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496 lines
16 KiB
496 lines
16 KiB
/******************************************************************************
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* Copyright (C) 2018 Dibyendu Majumdar
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*
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* Permission is hereby granted, free of charge, to any person obtaining
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* a copy of this software and associated documentation files (the
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* "Software"), to deal in the Software without restriction, including
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* without limitation the rights to use, copy, modify, merge, publish,
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* distribute, sublicense, and/or sell copies of the Software, and to
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* permit persons to whom the Software is furnished to do so, subject to
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* the following conditions:
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*
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* The above copyright notice and this permission notice shall be
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* included in all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
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* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
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* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
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* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
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* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
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* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
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* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
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******************************************************************************/
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#include <ravi_mirjit.h>
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#include <ravijit.h>
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#include <stddef.h>
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#include <assert.h>
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#define LUA_CORE
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#include "lauxlib.h"
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#include "lobject.h"
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#include "lstate.h"
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#include "lua.h"
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static const char *errortext[] = {"integer expected",
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"number expected",
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"integer[] expected",
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"number[] expected",
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"table expected",
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"upvalue of integer type, cannot be set to non integer value",
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"upvalue of number type, cannot be set to non number value",
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"upvalue of integer[] type, cannot be set to non integer[] value",
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"upvalue of number[] type, cannot be set to non number[] value",
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"upvalue of table type, cannot be set to non table value",
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"for llimit must be a number",
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"for step must be a number",
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"for initial value must be a number",
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"array index is out of bounds",
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"string expected",
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"closure expected",
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"type mismatch: wrong userdata type",
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NULL};
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static void raise_error(lua_State *L, int errorcode) {
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assert(errorcode >= 0 && errorcode <= Error_type_mismatch);
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luaG_runerror(L, errortext[errorcode]);
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}
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#if !RAVI_TARGET_X64
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#error MIRJIT is currently only supported on X64 architecture
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#endif
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typedef struct LuaFunc {
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const char *name;
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void *ptr;
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} LuaFunc;
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static LuaFunc Lua_functions[] = {
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{ "luaF_close", luaF_close },
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{ "raise_error", raise_error },
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{ "luaV_tonumber_", luaV_tonumber_ },
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{ "luaV_tointeger", luaV_tointeger },
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{ "luaD_poscall", luaD_poscall },
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{ "luaV_equalobj", luaV_equalobj },
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{ "luaV_lessthan", luaV_lessthan },
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{ "luaV_lessequal", luaV_lessequal },
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{ "luaV_execute", luaV_execute },
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{ "luaV_gettable", luaV_gettable },
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{ "luaV_settable", luaV_settable },
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{ "luaD_precall", luaD_precall },
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{ "raviV_op_newtable", raviV_op_newtable },
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{ "luaO_arith", luaO_arith },
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{ "raviV_op_newarrayint", raviV_op_newarrayint },
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{ "raviV_op_newarrayfloat", raviV_op_newarrayfloat },
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{ "raviV_op_setlist", raviV_op_setlist },
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{ "raviV_op_concat", raviV_op_concat },
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{ "raviV_op_closure", raviV_op_closure },
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{ "raviV_op_vararg", raviV_op_vararg },
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{ "luaV_objlen", luaV_objlen },
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{ "luaV_forlimit", luaV_forlimit },
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{ "raviV_op_setupval", raviV_op_setupval },
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{ "raviV_op_setupvali", raviV_op_setupvali },
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{ "raviV_op_setupvalf", raviV_op_setupvalf },
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{ "raviV_op_setupvalai", raviV_op_setupvalai },
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{ "raviV_op_setupvalaf", raviV_op_setupvalaf },
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{ "raviV_op_setupvalt", raviV_op_setupvalt },
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{ "luaD_call", luaD_call },
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{ "raviH_set_int", raviH_set_int },
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{ "raviH_set_float", raviH_set_float },
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{ "raviV_check_usertype", raviV_check_usertype },
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{ "luaT_trybinTM", luaT_trybinTM },
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{ "raviV_gettable_sskey", raviV_gettable_sskey },
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{ "raviV_settable_sskey", raviV_settable_sskey },
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{ "raviV_gettable_i", raviV_gettable_i },
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{ "raviV_settable_i", raviV_settable_i },
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{ "lua_absindex", lua_absindex },
