/* pr_v6p_opcodes.c Opcode table and checking for v6+ progs. Copyright (C) 1996-1997 Id Software, Inc. Copyright (C) 2001 Bill Currie 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: Free Software Foundation, Inc. 59 Temple Place - Suite 330 Boston, MA 02111-1307, USA */ #ifdef HAVE_CONFIG_H # include "config.h" #endif #ifdef HAVE_STRING_H # include "string.h" #endif #ifdef HAVE_STRINGS_H # include "strings.h" #endif #include "QF/cvar.h" #include "QF/progs.h" #include "QF/sys.h" #include "QF/progs/pr_comp.h" #include "compat.h" // default format is "%Ga, %Gb, %gc" // V global_string, contents, void // G global_string, contents // g global_string, no contents // s as short // O address + short // P function parameter // F function (must come before any P) // R return value // E entity + field (%Eab) // M addressing mode, contents // m addressing mode, no contents // takes operand (a,b,c,o (opcode)) and right shift(hex). always masked // by 3 // %Mc5 -> contents, operand c, shift right 5 bits // %mo2 -> no contents, opcode, shift right 2 bits // %mo0 -> no contents, opcode, no shift // always uses a and b for the address calculation (Ruamoko convention)) // // a operand a // b operand b // c operand c // o opcode // x place holder for P (padding) // 0-7 parameter index (for P) VISIBLE const v6p_opcode_t pr_v6p_opcodes[] = { // OP_DONE_v6p is actually the same as OP_RETURN_v6p, the types are bogus [OP_DONE_v6p] = {"done", "done", ev_entity, ev_field, ev_void, PROG_ID_VERSION, "%Va", }, [OP_MUL_D_v6p] = {"mul", "mul.d", ev_double, ev_double, ev_double, PROG_V6P_VERSION, }, [OP_MUL_F_v6p] = {"mul", "mul.f", ev_float, ev_float, ev_float, PROG_ID_VERSION, }, [OP_MUL_V_v6p] = {"mul", "mul.v", ev_vector, ev_vector, ev_float, PROG_ID_VERSION, }, [OP_MUL_FV_v6p] = {"scale", "mul.fv", ev_float, ev_vector, ev_vector, PROG_ID_VERSION, }, [OP_MUL_VF_v6p] = {"scale", "mul.vf", ev_vector, ev_float, ev_vector, PROG_ID_VERSION, }, [OP_MUL_DV_v6p] = {"mul", "mul.dv", ev_double, ev_vector, ev_vector, PROG_ID_VERSION, }, [OP_MUL_VD_v6p] = {"mul", "mul.vd", ev_vector, ev_double, ev_vector, PROG_ID_VERSION, }, [OP_MUL_Q_v6p] = {"mul", "mul.q", ev_quaternion, ev_quaternion, ev_quaternion, PROG_V6P_VERSION, }, [OP_MUL_FQ_v6p] = {"mul", "mul.fq", ev_float, ev_quaternion, ev_quaternion, PROG_V6P_VERSION, }, [OP_MUL_QF_v6p] = {"mul", "mul.qf", ev_quaternion, ev_float, ev_quaternion, PROG_V6P_VERSION, }, [OP_MUL_DQ_v6p] = {"mul", "mul.dq", ev_double, ev_quaternion, ev_quaternion, PROG_V6P_VERSION, }, [OP_MUL_QD_v6p] = {"mul", "mul.qd", ev_quaternion, ev_double, ev_quaternion, PROG_V6P_VERSION, }, [OP_MUL_QV_v6p] = {"mul", "mul.qv", ev_quaternion, ev_vector, ev_vector, PROG_V6P_VERSION, }, [OP_CONJ_Q_v6p] = {"conj", "conj.q", ev_quaternion, ev_invalid, ev_quaternion, PROG_V6P_VERSION, "%Ga, %gc", }, [OP_DIV_F_v6p] = {"div", "div.f", ev_float, ev_float, ev_float, PROG_ID_VERSION, }, [OP_DIV_D_v6p] = {"div", "div.d", ev_double, ev_double, ev_double, PROG_V6P_VERSION, }, [OP_REM_D_v6p] = {"rem", "rem.d", ev_double, ev_double, ev_double, PROG_V6P_VERSION, }, [OP_MOD_D_v6p] = {"mod", "mod.d", ev_double, ev_double, ev_double, PROG_V6P_VERSION, }, [OP_ADD_D_v6p] = {"add", "add.d", ev_double, ev_double, ev_double, PROG_V6P_VERSION, }, [OP_ADD_F_v6p] = {"add", "add.f", ev_float, ev_float, ev_float, PROG_ID_VERSION, }, [OP_ADD_V_v6p] = {"add", "add.v", ev_vector, ev_vector, ev_vector, PROG_ID_VERSION, }, [OP_ADD_Q_v6p] = {"add", "add.q", ev_quaternion, ev_quaternion, ev_quaternion, PROG_V6P_VERSION, }, [OP_ADD_S_v6p] = {"add", "add.s", ev_string, ev_string, ev_string, PROG_V6P_VERSION, }, [OP_SUB_D_v6p] = {"sub", "sub.d", ev_double, ev_double, ev_double, PROG_V6P_VERSION, }, [OP_SUB_F_v6p] = {"sub", "sub.f", ev_float, ev_float, ev_float, PROG_ID_VERSION, }, [OP_SUB_V_v6p] = {"sub", "sub.v", ev_vector, ev_vector, ev_vector, PROG_ID_VERSION, }, [OP_SUB_Q_v6p] = {"sub", "sub.q", ev_quaternion, ev_quaternion, ev_quaternion, PROG_V6P_VERSION, }, [OP_EQ_D_v6p] = {"eq", "eq.d", ev_double, ev_double, ev_int, PROG_V6P_VERSION, }, [OP_EQ_F_v6p] = {"eq", "eq.f", ev_float, ev_float, ev_int, PROG_ID_VERSION, }, [OP_EQ_V_v6p] = {"eq", "eq.v", ev_vector, ev_vector, ev_int, PROG_ID_VERSION, }, [OP_EQ_Q_v6p] = {"eq", "eq.q", ev_quaternion, ev_quaternion, ev_int, PROG_V6P_VERSION, }, [OP_EQ_S_v6p] = {"eq", "eq.s", ev_string, ev_string, ev_int, PROG_ID_VERSION, }, [OP_EQ_E_v6p] = {"eq", "eq.e", ev_entity, ev_entity, ev_int, PROG_ID_VERSION, }, [OP_EQ_FN_v6p] = {"eq", "eq.fn", ev_func, ev_func, ev_int, PROG_ID_VERSION, }, [OP_NE_D_v6p] = {"ne", "ne.d", ev_double, ev_double, ev_int, PROG_V6P_VERSION, }, [OP_NE_F_v6p] = {"ne", "ne.f", ev_float, ev_float, ev_int, PROG_ID_VERSION, }, [OP_NE_V_v6p] = {"ne", "ne.v", ev_vector, ev_vector, ev_int, PROG_ID_VERSION, }, [OP_NE_Q_v6p] = {"ne", "ne.q", ev_quaternion, ev_quaternion, ev_int, PROG_V6P_VERSION, }, [OP_NE_S_v6p] = {"cmp", "ne.s", ev_string, ev_string, ev_int, PROG_ID_VERSION, }, [OP_NE_E_v6p] = {"ne", "ne.e", ev_entity, ev_entity, ev_int, PROG_ID_VERSION, }, [OP_NE_FN_v6p] = {"ne", "ne.fn", ev_func, ev_func, ev_int, PROG_ID_VERSION, }, [OP_LE_D_v6p] = {"le", "le.d", ev_double, ev_double, ev_int, PROG_V6P_VERSION, }, [OP_LE_F_v6p] = {"le", "le.f", ev_float, ev_float, ev_int, PROG_ID_VERSION, }, [OP_GE_D_v6p] = {"ge", "ge.d", ev_double, ev_double, ev_int, PROG_V6P_VERSION, }, [OP_GE_F_v6p] = {"ge", "ge.f", ev_float, ev_float, ev_int, PROG_ID_VERSION, }, [OP_LE_S_v6p] = {"le", "le.s", ev_string, ev_string, ev_int, PROG_V6P_VERSION, }, [OP_GE_S_v6p] = {"ge", "ge.s", ev_string, ev_string, ev_int, PROG_V6P_VERSION, }, [OP_LT_D_v6p] = {"lt", "lt.d", ev_double, ev_double, ev_int, PROG_V6P_VERSION, }, [OP_LT_F_v6p] = {"lt", "lt.f", ev_float, ev_float, ev_int, PROG_ID_VERSION, }, [OP_GT_D_v6p] = {"gt", "gt.d", ev_double, ev_double, ev_int, PROG_V6P_VERSION, }, [OP_GT_F_v6p] = {"gt", "gt.f", ev_float, ev_float, ev_int, PROG_ID_VERSION, }, [OP_LT_S_v6p] = {"lt", "lt.s", ev_string, ev_string, ev_int, PROG_V6P_VERSION, }, [OP_GT_S_v6p] = {"gt", "gt.s", ev_string, ev_string, ev_int, PROG_V6P_VERSION, }, [OP_LOAD_F_v6p] = {"load", "load.f", ev_entity, ev_field, ev_float, PROG_ID_VERSION, "%Ga.%Gb(%Ec), %gc",//FIXME %E more flexible? }, [OP_LOAD_D_v6p] = {"load", "load.d", ev_entity, ev_field, ev_double, PROG_V6P_VERSION, "%Ga.%Gb(%Ec), %gc", }, [OP_LOAD_V_v6p] = {"load", "load.v", ev_entity, ev_field, ev_vector, PROG_ID_VERSION, "%Ga.%Gb(%Ec), %gc", }, [OP_LOAD_Q_v6p] = {"load", "load.q", ev_entity, ev_field, ev_quaternion, PROG_V6P_VERSION, "%Ga.%Gb(%Ec), %gc", }, [OP_LOAD_S_v6p] = {"load", "load.s", ev_entity, ev_field, ev_string, PROG_ID_VERSION, "%Ga.%Gb(%Ec), %gc", }, [OP_LOAD_ENT_v6p] = {"load", "load.ent", ev_entity, ev_field, ev_entity, PROG_ID_VERSION, "%Ga.%Gb(%Ec), %gc", }, [OP_LOAD_FLD_v6p] = {"load", "load.fld", ev_entity, ev_field, ev_field, PROG_ID_VERSION, "%Ga.%Gb(%Ec), %gc", }, [OP_LOAD_FN_v6p] = {"load", "load.fn", ev_entity, ev_field, ev_func, PROG_ID_VERSION, "%Ga.%Gb(%Ec), %gc", }, [OP_LOAD_I_v6p] = {"load", "load.i", ev_entity, ev_field, ev_int, PROG_V6P_VERSION, "%Ga.%Gb(%Ec), %gc", }, [OP_LOAD_P_v6p] = {"load", "load.p", ev_entity, ev_field, ev_ptr, PROG_V6P_VERSION, "%Ga.%Gb(%Ec), %gc", }, [OP_LOADB_D_v6p] = {"load", "loadb.d", ev_ptr, ev_int, ev_double, PROG_V6P_VERSION, "*(%Ga + %Gb), %gc", }, [OP_LOADB_F_v6p] = {"load", "loadb.f", ev_ptr, ev_int, ev_float, PROG_V6P_VERSION, "*(%Ga + %Gb), %gc", }, [OP_LOADB_V_v6p] = {"load", "loadb.v", ev_ptr, ev_int, ev_vector, PROG_V6P_VERSION, "*(%Ga + %Gb), %gc", }, [OP_LOADB_Q_v6p] = {"load", "loadb.q", ev_ptr, ev_int, ev_quaternion, PROG_V6P_VERSION, "*(%Ga + %Gb), %gc", }, [OP_LOADB_S_v6p] = {"load", "loadb.s", ev_ptr, ev_int, ev_string, PROG_V6P_VERSION, "*(%Ga + %Gb), %gc", }, [OP_LOADB_ENT_v6p] = {"load", "loadb.ent", ev_ptr, ev_int, ev_entity, PROG_V6P_VERSION, "*(%Ga + %Gb), %gc", }, [OP_LOADB_FLD_v6p] = {"load", "loadb.fld", ev_ptr, ev_int, ev_field, PROG_V6P_VERSION, "*(%Ga + %Gb), %gc", }, [OP_LOADB_FN_v6p] = {"load", "loadb.fn", ev_ptr, ev_int, ev_func, PROG_V6P_VERSION, "*(%Ga + %Gb), %gc", }, [OP_LOADB_I_v6p] = {"load", "loadb.i", ev_ptr, ev_int, ev_int, PROG_V6P_VERSION, "*(%Ga + %Gb), %gc", }, [OP_LOADB_P_v6p] = {"load", "loadb.p", ev_ptr, ev_int, ev_ptr, PROG_V6P_VERSION, "*(%Ga + %Gb), %gc", }, [OP_LOADBI_D_v6p] = {"load", "loadbi.d", ev_ptr, ev_short, ev_double, PROG_V6P_VERSION, "*(%Ga + %sb), %gc", }, [OP_LOADBI_F_v6p] = {"load", "loadbi.f", ev_ptr, ev_short, ev_float, PROG_V6P_VERSION, "*(%Ga + %sb), %gc", }, [OP_LOADBI_V_v6p] = {"load", "loadbi.v", ev_ptr, ev_short, ev_vector, PROG_V6P_VERSION, "*(%Ga + %sb), %gc", }, [OP_LOADBI_Q_v6p] = {"load", "loadbi.q", ev_ptr, ev_short, ev_quaternion, PROG_V6P_VERSION, "*(%Ga + %sb), %gc", }, [OP_LOADBI_S_v6p] = {"load", "loadbi.s", ev_ptr, ev_short, ev_string, PROG_V6P_VERSION, "*(%Ga + %sb), %gc", }, [OP_LOADBI_ENT_v6p] = {"load", "loadbi.ent", ev_ptr, ev_short, ev_entity, PROG_V6P_VERSION, "*(%Ga + %sb), %gc", }, [OP_LOADBI_FLD_v6p] = {"load", "loadbi.fld", ev_ptr, ev_short, ev_field, PROG_V6P_VERSION, "*(%Ga + %sb), %gc", }, [OP_LOADBI_FN_v6p] = {"load", "loadbi.fn", ev_ptr, ev_short, ev_func, PROG_V6P_VERSION, "*(%Ga + %sb), %gc", }, [OP_LOADBI_I_v6p] = {"load", "loadbi.i", ev_ptr, ev_short, ev_int, PROG_V6P_VERSION, "*(%Ga + %sb), %gc", }, [OP_LOADBI_P_v6p] = {"load", "loadbi.p", ev_ptr, ev_short, ev_ptr, PROG_V6P_VERSION, "*(%Ga + %sb), %gc", }, [OP_ADDRESS_v6p] = {"lea", "address", ev_entity, ev_field, ev_ptr, PROG_ID_VERSION, "%Ga.