Mercurial > hg > truffle
annotate src/share/vm/opto/gcm.cpp @ 15152:5f75a06505a6
Fix formatting
author | Gilles Duboscq <duboscq@ssw.jku.at> |
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date | Tue, 15 Apr 2014 13:40:43 +0200 |
parents | 4ca6dc0799b6 |
children | 89152779163c |
rev | line source |
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0 | 1 /* |
14909 | 2 * Copyright (c) 1997, 2012, Oracle and/or its affiliates. All rights reserved. |
0 | 3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. |
4 * | |
5 * This code is free software; you can redistribute it and/or modify it | |
6 * under the terms of the GNU General Public License version 2 only, as | |
7 * published by the Free Software Foundation. | |
8 * | |
9 * This code is distributed in the hope that it will be useful, but WITHOUT | |
10 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or | |
11 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License | |
12 * version 2 for more details (a copy is included in the LICENSE file that | |
13 * accompanied this code). | |
14 * | |
15 * You should have received a copy of the GNU General Public License version | |
16 * 2 along with this work; if not, write to the Free Software Foundation, | |
17 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. | |
18 * | |
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19 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA |
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20 * or visit www.oracle.com if you need additional information or have any |
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21 * questions. |
0 | 22 * |
23 */ | |
24 | |
1972 | 25 #include "precompiled.hpp" |
26 #include "libadt/vectset.hpp" | |
27 #include "memory/allocation.inline.hpp" | |
28 #include "opto/block.hpp" | |
29 #include "opto/c2compiler.hpp" | |
30 #include "opto/callnode.hpp" | |
31 #include "opto/cfgnode.hpp" | |
32 #include "opto/machnode.hpp" | |
33 #include "opto/opcodes.hpp" | |
34 #include "opto/phaseX.hpp" | |
35 #include "opto/rootnode.hpp" | |
36 #include "opto/runtime.hpp" | |
37 #include "runtime/deoptimization.hpp" | |
38 #ifdef TARGET_ARCH_MODEL_x86_32 | |
39 # include "adfiles/ad_x86_32.hpp" | |
40 #endif | |
41 #ifdef TARGET_ARCH_MODEL_x86_64 | |
42 # include "adfiles/ad_x86_64.hpp" | |
43 #endif | |
44 #ifdef TARGET_ARCH_MODEL_sparc | |
45 # include "adfiles/ad_sparc.hpp" | |
46 #endif | |
47 #ifdef TARGET_ARCH_MODEL_zero | |
48 # include "adfiles/ad_zero.hpp" | |
49 #endif | |
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50 #ifdef TARGET_ARCH_MODEL_arm |
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51 # include "adfiles/ad_arm.hpp" |
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52 #endif |
14909 | 53 #ifdef TARGET_ARCH_MODEL_ppc |
54 # include "adfiles/ad_ppc.hpp" | |
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55 #endif |
1972 | 56 |
0 | 57 // Portions of code courtesy of Clifford Click |
58 | |
59 // Optimization - Graph Style | |
60 | |
552
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61 // To avoid float value underflow |
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62 #define MIN_BLOCK_FREQUENCY 1.e-35f |
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63 |
0 | 64 //----------------------------schedule_node_into_block------------------------- |
65 // Insert node n into block b. Look for projections of n and make sure they | |
66 // are in b also. | |
67 void PhaseCFG::schedule_node_into_block( Node *n, Block *b ) { | |
68 // Set basic block of n, Add n to b, | |
12023 | 69 map_node_to_block(n, b); |
0 | 70 b->add_inst(n); |
71 | |
72 // After Matching, nearly any old Node may have projections trailing it. | |
73 // These are usually machine-dependent flags. In any case, they might | |
74 // float to another block below this one. Move them up. | |
75 for (DUIterator_Fast imax, i = n->fast_outs(imax); i < imax; i++) { | |
76 Node* use = n->fast_out(i); | |
77 if (use->is_Proj()) { | |
12023 | 78 Block* buse = get_block_for_node(use); |
0 | 79 if (buse != b) { // In wrong block? |
12023 | 80 if (buse != NULL) { |
0 | 81 buse->find_remove(use); // Remove from wrong block |
12023 | 82 } |
83 map_node_to_block(use, b); | |
0 | 84 b->add_inst(use); |
85 } | |
86 } | |
87 } | |
88 } | |
89 | |
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90 //----------------------------replace_block_proj_ctrl------------------------- |
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91 // Nodes that have is_block_proj() nodes as their control need to use |
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92 // the appropriate Region for their actual block as their control since |
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93 // the projection will be in a predecessor block. |
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94 void PhaseCFG::replace_block_proj_ctrl( Node *n ) { |
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95 const Node *in0 = n->in(0); |
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96 assert(in0 != NULL, "Only control-dependent"); |
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97 const Node *p = in0->is_block_proj(); |
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98 if (p != NULL && p != n) { // Control from a block projection? |
4115 | 99 assert(!n->pinned() || n->is_MachConstantBase(), "only pinned MachConstantBase node is expected here"); |
601
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100 // Find trailing Region |
12023 | 101 Block *pb = get_block_for_node(in0); // Block-projection already has basic block |
601
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102 uint j = 0; |
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103 if (pb->_num_succs != 1) { // More then 1 successor? |
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104 // Search for successor |
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105 uint max = pb->number_of_nodes(); |
601
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106 assert( max > 1, "" ); |
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107 uint start = max - pb->_num_succs; |
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108 // Find which output path belongs to projection |
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109 for (j = start; j < max; j++) { |
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110 if( pb->get_node(j) == in0 ) |
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111 break; |
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112 } |
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113 assert( j < max, "must find" ); |
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114 // Change control to match head of successor basic block |
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115 j -= start; |
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116 } |
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117 n->set_req(0, pb->_succs[j]->head()); |
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118 } |
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119 } |
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120 |
0 | 121 |
122 //------------------------------schedule_pinned_nodes-------------------------- | |
123 // Set the basic block for Nodes pinned into blocks | |
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124 void PhaseCFG::schedule_pinned_nodes(VectorSet &visited) { |
0 | 125 // Allocate node stack of size C->unique()+8 to avoid frequent realloc |
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126 GrowableArray <Node *> spstack(C->unique() + 8); |
0 | 127 spstack.push(_root); |
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128 while (spstack.is_nonempty()) { |
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129 Node* node = spstack.pop(); |
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130 if (!visited.test_set(node->_idx)) { // Test node and flag it as visited |
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131 if (node->pinned() && !has_block(node)) { // Pinned? Nail it down! |
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132 assert(node->in(0), "pinned Node must have Control"); |
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133 // Before setting block replace block_proj control edge |
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134 replace_block_proj_ctrl(node); |
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135 Node* input = node->in(0); |
12023 | 136 while (!input->is_block_start()) { |
0 | 137 input = input->in(0); |
12023 | 138 } |
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139 Block* block = get_block_for_node(input); // Basic block of controlling input |
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140 schedule_node_into_block(node, block); |
0 | 141 } |
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142 |
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143 // process all inputs that are non NULL |
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144 for (int i = node->req() - 1; i >= 0; --i) { |
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145 if (node->in(i) != NULL) { |
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146 spstack.push(node->in(i)); |
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147 } |
0 | 148 } |
149 } | |
150 } | |
151 } | |
152 | |
153 #ifdef ASSERT | |
154 // Assert that new input b2 is dominated by all previous inputs. | |
155 // Check this by by seeing that it is dominated by b1, the deepest | |
156 // input observed until b2. | |
12023 | 157 static void assert_dom(Block* b1, Block* b2, Node* n, const PhaseCFG* cfg) { |
0 | 158 if (b1 == NULL) return; |
159 assert(b1->_dom_depth < b2->_dom_depth, "sanity"); | |
160 Block* tmp = b2; | |
161 while (tmp != b1 && tmp != NULL) { | |
162 tmp = tmp->_idom; | |
163 } | |
164 if (tmp != b1) { | |
165 // Detected an unschedulable graph. Print some nice stuff and die. | |
166 tty->print_cr("!!! Unschedulable graph !!!"); | |
167 for (uint j=0; j<n->len(); j++) { // For all inputs | |
168 Node* inn = n->in(j); // Get input | |
169 if (inn == NULL) continue; // Ignore NULL, missing inputs | |
12023 | 170 Block* inb = cfg->get_block_for_node(inn); |
0 | 171 tty->print("B%d idom=B%d depth=%2d ",inb->_pre_order, |
172 inb->_idom ? inb->_idom->_pre_order : 0, inb->_dom_depth); | |
173 inn->dump(); | |
174 } | |
175 tty->print("Failing node: "); | |
176 n->dump(); | |
177 assert(false, "unscheduable graph"); | |
178 } | |
179 } | |
180 #endif | |
181 | |
12023 | 182 static Block* find_deepest_input(Node* n, const PhaseCFG* cfg) { |
0 | 183 // Find the last input dominated by all other inputs. |
184 Block* deepb = NULL; // Deepest block so far | |
185 int deepb_dom_depth = 0; | |
186 for (uint k = 0; k < n->len(); k++) { // For all inputs | |
187 Node* inn = n->in(k); // Get input | |
188 if (inn == NULL) continue; // Ignore NULL, missing inputs | |
12023 | 189 Block* inb = cfg->get_block_for_node(inn); |
0 | 190 assert(inb != NULL, "must already have scheduled this input"); |
191 if (deepb_dom_depth < (int) inb->_dom_depth) { | |
192 // The new inb must be dominated by the previous deepb. | |
193 // The various inputs must be linearly ordered in the dom | |
194 // tree, or else there will not be a unique deepest block. | |
12023 | 195 DEBUG_ONLY(assert_dom(deepb, inb, n, cfg)); |
0 | 196 deepb = inb; // Save deepest block |
197 deepb_dom_depth = deepb->_dom_depth; | |
198 } | |
199 } | |
200 assert(deepb != NULL, "must be at least one input to n"); | |
201 return deepb; | |
202 } | |
203 | |
204 | |
205 //------------------------------schedule_early--------------------------------- | |
206 // Find the earliest Block any instruction can be placed in. Some instructions | |
207 // are pinned into Blocks. Unpinned instructions can appear in last block in | |
208 // which all their inputs occur. | |
209 bool PhaseCFG::schedule_early(VectorSet &visited, Node_List &roots) { | |
210 // Allocate stack with enough space to avoid frequent realloc | |
