/* * $Id: object.c,v 1.23 2005-05-23 15:51:03 bacon Exp $ */ #include #include #include #include #include /* n: number of instance variables */ xp_stx_word_t xp_stx_alloc_word_object (xp_stx_t* stx, xp_stx_word_t n) { xp_stx_word_t idx; xp_stx_word_object_t* obj; /* bytes to allocidxed = * number of instance variables * word_size */ idx = xp_stx_memory_alloc (&stx->memory, n * xp_sizeof(xp_stx_word_t) + xp_sizeof(xp_stx_object_t)); if (idx >= stx->memory.capacity) return idx; /* failed */ xp_stx_assert (stx->nil == XP_STX_NIL); /* XP_STX_CLASS(stx,idx) = stx->nil; XP_STX_ACCESS(stx,idx) = (n << 2) | XP_STX_WORD_INDEXED; while (n-- > 0) XP_STX_AT(stx,idx,n) = stx->nil; */ obj = XP_STX_WORD_OBJECT(stx,idx); obj->header.class = stx->nil; obj->header.access = (n << 2) | XP_STX_WORD_INDEXED; while (n-- > 0) obj->data[n] = stx->nil; return idx; } /* n: number of bytes */ xp_stx_word_t xp_stx_alloc_byte_object (xp_stx_t* stx, xp_stx_word_t n) { xp_stx_word_t idx; xp_stx_byte_object_t* obj; idx = xp_stx_memory_alloc ( &stx->memory, n + xp_sizeof(xp_stx_object_t)); if (idx >= stx->memory.capacity) return idx; /* failed */ xp_stx_assert (stx->nil == XP_STX_NIL); /* XP_STX_CLASS(stx,idx) = stx->nil; XP_STX_ACCESS(stx,idx) = (n << 2) | XP_STX_BYTE_INDEXED; while (n-- > 0) XP_STX_BYTEAT(stx,idx,n) = 0; */ obj = XP_STX_BYTE_OBJECT(stx,idx); obj->header.class = stx->nil; obj->header.access = (n << 2) | XP_STX_BYTE_INDEXED; while (n-- > 0) obj->data[n] = 0; return idx; } xp_stx_word_t xp_stx_alloc_char_object ( xp_stx_t* stx, const xp_stx_char_t* str) { return xp_stx_alloc_char_objectx (stx, str, xp_stx_strlen(str)); } xp_stx_word_t xp_stx_alloc_char_objectx ( xp_stx_t* stx, const xp_stx_char_t* str, xp_stx_word_t n) { xp_stx_word_t idx; xp_stx_char_object_t* obj; idx = xp_stx_memory_alloc (&stx->memory, (n + 1) * xp_sizeof(xp_stx_char_t) + xp_sizeof(xp_stx_object_t)); if (idx >= stx->memory.capacity) return idx; /* failed */ xp_stx_assert (stx->nil == XP_STX_NIL); /* XP_STX_CLASS(stx,idx) = stx->nil; XP_STX_ACCESS(stx,idx) = (n << 2) | XP_STX_CHAR_INDEXED; XP_STX_CHARAT(stx,idx,n) = XP_STX_CHAR('\0'); while (n-- > 0) XP_STX_CHARAT(stx,idx,n) = str[n]; */ obj = XP_STX_CHAR_OBJECT(stx,idx); obj->header.class = stx->nil; obj->header.access = (n << 2) | XP_STX_CHAR_INDEXED; obj->data[n] = XP_STX_CHAR('\0'); while (n-- > 0) obj->data[n] = str[n]; return idx; } xp_stx_word_t xp_stx_allocn_char_object (xp_stx_t* stx, ...) { xp_stx_word_t idx, n = 0; const xp_stx_char_t* p; xp_stx_va_list ap; xp_stx_char_object_t* obj; xp_stx_va_start (ap, stx); while ((p = xp_stx_va_arg(ap, const xp_stx_char_t*)) != XP_NULL) { n += xp_stx_strlen(p); } xp_stx_va_end (ap); idx = xp_stx_memory_alloc (&stx->memory, (n + 1) * xp_sizeof(xp_stx_char_t) + xp_sizeof(xp_stx_object_t)); if (idx >= stx->memory.capacity) return idx; /* failed */ xp_stx_assert (stx->nil == XP_STX_NIL); /* XP_STX_CLASS(stx,idx) = stx->nil; XP_STX_ACCESS(stx,idx) = (n << 2) | XP_STX_CHAR_INDEXED; XP_STX_CHARAT(stx,idx,n) = XP_STX_CHAR('\0'); */ obj = XP_STX_CHAR_OBJECT(stx,idx); obj->header.class = stx->nil; obj->header.access = (n << 2) | XP_STX_CHAR_INDEXED; obj->data[n] = XP_STX_CHAR('\0'); xp_stx_va_start (ap, stx); n = 0; while ((p = xp_stx_va_arg(ap, const xp_stx_char_t*)) != XP_NULL) { while (*p != XP_STX_CHAR('\0')) { /*XP_STX_CHARAT(stx,idx,n++) = *p++;*/ obj->data[n++] = *p++; } } xp_stx_va_end (ap); return idx; } xp_stx_word_t xp_stx_hash_char_object (xp_stx_t* stx, xp_stx_word_t idx) { xp_stx_assert (XP_STX_TYPE(stx,idx) == XP_STX_CHAR_INDEXED); return xp_stx_strxhash ( XP_STX_DATA(stx,idx), XP_STX_SIZE(stx,idx)); }