/*************************************************************************** value.c Datatype management routines. Conversions between each Gambas datatype, and conversions between Gambas datatypes and native datatypes. (c) 2000-2007 Benoit 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 1, 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., 675 Mass Ave, Cambridge, MA 02139, USA. ***************************************************************************/ #define __GBX_VALUE_C #include #include #include #include "gb_common.h" #include "gb_common_case.h" #include "gbx_math.h" #include "gbx_type.h" #include "gbx_array.h" #include "gbx_string.h" #include "gbx_number.h" #include "gbx_object.h" #include "gbx_variant.h" #include "gbx_date.h" #include "gbx_exec.h" #include "gbx_local.h" #include "gb_common_buffer.h" #include "gbx_value.h" static void VALUE_put(VALUE *value, void *addr, TYPE type) { static void *jump[16] = { &&__VOID, &&__BOOLEAN, &&__BYTE, &&__SHORT, &&__INTEGER, &&__LONG, &&__SINGLE, &&__FLOAT, &&__DATE, &&__STRING, &&__STRING, &&__VARIANT, &&__ARRAY, &&__FUNCTION, &&__CLASS, &&__NULL }; VALUE_conv(value, type); if (TYPE_is_object(type)) goto __OBJECT; else goto *jump[type]; __BOOLEAN: *((unsigned char *)addr) = (value->_boolean.value != 0 ? 255 : 0); return; __BYTE: *((unsigned char *)addr) = (unsigned char)(value->_byte.value); return; __SHORT: *((short *)addr) = (short)(value->_short.value); return; __INTEGER: *((int *)addr) = value->_integer.value; return; __LONG: *((int64_t *)addr) = value->_long.value; return; __SINGLE: *((float *)addr) = (float)value->_float.value; return; __FLOAT: *((double *)addr) = value->_float.value; return; __DATE: /* Inverted, if value ~= addr */ ((int *)addr)[1] = value->_date.time; ((int *)addr)[0] = value->_date.date; return; /*__STRING: ((int *)addr)[0] = (int)(value->_string.addr + value->_string.start); ((int *)addr)[1] = value->_string.len; return;*/ __OBJECT: *((void **)addr) = value->_object.object; return; __VARIANT: *((VARIANT *)addr) = *((VARIANT *)&value->_variant.vtype); return; __CLASS: *((void **)addr) = value->_class.class; return; __VOID: __ARRAY: __FUNCTION: __NULL: __STRING: ERROR_panic("Bad type (%d) for VALUE_put", type); } /* This function must keep the datatype, as it is used for initializing local variables */ void VALUE_default(VALUE *value, TYPE type) { static void *jump[16] = { &&__VOID, &&__BOOLEAN, &&__BYTE, &&__SHORT, &&__INTEGER, &&__LONG, &&__SINGLE, &&__FLOAT, &&__DATE, &&__STRING, &&__STRING, &&__VARIANT, &&__ARRAY, &&__FUNCTION, &&__CLASS, &&__NULL }; value->type = type; if (TYPE_is_object(type)) goto __OBJECT; else goto *jump[type]; __BOOLEAN: __BYTE: __SHORT: __INTEGER: value->_integer.value = 0; return; __LONG: value->_long.value = 0; return; __SINGLE: __FLOAT: value->_float.value = 0; return; __STRING: value->_string.addr = NULL; value->_string.start = 0; value->_string.len = 0; return; __VARIANT: value->_variant.vtype = T_NULL; return; __DATE: value->_date.date = 0; value->_date.time = 0; return; __VOID: return; __OBJECT: value->_object.class = (CLASS *)type; value->_object.object = NULL; return; __ARRAY: __FUNCTION: __CLASS: __NULL: ERROR_panic("VALUE_default: Unknown default type"); } void VALUE_convert(VALUE *value, TYPE type) { static const void *jump[16][16] = { /* void b c h i l g f d cs s v array func class n */ /* void */ { &&__OK, &&__NR, &&__NR, &&__NR, &&__NR, &&__NR, &&__NR, &&__NR, &&__NR, &&__NR, &&__NR, &&__NR, &&__NR, &&__NR, &&__NR, &&__NR, }, /* b */ { &&__N, &&__OK, &&__b2c, &&__b2h, &&__TYPE, &&__b2l, &&__b2f, &&__b2f, &&__N, &&__b2s, &&__b2s, &&__2v, &&__N, &&__N, &&__N, &&__N, }, /* c */ { &&__N, &&__c2b, &&__OK, &&__c2h, &&__TYPE, &&__c2l, &&__c2f, &&__c2f, &&__c2d, &&__c2s, &&__c2s, &&__2v, &&__N, &&__N, &&__N, &&__N, }, /* h */ { &&__N, &&__h2b, &&__h2c, &&__OK, &&__TYPE, &&__h2l, &&__h2f, &&__h2f, &&__h2d, &&__h2s, &&__h2s, &&__2v, &&__N, &&__N, &&__N, &&__N, }, /* i */ { &&__N, &&__i2b, &&__i2c, &&__i2h, &&__OK, &&__i2l, &&__i2f, &&__i2f, &&__i2d, &&__i2s, &&__i2s, &&__2v, &&__N, &&__N, &&__N, &&__N, }, /* l */ { &&__N, &&__l2b, &&__l2c, &&__l2h, &&__l2i, &&__OK, &&__l2g, &&__l2f, &&__l2d, &&__l2s, &&__l2s, &&__2v, &&__N, &&__N, &&__N, &&__N, }, /* g */ { &&__N, &&__f2b, &&__f2c, &&__f2h, &&__f2i, &&__f2l, &&__OK, &&__TYPE, &&__f2d, &&__f2s, &&__g2s, &&__2v, &&__N, &&__N, &&__N, &&__N, }, /* f */ { &&__N, &&__f2b, &&__f2c, &&__f2h, &&__f2i, &&__f2l, &&__f2g, &&__OK, &&__f2d, &&__f2s, &&__f2s, &&__2v, &&__N, &&__N, &&__N, &&__N, }, /* d */ { &&__N, &&__d2b, &&__d2c, &&__d2h, &&__d2i, &&__d2l, &&__d2f, &&__d2f, &&__OK, &&__d2s, &&__d2s, &&__2v, &&__N, &&__N, &&__N, &&__N, }, /* cs */ { &&__N, &&__s2b, &&__s2c, &&__s2h, &&__s2i, &&__s2l, &&__s2f, &&__s2f, &&__s2d, &&__OK, &&__OK, &&__s2v, &&__N, &&__N, &&__N, &&__N, }, /* s */ { &&__N, &&__s2b, &&__s2c, &&__s2h, &&__s2i, &&__s2l, &&__s2f, &&__s2f, &&__s2d, &&__OK, &&__OK, &&__s2v, &&__N, &&__N, &&__N, &&__N, }, /* v */ { &&__N, &&__v2, &&__v2, &&__v2, &&__v2, &&__v2, &&__v2, &&__v2, &&__v2, &&__v2, &&__v2, &&__OK, &&__N, &&__N, &&__v2, &&__v2, }, /* array */ { &&__N, &&__N, &&__N, &&__N, &&__N, &&__N, &&__N, &&__N, &&__N, &&__N, &&__N, &&__N, &&__OK, &&__N, &&__N, &&__N, }, /* func */ { &&__N, &&__N, &&__N, &&__N, &&__N, &&__N, &&__N, &&__N, &&__N, &&__N, &&__N, &&__N, &&__N, &&__OK, &&__N, &&__N, }, /* class */ { &&__N, &&__N, &&__N, &&__N, &&__N, &&__N, &&__N, &&__N, &&__N, &&__N, &&__N, &&__2v, &&__N, &&__N, &&__OK, &&__N, }, /* null */ { &&__N, &&__n2b, &&__N, &&__N, &&__N, &&__N, &&__N, &&__N, &&__n2d, &&__n2s, &&__n2s, &&__2v, &&__N, &&__N, &&__N, &&__OK, }, }; int len; char *addr; int index; CLASS *class; boolean test; __CONV: if ((type | value->type) >> 4) goto __OBJECT; else goto *jump[value->type][type]; __c2b: __h2b: __i2b: value->_integer.value = (value->_integer.value != 0) ? -1 : 0; goto __TYPE; __l2b: value->_integer.value = (value->_long.value != 0) ? -1 : 0; goto __TYPE; __f2b: value->_integer.value = (value->_float.value != 0) ? -1 : 0; goto __TYPE; __d2b: value->_integer.value = (value->_date.date != 0 || value->_date.time != 0) ? -1 : 0; goto __TYPE; __b2c: __h2c: __i2c: value->_integer.value = (unsigned char)value->_integer.value; goto __TYPE; __l2c: value->_integer.value = (unsigned char)value->_long.value; goto __TYPE; __f2c: value->_integer.value = (unsigned char)value->_float.value; goto __TYPE; __b2h: __c2h: __i2h: value->_integer.value = (short)value->_integer.value; goto __TYPE; __l2h: value->_integer.value = (short)value->_long.value; goto __TYPE; __f2h: value->_integer.value = (short)value->_float.value; goto __TYPE; __l2i: value->_integer.value = (int)value->_long.value; goto __TYPE; __f2i: value->_integer.value = (int)value->_float.value; goto __TYPE; __b2l: __c2l: __h2l: __i2l: value->_long.value = (int64_t)value->_integer.value; goto __TYPE; __f2l: value->_long.value = (int64_t)value->_float.value; goto __TYPE; __l2g: value->_float.value = (float)value->_long.value; if (!finite(value->_float.value)) THROW(E_OVERFLOW); goto __TYPE; __f2g: value->_float.value = (float)value->_float.value; if (!finite(value->_float.value)) THROW(E_OVERFLOW); goto __TYPE; __b2f: __c2f: __h2f: __i2f: value->_float.value = value->_integer.value; goto __TYPE; __l2f: value->_float.value = value->_long.value; goto __TYPE; __c2d: __h2d: __i2d: value->_date.date = Max(0, value->_integer.value); value->_date.time = 0; goto __TYPE; __l2d: if (value->_long.value < 0) value->_date.date = 0; else if (value->_long.value > INT_MAX) value->_date.date = INT_MAX; else value->_date.date = (int)value->_long.value; value->_date.time = 0; goto __TYPE; __f2d: index = (int)fix(value->_float.value); value->_date.time = (int)((value->_float.value - index) * 86400000.0 + 0.5); value->_date.date = index; goto __TYPE; __d2c: __d2h: __d2i: value->_integer.value = value->_date.date; value->type = T_INTEGER; goto *jump[T_INTEGER][type]; __d2l: value->_long.value = value->_date.date; goto __TYPE; __d2f: value->_float.value = (double)value->_date.date + (double)value->_date.time / 86400000.0; goto __TYPE; __b2s: if (value->_boolean.value) STRING_char_value(value, 'T'); else STRING_void_value(value); return; __c2s: __h2s: __i2s: /*len = sprintf(COMMON_buffer, "%d", value->_integer.value); STRING_new_temp_value(value, COMMON_buffer, len);*/ NUMBER_int_to_string(value->_integer.value, 0, 10, value); BORROW(value); return; __l2s: /*len = sprintf(COMMON_buffer, "%" PRId64, value->_long.value); STRING_new_temp_value(value, COMMON_buffer, len);*/ NUMBER_int_to_string(value->_long.value, 0, 10, value); BORROW(value); return; __g2s: __f2s: LOCAL_format_number(value->_float.value, LF_GENERAL_NUMBER, NULL, 0, &addr, &len, FALSE); STRING_new_temp_value(value, addr, len); BORROW(value); return; __d2s: len = DATE_to_string(COMMON_buffer, value); STRING_new_temp_value(value, COMMON_buffer, len); BORROW(value); return; __s2b: addr = value->_string.addr; value->_integer.value = ((addr != NULL) && (value->_string.len != 0)) ? -1 : 0; if (value->type == T_STRING) STRING_unref(&addr); goto __TYPE; __s2c: __s2h: __s2i: addr = value->type == T_STRING ? value->_string.addr : NULL; if (NUMBER_from_string(NB_READ_INTEGER, value->_string.addr + value->_string.start, value->_string.len, value)) goto __N; STRING_unref(&addr); goto *jump[T_INTEGER][type]; __s2l: addr = value->type == T_STRING ? value->_string.addr : NULL; if (NUMBER_from_string(NB_READ_LONG, value->_string.addr + value->_string.start, value->_string.len, value)) goto __N; STRING_unref(&addr); return; __s2f: addr = value->type == T_STRING ? value->_string.addr : NULL; if (NUMBER_from_string(NB_READ_FLOAT, value->_string.addr + value->_string.start, value->_string.len, value)) goto __N; STRING_unref(&addr); return; __s2d: addr = value->type == T_STRING ? value->_string.addr : NULL; if (DATE_from_string(value->_string.addr + value->_string.start, value->_string.len, value, FALSE)) goto __N; STRING_unref(&addr); return; __n2b: value->_integer.value = 0; goto __TYPE; __n2d: DATE_void_value(value); return; __n2s: STRING_void_value(value); return; __v2: /* ATTENTION ! VALUE_read sert normalement �lire un stockage en m�oire. On le d�ourne ici pour convertir le variant. Mais si le variant contient un T_STRING, � doit rester un T_STRING ! */ index = value->_variant.vtype; if (index != T_NULL) VALUE_read(value, &value->_variant.value, value->_variant.vtype); value->type = index; goto __CONV; __s2v: STRING_copy_from_value_temp(&addr, value); if (addr != value->_string.addr) { STRING_ref(addr); if (value->type == T_STRING) STRING_unref(&value->_string.addr); } *((char **)value->_variant.value) = addr; value->_variant.vtype = T_STRING; goto __TYPE; __2v: /* VALUE_put ne fonctionne pas avec T_STRING ! */ if (value->type != T_NULL) VALUE_put(value, &value->_variant.value, value->type); value->_variant.vtype = value->type; goto __TYPE; __OBJECT: if (!TYPE_is_object(type)) { if (type == T_BOOLEAN) { test = (value->_object.object != NULL); OBJECT_UNREF(value->_object.object, "VALUE_convert"); value->_boolean.value = test ? -1 : 0; goto __TYPE; } if (type == T_VARIANT) goto __2v; goto __N; } if (!TYPE_is_object(value->type)) { if (value->type == T_NULL) { OBJECT_null(value, (CLASS *)type); /* marche aussi pour type = T_OBJECT */ goto __TYPE; } if (value->type == T_VARIANT) goto __v2; if (value->type == T_CLASS) { class = value->_class.class; if (CLASS_is_virtual(class)) THROW(E_VIRTUAL); CLASS_load(class); if (class->auto_create) value->_object.object = CLASS_auto_create(class, 0); else value->_object.object = class; OBJECT_REF(value->_object.object, "VALUE_convert"); value->type = T_OBJECT; /* on continue... */ } else goto __N; } if (value->_object.object == NULL) goto __TYPE; if (value->type == T_OBJECT) { /*if (value->_object.object == NULL) goto __TYPE;*/ class = OBJECT_class(value->_object.object); /* on continue */ } else class = value->_object.class; if (CLASS_is_virtual(class)) THROW(E_VIRTUAL); if (type == T_OBJECT) goto __TYPE; __RETRY: if ((class == (CLASS *)type) || CLASS_inherits(class, (CLASS *)type)) goto __TYPE; if (value->type != T_OBJECT && value->_object.object) { class = OBJECT_class(value->_object.object); value->type = T_OBJECT; goto __RETRY; } THROW(E_TYPE, TYPE_get_name(type), TYPE_get_name((TYPE)class)); __TYPE: value->type = type; __OK: return; __N: THROW(E_TYPE, TYPE_get_name(type), TYPE_get_name(value->type)); __NR: THROW(E_NRETURN); } void VALUE_write(VALUE *value, void *addr, TYPE type) { static void *jump[16] = { &&__VOID, &&__BOOLEAN, &&__BYTE, &&__SHORT, &&__INTEGER, &&__LONG, &&__SINGLE, &&__FLOAT, &&__DATE, &&__STRING, &&__STRING, &&__VARIANT, &&__ARRAY, &&__FUNCTION, &&__CLASS, &&__NULL }; char *str; __CONV: if (TYPE_is_object(type)) goto __OBJECT; else goto *jump[type]; __BOOLEAN: VALUE_conv(value, type); *((unsigned char *)addr) = (value->_boolean.value != 0 ? 