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[/] [or1k/] [branches/] [stable_0_2_x/] [or1ksim/] [cpu/] [or32/] [op_lwhb_op.h] - Rev 1765
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/* op_lwhb_op.h -- Micro operations template for load operations Copyright (C) 2005 György `nog' Jeney, nog@sdf.lonestar.org This file is part of OpenRISC 1000 Architectural Simulator. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program 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 for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ /* FIXME: Do something if a breakpoint is hit */ __or_dynop void glue(glue(op_, LS_OP_NAME), _t0_t0)(void) { int breakpoint; upd_sim_cycles(); save_t_temporary(); t0 = LS_OP_CAST LS_OP_FUNC(t0 + OP_PARAM1, &breakpoint); } __or_dynop void glue(glue(op_, LS_OP_NAME), _t0_t1)(void) { int breakpoint; upd_sim_cycles(); save_t_temporary(); t0 = LS_OP_CAST LS_OP_FUNC(t1 + OP_PARAM1, &breakpoint); } __or_dynop void glue(glue(op_, LS_OP_NAME), _t0_t2)(void) { int breakpoint; upd_sim_cycles(); save_t_temporary(); t0 = LS_OP_CAST LS_OP_FUNC(t2 + OP_PARAM1, &breakpoint); } __or_dynop void glue(glue(op_, LS_OP_NAME), _t1_t0)(void) { int breakpoint; upd_sim_cycles(); save_t_temporary(); t1 = LS_OP_CAST LS_OP_FUNC(t0 + OP_PARAM1, &breakpoint); } __or_dynop void glue(glue(op_, LS_OP_NAME), _t1_t1)(void) { int breakpoint; upd_sim_cycles(); save_t_temporary(); t1 = LS_OP_CAST LS_OP_FUNC(t1 + OP_PARAM1, &breakpoint); } __or_dynop void glue(glue(op_, LS_OP_NAME), _t1_t2)(void) { int breakpoint; upd_sim_cycles(); save_t_temporary(); t1 = LS_OP_CAST LS_OP_FUNC(t2 + OP_PARAM1, &breakpoint); } __or_dynop void glue(glue(op_, LS_OP_NAME), _t2_t0)(void) { int breakpoint; upd_sim_cycles(); save_t_temporary(); t2 = LS_OP_CAST LS_OP_FUNC(t0 + OP_PARAM1, &breakpoint); } __or_dynop void glue(glue(op_, LS_OP_NAME), _t2_t1)(void) { int breakpoint; upd_sim_cycles(); save_t_temporary(); t2 = LS_OP_CAST LS_OP_FUNC(t1 + OP_PARAM1, &breakpoint); } __or_dynop void glue(glue(op_, LS_OP_NAME), _t2_t2)(void) { int breakpoint; upd_sim_cycles(); save_t_temporary(); t2 = LS_OP_CAST LS_OP_FUNC(t2 + OP_PARAM1, &breakpoint); } __or_dynop void glue(glue(op_, LS_OP_NAME), _imm_t0)(void) { int breakpoint; upd_sim_cycles(); save_t_temporary(); t0 = LS_OP_CAST LS_OP_FUNC(OP_PARAM1, &breakpoint); } __or_dynop void glue(glue(op_, LS_OP_NAME), _imm_t1)(void) { int breakpoint; upd_sim_cycles(); save_t_temporary(); t1 = LS_OP_CAST LS_OP_FUNC(OP_PARAM1, &breakpoint); } __or_dynop void glue(glue(op_, LS_OP_NAME), _imm_t2)(void) { int breakpoint; upd_sim_cycles(); save_t_temporary(); t2 = LS_OP_CAST LS_OP_FUNC(OP_PARAM1, &breakpoint); }