*/ static REBFLG Set_GOB_Var(REBGOB *gob, REBVAL *word, REBVAL *val) /* ***********************************************************************/ { switch (VAL_WORD_CANON(word)) { case SYM_OFFSET: return Set_Pair(&(gob->offset), val); case SYM_SIZE: return Set_Pair(&gob->size, val); case SYM_IMAGE: CLR_GOB_OPAQUE(gob); if (IS_IMAGE(val)) { SET_GOB_TYPE(gob, GOBT_IMAGE); GOB_W(gob) = (REBD32)VAL_IMAGE_WIDE(val); GOB_H(gob) = (REBD32)VAL_IMAGE_HIGH(val); GOB_CONTENT(gob) = VAL_SERIES(val); // if (!VAL_IMAGE_TRANSP(val)) SET_GOB_OPAQUE(gob); } else if (IS_NONE(val)) SET_GOB_TYPE(gob, GOBT_NONE); else return FALSE; break; case SYM_DRAW: CLR_GOB_OPAQUE(gob); if (IS_BLOCK(val)) { SET_GOB_TYPE(gob, GOBT_DRAW); GOB_CONTENT(gob) = VAL_SERIES(val); } else if (IS_NONE(val)) SET_GOB_TYPE(gob, GOBT_NONE); else return FALSE; break; case SYM_TEXT: CLR_GOB_OPAQUE(gob); if (IS_BLOCK(val)) { SET_GOB_TYPE(gob, GOBT_TEXT); GOB_CONTENT(gob) = VAL_SERIES(val); } else if (IS_STRING(val)) { SET_GOB_TYPE(gob, GOBT_STRING); GOB_CONTENT(gob) = VAL_SERIES(val); } else if (IS_NONE(val)) SET_GOB_TYPE(gob, GOBT_NONE); else return FALSE; break; case SYM_EFFECT: CLR_GOB_OPAQUE(gob); if (IS_BLOCK(val)) { SET_GOB_TYPE(gob, GOBT_EFFECT); GOB_CONTENT(gob) = VAL_SERIES(val); } else if (IS_NONE(val)) SET_GOB_TYPE(gob, GOBT_NONE); else return FALSE; break; case SYM_COLOR: CLR_GOB_OPAQUE(gob); if (IS_TUPLE(val)) { SET_GOB_TYPE(gob, GOBT_COLOR); Set_Pixel_Tuple((REBYTE*)&GOB_CONTENT(gob), val); if (VAL_TUPLE_LEN(val) < 4 || VAL_TUPLE(val)[3] == 0) SET_GOB_OPAQUE(gob); } else if (IS_NONE(val)) SET_GOB_TYPE(gob, GOBT_NONE); break; case SYM_PANE: if (GOB_PANE(gob)) Clear_Series(GOB_PANE(gob)); if (IS_BLOCK(val)) Insert_Gobs(gob, VAL_BLK_DATA(val), 0, VAL_BLK_LEN(val), 0); else if (IS_GOB(val)) Insert_Gobs(gob, val, 0, 1, 0); else if (IS_NONE(val)) gob->pane = 0; else return FALSE; break; case SYM_ALPHA: GOB_ALPHA(gob) = Clip_Int(Int32(val), 0, 255); break; case SYM_DATA: SET_GOB_DTYPE(gob, GOBD_NONE); if (IS_OBJECT(val)) { SET_GOB_DTYPE(gob, GOBD_OBJECT); SET_GOB_DATA(gob, VAL_OBJ_FRAME(val)); } else if (IS_BLOCK(val)) { SET_GOB_DTYPE(gob, GOBD_BLOCK); SET_GOB_DATA(gob, VAL_SERIES(val)); } else if (IS_STRING(val)) { SET_GOB_DTYPE(gob, GOBD_STRING); SET_GOB_DATA(gob, VAL_SERIES(val)); } else if (IS_BINARY(val)) { SET_GOB_DTYPE(gob, GOBD_BINARY); SET_GOB_DATA(gob, VAL_SERIES(val)); } else if (IS_INTEGER(val)) { SET_GOB_DTYPE(gob, GOBD_INTEGER); SET_GOB_DATA(gob, (void*)(REBIPT)VAL_INT64(val)); } else if (IS_NONE(val)) SET_GOB_TYPE(gob, GOBT_NONE); else return FALSE; break; case SYM_FLAGS: if (IS_WORD(val)) Set_Gob_Flag(gob, val); else if (IS_BLOCK(val)) { gob->flags = 0; for (val = VAL_BLK(val); NOT_END(val); val++) { if (IS_WORD(val)) Set_Gob_Flag(gob, val); } } break; case SYM_OWNER: if (IS_GOB(val)) GOB_TMP_OWNER(gob) = VAL_GOB(val); else return FALSE; break; default: return FALSE; } return TRUE; }
