/********************************************************************** insnhelper.h - helper macros to implement each instructions $Author$ created at: 04/01/01 15:50:34 JST Copyright (C) 2004-2007 Koichi Sasada **********************************************************************/ #ifndef RUBY_INSNHELPER_H #define RUBY_INSNHELPER_H /** * VM Debug Level * * debug level: * 0: no debug output * 1: show instruction name * 2: show stack frame when control stack frame is changed * 3: show stack status * 4: show register * 5: * 10: gc check */ #ifndef VMDEBUG #define VMDEBUG 0 #endif #if 0 #undef VMDEBUG #define VMDEBUG 3 #endif enum { BOP_PLUS, BOP_MINUS, BOP_MULT, BOP_DIV, BOP_MOD, BOP_EQ, BOP_EQQ, BOP_LT, BOP_LE, BOP_LTLT, BOP_AREF, BOP_ASET, BOP_LENGTH, BOP_SIZE, BOP_SUCC, BOP_GT, BOP_GE, BOP_NOT, BOP_NEQ, BOP_LAST_ }; extern char ruby_vm_redefined_flag[BOP_LAST_]; extern VALUE ruby_vm_const_missing_count; /**********************************************************/ /* deal with stack */ /**********************************************************/ #define PUSH(x) (SET_SV(x), INC_SP(1)) #define TOPN(n) (*(GET_SP()-(n)-1)) #define POPN(n) (DEC_SP(n)) #define POP() (DEC_SP(1)) #define STACK_ADDR_FROM_TOP(n) (GET_SP()-(n)) #define GET_TOS() (tos) /* dummy */ /**********************************************************/ /* deal with registers */ /**********************************************************/ #define REG_CFP (reg_cfp) #define REG_PC (REG_CFP->pc) #define REG_SP (REG_CFP->sp) #define REG_LFP (REG_CFP->lfp) #define REG_DFP (REG_CFP->dfp) #define RESTORE_REGS() do { \ REG_CFP = th->cfp; \ } while (0) #define REG_A reg_a #define REG_B reg_b #ifdef COLLECT_USAGE_ANALYSIS #define USAGE_ANALYSIS_REGISTER_HELPER(a, b, v) \ (USAGE_ANALYSIS_REGISTER((a), (b)), (v)) #else #define USAGE_ANALYSIS_REGISTER_HELPER(a, b, v) (v) #endif /* PC */ #define GET_PC() (USAGE_ANALYSIS_REGISTER_HELPER(0, 0, REG_PC)) #define SET_PC(x) (REG_PC = (USAGE_ANALYSIS_REGISTER_HELPER(0, 1, (x)))) #define GET_CURRENT_INSN() (*GET_PC()) #define GET_OPERAND(n) (GET_PC()[(n)]) #define ADD_PC(n) (SET_PC(REG_PC + (n))) #define GET_PC_COUNT() (REG_PC - GET_ISEQ()->iseq_encoded) #define JUMP(dst) (REG_PC += (dst)) /* FP */ #define GET_CFP() (USAGE_ANALYSIS_REGISTER_HELPER(2, 0, REG_CFP)) #define GET_LFP() (USAGE_ANALYSIS_REGISTER_HELPER(3, 0, REG_LFP)) #define SET_LFP(x) (REG_LFP = (USAGE_ANALYSIS_REGISTER_HELPER(3, 1, (x)))) #define GET_DFP() (USAGE_ANALYSIS_REGISTER_HELPER(4, 0, REG_DFP)) #define SET_DFP(x) (REG_DFP = (USAGE_ANALYSIS_REGISTER_HELPER(4, 1, (x)))) /* SP */ #define GET_SP() (USAGE_ANALYSIS_REGISTER_HELPER(1, 0, REG_SP)) #define SET_SP(x) (REG_SP = (USAGE_ANALYSIS_REGISTER_HELPER(1, 1, (x)))) #define INC_SP(x) (REG_SP += (USAGE_ANALYSIS_REGISTER_HELPER(1, 1, (x)))) #define DEC_SP(x) (REG_SP -= (USAGE_ANALYSIS_REGISTER_HELPER(1, 1, (x)))) #define SET_SV(x) (*GET_SP() = (x)) /* set current stack value as x */ #define GET_SP_COUNT() (REG_SP - th->stack) /* instruction sequence C struct */ #define GET_ISEQ() (GET_CFP()->iseq) /**********************************************************/ /* deal with variables */ /**********************************************************/ #define GET_PREV_DFP(dfp) ((VALUE *)((dfp)[0] & ~0x03)) #define GET_GLOBAL(entry) rb_gvar_get((struct rb_global_entry*)(entry)) #define SET_GLOBAL(entry, val) rb_gvar_set((struct rb_global_entry*)(entry), (val)) #define GET_CONST_INLINE_CACHE(dst) ((IC) * (GET_PC() + (dst) + 2)) /**********************************************************/ /* deal with values */ /**********************************************************/ #define GET_SELF() (USAGE_ANALYSIS_REGISTER_HELPER(5, 0, GET_CFP()->self)) /**********************************************************/ /* deal with control flow 2: method/iterator */ /**********************************************************/ #define COPY_CREF(c1, c2) do { \ NODE *__tmp_c2 = (c2); \ (c1)->nd_clss = __tmp_c2->nd_clss; \ (c1)->nd_visi = __tmp_c2->nd_visi;\ (c1)->nd_next = __tmp_c2->nd_next; \ if (__tmp_c2->flags & NODE_FL_CREF_PUSHED_BY_EVAL) { \ (c1)->flags |= NODE_FL_CREF_PUSHED_BY_EVAL; \ } \ } while (0) #define CALL_METHOD(num, blockptr, flag, id, me, recv) do { \ VALUE v = vm_call_method(th, GET_CFP(), (num), (blockptr), (flag), (id), (me), (recv)); \ if (v == Qundef) { \ RESTORE_REGS(); \ NEXT_INSN(); \ } \ else { \ val = v; \ } \ } while (0) #define GET_BLOCK_PTR() \ ((rb_block_t *)(GC_GUARDED_PTR_REF(GET_LFP()[0] & \ ((GET_LFP()[0] & 0x02) - 0x02)))) /**********************************************************/ /* deal with control flow 3: exception */ /**********************************************************/ /**********************************************************/ /* others */ /**********************************************************/ /* optimize insn */ #define FIXNUM_2_P(a, b) ((a) & (b) & 1) #define BASIC_OP_UNREDEFINED_P(op) (LIKELY(ruby_vm_redefined_flag[(op)] == 0)) #define HEAP_CLASS_OF(obj) RBASIC(obj)->klass #ifndef USE_IC_FOR_SPECIALIZED_METHOD #define USE_IC_FOR_SPECIALIZED_METHOD 1 #endif #if USE_IC_FOR_SPECIALIZED_METHOD #define CALL_SIMPLE_METHOD(num, id, recv) do { \ VALUE klass = CLASS_OF(recv); \ CALL_METHOD((num), 0, 0, (id), vm_method_search((id), klass, ic), (recv)); \ } while (0) #else #define CALL_SIMPLE_METHOD(num, id, recv) do { \ VALUE klass = CLASS_OF(recv); \ CALL_METHOD((num), 0, 0, (id), rb_method_entry(klass, (id)), (recv)); \ } while (0) #endif #endif /* RUBY_INSNHELPER_H */