. Redistributions in binary form must reproduce the above copyright
10 * notice, this list of conditions and the following disclaimer in the
11 * documentation and/or other materials provided with the distribution.
12 *
13 * THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY
14 * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
15 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
16 * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR
17 * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
18 * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
19 * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
20 * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
21 * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
22 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
23 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
24 */
25
26#include "config.h"
27#include "DFGGraph.h"
28
29#include "CodeBlock.h"
30#include <wtf/BoundsCheckedPointer.h>
31
32#if ENABLE(DFG_JIT)
33
34namespace JSC { namespace DFG {
35
36// Creates an array of stringized names.
37static const char* dfgOpNames[] = {
38#define STRINGIZE_DFG_OP_ENUM(opcode, flags) #opcode ,
39 FOR_EACH_DFG_OP(STRINGIZE_DFG_OP_ENUM)
40#undef STRINGIZE_DFG_OP_ENUM
41};
42
43const char *Graph::opName(NodeType op)
44{
45 return dfgOpNames[op];
46}
47
48const char* Graph::nameOfVariableAccessData(VariableAccessData* variableAccessData)
49{
50 // Variables are already numbered. For readability of IR dumps, this returns
51 // an alphabetic name for the variable access data, so that you don't have to
52 // reason about two numbers (variable number and live range number), but instead
53 // a number and a letter.
54
55 unsigned index = std::numeric_limits<unsigned>::max();
56 for (unsigned i = 0; i < m_variableAccessData.size(); ++i) {
57 if (&m_variableAccessData[i] == variableAccessData) {
58 index = i;
59 break;
60 }
61 }
62
63 ASSERT(index != std::numeric_limits<unsigned>::max());
64
65 if (!index)
66 return "A";
67
68 static char buf[10];
69 BoundsCheckedPointer<char> ptr(buf, sizeof(buf));
70
71 while (index) {
72 *ptr++ = 'A' + (index % 26);
73 index /= 26;
74 }
75
76 *ptr++ = 0;
77
78 return buf;
79}
80
81static void printWhiteSpace(unsigned amount)
82{
83 while (amount-- > 0)
84 dataLog(" ");
85}
86
87void Graph::dumpCodeOrigin(NodeIndex prevNodeIndex, NodeIndex nodeIndex)
88{
89 if (prevNodeIndex == NoNode)
90 return;
91
92 Node& currentNode = at(nodeIndex);
93 Node& previousNode = at(prevNodeIndex);
94 if (previousNode.codeOrigin.inlineCallFrame == currentNode.codeOrigin.inlineCallFrame)
95 return;
96
97 Vector<CodeOrigin> previousInlineStack = previousNode.codeOrigin.inlineStack();
98 Vector<CodeOrigin> currentInlineStack = currentNode.codeOrigin.inlineStack();
99 unsigned commonSize = std::min(previousInlineStack.size(), currentInlineStack.size());
100 unsigned indexOfDivergence = commonSize;
101 for (unsigned i = 0; i < commonSize; ++i) {
102 if (previousInlineStack[i].inlineCallFrame != currentInlineStack[i].inlineCallFrame) {
103 indexOfDivergence = i;
104 break;
105 }
106 }
107
108 // Print the pops.
109 for (unsigned i = previousInlineStack.size(); i-- > indexOfDivergence;) {
110 printWhiteSpace(i * 2);
111 dataLog("<-- %p\n", previousInlineStack[i].inlineCallFrame->executable.get());
112 }
113
114 // Print the pushes.
115 for (unsigned i = indexOfDivergence; i < currentInlineStack.size(); ++i) {
116 printWhiteSpace(i * 2);
117 dataLog("--> %p\n", currentInlineStack[i].inlineCallFrame->executable.get());
118 }
119}
120
121void Graph::dump(NodeIndex nodeIndex)
122{
123 Node& node = at(nodeIndex);
124 NodeType op = node.op();
125
126 unsigned refCount = node.refCount();
127 bool skipped = !refCount;
128 bool mustGenerate = node.mustGenerate();
129 if (mustGenerate) {
130 ASSERT(refCount);
131 --refCount;
132 }
133
134 printWhiteSpace((node.codeOrigin.inlineDepth() - 1) * 2);
135
136 // Example/explanation of dataflow dump output
137 //
138 // 14: <!2:7> GetByVal(@3, @13)
139 // ^1 ^2 ^3 ^4 ^5
140 //
141 // (1) The nodeIndex of this operation.
142 // (2) The reference count. The number printed is the 'real' count,
143 // not including the 'mustGenerate' ref. If the node is
144 // 'mustGenerate' then the count it prefixed with '!'.
145 // (3) The virtual register slot assigned to this node.
146 // (4) The name of the operation.
147 // (5) The arguments to the operation. The may be of the form:
148 // @# - a NodeIndex referencing a prior node in the graph.