// // MAKE_Tuple: C // REB_R MAKE_Tuple( REBVAL *out, enum Reb_Kind kind, const REBVAL *opt_parent, const REBVAL *arg ){ assert(kind == REB_TUPLE); if (opt_parent) fail (Error_Bad_Make_Parent(kind, opt_parent)); if (IS_TUPLE(arg)) return Move_Value(out, arg); RESET_CELL(out, REB_TUPLE, CELL_MASK_NONE); REBYTE *vp = VAL_TUPLE(out); // !!! Net lookup parses IP addresses out of `tcp://93.184.216.34` or // similar URL!s. In Rebol3 these captures come back the same type // as the input instead of as STRING!, which was a latent bug in the // network code of the 12-Dec-2012 release: // // https://github.com/rebol/rebol/blob/master/src/mezz/sys-ports.r#L110 // // All attempts to convert a URL!-flavored IP address failed. Taking // URL! here fixes it, though there are still open questions. // if (IS_TEXT(arg) or IS_URL(arg)) { REBSIZ size; const REBYTE *bp = Analyze_String_For_Scan(&size, arg, MAX_SCAN_TUPLE); if (Scan_Tuple(out, bp, size) == nullptr) fail (arg); return out; } if (ANY_ARRAY(arg)) { REBCNT len = 0; REBINT n; RELVAL *item = VAL_ARRAY_AT(arg); for (; NOT_END(item); ++item, ++vp, ++len) { if (len >= MAX_TUPLE) goto bad_make; if (IS_INTEGER(item)) { n = Int32(item); } else if (IS_CHAR(item)) { n = VAL_CHAR(item); } else goto bad_make; if (n > 255 || n < 0) goto bad_make; *vp = n; } VAL_TUPLE_LEN(out) = len; for (; len < MAX_TUPLE; len++) *vp++ = 0; return out; } REBCNT alen; if (IS_ISSUE(arg)) { REBSTR *spelling = VAL_STRING(arg); const REBYTE *ap = STR_HEAD(spelling); size_t size = STR_SIZE(spelling); // UTF-8 len if (size & 1) fail (arg); // must have even # of chars size /= 2; if (size > MAX_TUPLE) fail (arg); // valid even for UTF-8 VAL_TUPLE_LEN(out) = size; for (alen = 0; alen < size; alen++) { REBYTE decoded; if ((ap = Scan_Hex2(&decoded, ap)) == NULL) fail (arg); *vp++ = decoded; } } else if (IS_BINARY(arg)) { REBYTE *ap = VAL_BIN_AT(arg); REBCNT len = VAL_LEN_AT(arg); if (len > MAX_TUPLE) len = MAX_TUPLE; VAL_TUPLE_LEN(out) = len; for (alen = 0; alen < len; alen++) *vp++ = *ap++; } else fail (arg); for (; alen < MAX_TUPLE; alen++) *vp++ = 0; return out; bad_make: fail (Error_Bad_Make(REB_TUPLE, arg)); }
*/ static REBFLG Set_GOB_Var(REBGOB *gob, REBVAL *word, REBVAL *val) /* ***********************************************************************/ { REBVAL *spec; REBVAL *hndl; switch (VAL_WORD_CANON(word)) { case SYM_OFFSET: return Set_Pair(&(gob->offset), val); case SYM_SIZE: return Set_Pair(&gob->size, val); case SYM_IMAGE: CLR_GOB_OPAQUE(gob); if (IS_IMAGE(val)) { SET_GOB_TYPE(gob, GOBT_IMAGE); GOB_W(gob) = (REBD32)VAL_IMAGE_WIDE(val); GOB_H(gob) = (REBD32)VAL_IMAGE_HIGH(val); GOB_CONTENT(gob) = VAL_SERIES(val); // if (!VAL_IMAGE_TRANSP(val)) SET_GOB_OPAQUE(gob); } else if (IS_NONE(val)) SET_GOB_TYPE(gob, GOBT_NONE); else return FALSE; break; #ifdef HAS_WIDGET_GOB case SYM_WIDGET: //printf("WIDGET GOB\n"); SET_GOB_TYPE(gob, GOBT_WIDGET); SET_GOB_OPAQUE(gob); GOB_CONTENT(gob) = Make_Block(4); // [handle type spec data] hndl = Append_Value(GOB_CONTENT(gob)); Append_Value(GOB_CONTENT(gob)); // used to cache type on host's side spec = Append_Value(GOB_CONTENT(gob)); Append_Value(GOB_CONTENT(gob)); // used to cache result data SET_HANDLE(hndl, 0, SYM_WIDGET, 0); if (IS_WORD(val) || IS_LIT_WORD(val)) { Set_Block(spec, Make_Block(1)); Append_Val(VAL_SERIES(spec), val); } else