/* * Copyright 1999-2009 Sun Microsystems, Inc. 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 Sun Microsystems, Inc., 4150 Network Circle, Santa Clara, * CA 95054 USA or visit www.sun.com if you need additional information or * have any questions. * */ # include "incls/_precompiled.incl" # include "incls/_c1_FrameMap_sparc.cpp.incl" const int FrameMap::pd_c_runtime_reserved_arg_size = 7; LIR_Opr FrameMap::map_to_opr(BasicType type, VMRegPair* reg, bool outgoing) { LIR_Opr opr = LIR_OprFact::illegalOpr; VMReg r_1 = reg->first(); VMReg r_2 = reg->second(); if (r_1->is_stack()) { // Convert stack slot to an SP offset // The calling convention does not count the SharedRuntime::out_preserve_stack_slots() value // so we must add it in here. int st_off = (r_1->reg2stack() + SharedRuntime::out_preserve_stack_slots()) * VMRegImpl::stack_slot_size; opr = LIR_OprFact::address(new LIR_Address(SP_opr, st_off + STACK_BIAS, type)); } else if (r_1->is_Register()) { Register reg = r_1->as_Register(); if (outgoing) { assert(!reg->is_in(), "should be using I regs"); } else { assert(!reg->is_out(), "should be using O regs"); } if (r_2->is_Register() && (type == T_LONG || type == T_DOUBLE)) { opr = as_long_opr(reg); } else if (type == T_OBJECT || type == T_ARRAY) { opr = as_oop_opr(reg); } else { opr = as_opr(reg); } } else if (r_1->is_FloatRegister()) { assert(type == T_DOUBLE || type == T_FLOAT, "wrong type"); FloatRegister f = r_1->as_FloatRegister(); if (type == T_DOUBLE) { opr = as_double_opr(f); } else { opr = as_float_opr(f); } } return opr; } // FrameMap //-------------------------------------------------------- FloatRegister FrameMap::_fpu_regs [FrameMap::nof_fpu_regs]; // some useful constant RInfo's: LIR_Opr FrameMap::in_long_opr; LIR_Opr FrameMap::out_long_opr; LIR_Opr FrameMap::F0_opr; LIR_Opr FrameMap::F0_double_opr; LIR_Opr FrameMap::G0_opr; LIR_Opr FrameMap::G1_opr; LIR_Opr FrameMap::G2_opr; LIR_Opr FrameMap::G3_opr; LIR_Opr FrameMap::G4_opr; LIR_Opr FrameMap::G5_opr; LIR_Opr FrameMap::G6_opr; LIR_Opr FrameMap::G7_opr; LIR_Opr FrameMap::O0_opr; LIR_Opr FrameMap::O1_opr; LIR_Opr FrameMap::O2_opr; LIR_Opr FrameMap::O3_opr; LIR_Opr FrameMap::O4_opr; LIR_Opr FrameMap::O5_opr; LIR_Opr FrameMap::O6_opr; LIR_Opr FrameMap::O7_opr; LIR_Opr FrameMap::L0_opr; LIR_Opr FrameMap::L1_opr; LIR_Opr FrameMap::L2_opr; LIR_Opr FrameMap::L3_opr; LIR_Opr FrameMap::L4_opr; LIR_Opr FrameMap::L5_opr; LIR_Opr FrameMap::L6_opr; LIR_Opr FrameMap::L7_opr; LIR_Opr FrameMap::I0_opr; LIR_Opr FrameMap::I1_opr; LIR_Opr FrameMap::I2_opr; LIR_Opr FrameMap::I3_opr; LIR_Opr FrameMap::I4_opr; LIR_Opr FrameMap::I5_opr; LIR_Opr FrameMap::I6_opr; LIR_Opr FrameMap::I7_opr; LIR_Opr FrameMap::G0_oop_opr; LIR_Opr FrameMap::G1_oop_opr; LIR_Opr FrameMap::G2_oop_opr; LIR_Opr FrameMap::G3_oop_opr; LIR_Opr FrameMap::G4_oop_opr; LIR_Opr FrameMap::G5_oop_opr; LIR_Opr FrameMap::G6_oop_opr; LIR_Opr FrameMap::G7_oop_opr; LIR_Opr FrameMap::O0_oop_opr; LIR_Opr FrameMap::O1_oop_opr; LIR_Opr FrameMap::O2_oop_opr; LIR_Opr