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211 Node_Stack nstack(roots.Size() + 8); |
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212 // _root will be processed among C->top() inputs |
0 | 213 roots.push(C->top()); |
214 visited.set(C->top()->_idx); | |
215 | |
216 while (roots.size() != 0) { | |
217 // Use local variables nstack_top_n & nstack_top_i to cache values | |
218 // on stack's top. | |
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219 Node* parent_node = roots.pop(); |
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220 uint input_index = 0; |
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221 |
0 | 222 while (true) { |
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223 if (input_index == 0) { |
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224 // Fixup some control. Constants without control get attached |
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225 // to root and nodes that use is_block_proj() nodes should be attached |
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226 // to the region that starts their block. |
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227 const Node* control_input = parent_node->in(0); |
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228 if (control_input != NULL) { |
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229 replace_block_proj_ctrl(parent_node); |
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230 } else { |
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231 // Is a constant with NO inputs? |
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232 if (parent_node->req() == 1) { |
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233 parent_node->set_req(0, _root); |
0 | 234 } |
235 } | |
236 } | |
237 | |
238 // First, visit all inputs and force them to get a block. If an | |
239 // input is already in a block we quit following inputs (to avoid | |
240 // cycles). Instead we put that Node on a worklist to be handled | |
241 // later (since IT'S inputs may not have a block yet). | |
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242 |
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243 // Assume all n's inputs will be processed |
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244 bool done = true; |
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245 |
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246 while (input_index < parent_node->len()) { |
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247 Node* in = parent_node->in(input_index++); |
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248 if (in == NULL) { |
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249 continue; |
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250 } |
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251 |
0 | 252 int is_visited = visited.test_set(in->_idx); |
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253 if (!has_block(in)) { |
0 | 254 if (is_visited) { |
255 return false; | |
256 } | |
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257 // Save parent node and next input's index. |
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258 nstack.push(parent_node, input_index); |
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259 // Process current input now. |
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260 parent_node = in; |
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261 input_index = 0; |
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262 // Not all n's inputs processed. |
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263 done = false; |
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264 break; |
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265 } else if (!is_visited) { |
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266 // Visit this guy later, using worklist |
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267 roots.push(in); |
0 | 268 } |
269 } | |
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270 |
0 | 271 if (done) { |
272 // All of n's inputs have been processed, complete post-processing. | |
273 | |
274 // Some instructions are pinned into a block. These include Region, | |
275 // Phi, Start, Return, and other control-dependent instructions and | |
276 // any projections which depend on them. | |
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277 if (!parent_node->pinned()) { |
0 | 278 // Set earliest legal block. |
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279 Block* earliest_block = find_deepest_input(parent_node, this); |
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280 map_node_to_block(parent_node, earliest_block); |
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281 } else { |
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282 assert(get_block_for_node(parent_node) == get_block_for_node(parent_node->in(0)), "Pinned Node should be at the same block as its control edge"); |
0 | 283 } |
284 | |
285 if (nstack.is_empty()) { | |
286 // Finished all nodes on stack. | |
287 // Process next node on the worklist 'roots'. | |
288 break; | |
289 } | |
290 // Get saved parent node and next input's index. | |
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291 parent_node = nstack.node(); |
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292 input_index = nstack.index(); |
0 | 293 nstack.pop(); |
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294 } |
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295 } |
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296 } |
0 | 297 return true; |
298 } | |
299 | |
300 //------------------------------dom_lca---------------------------------------- | |
301 // Find least common ancestor in dominator tree | |
302 // LCA is a current notion of LCA, to be raised above 'this'. | |
303 // As a convenient boundary condition, return 'this' if LCA is NULL. | |
304 // Find the LCA of those two nodes. | |
305 Block* Block::dom_lca(Block* LCA) { | |
306 if (LCA == NULL || LCA == this) return this; | |
307 | |
308 Block* anc = this; | |
309 while (anc->_dom_depth > LCA->_dom_depth) | |
310 anc = anc->_idom; // Walk up till anc is as high as LCA | |
311 | |
312 while (LCA->_dom_depth > anc->_dom_depth) | |
313 LCA = LCA->_idom; // Walk up till LCA is as high as anc | |
314 | |
315 while (LCA != anc) { // Walk both up till they are the same | |
316 LCA = LCA->_idom; | |
317 anc = anc->_idom; | |
318 } | |
319 | |
320 return LCA; | |
321 } | |
322 | |
323 //--------------------------raise_LCA_above_use-------------------------------- | |
324 // We are placing a definition, and have been given a def->use edge. | |
325 // The definition must dominate the use, so move the LCA upward in the | |
326 // dominator tree to dominate the use. If the use is a phi, adjust | |
327 // the LCA only with the phi input paths which actually use this def. | |
12023 | 328 static Block* raise_LCA_above_use(Block* LCA, Node* use, Node* def, const PhaseCFG* cfg) { |
329 Block* buse = cfg->get_block_for_node(use); | |
0 | 330 if (buse == NULL) return LCA; // Unused killing Projs have no use block |
331 if (!use->is_Phi()) return buse->dom_lca(LCA); | |
332 uint pmax = use->req(); // Number of Phi inputs | |
333 // Why does not this loop just break after finding the matching input to | |
334 // the Phi? Well...it's like this. I do not have true def-use/use-def | |
335 // chains. Means I cannot distinguish, from the def-use direction, which | |
336 // of many use-defs lead from the same use to the same def. That is, this | |
337 // Phi might have several uses of the same def. Each use appears in a | |
338 // different predecessor block. But when I enter here, I cannot distinguish | |
339 // which use-def edge I should find the predecessor block for. So I find | |
340 // them all. Means I do a little extra work if a Phi uses the same value | |
341 // more than once. | |
342 for (uint j=1; j<pmax; j++) { // For all inputs | |
343 if (use->in(j) == def) { // Found matching input? | |
12023 | 344 Block* pred = cfg->get_block_for_node(buse->pred(j)); |
0 | 345 LCA = pred->dom_lca(LCA); |
346 } | |
347 } | |
348 return LCA; | |
349 } | |
350 | |
351 //----------------------------raise_LCA_above_marks---------------------------- | |
352 // Return a new LCA that dominates LCA and any of its marked predecessors. | |
353 // Search all my parents up to 'early' (exclusive), looking for predecessors | |
354 // which are marked with the given index. Return the LCA (in the dom tree) | |
355 // of all marked blocks. If there are none marked, return the original | |
356 // LCA. | |
12023 | 357 static Block* raise_LCA_above_marks(Block* LCA, node_idx_t mark, Block* early, const PhaseCFG* cfg) { |
0 | 358 Block_List worklist; |
359 worklist.push(LCA); | |
360 while (worklist.size() > 0) { | |
361 Block* mid = worklist.pop(); | |
362 if (mid == early) continue; // stop searching here | |
363 | |
364 // Test and set the visited bit. | |
365 if (mid->raise_LCA_visited() == mark) continue; // already visited | |
366 | |
367 // Don't process the current LCA, otherwise the search may terminate early | |
368 if (mid != LCA && mid->raise_LCA_mark() == mark) { | |
369 // Raise the LCA. | |
370 LCA = mid->dom_lca(LCA); | |
371 if (LCA == early) break; // stop searching everywhere | |
372 assert(early->dominates(LCA), "early is high enough"); | |
373 // Resume searching at that point, skipping intermediate levels. | |
374 worklist.push(LCA); | |
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375 if (LCA == mid) |
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376 continue; // Don't mark as visited to avoid early termination. |
0 | 377 } else { |
378 // Keep searching through this block's predecessors. | |
379 for (uint j = 1, jmax = mid->num_preds(); j < jmax; j++) { | |
12023 | 380 Block* mid_parent = cfg->get_block_for_node(mid->pred(j)); |
0 | 381 worklist.push(mid_parent); |
382 } | |
383 } | |
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384 mid->set_raise_LCA_visited(mark); |
0 | 385 } |
386 return LCA; | |
387 } | |
388 | |
389 //--------------------------memory_early_block-------------------------------- | |
390 // This is a variation of find_deepest_input, the heart of schedule_early. | |
391 // Find the "early" block for a load, if we considered only memory and | |
392 // address inputs, that is, if other data inputs were ignored. | |
393 // | |
394 // Because a subset of edges are considered, the resulting block will | |
395 // be earlier (at a shallower dom_depth) than the true schedule_early | |
396 // point of the node. We compute this earlier block as a more permissive | |
397 // site for anti-dependency insertion, but only if subsume_loads is enabled. | |
12023 | 398 static Block* memory_early_block(Node* load, Block* early, const PhaseCFG* cfg) { |
0 | 399 Node* base; |
400 Node* index; | |
401 Node* store = load->in(MemNode::Memory); | |
402 load->as_Mach()->memory_inputs(base, index); | |
403 | |
404 assert(base != NodeSentinel && index != NodeSentinel, | |
405 "unexpected base/index inputs"); | |
406 | |
407 Node* mem_inputs[4]; | |
408 int mem_inputs_length = 0; | |
409 if (base != NULL) mem_inputs[mem_inputs_length++] = base; | |
410 if (index != NULL) mem_inputs[mem_inputs_length++] = index; | |
411 if (store != NULL) mem_inputs[mem_inputs_length++] = store; | |
412 | |
413 // In the comparision below, add one to account for the control input, | |
414 // which may be null, but always takes up a spot in the in array. | |
415 if (mem_inputs_length + 1 < (int) load->req()) { | |
416 // This "load" has more inputs than just the memory, base and index inputs. | |
417 // For purposes of checking anti-dependences, we need to start | |
418 // from the early block of only the address portion of the instruction, | |
419 // and ignore other blocks that may have factored into the wider | |
420 // schedule_early calculation. | |
421 if (load->in(0) != NULL) mem_inputs[mem_inputs_length++] = load->in(0); | |
422 | |
423 Block* deepb = NULL; // Deepest block so far | |
