author | iveresov |
Thu, 22 Jan 2015 11:25:23 -0800 | |
changeset 28723 | 0a36120cb225 |
parent 27416 | 862162c5a8e0 |
child 43482 | 7417485c50f9 |
permissions | -rw-r--r-- |
1 | 1 |
/* |
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* Copyright (c) 1997, 2013, Oracle and/or its affiliates. All rights reserved. |
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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. |
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* |
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* This code is free software; you can redistribute it and/or modify it |
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* under the terms of the GNU General Public License version 2 only, as |
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* published by the Free Software Foundation. |
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* |
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* This code is distributed in the hope that it will be useful, but WITHOUT |
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or |
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License |
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* version 2 for more details (a copy is included in the LICENSE file that |
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* accompanied this code). |
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* |
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* You should have received a copy of the GNU General Public License version |
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* 2 along with this work; if not, write to the Free Software Foundation, |
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* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. |
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* |
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* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA |
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* or visit www.oracle.com if you need additional information or have any |
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* questions. |
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* |
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*/ |
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||
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#include "precompiled.hpp" |
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#include "memory/allocation.inline.hpp" |
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#include "opto/block.hpp" |
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#include "opto/cfgnode.hpp" |
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#include "opto/chaitin.hpp" |
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#include "opto/coalesce.hpp" |
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#include "opto/connode.hpp" |
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#include "opto/indexSet.hpp" |
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#include "opto/machnode.hpp" |
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#include "opto/matcher.hpp" |
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#include "opto/regmask.hpp" |
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#ifndef PRODUCT |
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void PhaseCoalesce::dump(Node *n) const { |
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// Being a const function means I cannot use 'Find' |
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uint r = _phc._lrg_map.find(n); |
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tty->print("L%d/N%d ",r,n->_idx); |
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} |
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||
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void PhaseCoalesce::dump() const { |
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// I know I have a block layout now, so I can print blocks in a loop |
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for( uint i=0; i<_phc._cfg.number_of_blocks(); i++ ) { |
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uint j; |
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Block* b = _phc._cfg.get_block(i); |
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// Print a nice block header |
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tty->print("B%d: ",b->_pre_order); |
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for( j=1; j<b->num_preds(); j++ ) |
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tty->print("B%d ", _phc._cfg.get_block_for_node(b->pred(j))->_pre_order); |
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tty->print("-> "); |
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for( j=0; j<b->_num_succs; j++ ) |
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tty->print("B%d ",b->_succs[j]->_pre_order); |
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tty->print(" IDom: B%d/#%d\n", b->_idom ? b->_idom->_pre_order : 0, b->_dom_depth); |
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uint cnt = b->number_of_nodes(); |
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for( j=0; j<cnt; j++ ) { |
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Node *n = b->get_node(j); |
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dump( n ); |
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tty->print("\t%s\t",n->Name()); |
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// Dump the inputs |
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uint k; // Exit value of loop |
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for( k=0; k<n->req(); k++ ) // For all required inputs |
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if( n->in(k) ) dump( n->in(k) ); |
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else tty->print("_ "); |
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int any_prec = 0; |
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for( ; k<n->len(); k++ ) // For all precedence inputs |
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if( n->in(k) ) { |