149 // arg# - an argument number.
150 // $# - the index in the CodeBlock of a constant { for numeric constants the value is displayed | for integers, in both decimal and hex }.
151 // id# - the index in the CodeBlock of an identifier { if codeBlock is passed to dump(), the string representation is displayed }.
152 // var# - the index of a var on the global object, used by GetGlobalVar/PutGlobalVar operations.
153 dataLog("% 4d:%s<%c%u:", (int)nodeIndex, skipped ? " skipped " : " ", mustGenerate ? '!' : ' ', refCount);
154 if (node.hasResult() && !skipped && node.hasVirtualRegister())
155 dataLog("%u", node.virtualRegister());
156 else
157 dataLog("-");
158 dataLog(">\t%s(", opName(op));
159 bool hasPrinted = false;
160 if (node.flags() & NodeHasVarArgs) {
161 for (unsigned childIdx = node.firstChild(); childIdx < node.firstChild() + node.numChildren(); childIdx++) {
162 if (hasPrinted)
163 dataLog(", ");
164 else
165 hasPrinted = true;
166 dataLog("%s@%u%s",
167 useKindToString(m_varArgChildren[childIdx].useKind()),
168 m_varArgChildren[childIdx].index(),
169 predictionToAbbreviatedString(at(childIdx).prediction()));
170 }
171 } else {
172 if (!!node.child1()) {
173 dataLog("%s@%u%s",
174 useKindToString(node.child1().useKind()),
175 node.child1().index(),
176 predictionToAbbreviatedString(at(node.child1()).prediction()));
177 }
178 if (!!node.child2()) {
179 dataLog(", %s@%u%s",
180 useKindToString(node.child2().useKind()),
181 node.child2().index(),
182 predictionToAbbreviatedString(at(node.child2()).prediction()));
183 }
184 if (!!node.child3()) {
185 dataLog(", %s@%u%s",
186 useKindToString(node.child3().useKind()),
187 node.child3().index(),
188 predictionToAbbreviatedString(at(node.child3()).prediction()));
189 }
190 hasPrinted = !!node.child1();
191 }
192
193 if (node.flags()) {
194 dataLog("%s%s", hasPrinted ? ", " : "", nodeFlagsAsString(node.flags()));
195 hasPrinted = true;
196 }
197 if (node.hasVarNumber()) {
198 dataLog("%svar%u", hasPrinted ? ", " : "", node.varNumber());
199 hasPrinted = true;
200 }
201 if (node.hasIdentifier()) {
202 dataLog("%sid%u{%s}", hasPrinted ? ", " : "", node.identifierNumber(), m_codeBlock->identifier(node.identifierNumber()).ustring().utf8().data());
203 hasPrinted = true;
204 }
205 if (node.hasStructureSet()) {
206 for (size_t i = 0; i < node.structureSet().size(); ++i) {
207 dataLog("%sstruct(%p)", hasPrinted ? ", " : "", node.structureSet()[i]);
208 hasPrinted = true;
209 }
210 }
211 if (node.hasStructureTransitionData()) {
212 dataLog("%sstruct(%p -> %p)", hasPrinted ? ", " : "", node.structureTransitionData().previousStructure, node.structureTransitionData().newStructure);
213 hasPrinted = true;
214 }
215 if (node.hasStorageAccessData()) {
216 StorageAccessData& storageAccessData = m_storageAccessData[node.storageAccessDataIndex()];
217 dataLog("%sid%u{%s}", hasPrinted ? ", " : "", storageAccessData.identifierNumber, m_codeBlock->identifier(storageAccessData.identifierNumber).ustring().utf8().data());
218
219 dataLog(", %lu", static_cast<unsigned long>(storageAccessData.offset));
220 hasPrinted = true;
221 }
222 ASSERT(node.hasVariableAccessData() == node.hasLocal());
223 if (node.hasVariableAccessData()) {
224 VariableAccessData* variableAccessData = node.variableAccessData();
225 int operand = variableAccessData->operand();
226 if (operandIsArgument(operand))
227 dataLog("%sarg%u(%s)", hasPrinted ? ", " : "", operandToArgument(operand), nameOfVariableAccessData(variableAccessData));
228 else
229 dataLog("%sr%u(%s)", hasPrinted ? ", " : "", operand, nameOfVariableAccessData(variableAccessData));
230 hasPrinted = true;
231 }
232 if (node.hasConstantBuffer()) {
233 if (hasPrinted)
234 dataLog(", ");
235 dataLog("%u:[", node.startConstant());
236 for (unsigned i = 0; i < node.numConstants(); ++i) {
237 if (i)
238 dataLog(", ");
239 dataLog("%s", m_codeBlock->constantBuffer(node.startConstant())[i].description());