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{ "lua_gettop", lua_gettop },
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{ "lua_pushvalue", lua_pushvalue },
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{ "lua_isnumber", lua_isnumber },
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{ "lua_isstring", lua_isstring },
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{ "lua_iscfunction", lua_iscfunction },
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{ "lua_isinteger", lua_isinteger },
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{ "lua_isuserdata", lua_isuserdata },
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{ "lua_type", lua_type },
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{ "lua_typename", (void*)lua_typename },
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{ "ravi_typename", (void*)ravi_typename },
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{ "lua_tonumberx", lua_tonumberx },
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{ "lua_tointegerx", lua_tointegerx },
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{ "lua_toboolean", lua_toboolean },
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{ "lua_tolstring", (void*)lua_tolstring },
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{ "lua_rawlen", lua_rawlen },
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{ "lua_tocfunction", lua_tocfunction },
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{ "lua_touserdata", lua_touserdata },
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{ "lua_tothread", lua_tothread },
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{ "lua_topointer", (void *)lua_topointer },
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{ "lua_arith", lua_arith },
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{ "lua_rawequal", lua_rawequal },
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{ "lua_compare", lua_compare },
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{ "lua_pushnil", lua_pushnil },
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{ "lua_pushnumber", lua_pushnumber },
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{ "lua_pushinteger", lua_pushinteger },
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{ "lua_pushlstring", (void*)lua_pushlstring },
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{ "lua_pushstring", (void*)lua_pushstring },
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{ "lua_pushcclosure", lua_pushcclosure },
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{ "lua_pushboolean", lua_pushboolean },
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{ "lua_pushlightuserdata", lua_pushlightuserdata },
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{ "lua_pushthread", lua_pushthread },
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{ "lua_getglobal", lua_getglobal },
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{ "lua_gettable", lua_gettable },
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{ "lua_getfield", lua_getfield },
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{ "lua_geti", lua_geti },
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{ "lua_rawget", lua_rawget },
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{ "lua_rawgeti", lua_rawgeti },
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{ "lua_rawgetp", lua_rawgetp },
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{ "lua_createtable", lua_createtable },
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{ "lua_newuserdata", lua_newuserdata },
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{ "lua_getmetatable", lua_getmetatable },
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{ "lua_getuservalue", lua_getuservalue },
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{ "lua_setglobal", lua_setglobal },
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{ "lua_settable", lua_settable },
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{ "lua_setfield", lua_setfield },
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{ "lua_seti", lua_seti },
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{ "lua_rawset", lua_rawset },
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{ "lua_rawseti", lua_rawseti },
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{ "lua_rawsetp", lua_rawsetp },
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{ "lua_setmetatable", lua_setmetatable },
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{ "lua_setuservalue", lua_setuservalue },
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{ NULL, NULL }
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};
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// Initialize the JIT State and attach it to the
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// Global Lua State
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// If a JIT State already exists then this function
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// will return -1
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int raviV_initjit(struct lua_State *L) {
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global_State *G = G(L);
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if (G->ravi_state != NULL) return -1;
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ravi_State *jit = (ravi_State *)calloc(1, sizeof(ravi_State));
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jit->auto_ = 0;
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jit->enabled_ = 1;
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jit->min_code_size_ = 150;
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jit->min_exec_count_ = 50;
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jit->opt_level_ = 1;
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// The parameter true means we will be dumping stuff as we compile
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jit->jit = MIR_init();
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G->ravi_state = jit;
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return 0;
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}
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// Free up the JIT State
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void raviV_close(struct lua_State *L) {
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global_State *G = G(L);
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if (G->ravi_state == NULL) return;
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// All compiled functions will be deleted at this stage
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if (G->ravi_state->jit) {
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MIR_finish(G->ravi_state->jit);
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}
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free(G->ravi_state);
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}
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// Dump the intermediate C code
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void raviV_dumpIR(struct lua_State *L, struct Proto *p) {
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global_State *G = G(L);
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if (G->ravi_state == NULL)
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return;
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membuff_t buf;
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membuff_init(&buf, 4096);
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char fname[30];
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snprintf(fname, sizeof fname, "%s", "jit_function");
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ravi_compile_options_t options;
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memset(&options, 0, sizeof options);
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options.codegen_type = RAVI_CODEGEN_ALL;
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if (raviJ_codegen(L, p, &options, fname, &buf)) {
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ravi_writestring(L, buf.buf, strlen(buf.buf));
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ravi_writeline(L);
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}
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membuff_free(&buf);
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}
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// Dump the LLVM ASM
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void raviV_dumpASM(struct lua_State *L, struct Proto *p) {
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(void)L;
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(void)p;
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}
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void raviV_setminexeccount(lua_State *L, int value) {
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global_State *G = G(L);
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if (!G->ravi_state) return;