255 : 0); return; __BYTE: VALUE_conv(value, type); *((unsigned char *)addr) = (unsigned char)(value->_byte.value); return; __SHORT: VALUE_conv(value, type); *((short *)addr) = (short)(value->_short.value); return; __INTEGER: VALUE_conv(value, type); *((int *)addr) = value->_integer.value; return; __LONG: VALUE_conv(value, type); *((int64_t *)addr) = value->_long.value; return; __SINGLE: VALUE_conv(value, type); *((float *)addr) = (float)value->_float.value; return; __FLOAT: VALUE_conv(value, type); *((double *)addr) = value->_float.value; return; __DATE: VALUE_conv(value, type); ((int *)addr)[0] = value->_date.date; ((int *)addr)[1] = value->_date.time; return; __STRING: /* Il faut faire l'affectation en deux temps au cas o value->_string.addr == *addr ! */ VALUE_conv(value, type); STRING_copy_from_value_temp(&str, value); STRING_ref(str); STRING_unref((char **)addr); *((char **)addr) = str; return; __OBJECT: VALUE_conv(value, type); OBJECT_REF(value->_object.object, "VALUE_write"); OBJECT_UNREF(*((void **)addr), "VALUE_write"); *((void **)addr) = value->_object.object; return; __CLASS: VALUE_conv(value, type); OBJECT_REF(value->_class.class, "VALUE_write"); OBJECT_UNREF(*((void **)addr), "VALUE_write"); *((void **)addr) = value->_class.class; return; __VARIANT: VARIANT_undo(value); type = value->type; if (type == T_CSTRING) type = T_STRING; VARIANT_clear((VARIANT *)addr); ((VARIANT *)addr)->type = type; /* Et si type ne fait pas partie des types valides pour cette fonction ?? */ if (type == T_NULL) return; addr = ((VARIANT *)addr)->value; /*goto *jump[Min(T_OBJECT, type)];*/ goto __CONV; __VOID: __ARRAY: __FUNCTION: __NULL: ERROR_panic("Bad type (%d) for VALUE_write", type); } void VALUE_read(VALUE *value, void *addr, TYPE type) { static void *jump[16] = { &&__VOID, &&__BOOLEAN, &&__BYTE, &&__SHORT, &&__INTEGER, &&__LONG, &&__SINGLE, &&__FLOAT, &&__DATE, &&__STRING, &&__CSTRING, &&__VARIANT, &&__ARRAY, &&__FUNCTION, &&__CLASS, &&__NULL }; char *str; value->type = type; if (TYPE_is_object(type)) goto __OBJECT; else goto *jump[type]; __BOOLEAN: value->_boolean.value = (*((unsigned char *)addr) != 0) ? (-1) : 0; return; __BYTE: value->_byte.value = *((unsigned char *)addr); return; __SHORT: value->_short.value = *((short *)addr); return; __INTEGER: value->_integer.value = *((int *)addr); return; __LONG: value->_long.value = *((int64_t *)addr); return; __SINGLE: value->_single.value = *((float *)addr); return; __FLOAT: value->_float.value = *((double *)addr); return; __DATE: value->_date.date = ((int *)addr)[0]; value->_date.time = ((int *)addr)[1]; return; __STRING: str = *((char **)addr); value->type = T_STRING; value->_string.addr = str; value->_string.start = 0; /*value->_string.len = (str == NULL) ? 