424 int deepb_dom_depth = 0; | |
425 for (int i = 0; i < mem_inputs_length; i++) { | |
12023 | 426 Block* inb = cfg->get_block_for_node(mem_inputs[i]); |
0 | 427 if (deepb_dom_depth < (int) inb->_dom_depth) { |
428 // The new inb must be dominated by the previous deepb. | |
429 // The various inputs must be linearly ordered in the dom | |
430 // tree, or else there will not be a unique deepest block. | |
12023 | 431 DEBUG_ONLY(assert_dom(deepb, inb, load, cfg)); |
0 | 432 deepb = inb; // Save deepest block |
433 deepb_dom_depth = deepb->_dom_depth; | |
434 } | |
435 } | |
436 early = deepb; | |
437 } | |
438 | |
439 return early; | |
440 } | |
441 | |
442 //--------------------------insert_anti_dependences--------------------------- | |
443 // A load may need to witness memory that nearby stores can overwrite. | |
444 // For each nearby store, either insert an "anti-dependence" edge | |
445 // from the load to the store, or else move LCA upward to force the | |
446 // load to (eventually) be scheduled in a block above the store. | |
447 // | |
448 // Do not add edges to stores on distinct control-flow paths; | |
449 // only add edges to stores which might interfere. | |
450 // | |
451 // Return the (updated) LCA. There will not be any possibly interfering | |
452 // store between the load's "early block" and the updated LCA. | |
453 // Any stores in the updated LCA will have new precedence edges | |
454 // back to the load. The caller is expected to schedule the load | |
455 // in the LCA, in which case the precedence edges will make LCM | |
456 // preserve anti-dependences. The caller may also hoist the load | |
457 // above the LCA, if it is not the early block. | |
458 Block* PhaseCFG::insert_anti_dependences(Block* LCA, Node* load, bool verify) { | |
459 assert(load->needs_anti_dependence_check(), "must be a load of some sort"); | |
460 assert(LCA != NULL, ""); | |
461 DEBUG_ONLY(Block* LCA_orig = LCA); | |
462 | |
463 // Compute the alias index. Loads and stores with different alias indices | |
464 // do not need anti-dependence edges. | |
465 uint load_alias_idx = C->get_alias_index(load->adr_type()); | |
466 #ifdef ASSERT | |
467 if (load_alias_idx == Compile::AliasIdxBot && C->AliasLevel() > 0 && | |
468 (PrintOpto || VerifyAliases || | |
469 PrintMiscellaneous && (WizardMode || Verbose))) { | |
470 // Load nodes should not consume all of memory. | |
471 // Reporting a bottom type indicates a bug in adlc. | |
472 // If some particular type of node validly consumes all of memory, | |
473 // sharpen the preceding "if" to exclude it, so we can catch bugs here. | |
474 tty->print_cr("*** Possible Anti-Dependence Bug: Load consumes all of memory."); | |
475 load->dump(2); | |
476 if (VerifyAliases) assert(load_alias_idx != Compile::AliasIdxBot, ""); | |
477 } | |
478 #endif | |
479 assert(load_alias_idx || (load->is_Mach() && load->as_Mach()->ideal_Opcode() == Op_StrComp), | |
480 "String compare is only known 'load' that does not conflict with any stores"); | |
681 | 481 assert(load_alias_idx || (load->is_Mach() && load->as_Mach()->ideal_Opcode() == Op_StrEquals), |
482 "String equals is a 'load' that does not conflict with any stores"); | |
483 assert(load_alias_idx || (load->is_Mach() && load->as_Mach()->ideal_Opcode() == Op_StrIndexOf), | |
484 "String indexOf is a 'load' that does not conflict with any stores"); | |
485 assert(load_alias_idx || (load->is_Mach() && load->as_Mach()->ideal_Opcode() == Op_AryEq), | |
486 "Arrays equals is a 'load' that do not conflict with any stores"); | |
0 | 487 |
488 if (!C->alias_type(load_alias_idx)->is_rewritable()) { | |
489 // It is impossible to spoil this load by putting stores before it, | |
490 // because we know that the stores will never update the value | |
491 // which 'load' must witness. | |
492 return LCA; | |
493 } | |
494 | |
495 node_idx_t load_index = load->_idx; | |
496 | |
497 // Note the earliest legal placement of 'load', as determined by | |
498 // by the unique point in the dom tree where all memory effects | |
499 // and other inputs are first available. (Computed by schedule_early.) | |
500 // For normal loads, 'early' is the shallowest place (dom graph wise) | |
501 // to look for anti-deps between this load and any store. | |
12023 | 502 Block* early = get_block_for_node(load); |
0 | 503 |
504 // If we are subsuming loads, compute an "early" block that only considers | |
505 // memory or address inputs. This block may be different than the | |
506 // schedule_early block in that it could be at an even shallower depth in the | |
507 // dominator tree, and allow for a broader discovery of anti-dependences. | |
508 if (C->subsume_loads()) { | |
12023 | 509 early = memory_early_block(load, early, this); |
0 | 510 } |
511 | |
512 ResourceArea *area = Thread::current()->resource_area(); | |
513 Node_List worklist_mem(area); // prior memory state to store | |
514 Node_List worklist_store(area); // possible-def to explore | |
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515 Node_List worklist_visited(area); // visited mergemem nodes |
0 | 516 Node_List non_early_stores(area); // all relevant stores outside of early |
517 bool must_raise_LCA = false; | |
518 | |
519 #ifdef TRACK_PHI_INPUTS | |
520 // %%% This extra checking fails because MergeMem nodes are not GVNed. | |
521 // Provide "phi_inputs" to check if every input to a PhiNode is from the | |
522 // original memory state. This indicates a PhiNode for which should not | |
523 // prevent the load from sinking. For such a block, set_raise_LCA_mark | |
524 // may be overly conservative. | |
525 // Mechanism: count inputs seen for each Phi encountered in worklist_store. | |
526 DEBUG_ONLY(GrowableArray<uint> phi_inputs(area, C->unique(),0,0)); | |
527 #endif | |
528 | |
529 // 'load' uses some memory state; look for users of the same state. | |
530 // Recurse through MergeMem nodes to the stores that use them. | |
531 | |
532 // Each of these stores is a possible definition of memory | |
533 // that 'load' needs to use. We need to force 'load' | |
534 // to occur before each such store. When the store is in | |
535 // the same block as 'load', we insert an anti-dependence | |
536 // edge load->store. | |
537 | |
538 // The relevant stores "nearby" the load consist of a tree rooted | |
539 // at initial_mem, with internal nodes of type MergeMem. | |
540 // Therefore, the branches visited by the worklist are of this form: | |
541 // initial_mem -> (MergeMem ->)* store | |
542 // The anti-dependence constraints apply only to the fringe of this tree. | |
543 | |
544 Node* initial_mem = load->in(MemNode::Memory); | |
545 worklist_store.push(initial_mem); | |
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546 worklist_visited.push(initial_mem); |
0 | 547 worklist_mem.push(NULL); |
548 while (worklist_store.size() > 0) { | |
549 // Examine a nearby store to see if it might interfere with our load. | |
550 Node* mem = worklist_mem.pop(); | |
551 Node* store = worklist_store.pop(); | |
552 uint op = store->Opcode(); | |
553 | |
554 // MergeMems do not directly have anti-deps. | |
555 // Treat them as internal nodes in a forward tree of memory states, | |
556 // the leaves of which are each a 'possible-def'. | |
557 if (store == initial_mem // root (exclusive) of tree we are searching | |
558 || op == Op_MergeMem // internal node of tree we are searching | |
559 ) { | |
560 mem = store; // It's not a possibly interfering store. | |
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561 if (store == initial_mem) |
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562 initial_mem = NULL; // only process initial memory once |
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563 |
0 | 564 for (DUIterator_Fast imax, i = mem->fast_outs(imax); i < imax; i++) { |
565 store = mem->fast_out(i); | |
566 if (store->is_MergeMem()) { | |
567 // Be sure we don't get into combinatorial problems. | |
568 // (Allow phis to be repeated; they can merge two relevant states.) | |
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569 uint j = worklist_visited.size(); |
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570 for (; j > 0; j--) { |
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571 if (worklist_visited.at(j-1) == store) break; |
0 | 572 } |
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573 if (j > 0) continue; // already on work list; do not repeat |
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574 worklist_visited.push(store); |
0 | 575 } |
576 worklist_mem.push(mem); | |
577 worklist_store.push(store); | |
578 } | |
579 continue; | |
580 } | |
581 | |
582 if (op == Op_MachProj || op == Op_Catch) continue; | |
583 if (store->needs_anti_dependence_check()) continue; // not really a store | |
584 | |
585 // Compute the alias index. Loads and stores with different alias | |
586 // indices do not need anti-dependence edges. Wide MemBar's are | |
587 // anti-dependent on everything (except immutable memories). | |
588 const TypePtr* adr_type = store->adr_type(); | |
589 if (!C->can_alias(adr_type, load_alias_idx)) continue; | |
590 | |
591 // Most slow-path runtime calls do NOT modify Java memory, but | |
592 // they can block and so write Raw memory. | |
593 if (store->is_Mach()) { | |
594 MachNode* mstore = store->as_Mach(); | |
595 if (load_alias_idx != Compile::AliasIdxRaw) { | |
596 // Check for call into the runtime using the Java calling | |
597 // convention (and from there into a wrapper); it has no | |
598 // _method. Can't do this optimization for Native calls because | |
599 // they CAN write to Java memory. | |
600 if (mstore->ideal_Opcode() == Op_CallStaticJava) { | |
601 assert(mstore->is_MachSafePoint(), ""); | |
602 MachSafePointNode* ms = (MachSafePointNode*) mstore; | |
603 assert(ms->is_MachCallJava(), ""); | |
604 MachCallJavaNode* mcj = (MachCallJavaNode*) ms; | |
605 if (mcj->_method == NULL) { | |
606 // These runtime calls do not write to Java visible memory | |
607 // (other than Raw) and so do not require anti-dependence edges. | |
608 continue; | |
609 } | |
610 } | |
611 // Same for SafePoints: they read/write Raw but only read otherwise. | |
612 // This is basically a workaround for SafePoints only defining control | |
613 // instead of control + memory. | |
614 if (mstore->ideal_Opcode() == Op_SafePoint) | |
615 continue; | |
616 } else { | |
617 // Some raw memory, such as the load of "top" at an allocation, | |
618 // can be control dependent on the previous safepoint. See | |
619 // comments in GraphKit::allocate_heap() about control input. | |
620 // Inserting an anti-dep between such a safepoint and a use | |
621 // creates a cycle, and will cause a subsequent failure in | |
622 // local scheduling. (BugId 4919904) | |
623 // (%%% How can a control input be a safepoint and not a projection??) | |
624 if (mstore->ideal_Opcode() == Op_SafePoint && load->in(0) == mstore) | |
625 continue; | |
626 } | |
627 } | |
628 | |
629 // Identify a block that the current load must be above, | |
630 // or else observe that 'store' is all the way up in the | |
631 // earliest legal block for 'load'. In the latter case, | |
632 // immediately insert an anti-dependence edge. | |
12023 | 633 Block* store_block = get_block_for_node(store); |
0 | 634 assert(store_block != NULL, "unused killing projections skipped above"); |
635 | |
636 if (store->is_Phi()) { | |
637 // 'load' uses memory which is one (or more) of the Phi's inputs. | |
638 // It must be scheduled not before the Phi, but rather before | |
639 // each of the relevant Phi inputs. | |
640 // | |
641 // Instead of finding the LCA of all inputs to a Phi that match 'mem', | |
642 // we mark each corresponding predecessor block and do a combined | |
643 // hoisting operation later (raise_LCA_above_marks). | |
644 // | |
645 // Do not assert(store_block != early, "Phi merging memory after access") | |
646 // PhiNode may be at start of block 'early' with backedge to 'early' | |
647 DEBUG_ONLY(bool found_match = false); | |