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G->ravi_state->min_exec_count_ = value;
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}
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int raviV_getminexeccount(lua_State *L) {
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global_State *G = G(L);
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if (!G->ravi_state) return 0;
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return G->ravi_state->min_exec_count_;
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}
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void raviV_setmincodesize(lua_State *L, int value) {
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global_State *G = G(L);
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if (!G->ravi_state) return;
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G->ravi_state->min_code_size_ = value;
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}
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int raviV_getmincodesize(lua_State *L) {
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global_State *G = G(L);
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if (!G->ravi_state) return 0;
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return G->ravi_state->min_code_size_;
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}
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void raviV_setauto(lua_State *L, int value) {
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global_State *G = G(L);
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if (!G->ravi_state) return;
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G->ravi_state->auto_ = value;
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}
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int raviV_getauto(lua_State *L) {
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global_State *G = G(L);
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if (!G->ravi_state) return 0;
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return G->ravi_state->auto_;
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}
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// Turn on/off the JIT compiler
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void raviV_setjitenabled(lua_State *L, int value) {
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global_State *G = G(L);
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if (!G->ravi_state) return;
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G->ravi_state->enabled_ = value;
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}
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int raviV_getjitenabled(lua_State *L) {
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global_State *G = G(L);
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if (!G->ravi_state) return 0;
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return G->ravi_state->enabled_;
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}
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void raviV_setoptlevel(lua_State *L, int value) {
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global_State *G = G(L);
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if (!G->ravi_state) return;
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G->ravi_state->opt_level_ = value;
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}
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int raviV_getoptlevel(lua_State *L) {
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global_State *G = G(L);
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if (!G->ravi_state) return 0;
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return G->ravi_state->opt_level_;
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}
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void raviV_setsizelevel(lua_State *L, int value) {
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(void)L;
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(void)value;
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}
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int raviV_getsizelevel(lua_State *L) {
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(void)L;
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return 0;
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}
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void raviV_setvalidation(lua_State *L, int value) {
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global_State *G = G(L);
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if (!G->ravi_state) return;
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G->ravi_state->validation_ = value;
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}
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int raviV_getvalidation(lua_State *L) {
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global_State *G = G(L);
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if (!G->ravi_state) return 0;
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return G->ravi_state->validation_;
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}
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void raviV_setverbosity(lua_State *L, int value) {
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global_State *G = G(L);
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if (!G->ravi_state) return;
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G->ravi_state->verbosity_ = value;
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}
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int raviV_getverbosity(lua_State *L) {
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global_State *G = G(L);
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if (!G->ravi_state) return 0;
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return G->ravi_state->verbosity_;
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}
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void raviV_setgcstep(lua_State *L, int value) {
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(void)L;
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(void)value;
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}
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int raviV_getgcstep(lua_State *L) {
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(void)L;
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return 0;
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}
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// Turn on/off the JIT compiler
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void raviV_settraceenabled(lua_State *L, int value) {
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(void)L;
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(void)value;
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}
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int raviV_gettraceenabled(lua_State *L) {
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(void)L;
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return 0;
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}
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int raviV_compile_n(struct lua_State *L, struct Proto *p[], int n,
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ravi_compile_options_t *options) {
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int count = 0;
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for (int i = 0; i < n; i++) {
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if (raviV_compile(L, p[i], options)) count++;
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}
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return count > 0;
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}
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static void* import_resolver(const char *name) {
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for (int i = 0; Lua_functions[i].name != NULL; i++) {
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if (strcmp(name, Lua_functions[i].name) == 0)
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return Lua_functions[i].ptr;
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}
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return NULL;
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}
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/* FIXME */
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/* For now we have to use some static variables
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due to limitations of the MIR api */
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static size_t Current_char; /* position of current character */
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static const char *Source_code; /* points to buffer containing source Source_code */
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static int t_getc (void) {
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int c = Source_code[Current_char];