%Gb(%Ec), %gc", }, [OP_ADDRESS_VOID_v6p] = {"lea", "address", ev_void, ev_invalid, ev_ptr, PROG_V6P_VERSION, "%Ga, %gc", }, [OP_ADDRESS_D_v6p] = {"lea", "address.d", ev_double, ev_invalid, ev_ptr, PROG_V6P_VERSION, "%Ga, %gc", }, [OP_ADDRESS_F_v6p] = {"lea", "address.f", ev_float, ev_invalid, ev_ptr, PROG_V6P_VERSION, "%Ga, %gc", }, [OP_ADDRESS_V_v6p] = {"lea", "address.v", ev_vector, ev_invalid, ev_ptr, PROG_V6P_VERSION, "%Ga, %gc", }, [OP_ADDRESS_Q_v6p] = {"lea", "address.q", ev_quaternion, ev_invalid, ev_ptr, PROG_V6P_VERSION, "%Ga, %gc", }, [OP_ADDRESS_S_v6p] = {"lea", "address.s", ev_string, ev_invalid, ev_ptr, PROG_V6P_VERSION, "%Ga, %gc", }, [OP_ADDRESS_ENT_v6p] = {"lea", "address.ent", ev_entity, ev_invalid, ev_ptr, PROG_V6P_VERSION, "%Ga, %gc", }, [OP_ADDRESS_FLD_v6p] = {"lea", "address.fld", ev_field, ev_invalid, ev_ptr, PROG_V6P_VERSION, "%Ga, %gc", }, [OP_ADDRESS_FN_v6p] = {"lea", "address.fn", ev_func, ev_invalid, ev_ptr, PROG_V6P_VERSION, "%Ga, %gc", }, [OP_ADDRESS_I_v6p] = {"lea", "address.i", ev_int, ev_invalid, ev_ptr, PROG_V6P_VERSION, "%Ga, %gc", }, [OP_ADDRESS_P_v6p] = {"lea", "address.p", ev_ptr, ev_invalid, ev_ptr, PROG_V6P_VERSION, "%Ga, %gc", }, [OP_LEA_v6p] = {"lea", "lea", ev_ptr, ev_int, ev_ptr, PROG_V6P_VERSION, "(%Ga + %Gb), %gc", }, [OP_LEAI_v6p] = {"lea", "leai", ev_ptr, ev_short, ev_ptr, PROG_V6P_VERSION, "(%Ga + %sb), %gc", }, [OP_CONV_IF_v6p] = {"conv", "conv.if", ev_int, ev_invalid, ev_float, PROG_V6P_VERSION, "%Ga, %gc", }, [OP_CONV_FI_v6p] = {"conv", "conv.fi", ev_float, ev_invalid, ev_int, PROG_V6P_VERSION, "%Ga, %gc", }, [OP_CONV_ID_v6p] = {"conv", "conv.id", ev_int, ev_invalid, ev_double, PROG_V6P_VERSION, "%Ga, %gc", }, [OP_CONV_DI_v6p] = {"conv", "conv.di", ev_double, ev_invalid, ev_int, PROG_V6P_VERSION, "%Ga, %gc", }, [OP_CONV_FD_v6p] = {"conv", "conv.fd", ev_float, ev_invalid, ev_double, PROG_V6P_VERSION, "%Ga, %gc", }, [OP_CONV_DF_v6p] = {"conv", "conv.df", ev_double, ev_invalid, ev_float, PROG_V6P_VERSION, "%Ga, %gc", }, [OP_STORE_D_v6p] = {"assign", "store.d", ev_double, ev_double, ev_invalid, PROG_V6P_VERSION, "%Ga, %gb", }, [OP_STORE_F_v6p] = {"assign", "store.f", ev_float, ev_float, ev_invalid, PROG_ID_VERSION, "%Ga, %gb", }, [OP_STORE_V_v6p] = {"assign", "store.v", ev_vector, ev_vector, ev_invalid, PROG_ID_VERSION, "%Ga, %gb", }, [OP_STORE_Q_v6p] = {"assign", "store.q", ev_quaternion, ev_quaternion, ev_invalid, PROG_V6P_VERSION, "%Ga, %gb", }, [OP_STORE_S_v6p] = {"assign", "store.s", ev_string, ev_string, ev_invalid, PROG_ID_VERSION, "%Ga, %gb", }, [OP_STORE_ENT_v6p] = {"assign", "store.ent", ev_entity, ev_entity, ev_invalid, PROG_ID_VERSION, "%Ga, %gb", }, [OP_STORE_FLD_v6p] = {"assign", "store.fld", ev_field, ev_field, ev_invalid, PROG_ID_VERSION, "%Ga, %gb", }, [OP_STORE_FN_v6p] = {"assign", "store.fn", ev_func, ev_func, ev_invalid, PROG_ID_VERSION, "%Ga, %gb", }, [OP_STORE_I_v6p] = {"assign", "store.i", ev_int, ev_int, ev_invalid, PROG_V6P_VERSION, "%Ga, %gb", }, [OP_STORE_P_v6p] = {"assign", "store.p", ev_ptr, ev_ptr, ev_invalid, PROG_V6P_VERSION, "%Ga, %gb", }, [OP_STOREP_D_v6p] = {"store", "storep.d", ev_double, ev_ptr, ev_invalid, PROG_ID_VERSION, "%Ga, *%Gb", }, [OP_STOREP_F_v6p] = {"store", "storep.f", ev_float, ev_ptr, ev_invalid, PROG_ID_VERSION, "%Ga, *%Gb", }, [OP_STOREP_V_v6p] = {"store", "storep.v", ev_vector, ev_ptr, ev_invalid, PROG_ID_VERSION, "%Ga, *%Gb", }, [OP_STOREP_Q_v6p] = {"store", "storep.q", ev_quaternion, ev_ptr, ev_invalid, PROG_V6P_VERSION, "%Ga, *%Gb", }, [OP_STOREP_S_v6p] = {"store", "storep.s", ev_string, ev_ptr, ev_invalid, PROG_ID_VERSION, "%Ga, *%Gb", }, [OP_STOREP_ENT_v6p] = {"store", "storep.ent", ev_entity, ev_ptr, ev_invalid, PROG_ID_VERSION, "%Ga, *%Gb", }, [OP_STOREP_FLD_v6p] = {"store", "storep.fld", ev_field, ev_ptr, ev_invalid, PROG_ID_VERSION, "%Ga, *%Gb", }, [OP_STOREP_FN_v6p] = {"store", "storep.fn", ev_func, ev_ptr, ev_invalid, PROG_ID_VERSION, "%Ga, *%Gb", }, [OP_STOREP_I_v6p] = {"store", "storep.i", ev_int, ev_ptr, ev_invalid, PROG_V6P_VERSION, "%Ga, *%Gb", }, [OP_STOREP_P_v6p] = {"store", "storep.p", ev_ptr, ev_ptr, ev_invalid, PROG_V6P_VERSION, "%Ga, *%Gb", }, [OP_STOREB_D_v6p] = {"store", "storeb.d", ev_double, ev_ptr, ev_int, PROG_V6P_VERSION, "%Ga, *(%Gb + %Gc)", }, [OP_STOREB_F_v6p] = {"store", "storeb.f", ev_float, ev_ptr, ev_int, PROG_V6P_VERSION, "%Ga, *(%Gb + %Gc)", }, [OP_STOREB_V_v6p] = {"store", "storeb.v", ev_vector, ev_ptr, ev_int, PROG_V6P_VERSION, "%Ga, *(%Gb + %Gc)", }, [OP_STOREB_Q_v6p] = {"store", "storeb.q", ev_quaternion, ev_ptr, ev_int, PROG_V6P_VERSION, "%Ga, *(%Gb + %Gc)", }, [OP_STOREB_S_v6p] = {"store", "storeb.s", ev_string, ev_ptr, ev_int, PROG_V6P_VERSION, "%Ga, *(%Gb + %Gc)", }, [OP_STOREB_ENT_v6p] = {"store", "storeb.ent", ev_entity, ev_ptr, ev_int, PROG_V6P_VERSION, "%Ga, *(%Gb + %Gc)", }, [OP_STOREB_FLD_v6p] = {"store", "storeb.fld", ev_field, ev_ptr, ev_int, PROG_V6P_VERSION, "%Ga, *(%Gb + %Gc)", }, [OP_STOREB_FN_v6p] = {"store", "storeb.fn", ev_func, ev_ptr, ev_int, PROG_V6P_VERSION, "%Ga, *(%Gb + %Gc)", }, [OP_STOREB_I_v6p] = {"store", "storeb.i", ev_int, ev_ptr, ev_int, PROG_V6P_VERSION, "%Ga, *(%Gb + %Gc)", }, [OP_STOREB_P_v6p] = {"store", "storeb.p", ev_ptr, ev_ptr, ev_int, PROG_V6P_VERSION, "%Ga, *(%Gb + %Gc)", }, [OP_STOREBI_D_v6p] = {"store", "storebi.d", ev_double, ev_ptr, ev_short, PROG_V6P_VERSION, "%Ga, *(%Gb + %sc)", }, [OP_STOREBI_F_v6p] = {"store", "storebi.f", ev_float, ev_ptr, ev_short, PROG_V6P_VERSION, "%Ga, *(%Gb + %sc)", }, [OP_STOREBI_V_v6p] = {"store", "storebi.v", ev_vector, ev_ptr, ev_short, PROG_V6P_VERSION, "%Ga, *(%Gb + %sc)", }, [OP_STOREBI_Q_v6p] = {"store", "storebi.q", ev_quaternion, ev_ptr, ev_short, PROG_V6P_VERSION, "%Ga, *(%Gb + %sc)", }, [OP_STOREBI_S_v6p] = {"store", "storebi.s", ev_string, ev_ptr, ev_short, PROG_V6P_VERSION, "%Ga, *(%Gb + %sc)", }, [OP_STOREBI_ENT_v6p] = {"store", "storebi.ent", ev_entity, ev_ptr, ev_short, PROG_V6P_VERSION, "%Ga, *(%Gb + %sc)", }, [OP_STOREBI_FLD_v6p] = {"store", "storebi.fld", ev_field, ev_ptr, ev_short, PROG_V6P_VERSION, "%Ga, *(%Gb + %sc)", }, [OP_STOREBI_FN_v6p] = {"store", "storebi.fn", ev_func, ev_ptr, ev_short, PROG_V6P_VERSION, "%Ga, *(%Gb + %sc)", }, [OP_STOREBI_I_v6p] = {"store", "storebi.i", ev_int, ev_ptr, ev_short, PROG_V6P_VERSION, "%Ga, *(%Gb + %sc)", }, [OP_STOREBI_P_v6p] = {"store", "storebi.p", ev_ptr, ev_ptr, ev_short, PROG_V6P_VERSION, "%Ga, *(%Gb + %sc)", }, [OP_RETURN_v6p] = {"return", "return", ev_void, ev_invalid, ev_invalid, PROG_ID_VERSION, "%Ra", }, [OP_RETURN_V_v6p] = {"return", "return", ev_invalid, ev_invalid, ev_invalid, PROG_V6P_VERSION, "", }, [OP_NOT_D_v6p] = {"not", "not.d", ev_double, ev_invalid, ev_int, PROG_V6P_VERSION, "%Ga, %gc", }, [OP_NOT_F_v6p] = {"not", "not.f", ev_float, ev_invalid, ev_int, PROG_ID_VERSION, "%Ga, %gc", }, [OP_NOT_V_v6p] = {"not", "not.v", ev_vector, ev_invalid, ev_int, PROG_ID_VERSION, "%Ga, %gc", }, [OP_NOT_Q_v6p] = {"not", "not.q", ev_quaternion, ev_invalid, ev_int, PROG_V6P_VERSION, "%Ga, %gc", }, [OP_NOT_S_v6p] = {"not", "not.s", ev_string, ev_invalid, ev_int, PROG_ID_VERSION, "%Ga, %gc", }, [OP_NOT_ENT_v6p] = {"not", "not.ent", ev_entity, ev_invalid, ev_int, PROG_ID_VERSION, "%Ga, %gc", }, [OP_NOT_FN_v6p] = {"not", "not.fn", ev_func, ev_invalid, ev_int, PROG_ID_VERSION, "%Ga, %gc", }, [OP_NOT_P_v6p] = {"not", "not.p", ev_ptr, ev_invalid, ev_int, PROG_V6P_VERSION, "%Ga, %gc", }, [OP_IF_v6p] = {"ifnz", "if", ev_int, ev_short, ev_invalid, PROG_ID_VERSION, "%Ga branch %sb (%Ob)", }, [OP_IFNOT_v6p] = {"ifz", "ifnot", ev_int, ev_short, ev_invalid, PROG_ID_VERSION, "%Ga branch %sb (%Ob)", }, [OP_IFBE_v6p] = {"ifbe", "ifbe", ev_int, ev_short, ev_invalid, PROG_V6P_VERSION, "%Ga branch %sb (%Ob)", }, [OP_IFB_v6p] = {"ifb", "ifb", ev_int, ev_short, ev_invalid, PROG_V6P_VERSION, "%Ga branch %sb (%Ob)", }, [OP_IFAE_v6p] = {"ifae", "ifae", ev_int, ev_short, ev_invalid, PROG_V6P_VERSION, "%Ga branch %sb (%Ob)", }, [OP_IFA_v6p] = {"ifa", "ifa", ev_int, ev_short, ev_invalid, PROG_V6P_VERSION, "%Ga branch %sb (%Ob)", }, // calls returns REG_RETURN [OP_CALL0_v6p] = {"call0", "call0", ev_func, ev_invalid, ev_invalid, PROG_ID_VERSION, "%Fa ()", }, [OP_CALL1_v6p] = {"call1", "call1", ev_func, ev_invalid, ev_invalid, PROG_ID_VERSION, "%Fa (%P0x)", }, [OP_CALL2_v6p] = {"call2", "call2", ev_func, ev_invalid, ev_invalid, PROG_ID_VERSION, "%Fa (%P0x, %P1x)", }, [OP_CALL3_v6p] = {"call3", "call3", ev_func, ev_invalid, ev_invalid, PROG_ID_VERSION, "%Fa (%P0x, %P1x, %P2x)", }, [OP_CALL4_v6p] = {"call4", "call4", ev_func, ev_invalid, ev_invalid, PROG_ID_VERSION, "%Fa (%P0x, %P1x, %P2x, %P3x)", }, [OP_CALL5_v6p] = {"call5", "call5", ev_func, ev_invalid, ev_invalid, PROG_ID_VERSION, "%Fa (%P0x, %P1x, %P2x, %P3x, %P4x)", }, [OP_CALL6_v6p] = {"call6", "call6", ev_func, ev_invalid, ev_invalid, PROG_ID_VERSION, "%Fa (%P0x, %P1x, %P2x, %P3x, %P4x, %P5x)", }, [OP_CALL7_v6p] = {"call7", "call7", ev_func, ev_invalid, ev_invalid, PROG_ID_VERSION, "%Fa (%P0x, %P1x, %P2x, %P3x, %P4x, %P5x, %P6x)", }, [OP_CALL8_v6p] = {"call8", "call8", ev_func, ev_invalid, ev_invalid, PROG_ID_VERSION, "%Fa (%P0x, %P1x, %P2x, %P3x, %P4x, %P5x, %P6x, %P7x)", }, [OP_RCALL0_v6p] = {"rcall0", 0, ev_invalid, ev_invalid, ev_invalid, ~0, // not a valid instruction 0, }, [OP_RCALL1_v6p] = {"rcall1", "rcall1", ev_func, ev_void, ev_invalid, PROG_V6P_VERSION, "%Fa (%P0b)", }, [OP_RCALL2_v6p] = {"rcall2", "rcall2", ev_func, ev_void, ev_void, PROG_V6P_VERSION, "%Fa (%P0b, %P1c)", }, [OP_RCALL3_v6p] = {"rcall3", "rcall3", ev_func, ev_void, ev_void, PROG_V6P_VERSION, "%Fa (%P0b, %P1c, %P2x)", }, [OP_RCALL4_v6p] = {"rcall4", "rcall4", ev_func, ev_void, ev_void, PROG_V6P_VERSION, "%Fa (%P0b, %P1c, %P2x, %P3x)", }, [OP_RCALL5_v6p] = {"rcall5", "rcall5", ev_func, ev_void, ev_void, PROG_V6P_VERSION, "%Fa (%P0b, %P1c, %P2x, %P3x, %P4x)", }, [OP_RCALL6_v6p] = {"rcall6", "rcall6", ev_func, ev_void, ev_void, PROG_V6P_VERSION, "%Fa (%P0b, %P1c, %P2x, %P3x, %P4x, %P5x)", }, [OP_RCALL7_v6p] = {"rcall7", "rcall7", ev_func, ev_void, ev_void, PROG_V6P_VERSION, "%Fa (%P0b, %P1c, %P2x, %P3x, %P4x, %P5x, %P6x)", }, [OP_RCALL8_v6p] = {"rcall8", "rcall8", ev_func, ev_void, ev_void, PROG_V6P_VERSION, "%Fa (%P0b, %P1c, %P2x, %P3x, %P4x, %P5x, %P6x, %P7x)", }, [OP_STATE_v6p] = {"state", "state", ev_float, ev_func, ev_invalid, PROG_ID_VERSION, "%Ga, %Gb", }, [OP_STATE_F_v6p] = {"state", "state.f", ev_float, ev_func, ev_float, PROG_V6P_VERSION, "%Ga, %Gb, %Gc", }, [OP_GOTO_v6p] = {"jump", "goto", ev_short, ev_invalid, ev_invalid, PROG_ID_VERSION, "branch %sa (%Oa)", }, [OP_JUMP_v6p] = {"jump", "jump", ev_int, ev_invalid, ev_invalid, PROG_V6P_VERSION, "%Ga", }, [OP_JUMPB_v6p] = {"jump", "jump", ev_void, ev_int, ev_invalid, PROG_V6P_VERSION, "%Ga[%Gb]", }, [OP_AND_v6p] = {"and", "and.f", ev_float, ev_float, ev_int, PROG_ID_VERSION, }, [OP_OR_v6p] = {"or", "or.f", ev_float, ev_float, ev_int, PROG_ID_VERSION, }, [OP_SHL_F_v6p] = {"shl", "shl.f", ev_float, ev_float, ev_float, PROG_V6P_VERSION, }, [OP_SHR_F_v6p] = {"shr", "shr.f", ev_float, ev_float, ev_float, PROG_V6P_VERSION, }, [OP_SHL_I_v6p] = {"shl", "shl.i", ev_int, ev_int, ev_int, PROG_V6P_VERSION, }, [OP_SHR_I_v6p] = {"shr", "shr.i", ev_int, ev_int, ev_int, PROG_V6P_VERSION, }, [OP_SHR_U_v6p] = {"shr", "shr.u", ev_uint, ev_int, ev_uint, PROG_V6P_VERSION, }, [OP_BITAND_v6p] = {"bitand", "bitand.f", ev_float, ev_float, ev_float, PROG_ID_VERSION, }, [OP_BITOR_v6p] = {"bitor", "bitor.f", ev_float, ev_float, ev_float, PROG_ID_VERSION, }, [OP_ADD_I_v6p] = {"add", "add.i", ev_int, ev_int, ev_int, PROG_V6P_VERSION, }, [OP_SUB_I_v6p] = {"sub", "sub.i", ev_int, ev_int, ev_int, PROG_V6P_VERSION, }, [OP_MUL_I_v6p] = {"mul", "mul.i", ev_int, ev_int, ev_int, PROG_V6P_VERSION, }, [OP_DIV_I_v6p] = {"div", "div.i", ev_int, ev_int, ev_int, PROG_V6P_VERSION, }, [OP_REM_I_v6p] = {"rem", "rem.i", ev_int, ev_int, ev_int, PROG_V6P_VERSION, }, [OP_MOD_I_v6p] = {"mod", "mod.i", ev_int, ev_int, ev_int, PROG_V6P_VERSION, }, [OP_BITAND_I_v6p] = {"bitand", "bitand.i", ev_int, ev_int, ev_int, PROG_V6P_VERSION, }, [OP_BITOR_I_v6p] = {"bitor", "bitor.i", ev_int, ev_int, ev_int, PROG_V6P_VERSION, }, [OP_REM_F_v6p] = {"rem", "rem.f", ev_float, ev_float, ev_float, PROG_V6P_VERSION, }, [OP_MOD_F_v6p] = {"mod", "mod.f", ev_float, ev_float, ev_float, PROG_V6P_VERSION, }, [OP_GE_I_v6p] = {"ge", "ge.i", ev_int, ev_int, ev_int, PROG_V6P_VERSION, }, [OP_LE_I_v6p] = {"le", "le.i", ev_int, ev_int, ev_int, PROG_V6P_VERSION, }, [OP_GT_I_v6p] = {"gt", "gt.i", ev_int, ev_int, ev_int, PROG_V6P_VERSION, }, [OP_LT_I_v6p] = {"lt", "lt.i", ev_int, ev_int, ev_int, PROG_V6P_VERSION, }, [OP_AND_I_v6p] = {"and", "and.i", ev_int, ev_int, ev_int, PROG_V6P_VERSION, }, [OP_OR_I_v6p] = {"or", "or.i", ev_int, ev_int, ev_int, PROG_V6P_VERSION, }, [OP_NOT_I_v6p] = {"not", "not.i", ev_int, ev_invalid, ev_int, PROG_V6P_VERSION, "%Ga, %gc", }, [OP_EQ_I_v6p] = {"eq", "eq.i", ev_int, ev_int, ev_int, PROG_V6P_VERSION, }, [OP_NE_I_v6p] = {"ne", "ne.i", ev_int, ev_int, ev_int, PROG_V6P_VERSION, }, [OP_GE_U_v6p] = {"ge", "ge.u", ev_uint, ev_uint, ev_int, PROG_V6P_VERSION, }, [OP_LE_U_v6p] = {"le", "le.u", ev_uint, ev_uint, ev_int, PROG_V6P_VERSION, }, [OP_GT_U_v6p] = {"gt", "gt.u", ev_uint, ev_uint, ev_int, PROG_V6P_VERSION, }, [OP_LT_U_v6p] = {"lt", "lt.u", ev_uint, ev_uint, ev_int, PROG_V6P_VERSION, }, [OP_BITXOR_F_v6p] = {"bitxor", "bitxor.f", ev_float, ev_float, ev_float, PROG_V6P_VERSION, }, [OP_BITNOT_F_v6p] = {"bitnot", "bitnot.f", ev_float, ev_invalid, ev_float, PROG_V6P_VERSION, "%Ga, %gc", }, [OP_BITXOR_I_v6p] = {"bitxor", "bitxor.i", ev_int, ev_int, ev_int, PROG_V6P_VERSION, }, [OP_BITNOT_I_v6p] = {"bitnot", "bitnot.i", ev_int, ev_invalid, ev_int, PROG_V6P_VERSION, "%Ga, %gc", }, [OP_GE_P_v6p] = {"ge", "ge.p", ev_ptr, ev_ptr, ev_int, PROG_V6P_VERSION, }, [OP_LE_P_v6p] = {"le", "le.p", ev_ptr, ev_ptr, ev_int, PROG_V6P_VERSION, }, [OP_GT_P_v6p] = {"gt", "gt.p", ev_ptr, ev_ptr, ev_int, PROG_V6P_VERSION, }, [OP_LT_P_v6p] = {"lt", "lt.p", ev_ptr, ev_ptr, ev_int, PROG_V6P_VERSION, }, [OP_EQ_P_v6p] = {"eq", "eq.p", ev_ptr, ev_ptr, ev_int, PROG_V6P_VERSION, }, [OP_NE_P_v6p] = {"ne", "ne.p", ev_ptr, ev_ptr, ev_int, PROG_V6P_VERSION, }, [OP_MOVEI_v6p] = {"move", "movei", ev_void, ev_short, ev_void, PROG_V6P_VERSION, "%Ga, %sb, %gc", }, [OP_MOVEP_v6p] = {"movep", "movep", ev_ptr, ev_int, ev_ptr, PROG_V6P_VERSION, "%Ga, %Gb, %Gc", }, [OP_MOVEPI_v6p] = {"movep", "movepi", ev_ptr, ev_short, ev_ptr, PROG_V6P_VERSION, "%Ga, %sb, %Gc", }, [OP_MEMSETI_v6p] = {"memset", "memseti", ev_int, ev_short, ev_void, PROG_V6P_VERSION, "%Ga, %sb, %gc", }, [OP_MEMSETP_v6p] = {"memsetp", "memsetp", ev_int, ev_int, ev_ptr, PROG_V6P_VERSION, "%Ga, %Gb, %Gc", }, [OP_MEMSETPI_v6p] = {"memsetp", "memsetpi", ev_int, ev_short, ev_ptr, PROG_V6P_VERSION, "%Ga, %sb, %Gc", }, [OP_PUSH_S_v6p] = {"push", "push.s", ev_string, ev_invalid, ev_invalid, PROG_V6P_VERSION, "%Ga", }, [OP_PUSH_F_v6p] = {"push", "push.f", ev_float, ev_invalid, ev_invalid, PROG_V6P_VERSION, "%Ga", }, [OP_PUSH_V_v6p] = {"push", "push.v", ev_vector, ev_invalid, ev_invalid, PROG_V6P_VERSION, "%Ga", }, [OP_PUSH_ENT_v6p] = {"push", "push.ent", ev_entity, ev_invalid, ev_invalid, PROG_V6P_VERSION, "%Ga", }, [OP_PUSH_FLD_v6p] = {"push", "push.fld", ev_field, ev_invalid, ev_invalid, PROG_V6P_VERSION, "%Ga", }, [OP_PUSH_FN_v6p] = {"push", "push.fn", ev_func, ev_invalid, ev_invalid, PROG_V6P_VERSION, "%Ga", }, [OP_PUSH_P_v6p] = {"push", "push.p", ev_ptr, ev_invalid, ev_invalid, PROG_V6P_VERSION, "%Ga", }, [OP_PUSH_Q_v6p] = {"push", "push.q", ev_quaternion, ev_invalid, ev_invalid, PROG_V6P_VERSION, "%Ga", }, [OP_PUSH_I_v6p] = {"push", "push.i", ev_int, ev_invalid, ev_invalid, PROG_V6P_VERSION, "%Ga", }, [OP_PUSH_D_v6p] = {"push", "push.d", ev_double, ev_invalid, ev_invalid, PROG_V6P_VERSION, "%Ga", }, [OP_PUSHB_S_v6p] = {"push", "pushb.s", ev_ptr, ev_int, ev_string, PROG_V6P_VERSION, "*(%Ga + %Gb)", }, [OP_PUSHB_F_v6p] = {"push", "pushb.f", ev_ptr, ev_int, ev_float, PROG_V6P_VERSION, "*(%Ga + %Gb)", }, [OP_PUSHB_V_v6p] = {"push", "pushb.v", ev_ptr, ev_int, ev_vector, PROG_V6P_VERSION, "*(%Ga + %Gb)", }, [OP_PUSHB_ENT_v6p] = {"push", "pushb.ent", ev_ptr, ev_int, ev_entity, PROG_V6P_VERSION, "*(%Ga + %Gb)", }, [OP_PUSHB_FLD_v6p] = {"push", "pushb.fld", ev_ptr, ev_int, ev_field, PROG_V6P_VERSION, "*(%Ga + %Gb)", }, [OP_PUSHB_FN_v6p] = {"push", "pushb.fn", ev_ptr, ev_int, ev_func, PROG_V6P_VERSION, "*(%Ga + %Gb)", }, [OP_PUSHB_P_v6p] = {"push", "pushb.p", ev_ptr, ev_int, ev_ptr, PROG_V6P_VERSION, "*(%Ga + %Gb)", }, [OP_PUSHB_Q_v6p] = {"push", "pushb.q", ev_ptr, ev_int, ev_quaternion, PROG_V6P_VERSION, "*(%Ga + %Gb)", }, [OP_PUSHB_I_v6p] = {"push", "pushb.i", ev_ptr, ev_int, ev_int, PROG_V6P_VERSION, "*(%Ga + %Gb)", }, [OP_PUSHB_D_v6p] = {"push", "pushb.d", ev_ptr, ev_int, ev_double, PROG_V6P_VERSION, "*(%Ga + %Gb)", }, [OP_PUSHBI_S_v6p] = {"push", "pushbi.s", ev_ptr, ev_short, ev_string, PROG_V6P_VERSION, "*(%Ga + %sb)", }, [OP_PUSHBI_F_v6p] = {"push", "pushbi.f", ev_ptr, ev_short, ev_float, PROG_V6P_VERSION, "*(%Ga + %sb)", }, [OP_PUSHBI_V_v6p] = {"push", "pushbi.v", ev_ptr, ev_short, ev_vector, PROG_V6P_VERSION, "*(%Ga + %sb)", }, [OP_PUSHBI_ENT_v6p] = {"push", "pushbi.ent", ev_ptr, ev_short, ev_entity, PROG_V6P_VERSION, "*(%Ga + %sb)", }, [OP_PUSHBI_FLD_v6p] = {"push", "pushbi.fld", ev_ptr, ev_short, ev_field, PROG_V6P_VERSION, "*(%Ga + %sb)", }, [OP_PUSHBI_FN_v6p] = {"push", "pushbi.fn", ev_ptr, ev_short, ev_func, PROG_V6P_VERSION, "*(%Ga + %sb)", }, [OP_PUSHBI_P_v6p] = {"push", "pushbi.p", ev_ptr, ev_short, ev_ptr, PROG_V6P_VERSION, "*(%Ga + %sb)", }, [OP_PUSHBI_Q_v6p] = {"push", "pushbi.q", ev_ptr, ev_short, ev_quaternion, PROG_V6P_VERSION, "*(%Ga + %sb)", }, [OP_PUSHBI_I_v6p] = {"push", "pushbi.i", ev_ptr, ev_short, ev_int, PROG_V6P_VERSION, "*(%Ga + %sb)", }, [OP_PUSHBI_D_v6p] = {"push", "pushbi.d", ev_ptr, ev_short, ev_double, PROG_V6P_VERSION, "*(%Ga + %sb)", }, [OP_POP_S_v6p] = {"pop", "pop.s", ev_string, ev_invalid, ev_invalid, PROG_V6P_VERSION, "%ga", }, [OP_POP_F_v6p] = {"pop", "pop.f", ev_float, ev_invalid, ev_invalid, PROG_V6P_VERSION, "%ga", }, [OP_POP_V_v6p] = {"pop", "pop.v", ev_vector, ev_invalid, ev_invalid, PROG_V6P_VERSION, "%ga", }, [OP_POP_ENT_v6p] = {"pop", "pop.ent", ev_entity, ev_invalid, ev_invalid, PROG_V6P_VERSION, "%ga", }, [OP_POP_FLD_v6p] = {"pop", "pop.fld", ev_field, ev_invalid, ev_invalid, PROG_V6P_VERSION, "%ga", }, [OP_POP_FN_v6p] = {"pop", "pop.fn", ev_func, ev_invalid, ev_invalid, PROG_V6P_VERSION, "%ga", }, [OP_POP_P_v6p] = {"pop", "pop.p", ev_ptr, ev_invalid, ev_invalid, PROG_V6P_VERSION, "%ga", }, [OP_POP_Q_v6p] = {"pop", "pop.q", ev_quaternion, ev_invalid, ev_invalid, PROG_V6P_VERSION, "%ga", }, [OP_POP_I_v6p] = {"pop", "pop.i", ev_int, ev_invalid, ev_invalid, PROG_V6P_VERSION, "%ga", }, [OP_POP_D_v6p] = {"pop", "pop.d", ev_double, ev_invalid, ev_invalid, PROG_V6P_VERSION, "%ga", }, [OP_POPB_S_v6p] = {"pop", "popb.s", ev_ptr, ev_int, ev_string, PROG_V6P_VERSION, "*(%Ga + %Gb)", }, [OP_POPB_F_v6p] = {"pop", "popb.f", ev_ptr, ev_int, ev_float, PROG_V6P_VERSION, "*(%Ga + %Gb)", }, [OP_POPB_V_v6p] = {"pop", "popb.v", ev_ptr, ev_int, ev_vector, PROG_V6P_VERSION, "*(%Ga + %Gb)", }, [OP_POPB_ENT_v6p] = {"pop", "popb.ent", ev_ptr, ev_int, ev_entity, PROG_V6P_VERSION, "*(%Ga + %Gb)", }, [OP_POPB_FLD_v6p] = {"pop", "popb.fld", ev_ptr, ev_int, ev_field, PROG_V6P_VERSION, "*(%Ga + %Gb)", }, [OP_POPB_FN_v6p] = {"pop", "popb.fn", ev_ptr, ev_int, ev_func, PROG_V6P_VERSION, "*(%Ga + %Gb)", }, [OP_POPB_P_v6p] = {"pop", "popb.p", ev_ptr, ev_int, ev_ptr, PROG_V6P_VERSION, "*(%Ga + %Gb)", }, [OP_POPB_Q_v6p] = {"pop", "popb.q", ev_ptr, ev_int, ev_quaternion, PROG_V6P_VERSION, "*(%Ga + %Gb)", }, [OP_POPB_I_v6p] = {"pop", "popb.i", ev_ptr, ev_int, ev_int, PROG_V6P_VERSION, "*(%Ga + %Gb)", }, [OP_POPB_D_v6p] = {"pop", "popb.d", ev_ptr, ev_int, ev_double, PROG_V6P_VERSION, "*(%Ga + %Gb)", }, [OP_POPBI_S_v6p] = {"pop", "popbi.s", ev_ptr, ev_short, ev_string, PROG_V6P_VERSION, "*(%Ga + %sb)", }, [OP_POPBI_F_v6p] = {"pop", "popbi.f", ev_ptr, ev_short, ev_float, PROG_V6P_VERSION, "*(%Ga + %sb)", }, [OP_POPBI_V_v6p] = {"pop", "popbi.v", ev_ptr, ev_short, ev_vector, PROG_V6P_VERSION, "*(%Ga + %sb)", }, [OP_POPBI_ENT_v6p] = {"pop", "popbi.ent", ev_ptr, ev_short, ev_entity, PROG_V6P_VERSION, "*(%Ga + %sb)", }, [OP_POPBI_FLD_v6p] = {"pop", "popbi.fld", ev_ptr, ev_short, ev_field, PROG_V6P_VERSION, "*(%Ga + %sb)", }, [OP_POPBI_FN_v6p] = {"pop", "popbi.fn", ev_ptr, ev_short, ev_func, PROG_V6P_VERSION, "*(%Ga + %sb)", }, [OP_POPBI_P_v6p] = {"pop", "popbi.p", ev_ptr, ev_short, ev_ptr, PROG_V6P_VERSION, "*(%Ga + %sb)", }, [OP_POPBI_Q_v6p] = {"pop", "popbi.q", ev_ptr, ev_short, ev_quaternion, PROG_V6P_VERSION, "*(%Ga + %sb)", }, [OP_POPBI_I_v6p] = {"pop", "popbi.i", ev_ptr, ev_short, ev_int, PROG_V6P_VERSION, "*(%Ga + %sb)", }, [OP_POPBI_D_v6p] = {"pop", "popbi.d", ev_ptr, ev_short, ev_double, PROG_V6P_VERSION, "*(%Ga + %sb)", }, // end of table [OP_MEMSETPI_v6p+1] = {0}, //XXX FIXME relies on OP_MEMSETPI_v6p being last }; const v6p_opcode_t * PR_v6p_Opcode (pr_ushort_t opcode) { size_t opcode_count = sizeof (pr_v6p_opcodes) / sizeof (pr_v6p_opcodes[0]); if (opcode >= opcode_count - 1) { return 0; } return &pr_v6p_opcodes[opcode]; } static inline void check_branch (progs_t *pr, dstatement_t *st, const v6p_opcode_t *op, short offset) { pr_int_t address = st - pr->pr_statements; address += offset; if (address < 0 || (pr_uint_t) address >= pr->progs->statements.count) PR_Error (pr, "PR_Check_Opcodes: invalid branch (statement %ld: %s)", (long)(st - pr->pr_statements), op->opname); } static int is_vector_parameter_store (progs_t *pr, dstatement_t *st, unsigned short operand) { int i; if ((pr_opcode_v6p_e) st->op != OP_STORE_V_v6p) return 0; if (operand != st->a) return 0; for (i = 0; i < PR_MAX_PARAMS; i++) if (st->b == pr->pr_params[i] - pr->pr_globals) return 1; return 0; } #define ISDENORM(x) ((x) && !((x) & 0x7f800000)) static inline void check_global (progs_t *pr, dstatement_t *st, const v6p_opcode_t *op, etype_t type, unsigned short operand, int check_denorm) { const char *msg; pr_def_t *def; switch (type) { case ev_short: break; case ev_invalid: if (operand) { msg = "non-zero global index in invalid operand"; goto error; } break; default: if (operand + (unsigned) pr_type_size[type] > pr->progs->globals.count) { if (operand >= pr->progs->globals.count || !is_vector_parameter_store (pr, st, operand)) { msg = "out of bounds global index"; goto error; } } if (type != ev_float || !check_denorm) break; if (!ISDENORM (G_INT (pr, operand)) || G_UINT(pr, operand) == 0x80000000) break; if ((def = PR_GlobalAtOfs (pr, operand)) && (def->type & ~DEF_SAVEGLOBAL) != ev_float) { // FTEqcc uses store.f parameters of most types :/ break; } if (!pr->denorm_found) { pr->denorm_found = 1; if (pr_boundscheck->int_val) { Sys_Printf ("DENORMAL floats detected, these progs might " "not work. Good luck.\n"); return; } msg = "DENORMAL float detected. These progs are probably " "using qccx arrays and integers. If just simple arrays " "are being used, then they should work, but if " "internal.qc is used, they most definitely will NOT. To " "allow these progs to be used, set pr_boundscheck to 1."; goto error; } break; } return; error: PR_PrintStatement (pr, st, 0); PR_Error (pr, "PR_Check_Opcodes: %s (statement %ld: %s)", msg, (long)(st - pr->pr_statements), op->opname); } static void check_global_size (progs_t *pr, dstatement_t *st, const v6p_opcode_t *op, unsigned short size, unsigned short operand) { const char *msg; if (operand + size > pr->progs->globals.count) { msg = "out of bounds global index"; goto error; } return; error: PR_PrintStatement (pr, st, 0); PR_Error (pr, "PR_Check_Opcodes: %s (statement %ld: %s)", msg, (long)(st - pr->pr_statements), op->opname); } int PR_Check_v6p_Opcodes (progs_t *pr) { const v6p_opcode_t *op; dstatement_t *st; int state_ok = 0; int pushpop_ok = 0; pr_uint_t i; if (pr->globals.ftime && pr->globals.self && pr->fields.nextthink != -1 && pr->fields.think != -1 && pr->fields.frame != -1) { state_ok = 1; } if (pr->globals.stack) { pushpop_ok = 1; } //FIXME need to decide if I really want to always do static bounds checking // the only problem is that it slows progs load a little, but it's the only // way to check for qccx' evil if (0 && !pr_boundscheck->int_val) { for (i = 0, st = pr->pr_statements; i < pr->progs->statements.count; st++, i++) { pr_opcode_v6p_e st_op = (pr_opcode_v6p_e) st->op; op = PR_v6p_Opcode (st_op); if (!op) { PR_Error (pr, "PR_Check_Opcodes: unknown opcode %d at " "statement %ld", st_op, (long)(st - pr->pr_statements)); } if ((st_op == OP_STATE_v6p || st_op == OP_STATE_F_v6p) && !state_ok) { PR_Error (pr, "PR_Check_Opcodes: %s used with missing fields " "or globals", op->opname); } if ((strequal(op->name, "push") || strequal(op->name, "pop")) && !pushpop_ok) { PR_Error (pr, "PR_Check_Opcodes: %s used with missing .stack " "globals", op->opname); } } } else { for (i = 0, st = pr->pr_statements; i < pr->progs->statements.count; st++, i++) { pr_opcode_v6p_e st_op = (pr_opcode_v6p_e) st->op; op = PR_v6p_Opcode (st_op); if (!op) { PR_Error (pr, "PR_Check_Opcodes: unknown opcode %d at " "statement %ld", st_op, (long)(st - pr->pr_statements)); } switch (st_op) { case OP_IF_v6p: case OP_IFNOT_v6p: check_global (pr, st, op, op->type_a, st->a, 1); check_branch (pr, st, op, st->b); break; case OP_GOTO_v6p: check_branch (pr, st, op, st->a); break; case OP_DONE_v6p: case OP_RETURN_v6p: check_global (pr, st, op, ev_int, st->a, 1); check_global (pr, st, op, ev_void, st->b, 0); check_global (pr, st, op, ev_void, st->c, 0); break; case OP_RCALL1_v6p: check_global (pr, st, op, ev_void, st->c, 1); case OP_RCALL2_v6p: case OP_RCALL3_v6p: case OP_RCALL4_v6p: case OP_RCALL5_v6p: case OP_RCALL6_v6p: case OP_RCALL7_v6p: case OP_RCALL8_v6p: if (st_op > OP_RCALL1_v6p) check_global (pr, st, op, ev_int, st->c, 1); check_global (pr, st, op, ev_int, st->b, 1); check_global (pr, st, op, ev_func, st->a, 1); break; case OP_STATE_v6p: case OP_STATE_F_v6p: if (!state_ok) { PR_Error (pr, "PR_Check_Opcodes: %s used with missing " "fields or globals", op->opname); } check_global (pr, st, op, op->type_a, st->a, 1); check_global (pr, st, op, op->type_b, st->b, 1); check_global (pr, st, op, op->type_c, st->c, 1); break; case OP_MOVEI_v6p: check_global_size (pr, st, op, st->b, st->a); check_global_size (pr, st, op, st->b, st->c); break; case OP_MEMSETI_v6p: check_global_size (pr, st, op, st->b, st->c); break; case OP_PUSHB_F_v6p: case OP_PUSHB_S_v6p: case OP_PUSHB_ENT_v6p: case OP_PUSHB_FLD_v6p: case OP_PUSHB_FN_v6p: case OP_PUSHB_I_v6p: case OP_PUSHB_P_v6p: case OP_PUSHB_V_v6p: case OP_PUSHB_Q_v6p: case OP_PUSHBI_F_v6p: case OP_PUSHBI_S_v6p: case OP_PUSHBI_ENT_v6p: case OP_PUSHBI_FLD_v6p: case OP_PUSHBI_FN_v6p: case OP_PUSHBI_I_v6p: case OP_PUSHBI_P_v6p: case OP_PUSHBI_V_v6p: case OP_PUSHBI_Q_v6p: // op->type_c is used for selecting the operator during // compilation, but is invalid when running check_global (pr, st, op, op->type_a, st->a, 1); check_global (pr, st, op, op->type_b, st->b, 1); check_global (pr, st, op, ev_invalid, st->c, 1); break; case OP_POP_F_v6p: case OP_POP_FLD_v6p: case OP_POP_ENT_v6p: case OP_POP_S_v6p: case OP_POP_FN_v6p: case OP_POP_I_v6p: case OP_POP_P_v6p: case OP_POP_V_v6p: case OP_POP_Q_v6p: // don't want to check for denormal floats, otherwise // OP_POP__v6p* could use the defualt rule check_global (pr, st, op, op->type_a, st->a, 0); check_global (pr, st, op, ev_invalid, st->b, 1); check_global (pr, st, op, ev_invalid, st->c, 1); break; case OP_POPB_F_v6p: case OP_POPB_S_v6p: case OP_POPB_ENT_v6p: case OP_POPB_FLD_v6p: case OP_POPB_FN_v6p: case OP_POPB_I_v6p: case OP_POPB_P_v6p: case OP_POPB_V_v6p: case OP_POPB_Q_v6p: case OP_POPBI_F_v6p: case OP_POPBI_S_v6p: case OP_POPBI_ENT_v6p: case OP_POPBI_FLD_v6p: case OP_POPBI_FN_v6p: case OP_POPBI_I_v6p: case OP_POPBI_P_v6p: case OP_POPBI_V_v6p: case OP_POPBI_Q_v6p: // op->type_c is used for selecting the operator during // compilation, but is invalid when running check_global (pr, st, op, op->type_a, st->a, 1); check_global (pr, st, op, op->type_b, st->b, 1); check_global (pr, st, op, ev_invalid, st->c, 1); break; default: check_global (pr, st, op, op->type_a, st->a, 1); check_global (pr, st, op, op->type_b, st->b, (op - pr_v6p_opcodes) != OP_STORE_F_v6p); check_global (pr, st, op, op->type_c, st->c, 0); break; } } } return 1; }