if (IS_BLOCK(val)) { Set_Block(spec, VAL_SERIES(val)); } else return FALSE; break; #endif // HAS_WIDGET_GOB case SYM_DRAW: CLR_GOB_OPAQUE(gob); if (IS_BLOCK(val)) { SET_GOB_TYPE(gob, GOBT_DRAW); GOB_CONTENT(gob) = VAL_SERIES(val); } else if (IS_NONE(val)) SET_GOB_TYPE(gob, GOBT_NONE); else return FALSE; break; case SYM_TEXT: CLR_GOB_OPAQUE(gob); if (IS_BLOCK(val)) { SET_GOB_TYPE(gob, GOBT_TEXT); GOB_CONTENT(gob) = VAL_SERIES(val); } else if (IS_STRING(val)) { SET_GOB_TYPE(gob, GOBT_STRING); GOB_CONTENT(gob) = VAL_SERIES(val); } else if (IS_NONE(val)) SET_GOB_TYPE(gob, GOBT_NONE); else return FALSE; break; case SYM_EFFECT: CLR_GOB_OPAQUE(gob); if (IS_BLOCK(val)) { SET_GOB_TYPE(gob, GOBT_EFFECT); GOB_CONTENT(gob) = VAL_SERIES(val); } else if (IS_NONE(val)) SET_GOB_TYPE(gob, GOBT_NONE); else return FALSE; break; case SYM_COLOR: CLR_GOB_OPAQUE(gob); if (IS_TUPLE(val)) { SET_GOB_TYPE(gob, GOBT_COLOR); Set_Pixel_Tuple((REBYTE*)&GOB_CONTENT(gob), val); if (VAL_TUPLE_LEN(val) < 4 || VAL_TUPLE(val)[3] == 255) SET_GOB_OPAQUE(gob); } else if (IS_NONE(val)) SET_GOB_TYPE(gob, GOBT_NONE); break; case SYM_PANE: if (GOB_PANE(gob)) Clear_Series(GOB_PANE(gob)); if (IS_BLOCK(val)) Insert_Gobs(gob, VAL_BLK_DATA(val), 0, VAL_BLK_LEN(val), 0); else if (IS_GOB(val)) Insert_Gobs(gob, val, 0, 1, 0); else if (IS_NONE(val)) gob->pane = 0; else return FALSE; break; case SYM_ALPHA: GOB_ALPHA(gob) = Clip_Int(Int32(val), 0, 255); break; case SYM_DATA: #ifdef HAS_WIDGET_GOB if (GOB_TYPE(gob) == GOBT_WIDGET) { OS_SET_WIDGET_DATA(gob, val); } else { #endif SET_GOB_DTYPE(gob, GOBD_NONE); if (IS_OBJECT(val)) { SET_GOB_DTYPE(gob, GOBD_OBJECT); SET_GOB_DATA(gob, VAL_OBJ_FRAME(val)); } else if (IS_BLOCK(val)) { SET_GOB_DTYPE(gob, GOBD_BLOCK); SET_GOB_DATA(gob, VAL_SERIES(val)); } else if (IS_STRING(val)) { SET_GOB_DTYPE(gob, GOBD_STRING); SET_GOB_DATA(gob, VAL_SERIES(val)); } else if (IS_BINARY(val)) { SET_GOB_DTYPE(gob, GOBD_BINARY); SET_GOB_DATA(gob, VAL_SERIES(val)); } else if (IS_INTEGER(val)) { SET_GOB_DTYPE(gob, GOBD_INTEGER); SET_GOB_DATA(gob, (void*)(REBIPT)VAL_INT64(val)); } else if (IS_NONE(val)) SET_GOB_TYPE(gob, GOBT_NONE); else return FALSE; #ifdef HAS_WIDGET_GOB } #endif break; case SYM_FLAGS: if (IS_WORD(val)) Set_Gob_Flag(gob, val); else if (IS_BLOCK(val)) { gob->flags = 0; for (val = VAL_BLK(val); NOT_END(val); val++) { if (IS_WORD(val)) Set_Gob_Flag(gob, val); } } break; case SYM_OWNER: if (IS_GOB(val)) GOB_TMP_OWNER(gob) = VAL_GOB(val); else return FALSE; break; default: return FALSE; } return TRUE; }
*/ REBINT Text_Gob(void *richtext, REBSER *block) /* ** Handles all commands for the TEXT dialect as specified ** in the system/dialects/text object. ** ** This function calls the REBOL_Dialect interpreter to ** parse the dialect and build and return the command number ** (the index offset in the text object above) and a block ** of arguments. (For now, just a REBOL block, but this could ** be changed to isolate it from changes in REBOL's internals). ** ** Each arg will be of the specified datatype (given in the ** dialect) or NONE when no argument of that type was given ** and this code