#ifndef NASM_IFLAG_H #define NASM_IFLAG_H #include #include #include "compiler.h" int ilog2_32(uint32_t v); #include "iflaggen.h" #define IF_GENBIT(bit) (UINT32_C(1) << (bit)) static inline unsigned int iflag_test(const iflag_t *f, unsigned int bit) { unsigned int index = bit / 32; return f->field[index] & (UINT32_C(1) << (bit - (index * 32))); } static inline void iflag_set(iflag_t *f, unsigned int bit) { unsigned int index = bit / 32; f->field[index] |= (UINT32_C(1) << (bit - (index * 32))); } static inline void iflag_clear(iflag_t *f, unsigned int bit) { unsigned int index = bit / 32; f->field[index] &= ~(UINT32_C(1) << (bit - (index * 32))); } static inline void iflag_clear_all(iflag_t *f) { memset(f, 0, sizeof(*f)); } static inline void iflag_set_all(iflag_t *f) { memset(f, 0xff, sizeof(*f)); } static inline int iflag_cmp(const iflag_t *a, const iflag_t *b) { int i; for (i = sizeof(a->field) / sizeof(a->field[0]) - 1; i >= 0; i--) { if (a->field[i] == b->field[i]) continue; return (a->field[i] > b->field[i]) ? 1 : -1; } return 0; } static inline int iflag_cmp_cpu(const iflag_t *a, const iflag_t *b) { if (a->field[3] < b->field[3]) return -1; else if (a->field[3] > b->field[3]) return 1; return 0; } static inline unsigned int iflag_ffs(const iflag_t *a) { unsigned int i; for (i = 0; i < sizeof(a->field) / sizeof(a->field[0]); i++) { if (a->field[i]) return ilog2_32(a->field[i]) + (i * 32); } return 0; } #define IF_GEN_HELPER(name, op) \ static inline iflag_t iflag_##name(const iflag_t *a, const iflag_t *b) \ { \ unsigned int i; \ iflag_t res; \ \ for (i = 0; i < sizeof(a->field) / sizeof(a->field[0]); i++) \ res.field[i] = a->field[i] op b->field[i]; \ \ return res; \ } IF_GEN_HELPER(xor, ^) /* Use this helper to test instruction template flags */ #define itemp_has(itemp, bit) iflag_test(&insns_flags[(itemp)->iflag_idx], bit) /* Maximum processor level at moment */ #define IF_PLEVEL IF_IA64 /* Some helpers which are to work with predefined masks */ #define IF_SMASK \ (IF_GENBIT(IF_SB) |\ IF_GENBIT(IF_SW) |\ IF_GENBIT(IF_SD) |\ IF_GENBIT(IF_SQ) |\ IF_GENBIT(IF_SO) |\ IF_GENBIT(IF_SY) |\ IF_GENBIT(IF_SZ) |\ IF_GENBIT(IF_SIZE)) #define IF_ARMASK \ (IF_GENBIT(IF_AR0) |\ IF_GENBIT(IF_AR1) |\ IF_GENBIT(IF_AR2) |\ IF_GENBIT(IF_AR3) |\ IF_GENBIT(IF_AR4)) #define _itemp_smask(idx) (insns_flags[(idx)].field[0] & IF_SMASK) #define _itemp_armask(idx) (insns_flags[(idx)].field[0] & IF_ARMASK) #define _itemp_arg(idx) ((_itemp_armask(idx) >> IF_AR0) - 1) #define itemp_smask(itemp) _itemp_smask((itemp)->iflag_idx) #define itemp_arg(itemp) _itemp_arg((itemp)->iflag_idx) #define itemp_armask(itemp) _itemp_armask((itemp)->iflag_idx) static inline int iflag_cmp_cpu_level(const iflag_t *a, const iflag_t *b) { iflag_t v1 = *a; iflag_t v2 = *b; iflag_clear(&v1, IF_CYRIX); iflag_clear(&v1, IF_AMD); iflag_clear(&v2, IF_CYRIX); iflag_clear(&v2, IF_AMD); if (v1.field[3] < v2.field[3]) return -1; else if (v1.field[3] > v2.field[3]) return 1; return 0; } static inline iflag_t _iflag_pfmask(const iflag_t *a) { iflag_t r; iflag_clear_all(&r); if (iflag_test(a, IF_CYRIX)) iflag_set(&r, IF_CYRIX); if (iflag_test(a, IF_AMD)) iflag_set(&r, IF_AMD); return r; } #define iflag_pfmask(itemp) _iflag_pfmask(&insns_flags[(itemp)->iflag_idx]) #endif /* NASM_IFLAG_H */