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if( !any_prec++ ) tty->print(" |"); |
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dump( n->in(k) ); |
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} |
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// Dump node-specific info |
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n->dump_spec(tty); |
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tty->print("\n"); |
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} |
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tty->print("\n"); |
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} |
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} |
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#endif |
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// Combine the live ranges def'd by these 2 Nodes. N2 is an input to N1. |
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void PhaseCoalesce::combine_these_two(Node *n1, Node *n2) { |
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uint lr1 = _phc._lrg_map.find(n1); |
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uint lr2 = _phc._lrg_map.find(n2); |
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if( lr1 != lr2 && // Different live ranges already AND |
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!_phc._ifg->test_edge_sq( lr1, lr2 ) ) { // Do not interfere |
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LRG *lrg1 = &_phc.lrgs(lr1); |
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LRG *lrg2 = &_phc.lrgs(lr2); |
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// Not an oop->int cast; oop->oop, int->int, AND int->oop are OK. |
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// Now, why is int->oop OK? We end up declaring a raw-pointer as an oop |
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// and in general that's a bad thing. However, int->oop conversions only |
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// happen at GC points, so the lifetime of the misclassified raw-pointer |
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// is from the CheckCastPP (that converts it to an oop) backwards up |
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// through a merge point and into the slow-path call, and around the |
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// diamond up to the heap-top check and back down into the slow-path call. |
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// The misclassified raw pointer is NOT live across the slow-path call, |
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// and so does not appear in any GC info, so the fact that it is |
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// misclassified is OK. |
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if( (lrg1->_is_oop || !lrg2->_is_oop) && // not an oop->int cast AND |
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// Compatible final mask |
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lrg1->mask().overlap( lrg2->mask() ) ) { |
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// Merge larger into smaller. |
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if( lr1 > lr2 ) { |
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uint tmp = lr1; lr1 = lr2; lr2 = tmp; |
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Node *n = n1; n1 = n2; n2 = n; |
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LRG *ltmp = lrg1; lrg1 = lrg2; lrg2 = ltmp; |
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} |
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// Union lr2 into lr1 |
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_phc.Union( n1, n2 ); |
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if (lrg1->_maxfreq < lrg2->_maxfreq) |
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lrg1->_maxfreq = lrg2->_maxfreq; |
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// Merge in the IFG |
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_phc._ifg->Union( lr1, lr2 ); |
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// Combine register restrictions |
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lrg1->AND(lrg2->mask()); |
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} |
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} |
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} |
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// Copy coalescing |
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void PhaseCoalesce::coalesce_driver() { |
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verify(); |
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// Coalesce from high frequency to low |
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for (uint i = 0; i < _phc._cfg.number_of_blocks(); i++) { |
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coalesce(_phc._blks[i]); |
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} |
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} |
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// I am inserting copies to come out of SSA form. In the general case, I am |
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// doing a parallel renaming. I'm in the Named world now, so I can't do a |
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// general parallel renaming. All the copies now use "names" (live-ranges) |
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// to carry values instead of the explicit use-def chains. Suppose I need to |
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// insert 2 copies into the same block. They copy L161->L128 and L128->L132. |
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// If I insert them in the wrong order then L128 will get clobbered before it |
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// can get used by the second copy. This cannot happen in the SSA model; |
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// direct use-def chains get me the right value. It DOES happen in the named |
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// model so I have to handle the reordering of copies. |
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// |
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// In general, I need to topo-sort the placed copies to avoid conflicts. |
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// Its possible to have a closed cycle of copies (e.g., recirculating the same |
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// values around a loop). In this case I need a temp to break the cycle. |
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void PhaseAggressiveCoalesce::insert_copy_with_overlap( Block *b, Node *copy, uint dst_name, uint src_name ) { |
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// Scan backwards for the locations of the last use of the dst_name. |
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// I am about to clobber the dst_name, so the copy must be inserted |
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// after the last use. Last use is really first-use on a backwards scan. |
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uint i = b->end_idx()-1; |
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while(1) { |
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Node *n = b->get_node(i); |
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// Check for end of virtual copies; this is also the end of the |
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// parallel renaming effort. |
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if (n->_idx < _unique) { |
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break; |
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} |
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uint idx = n->is_Copy(); |
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assert( idx || n->is_Con() || n->is_MachProj(), "Only copies during parallel renaming" ); |
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if (idx && _phc._lrg_map.find(n->in(idx)) == dst_name) { |
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break; |
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} |
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i--; |
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} |
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uint last_use_idx = i; |
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// Also search for any kill of src_name that exits the block. |
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// Since the copy uses src_name, I have to come before any kill. |
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uint kill_src_idx = b->end_idx(); |
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// There can be only 1 kill that exits any block and that is |
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// the last kill. Thus it is the first kill on a backwards scan. |
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i = b->end_idx()-1; |
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while (1) { |
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Node *n = b->get_node(i); |
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// Check for end of virtual copies; this is also the end of the |
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// parallel renaming effort. |
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if (n->_idx < _unique) { |
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break; |
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} |
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assert( n->is_Copy() || n->is_Con() || n->is_MachProj(), "Only copies during parallel renaming" ); |
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if (_phc._lrg_map.find(n) == src_name) { |
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kill_src_idx = i; |
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break; |
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} |
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i--; |
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} |
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// Need a temp? Last use of dst comes after the kill of src? |
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if (last_use_idx >= kill_src_idx) { |
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// Need to break a cycle with a temp |
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uint idx = copy->is_Copy(); |
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Node *tmp = copy->clone(); |
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uint max_lrg_id = _phc._lrg_map.max_lrg_id(); |
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_phc.new_lrg(tmp, max_lrg_id); |
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_phc._lrg_map.set_max_lrg_id(max_lrg_id + 1); |
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// Insert new temp between copy and source |
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tmp ->set_req(idx,copy->in(idx)); |
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copy->set_req(idx,tmp); |
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// Save source in temp early, before source is killed |
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b->insert_node(tmp, kill_src_idx); |
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_phc._cfg.map_node_to_block(tmp, b); |
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last_use_idx++; |
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} |
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// Insert just after last use |
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b->insert_node(copy, last_use_idx + 1); |
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} |
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void PhaseAggressiveCoalesce::insert_copies( Matcher &matcher ) { |
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// We do LRGs compressing and fix a liveout data only here since the other |
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// place in Split() is guarded by the assert which we never hit. |
