#define UNIFY_X_VAR_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0; \ CACHE_S(); \ READ_IN_S(); \ d0 = *S_SREG; #ifdef YAPOR_SBA #define UNIFY_X_VAR_YAPOR_SBA \ if (d0 == 0) { \ d0 = (CELL)S_SREG; \ } #endif #define UNIFY_X_VAR_END \ WRITEBACK_S(S_SREG+1); \ ALWAYS_START_PREFETCH(ox); \ XREG((*_PREG)->y_u.ox.x) = d0; \ (*_PREG) = NEXTOP((*_PREG), ox); \ ALWAYS_GONext(); \ ALWAYS_END_PREFETCH(); \ ENDCACHE_S(); #define UNIFY_X_VAR_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL *pt0; \ CACHE_S(); \ READ_IN_S(); \ pt0 = &XREG((*_PREG)->y_u.ox.x); \ (*_PREG) = NEXTOP((*_PREG), ox); \ RESET_VARIABLE(S_SREG); \ *pt0 = (CELL) S_SREG; \ WRITEBACK_S(S_SREG+1); \ ENDCACHE_S(); \ GONextW(); #define UNIFY_L_X_VAR_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0; \ register CELL *pt0; \ ALWAYS_START_PREFETCH(ox); \ d0 = (*_SREG)[0]; \ pt0 = &XREG((*_PREG)->y_u.ox.x); \ (*_PREG) = NEXTOP((*_PREG), ox); #ifdef YAPOR_SBA #define UNIFY_L_X_VAR_YAPOR_SBA \ if (d0 == 0) { \ d0 = (CELL)(*_SREG); \ } #endif #define UNIFY_L_X_VAR_END \ *pt0 = d0; \ ALWAYS_GONext(); \ ALWAYS_END_PREFETCH(); #define UNIFY_L_X_VAR_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL *pt0; \ ALWAYS_START_PREFETCH(ox); \ CACHE_S(); \ READ_IN_S(); \ pt0 = &XREG((*_PREG)->y_u.ox.x); \ (*_PREG) = NEXTOP((*_PREG), ox); \ RESET_VARIABLE(S_SREG); \ *pt0 = (CELL)S_SREG; \ ENDCACHE_S(); \ ALWAYS_GONext(); \ ALWAYS_END_PREFETCH(); #define UNIFY_X_VAR2_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0, d1; \ register CELL *pt0; \ CACHE_S(); \ ALWAYS_START_PREFETCH(oxx); \ READ_IN_S(); \ pt0 = &XREG((*_PREG)->y_u.oxx.xr); \ d0 = S_SREG[0]; \ d1 = S_SREG[1]; #ifdef YAPOR_SBA #define UNIFY_X_VAR2_YAPOR_SBA \ if (d0 == 0) { \ d0 = (CELL)S_SREG; \ } \ if (d1 == 0) { \ d1 = (CELL)(S_SREG+1); \ } #endif #define UNIFY_X_VAR2_END \ WRITEBACK_S(S_SREG+2); \ XREG((*_PREG)->y_u.oxx.xl) = d0; \ (*_PREG) = NEXTOP((*_PREG), oxx); \ *pt0 = d1; \ ALWAYS_GONext(); \ ALWAYS_END_PREFETCH(); \ ENDCACHE_S(); #define UNIFY_X_VAR2_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL *pt0; \ CACHE_S(); \ READ_IN_S(); \ pt0 = &XREG((*_PREG)->y_u.oxx.xr); \ RESET_VARIABLE(S_SREG); \ XREG((*_PREG)->y_u.oxx.xl) = (CELL) S_SREG; \ S_SREG++; \ (*_PREG) = NEXTOP((*_PREG), oxx); \ RESET_VARIABLE(S_SREG); \ *pt0 = (CELL) S_SREG; \ WRITEBACK_S(S_SREG+1); \ ENDCACHE_S(); \ GONextW(); #ifdef YAPOR_SBA #define UNIFY_L_X_VAR2_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0, d1; \ register CELL *pt0; \ CACHE_S(); \ READ_IN_S(); \ pt0 = &XREG((*_PREG)->y_u.oxx.xr); \ d0 = S_SREG[0]; \ d1 = S_SREG[1]; \ if (d0 == 0) \ XREG((*_PREG)->y_u.oxx.xl) = (CELL)S_SREG; \ else \ XREG((*_PREG)->y_u.oxx.xl) = d0; \ (*_PREG) = NEXTOP((*_PREG), oxx); \ if (d1 == 0) \ *pt0 = (CELL)(S_SREG+1); \ else \ *pt0 = d1; \ ENDCACHE_S(); \ ALWAYS_GONext(); #else /* YAPOR_SBA */ #define UNIFY_L_X_VAR2_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0, d1; \ register CELL *pt0; \ CACHE_S(); \ READ_IN_S(); \ pt0 = &XREG((*_PREG)->y_u.oxx.xr); \ d0 = S_SREG[0]; \ d1 = S_SREG[1]; \ { \ XREG((*_PREG)->y_u.oxx.xl) = d0; \ } \ (*_PREG) = NEXTOP((*_PREG), oxx); \ { \ *pt0 = d1; \ } \ ENDCACHE_S(); \ ALWAYS_GONext(); #endif /* YAPOR_SBA */ #define UNIFY_L_X_VAR2_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL *pt0; \ CACHE_S(); \ READ_IN_S(); \ pt0 = &XREG((*_PREG)->y_u.oxx.xr); \ XREG((*_PREG)->y_u.oxx.xl) = (CELL) S_SREG; \ RESET_VARIABLE(S_SREG); \ S_SREG++; \ *pt0 = (CELL) S_SREG; \ (*_PREG) = NEXTOP((*_PREG), oxx); \ RESET_VARIABLE(S_SREG); \ ENDCACHE_S(); \ GONext(); #ifdef YAPOR_SBA #define