648 for (uint j = PhiNode::Input, jmax = store->req(); j < jmax; j++) { | |
649 if (store->in(j) == mem) { // Found matching input? | |
650 DEBUG_ONLY(found_match = true); | |
12023 | 651 Block* pred_block = get_block_for_node(store_block->pred(j)); |
0 | 652 if (pred_block != early) { |
653 // If any predecessor of the Phi matches the load's "early block", | |
654 // we do not need a precedence edge between the Phi and 'load' | |
605 | 655 // since the load will be forced into a block preceding the Phi. |
0 | 656 pred_block->set_raise_LCA_mark(load_index); |
657 assert(!LCA_orig->dominates(pred_block) || | |
658 early->dominates(pred_block), "early is high enough"); | |
659 must_raise_LCA = true; | |
788 | 660 } else { |
661 // anti-dependent upon PHI pinned below 'early', no edge needed | |
662 LCA = early; // but can not schedule below 'early' | |
0 | 663 } |
664 } | |
665 } | |
666 assert(found_match, "no worklist bug"); | |
667 #ifdef TRACK_PHI_INPUTS | |
668 #ifdef ASSERT | |
669 // This assert asks about correct handling of PhiNodes, which may not | |
670 // have all input edges directly from 'mem'. See BugId 4621264 | |
671 int num_mem_inputs = phi_inputs.at_grow(store->_idx,0) + 1; | |
672 // Increment by exactly one even if there are multiple copies of 'mem' | |
673 // coming into the phi, because we will run this block several times | |
674 // if there are several copies of 'mem'. (That's how DU iterators work.) | |
675 phi_inputs.at_put(store->_idx, num_mem_inputs); | |
676 assert(PhiNode::Input + num_mem_inputs < store->req(), | |
677 "Expect at least one phi input will not be from original memory state"); | |
678 #endif //ASSERT | |
679 #endif //TRACK_PHI_INPUTS | |
680 } else if (store_block != early) { | |
681 // 'store' is between the current LCA and earliest possible block. | |
682 // Label its block, and decide later on how to raise the LCA | |
683 // to include the effect on LCA of this store. | |
684 // If this store's block gets chosen as the raised LCA, we | |
685 // will find him on the non_early_stores list and stick him | |
686 // with a precedence edge. | |
687 // (But, don't bother if LCA is already raised all the way.) | |
688 if (LCA != early) { | |
689 store_block->set_raise_LCA_mark(load_index); | |
690 must_raise_LCA = true; | |
691 non_early_stores.push(store); | |
692 } | |
693 } else { | |
694 // Found a possibly-interfering store in the load's 'early' block. | |
695 // This means 'load' cannot sink at all in the dominator tree. | |
696 // Add an anti-dep edge, and squeeze 'load' into the highest block. | |
697 assert(store != load->in(0), "dependence cycle found"); | |
698 if (verify) { | |
699 assert(store->find_edge(load) != -1, "missing precedence edge"); | |
700 } else { | |
701 store->add_prec(load); | |
702 } | |
703 LCA = early; | |
704 // This turns off the process of gathering non_early_stores. | |
705 } | |
706 } | |
707 // (Worklist is now empty; all nearby stores have been visited.) | |
708 | |
709 // Finished if 'load' must be scheduled in its 'early' block. | |
710 // If we found any stores there, they have already been given | |
711 // precedence edges. | |
712 if (LCA == early) return LCA; | |
713 | |
714 // We get here only if there are no possibly-interfering stores | |
715 // in the load's 'early' block. Move LCA up above all predecessors | |
716 // which contain stores we have noted. | |
717 // | |
718 // The raised LCA block can be a home to such interfering stores, | |
719 // but its predecessors must not contain any such stores. | |
720 // | |
721 // The raised LCA will be a lower bound for placing the load, | |
722 // preventing the load from sinking past any block containing | |
723 // a store that may invalidate the memory state required by 'load'. | |
724 if (must_raise_LCA) | |
12023 | 725 LCA = raise_LCA_above_marks(LCA, load->_idx, early, this); |
0 | 726 if (LCA == early) return LCA; |
727 | |
728 // Insert anti-dependence edges from 'load' to each store | |
729 // in the non-early LCA block. | |
730 // Mine the non_early_stores list for such stores. | |
731 if (LCA->raise_LCA_mark() == load_index) { | |
732 while (non_early_stores.size() > 0) { | |
733 Node* store = non_early_stores.pop(); | |
12023 | 734 Block* store_block = get_block_for_node(store); |
0 | 735 if (store_block == LCA) { |
736 // add anti_dependence from store to load in its own block | |
737 assert(store != load->in(0), "dependence cycle found"); | |
738 if (verify) { | |
739 assert(store->find_edge(load) != -1, "missing precedence edge"); | |
740 } else { | |
741 store->add_prec(load); | |
742 } | |
743 } else { | |
744 assert(store_block->raise_LCA_mark() == load_index, "block was marked"); | |
745 // Any other stores we found must be either inside the new LCA | |
746 // or else outside the original LCA. In the latter case, they | |
747 // did not interfere with any use of 'load'. | |
748 assert(LCA->dominates(store_block) | |
749 || !LCA_orig->dominates(store_block), "no stray stores"); | |
750 } | |
751 } | |
752 } | |
753 | |
754 // Return the highest block containing stores; any stores | |
755 // within that block have been given anti-dependence edges. | |
756 return LCA; | |
757 } | |
758 | |
759 // This class is used to iterate backwards over the nodes in the graph. | |
760 | |
761 class Node_Backward_Iterator { | |
762 | |
763 private: | |
764 Node_Backward_Iterator(); | |
765 | |
766 public: | |
767 // Constructor for the iterator | |
12023 | 768 Node_Backward_Iterator(Node *root, VectorSet &visited, Node_List &stack, PhaseCFG &cfg); |
0 | 769 |
770 // Postincrement operator to iterate over the nodes | |
771 Node *next(); | |
772 | |
773 private: | |
774 VectorSet &_visited; | |
775 Node_List &_stack; | |
12023 | 776 PhaseCFG &_cfg; |
0 | 777 }; |
778 | |
779 // Constructor for the Node_Backward_Iterator | |
12023 | 780 Node_Backward_Iterator::Node_Backward_Iterator( Node *root, VectorSet &visited, Node_List &stack, PhaseCFG &cfg) |
781 : _visited(visited), _stack(stack), _cfg(cfg) { | |
0 | 782 // The stack should contain exactly the root |
783 stack.clear(); | |
784 stack.push(root); | |
785 | |
786 // Clear the visited bits | |
787 visited.Clear(); | |
788 } | |
789 | |
790 // Iterator for the Node_Backward_Iterator | |
791 Node *Node_Backward_Iterator::next() { | |
792 | |
793 // If the _stack is empty, then just return NULL: finished. | |
794 if ( !_stack.size() ) | |
795 return NULL; | |
796 | |
797 // '_stack' is emulating a real _stack. The 'visit-all-users' loop has been | |
798 // made stateless, so I do not need to record the index 'i' on my _stack. | |
799 // Instead I visit all users each time, scanning for unvisited users. | |
800 // I visit unvisited not-anti-dependence users first, then anti-dependent | |
801 // children next. | |
802 Node *self = _stack.pop(); | |
803 | |
804 // I cycle here when I am entering a deeper level of recursion. | |
805 // The key variable 'self' was set prior to jumping here. | |
806 while( 1 ) { | |
807 | |
808 _visited.set(self->_idx); | |
809 | |
810 // Now schedule all uses as late as possible. | |
12023 | 811 const Node* src = self->is_Proj() ? self->in(0) : self; |
812 uint src_rpo = _cfg.get_block_for_node(src)->_rpo; | |
0 | 813 |
814 // Schedule all nodes in a post-order visit | |
815 Node *unvisited = NULL; // Unvisited anti-dependent Node, if any | |
816 | |
817 // Scan for unvisited nodes | |
818 for (DUIterator_Fast imax, i = self->fast_outs(imax); i < imax; i++) { | |
819 // For all uses, schedule late | |
820 Node* n = self->fast_out(i); // Use | |
821 | |
822 // Skip already visited children | |
823 if ( _visited.test(n->_idx) ) | |
824 continue; | |
825 | |
826 // do not traverse backward control edges | |
827 Node *use = n->is_Proj() ? n->in(0) : n; | |
12023 | 828 uint use_rpo = _cfg.get_block_for_node(use)->_rpo; |
0 | 829 |
830 if ( use_rpo < src_rpo ) | |
831 continue; | |
832 | |
833 // Phi nodes always precede uses in a basic block | |
834 if ( use_rpo == src_rpo && use->is_Phi() ) | |
835 continue; | |
836 | |
837 unvisited = n; // Found unvisited | |
838 | |
839 // Check for possible-anti-dependent | |
840 if( !n->needs_anti_dependence_check() ) | |
841 break; // Not visited, not anti-dep; schedule it NOW | |
842 } | |
843 | |
844 // Did I find an unvisited not-anti-dependent Node? | |
845 if ( !unvisited ) | |
846 break; // All done with children; post-visit 'self' | |
847 | |
848 // Visit the unvisited Node. Contains the obvious push to | |
849 // indicate I'm entering a deeper level of recursion. I push the | |
850 // old state onto the _stack and set a new state and loop (recurse). | |
851 _stack.push(self); | |
852 self = unvisited; | |
853 } // End recursion loop | |
854 | |
855 return self; | |
856 } | |
857 | |
858 //------------------------------ComputeLatenciesBackwards---------------------- | |
859 // Compute the latency of all the instructions. | |
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860 void PhaseCFG::compute_latencies_backwards(VectorSet &visited, Node_List &stack) { |
0 | 861 #ifndef PRODUCT |
862 if (trace_opto_pipelining()) | |
863 tty->print("\n#---- ComputeLatenciesBackwards ----\n"); | |
864 #endif | |
865 | |
12023 | 866 Node_Backward_Iterator iter((Node *)_root, visited, stack, *this); |
0 | 867 Node *n; |
868 | |
869 // Walk over all the nodes from last to first | |
870 while (n = iter.next()) { | |
871 // Set the latency for the definitions of this instruction | |
872 partial_latency_of_defs(n); | |
873 } | |
874 } // end ComputeLatenciesBackwards | |
875 | |
876 //------------------------------partial_latency_of_defs------------------------ | |
877 // Compute the latency impact of this node on all defs. This computes | |
878 // a number that increases as we approach the beginning of the routine. | |
879 void PhaseCFG::partial_latency_of_defs(Node *n) { | |
880 // Set the latency for this instruction | |
881 #ifndef PRODUCT | |
882 if (trace_opto_pipelining()) { | |
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883 tty->print("# latency_to_inputs: node_latency[%d] = %d for node", n->_idx, get_latency_for_node(n)); |
0 | 884 dump(); |
885 } | |
886 #endif | |
887 | |
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888 if (n->is_Proj()) { |
0 | 889 n = n->in(0); |
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890 } |
0 | 891 |
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892 if (n->is_Root()) { |
0 | 893 return; |
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894 } |
0 | 895 |
896 uint nlen = n->len(); | |
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897 uint use_latency = get_latency_for_node(n); |
12023 | 898 uint use_pre_order = get_block_for_node(n)->_pre_order; |
0 | 899 |
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900 for (uint j = 0; j < nlen; j++) { |
0 | 901 Node *def = n->in(j); |
902 | |
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903 if (!def || def == n) { |
0 | 904 continue; |
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905 } |
0 | 906 |
907 // Walk backwards thru projections | |
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908 if (def->is_Proj()) { |
0 | 909 def = def->in(0); |
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910 } |
0 | 911 |
912 #ifndef PRODUCT | |
913 if (trace_opto_pipelining()) { | |
914 tty->print("# in(%2d): ", j); | |
915 def->dump(); | |
916 } | |
917 #endif | |
918 | |
919 // If the defining block is not known, assume it is ok | |
12023 | 920 Block *def_block = get_block_for_node(def); |
0 | 921 uint def_pre_order = def_block ? def_block->_pre_order : 0; |
922 | |
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923 if ((use_pre_order < def_pre_order) || (use_pre_order == def_pre_order && n->is_Phi())) { |
0 | 924 continue; |
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925 } |
0 | 926 |
927 uint delta_latency = n->latency(j); | |
928 uint current_latency = delta_latency + use_latency; | |
929 | |
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930 if (get_latency_for_node(def) < current_latency) { |