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_phc._lrg_map.compress_uf_map_for_nodes(); |
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// Fix block's liveout data for compressed live ranges. |
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for (uint lrg = 1; lrg < _phc._lrg_map.max_lrg_id(); lrg++) { |
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uint compressed_lrg = _phc._lrg_map.find(lrg); |
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if (lrg != compressed_lrg) { |
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for (uint bidx = 0; bidx < _phc._cfg.number_of_blocks(); bidx++) { |
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IndexSet *liveout = _phc._live->live(_phc._cfg.get_block(bidx)); |
17013 | 222 |
if (liveout->member(lrg)) { |
1 | 223 |
liveout->remove(lrg); |
224 |
liveout->insert(compressed_lrg); |
|
225 |
} |
|
226 |
} |
|
227 |
} |
|
228 |
} |
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229 |
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// All new nodes added are actual copies to replace virtual copies. |
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// Nodes with index less than '_unique' are original, non-virtual Nodes. |
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_unique = C->unique(); |
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for (uint i = 0; i < _phc._cfg.number_of_blocks(); i++) { |
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C->check_node_count(NodeLimitFudgeFactor, "out of nodes in coalesce"); |
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if (C->failing()) return; |
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Block *b = _phc._cfg.get_block(i); |
1 | 238 |
uint cnt = b->num_preds(); // Number of inputs to the Phi |
239 |
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for( uint l = 1; l<b->number_of_nodes(); l++ ) { |
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Node *n = b->get_node(l); |
1 | 242 |
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243 |
// Do not use removed-copies, use copied value instead |
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244 |
uint ncnt = n->req(); |
|
245 |
for( uint k = 1; k<ncnt; k++ ) { |
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246 |
Node *copy = n->in(k); |
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247 |
uint cidx = copy->is_Copy(); |
|
248 |
if( cidx ) { |
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249 |
Node *def = copy->in(cidx); |
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17013 | 250 |
if (_phc._lrg_map.find(copy) == _phc._lrg_map.find(def)) { |
251 |
n->set_req(k, def); |
|
252 |
} |
|
1 | 253 |
} |
254 |
} |
|
255 |
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256 |
// Remove any explicit copies that get coalesced. |
|
257 |
uint cidx = n->is_Copy(); |
|
258 |
if( cidx ) { |
|
259 |
Node *def = n->in(cidx); |
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17013 | 260 |
if (_phc._lrg_map.find(n) == _phc._lrg_map.find(def)) { |
1 | 261 |
n->replace_by(def); |
262 |
n->set_req(cidx,NULL); |
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b->remove_node(l); |
1 | 264 |
l--; |
265 |
continue; |
|
266 |
} |
|
267 |
} |
|
268 |
||
17013 | 269 |
if (n->is_Phi()) { |
1 | 270 |
// Get the chosen name for the Phi |
17013 | 271 |
uint phi_name = _phc._lrg_map.find(n); |
1 | 272 |
// Ignore the pre-allocated specials |
17013 | 273 |
if (!phi_name) { |
274 |
continue; |
|
275 |
} |
|
1 | 276 |
// Check for mismatch inputs to Phi |
17013 | 277 |
for (uint j = 1; j < cnt; j++) { |
1 | 278 |
Node *m = n->in(j); |
17013 | 279 |
uint src_name = _phc._lrg_map.find(m); |
280 |
if (src_name != phi_name) { |
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Block *pred = _phc._cfg.get_block_for_node(b->pred(j)); |
1 | 282 |
Node *copy; |
283 |
assert(!m->is_Con() || m->is_Mach(), "all Con must be Mach"); |
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// Rematerialize constants instead of copying them. |
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// We do this only for immediate constants, we avoid constant table loads |
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// because that will unsafely extend the live range of the constant table base. |
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if (m->is_Mach() && m->as_Mach()->is_Con() && !m->as_Mach()->is_MachConstant() && |
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288 |
m->as_Mach()->rematerialize()) { |
1 | 289 |
copy = m->clone(); |
290 |
// Insert the copy in the predecessor basic block |
|
291 |
pred->add_inst(copy); |
|
292 |
// Copy any flags as well |
|
17013 | 293 |
_phc.clone_projs(pred, pred->end_idx(), m, copy, _phc._lrg_map); |
1 | 294 |
} else { |
295 |
const RegMask *rm = C->matcher()->idealreg2spillmask[m->ideal_reg()]; |
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copy = new MachSpillCopyNode(MachSpillCopyNode::PhiInput, m, *rm, *rm); |
1 | 297 |
// Find a good place to insert. Kinda tricky, use a subroutine |
298 |
insert_copy_with_overlap(pred,copy,phi_name,src_name); |
|
299 |
} |
|
300 |
// Insert the copy in the use-def chain |
|
17013 | 301 |
n->set_req(j, copy); |
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302 |
_phc._cfg.map_node_to_block(copy, pred); |
1 | 303 |
// Extend ("register allocate") the names array for the copy. |
17013 | 304 |
_phc._lrg_map.extend(copy->_idx, phi_name); |
1 | 305 |
} // End of if Phi names do not match |
306 |
} // End of for all inputs to Phi |
|
307 |
} else { // End of if Phi |
|
308 |
||
309 |
// Now check for 2-address instructions |
|
310 |
uint idx; |
|
311 |
if( n->is_Mach() && (idx=n->as_Mach()->two_adr()) ) { |
|
312 |
// Get the chosen name for the Node |
|
17013 | 313 |
uint name = _phc._lrg_map.find(n); |
314 |
assert (name, "no 2-address specials"); |
|
1 | 315 |
// Check for name mis-match on the 2-address input |
316 |
Node *m = n->in(idx); |
|
17013 | 317 |
if (_phc._lrg_map.find(m) != name) { |
1 | 318 |
Node *copy; |
319 |
assert(!m->is_Con() || m->is_Mach(), "all Con must be Mach"); |