UNIFY_Y_VAR_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0; \ d0 = *(*_SREG)++; \ if (d0 == 0) { \ INITIALIZE_PERMVAR(YREG+(*_PREG)->y_u.oy.y,(CELL)((*_SREG)-1)); \ } else \ (*_PREG) = NEXTOP((*_PREG), oy); \ GONext(); #else /* YAPOR_SBA */ #define UNIFY_Y_VAR_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0; \ d0 = *(*_SREG)++; \ INITIALIZE_PERMVAR(YREG+(*_PREG)->y_u.oy.y,d0); \ (*_PREG) = NEXTOP((*_PREG), oy); \ GONext(); #endif /* YAPOR_SBA */ #define UNIFY_Y_VAR_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ CACHE_S(); \ READ_IN_S(); \ INITIALIZE_PERMVAR(YREG+(*_PREG)->y_u.oy.y,(CELL) S_SREG); \ (*_PREG) = NEXTOP((*_PREG), oy); \ RESET_VARIABLE(S_SREG); \ WRITEBACK_S(S_SREG+1); \ ENDCACHE_S(); \ GONextW(); #ifdef YAPOR_SBA #define UNIFY_L_Y_VAR_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0; \ d0 = (*_SREG)[0]; \ if (d0 == 0) { \ INITIALIZE_PERMVAR(YREG+(*_PREG)->y_u.oy.y,(CELL)(*_SREG)); \ } else \ (*_PREG) = NEXTOP((*_PREG), oy); \ GONext(); #else /* YAPOR_SBA */ #define UNIFY_L_Y_VAR_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0; \ d0 = (*_SREG)[0]; \ INITIALIZE_PERMVAR(YREG+(*_PREG)->y_u.oy.y,d0); \ (*_PREG) = NEXTOP((*_PREG), oy); \ GONext(); #endif /* YAPOR_SBA */ #define UNIFY_L_Y_VAR_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ CACHE_S(); \ READ_IN_S(); \ INITIALIZE_PERMVAR(YREG+(*_PREG)->y_u.oy.y,(CELL) S_SREG); \ (*_PREG) = NEXTOP((*_PREG), oy); \ RESET_VARIABLE(S_SREG); \ ENDCACHE_S(); \ GONext(); #define UNIFY_X_VAL_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0, d1; \ register CELL *pt0, *pt1; \ pt0 = (*_SREG); \ d0 = *pt0; #define UNIFY_X_VAL_UVALX_NONVAR \ d1 = XREG((*_PREG)->y_u.ox.x); #define UNIFY_X_VAL_UVALX_NONVAR_NONVAR \ BLOCK = (CELL)UNIFY_X_VAL_UVALX_NONVAR_NONVAR; \ (*_PREG) = NEXTOP((*_PREG), ox); \ (*_SREG)++; \ YAAM_UNIFYBOUND; #define UNIFY_X_VAL_UVALX_NONVAR_UNK \ (*_PREG) = NEXTOP((*_PREG), ox); \ (*_SREG)++; \ Bind(pt1, d0); \ GONext(); #define UNIFY_X_VAL_UVALX_UNK \ d1 = XREG((*_PREG)->y_u.ox.x); #define UNIFY_X_VAL_UVALX_VAR_NONVAR \ (*_PREG) = NEXTOP((*_PREG), ox); \ (*_SREG)++; \ Bind_Global(pt0, d1); \ GONext(); #define UNIFY_X_VAL_UVALX_VAR_UNK \ (*_PREG) = NEXTOP((*_PREG), ox); \ (*_SREG)++; \ UnifyGlobalCellToCell(pt0, pt1); \ GONext(); #define UNIFY_X_VAL_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ *(*_SREG)++ = XREG((*_PREG)->y_u.ox.x); \ (*_PREG) = NEXTOP((*_PREG), ox); \ GONextW(); #define UNIFY_L_X_VAL_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0, d1; \ register CELL *pt0, *pt1; \ pt0 = (*_SREG); \ d0 = *pt0; #define UNIFY_L_X_VAL_ULVALX_NONVAR \ d1 = XREG((*_PREG)->y_u.ox.x); #define UNIFY_L_X_VAL_ULVALX_NONVAR_NONVAR \ BLOCK = (CELL)UNIFY_L_X_VAL_ULVALX_NONVAR_NONVAR; \ (*_PREG) = NEXTOP((*_PREG), ox); \ YAAM_UNIFYBOUND; #define UNIFY_L_X_VAL_ULVALX_NONVAR_UNK \ (*_PREG) = NEXTOP((*_PREG), ox); \ Bind(pt1, d0); \ GONext(); #define UNIFY_L_X_VAL_ULVALX_UNK \ d1 = XREG((*_PREG)->y_u.ox.x); #define UNIFY_L_X_VAL_ULVALX_VAR_NONVAR \ (*_PREG) = NEXTOP((*_PREG), ox); \ Bind_Global(pt0, d1); \ GONext(); #define UNIFY_L_X_VAL_ULVALX_VAR_UNK \ (*_PREG) = NEXTOP((*_PREG), ox); \ UnifyGlobalCellToCell(pt0, pt1); \ GONext(); #define UNIFY_L_X_VAL_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ (*_SREG)[0] = XREG((*_PREG)->y_u.ox.x); \ (*_PREG) = NEXTOP((*_PREG), ox); \ GONext(); #define UNIFY_Y_VAL_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0, d1; \ register CELL *pt0, *pt1; \ pt0 = (*_SREG); \ d0 = *pt0; #define UNIFY_Y_VAL_UVALY_NONVAR \ pt1 = YREG+(*_PREG)->y_u.oy.y; \ d1 = *pt1; #define UNIFY_Y_VAL_UVALY_NONVAR_NONVAR \ BLOCK = (CELL)UNIFY_Y_VAL_UVALY_NONVAR_NONVAR; \ (*_PREG) = NEXTOP((*_PREG), oy); \ (*_SREG)++; \ YAAM_UNIFYBOUND; #define UNIFY_Y_VAL_UVALY_NONVAR_UNK \ (*_PREG) = NEXTOP((*_PREG), oy); \ (*_SREG)++; \ Bind(pt1, d0); \ GONext(); #define UNIFY_Y_VAL_UVALY_UNK \ pt1 = YREG+(*_PREG)->y_u.oy.y; \ d1 = *pt1; #define UNIFY_Y_VAL_UVALY_VAR_NONVAR \ (*_PREG) = NEXTOP((*_PREG), oy); \ (*_SREG)++; \ Bind_Global(pt0, d1); \ GONext(); #define UNIFY_Y_VAL_UVALY_VAR_UNK \ (*_PREG) = NEXTOP((*_PREG), oy); \ (*_SREG)++; \ UnifyGlobalCellToCell(pt0, pt1); \ GONext(); #ifdef YAPOR_SBA #define UNIFY_Y_VAL_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0; \ d0 = YREG[(*_PREG)->y_u.oy.y]; \ if (d0 == 0) \ *(*_SREG)++ = (CELL)(YREG+(*_PREG)->y_u.oy.y); \ else \ *(*_SREG)++ = d0; \ (*_PREG) = NEXTOP((*_PREG), oy); \ GONextW(); #else /* YAPOR_SBA */ #define UNIFY_Y_VAL_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0; \ d0 = YREG[(*_PREG)->y_u.oy.y]; \ *(*_SREG)++ = d0; \ (*_PREG) = NEXTOP((*_PREG), oy); \ GONextW(); #endif /* YAPOR_SBA */ #define UNIFY_L_Y_VAL_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0, d1; \ register CELL *pt0, *pt1; \ pt0 = (*_SREG); \ d0 = *pt0; #define UNIFY_L_Y_VAL_ULVALY_NONVAR \ pt1 = YREG+(*_PREG)->y_u.oy.y; \ d1 = *pt1; #define UNIFY_L_Y_VAL_ULVALY_NONVAR_NONVAR \ BLOCK = (CELL)UNIFY_L_Y_VAL_ULVALY_NONVAR_NONVAR; \ (*_PREG) = NEXTOP((*_PREG), oy); \ YAAM_UNIFYBOUND; #define UNIFY_L_Y_VAL_ULVALY_NONVAR_UNK \ (*_PREG) = NEXTOP((*_PREG), oy); \ Bind(pt1, d0); \ GONext(); #define UNIFY_L_Y_VAL_ULVALY_UNK \ pt1 = YREG+(*_PREG)->y_u.oy.y; \ d1 = *pt1; #define UNIFY_L_Y_VAL_ULVALY_VAR_NONVAR \ (*_PREG) = NEXTOP((*_PREG), oy); \ Bind_Global(pt0, d1); \ GONext(); #define UNIFY_L_Y_VAL_ULVALY_VAR_UNK \ (*_PREG) = NEXTOP((*_PREG), oy); \ UnifyGlobalCellToCell(pt0, pt1); \ GONext(); #ifdef YAPOR_SBA #define UNIFY_L_Y_VAL_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0; \ d0 = YREG[(*_PREG)->y_u.oy.y]; \ if (d0 == 0) \ (*_SREG)[0] = (CELL)(YREG+(*_PREG)->y_u.oy.y); \ else \ (*_SREG)[0] = d0; \ (*_PREG) = NEXTOP((*_PREG), oy); \ GONext(); #else /* YAPOR_SBA */ #define UNIFY_L_Y_VAL_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0; \ d0 = YREG[(*_PREG)->y_u.oy.y]; \ (*_SREG)[0] = d0; \ (*_PREG) = NEXTOP((*_PREG), oy); \ GONext(); #endif /* YAPOR_SBA */ #define UNIFY_X_LOC_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0, d1; \ register CELL *pt0, *pt1; \ pt0 = (*_SREG); \ d0 = *pt0; #define UNIFY_X_LOC_UVALX_LOC_NONVAR \ d1 = XREG((*_PREG)->y_u.ox.x); #define UNIFY_X_LOC_UVALX_LOC_NONVAR_NONVAR \ BLOCK = (CELL)UNIFY_X_LOC_UVALX_LOC_NONVAR_NONVAR; \ (*_PREG) = NEXTOP((*_PREG), ox); \ (*_SREG)++; \ YAAM_UNIFYBOUND; #define UNIFY_X_LOC_UVALX_LOC_NONVAR_UNK \ (*_PREG) = NEXTOP((*_PREG), ox); \ (*_SREG)++; \ Bind(pt1, d0); \ GONext(); #define UNIFY_X_LOC_UVALX_LOC_UNK \ d1 = XREG((*_PREG)->y_u.ox.x); #define UNIFY_X_LOC_UVALX_LOC_VAR_NONVAR \ (*_PREG) = NEXTOP((*_PREG), ox); \ (*_SREG)++; \ Bind_Global(pt0, d1); \ GONext(); #define UNIFY_X_LOC_UVALX_LOC_VAR_UNK \ (*_PREG) = NEXTOP((*_PREG), ox); \ (*_SREG)++; \ UnifyCells(pt0, pt1); \ GONext(); #define UNIFY_X_LOC_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0; \ register CELL *pt0; \ d0 = XREG((*_PREG)->y_u.ox.x); #define UNIFY_X_LOC_WRITE_UNIFY_X_LOC_NONVAR \ *(*_SREG)++ = d0; \ (*_PREG) = NEXTOP((*_PREG), ox); \ GONextW(); #define UNIFY_X_LOC_WRITE_UNIFY_X_LOC_UNK \ (*_PREG) = NEXTOP((*_PREG), ox); \ if (pt0 < HR) { \ *(*_SREG)++ = Unsigned(pt0); \ GONextW(); \ } \ else { \ CACHE_S(); \ READ_IN_S(); \ Bind_Local(pt0, Unsigned(S_SREG)); \ RESET_VARIABLE(S_SREG); \ WRITEBACK_S(S_SREG+1); \ ENDCACHE_S(); \ GONextW(); \ } #define UNIFY_L_X_LOC_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0, d1; \ register CELL *pt0, *pt1; \ pt0 = (*_SREG); \ d0 = *pt0; #define UNIFY_L_X_LOC_ULVALX_LOC_NONVAR \ d1 = XREG((*_PREG)->y_u.ox.x); #define UNIFY_L_X_LOC_ULVALX_LOC_NONVAR_NONVAR \ BLOCK = (CELL)UNIFY_L_X_LOC_ULVALX_LOC_NONVAR_NONVAR; \ (*_PREG) = NEXTOP((*_PREG), ox); \ YAAM_UNIFYBOUND; #define UNIFY_L_X_LOC_ULVALX_LOC_NONVAR_UNK \ (*_PREG) = NEXTOP((*_PREG), ox); \ Bind(pt0, d0); \ GONext(); #define UNIFY_L_X_LOC_ULVALX_LOC_UNK \ d1 = XREG((*_PREG)->y_u.ox.x); #define UNIFY_L_X_LOC_ULVALX_LOC_VAR_NONVAR \ (*_PREG) = NEXTOP((*_PREG), ox); \ Bind_Global(pt0, d1); \ GONext(); #define UNIFY_L_X_LOC_ULVALX_LOC_VAR_UNK \ (*_PREG) = NEXTOP((*_PREG), ox); \ UnifyGlobalCellToCell(pt0, pt1); \ GONext(); #define UNIFY_L_X_LOC_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0, d1; \ register CELL *pt0, *pt1; \ d0 = XREG((*_PREG)->y_u.ox.x); #define UNIFY_L_X_LOC_WRITE_ULNIFY_X_LOC_NONVAR \ (*_SREG)[0] = d0; \ (*_PREG) = NEXTOP((*_PREG), ox); \ GONext(); #define UNIFY_L_X_LOC_WRITE_ULNIFY_X_LOC_UNK \ (*_PREG) = NEXTOP((*_PREG), ox); \ if (pt0 < HR) { \ (*_SREG)[0] = Unsigned(pt0); \ GONext(); \ } \ else { \ Bind_Local(pt0, Unsigned((*_SREG))); \ RESET_VARIABLE((*_SREG)); \ GONext(); \ } #define UNIFY_Y_LOC_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0, d1; \ register CELL *pt0, *pt1; \ pt0 = (*_SREG); \ d0 = *pt0; #define UNIFY_Y_LOC_UVALY_LOC_NONVAR \ pt1 = YREG+(*_PREG)->y_u.oy.y; \ d1 = *pt1; #define UNIFY_Y_LOC_UVALY_LOC_NONVAR_NONVAR \ BLOCK = (CELL)UNIFY_Y_LOC_UVALY_LOC_NONVAR_NONVAR; \ (*_PREG) = NEXTOP((*_PREG), oy); \ (*_SREG)++; \ YAAM_UNIFYBOUND; #define UNIFY_Y_LOC_UVALY_LOC_NONVAR_UNK \ (*_PREG) = NEXTOP((*_PREG), oy); \ (*_SREG)++; \ Bind(pt1, d0); \ GONext(); #define UNIFY_Y_LOC_UVALY_LOC_UNK \ pt1 = YREG+(*_PREG)->y_u.oy.y; \ d1 = *pt1; #define UNIFY_Y_LOC_UVALY_LOC_VAR_NONVAR \ (*_PREG) = NEXTOP((*_PREG), oy); \ (*_SREG)++; \ Bind_Global(pt0, d1); \ GONext(); #define UNIFY_Y_LOC_UVALY_LOC_VAR_UNK \ (*_PREG) = NEXTOP((*_PREG), oy); \ (*_SREG)++; \ UnifyCells(pt0, pt1); \ GONext(); #define UNIFY_Y_LOC_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0; \ register CELL *pt0; \ pt0 = YREG+(*_PREG)->y_u.oy.y; \ d0 = *pt0; #define UNIFY_Y_LOC_WRITE_UNIFY_Y_LOC_NONVAR \ *(*_SREG)++ = d0; \ (*_PREG) = NEXTOP((*_PREG), oy); \ GONextW(); #define UNIFY_Y_LOC_WRITE_UNIFY_Y_LOC_UNK \ (*_PREG) = NEXTOP((*_PREG), oy); \ if (pt0 < HR) { \ *(*_SREG)++ = Unsigned(pt0); \ GONextW(); \ } \ else { \ CACHE_S(); \ READ_IN_S(); \ Bind_Local(pt0, Unsigned(S_SREG)); \ RESET_VARIABLE(S_SREG); \ WRITEBACK_S(S_SREG+1); \ ENDCACHE_S(); \ GONextW(); \ } #define UNIFY_L_Y_LOC_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0, d1; \ register CELL *pt0, *pt1; \ pt0 = (*_SREG); \ d0 = *pt0; #define UNIFY_L_Y_LOC_ULVALY_LOC_NONVAR \ pt1 = YREG+(*_PREG)->y_u.oy.y; \ d1 = *pt1; #define UNIFY_L_Y_LOC_ULVALY_LOC_NONVAR_NONVAR \ BLOCK = (CELL)UNIFY_L_Y_LOC_ULVALY_LOC_NONVAR_NONVAR; \ (*_PREG) = NEXTOP((*_PREG), oy); \ YAAM_UNIFYBOUND; #define UNIFY_L_Y_LOC_ULVALY_LOC_NONVAR_UNK \ (*_PREG) = NEXTOP((*_PREG), oy); \ Bind(pt1, d0); \ GONext(); #define UNIFY_L_Y_LOC_ULVALY_LOC_UNK \ pt1 = YREG+(*_PREG)->y_u.oy.y; \ d1 = *pt1; #define UNIFY_L_Y_LOC_ULVALY_LOC_VAR_NONVAR \ (*_PREG) = NEXTOP((*_PREG), oy); \ Bind_Global(pt0, d1); \ GONext(); #define UNIFY_L_Y_LOC_ULVALY_LOC_VAR_UNK \ (*_PREG) = NEXTOP((*_PREG), oy); \ UnifyGlobalCellToCell(pt0, pt1); \ GONext(); #define UNIFY_L_Y_LOC_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0; \ register CELL *pt0; \ pt0 = YREG+(*_PREG)->y_u.oy.y; \ d0 = *pt0; #define UNIFY_L_Y_LOC_WRITE_ULUNIFY_Y_LOC_NONVAR \ (*_SREG)[0] = d0; \ (*_PREG) = NEXTOP((*_PREG), oy); \ GONext(); #define UNIFY_L_Y_LOC_WRITE_ULUNIFY_Y_LOC_UNK \ (*_PREG) = NEXTOP((*_PREG), oy); \ if (pt0 < HR) { \ (*_SREG)[0] = Unsigned(pt0); \ GONext(); \ } \ else { \ CACHE_S(); \ READ_IN_S(); \ Bind_Local(pt0, Unsigned(S_SREG)); \ RESET_VARIABLE(S_SREG); \ ENDCACHE_S(); \ GONext(); \ } #define UNIFY_VOID_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ START_PREFETCH(o); \ (*_PREG) = NEXTOP((*_PREG), o); \ (*_SREG)++; \ GONext(); \ END_PREFETCH(); #define UNIFY_VOID_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ CACHE_S(); \ READ_IN_S(); \ (*_PREG) = NEXTOP((*_PREG), o); \ RESET_VARIABLE(S_SREG); \ WRITEBACK_S(S_SREG+1); \ ENDCACHE_S(); \ GONextW(); #define UNIFY_L_VOID_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ (*_PREG) = NEXTOP((*_PREG), o); \ GONext(); #define UNIFY_L_VOID_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ (*_PREG) = NEXTOP((*_PREG), o); \ RESET_VARIABLE((*_SREG)); \ GONext(); #define UNIFY_N_VOIDS_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ (*_SREG) += (*_PREG)->y_u.os.s; \ (*_PREG) = NEXTOP((*_PREG), os); \ GONext(); #define UNIFY_N_VOIDS_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0; \ CACHE_S(); \ d0 = (*_PREG)->y_u.os.s; \ READ_IN_S(); \ (*_PREG) = NEXTOP((*_PREG), os); \ for (; d0 > 0; d0--) { \ RESET_VARIABLE(S_SREG); \ S_SREG++; \ } \ WRITEBACK_S(S_SREG); \ ENDCACHE_S(); \ GONextW(); #define UNIFY_L_N_VOIDS_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ (*_PREG) = NEXTOP((*_PREG), os); \ GONext(); #define UNIFY_L_N_VOIDS_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0; \ d0 = (*_PREG)->y_u.os.s; \ (*_PREG) = NEXTOP((*_PREG), os); \ CACHE_S(); \ READ_IN_S(); \ for (; d0 > 0; d0--) { \ RESET_VARIABLE(S_SREG); \ S_SREG++; \ } \ ENDCACHE_S(); \ GONext(); #define UNIFY_ATOM_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ BLOCKADDRESS = (CELL)(*_PREG); \ register CELL d0; \ register CELL *pt0; \ pt0 = (*_SREG)++; \ d0 = *pt0; #define UNIFY_ATOM_UATOM_NONVAR \ BLOCK = (CELL)UNIFY_ATOM_UATOM_NONVAR; \ FAILED = 0; \ if (d0 != (*_PREG)->y_u.oc.c) { \ YAAM_FAIL; \ } \ else { \ (*_PREG) = NEXTOP((*_PREG), oc); \ GONext(); \ } #define UNIFY_ATOM_UATOM_UNK \ d0 = (*_PREG)->y_u.oc.c; \ (*_PREG) = NEXTOP((*_PREG), oc); \ Bind_Global(pt0, d0); \ GONext(); #define UNIFY_ATOM_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ * (*_SREG)++ = (*_PREG)->y_u.oc.c; \ (*_PREG) = NEXTOP((*_PREG), oc); \ GONextW(); #define UNIFY_L_ATOM_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ BLOCKADDRESS = (CELL)(*_PREG); \ register CELL d0; \ register CELL *pt0; \ pt0 = (*_SREG); \ d0 = *(*_SREG); #define UNIFY_L_ATOM_ULATOM_NONVAR \ BLOCK = (CELL)UNIFY_L_ATOM_ULATOM_NONVAR; \ FAILED = 0; \ if (d0 != (*_PREG)->y_u.oc.c) { \ YAAM_FAIL; \ } \ else { \ (*_PREG) = NEXTOP((*_PREG), oc); \ GONext(); \ } #define UNIFY_L_ATOM_ULATOM_UNK \ d0 = (*_PREG)->y_u.oc.c; \ (*_PREG) = NEXTOP((*_PREG), oc); \ Bind_Global(pt0, d0); \ GONext(); #define UNIFY_L_ATOM_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ (*_SREG)[0] = (*_PREG)->y_u.oc.c; \ (*_PREG) = NEXTOP((*_PREG), oc); \ GONext(); #define UNIFY_N_ATOMS_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register Int i = (*_PREG)->y_u.osc.s; \ register CELL d0, d1; \ register CELL *pt0; \ d1 = (*_PREG)->y_u.osc.c; \ for (; i > 0; i--) { \ pt0 = (*_SREG)++; \ d0 = *pt0; \ Int nonvar = 1; \ if(IsVarTerm(d0)) { \ nonvar = 0; \ while (Unsigned(pt0) != (d0)) { \ (pt0) = (CELL *)(d0); \ (d0) = *(CELL *)(d0); \ if(!IsVarTerm(d0)) { \ nonvar = 1; \ break; \ } \ } \ if (!nonvar) { \ Bind_Global(pt0, d1); \ continue; \ } \ } \ if (nonvar) { \ if (d0 != d1) { \ break; \ } \ continue; \ } \ } \ (*_PREG) = NEXTOP((*_PREG), osc); \ GONext(); #define UNIFY_N_ATOMS_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0, d1; \ d0 = (*_PREG)->y_u.osc.s; \ d1 = (*_PREG)->y_u.osc.c; \ CACHE_S(); \ READ_IN_S(); \ (*_PREG) = NEXTOP((*_PREG), osc); \ for (; d0 > 0; d0--) { \ *S_SREG++ = d1; \ } \ WRITEBACK_S(S_SREG); \ ENDCACHE_S(); \ GONextW(); #define UNIFY_FLOAT_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0, d1; \ register CELL *pt0, *pt1; \ pt0 = (*_SREG)++; \ d0 = *pt0; #define UNIFY_FLOAT_UFLOAT_NONVAR_INIT \ pt0 = RepAppl(d0); \ d0 = *pt0; #define UNIFY_FLOAT_UFLOAT_NONVAR_D0ISFUNCTOR \ pt1 = (*_PREG)->y_u.od.d; \ (*_PREG) = NEXTOP((*_PREG), od); #define UNIFY_FLOAT_UFLOAT_NONVAR_END \ GONext(); #define UNIFY_FLOAT_UFLOAT_UNK \ d1 = AbsAppl((*_PREG)->y_u.od.d); \ (*_PREG) = NEXTOP((*_PREG), od); \ Bind_Global(pt0, d1); \ GONext(); #define UNIFY_FLOAT_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ * (*_SREG)++ = AbsAppl((*_PREG)->y_u.od.d); \ (*_PREG) = NEXTOP((*_PREG), od); \ GONextW(); #define UNIFY_L_FLOAT_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0, d1; \ register CELL *pt0, pt1; \ CACHE_S(); \ READ_IN_S(); \ d0 = *S_SREG; #define UNIFY_L_FLOAT_D0ISAPPL \ pt0 = RepAppl(d0); \ d0 = *pt0; #define UNIFY_L_FLOAT_D0ISFUNC \ pt1 = (*_PREG)->y_u.od.d; \ (*_PREG) = NEXTOP((*_PREG), od); #define UNIFY_L_FLOAT_EQUALS \ GONext(); #define UNIFY_L_FLOAT_ULFLOAT_UNK \ d1 = AbsAppl((*_PREG)->y_u.od.d); \ (*_PREG) = NEXTOP((*_PREG), od); \ Bind_Global(S_SREG, d1); \ GONext(); \ ENDCACHE_S(); #define UNIFY_L_FLOAT_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ (*_SREG)[0] = AbsAppl((*_PREG)->y_u.od.d); \ (*_PREG) = NEXTOP((*_PREG), od); \ GONext(); #define UNIFY_LONGINT_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0, d1; \ register CELL *pt0, *pt1; \ pt0 = (*_SREG)++; \ d0 = *pt0; #define UNIFY_LONGINT_D0ISAPPL \ pt0 = RepAppl(d0); \ d0 = *pt0; #define UNIFY_LONGINT_D0ISFUNC \ pt1 = (*_PREG)->y_u.oi.i; \ (*_PREG) = NEXTOP((*_PREG), oi); #define UNIFY_LONGINT_EQUALS \ GONext(); #define UNIFY_LONGINT_ULONGINT_UNK \ d1 = AbsAppl((*_PREG)->y_u.oi.i); \ (*_PREG) = NEXTOP((*_PREG), oi); \ Bind_Global(pt0, d1); \ GONext(); #define UNIFY_LONGINT_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ * (*_SREG)++ = AbsAppl((*_PREG)->y_u.oi.i); \ (*_PREG) = NEXTOP((*_PREG), oi); \ GONextW(); #define UNIFY_L_LONGINT_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0, d1; \ register CELL *pt0, *pt1; \ CACHE_S(); \ READ_IN_S(); \ d0 = *S_SREG; #define UNIFY_L_LONGINT_D0ISAPPL \ pt0 = RepAppl(d0); \ d0 = *pt0; #define UNIFY_L_LONGINT_D0ISFUNC \ pt1 = (*_PREG)->y_u.oi.i; \ (*_PREG) = NEXTOP((*_PREG), oi); #define UNIFY_L_LONGINT_EQUALS \ GONext(); #define UNIFY_L_LONGINT_ULLONGINT_UNK \ d1 = AbsAppl((*_PREG)->y_u.oi.i); \ (*_PREG) = NEXTOP((*_PREG), oi); \ Bind_Global(S_SREG, d1); \ GONext(); #define UNIFY_L_LONGINT_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ (*_SREG)[0] = AbsAppl((*_PREG)->y_u.oi.i); \ (*_PREG) = NEXTOP((*_PREG), oi); \ GONext(); #ifdef USE_GMP #define UNIFY_BIGINT_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0, d1; \ register CELL *pt0; \ pt0 = (*_SREG)++; \ d0 = *pt0; #define UNIFY_BIGINT_D0ISAPPL \ pt0 = RepAppl(d0); \ d1 = *pt0; #define UNIFY_BIGINT_D1ISFUNC_GMP \ (*_PREG) = NEXTOP((*_PREG), oN); \ GONext(); #define UNIFY_BIGINT_UBIGINT_UNK \ d1 = (*_PREG)->y_u.oN.b; \ (*_PREG) = NEXTOP((*_PREG), oN); \ Bind_Global(pt0, d1); \ GONext(); #endif #ifdef USE_GMP #define UNIFY_L_BIGINT_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0, d1; \ register CELL *pt0; \ CACHE_S(); \ READ_IN_S(); \ d0 = *S_SREG; #define UNIFY_L_BIGINT_D0ISAPPL \ pt0 = RepAppl(d0); \ d0 = *pt0; #define UNIFY_L_BIGINT_D0ISFUNC_GMP \ (*_PREG) = NEXTOP((*_PREG), oN); \ GONext(); #define UNIFY_L_BIGINT_ULBIGINT_UNK \ d1 = (*_PREG)->y_u.oN.b; \ (*_PREG) = NEXTOP((*_PREG), oN); \ Bind_Global(S_SREG, d1); \ GONext(); \ ENDCACHE_S(); #endif #define UNIFY_DBTERM_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0, d1; \ register CELL *pt0; \ pt0 = (*_SREG)++; \ d0 = *pt0; #define UNIFY_DBTERM_UDBTERM_NONVAR \ BLOCK = (CELL)UNIFY_DBTERM_UDBTERM_NONVAR; \ d1 = (*_PREG)->y_u.oD.D; \ (*_PREG) = NEXTOP((*_PREG), oD); \ YAAM_UNIFYBOUND; #define UNIFY_DBTERM_UDBTERM_UNK \ d1 = (*_PREG)->y_u.oD.D; \ (*_PREG) = NEXTOP((*_PREG), oD); \ Bind_Global(pt0, d1); \ GONext(); #define UNIFY_L_DBTERM_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0, d1; \ register CELL *pt0; \ CACHE_S(); \ READ_IN_S(); \ d0 = *S_SREG; #define UNIFY_L_DBTERM_ULDBTERM_NONVAR \ BLOCK = (CELL)UNIFY_L_DBTERM_ULDBTERM_NONVAR; \ d1 = (*_PREG)->y_u.oD.D; \ (*_PREG) = NEXTOP((*_PREG), oD); \ YAAM_UNIFYBOUND; #define UNIFY_L_DBTERM_ULDBTERM_UNK \ d1 = (*_PREG)->y_u.oD.D; \ (*_PREG) = NEXTOP((*_PREG), oD); \ Bind_Global(S_SREG, d1); \ GONext(); \ ENDCACHE_S(); #define UNIFY_LIST_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ BLOCKADDRESS = (CELL)(*_PREG); \ register CELL d0; \ register CELL *pt0; \ *--SP = Unsigned((*_SREG) + 1); \ *--SP = READ_MODE; \ pt0 = (*_SREG); \ d0 = *pt0; #define UNIFY_LIST_READMODE \ BLOCK = (CELL)UNIFY_LIST_READMODE; \ FAILED = 0; \ if (!IsPairTerm(d0)) { \ YAAM_FAIL; \ } \ else { \ (*_SREG) = RepPair(d0); \ (*_PREG) = NEXTOP((*_PREG), o); \ GONext(); \ } #define UNIFY_LIST_WRITEMODE \ START_PREFETCH_W(o); \ CACHE_S(); \ READ_IN_S(); \ S_SREG = HR; \ (*_PREG) = NEXTOP((*_PREG), o); \ HR = S_SREG + 2; \ d0 = AbsPair(S_SREG); \ WRITEBACK_S(S_SREG); \ ENDCACHE_S(); \ Bind_Global(pt0, d0); \ GONextW(); \ END_PREFETCH_W(); #define UNIFY_LIST_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0; \ (*_PREG) = NEXTOP((*_PREG), o); \ d0 = AbsPair(HR); \ CACHE_S(); \ READ_IN_S(); \ SP -= 2; \ SP[0] = WRITE_MODE; \ SP[1] = Unsigned(S_SREG + 1); \ S_SREG[0] = d0; \ S_SREG = HR; \ HR = S_SREG + 2; \ WRITEBACK_S(S_SREG); \ ENDCACHE_S(); \ GONextW(); #define UNIFY_L_LIST_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ BLOCKADDRESS = (CELL)(*_PREG); \ register CELL d0; \ register CELL *pt0; \ pt0 = (*_SREG); \ d0 = *pt0; #define UNIFY_L_LIST_READMODE \ BLOCK = (CELL)UNIFY_L_LIST_READMODE; \ FAILED = 0; \ if (!IsPairTerm(d0)) { \ YAAM_FAIL; \ } \ else { \ (*_PREG) = NEXTOP((*_PREG), o); \ (*_SREG) = RepPair(d0); \ GONext(); \ } \ #define UNIFY_L_LIST_WRITEMODE \ START_PREFETCH_W(o); \ (*_PREG) = NEXTOP((*_PREG), o); \ CACHE_S(); \ READ_IN_S(); \ S_SREG = HR; \ HR = S_SREG + 2; \ d0 = AbsPair(S_SREG); \ WRITEBACK_S(S_SREG); \ ENDCACHE_S(); \ Bind_Global(pt0, d0); \ GONextW(); \ END_PREFETCH_W(); #define UNIFY_L_LIST_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0; \ d0 = AbsPair(HR); \ (*_PREG) = NEXTOP((*_PREG), o); \ CACHE_S(); \ READ_IN_S(); \ S_SREG[0] = d0; \ S_SREG = HR; \ HR = S_SREG + 2; \ WRITEBACK_S(S_SREG); \ ENDCACHE_S(); \ GONextW(); #define UNIFY_STRUCT_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ BLOCKADDRESS = (CELL)(*_PREG); \ register CELL d0, d1; \ register CELL *pt0; \ *--SP = Unsigned((*_SREG) + 1); \ *--SP = READ_MODE; \ pt0 = (*_SREG); \ d0 = *pt0; #define UNIFY_STRUCT_READMODE \ BLOCK = (CELL)UNIFY_STRUCT_READMODE; \ FAILED = 0; \ if (!IsApplTerm(d0)) { \ YAAM_FAIL; \ } \ else { \ CACHE_S(); \ READ_IN_S(); \ S_SREG = RepAppl(d0); \ d0 = (CELL) ((*_PREG)->y_u.ofa.f); \ if (*S_SREG != d0) { \ YAAM_FAIL; \ } \ else { \ (*_PREG) = NEXTOP((*_PREG), ofa); \ WRITEBACK_S(S_SREG+1); \ GONext(); \ } \ ENDCACHE_S(); \ } #define UNIFY_STRUCT_WRITEMODE \ START_PREFETCH_W(ofa); \ d1 = AbsAppl(HR); \ Bind_Global(pt0, d1); \ pt0 = HR; \ d0 = (CELL) ((*_PREG)->y_u.ofa.f); \ *pt0++ = d0; \ HR = pt0 + (*_PREG)->y_u.ofa.a; \ (*_PREG) = NEXTOP((*_PREG), ofa); \ (*_SREG) = pt0; \ GONextW(); \ END_PREFETCH_W(); #define UNIFY_STRUCT_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0; \ CACHE_S(); \ READ_IN_S(); \ *--SP = Unsigned(S_SREG + 1); \ *--SP = WRITE_MODE; \ d0 = AbsAppl(HR); \ S_SREG[0] = d0; \ S_SREG = HR; \ d0 = (CELL) ((*_PREG)->y_u.ofa.f); \ *S_SREG++ = d0; \ HR = S_SREG + (*_PREG)->y_u.ofa.a; \ (*_PREG) = NEXTOP((*_PREG), ofa); \ WRITEBACK_S(S_SREG); \ ENDCACHE_S(); \ GONextW(); #define UNIFY_L_STRUC_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ BLOCKADDRESS = (CELL)(*_PREG); \ register CELL d0, d1; \ register CELL *pt0; \ pt0 = (*_SREG); \ d0 = *pt0; #define UNIFY_L_STRUC_READMODE \ BLOCK = (CELL)UNIFY_L_STRUC_READMODE; \ FAILED = 0; \ if (!IsApplTerm(d0)) { \ YAAM_FAIL; \ } \ else { \ (*_SREG) = RepAppl(d0); \ d0 = (CELL) ((*_PREG)->y_u.ofa.f); \ if (*(*_SREG)++ != d0) { \ YAAM_FAIL; \ } \ else { \ (*_PREG) = NEXTOP((*_PREG), ofa); \ GONext(); \ } \ } #define UNIFY_L_STRUC_WRITEMODE \ START_PREFETCH_W(ofa); \ d1 = AbsAppl(HR); \ Bind_Global(pt0, d1); \ pt0 = HR; \ d0 = (CELL) ((*_PREG)->y_u.ofa.f); \ *pt0++ = d0; \ HR = pt0 + (*_PREG)->y_u.ofa.a; \ (*_PREG) = NEXTOP((*_PREG), ofa); \ (*_SREG) = pt0; \ GONextW(); \ END_PREFETCH_W(); #define UNIFY_L_STRUC_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ register CELL d0; \ d0 = AbsAppl(HR); \ CACHE_S(); \ READ_IN_S(); \ S_SREG[0] = d0; \ S_SREG = HR; \ d0 = (CELL) ((*_PREG)->y_u.ofa.f); \ *S_SREG++ = d0; \ HR = S_SREG + (*_PREG)->y_u.ofa.a; \ (*_PREG) = NEXTOP((*_PREG), ofa); \ WRITEBACK_S(S_SREG); \ ENDCACHE_S(); \ GONextW(); #define SAVE_PAIR_X_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ XREG((*_PREG)->y_u.ox.x) = AbsPair((*_SREG)); \ (*_PREG) = NEXTOP((*_PREG), ox); \ GONext(); #define SAVE_PAIR_X_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ XREG((*_PREG)->y_u.ox.x) = AbsPair((*_SREG)); \ (*_PREG) = NEXTOP((*_PREG), ox); \ GONextW(); #define SAVE_PAIR_Y_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ INITIALIZE_PERMVAR(YREG+(*_PREG)->y_u.oy.y,AbsPair((*_SREG))); \ (*_PREG) = NEXTOP((*_PREG), oy); \ GONext(); #define SAVE_PAIR_Y_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ INITIALIZE_PERMVAR(YREG+(*_PREG)->y_u.oy.y,AbsPair((*_SREG))); \ (*_PREG) = NEXTOP((*_PREG), oy); \ GONextW(); #define SAVE_APPL_X_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ XREG((*_PREG)->y_u.ox.x) = AbsAppl((*_SREG) - 1); \ (*_PREG) = NEXTOP((*_PREG), ox); \ GONext(); #define SAVE_APPL_X_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ XREG((*_PREG)->y_u.ox.x) = AbsAppl((*_SREG) - 1); \ (*_PREG) = NEXTOP((*_PREG), ox); \ GONextW(); #define SAVE_APPL_Y_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ INITIALIZE_PERMVAR(YREG+(*_PREG)->y_u.oy.y,AbsAppl((*_SREG)-1)); \ (*_PREG) = NEXTOP((*_PREG), oy); \ GONext(); #define SAVE_APPL_Y_WRITE_INSTINIT \ print_instruction((*_PREG), ON_NATIVE); \ INITIALIZE_PERMVAR(YREG+(*_PREG)->y_u.oy.y,AbsAppl((*_SREG)-1)); \ (*_PREG) = NEXTOP((*_PREG), oy); \ GONextW();