FrameMap::O3_oop_opr; LIR_Opr FrameMap::O4_oop_opr; LIR_Opr FrameMap::O5_oop_opr; LIR_Opr FrameMap::O6_oop_opr; LIR_Opr FrameMap::O7_oop_opr; LIR_Opr FrameMap::L0_oop_opr; LIR_Opr FrameMap::L1_oop_opr; LIR_Opr FrameMap::L2_oop_opr; LIR_Opr FrameMap::L3_oop_opr; LIR_Opr FrameMap::L4_oop_opr; LIR_Opr FrameMap::L5_oop_opr; LIR_Opr FrameMap::L6_oop_opr; LIR_Opr FrameMap::L7_oop_opr; LIR_Opr FrameMap::I0_oop_opr; LIR_Opr FrameMap::I1_oop_opr; LIR_Opr FrameMap::I2_oop_opr; LIR_Opr FrameMap::I3_oop_opr; LIR_Opr FrameMap::I4_oop_opr; LIR_Opr FrameMap::I5_oop_opr; LIR_Opr FrameMap::I6_oop_opr; LIR_Opr FrameMap::I7_oop_opr; LIR_Opr FrameMap::SP_opr; LIR_Opr FrameMap::FP_opr; LIR_Opr FrameMap::Oexception_opr; LIR_Opr FrameMap::Oissuing_pc_opr; LIR_Opr FrameMap::_caller_save_cpu_regs[] = { 0, }; LIR_Opr FrameMap::_caller_save_fpu_regs[] = { 0, }; FloatRegister FrameMap::nr2floatreg (int rnr) { assert(_init_done, "tables not initialized"); debug_only(fpu_range_check(rnr);) return _fpu_regs[rnr]; } // returns true if reg could be smashed by a callee. bool FrameMap::is_caller_save_register (LIR_Opr reg) { if (reg->is_single_fpu() || reg->is_double_fpu()) { return true; } if (reg->is_double_cpu()) { return is_caller_save_register(reg->as_register_lo()) || is_caller_save_register(reg->as_register_hi()); } return is_caller_save_register(reg->as_register()); } NEEDS_CLEANUP // once the new calling convention is enabled, we no // longer need to treat I5, I4 and L0 specially // Because the interpreter destroys caller's I5, I4 and L0, // we must spill them before doing a Java call as we may land in // interpreter. bool FrameMap::is_caller_save_register (Register r) { return (r->is_global() && (r != G0)) || r->is_out(); } void FrameMap::init () { if (_init_done) return; int i=0; // Register usage: // O6: sp // I6: fp // I7: return address // G0: zero // G2: thread // G7: not available // G6: not available /* 0 */ map_register(i++, L0); /* 1 */ map_register(i++, L1); /* 2 */ map_register(i++, L2); /* 3 */ map_register(i++, L3); /* 4 */ map_register(i++, L4); /* 5 */ map_register(i++, L5); /* 6 */ map_register(i++, L6); /* 7 */ map_register(i++, L7); /* 8 */ map_register(i++, I0); /* 9 */ map_register(i++, I1); /* 10 */ map_register(i++, I2); /* 11 */ map_register(i++, I3); /* 12 */ map_register(i++, I4); /* 13 */ map_register(i++, I5); /* 14 */ map_register(i++, O0); /* 15 */ map_register(i++, O1); /* 16 */ map_register(i++, O2); /* 17 */ map_register(i++, O3); /* 18 */ map_register(i++, O4); /* 19 */ map_register(i++, O5); // <- last register visible in RegAlloc (RegAlloc::nof+cpu_regs) /* 20 */ map_register(i++, G1); /* 21 */ map_register(i++, G3); /* 22 */ map_register(i++, G4); /* 23 */ map_register(i++, G5); /* 24 */ map_register(i++, G0); // the following registers are not normally available /* 25 */ map_register(i++, O7); /* 26 */ map_register(i++, G2); /* 27 */ map_register(i++, O6); /* 28 */ map_register(i++, I6); /* 29 */ map_register(i++, I7); /* 30 */ map_register(i++, G6); /* 31 */ map_register(i++, G7); assert(i == nof_cpu_regs, "number of CPU registers"); for (i = 0; i < nof_fpu_regs; i++) { _fpu_regs[i] = as_FloatRegister(i); } _init_done = true; in_long_opr = as_long_opr(I0); out_long_opr = as_long_opr(O0); G0_opr = as_opr(G0); G1_opr = as_opr(G1); G2_opr = as_opr(G2); G3_opr = as_opr(G3); G4_opr = as_opr(G4); G5_opr = as_opr(G5); G6_opr = as_opr(G6); G7_opr = as_opr(G7); O0_opr = as_opr(O0); O1_opr = as_opr(O1); O2_opr = as_opr(O2); O3_opr = as_opr(O3); O4_opr = as_opr(O4); O5_opr = as_opr(O5); O6_opr = as_opr(O6); O7_opr = as_opr(O7); L0_opr = as_opr(L0); L1_opr = as_opr(L1); L2_opr = as_opr(L2); L3_opr = as_opr(L3); L4_opr = as_opr(L4); L5_opr = as_opr(L5); L6_opr = as_opr(L6); L7_opr = as_opr(L7); I0_opr = as_opr(I0); I1_opr = as_opr(I1); I2_opr = as_opr(I2); I3_opr = as_opr(I3); I4_opr = as_opr(I4); I5_opr = as_opr(I5); I6_opr = as_opr(I6); I7_opr = as_opr(I7); G0_oop_opr = as_oop_opr(G0); G1_oop_opr = as_oop_opr(G1); G2_oop_opr = as_oop_opr(G2); G3_oop_opr = as_oop_opr(G3); G4_oop_opr = as_oop_opr(G4); G5_oop_opr = as_oop_opr(G5); G6_oop_opr = as_oop_opr(G6); G7_oop_opr = as_oop_opr(G7); O0_oop_opr = as_oop_opr(O0); O1_oop_opr = as_oop_opr(O1); O2_oop_opr = as_oop_opr(O2); O3_oop_opr = as_oop_opr(O3); O4_oop_opr = as_oop_opr(O4); O5_oop_opr = as_oop_opr(O5); O6_oop_opr = as_oop_opr(O6); O7_oop_opr = as_oop_opr(O7); L0_oop_opr = as_oop_opr(L0); L1_oop_opr = as_oop_opr(L1); L2_oop_opr = as_oop_opr(L2); L3_oop_opr = as_oop_opr(L3); L4_oop_opr = as_oop_opr(L4); L5_oop_opr = as_oop_opr(L5); L6_oop_opr = as_oop_opr(L6); L7_oop_opr = as_oop_opr(L7); I0_oop_opr = as_oop_opr(I0); I1_oop_opr = as_oop_opr(I1); I2_oop_opr = as_oop_opr(I2); I3_oop_opr = as_oop_opr(I3); I4_oop_opr = as_oop_opr(I4); I5_oop_opr = as_oop_opr(I5); I6_oop_opr = as_oop_opr(I6); I7_oop_opr = as_oop_opr(I7); FP_opr = as_pointer_opr(FP); SP_opr = as_pointer_opr(SP); F0_opr = as_float_opr(F0); F0_double_opr = as_double_opr(F0); Oexception_opr = as_oop_opr(Oexception); Oissuing_pc_opr = as_opr(Oissuing_pc); _caller_save_cpu_regs[0] = FrameMap::O0_opr; _caller_save_cpu_regs[1] = FrameMap::O1_opr; _caller_save_cpu_regs[2] = FrameMap::O2_opr; _caller_save_cpu_regs[3] = FrameMap::O3_opr; _caller_save_cpu_regs[4] = FrameMap::O4_opr; _caller_save_cpu_regs[5] = FrameMap::O5_opr; for (int i = 0; i < nof_caller_save_fpu_regs; i++) { _caller_save_fpu_regs[i] = LIR_OprFact::single_fpu(i); } } Address FrameMap::make_new_address(ByteSize sp_offset) const { return Address(SP, STACK_BIAS + in_bytes(sp_offset)); } VMReg FrameMap::fpu_regname (int n) { return as_FloatRegister(n)->as_VMReg(); } LIR_Opr FrameMap::stack_pointer() { return SP_opr; } bool FrameMap::validate_frame() { int max_offset = in_bytes(framesize_in_bytes()); int java_index = 0; for (int i = 0; i < _incoming_arguments->length(); i++) { LIR_Opr opr = _incoming_arguments->at(i); if (opr->is_stack()) { max_offset = MAX2(_argument_locations->at(java_index), max_offset); } java_index += type2size[opr->type()]; } return Assembler::is_simm13(max_offset + STACK_BIAS); }