240 }
241 dataLog("]");
242 hasPrinted = true;
243 }
244 if (op == JSConstant) {
245 dataLog("%s$%u", hasPrinted ? ", " : "", node.constantNumber());
246 JSValue value = valueOfJSConstant(nodeIndex);
247 dataLog(" = %s", value.description());
248 hasPrinted = true;
249 }
250 if (op == WeakJSConstant) {
251 dataLog("%s%p", hasPrinted ? ", " : "", node.weakConstant());
252 hasPrinted = true;
253 }
254 if (node.isBranch() || node.isJump()) {
255 dataLog("%sT:#%u", hasPrinted ? ", " : "", node.takenBlockIndex());
256 hasPrinted = true;
257 }
258 if (node.isBranch()) {
259 dataLog("%sF:#%u", hasPrinted ? ", " : "", node.notTakenBlockIndex());
260 hasPrinted = true;
261 }
262 (void)hasPrinted;
263
264 dataLog(")");
265
266 if (!skipped) {
267 if (node.hasVariableAccessData())
268 dataLog(" predicting %s, double ratio %lf%s", predictionToString(node.variableAccessData()->prediction()), node.variableAccessData()->doubleVoteRatio(), node.variableAccessData()->shouldUseDoubleFormat() ? ", forcing double" : "");
269 else if (node.hasHeapPrediction())
270 dataLog(" predicting %s", predictionToString(node.getHeapPrediction()));
271 }
272
273 dataLog("\n");
274}
275
276void Graph::dump()
277{
278 NodeIndex lastNodeIndex = NoNode;
279 for (size_t b = 0; b < m_blocks.size(); ++b) {
280 BasicBlock* block = m_blocks[b].get();
281 dataLog("Block #%u (bc#%u): %s%s\n", (int)b, block->bytecodeBegin, block->isReachable ? "" : " (skipped)", block->isOSRTarget ? " (OSR target)" : "");
282 dataLog(" Phi Nodes:\n");
283 for (size_t i = 0; i < block->phis.size(); ++i) {
284 // Dumping the dead Phi nodes is just annoying!
285 if (at(block->phis[i]).refCount())
286 dump(block->phis[i]);
287 }
288 dataLog(" vars before: ");
289 if (block->cfaHasVisited)
290 dumpOperands(block->valuesAtHead, WTF::dataFile());
291 else
292 dataLog("<empty>");
293 dataLog("\n");
294 dataLog(" var links: ");
295 dumpOperands(block->variablesAtHead, WTF::dataFile());
296 dataLog("\n");
297 for (size_t i = 0; i < block->size(); ++i) {
298 dumpCodeOrigin(lastNodeIndex, block->at(i));
299 dump(block->at(i));
300 lastNodeIndex = block->at(i);
301 }
302 dataLog(" vars after: ");
303 if (block->cfaHasVisited)
304 dumpOperands(block->valuesAtTail, WTF::dataFile());
305 else
306 dataLog("<empty>");
307 dataLog("\n");
308 }
309}
310
311// FIXME: Convert this to be iterative, not recursive.
312#define DO_TO_CHILDREN(node, thingToDo) do { \
313 Node& _node = (node); \
314 if (_node.flags() & NodeHasVarArgs) { \
315 for (unsigned _childIdx = _node.firstChild(); \
316 _childIdx < _node.firstChild() + _node.numChildren(); \
317 _childIdx++) \
318 thingToDo(m_varArgChildren[_childIdx]); \
319 } else { \
320 if (!_node.child1()) { \
321 ASSERT(!_node.child2() \
322 && !_node.child3()); \
323 break; \
324 } \
325 thingToDo(_node.child1()); \
326 \
327 if (!_node.child2()) { \
328 ASSERT(!_node.child3()); \
329 break; \
330 } \
331 thingToDo(_node.child2()); \
332 \
333 if (!_node.child3()) \
334 break; \
335 thingToDo(_node.child3()); \
336 } \
337 } while (false)
338
339void Graph::refChildren(NodeIndex op)
340{
341 DO_TO_CHILDREN(at(op), ref);
342}
343
344void Graph::derefChildren(NodeIndex op)
345{
346 DO_TO_CHILDREN(at(op), deref);
347}
348
349void Graph::predictArgumentTypes()
350{
351 ASSERT(m_codeBlock->numParameters() >= 1);
352 for (size_t arg = 0; arg < static_cast<size_t>(m_codeBlock->numParameters()); ++arg) {
353 ValueProfile* profile = m_profiledBlock->valueProfileForArgument(arg);
354 if (!profile)
355 continue;
356
357 at(m_arguments[arg]).variableAccessData()->predict(profile->computeUpdatedPrediction());
358
359#if DFG_ENABLE(DEBUG_VERBOSE)
360 dataLog("Argument [%zu] prediction: %s\n", arg, predictionToString(at(m_arguments[arg]).variableAccessData()->prediction()));
361#endif
362 }
363}
364
365} } // namespace JSC::DFG
366
367#endif