must determine the proper default value. ** ** If the cmd result is zero, then it is either the end of ** the block, or an error has occurred. If the error value ** is non-zero, then it was an error. ** ***********************************************************************/ { REBCNT index = 0; REBINT cmd; REBSER *args = 0; REBVAL *arg; REBCNT nargs; //font object conversion related values REBFNT* font; REBVAL* val; REBPAR offset; REBPAR space; //para object conversion related values REBPRA* para; REBPAR origin; REBPAR margin; REBPAR indent; REBPAR scroll; do { cmd = Reb_Dialect(DIALECTS_TEXT, block, &index, &args); if (cmd == 0) return 0; if (cmd < 0) { // Reb_Print("ERROR: %d, Index %d", -cmd, index); return -((REBINT)index+1); } // else // Reb_Print("TEXT: Cmd %d, Index %d, Args %m", cmd, index, args); arg = BLK_HEAD(args); nargs = SERIES_TAIL(args); // Reb_Print("Number of args: %d", nargs); switch (cmd) { case TW_TYPE_SPEC: if (IS_STRING(arg)) { rt_text(richtext, ARG_STRING(0), index); } else if (IS_TUPLE(arg)) { rt_color(richtext, ARG_TUPLE(0)); } break; case TW_ANTI_ALIAS: rt_anti_alias(richtext, ARG_OPT_LOGIC(0)); break; case TW_SCROLL: rt_scroll(richtext, ARG_PAIR(0)); break; case TW_BOLD: case TW_B: rt_bold(richtext, ARG_OPT_LOGIC(0)); break; case TW_ITALIC: case TW_I: rt_italic(richtext, ARG_OPT_LOGIC(0)); break; case TW_UNDERLINE: case TW_U: rt_underline(richtext, ARG_OPT_LOGIC(0)); break; case TW_CENTER: rt_center(richtext); break; case TW_LEFT: rt_left(richtext); break; case TW_RIGHT: rt_right(richtext); break; case TW_FONT: if (!IS_OBJECT(arg)) break; font = (REBFNT*)rt_get_font(richtext); val = BLK_HEAD(ARG_OBJECT(0))+1; if (IS_STRING(val)) { font->name = VAL_STRING(val); } // Reb_Print("font/name: %s", font->name); val++; if (IS_BLOCK(val)) { REBSER* styles = VAL_SERIES(val); REBVAL* slot = BLK_HEAD(styles); REBCNT len = SERIES_TAIL(styles) ,i; for (i = 0;i<len;i++){ if (IS_WORD(slot+i)){ set_font_styles(font, slot+i); } } } else if (IS_WORD(val)) { set_font_styles(font, val); } val++; if (IS_INTEGER(val)) { font->size = VAL_INT32(val); } // Reb_Print("font/size: %d", font->size); val++; if ((IS_TUPLE(val)) || (IS_NONE(val))) { COPY_MEM(font->color,VAL_TUPLE(val), 4); } // Reb_Print("font/color: %d.%d.%d.%d", font->color[0],font->color[1],font->color[2],font->color[3]); val++; if ((IS_PAIR(val)) || (IS_NONE(val))) { offset = VAL_PAIR(val); font->offset_x = offset.x; font->offset_y = offset.y; } // Reb_Print("font/offset: %dx%d", offset.x,offset.y); val++; if ((IS_PAIR(val)) || (IS_NONE(val))) { space = VAL_PAIR(val); font->space_x = space.x; font->space_y = space.y; } // Reb_Print("font/space: %dx%d", space.x, space.y); val++; font->shadow_x = 0; font->shadow_y = 0; if (IS_BLOCK(val)) { REBSER* ser = VAL_SERIES(val); REBVAL* slot = BLK_HEAD(ser); REBCNT len = SERIES_TAIL(ser) ,i; for (i = 0;i<len;i++){ if (IS_PAIR(slot)) { REBPAR shadow = VAL_PAIR(slot); font->shadow_x = shadow.x; font->shadow_y = shadow.y; } else if (IS_TUPLE(slot)) { COPY_MEM(font->shadow_color,VAL_TUPLE(slot), 4); } else if (IS_INTEGER(slot)) { font->shadow_blur = VAL_INT32(slot); } slot++; } } else