/*************************************************************************** gbx_subr_test.c (c) 2000-2017 BenoƮt Minisini 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, 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 the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. ***************************************************************************/ #include "gb_common.h" #include #include "gbx_value.h" #include "gbx_subr.h" #include "gbx_date.h" #include "gbx_object.h" #include "gbx_math.h" #include "gbx_compare.h" #define STT_NAME SUBR_case #define STT_TEST == #define STT_CASE #include "gbx_subr_test_temp.h" void SUBR_bit(ushort code) { static void *jump[16] = { &&__ERROR, &&__BCLR, &&__BSET, &&__BTST, &&__BCHG, &&__ASL, &&__ASR, &&__ROL, &&__ROR, &&__LSL, &&__LSR, &&__ERROR, &&__ERROR, &&__ERROR, &&__ERROR, &&__ERROR }; static int nbits[6] = { 0, 0, 8, 16, 32, 64 }; int64_t val; int bit; TYPE type; int n; bool variant; SUBR_ENTER_PARAM(2); type = PARAM->type; variant = TYPE_is_variant(type); if (variant) type = PARAM->_variant.vtype; if (type <= T_BOOLEAN || type > T_LONG) THROW(E_TYPE, "Number", TYPE_get_name(type)); VALUE_conv(PARAM, T_LONG); val = PARAM->_long.value; n = nbits[type]; VALUE_conv_integer(&PARAM[1]); bit = PARAM[1]._integer.value; if ((bit < 0) || (bit >= n)) THROW(E_ARG); RETURN->type = type; goto *jump[code & 0xF]; __BCLR: val &= ~(1ULL << bit); goto __END; __BSET: val |= (1ULL << bit); goto __END; __BTST: RETURN->type = T_BOOLEAN; RETURN->_boolean.value = (val & (1ULL << bit)) ? (-1) : 0; goto __LEAVE; __BCHG: val ^= (1ULL << bit); goto __END; __ASL: { static void *asl_jump[6] = { &&__ERROR, &&__ERROR, &&__ASL_BYTE, &&__ASL_SHORT, &&__ASL_INTEGER, &&__ASL_LONG }; goto *asl_jump[type]; __ASL_BYTE: val = ((unsigned char)val << bit); goto __END_BYTE; __ASL_SHORT: val = (((short)val << bit) & 0x7FFF) | (((short)val) & 0x8000); goto __END_SHORT; __ASL_INTEGER: val = (((int)val << bit) & 0x7FFFFFFF) | (((int)val) & 0x80000000); goto __END_INTEGER; __ASL_LONG: val = ((val << bit) & 0x7FFFFFFFFFFFFFFFLL) | (val & 0x8000000000000000LL); goto __END_LONG; } __ASR: { static void *asr_jump[6] = { &&__ERROR, &&__ERROR, &&__ASR_BYTE, &&__ASR_SHORT, &&__ASR_INTEGER, &&__ASR_LONG }; goto *asr_jump[type]; __ASR_BYTE: val = ((unsigned char)val >> bit); goto __END_BYTE; __ASR_SHORT: val = (((short)val >> bit) & 0x7FFF) | (((short)val) & 0x8000); goto __END_SHORT; __ASR_INTEGER: val = (((int)val >> bit) & 0x7FFFFFFF) | (((int)val) & 0x80000000); goto __END_INTEGER; __ASR_LONG: val = ((val >> bit) & 0x7FFFFFFFFFFFFFFFLL) | (val & 0x8000000000000000LL); goto __END_LONG; } __ROL: { static void *rol_jump[6] = { &&__ERROR, &&__ERROR, &&__ROL_BYTE, &&__ROL_SHORT, &&__ROL_INTEGER, &&__ROL_LONG }; goto *rol_jump[type]; __ROL_BYTE: val = (val << bit) | (val >> (8 - bit)); goto __END_BYTE; __ROL_SHORT: val = ((ushort)val << bit) | ((ushort)val >> (16 - bit)); goto __END_SHORT; __ROL_INTEGER: val = ((uint)val << bit) | ((uint)val >> (32 - bit)); goto __END_INTEGER; __ROL_LONG: val = ((uint64_t)val << bit) | ((uint64_t)val >> (64 - bit)); goto __END_LONG; } __ROR: { static void *ror_jump[6] = { &&__ERROR, &&__ERROR, &&__ROR_BYTE, &&__ROR_SHORT, &&__ROR_INTEGER, &&__ROR_LONG }; goto *ror_jump[type]; __ROR_BYTE: val = (val >> bit) | (val << (8 - bit)); goto __END_BYTE; __ROR_SHORT: val = ((ushort)val >> bit) | ((ushort)val << (16 - bit)); goto __END_SHORT; __ROR_INTEGER: val = ((uint)val >> bit) | ((uint)val << (32 - bit)); goto __END_INTEGER; __ROR_LONG: val = ((uint64_t)val >> bit) | ((uint64_t)val << (64 - bit)); goto __END_LONG; } __LSL: { static void *lsl_jump[6] = { &&__ERROR, &&__ERROR, &&__LSL_BYTE, &&__LSL_SHORT, &&__LSL_INTEGER, &&__LSL_LONG }; goto *lsl_jump[type]; __LSL_BYTE: val = ((unsigned char)val << bit); goto __END_BYTE; __LSL_SHORT: val = ((unsigned short)val << bit); goto __END_SHORT; __LSL_INTEGER: val = ((unsigned int)val << bit); goto __END_INTEGER; __LSL_LONG: val = ((uint64_t)val << bit); goto __END_LONG; } __LSR: { static void *lsr_jump[6] = { &&__ERROR, &&__ERROR, &&__LSR_BYTE, &&__LSR_SHORT, &&__LSR_INTEGER, &&__LSR_LONG }; goto *lsr_jump[type]; __LSR_BYTE: val = ((unsigned char)val >> bit); goto __END_BYTE; __LSR_SHORT: val = ((unsigned short)val >> bit); goto __END_SHORT; __LSR_INTEGER: val = ((unsigned int)val >> bit); goto __END_INTEGER; __LSR_LONG: val = ((uint64_t)val >> bit); goto __END_LONG; } __ERROR: THROW_ILLEGAL(); __END: { static void *end_jump[6] = { &&__ERROR, &&__ERROR, &&__END_BYTE, &&__END_SHORT, &&__END_INTEGER, &&__END_LONG }; goto *end_jump[type]; __END_BYTE: RETURN->_integer.value = (unsigned int)val & 0xFF; goto __END_VARIANT; __END_SHORT: RETURN->_integer.value = (int)(short)val; goto __END_VARIANT; __END_INTEGER: RETURN->_integer.value = (int)val; goto __END_VARIANT; __END_LONG: RETURN->_long.value = val; goto __END_VARIANT; } __END_VARIANT: if (variant) VALUE_conv_variant(RETURN); __LEAVE: SUBR_LEAVE(); } void SUBR_if(ushort code) { int i; unsigned char test; TYPE type; SUBR_ENTER_PARAM(3); VALUE_conv_boolean(PARAM); i = PARAM->_boolean.value ? 1 : 2; test = code & 0x1F; if (!test) { type = PARAM[1].type; if (PARAM[2].type == type && type <= T_VARIANT) { *PC |= 0x1F; } else { type = SUBR_check_good_type(&PARAM[1], 2); if (TYPE_is_object(type)) type = T_OBJECT; *PC |= (unsigned char)type; VALUE_conv(&PARAM[i], type); } } else if (test != 0x1F) { VALUE_conv(&PARAM[i], (TYPE)test); } *PARAM = PARAM[i]; RELEASE(&PARAM[3 - i]); SP -= 2; } void SUBR_choose(ushort code) { int val; SUBR_ENTER(); VALUE_conv_integer(PARAM); val = PARAM->_integer.value; if (val >= 1 && val < NPARAM) { VALUE_conv_variant(&PARAM[val]); *RETURN = PARAM[val]; } else { RETURN->type = T_VARIANT; RETURN->_variant.vtype = T_NULL; } SUBR_LEAVE(); } void SUBR_near(void) { int result; SUBR_ENTER_PARAM(2); VALUE_conv_string(&PARAM[0]); VALUE_conv_string(&PARAM[1]); //result = STRING_comp_value_ignore_case(&PARAM[0], &PARAM[1]) ? -1 : 0; result = STRING_equal_ignore_case(PARAM[0]._string.addr + PARAM[0]._string.start, PARAM[0]._string.len, PARAM[1]._string.addr + PARAM[1]._string.start, PARAM[1]._string.len) ? -1 : 0; RELEASE_STRING(&PARAM[0]); RELEASE_STRING(&PARAM[1]); PARAM->type = T_BOOLEAN; PARAM->_boolean.value = result; SP--; } void SUBR_strcomp(ushort code) { int mode = GB_COMP_BINARY; /*char *s1, *s2; int l1, l2; int ret;*/ SUBR_ENTER(); VALUE_conv_string(&PARAM[0]); VALUE_conv_string(&PARAM[1]); if (NPARAM == 3) mode = SUBR_get_integer(&PARAM[2]); RETURN->_integer.type = T_INTEGER; RETURN->_integer.value = (*COMPARE_get_string_func(mode))(PARAM[0]._string.addr + PARAM[0]._string.start, PARAM[0]._string.len, PARAM[1]._string.addr + PARAM[1]._string.start, PARAM[1]._string.len, mode & GB_COMP_NOCASE, FALSE); SUBR_LEAVE(); } void SUBR_is(ushort code) { VALUE *P1 = SP - 2; VALUE *P2 = SP - 1; void *object; CLASS *klass; bool res; VALUE_conv(P1, T_OBJECT); object = P1->_object.object; klass = P2->_class.class; if (!object) res = FALSE; else res = (OBJECT_class(object) == klass || CLASS_inherits(OBJECT_class(object), klass)); OBJECT_UNREF(object); P1->type = T_BOOLEAN; P1->_boolean.value = -(res ^ (code & 1)); SP--; } void SUBR_min_max(ushort code) { static void *jump[] = { &&__VARIANT, &&__MIN_BOOLEAN, &&__MIN_BYTE, &&__MIN_SHORT, &&__MIN_INTEGER, &&__MIN_LONG, &&__MIN_SINGLE, &&__MIN_FLOAT, &&__MIN_DATE, NULL, NULL, NULL, NULL, NULL, NULL, NULL, &&__VARIANT, &&__MAX_BOOLEAN, &&__MAX_BYTE, &&__MAX_SHORT, &&__MAX_INTEGER, &&__MAX_LONG, &&__MAX_SINGLE, &&__MAX_FLOAT, &&__MAX_DATE, NULL, NULL, NULL, NULL, NULL, NULL, NULL }; TYPE type; VALUE *P1, *P2; void *jump_end; P1 = SP - 2; P2 = P1 + 1; jump_end = &&__END; type = code & 0x0F; goto *jump[code & 0x1F]; __MIN_BOOLEAN: __MIN_BYTE: __MIN_SHORT: __MIN_INTEGER: P1->type = type; if (P2->_integer.value < P1->_integer.value) P1->_integer.value = P2->_integer.value; goto *jump_end; __MAX_BOOLEAN: __MAX_BYTE: __MAX_SHORT: __MAX_INTEGER: P1->type = type; if (P2->_integer.value > P1->_integer.value) P1->_integer.value = P2->_integer.value; goto *jump_end; __MIN_LONG: VALUE_conv(P1, T_LONG); VALUE_conv(P2, T_LONG); if (P2->_long.value < P1->_long.value) P1->_long.value = P2->_long.value; goto *jump_end; __MAX_LONG: VALUE_conv(P1, T_LONG); VALUE_conv(P2, T_LONG); if (P2->_long.value > P1->_long.value) P1->_long.value = P2->_long.value; goto *jump_end; __MIN_SINGLE: VALUE_conv(P1, T_SINGLE); VALUE_conv(P2, T_SINGLE); if (P2->_single.value < P1->_single.value) P1->_single.value = P2->_single.value; goto *jump_end; __MAX_SINGLE: VALUE_conv(P1, T_SINGLE); VALUE_conv(P2, T_SINGLE); if (P2->_single.value > P1->_single.value) P1->_single.value = P2->_single.value; goto *jump_end; __MIN_FLOAT: VALUE_conv_float(P1); VALUE_conv_float(P2); if (P2->_float.value < P1->_float.value) P1->_float.value = P2->_float.value; goto *jump_end; __MAX_FLOAT: VALUE_conv_float(P1); VALUE_conv_float(P2); if (P2->_float.value > P1->_float.value) P1->_float.value = P2->_float.value; goto *jump_end; __MIN_DATE: VALUE_conv(P1, T_DATE); VALUE_conv(P2, T_DATE); if (DATE_comp_value(P1, P2) == 1) { P1->_date.date = P2->_date.date; P1->_date.time = P2->_date.time; } goto *jump_end; __MAX_DATE: VALUE_conv(P1, T_DATE); VALUE_conv(P2, T_DATE); if (DATE_comp_value(P1, P2) == -1) { P1->_date.date = P2->_date.date; P1->_date.time = P2->_date.time; } goto *jump_end; __VARIANT: type = Max(P1->type, P2->type); if (TYPE_is_number_date(type)) { code = type + ((code >> 8) == CODE_MAX) * 16; *PC |= code; goto *jump[code]; } if (TYPE_is_variant(P1->type)) VARIANT_undo(P1); if (TYPE_is_variant(P2->type)) VARIANT_undo(P2); type = Max(P1->type, P2->type); if (TYPE_is_number_date(type)) { jump_end = &&__VARIANT_END; code = type + ((code >> 8) == CODE_MAX) * 16; goto *jump[code]; } goto __ERROR; __ERROR: THROW(E_TYPE, "Number or date", TYPE_get_name(type)); __VARIANT_END: VALUE_conv_variant(P1); __END: SP--; }