|
320 |
// At this point it is unsafe to extend live ranges (6550579). |
|
321 |
// Rematerialize only constants as we do for Phi above. |
|
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|
322 |
if (m->is_Mach() && m->as_Mach()->is_Con() && !m->as_Mach()->is_MachConstant() && |
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|
323 |
m->as_Mach()->rematerialize()) { |
1 | 324 |
copy = m->clone(); |
325 |
// Insert the copy in the basic block, just before us |
|
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|
326 |
b->insert_node(copy, l++); |
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|
327 |
l += _phc.clone_projs(b, l, m, copy, _phc._lrg_map); |
1 | 328 |
} else { |
329 |
const RegMask *rm = C->matcher()->idealreg2spillmask[m->ideal_reg()]; |
|
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330 |
copy = new MachSpillCopyNode(MachSpillCopyNode::TwoAddress, m, *rm, *rm); |
1 | 331 |
// Insert the copy in the basic block, just before us |
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332 |
b->insert_node(copy, l++); |
1 | 333 |
} |
334 |
// Insert the copy in the use-def chain |
|
17013 | 335 |
n->set_req(idx, copy); |
1 | 336 |
// Extend ("register allocate") the names array for the copy. |
17013 | 337 |
_phc._lrg_map.extend(copy->_idx, name); |
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|
338 |
_phc._cfg.map_node_to_block(copy, b); |
1 | 339 |
} |
340 |
||
341 |
} // End of is two-adr |
|
342 |
||
343 |
// Insert a copy at a debug use for a lrg which has high frequency |
|
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|
344 |
if (b->_freq < OPTO_DEBUG_SPLIT_FREQ || _phc._cfg.is_uncommon(b)) { |
1 | 345 |
// Walk the debug inputs to the node and check for lrg freq |
346 |
JVMState* jvms = n->jvms(); |
|
347 |
uint debug_start = jvms ? jvms->debug_start() : 999999; |
|
348 |
uint debug_end = jvms ? jvms->debug_end() : 999999; |
|
349 |
for(uint inpidx = debug_start; inpidx < debug_end; inpidx++) { |
|
350 |
// Do not split monitors; they are only needed for debug table |
|
351 |
// entries and need no code. |
|
17013 | 352 |
if (jvms->is_monitor_use(inpidx)) { |
353 |
continue; |
|
354 |
} |
|
1 | 355 |
Node *inp = n->in(inpidx); |
17013 | 356 |
uint nidx = _phc._lrg_map.live_range_id(inp); |
1 | 357 |
LRG &lrg = lrgs(nidx); |
358 |
||
359 |
// If this lrg has a high frequency use/def |
|
2340 | 360 |
if( lrg._maxfreq >= _phc.high_frequency_lrg() ) { |
1 | 361 |
// If the live range is also live out of this block (like it |
362 |
// would be for a fast/slow idiom), the normal spill mechanism |
|
363 |
// does an excellent job. If it is not live out of this block |
|
364 |
// (like it would be for debug info to uncommon trap) splitting |
|
365 |
// the live range now allows a better allocation in the high |
|
366 |
// frequency blocks. |
|
367 |
// Build_IFG_virtual has converted the live sets to |
|
368 |
// live-IN info, not live-OUT info. |
|
369 |
uint k; |
|
370 |
for( k=0; k < b->_num_succs; k++ ) |
|
371 |
if( _phc._live->live(b->_succs[k])->member( nidx ) ) |
|
372 |
break; // Live in to some successor block? |
|
373 |
if( k < b->_num_succs ) |
|
374 |
continue; // Live out; do not pre-split |
|
375 |
// Split the lrg at this use |
|
376 |
const RegMask *rm = C->matcher()->idealreg2spillmask[inp->ideal_reg()]; |
|
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377 |
Node* copy = new MachSpillCopyNode(MachSpillCopyNode::DebugUse, inp, *rm, *rm); |
1 | 378 |
// Insert the copy in the use-def chain |
379 |
n->set_req(inpidx, copy ); |
|
380 |
// Insert the copy in the basic block, just before us |
|
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|
381 |
b->insert_node(copy, l++); |
1 | 382 |
// Extend ("register allocate") the names array for the copy. |
17013 | 383 |
uint max_lrg_id = _phc._lrg_map.max_lrg_id(); |
384 |
_phc.new_lrg(copy, max_lrg_id); |
|
385 |
_phc._lrg_map.set_max_lrg_id(max_lrg_id + 1); |
|
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|
386 |
_phc._cfg.map_node_to_block(copy, b); |
1 | 387 |
//tty->print_cr("Split a debug use in Aggressive Coalesce"); |
388 |
} // End of if high frequency use/def |
|
389 |
} // End of for all debug inputs |
|
390 |
} // End of if low frequency safepoint |
|
391 |
||
392 |
} // End of if Phi |
|
393 |
||
394 |
} // End of for all instructions |
|
395 |
} // End of for all blocks |
|
396 |
} |
|
397 |
||
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|
398 |
|
1 | 399 |
// Aggressive (but pessimistic) copy coalescing of a single block |
400 |
||
401 |
// The following coalesce pass represents a single round of aggressive |
|
402 |
// pessimistic coalesce. "Aggressive" means no attempt to preserve |
|
403 |
// colorability when coalescing. This occasionally means more spills, but |
|
404 |
// it also means fewer rounds of coalescing for better code - and that means |
|
405 |
// faster compiles. |
|
406 |
||
407 |
// "Pessimistic" means we do not hit the fixed point in one pass (and we are |
|
408 |
// reaching for the least fixed point to boot). This is typically solved |
|
409 |
// with a few more rounds of coalescing, but the compiler must run fast. We |
|
410 |
// could optimistically coalescing everything touching PhiNodes together |
|
411 |
// into one big live range, then check for self-interference. Everywhere |
|
412 |
// the live range interferes with self it would have to be split. Finding |
|
413 |
// the right split points can be done with some heuristics (based on |
|
414 |
// expected frequency of edges in the live range). In short, it's a real |
|
415 |
// research problem and the timeline is too short to allow such research. |
|
416 |
// Further thoughts: (1) build the LR in a pass, (2) find self-interference |
|
417 |
// in another pass, (3) per each self-conflict, split, (4) split by finding |
|
418 |
// the low-cost cut (min-cut) of the LR, (5) edges in the LR are weighted |
|
419 |
// according to the GCM algorithm (or just exec freq on CFG edges). |
|
420 |
||
421 |
void PhaseAggressiveCoalesce::coalesce( Block *b ) { |
|
422 |
// Copies are still "virtual" - meaning we have not made them explicitly |