if (IS_PAIR(val)) { REBPAR shadow = VAL_PAIR(val); font->shadow_x = shadow.x; font->shadow_y = shadow.y; } rt_font(richtext, font); break; case TW_PARA: if (!IS_OBJECT(arg)) break; para = (REBPRA*)rt_get_para(richtext); val = BLK_HEAD(ARG_OBJECT(0))+1; if (IS_PAIR(val)) { origin = VAL_PAIR(val); para->origin_x = origin.x; para->origin_y = origin.y; } // Reb_Print("para/origin: %dx%d", origin.x, origin.y); val++; if (IS_PAIR(val)) { margin = VAL_PAIR(val); para->margin_x = margin.x; para->margin_y = margin.y; } // Reb_Print("para/margin: %dx%d", margin.x, margin.y); val++; if (IS_PAIR(val)) { indent = VAL_PAIR(val); para->indent_x = indent.x; para->indent_y = indent.y; } // Reb_Print("para/indent: %dx%d", indent.x, indent.y); val++; if (IS_INTEGER(val)) { para->tabs = VAL_INT32(val); } // Reb_Print("para/tabs: %d", para->tabs); val++; if (IS_LOGIC(val)) { para->wrap = VAL_LOGIC(val); } // Reb_Print("para/wrap?: %d", para->wrap); val++; if (IS_PAIR(val)) { scroll = VAL_PAIR(val); para->scroll_x = scroll.x; para->scroll_y = scroll.y; } // Reb_Print("para/scroll: %dx%d", scroll.x, scroll.y); val++; if (IS_WORD(val)) { REBINT result = Reb_Find_Word(VAL_WORD_SYM(val), Symbol_Ids, 0); switch (result){ case SW_RIGHT: case SW_LEFT: case SW_CENTER: para->align = result; break; default: para->align = SW_LEFT; break; } } val++; if (IS_WORD(val)) { REBINT result = Reb_Find_Word(VAL_WORD_SYM(val), Symbol_Ids, 0); switch (result){ case SW_TOP: case SW_BOTTOM: case SW_MIDDLE: para->valign = result; break; default: para->valign = SW_TOP; break; } } rt_para(richtext, para); break; case TW_SIZE: rt_font_size(richtext, ARG_INTEGER(0)); break; case TW_SHADOW: rt_shadow(richtext, &ARG_PAIR(0), ARG_TUPLE(1), ARG_INTEGER(2)); break; case TW_DROP: rt_drop(richtext, ARG_OPT_INTEGER(0)); break; case TW_NEWLINE: case TW_NL: rt_newline(richtext, index); break; case TW_CARET: { REBPAR caret = {0,0}; REBPAR highlightStart = {0,0}; REBPAR highlightEnd = {0,0}; REBVAL *slot; if (!IS_OBJECT(arg)) break; val = BLK_HEAD(ARG_OBJECT(0))+1; if (IS_BLOCK(val)) { slot = BLK_HEAD(VAL_SERIES(val)); if (SERIES_TAIL(VAL_SERIES(val)) == 2 && IS_BLOCK(slot) && IS_STRING(slot+1)){ caret.x = 1 + slot->data.series.index; caret.y = 1 + (slot+1)->data.series.index;; //Reb_Print("caret %d, %d", caret.x, caret.y); } } val++; if (IS_BLOCK(val)) { slot = BLK_HEAD(VAL_SERIES(val)); if (SERIES_TAIL(VAL_SERIES(val)) == 2 && IS_BLOCK(slot) && IS_STRING(slot+1)){ highlightStart.x = 1 + slot->data.series.index; highlightStart.y = 1 + (slot+1)->data.series.index;; //Reb_Print("highlight-start %d, %d", highlightStart.x, highlightStart.y); } } val++; if (IS_BLOCK(val)) { slot = BLK_HEAD(VAL_SERIES(val)); if (SERIES_TAIL(VAL_SERIES(val)) == 2 && IS_BLOCK(slot) && IS_STRING(slot+1)){ highlightEnd.x = 1 + slot->data.series.index; highlightEnd.y = 1 + (slot+1)->data.series.index;; //Reb_Print("highlight-End %d, %d", highlightEnd.x, highlightEnd.y); } } rt_caret(richtext, &caret, &highlightStart,&highlightEnd); } break; } } while (TRUE); }