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if (c == 0)
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c = EOF;
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else
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Current_char++;
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return c;
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}
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/* Searches within a Module for a function by name */
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static MIR_item_t find_function(MIR_module_t module, const char *func_name) {
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MIR_item_t func, main_func = NULL;
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for (func = DLIST_HEAD (MIR_item_t, module->items); func != NULL;
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func = DLIST_NEXT (MIR_item_t, func)) {
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if (func->item_type == MIR_func_item && strcmp (func->u.func->name, func_name) == 0)
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main_func = func;
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}
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return main_func;
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}
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void *MIR_compile_C_module(
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struct c2mir_options *options,
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MIR_context_t ctx,
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const char *inputbuffer, /* Code to be compiled */
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const char *func_name, /* Name of the function, must be unique */
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void *(Import_resolver_func)(const char *name)) /* Resolve external symbols */
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{
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int n = 0;
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int ret_code = 0;
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int (*fun_addr) (void *) = NULL;
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MIR_module_t module = NULL;
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c2mir_init(ctx);
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Source_code = inputbuffer;
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Current_char = 0;
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options->module_num++;
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options->message_file = stderr;
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if (!c2mir_compile(ctx, options, t_getc, func_name, NULL)) {
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ret_code = 1;
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}
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else {
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/* The module just compiled will be at the end of the list */
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module = DLIST_TAIL (MIR_module_t, *MIR_get_module_list (ctx));
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}
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if (ret_code == 0 && !module) {
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ret_code = 1;
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}
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if (ret_code == 0 && module) {
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MIR_item_t main_func = find_function(module, func_name);
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if (main_func == NULL) {
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fprintf(stderr, "Error: Compiled function %s not found\n", func_name);
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exit(1);
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}
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MIR_load_module (ctx, module);
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MIR_gen_init (ctx);
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MIR_link (ctx, MIR_set_gen_interface, Import_resolver_func);
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fun_addr = MIR_gen (ctx, main_func);
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MIR_gen_finish (ctx);
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}
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c2mir_finish (ctx);
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return fun_addr;
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}
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// Compile a Lua function
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// If JIT is turned off then compilation is skipped
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// Compilation occurs if either auto compilation is ON (subject to some
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// thresholds)
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// or if a manual compilation request was made
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// Returns true if compilation was successful
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int raviV_compile(struct lua_State *L, struct Proto *p, ravi_compile_options_t *options) {
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if (p->ravi_jit.jit_status == RAVI_JIT_COMPILED)
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return true;
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else if (p->ravi_jit.jit_status == RAVI_JIT_CANT_COMPILE)
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return false;
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if (options == NULL) return false;
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global_State *G = G(L);
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if (G->ravi_state == NULL) return false;
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if (G->ravi_state->jit == NULL) return false;
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bool doCompile = (bool)(options && options->manual_request != 0);
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if (!doCompile && G->ravi_state->auto_) {
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if (p->ravi_jit.jit_flags == RAVI_JIT_FLAG_HASFORLOOP) /* function has fornum loop, so compile */
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doCompile = true;
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else if (p->sizecode > G->ravi_state->min_code_size_) /* function is long so compile */
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doCompile = true;
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else {
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if (p->ravi_jit.execution_count < G->ravi_state->min_exec_count_) /* function has been executed many
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times so compile */
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p->ravi_jit.execution_count++;
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else
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doCompile = true;
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}
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}
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if (!doCompile) { return false; }
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if (!raviJ_cancompile(p)) {
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p->ravi_jit.jit_status = RAVI_JIT_CANT_COMPILE;
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return false;
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}
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if (G->ravi_state->compiling_) return false;
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|
G->ravi_state->compiling_ = 1;
|
|
|
|
membuff_t buf;
|
|
membuff_init(&buf, 4096);
|
|
|
|
int (*fp)(lua_State * L) = NULL;
|
|
char fname[30];
|
|
snprintf(fname, sizeof fname, "jit%lld", G->ravi_state->id++);
|
|
if (!raviJ_codegen(L, p, options, fname, &buf)) {
|
|
p->ravi_jit.jit_status = RAVI_JIT_CANT_COMPILE;
|
|
goto Lerror;
|
|
}
|
|
if (options->manual_request && G->ravi_state->verbosity_) {
|
|
ravi_writestring(L, buf.buf, strlen(buf.buf));
|
|
ravi_writeline(L);
|
|
}
|
|
fp = MIR_compile_C_module(&G->ravi_state->options, G->ravi_state->jit, buf.buf, fname, import_resolver);
|
|
if (!fp) {
|
|
p->ravi_jit.jit_status = RAVI_JIT_CANT_COMPILE;
|
|
}
|
|
else {
|
|
p->ravi_jit.jit_data = NULL;
|
|
p->ravi_jit.jit_function = fp;
|
|
p->ravi_jit.jit_status = RAVI_JIT_COMPILED;
|
|
}
|
|
Lerror:
|
|
membuff_free(&buf);
|
|
G->ravi_state->compiling_ = 0;
|
|
return fp != NULL;
|
|
}
|
|
|
|
// Free the JIT compiled function
|
|
// Note that this is called by the garbage collector
|
|
void raviV_freeproto(struct lua_State *L, struct Proto *p) {
|
|
(void)L;
|
|
(void)p;
|
|
}
|
|
|
|
int ravi_compile_C(lua_State *L) {
|
|
(void)L;
|
|
return 0;
|
|
} |