|
423 |
// copies. Instead, Phi functions of successor blocks have mis-matched |
|
424 |
// live-ranges. If I fail to coalesce, I'll have to insert a copy to line |
|
425 |
// up the live-ranges. Check for Phis in successor blocks. |
|
426 |
uint i; |
|
427 |
for( i=0; i<b->_num_succs; i++ ) { |
|
428 |
Block *bs = b->_succs[i]; |
|
429 |
// Find index of 'b' in 'bs' predecessors |
|
430 |
uint j=1; |
|
19279
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|
431 |
while (_phc._cfg.get_block_for_node(bs->pred(j)) != b) { |
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|
432 |
j++; |
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|
433 |
} |
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|
434 |
|
1 | 435 |
// Visit all the Phis in successor block |
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|
436 |
for( uint k = 1; k<bs->number_of_nodes(); k++ ) { |
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changeset
|
437 |
Node *n = bs->get_node(k); |
1 | 438 |
if( !n->is_Phi() ) break; |
439 |
combine_these_two( n, n->in(j) ); |
|
440 |
} |
|
441 |
} // End of for all successor blocks |
|
442 |
||
443 |
||
444 |
// Check _this_ block for 2-address instructions and copies. |
|
445 |
uint cnt = b->end_idx(); |
|
446 |
for( i = 1; i<cnt; i++ ) { |
|
19717
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|
447 |
Node *n = b->get_node(i); |
1 | 448 |
uint idx; |
449 |
// 2-address instructions have a virtual Copy matching their input |
|
450 |
// to their output |
|
17013 | 451 |
if (n->is_Mach() && (idx = n->as_Mach()->two_adr())) { |
1 | 452 |
MachNode *mach = n->as_Mach(); |
17013 | 453 |
combine_these_two(mach, mach->in(idx)); |
1 | 454 |
} |
455 |
} // End of for all instructions in block |
|
456 |
} |
|
457 |
||
17013 | 458 |
PhaseConservativeCoalesce::PhaseConservativeCoalesce(PhaseChaitin &chaitin) : PhaseCoalesce(chaitin) { |
459 |
_ulr.initialize(_phc._lrg_map.max_lrg_id()); |
|
1 | 460 |
} |
461 |
||
462 |
void PhaseConservativeCoalesce::verify() { |
|
463 |
#ifdef ASSERT |
|
464 |
_phc.set_was_low(); |
|
465 |
#endif |
|
466 |
} |
|
467 |
||
468 |
void PhaseConservativeCoalesce::union_helper( Node *lr1_node, Node *lr2_node, uint lr1, uint lr2, Node *src_def, Node *dst_copy, Node *src_copy, Block *b, uint bindex ) { |
|
469 |
// Join live ranges. Merge larger into smaller. Union lr2 into lr1 in the |
|
470 |
// union-find tree |
|
471 |
_phc.Union( lr1_node, lr2_node ); |
|
472 |
||
473 |
// Single-def live range ONLY if both live ranges are single-def. |
|
474 |
// If both are single def, then src_def powers one live range |
|
475 |
// and def_copy powers the other. After merging, src_def powers |
|
476 |
// the combined live range. |
|
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|
477 |
lrgs(lr1)._def = (lrgs(lr1).is_multidef() || |
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|
478 |
lrgs(lr2).is_multidef() ) |
1 | 479 |
? NodeSentinel : src_def; |
480 |
lrgs(lr2)._def = NULL; // No def for lrg 2 |
|
481 |
lrgs(lr2).Clear(); // Force empty mask for LRG 2 |
|
482 |
//lrgs(lr2)._size = 0; // Live-range 2 goes dead |
|
483 |
lrgs(lr1)._is_oop |= lrgs(lr2)._is_oop; |
|
484 |
lrgs(lr2)._is_oop = 0; // In particular, not an oop for GC info |
|
485 |
||
486 |
if (lrgs(lr1)._maxfreq < lrgs(lr2)._maxfreq) |
|
487 |
lrgs(lr1)._maxfreq = lrgs(lr2)._maxfreq; |
|
488 |
||
489 |
// Copy original value instead. Intermediate copies go dead, and |
|
490 |
// the dst_copy becomes useless. |
|
491 |
int didx = dst_copy->is_Copy(); |
|
492 |
dst_copy->set_req( didx, src_def ); |
|
493 |
// Add copy to free list |
|
494 |
// _phc.free_spillcopy(b->_nodes[bindex]); |
|
19717
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|
495 |
assert( b->get_node(bindex) == dst_copy, "" ); |
1 | 496 |
dst_copy->replace_by( dst_copy->in(didx) ); |
497 |
dst_copy->set_req( didx, NULL); |
|
19717
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changeset
|
498 |
b->remove_node(bindex); |
1 | 499 |
if( bindex < b->_ihrp_index ) b->_ihrp_index--; |
500 |
if( bindex < b->_fhrp_index ) b->_fhrp_index--; |
|
501 |
||
502 |
// Stretched lr1; add it to liveness of intermediate blocks |
|
19279
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|
503 |
Block *b2 = _phc._cfg.get_block_for_node(src_copy); |
1 | 504 |
while( b != b2 ) { |
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|
505 |
b = _phc._cfg.get_block_for_node(b->pred(1)); |
1 | 506 |
_phc._live->live(b)->insert(lr1); |
507 |
} |
|
508 |
} |
|
509 |
||
510 |
// Factored code from copy_copy that computes extra interferences from |
|
511 |
// lengthening a live range by double-coalescing. |
|
512 |
uint PhaseConservativeCoalesce::compute_separating_interferences(Node *dst_copy, Node *src_copy, Block *b, uint bindex, RegMask &rm, uint reg_degree, uint rm_size, uint lr1, uint lr2 ) { |
|
513 |
||
514 |
assert(!lrgs(lr1)._fat_proj, "cannot coalesce fat_proj"); |
|
515 |
assert(!lrgs(lr2)._fat_proj, "cannot coalesce fat_proj"); |
|
516 |
Node *prev_copy = dst_copy->in(dst_copy->is_Copy()); |
|
517 |
Block *b2 = b; |
|
518 |
uint bindex2 = bindex; |
|
519 |
while( 1 ) { |
|
520 |
// Find previous instruction |
|
521 |
bindex2--; // Chain backwards 1 instruction |
|
522 |
while( bindex2 == 0 ) { // At block start, find prior block |
|
523 |
assert( b2->num_preds() == 2, "cannot double coalesce across c-flow" ); |
|
19279
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|
524 |
b2 = _phc._cfg.get_block_for_node(b2->pred(1)); |
1 | 525 |
bindex2 = b2->end_idx()-1; |
526 |
} |
|
527 |
// Get prior instruction |
|
19717
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changeset
|
528 |
assert(bindex2 < b2->number_of_nodes(), "index out of bounds"); |
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changeset
|
529 |
Node *x = b2->get_node(bindex2); |
1 | 530 |
if( x == prev_copy ) { // Previous copy in copy chain? |
531 |
if( prev_copy == src_copy)// Found end of chain and all interferences |
|
532 |
break; // So break out of loop |
|
533 |
// Else work back one in copy chain |
|
534 |