// // Transport_Actor: C // static REB_R Transport_Actor(struct Reb_Call *call_, REBSER *port, REBCNT action, enum Transport_Types proto) { REBREQ *sock; // IO request REBVAL *spec; // port spec REBVAL *arg; // action argument value REBVAL *val; // e.g. port number value REBINT result; // IO result REBCNT refs; // refinement argument flags REBCNT len; // generic length REBSER *ser; // simplifier Validate_Port(port, action); *D_OUT = *D_ARG(1); arg = DS_ARGC > 1 ? D_ARG(2) : NULL; sock = cast(REBREQ*, Use_Port_State(port, RDI_NET, sizeof(*sock))); if (proto == TRANSPORT_UDP) { SET_FLAG(sock->modes, RST_UDP); } //Debug_Fmt("Sock: %x", sock); spec = OFV(port, STD_PORT_SPEC); if (!IS_OBJECT(spec)) fail (Error(RE_INVALID_PORT)); // sock->timeout = 4000; // where does this go? !!! // HOW TO PREVENT OVERWRITE DURING BUSY OPERATION!!! // Should it just ignore it or cause an error? // Actions for an unopened socket: if (!IS_OPEN(sock)) { switch (action) { // Ordered by frequency case A_OPEN: arg = Obj_Value(spec, STD_PORT_SPEC_NET_HOST); val = Obj_Value(spec, STD_PORT_SPEC_NET_PORT_ID); if (OS_DO_DEVICE(sock, RDC_OPEN)) fail (Error_On_Port(RE_CANNOT_OPEN, port, -12)); SET_OPEN(sock); // Lookup host name (an extra TCP device step): if (IS_STRING(arg)) { sock->common.data = VAL_BIN(arg); sock->special.net.remote_port = IS_INTEGER(val) ? VAL_INT32(val) : 80; result = OS_DO_DEVICE(sock, RDC_LOOKUP); // sets remote_ip field if (result < 0) fail (Error_On_Port(RE_NO_CONNECT, port, sock->error)); return R_OUT; } // Host IP specified: else if (IS_TUPLE(arg)) { sock->special.net.remote_port = IS_INTEGER(val) ? VAL_INT32(val) : 80; memcpy(&sock->special.net.remote_ip, VAL_TUPLE(arg), 4); break; } // No host, must be a LISTEN socket: else if (IS_NONE(arg)) { SET_FLAG(sock->modes, RST_LISTEN); sock->common.data = 0; // where ACCEPT requests are queued sock->special.net.local_port = IS_INTEGER(val) ? VAL_INT32(val) : 8000; break; } else fail (Error_On_Port(RE_INVALID_SPEC, port, -10)); case A_CLOSE: return R_OUT; case A_OPENQ: return R_FALSE; case A_UPDATE: // allowed after a close break; default: fail (Error_On_Port(RE_NOT_OPEN, port, -12)); } } // Actions for an open socket: switch (action) { // Ordered by frequency case A_UPDATE: // Update the port object after a READ or WRITE operation. // This is normally called by the WAKE-UP function. arg = OFV(port, STD_PORT_DATA); if (sock->command == RDC_READ) { if (ANY_BINSTR(arg)) VAL_TAIL(arg) += sock->actual; } else if (sock->command == RDC_WRITE) { SET_NONE(arg); // Write is done. } return R_NONE; case A_READ: // Read data into a buffer, expanding the buffer if needed. // If no length is given, program must stop it at some point. refs = Find_Refines(call_, ALL_READ_REFS); if ( !GET_FLAG(sock->modes, RST_UDP) && !GET_FLAG(sock->state, RSM_CONNECT) ) { fail (Error_On_Port(RE_NOT_CONNECTED, port, -15)); } // Setup the read buffer (allocate a buffer if needed): arg = OFV(port, STD_PORT_DATA); if (!IS_STRING(arg) && !IS_BINARY(arg)) { Val_Init_Binary(arg, Make_Binary(NET_BUF_SIZE)); } ser = VAL_SERIES(arg); sock->length = SERIES_AVAIL(ser); // space available if (sock->length < NET_BUF_SIZE/2) Extend_Series(ser, NET_BUF_SIZE); sock->length = SERIES_AVAIL(ser); sock->common.data = STR_TAIL(ser); // write at tail //if (SERIES_TAIL(ser) == 0) sock->actual = 0; // Actual for THIS read, not for total. //Print("(max read length %d)", sock->length); result = OS_DO_DEVICE(sock, RDC_READ); // recv can happen immediately if (result < 0) fail (Error_On_Port(RE_READ_ERROR, port, sock->error)); break; case A_WRITE: // Write the entire argument string to the network. // The lower level write code continues until done. refs = Find_Refines(call_, ALL_WRITE_REFS); if (!GET_FLAG(sock->modes, RST_UDP) && !GET_FLAG(sock->state, RSM_CONNECT)) fail (Error_On_Port(RE_NOT_CONNECTED, port, -15)); // Determine length. Clip /PART to size of string if needed. spec = D_ARG(2); len = VAL_LEN(spec); if (refs & AM_WRITE_PART) { REBCNT n = Int32s(D_ARG(ARG_WRITE_LIMIT), 0); if (n <= len) len = n; } // Setup the write: *OFV(port, STD_PORT_DATA) = *spec; // keep it GC safe sock->length = len; sock->common.data = VAL_BIN_DATA(spec); sock->actual = 0; //Print("(write length %d)", len); result = OS_DO_DEVICE(sock, RDC_WRITE); // send can happen immediately if (result < 0) fail (Error_On_Port(RE_WRITE_ERROR, port, sock->error)); if (result == DR_DONE) SET_NONE(OFV(port, STD_PORT_DATA)); break; case A_PICK: // FIRST server-port returns new port connection. len = Get_Num_Arg(arg); // Position if (len == 1 && GET_FLAG(sock->modes, RST_LISTEN) && sock->common.data) Accept_New_Port(D_OUT, port, sock); // sets D_OUT else fail (Error_Out_Of_Range(arg)); break; case A_QUERY: // Get specific information - the scheme's info object. // Special notation allows just getting part of the info. Ret_Query_Net(port, sock, D_OUT); break; case A_OPENQ: // Connect for clients, bind for servers: if (sock->state & ((1<<RSM_CONNECT) | (1<<RSM_BIND))) return R_TRUE; return R_FALSE; case A_CLOSE: if (IS_OPEN(sock)) { OS_DO_DEVICE(sock, RDC_CLOSE); SET_CLOSED(sock); } break; case A_LENGTH: arg = OFV(port, STD_PORT_DATA); len = ANY_SERIES(arg) ? VAL_TAIL(arg) : 0; SET_INTEGER(D_OUT, len); break; case A_OPEN: result = OS_DO_DEVICE(sock, RDC_CONNECT); if (result < 0) fail (Error_On_Port(RE_NO_CONNECT, port, sock->error)); break; case A_DELETE: // Temporary to TEST error handler! { REBVAL *event = Append_Event(); // sets signal VAL_SET(event, REB_EVENT); // (has more space, if we need it) VAL_EVENT_TYPE(event) = EVT_ERROR; VAL_EVENT_DATA(event) = 101; VAL_EVENT_REQ(event) = sock; } break; default: fail (Error_Illegal_Action(REB_PORT, action)); } return R_OUT; }
bool is_tuple (Value* self) { return IS_TUPLE(self); }
*/ REBINT Effect_Gob(void *effects, REBSER *block) /* ** Handles all commands for the EFFECT dialect as specified ** in the system/dialects/effect object. ** ** This function calls the REBOL_Dialect interpreter to ** parse the dialect and build and return the command number ** (the index offset in the draw object above) and a block ** of arguments. (For now, just a REBOL block, but this could ** be changed to isolate it from changes in REBOL's internals). ** ** Each arg will be of the specified datatype (given in the ** dialect) or NONE when no