0 : strlen(str);*/ value->_string.len = STRING_length(str); return; __CSTRING: str = *((char **)addr); value->type = T_CSTRING; value->_string.addr = str; value->_string.start = 0; value->_string.len = (str == NULL) ? 0 : strlen(str); /*value->_string.len = STRING_length(str);*/ return; __OBJECT: value->_object.object = *((void **)addr); return; __VARIANT: value->_variant.type = T_VARIANT; value->_variant.vtype = ((VARIANT *)addr)->type; /*if (value->_variant.vtype == T_STRING) value->_variant.vtype = T_STRING; else*/ if (value->_variant.vtype == T_VOID) value->_variant.vtype = T_NULL; VARIANT_copy_value(&value->_variant, ((VARIANT *)addr)); return; __CLASS: value->_class.class = *((void **)addr); value->_class.super = NULL; return; __VOID: __ARRAY: __FUNCTION: __NULL: ERROR_panic("Bad type (%d) for VALUE_read", type); } void VALUE_free(void *addr, TYPE type) { if (type == T_STRING) { STRING_unref((char **)addr); *((char **)addr) = NULL; } else if (TYPE_is_object(type)) { OBJECT_UNREF(*((void **)addr), "VALUE_free"); *((void **)addr) = NULL; } else if (type == T_VARIANT) { VARIANT_free((VARIANT *)addr); ((VARIANT *)addr)->type = T_NULL; } } void VALUE_to_string(VALUE *value, char **addr, int *len) { static void *jump[16] = { &&__VOID, &&__BOOLEAN, &&__BYTE, &&__SHORT, &&__INTEGER, &&__LONG, &&__SINGLE, &&__FLOAT, &&__DATE, &&__STRING, &&__STRING, &&__VARIANT, &&__ARRAY, &&__FUNCTION, &&__CLASS, &&__NULL }; __CONV: if (TYPE_is_object(value->type)) goto __OBJECT; else goto *jump[value->type]; __NULL: *addr = ""; /* Pour �re coh�ent avec print "" puisque Null == "" */ *len = 0; return; __BOOLEAN: if (value->_boolean.value) { *addr = "True"; *len = 4; } else { *addr = "False"; *len = 5; } return; __BYTE: __SHORT: __INTEGER: *len = sprintf(COMMON_buffer, "%d", value->_integer.value); *addr = COMMON_buffer; return; __LONG: *len = sprintf(COMMON_buffer, "%" PRId64, value->_long.value); *addr = COMMON_buffer; return; __DATE: LOCAL_format_date(DATE_split(value), LF_STANDARD, NULL, 0, addr, len); return; __SINGLE: __FLOAT: LOCAL_format_number(value->_float.value, LF_STANDARD, NULL, 0, addr, len, TRUE); return; __STRING: *len = value->_string.len; *addr = value->_string.addr + value->_string.start; return; __OBJECT: if (VALUE_is_null(value)) goto __NULL; *len = sprintf(COMMON_buffer, "(%s %p)", OBJECT_class(value->_object.object)->name, value->_object.object); *addr = COMMON_buffer; return; __VARIANT: VARIANT_undo(value); goto __CONV; __VOID: THROW(E_NRETURN); __CLASS: *len = sprintf(COMMON_buffer, "(Class %s)", value->_class.class->name); *addr = COMMON_buffer; return; __ARRAY: __FUNCTION: *len = sprintf(COMMON_buffer, "(%s ?)", TYPE_get_name(value->type)); *addr = COMMON_buffer; /*THROW(E_TYPE, TYPE_get_name(T_STRING), TYPE_get_name(value->type));*/ } void VALUE_from_string(VALUE *value, const char *addr, int len) { value->type = T_NULL; if (!len || *addr == 0) return; if (!DATE_from_string(addr, len, value, TRUE)) return; if (!NUMBER_from_string(NB_READ_ALL | NB_READ_HEX_BIN | NB_LOCAL, addr, len, value)) return; if (len == 4 && strncasecmp(addr, "true", len) == 