prev_copy = prev_copy->in(prev_copy->is_Copy()); |
|
535 |
} else { // Else collect interferences |
|
17013 | 536 |
uint lidx = _phc._lrg_map.find(x); |
1 | 537 |
// Found another def of live-range being stretched? |
17013 | 538 |
if(lidx == lr1) { |
539 |
return max_juint; |
|
540 |
} |
|
541 |
if(lidx == lr2) { |
|
542 |
return max_juint; |
|
543 |
} |
|
1 | 544 |
|
545 |
// If we attempt to coalesce across a bound def |
|
546 |
if( lrgs(lidx).is_bound() ) { |
|
547 |
// Do not let the coalesced LRG expect to get the bound color |
|
548 |
rm.SUBTRACT( lrgs(lidx).mask() ); |
|
549 |
// Recompute rm_size |
|
550 |
rm_size = rm.Size(); |
|
551 |
//if( rm._flags ) rm_size += 1000000; |
|
552 |
if( reg_degree >= rm_size ) return max_juint; |
|
553 |
} |
|
554 |
if( rm.overlap(lrgs(lidx).mask()) ) { |
|
555 |
// Insert lidx into union LRG; returns TRUE if actually inserted |
|
556 |
if( _ulr.insert(lidx) ) { |
|
557 |
// Infinite-stack neighbors do not alter colorability, as they |
|
558 |
// can always color to some other color. |
|
559 |
if( !lrgs(lidx).mask().is_AllStack() ) { |
|
560 |
// If this coalesce will make any new neighbor uncolorable, |
|
561 |
// do not coalesce. |
|
562 |
if( lrgs(lidx).just_lo_degree() ) |
|
563 |
return max_juint; |
|
564 |
// Bump our degree |
|
565 |
if( ++reg_degree >= rm_size ) |
|
566 |
return max_juint; |
|
567 |
} // End of if not infinite-stack neighbor |
|
568 |
} // End of if actually inserted |
|
569 |
} // End of if live range overlaps |
|
2131 | 570 |
} // End of else collect interferences for 1 node |
571 |
} // End of while forever, scan back for interferences |
|
1 | 572 |
return reg_degree; |
573 |
} |
|
574 |
||
575 |
void PhaseConservativeCoalesce::update_ifg(uint lr1, uint lr2, IndexSet *n_lr1, IndexSet *n_lr2) { |
|
576 |
// Some original neighbors of lr1 might have gone away |
|
577 |
// because the constrained register mask prevented them. |
|
578 |
// Remove lr1 from such neighbors. |
|
579 |
IndexSetIterator one(n_lr1); |
|
580 |
uint neighbor; |
|
581 |
LRG &lrg1 = lrgs(lr1); |
|
582 |
while ((neighbor = one.next()) != 0) |
|
583 |
if( !_ulr.member(neighbor) ) |
|
584 |
if( _phc._ifg->neighbors(neighbor)->remove(lr1) ) |
|
585 |
lrgs(neighbor).inc_degree( -lrg1.compute_degree(lrgs(neighbor)) ); |
|
586 |
||
587 |
||
588 |
// lr2 is now called (coalesced into) lr1. |
|
589 |
// Remove lr2 from the IFG. |
|
590 |
IndexSetIterator two(n_lr2); |
|
591 |
LRG &lrg2 = lrgs(lr2); |
|
592 |
while ((neighbor = two.next()) != 0) |
|
593 |
if( _phc._ifg->neighbors(neighbor)->remove(lr2) ) |
|
594 |
lrgs(neighbor).inc_degree( -lrg2.compute_degree(lrgs(neighbor)) ); |
|
595 |
||
596 |
// Some neighbors of intermediate copies now interfere with the |
|
597 |
// combined live range. |
|
598 |
IndexSetIterator three(&_ulr); |
|
599 |
while ((neighbor = three.next()) != 0) |
|
600 |
if( _phc._ifg->neighbors(neighbor)->insert(lr1) ) |
|
601 |
lrgs(neighbor).inc_degree( lrg1.compute_degree(lrgs(neighbor)) ); |
|
602 |
} |
|
603 |
||
604 |
static void record_bias( const PhaseIFG *ifg, int lr1, int lr2 ) { |
|
605 |
// Tag copy bias here |
|
606 |
if( !ifg->lrgs(lr1)._copy_bias ) |
|
607 |
ifg->lrgs(lr1)._copy_bias = lr2; |
|
608 |
if( !ifg->lrgs(lr2)._copy_bias ) |
|
609 |
ifg->lrgs(lr2)._copy_bias = lr1; |
|
610 |
} |
|
611 |
||
612 |
// See if I can coalesce a series of multiple copies together. I need the |
|
613 |
// final dest copy and the original src copy. They can be the same Node. |
|
614 |
// Compute the compatible register masks. |
|
17013 | 615 |
bool PhaseConservativeCoalesce::copy_copy(Node *dst_copy, Node *src_copy, Block *b, uint bindex) { |
1 | 616 |
|
17013 | 617 |
if (!dst_copy->is_SpillCopy()) { |
618 |
return false; |
|
619 |
} |
|
620 |
if (!src_copy->is_SpillCopy()) { |
|
621 |
return false; |
|
622 |
} |
|
1 | 623 |
Node *src_def = src_copy->in(src_copy->is_Copy()); |
17013 | 624 |
uint lr1 = _phc._lrg_map.find(dst_copy); |
625 |
uint lr2 = _phc._lrg_map.find(src_def); |
|
1 | 626 |
|
627 |
// Same live ranges already? |
|
17013 | 628 |
if (lr1 == lr2) { |
629 |
return false; |
|
630 |
} |
|
1 | 631 |
|
632 |
// Interfere? |
|
17013 | 633 |
if (_phc._ifg->test_edge_sq(lr1, lr2)) { |
634 |
return false; |
|
635 |
} |
|
1 | 636 |
|
637 |
// Not an oop->int cast; oop->oop, int->int, AND int->oop are OK. |
|
17013 | 638 |
if (!lrgs(lr1)._is_oop && lrgs(lr2)._is_oop) { // not an oop->int cast |
1 | 639 |
return false; |
17013 | 640 |
} |
1 | 641 |
|
642 |
// Coalescing between an aligned live range and a mis-aligned live range? |
|
643 |
// No, no! Alignment changes how we count degree. |
|
17013 | 644 |
if (lrgs(lr1)._fat_proj != lrgs(lr2)._fat_proj) { |
1 | 645 |
return false; |
17013 | 646 |
} |
1 | 647 |
|
648 |
// Sort; use smaller live-range number |
|
649 |
Node *lr1_node = dst_copy; |
|
650 |
Node *lr2_node = src_def; |
|
17013 | 651 |
if (lr1 > lr2) { |
1 | 652 |
uint tmp = lr1; lr1 = lr2; lr2 = tmp; |
653 |
lr1_node = src_def; lr2_node = dst_copy; |
|
654 |
} |
|
655 |
||
656 |
// Check for compatibility of the 2 live ranges by |
|
657 |
// intersecting their allowed register sets. |
|
658 |
RegMask rm = lrgs(lr1).mask(); |
|
659 |
rm.AND(lrgs(lr2).mask()); |
|
660 |
// Number of bits free |
|
661 |
uint rm_size = rm.Size(); |
|
662 |
||
6272
94a20ad0e9de
6978249: spill between cpu and fpu registers when those moves are fast
never
parents:
5547
diff
changeset
|
663 |
if (UseFPUForSpilling && rm.is_AllStack() ) { |
94a20ad0e9de
6978249: spill between cpu and fpu registers when those moves are fast
never
parents:
5547
diff
changeset
|
664 |
// Don't coalesce when frequency difference is large |
19279
4be3c2e6663c
8022284: Hide internal data structure in PhaseCFG
adlertz
parents:
18099
diff
changeset
|
665 |
Block *dst_b = _phc._cfg.get_block_for_node(dst_copy); |
4be3c2e6663c
8022284: Hide internal data structure in PhaseCFG
adlertz
parents:
18099
diff
changeset
|
666 |
Block *src_def_b = _phc._cfg.get_block_for_node(src_def); |
6272
94a20ad0e9de
6978249: spill between cpu and fpu registers when those moves are fast
never
parents:
5547
diff
changeset
|
667 |
if (src_def_b->_freq > 10*dst_b->_freq ) |
