diff -r 7b818806118b -r bf7c8dfb5121 hotspot/src/share/vm/opto/loopnode.cpp --- a/hotspot/src/share/vm/opto/loopnode.cpp Fri Oct 05 19:44:49 2012 -0700 +++ b/hotspot/src/share/vm/opto/loopnode.cpp Mon Oct 08 13:02:13 2012 -0700 @@ -328,12 +328,12 @@ const TypeInt* limit_t = gvn->type(limit)->is_int(); if (stride_con > 0) { - long init_p = (long)init_t->_lo + stride_con; - if (init_p > (long)max_jint || init_p > (long)limit_t->_hi) + jlong init_p = (jlong)init_t->_lo + stride_con; + if (init_p > (jlong)max_jint || init_p > (jlong)limit_t->_hi) return false; // cyclic loop or this loop trips only once } else { - long init_p = (long)init_t->_hi + stride_con; - if (init_p < (long)min_jint || init_p < (long)limit_t->_lo) + jlong init_p = (jlong)init_t->_hi + stride_con; + if (init_p < (jlong)min_jint || init_p < (jlong)limit_t->_lo) return false; // cyclic loop or this loop trips only once } @@ -716,16 +716,16 @@ #endif if (cl->has_exact_trip_count()) { // Simple case: loop has constant boundaries. - // Use longs to avoid integer overflow. + // Use jlongs to avoid integer overflow. int stride_con = cl->stride_con(); - long init_con = cl->init_trip()->get_int(); - long limit_con = cl->limit()->get_int(); + jlong init_con = cl->init_trip()->get_int(); + jlong limit_con = cl->limit()->get_int(); julong trip_cnt = cl->trip_count(); - long final_con = init_con + trip_cnt*stride_con; + jlong final_con = init_con + trip_cnt*stride_con; int final_int = (int)final_con; // The final value should be in integer range since the loop // is counted and the limit was checked for overflow. - assert(final_con == (long)final_int, "final value should be integer"); + assert(final_con == (jlong)final_int, "final value should be integer"); limit = _igvn.intcon(final_int); } else { // Create new LoopLimit node to get exact limit (final iv value). @@ -790,16 +790,16 @@ return NULL; // Identity if (init_t->is_int()->is_con() && limit_t->is_int()->is_con()) { - // Use longs to avoid integer overflow. - long init_con = init_t->is_int()->get_con(); - long limit_con = limit_t->is_int()->get_con(); + // Use jlongs to avoid integer overflow. + jlong init_con = init_t->is_int()->get_con(); + jlong limit_con = limit_t->is_int()->get_con(); int stride_m = stride_con - (stride_con > 0 ? 1 : -1); - long trip_count = (limit_con - init_con + stride_m)/stride_con; - long final_con = init_con + stride_con*trip_count; + jlong trip_count = (limit_con - init_con + stride_m)/stride_con; + jlong final_con = init_con + stride_con*trip_count; int final_int = (int)final_con; // The final value should be in integer range since the loop // is counted and the limit was checked for overflow. - assert(final_con == (long)final_int, "final value should be integer"); + assert(final_con == (jlong)final_int, "final value should be integer"); return TypeInt::make(final_int); } @@ -829,7 +829,7 @@ const TypeInt* init_t = phase->type(in(Init) )->is_int(); const TypeInt* limit_t = phase->type(in(Limit))->is_int(); int stride_p; - long lim, ini; + jlong lim, ini; julong max; if (stride_con > 0) { stride_p = stride_con;