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931 set_latency_for_node(def, current_latency); |
0 | 932 } |
933 | |
934 #ifndef PRODUCT | |
935 if (trace_opto_pipelining()) { | |
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936 tty->print_cr("# %d + edge_latency(%d) == %d -> %d, node_latency[%d] = %d", use_latency, j, delta_latency, current_latency, def->_idx, get_latency_for_node(def)); |
0 | 937 } |
938 #endif | |
939 } | |
940 } | |
941 | |
942 //------------------------------latency_from_use------------------------------- | |
943 // Compute the latency of a specific use | |
944 int PhaseCFG::latency_from_use(Node *n, const Node *def, Node *use) { | |
945 // If self-reference, return no latency | |
12023 | 946 if (use == n || use->is_Root()) { |
0 | 947 return 0; |
12023 | 948 } |
0 | 949 |
12023 | 950 uint def_pre_order = get_block_for_node(def)->_pre_order; |
0 | 951 uint latency = 0; |
952 | |
953 // If the use is not a projection, then it is simple... | |
954 if (!use->is_Proj()) { | |
955 #ifndef PRODUCT | |
956 if (trace_opto_pipelining()) { | |
957 tty->print("# out(): "); | |
958 use->dump(); | |
959 } | |
960 #endif | |
961 | |
12023 | 962 uint use_pre_order = get_block_for_node(use)->_pre_order; |
0 | 963 |
964 if (use_pre_order < def_pre_order) | |
965 return 0; | |
966 | |
967 if (use_pre_order == def_pre_order && use->is_Phi()) | |
968 return 0; | |
969 | |
970 uint nlen = use->len(); | |
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971 uint nl = get_latency_for_node(use); |
0 | 972 |
973 for ( uint j=0; j<nlen; j++ ) { | |
974 if (use->in(j) == n) { | |
975 // Change this if we want local latencies | |
976 uint ul = use->latency(j); | |
977 uint l = ul + nl; | |
978 if (latency < l) latency = l; | |
979 #ifndef PRODUCT | |
980 if (trace_opto_pipelining()) { | |
981 tty->print_cr("# %d + edge_latency(%d) == %d -> %d, latency = %d", | |
982 nl, j, ul, l, latency); | |
983 } | |
984 #endif | |
985 } | |
986 } | |
987 } else { | |
988 // This is a projection, just grab the latency of the use(s) | |
989 for (DUIterator_Fast jmax, j = use->fast_outs(jmax); j < jmax; j++) { | |
990 uint l = latency_from_use(use, def, use->fast_out(j)); | |
991 if (latency < l) latency = l; | |
992 } | |
993 } | |
994 | |
995 return latency; | |
996 } | |
997 | |
998 //------------------------------latency_from_uses------------------------------ | |
999 // Compute the latency of this instruction relative to all of it's uses. | |
1000 // This computes a number that increases as we approach the beginning of the | |
1001 // routine. | |
1002 void PhaseCFG::latency_from_uses(Node *n) { | |
1003 // Set the latency for this instruction | |
1004 #ifndef PRODUCT | |
1005 if (trace_opto_pipelining()) { | |
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1006 tty->print("# latency_from_outputs: node_latency[%d] = %d for node", n->_idx, get_latency_for_node(n)); |
0 | 1007 dump(); |
1008 } | |
1009 #endif | |
1010 uint latency=0; | |
1011 const Node *def = n->is_Proj() ? n->in(0): n; | |
1012 | |
1013 for (DUIterator_Fast imax, i = n->fast_outs(imax); i < imax; i++) { | |
1014 uint l = latency_from_use(n, def, n->fast_out(i)); | |
1015 | |
1016 if (latency < l) latency = l; | |
1017 } | |
1018 | |
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1019 set_latency_for_node(n, latency); |
0 | 1020 } |
1021 | |
1022 //------------------------------hoist_to_cheaper_block------------------------- | |
1023 // Pick a block for node self, between early and LCA, that is a cheaper | |
1024 // alternative to LCA. | |
1025 Block* PhaseCFG::hoist_to_cheaper_block(Block* LCA, Block* early, Node* self) { | |
1026 const double delta = 1+PROB_UNLIKELY_MAG(4); | |
1027 Block* least = LCA; | |
1028 double least_freq = least->_freq; | |
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1029 uint target = get_latency_for_node(self); |
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1030 uint start_latency = get_latency_for_node(LCA->head()); |
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1031 uint end_latency = get_latency_for_node(LCA->get_node(LCA->end_idx())); |
0 | 1032 bool in_latency = (target <= start_latency); |
12023 | 1033 const Block* root_block = get_block_for_node(_root); |
0 | 1034 |
1035 // Turn off latency scheduling if scheduling is just plain off | |
1036 if (!C->do_scheduling()) | |
1037 in_latency = true; | |
1038 | |
1039 // Do not hoist (to cover latency) instructions which target a | |
1040 // single register. Hoisting stretches the live range of the | |
1041 // single register and may force spilling. | |
1042 MachNode* mach = self->is_Mach() ? self->as_Mach() : NULL; | |
1043 if (mach && mach->out_RegMask().is_bound1() && mach->out_RegMask().is_NotEmpty()) | |
1044 in_latency = true; | |
1045 | |
1046 #ifndef PRODUCT | |
1047 if (trace_opto_pipelining()) { | |
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1048 tty->print("# Find cheaper block for latency %d: ", get_latency_for_node(self)); |
0 | 1049 self->dump(); |
1050 tty->print_cr("# B%d: start latency for [%4d]=%d, end latency for [%4d]=%d, freq=%g", | |
1051 LCA->_pre_order, | |
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1052 LCA->head()->_idx, |
0 | 1053 start_latency, |
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1054 LCA->get_node(LCA->end_idx())->_idx, |
0 | 1055 end_latency, |
1056 least_freq); | |
1057 } | |
1058 #endif | |
1059 | |
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1060 int cand_cnt = 0; // number of candidates tried |
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1061 |
0 | 1062 // Walk up the dominator tree from LCA (Lowest common ancestor) to |
1063 // the earliest legal location. Capture the least execution frequency. | |
1064 while (LCA != early) { | |
1065 LCA = LCA->_idom; // Follow up the dominator tree | |
1066 | |
1067 if (LCA == NULL) { | |
1068 // Bailout without retry | |
1069 C->record_method_not_compilable("late schedule failed: LCA == NULL"); | |
1070 return least; | |
1071 } | |
1072 | |
1073 // Don't hoist machine instructions to the root basic block | |
1074 if (mach && LCA == root_block) | |
1075 break; | |
1076 | |
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1077 uint start_lat = get_latency_for_node(LCA->head()); |
0 | 1078 uint end_idx = LCA->end_idx(); |
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1079 uint end_lat = get_latency_for_node(LCA->get_node(end_idx)); |
0 | 1080 double LCA_freq = LCA->_freq; |
1081 #ifndef PRODUCT | |
1082 if (trace_opto_pipelining()) { | |
1083 tty->print_cr("# B%d: start latency for [%4d]=%d, end latency for [%4d]=%d, freq=%g", | |
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1084 LCA->_pre_order, LCA->head()->_idx, start_lat, end_idx, end_lat, LCA_freq); |
0 | 1085 } |
1086 #endif | |
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1087 cand_cnt++; |
0 | 1088 if (LCA_freq < least_freq || // Better Frequency |
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1089 (StressGCM && Compile::randomized_select(cand_cnt)) || // Should be randomly accepted in stress mode |
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1090 (!StressGCM && // Otherwise, choose with latency |
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1091 !in_latency && // No block containing latency |
0 | 1092 LCA_freq < least_freq * delta && // No worse frequency |
1093 target >= end_lat && // within latency range | |
1094 !self->is_iteratively_computed() ) // But don't hoist IV increments | |
1095 // because they may end up above other uses of their phi forcing | |
1096 // their result register to be different from their input. | |
1097 ) { | |
1098 least = LCA; // Found cheaper block | |
1099 least_freq = LCA_freq; | |
1100 start_latency = start_lat; | |
1101 end_latency = end_lat; | |
1102 if (target <= start_lat) | |
1103 in_latency = true; | |
1104 } | |
1105 } | |
1106 | |
1107 #ifndef PRODUCT | |
1108 if (trace_opto_pipelining()) { | |
1109 tty->print_cr("# Choose block B%d with start latency=%d and freq=%g", | |
1110 least->_pre_order, start_latency, least_freq); | |
1111 } | |
1112 #endif | |
1113 | |
1114 // See if the latency needs to be updated | |
1115 if (target < end_latency) { | |
1116 #ifndef PRODUCT | |
1117 if (trace_opto_pipelining()) { | |
1118 tty->print_cr("# Change latency for [%4d] from %d to %d", self->_idx, target, end_latency); | |
1119 } | |
1120 #endif | |
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1121 set_latency_for_node(self, end_latency); |
0 | 1122 partial_latency_of_defs(self); |
1123 } | |
1124 | |
1125 return least; | |
1126 } | |
1127 | |
1128 | |
1129 //------------------------------schedule_late----------------------------------- | |
1130 // Now schedule all codes as LATE as possible. This is the LCA in the | |
1131 // dominator tree of all USES of a value. Pick the block with the least | |
1132 // loop nesting depth that is lowest in the dominator tree. | |
1133 extern const char must_clone[]; | |
1134 void PhaseCFG::schedule_late(VectorSet &visited, Node_List &stack) { | |
1135 #ifndef PRODUCT | |
1136 if (trace_opto_pipelining()) | |
1137 tty->print("\n#---- schedule_late ----\n"); | |
1138 #endif | |
1139 | |
12023 | 1140 Node_Backward_Iterator iter((Node *)_root, visited, stack, *this); |
0 | 1141 Node *self; |
1142 | |
1143 // Walk over all the nodes from last to first | |
1144 while (self = iter.next()) { | |
12023 | 1145 Block* early = get_block_for_node(self); // Earliest legal placement |
0 | 1146 |
1147 if (self->is_top()) { | |
1148 // Top node goes in bb #2 with other constants. | |
1149 // It must be special-cased, because it has no out edges. | |
1150 early->add_inst(self); | |
1151 continue; | |
1152 } | |
1153 | |
1154 // No uses, just terminate | |
1155 if (self->outcnt() == 0) { | |
3842 | 1156 assert(self->is_MachProj(), "sanity"); |
0 | 1157 continue; // Must be a dead machine projection |
1158 } | |
1159 | |
1160 // If node is pinned in the block, then no scheduling can be done. | |
1161 if( self->pinned() ) // Pinned in block? | |
1162 continue; | |
1163 | |
1164 MachNode* mach = self->is_Mach() ? self->as_Mach() : NULL; | |
1165 if (mach) { | |
1166 switch (mach->ideal_Opcode()) { | |
1167 case Op_CreateEx: | |
1168 // Don't move exception creation | |
1169 early->add_inst(self); | |
1170 continue; | |
1171 break; | |
1172 case Op_CheckCastPP: | |
1173 // Don't move CheckCastPP nodes away from their input, if the input | |
1174 // is a rawptr (5071820). | |
1175 Node *def = self->in(1); | |
1176 if (def != NULL && def->bottom_type()->base() == Type::RawPtr) { | |
1177 early->add_inst(self); | |
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1178 #ifdef ASSERT |
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1179 _raw_oops.push(def); |
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1180 #endif |
0 | 1181 continue; |
1182 } | |
1183 break; | |
1184 } | |
1185 } | |
1186 | |
1187 // Gather LCA of all uses | |
1188 Block *LCA = NULL; | |
1189 { | |
1190 for (DUIterator_Fast imax, i = self->fast_outs(imax); i < imax; i++) { | |
1191 // For all uses, find LCA | |
1192 Node* use = self->fast_out(i); | |
12023 | 1193 LCA = raise_LCA_above_use(LCA, use, self, this); |
0 | 1194 } |
1195 } // (Hide defs of imax, i from rest of block.) | |
1196 | |
1197 // Place temps in the block of their use. This isn't a | |
1198 // requirement for correctness but it reduces useless | |
1199 // interference between temps and other nodes. | |
1200 if (mach != NULL && mach->is_MachTemp()) { | |
12023 | 1201 map_node_to_block(self, LCA); |
0 | 1202 LCA->add_inst(self); |
1203 continue; | |
1204 } | |
1205 | |
1206 // Check if 'self' could be anti-dependent on memory | |
1207 if (self->needs_anti_dependence_check()) { | |
1208 // Hoist LCA above possible-defs and insert anti-dependences to | |
1209 // defs in new LCA block. | |
1210 LCA = insert_anti_dependences(LCA, self); | |
1211 } | |
1212 | |
1213 if (early->_dom_depth > LCA->_dom_depth) { | |
1214 // Somehow the LCA has moved above the earliest legal point. | |