94a20ad0e9de
6978249: spill between cpu and fpu registers when those moves are fast
never
parents:
5547
diff
changeset
|
668 |
return false; |
94a20ad0e9de
6978249: spill between cpu and fpu registers when those moves are fast
never
parents:
5547
diff
changeset
|
669 |
} |
94a20ad0e9de
6978249: spill between cpu and fpu registers when those moves are fast
never
parents:
5547
diff
changeset
|
670 |
|
1 | 671 |
// If we can use any stack slot, then effective size is infinite |
672 |
if( rm.is_AllStack() ) rm_size += 1000000; |
|
673 |
// Incompatible masks, no way to coalesce |
|
674 |
if( rm_size == 0 ) return false; |
|
675 |
||
676 |
// Another early bail-out test is when we are double-coalescing and the |
|
2131 | 677 |
// 2 copies are separated by some control flow. |
1 | 678 |
if( dst_copy != src_copy ) { |
19279
4be3c2e6663c
8022284: Hide internal data structure in PhaseCFG
adlertz
parents:
18099
diff
changeset
|
679 |
Block *src_b = _phc._cfg.get_block_for_node(src_copy); |
1 | 680 |
Block *b2 = b; |
681 |
while( b2 != src_b ) { |
|
682 |
if( b2->num_preds() > 2 ){// Found merge-point |
|
683 |
_phc._lost_opp_cflow_coalesce++; |
|
684 |
// extra record_bias commented out because Chris believes it is not |
|
685 |
// productive. Since we can record only 1 bias, we want to choose one |
|
686 |
// that stands a chance of working and this one probably does not. |
|
687 |
//record_bias( _phc._lrgs, lr1, lr2 ); |
|
688 |
return false; // To hard to find all interferences |
|
689 |
} |
|
19279
4be3c2e6663c
8022284: Hide internal data structure in PhaseCFG
adlertz
parents:
18099
diff
changeset
|
690 |
b2 = _phc._cfg.get_block_for_node(b2->pred(1)); |
1 | 691 |
} |
692 |
} |
|
693 |
||
694 |
// Union the two interference sets together into '_ulr' |
|
695 |
uint reg_degree = _ulr.lrg_union( lr1, lr2, rm_size, _phc._ifg, rm ); |
|
696 |
||
697 |
if( reg_degree >= rm_size ) { |
|
698 |
record_bias( _phc._ifg, lr1, lr2 ); |
|
699 |
return false; |
|
700 |
} |
|
701 |
||
702 |
// Now I need to compute all the interferences between dst_copy and |
|
703 |
// src_copy. I'm not willing visit the entire interference graph, so |
|
704 |
// I limit my search to things in dst_copy's block or in a straight |
|
705 |
// line of previous blocks. I give up at merge points or when I get |
|
706 |
// more interferences than my degree. I can stop when I find src_copy. |
|
707 |
if( dst_copy != src_copy ) { |
|
708 |
reg_degree = compute_separating_interferences(dst_copy, src_copy, b, bindex, rm, rm_size, reg_degree, lr1, lr2 ); |
|
709 |
if( reg_degree == max_juint ) { |
|
710 |
record_bias( _phc._ifg, lr1, lr2 ); |
|
711 |
return false; |
|
712 |
} |
|
713 |
} // End of if dst_copy & src_copy are different |
|
714 |
||
715 |
||
716 |
// ---- THE COMBINED LRG IS COLORABLE ---- |
|
717 |
||
718 |
// YEAH - Now coalesce this copy away |
|
719 |
assert( lrgs(lr1).num_regs() == lrgs(lr2).num_regs(), "" ); |
|
720 |
||
721 |
IndexSet *n_lr1 = _phc._ifg->neighbors(lr1); |
|
722 |
IndexSet *n_lr2 = _phc._ifg->neighbors(lr2); |
|
723 |
||
724 |
// Update the interference graph |
|
725 |
update_ifg(lr1, lr2, n_lr1, n_lr2); |
|
726 |
||
727 |
_ulr.remove(lr1); |
|
728 |
||
729 |
// Uncomment the following code to trace Coalescing in great detail. |
|
730 |
// |
|
731 |
//if (false) { |
|
732 |
// tty->cr(); |
|
733 |
// tty->print_cr("#######################################"); |
|
734 |
// tty->print_cr("union %d and %d", lr1, lr2); |
|
735 |
// n_lr1->dump(); |
|
736 |
// n_lr2->dump(); |
|
737 |
// tty->print_cr("resulting set is"); |
|
738 |
// _ulr.dump(); |
|
739 |
//} |
|
740 |
||
741 |
// Replace n_lr1 with the new combined live range. _ulr will use |
|
742 |
// n_lr1's old memory on the next iteration. n_lr2 is cleared to |
|
743 |
// send its internal memory to the free list. |
|
744 |
_ulr.swap(n_lr1); |
|
745 |
_ulr.clear(); |
|
746 |
n_lr2->clear(); |
|
747 |
||
748 |
lrgs(lr1).set_degree( _phc._ifg->effective_degree(lr1) ); |
|
749 |
lrgs(lr2).set_degree( 0 ); |
|
750 |
||
751 |
// Join live ranges. Merge larger into smaller. Union lr2 into lr1 in the |
|
752 |
// union-find tree |
|
753 |
union_helper( lr1_node, lr2_node, lr1, lr2, src_def, dst_copy, src_copy, b, bindex ); |
|
754 |
// Combine register restrictions |
|
755 |
lrgs(lr1).set_mask(rm); |
|
756 |
lrgs(lr1).compute_set_mask_size(); |
|
757 |
lrgs(lr1)._cost += lrgs(lr2)._cost; |
|
758 |
lrgs(lr1)._area += lrgs(lr2)._area; |
|
759 |
||
760 |
// While its uncommon to successfully coalesce live ranges that started out |
|
761 |
// being not-lo-degree, it can happen. In any case the combined coalesced |
|
762 |
// live range better Simplify nicely. |
|
763 |
lrgs(lr1)._was_lo = 1; |
|
764 |
||
765 |
// kinda expensive to do all the time |
|
766 |
//tty->print_cr("warning: slow verify happening"); |
|
767 |
//_phc._ifg->verify( &_phc ); |
|
768 |
return true; |
|
769 |
} |
|
770 |
||
771 |
// Conservative (but pessimistic) copy coalescing of a single block |
|
772 |
void PhaseConservativeCoalesce::coalesce( Block *b ) { |
|
773 |
// Bail out on infrequent blocks |
|
19721
8ecbb2cdc965
8023988: Move local scheduling of nodes to the CFG creation and code motion phase (PhaseCFG)
adlertz
parents:
19717
diff
changeset
|
774 |
if (_phc._cfg.is_uncommon(b)) { |
1 | 775 |
return; |
19279
4be3c2e6663c
8022284: Hide internal data structure in PhaseCFG
adlertz
parents:
18099
diff
changeset
|
776 |
} |
1 | 777 |
// Check this block for copies. |
778 |
for( uint i = 1; i<b->end_idx(); i++ ) { |
|
779 |
// Check for actual copies on inputs. Coalesce a copy into its |
|
780 |
// input if use and copy's input are compatible. |
|
19717
7819ffdaf0ff
8023691: Create interface for nodes in class Block
adlertz
parents:
19334
diff
changeset
|
781 |
Node *copy1 = b->get_node(i); |
1 | 782 |
uint idx1 = copy1->is_Copy(); |
783 |
if( !idx1 ) continue; // Not a copy |
|
784 |
||
785 |
if( copy_copy(copy1,copy1,b,i) ) { |
|
786 |
i--; // Retry, same location in block |
|
787 |
PhaseChaitin::_conserv_coalesce++; // Collect stats on success |
|
788 |
continue; |
|
789 |
} |
|
790 |
} |
|
791 |
} |