0) { value->type = T_BOOLEAN; value->_boolean.value = -1; return; } if (len == 5 && strncasecmp(addr, "false", len) == 0) { value->type = T_BOOLEAN; value->_boolean.value = 0; return; } } void VALUE_class_read(CLASS *class, VALUE *value, char *addr, CTYPE ctype) { if (ctype.id == T_OBJECT) { VALUE_read(value, addr, (ctype.value >= 0) ? (TYPE)class->load->class_ref[ctype.value] : T_OBJECT); } else if (ctype.id == T_ARRAY) { value->type = T_ARRAY; //value->_array.desc = class->load->array[ctype.value]; value->_array.class = class; value->_array.addr = addr; value->_array.index = ctype.value; value->_array.keep = TRUE; // We suppose that the array goes to the stack } else VALUE_read(value, addr, (TYPE)ctype.id); } void VALUE_class_write(CLASS *class, VALUE *value, char *addr, CTYPE ctype) { if (ctype.id == T_OBJECT) { VALUE_write(value, addr, (ctype.value >= 0) ? (TYPE)class->load->class_ref[ctype.value] : T_OBJECT); } else if (ctype.id == T_ARRAY) { THROW(E_UNKNOWN); } else VALUE_write(value, addr, (TYPE)ctype.id); } void VALUE_class_constant(CLASS *class, VALUE *value, int ind) { static void *jump[] = { &&__ILLEGAL, &&__INTEGER, &&__INTEGER, &&__INTEGER, &&__INTEGER, &&__LONG, &&__FLOAT, &&__FLOAT, &&__ILLEGAL, &&__STRING, &&__CSTRING, &&__ILLEGAL, &&__ILLEGAL, &&__ILLEGAL, &&__ILLEGAL, &&__ILLEGAL }; CLASS_CONST *cc; if (ind < 0) goto __ILLEGAL; cc = &class->load->cst[ind]; value->type = cc->type; goto *jump[cc->type]; __INTEGER: value->_integer.value = cc->_integer.value; return; __LONG: value->_long.value = cc->_long.value; return; __FLOAT: value->_float.value = cc->_float.value; return; __STRING: value->type = T_CSTRING; value->_string.addr = (char *)cc->_string.addr; value->_string.start = 0; value->_string.len = cc->_string.len; return; __CSTRING: value->type = T_CSTRING; value->_string.addr = (char *)LOCAL_gettext(cc->_string.addr); value->_string.start = 0; value->_string.len = strlen(value->_string.addr); return; __ILLEGAL: EXEC_ILLEGAL(); } bool VALUE_is_null(VALUE *val) { static void *jump[16] = { &&__FALSE, &&__FALSE, &&__FALSE, &&__FALSE, &&__FALSE, &&__FALSE, &&__FALSE, &&__FALSE, &&__DATE, &&__STRING, &&__STRING, &&__VARIANT, &&__FALSE, &&__FALSE, &&__FALSE, &&__NULL }; TYPE type = val->type; if (TYPE_is_object(type)) return val->_object.object == NULL; else goto *jump[type]; __NULL: return TRUE; __STRING: return val->_string.addr == 0 || val->_string.len == 0; __DATE: return val->_date.date == 0 && val->_date.time == 0; __VARIANT: if (val->_variant.vtype == T_NULL) return TRUE; else if (val->_variant.vtype == T_STRING) return *((char **)val->_variant.value) == NULL; else if (val->_variant.vtype == T_DATE) return ((DATE *)val->_variant.value)->date == 0 && ((DATE *)val->_variant.value)->time == 0; else if (TYPE_is_object(val->_variant.vtype)) return *((void **)val->_variant.value) == NULL; __FALSE: return FALSE; } void VALUE_get_string(VALUE *val, char **text, int *length) { if (VALUE_is_null(val)) { *text = 0; *length = 0; } else { *length = val->_string.len; if (*length) *text = val->_string.start + val->_string.addr; else *text = NULL; } }