1215 // (One way this can happen is via memory_early_block.) | |
1216 if (C->subsume_loads() == true && !C->failing()) { | |
1217 // Retry with subsume_loads == false | |
1218 // If this is the first failure, the sentinel string will "stick" | |
1219 // to the Compile object, and the C2Compiler will see it and retry. | |
1220 C->record_failure(C2Compiler::retry_no_subsuming_loads()); | |
1221 } else { | |
1222 // Bailout without retry when (early->_dom_depth > LCA->_dom_depth) | |
1223 C->record_method_not_compilable("late schedule failed: incorrect graph"); | |
1224 } | |
1225 return; | |
1226 } | |
1227 | |
1228 // If there is no opportunity to hoist, then we're done. | |
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1229 // In stress mode, try to hoist even the single operations. |
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1230 bool try_to_hoist = StressGCM || (LCA != early); |
0 | 1231 |
1232 // Must clone guys stay next to use; no hoisting allowed. | |
1233 // Also cannot hoist guys that alter memory or are otherwise not | |
1234 // allocatable (hoisting can make a value live longer, leading to | |
1235 // anti and output dependency problems which are normally resolved | |
1236 // by the register allocator giving everyone a different register). | |
1237 if (mach != NULL && must_clone[mach->ideal_Opcode()]) | |
1238 try_to_hoist = false; | |
1239 | |
1240 Block* late = NULL; | |
1241 if (try_to_hoist) { | |
1242 // Now find the block with the least execution frequency. | |
1243 // Start at the latest schedule and work up to the earliest schedule | |
1244 // in the dominator tree. Thus the Node will dominate all its uses. | |
1245 late = hoist_to_cheaper_block(LCA, early, self); | |
1246 } else { | |
1247 // Just use the LCA of the uses. | |
1248 late = LCA; | |
1249 } | |
1250 | |
1251 // Put the node into target block | |
1252 schedule_node_into_block(self, late); | |
1253 | |
1254 #ifdef ASSERT | |
1255 if (self->needs_anti_dependence_check()) { | |
1256 // since precedence edges are only inserted when we're sure they | |
1257 // are needed make sure that after placement in a block we don't | |
1258 // need any new precedence edges. | |
1259 verify_anti_dependences(late, self); | |
1260 } | |
1261 #endif | |
1262 } // Loop until all nodes have been visited | |
1263 | |
1264 } // end ScheduleLate | |
1265 | |
1266 //------------------------------GlobalCodeMotion------------------------------- | |
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1267 void PhaseCFG::global_code_motion() { |
0 | 1268 ResourceMark rm; |
1269 | |
1270 #ifndef PRODUCT | |
1271 if (trace_opto_pipelining()) { | |
1272 tty->print("\n---- Start GlobalCodeMotion ----\n"); | |
1273 } | |
1274 #endif | |
1275 | |
12023 | 1276 // Initialize the node to block mapping for things on the proj_list |
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1277 for (uint i = 0; i < _matcher.number_of_projections(); i++) { |
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1278 unmap_node_from_block(_matcher.get_projection(i)); |
12023 | 1279 } |
0 | 1280 |
1281 // Set the basic block for Nodes pinned into blocks | |
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1282 Arena* arena = Thread::current()->resource_area(); |
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1283 VectorSet visited(arena); |
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1284 schedule_pinned_nodes(visited); |
0 | 1285 |
1286 // Find the earliest Block any instruction can be placed in. Some | |
1287 // instructions are pinned into Blocks. Unpinned instructions can | |
1288 // appear in last block in which all their inputs occur. | |
1289 visited.Clear(); | |
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1290 Node_List stack(arena); |
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1291 // Pre-grow the list |
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1292 stack.map((C->unique() >> 1) + 16, NULL); |
0 | 1293 if (!schedule_early(visited, stack)) { |
1294 // Bailout without retry | |
1295 C->record_method_not_compilable("early schedule failed"); | |
1296 return; | |
1297 } | |
1298 | |
1299 // Build Def-Use edges. | |
1300 // Compute the latency information (via backwards walk) for all the | |
1301 // instructions in the graph | |
1685 | 1302 _node_latency = new GrowableArray<uint>(); // resource_area allocation |
0 | 1303 |
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1304 if (C->do_scheduling()) { |
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1305 compute_latencies_backwards(visited, stack); |
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1306 } |
0 | 1307 |
1308 // Now schedule all codes as LATE as possible. This is the LCA in the | |
1309 // dominator tree of all USES of a value. Pick the block with the least | |
1310 // loop nesting depth that is lowest in the dominator tree. | |
1311 // ( visited.Clear() called in schedule_late()->Node_Backward_Iterator() ) | |
1312 schedule_late(visited, stack); | |
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1313 if (C->failing()) { |
0 | 1314 // schedule_late fails only when graph is incorrect. |
1315 assert(!VerifyGraphEdges, "verification should have failed"); | |
1316 return; | |
1317 } | |
1318 | |
1319 #ifndef PRODUCT | |
1320 if (trace_opto_pipelining()) { | |
1321 tty->print("\n---- Detect implicit null checks ----\n"); | |
1322 } | |
1323 #endif | |
1324 | |
1325 // Detect implicit-null-check opportunities. Basically, find NULL checks | |
1326 // with suitable memory ops nearby. Use the memory op to do the NULL check. | |
1327 // I can generate a memory op if there is not one nearby. | |
1328 if (C->is_method_compilation()) { | |
14909 | 1329 // Don't do it for natives, adapters, or runtime stubs |
1330 int allowed_reasons = 0; | |
1331 // ...and don't do it when there have been too many traps, globally. | |
1332 for (int reason = (int)Deoptimization::Reason_none+1; | |
1333 reason < Compile::trapHistLength; reason++) { | |
1334 assert(reason < BitsPerInt, "recode bit map"); | |
1335 if (!C->too_many_traps((Deoptimization::DeoptReason) reason)) | |
1336 allowed_reasons |= nth_bit(reason); | |
1337 } | |
0 | 1338 // By reversing the loop direction we get a very minor gain on mpegaudio. |
1339 // Feel free to revert to a forward loop for clarity. | |
1340 // for( int i=0; i < (int)matcher._null_check_tests.size(); i+=2 ) { | |
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1341 for (int i = _matcher._null_check_tests.size() - 2; i >= 0; i -= 2) { |
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1342 Node* proj = _matcher._null_check_tests[i]; |
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1343 Node* val = _matcher._null_check_tests[i + 1]; |
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1344 Block* block = get_block_for_node(proj); |
14909 | 1345 implicit_null_check(block, proj, val, allowed_reasons); |
0 | 1346 // The implicit_null_check will only perform the transformation |
1347 // if the null branch is truly uncommon, *and* it leads to an | |
1348 // uncommon trap. Combined with the too_many_traps guards | |
1349 // above, this prevents SEGV storms reported in 6366351, | |
1350 // by recompiling offending methods without this optimization. | |
1351 } | |
1352 } | |
1353 | |
1354 #ifndef PRODUCT | |
1355 if (trace_opto_pipelining()) { | |
1356 tty->print("\n---- Start Local Scheduling ----\n"); | |
1357 } | |
1358 #endif | |
1359 | |
1360 // Schedule locally. Right now a simple topological sort. | |
1361 // Later, do a real latency aware scheduler. | |
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1362 GrowableArray<int> ready_cnt(C->unique(), C->unique(), -1); |
0 | 1363 visited.Clear(); |
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1364 for (uint i = 0; i < number_of_blocks(); i++) { |
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1365 Block* block = get_block(i); |
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1366 if (!schedule_local(block, ready_cnt, visited)) { |
0 | 1367 if (!C->failure_reason_is(C2Compiler::retry_no_subsuming_loads())) { |
1368 C->record_method_not_compilable("local schedule failed"); | |
1369 } | |
1370 return; | |
1371 } | |
1372 } | |
1373 | |
1374 // If we inserted any instructions between a Call and his CatchNode, | |
1375 // clone the instructions on all paths below the Catch. | |
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1376 for (uint i = 0; i < number_of_blocks(); i++) { |
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1377 Block* block = get_block(i); |
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1378 call_catch_cleanup(block); |
12023 | 1379 } |
0 | 1380 |
1381 #ifndef PRODUCT | |
1382 if (trace_opto_pipelining()) { | |
1383 tty->print("\n---- After GlobalCodeMotion ----\n"); | |
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1384 for (uint i = 0; i < number_of_blocks(); i++) { |
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1385 Block* block = get_block(i); |
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1386 block->dump(); |
0 | 1387 } |
1388 } | |
1389 #endif | |
1685 | 1390 // Dead. |
1391 _node_latency = (GrowableArray<uint> *)0xdeadbeef; | |
0 | 1392 } |
1393 | |
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1394 bool PhaseCFG::do_global_code_motion() { |
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1395 |
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1396 build_dominator_tree(); |
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1397 if (C->failing()) { |
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1398 return false; |
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1399 } |
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1400 |
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1401 NOT_PRODUCT( C->verify_graph_edges(); ) |
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1402 |
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1403 estimate_block_frequency(); |
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1404 |
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1405 global_code_motion(); |
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1406 |
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1407 if (C->failing()) { |
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1408 return false; |
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1409 } |
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1410 |
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1411 return true; |
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1412 } |
0 | 1413 |
1414 //------------------------------Estimate_Block_Frequency----------------------- | |
1415 // Estimate block frequencies based on IfNode probabilities. | |
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1416 void PhaseCFG::estimate_block_frequency() { |
418 | 1417 |
1418 // Force conditional branches leading to uncommon traps to be unlikely, | |
1419 // not because we get to the uncommon_trap with less relative frequency, | |
1420 // but because an uncommon_trap typically causes a deopt, so we only get | |
1421 // there once. | |
1422 if (C->do_freq_based_layout()) { | |
1423 Block_List worklist; | |
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1424 Block* root_blk = get_block(0); |
418 | 1425 for (uint i = 1; i < root_blk->num_preds(); i++) { |
12023 | 1426 Block *pb = get_block_for_node(root_blk->pred(i)); |
418 | 1427 if (pb->has_uncommon_code()) { |
1428 worklist.push(pb); | |
1429 } | |
1430 } | |
1431 while (worklist.size() > 0) { | |
1432 Block* uct = worklist.pop(); | |
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1433 if (uct == get_root_block()) { |
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1434 continue; |
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1435 } |
418 | 1436 for (uint i = 1; i < uct->num_preds(); i++) { |
12023 | 1437 Block *pb = get_block_for_node(uct->pred(i)); |
418 | 1438 if (pb->_num_succs == 1) { |
1439 worklist.push(pb); | |
1440 } else if (pb->num_fall_throughs() == 2) { | |
