/* * Copyright (c) 1997, 2012, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. * */ #include "precompiled.hpp" #include "libadt/set.hpp" #include "memory/allocation.inline.hpp" // Sets - An Abstract Data Type // %%%%% includes not needed with AVM framework - Ungar // #include "port.hpp" //IMPLEMENTATION // #include "set.hpp" #include #include #include #include // Not needed and it causes terouble for gcc. // // #include //-------------------------Virtual Functions----------------------------------- // These functions MUST be implemented by the inheriting class. class SparseSet; /* Removed for MCC BUG Set::operator const SparseSet*() const { assert(0); return NULL; } */ const SparseSet *Set::asSparseSet() const { assert(0); return NULL; } class VectorSet; /* Removed for MCC BUG Set::operator const VectorSet*() const { assert(0); return NULL; } */ const VectorSet *Set::asVectorSet() const { assert(0); return NULL; } class ListSet; /* Removed for MCC BUG Set::operator const ListSet*() const { assert(0); return NULL; } */ const ListSet *Set::asListSet() const { assert(0); return NULL; } class CoSet; /* Removed for MCC BUG Set::operator const CoSet*() const { assert(0); return NULL; } */ const CoSet *Set::asCoSet() const { assert(0); return NULL; } //------------------------------setstr----------------------------------------- // Create a string with a printable representation of a set. // The caller must deallocate the string. char *Set::setstr() const { if( !this ) return os::strdup("{no set}"); Set &set = clone(); // Virtually copy the basic set. set.Sort(); // Sort elements for in-order retrieval uint len = 128; // Total string space char *buf = NEW_C_HEAP_ARRAY(char,len, mtCompiler);// Some initial string space register char *s = buf; // Current working string pointer *s++ = '{'; *s = '\0'; // For all elements of the Set uint hi = (uint)-2, lo = (uint)-2; for( SetI i(&set); i.test(); ++i ) { if( hi+1 == i.elem ) { // Moving sequentially thru range? hi = i.elem; // Yes, just update hi end of range } else { // Else range ended if( buf+len-s < 25 ) { // Generous trailing space for upcoming numbers int offset = (int)(s-buf);// Not enuf space; compute offset into buffer len <<= 1; // Double string size buf = REALLOC_C_HEAP_ARRAY(char,buf,len, mtCompiler); // Reallocate doubled size s = buf+offset; // Get working pointer into new bigger buffer } if( lo != (uint)-2 ) { // Startup? No! Then print previous range. if( lo != hi ) sprintf(s,"%d-%d,",lo,hi); else sprintf(s,"%d,",lo); s += strlen(s); // Advance working string } hi = lo = i.elem; } } if( lo != (uint)-2 ) { if( buf+len-s < 25 ) { // Generous trailing space for upcoming numbers int offset = (int)(s-buf);// Not enuf space; compute offset into buffer len <<= 1; // Double string size buf = (char*)ReallocateHeap(buf,len, mtCompiler); // Reallocate doubled size s = buf+offset; // Get working pointer into new bigger buffer } if( lo != hi ) sprintf(s,"%d-%d}",lo,hi); else sprintf(s,"%d}",lo); } else strcat(s,"}"); // Don't delete the clone 'set' since it is allocated on Arena. return buf; } //------------------------------print------------------------------------------ // Handier print routine void Set::print() const { char *printable_set = setstr(); tty->print_cr(printable_set); FreeHeap(printable_set); } //------------------------------parse------------------------------------------ // Convert a textual representation of a Set, to a Set and union into "this" // Set. Return the amount of text parsed in "len", or zero in "len". int Set::parse(const char *s) { register char c; // Parse character register const char *t = s; // Save the starting position of s. do c = *s++; // Skip characters while( c && (c <= ' ') ); // Till no more whitespace or EOS if( c != '{' ) return 0; // Oops, not a Set openner if( *s == '}' ) return 2; // The empty Set // Sets are filled with values of the form "xx," or "xx-yy," with the comma // a "}" at the very end. while( 1 ) { // While have elements in the Set char *u; // Pointer to character ending parse uint hi, i; // Needed for range handling below uint elem = (uint)strtoul(s,&u,10);// Get element if( u == s ) return 0; // Bogus crude s = u; // Skip over the number c = *s++; // Get the number seperator switch ( c ) { // Different seperators case '}': // Last simple element case ',': // Simple element (*this) <<= elem; // Insert the simple element into the Set break; // Go get next element case '-': // Range hi = (uint)strtoul(s,&u,10); // Get element if( u == s ) return 0; // Bogus crude for( i=elem; i<=hi; i++ ) (*this) <<= i; // Insert the entire range into the Set s = u; // Skip over the number c = *s++; // Get the number seperator break; } if( c == '}' ) break; // End of the Set if( c != ',' ) return 0; // Bogus garbage } return (int)(s-t); // Return length parsed } //------------------------------Iterator--------------------------------------- SetI_::~SetI_() { }