1441 pb->update_uncommon_branch(uct); | |
1442 } | |
1443 } | |
1444 } | |
1445 } | |
0 | 1446 |
1447 // Create the loop tree and calculate loop depth. | |
1448 _root_loop = create_loop_tree(); | |
1449 _root_loop->compute_loop_depth(0); | |
1450 | |
1451 // Compute block frequency of each block, relative to a single loop entry. | |
1452 _root_loop->compute_freq(); | |
1453 | |
1454 // Adjust all frequencies to be relative to a single method entry | |
418 | 1455 _root_loop->_freq = 1.0; |
0 | 1456 _root_loop->scale_freq(); |
1457 | |
673 | 1458 // Save outmost loop frequency for LRG frequency threshold |
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1459 _outer_loop_frequency = _root_loop->outer_loop_freq(); |
673 | 1460 |
0 | 1461 // force paths ending at uncommon traps to be infrequent |
418 | 1462 if (!C->do_freq_based_layout()) { |
1463 Block_List worklist; | |
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1464 Block* root_blk = get_block(0); |
418 | 1465 for (uint i = 1; i < root_blk->num_preds(); i++) { |
12023 | 1466 Block *pb = get_block_for_node(root_blk->pred(i)); |
418 | 1467 if (pb->has_uncommon_code()) { |
1468 worklist.push(pb); | |
1469 } | |
0 | 1470 } |
418 | 1471 while (worklist.size() > 0) { |
1472 Block* uct = worklist.pop(); | |
1473 uct->_freq = PROB_MIN; | |
1474 for (uint i = 1; i < uct->num_preds(); i++) { | |
12023 | 1475 Block *pb = get_block_for_node(uct->pred(i)); |
418 | 1476 if (pb->_num_succs == 1 && pb->_freq > PROB_MIN) { |
1477 worklist.push(pb); | |
1478 } | |
0 | 1479 } |
1480 } | |
1481 } | |
1482 | |
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1483 #ifdef ASSERT |
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1484 for (uint i = 0; i < number_of_blocks(); i++) { |
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1485 Block* b = get_block(i); |
605 | 1486 assert(b->_freq >= MIN_BLOCK_FREQUENCY, "Register Allocator requires meaningful block frequency"); |
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1487 } |
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1488 #endif |
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1489 |
0 | 1490 #ifndef PRODUCT |
1491 if (PrintCFGBlockFreq) { | |
1492 tty->print_cr("CFG Block Frequencies"); | |
1493 _root_loop->dump_tree(); | |
1494 if (Verbose) { | |
1495 tty->print_cr("PhaseCFG dump"); | |
1496 dump(); | |
1497 tty->print_cr("Node dump"); | |
1498 _root->dump(99999); | |
1499 } | |
1500 } | |
1501 #endif | |
1502 } | |
1503 | |
1504 //----------------------------create_loop_tree-------------------------------- | |
1505 // Create a loop tree from the CFG | |
1506 CFGLoop* PhaseCFG::create_loop_tree() { | |
1507 | |
1508 #ifdef ASSERT | |
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1509 assert(get_block(0) == get_root_block(), "first block should be root block"); |
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1510 for (uint i = 0; i < number_of_blocks(); i++) { |
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1511 Block* block = get_block(i); |
0 | 1512 // Check that _loop field are clear...we could clear them if not. |
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1513 assert(block->_loop == NULL, "clear _loop expected"); |
0 | 1514 // Sanity check that the RPO numbering is reflected in the _blocks array. |
1515 // It doesn't have to be for the loop tree to be built, but if it is not, | |
1516 // then the blocks have been reordered since dom graph building...which | |
1517 // may question the RPO numbering | |
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1518 assert(block->_rpo == i, "unexpected reverse post order number"); |
0 | 1519 } |
1520 #endif | |
1521 | |
1522 int idct = 0; | |
1523 CFGLoop* root_loop = new CFGLoop(idct++); | |
1524 | |
1525 Block_List worklist; | |
1526 | |
1527 // Assign blocks to loops | |
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1528 for(uint i = number_of_blocks() - 1; i > 0; i-- ) { // skip Root block |
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1529 Block* block = get_block(i); |
0 | 1530 |
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1531 if (block->head()->is_Loop()) { |
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1532 Block* loop_head = block; |
0 | 1533 assert(loop_head->num_preds() - 1 == 2, "loop must have 2 predecessors"); |
1534 Node* tail_n = loop_head->pred(LoopNode::LoopBackControl); | |
12023 | 1535 Block* tail = get_block_for_node(tail_n); |
0 | 1536 |
1537 // Defensively filter out Loop nodes for non-single-entry loops. | |
1538 // For all reasonable loops, the head occurs before the tail in RPO. | |
1539 if (i <= tail->_rpo) { | |
1540 | |
1541 // The tail and (recursive) predecessors of the tail | |
1542 // are made members of a new loop. | |
1543 | |
1544 assert(worklist.size() == 0, "nonempty worklist"); | |
1545 CFGLoop* nloop = new CFGLoop(idct++); | |
1546 assert(loop_head->_loop == NULL, "just checking"); | |
1547 loop_head->_loop = nloop; | |
1548 // Add to nloop so push_pred() will skip over inner loops | |
1549 nloop->add_member(loop_head); | |
12023 | 1550 nloop->push_pred(loop_head, LoopNode::LoopBackControl, worklist, this); |
0 | 1551 |
1552 while (worklist.size() > 0) { | |
1553 Block* member = worklist.pop(); | |
1554 if (member != loop_head) { | |
1555 for (uint j = 1; j < member->num_preds(); j++) { | |
12023 | 1556 nloop->push_pred(member, j, worklist, this); |
0 | 1557 } |
1558 } | |
1559 } | |
1560 } | |
1561 } | |
1562 } | |
1563 | |
1564 // Create a member list for each loop consisting | |
1565 // of both blocks and (immediate child) loops. | |
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1566 for (uint i = 0; i < number_of_blocks(); i++) { |
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1567 Block* block = get_block(i); |
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1568 CFGLoop* lp = block->_loop; |
0 | 1569 if (lp == NULL) { |
1570 // Not assigned to a loop. Add it to the method's pseudo loop. | |
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1571 block->_loop = root_loop; |
0 | 1572 lp = root_loop; |
1573 } | |
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1574 if (lp == root_loop || block != lp->head()) { // loop heads are already members |
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1575 lp->add_member(block); |
0 | 1576 } |
1577 if (lp != root_loop) { | |
1578 if (lp->parent() == NULL) { | |
1579 // Not a nested loop. Make it a child of the method's pseudo loop. | |
1580 root_loop->add_nested_loop(lp); | |
1581 } | |
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1582 if (block == lp->head()) { |
0 | 1583 // Add nested loop to member list of parent loop. |
1584 lp->parent()->add_member(lp); | |
1585 } | |
1586 } | |
1587 } | |
1588 | |
1589 return root_loop; | |
1590 } | |
1591 | |
1592 //------------------------------push_pred-------------------------------------- | |
12023 | 1593 void CFGLoop::push_pred(Block* blk, int i, Block_List& worklist, PhaseCFG* cfg) { |
0 | 1594 Node* pred_n = blk->pred(i); |
12023 | 1595 Block* pred = cfg->get_block_for_node(pred_n); |
0 | 1596 CFGLoop *pred_loop = pred->_loop; |
1597 if (pred_loop == NULL) { | |
1598 // Filter out blocks for non-single-entry loops. | |
1599 // For all reasonable loops, the head occurs before the tail in RPO. | |
1600 if (pred->_rpo > head()->_rpo) { | |
1601 pred->_loop = this; | |
1602 worklist.push(pred); | |
1603 } | |
1604 } else if (pred_loop != this) { | |
1605 // Nested loop. | |
1606 while (pred_loop->_parent != NULL && pred_loop->_parent != this) { | |
1607 pred_loop = pred_loop->_parent; | |
1608 } | |
1609 // Make pred's loop be a child | |
1610 if (pred_loop->_parent == NULL) { | |
1611 add_nested_loop(pred_loop); | |
1612 // Continue with loop entry predecessor. | |
1613 Block* pred_head = pred_loop->head(); | |
1614 assert(pred_head->num_preds() - 1 == 2, "loop must have 2 predecessors"); | |
1615 assert(pred_head != head(), "loop head in only one loop"); | |
12023 | 1616 push_pred(pred_head, LoopNode::EntryControl, worklist, cfg); |
0 | 1617 } else { |
1618 assert(pred_loop->_parent == this && _parent == NULL, "just checking"); | |
1619 } | |
1620 } | |
1621 } | |
1622 | |
1623 //------------------------------add_nested_loop-------------------------------- | |
1624 // Make cl a child of the current loop in the loop tree. | |
1625 void CFGLoop::add_nested_loop(CFGLoop* cl) { | |
1626 assert(_parent == NULL, "no parent yet"); | |
1627 assert(cl != this, "not my own parent"); | |
1628 cl->_parent = this; | |
1629 CFGLoop* ch = _child; | |
1630 if (ch == NULL) { | |
1631 _child = cl; | |
1632 } else { | |
1633 while (ch->_sibling != NULL) { ch = ch->_sibling; } | |
1634 ch->_sibling = cl; | |
1635 } | |
1636 } | |
1637 | |
1638 //------------------------------compute_loop_depth----------------------------- | |
1639 // Store the loop depth in each CFGLoop object. | |
1640 // Recursively walk the children to do the same for them. | |
1641 void CFGLoop::compute_loop_depth(int depth) { | |
1642 _depth = depth; | |
1643 CFGLoop* ch = _child; | |
1644 while (ch != NULL) { | |
1645 ch->compute_loop_depth(depth + 1); | |
1646 ch = ch->_sibling; | |
1647 } | |
1648 } | |
1649 | |
1650 //------------------------------compute_freq----------------------------------- | |
1651 // Compute the frequency of each block and loop, relative to a single entry | |
1652 // into the dominating loop head. | |
1653 void CFGLoop::compute_freq() { | |
1654 // Bottom up traversal of loop tree (visit inner loops first.) | |
1655 // Set loop head frequency to 1.0, then transitively | |
1656 // compute frequency for all successors in the loop, | |
1657 // as well as for each exit edge. Inner loops are | |
1658 // treated as single blocks with loop exit targets | |
1659 // as the successor blocks. | |
1660 | |
1661 // Nested loops first | |
1662 CFGLoop* ch = _child; | |
1663 while (ch != NULL) { | |
1664 ch->compute_freq(); | |
1665 ch = ch->_sibling; | |
1666 } | |
1667 assert (_members.length() > 0, "no empty loops"); | |
1668 Block* hd = head(); | |
14909 | 1669 hd->_freq = 1.0f; |
0 | 1670 for (int i = 0; i < _members.length(); i++) { |
1671 CFGElement* s = _members.at(i); | |
14909 | 1672 float freq = s->_freq; |
0 | 1673 if (s->is_block()) { |
1674 Block* b = s->as_Block(); | |
1675 for (uint j = 0; j < b->_num_succs; j++) { | |
1676 Block* sb = b->_succs[j]; | |
1677 update_succ_freq(sb, freq * b->succ_prob(j)); | |
1678 } | |
1679 } else { | |
1680 CFGLoop* lp = s->as_CFGLoop(); | |
1681 assert(lp->_parent == this, "immediate child"); | |
1682 for (int k = 0; k < lp->_exits.length(); k++) { | |
1683 Block* eb = lp->_exits.at(k).get_target(); | |
14909 | 1684 float prob = lp->_exits.at(k).get_prob(); |
0 | 1685 update_succ_freq(eb, freq * prob); |
1686 } | |
1687 } | |
1688 } | |
1689 | |
1690 // For all loops other than the outer, "method" loop, | |
1691 // sum and normalize the exit probability. The "method" loop | |
1692 // should keep the initial exit probability of 1, so that | |
1693 // inner blocks do not get erroneously scaled. | |
1694 if (_depth != 0) { | |
1695 // Total the exit probabilities for this loop. | |
14909 | 1696 float exits_sum = 0.0f; |
0 | 1697 for (int i = 0; i < _exits.length(); i++) { |
1698 exits_sum += _exits.at(i).get_prob(); | |
1699 } | |
1700 | |
1701 // Normalize the exit probabilities. Until now, the | |
1702 // probabilities estimate the possibility of exit per | |
1703 // a single loop iteration; afterward, they estimate | |
1704 // the probability of exit per loop entry. | |
1705 for (int i = 0; i < _exits.length(); i++) { | |
1706 Block* et = _exits.at(i).get_target(); | |
418 | 1707 float new_prob = 0.0f; |
1708 if (_exits.at(i).get_prob() > 0.0f) { | |
1709 new_prob = _exits.at(i).get_prob() / exits_sum; | |
1710 } | |
0 | 1711 BlockProbPair bpp(et, new_prob); |
1712 _exits.at_put(i, bpp); | |
1713 } | |
1714 | |
418 | 1715 // Save the total, but guard against unreasonable probability, |
0 | 1716 // as the value is used to estimate the loop trip count. |
1717 // An infinite trip count would blur relative block | |
1718 // frequencies. | |
1719 if (exits_sum > 1.0f) exits_sum = 1.0; | |
1720 if (exits_sum < PROB_MIN) exits_sum = PROB_MIN; | |
1721 _exit_prob = exits_sum; | |
1722 } | |
1723 } | |
1724 | |
1725 //------------------------------succ_prob------------------------------------- | |
1726 // Determine the probability of reaching successor 'i' from the receiver block. | |
1727 float Block::succ_prob(uint i) { | |
1728 int eidx = end_idx(); | |
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1729 Node *n = get_node(eidx); // Get ending Node |
308 | 1730 |
1731 int op = n->Opcode(); | |
1732 if (n->is_Mach()) { | |
1733 if (n->is_MachNullCheck()) { | |
1734 // Can only reach here if called after lcm. The original Op_If is gone, | |
1735 // so we attempt to infer the probability from one or both of the | |
1736 // successor blocks. | |
1737 assert(_num_succs == 2, "expecting 2 successors of a null check"); | |
1738 // If either successor has only one predecessor, then the | |
605 | 1739 // probability estimate can be derived using the |
308 | 1740 // relative frequency of the successor and this block. |
1741 if (_succs[i]->num_preds() == 2) { | |
1742 return _succs[i]->_freq / _freq; | |
1743 } else if (_succs[1-i]->num_preds() == 2) { | |
1744 return 1 - (_succs[1-i]->_freq / _freq); | |
1745 } else { | |
1746 // Estimate using both successor frequencies | |
1747 float freq = _succs[i]->_freq; | |
1748 return freq / (freq + _succs[1-i]->_freq); | |
1749 } | |
1750 } | |
1751 op = n->as_Mach()->ideal_Opcode(); | |
1752 } | |
1753 | |
0 | 1754 |
1755 // Switch on branch type | |
1756 switch( op ) { | |
1757 case Op_CountedLoopEnd: | |
1758 case Op_If: { | |
1759 assert (i < 2, "just checking"); | |
1760 // Conditionals pass on only part of their frequency | |
1761 float prob = n->as_MachIf()->_prob; | |
1762 assert(prob >= 0.0 && prob <= 1.0, "out of range probability"); | |
1763 // If succ[i] is the FALSE branch, invert path info | |
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1764 if( get_node(i + eidx + 1)->Opcode() == Op_IfFalse ) { |
0 | 1765 return 1.0f - prob; // not taken |
1766 } else { | |
1767 return prob; // taken | |
1768 } | |
1769 } | |
1770 | |
1771 case Op_Jump: | |
1772 // Divide the frequency between all successors evenly | |
1773 return 1.0f/_num_succs; | |
1774 | |
1775 case Op_Catch: { | |
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1776 const CatchProjNode *ci = get_node(i + eidx + 1)->as_CatchProj(); |
0 | 1777 if (ci->_con == CatchProjNode::fall_through_index) { |
1778 // Fall-thru path gets the lion's share. | |
1779 return 1.0f - PROB_UNLIKELY_MAG(5)*_num_succs; | |
1780 } else { | |
1781 // Presume exceptional paths are equally unlikely | |
1782 return PROB_UNLIKELY_MAG(5); | |
1783 } | |
1784 } | |
1785 | |
1786 case Op_Root: | |
1787 case Op_Goto: | |
1788 // Pass frequency straight thru to target | |
1789 return 1.0f; | |
1790 | |
1791 case Op_NeverBranch: | |
1792 return 0.0f; | |
1793 | |
1794 case Op_TailCall: | |
1795 case Op_TailJump: | |
1796 case Op_Return: | |
1797 case Op_Halt: | |
1798 case Op_Rethrow: | |
1799 // Do not push out freq to root block | |
1800 return 0.0f; | |
1801 | |
1802 default: | |
1803 ShouldNotReachHere(); | |
1804 } | |
1805 | |
1806 return 0.0f; | |
1807 } | |
1808 | |
418 | 1809 //------------------------------num_fall_throughs----------------------------- |
1810 // Return the number of fall-through candidates for a block | |
1811 int Block::num_fall_throughs() { | |
1812 int eidx = end_idx(); | |
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1813 Node *n = get_node(eidx); // Get ending Node |
418 | 1814 |
1815 int op = n->Opcode(); | |
1816 if (n->is_Mach()) { | |
1817 if (n->is_MachNullCheck()) { | |
1818 // In theory, either side can fall-thru, for simplicity sake, | |
1819 // let's say only the false branch can now. | |
1820 return 1; | |
1821 } | |
1822 op = n->as_Mach()->ideal_Opcode(); | |
1823 } | |
1824 | |
1825 // Switch on branch type | |
1826 switch( op ) { | |
1827 case Op_CountedLoopEnd: | |
1828 case Op_If: | |
1829 return 2; | |
1830 | |
1831 case Op_Root: | |
1832 case Op_Goto: | |
1833 return 1; | |
1834 | |
1835 case Op_Catch: { | |
1836 for (uint i = 0; i < _num_succs; i++) { | |
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1837 const CatchProjNode *ci = get_node(i + eidx + 1)->as_CatchProj(); |
418 | 1838 if (ci->_con == CatchProjNode::fall_through_index) { |
1839 return 1; | |
1840 } | |
1841 } | |
1842 return 0; | |
1843 } | |
1844 | |
1845 case Op_Jump: | |
1846 case Op_NeverBranch: | |
1847 case Op_TailCall: | |
1848 case Op_TailJump: | |
1849 case Op_Return: | |
1850 case Op_Halt: | |
1851 case Op_Rethrow: | |
1852 return 0; | |
1853 | |
1854 default: | |
1855 ShouldNotReachHere(); | |
1856 } | |
1857 | |
1858 return 0; | |
1859 } | |
1860 | |
1861 //------------------------------succ_fall_through----------------------------- | |
1862 // Return true if a specific successor could be fall-through target. | |
1863 bool Block::succ_fall_through(uint i) { | |
1864 int eidx = end_idx(); | |
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1865 Node *n = get_node(eidx); // Get ending Node |
418 | 1866 |
1867 int op = n->Opcode(); | |
1868 if (n->is_Mach()) { | |
1869 if (n->is_MachNullCheck()) { | |
1870 // In theory, either side can fall-thru, for simplicity sake, | |
1871 // let's say only the false branch can now. | |
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1872 return get_node(i + eidx + 1)->Opcode() == Op_IfFalse; |
418 | 1873 } |
1874 op = n->as_Mach()->ideal_Opcode(); | |
1875 } | |
1876 | |
1877 // Switch on branch type | |
1878 switch( op ) { | |
1879 case Op_CountedLoopEnd: | |
1880 case Op_If: | |
1881 case Op_Root: | |
1882 case Op_Goto: | |
1883 return true; | |
1884 | |
1885 case Op_Catch: { | |
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1886 const CatchProjNode *ci = get_node(i + eidx + 1)->as_CatchProj(); |
418 | 1887 return ci->_con == CatchProjNode::fall_through_index; |
1888 } | |
1889 | |
1890 case Op_Jump: | |
1891 case Op_NeverBranch: | |
1892 case Op_TailCall: | |
1893 case Op_TailJump: | |
1894 case Op_Return: | |
1895 case Op_Halt: | |
1896 case Op_Rethrow: | |
1897 return false; | |
1898 | |
1899 default: | |
1900 ShouldNotReachHere(); | |
1901 } | |
1902 | |
1903 return false; | |
1904 } | |
1905 | |
1906 //------------------------------update_uncommon_branch------------------------ | |
1907 // Update the probability of a two-branch to be uncommon | |
1908 void Block::update_uncommon_branch(Block* ub) { | |
1909 int eidx = end_idx(); | |
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1910 Node *n = get_node(eidx); // Get ending Node |
418 | 1911 |
1912 int op = n->as_Mach()->ideal_Opcode(); | |
1913 | |
1914 assert(op == Op_CountedLoopEnd || op == Op_If, "must be a If"); | |
1915 assert(num_fall_throughs() == 2, "must be a two way branch block"); | |
1916 | |
1917 // Which successor is ub? | |
1918 uint s; | |
1919 for (s = 0; s <_num_succs; s++) { | |
1920 if (_succs[s] == ub) break; | |
1921 } | |
1922 assert(s < 2, "uncommon successor must be found"); | |
1923 | |
1924 // If ub is the true path, make the proability small, else | |
1925 // ub is the false path, and make the probability large | |
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1926 bool invert = (get_node(s + eidx + 1)->Opcode() == Op_IfFalse); |
418 | 1927 |
1928 // Get existing probability | |
1929 float p = n->as_MachIf()->_prob; | |
1930 | |
1931 if (invert) p = 1.0 - p; | |
1932 if (p > PROB_MIN) { | |
1933 p = PROB_MIN; | |
1934 } | |
1935 if (invert) p = 1.0 - p; | |
1936 | |
1937 n->as_MachIf()->_prob = p; | |
1938 } | |
1939 | |
0 | 1940 //------------------------------update_succ_freq------------------------------- |
605 | 1941 // Update the appropriate frequency associated with block 'b', a successor of |
0 | 1942 // a block in this loop. |
14909 | 1943 void CFGLoop::update_succ_freq(Block* b, float freq) { |
0 | 1944 if (b->_loop == this) { |
1945 if (b == head()) { | |
1946 // back branch within the loop | |
1947 // Do nothing now, the loop carried frequency will be | |
1948 // adjust later in scale_freq(). | |
1949 } else { | |
1950 // simple branch within the loop | |
1951 b->_freq += freq; | |
1952 } | |
1953 } else if (!in_loop_nest(b)) { | |
1954 // branch is exit from this loop | |
1955 BlockProbPair bpp(b, freq); | |
1956 _exits.append(bpp); | |
1957 } else { | |
1958 // branch into nested loop | |
1959 CFGLoop* ch = b->_loop; | |
1960 ch->_freq += freq; | |
1961 } | |
1962 } | |
1963 | |
1964 //------------------------------in_loop_nest----------------------------------- | |
1965 // Determine if block b is in the receiver's loop nest. | |
1966 bool CFGLoop::in_loop_nest(Block* b) { | |
1967 int depth = _depth; | |
1968 CFGLoop* b_loop = b->_loop; | |
1969 int b_depth = b_loop->_depth; | |
1970 if (depth == b_depth) { | |
1971 return true; | |
1972 } | |
1973 while (b_depth > depth) { | |
1974 b_loop = b_loop->_parent; | |
1975 b_depth = b_loop->_depth; | |
1976 } | |
1977 return b_loop == this; | |
1978 } | |
1979 | |
1980 //------------------------------scale_freq------------------------------------- | |
1981 // Scale frequency of loops and blocks by trip counts from outer loops | |
1982 // Do a top down traversal of loop tree (visit outer loops first.) | |
1983 void CFGLoop::scale_freq() { | |
14909 | 1984 float loop_freq = _freq * trip_count(); |
673 | 1985 _freq = loop_freq; |
0 | 1986 for (int i = 0; i < _members.length(); i++) { |
1987 CFGElement* s = _members.at(i); | |
14909 | 1988 float block_freq = s->_freq * loop_freq; |
621 | 1989 if (g_isnan(block_freq) || block_freq < MIN_BLOCK_FREQUENCY) |
1990 block_freq = MIN_BLOCK_FREQUENCY; | |
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1991 s->_freq = block_freq; |
0 | 1992 } |
1993 CFGLoop* ch = _child; | |
1994 while (ch != NULL) { | |
1995 ch->scale_freq(); | |
1996 ch = ch->_sibling; | |
1997 } | |
1998 } | |
1999 | |
673 | 2000 // Frequency of outer loop |
14909 | 2001 float CFGLoop::outer_loop_freq() const { |
673 | 2002 if (_child != NULL) { |
2003 return _child->_freq; | |
2004 } | |
2005 return _freq; | |
2006 } | |
2007 | |
0 | 2008 #ifndef PRODUCT |
2009 //------------------------------dump_tree-------------------------------------- | |
2010 void CFGLoop::dump_tree() const { | |
2011 dump(); | |
2012 if (_child != NULL) _child->dump_tree(); | |
2013 if (_sibling != NULL) _sibling->dump_tree(); | |
2014 } | |
2015 | |
2016 //------------------------------dump------------------------------------------- | |
2017 void CFGLoop::dump() const { | |
2018 for (int i = 0; i < _depth; i++) tty->print(" "); | |
2019 tty->print("%s: %d trip_count: %6.0f freq: %6.0f\n", | |
2020 _depth == 0 ? "Method" : "Loop", _id, trip_count(), _freq); | |
2021 for (int i = 0; i < _depth; i++) tty->print(" "); | |
2022 tty->print(" members:", _id); | |
2023 int k = 0; | |
2024 for (int i = 0; i < _members.length(); i++) { | |
2025 if (k++ >= 6) { | |
2026 tty->print("\n "); | |
2027 for (int j = 0; j < _depth+1; j++) tty->print(" "); | |
2028 k = 0; | |
2029 } | |
2030 CFGElement *s = _members.at(i); | |
2031 if (s->is_block()) { | |
2032 Block *b = s->as_Block(); | |
2033 tty->print(" B%d(%6.3f)", b->_pre_order, b->_freq); | |
2034 } else { | |
2035 CFGLoop* lp = s->as_CFGLoop(); | |
2036 tty->print(" L%d(%6.3f)", lp->_id, lp->_freq); | |
2037 } | |
2038 } | |
2039 tty->print("\n"); | |
2040 for (int i = 0; i < _depth; i++) tty->print(" "); | |
2041 tty->print(" exits: "); | |
2042 k = 0; | |
2043 for (int i = 0; i < _exits.length(); i++) { | |
2044 if (k++ >= 7) { | |
2045 tty->print("\n "); | |
2046 for (int j = 0; j < _depth+1; j++) tty->print(" "); | |
2047 k = 0; | |
2048 } | |
2049 Block *blk = _exits.at(i).get_target(); | |
14909 | 2050 float prob = _exits.at(i).get_prob(); |
0 | 2051 tty->print(" ->%d@%d%%", blk->_pre_order, (int)(prob*100)); |
2052 } | |
2053 tty->print("\n"); | |
2054 } | |
2055 #endif |