argument of that type was given ** and this code must determine the proper default value. ** ** If the cmd result is zero, then it is either the end of ** the block, or an error has occurred. If the error value ** is non-zero, then it was an error. ** ***********************************************************************/ { // REBSER *block; REBCNT index = 0; REBINT cmd; REBSER *args = 0; REBVAL *arg; REBCNT nargs; //default values REBYTE def_color1[4] = {0,0,0,0}; REBYTE def_color2[4] = {255,255,255,0}; REBPAR def_pair = {1,0}; do { cmd = Reb_Dialect(DIALECTS_EFFECT, block, &index, &args); if (cmd == 0) return 0; if (cmd < 0) { // Reb_Print("ERROR: %d, Index %d", -cmd, index); return -((REBINT)index+1); } // else // Reb_Print("EFFECT: Cmd %d, Index %d, Args %m", cmd, index, args); arg = BLK_HEAD(args); nargs = SERIES_TAIL(args); // Reb_Print("Number of args: %d", nargs); switch (cmd) { case EW_ADD: FX_Add(effects, ARG_OPT_IMAGE(0), ARG_OPT_IMAGE(1)); break; case EW_ALPHAMUL: if (IS_IMAGE(arg)) FX_Alphamul(effects, ARG_IMAGE(0), IS_NONE(arg+1) ? 127 : ARG_INTEGER(1)); break; case EW_ASPECT: { REBINT type = 1, mode = 2; if (ARG_WORD(0) == EW_RESAMPLE){ type = 2; mode = 1; } FX_Fit(effects,ARG_OPT_IMAGE(0), ARG_WORDS(type,EW_NEAREST,EW_GAUSSIAN), ARG_WORD(mode) == EW_RESAMPLE, IS_NONE(arg+3) ? 1.0 : ARG_DECIMAL(3), TRUE); } break; case EW_BLUR: // FX_Blur(effects, ARG_OPT_IMAGE(0)); { REBDEC filter[9] = {0, 1, 0, 1, 1, 1, 0, 1, 0}; FX_Convolve(effects, ARG_OPT_IMAGE(0),filter , 5.0, 0, FALSE); } break; case EW_COLORIFY: FX_Colorify(effects, IS_NONE(arg+1) ? def_color2 : ARG_TUPLE(1) , IS_NONE(arg+2) ? 255 : max(0, min(255,ARG_INTEGER(2))), ARG_OPT_IMAGE(0)); break; case EW_COLORIZE: FX_Colorize(effects, IS_NONE(arg+1) ? def_color2 : ARG_TUPLE(1) , ARG_OPT_IMAGE(0)); break; case EW_CONTRAST: FX_Contrast(effects, IS_NONE(arg+1) ? 127 : ARG_INTEGER(1), ARG_OPT_IMAGE(0)); break; case EW_CONVOLVE: //[image! block! decimal! decimal! logic!] if (IS_BLOCK(arg+1)) { REBDEC filter[9]; REBSER* mtx = (REBSER*)ARG_BLOCK(1); REBVAL* slot = BLK_HEAD(mtx); REBCNT len = SERIES_TAIL(mtx) ,i, num = 0; for (i = 0;i<len;i++){ if (IS_DECIMAL(slot+i)) filter[i] = VAL_DECIMAL(slot+i); else if (IS_INTEGER(slot+i)) filter[i] = VAL_INT32(slot+i); else return -cmd; num++; } if (num != 9) return -cmd; FX_Convolve(effects, ARG_OPT_IMAGE(0),filter , ARG_DECIMAL(2), ARG_INTEGER(3), ARG_LOGIC(4)); } break; case EW_CROP: FX_Crop(effects,ARG_OPT_IMAGE(0), IS_NONE(arg+1) ? 0 : &ARG_PAIR(1), IS_NONE(arg+2) ? 0 : &ARG_PAIR(2)); break; case EW_DIFFERENCE: FX_Difference(effects, IS_NONE(arg+2) ? def_color2 : ARG_TUPLE(2), ARG_OPT_IMAGE(0), ARG_OPT_IMAGE(1), (IS_NONE(arg+2)) ? 1 : 0); break; case EW_EMBOSS: { REBDEC filter[9] = {-1, 0, 1, -2, 0, 2, -1, 0, 1}; FX_Convolve(effects, ARG_OPT_IMAGE(0),filter , 6.0, 127, FALSE); } break; case EW_EXTEND: FX_Extend(effects,ARG_OPT_IMAGE(0), IS_NONE(arg+1) ? 0 : &ARG_PAIR(1), IS_NONE(arg+2) ? 0 : &ARG_PAIR(2)); break; case EW_FIT: if (IS_IMAGE(arg)){ REBINT type = 1, mode = 2; if (ARG_WORD(0) == EW_RESAMPLE){ type = 2; mode = 1; } FX_Fit(effects,ARG_IMAGE(0), ARG_WORDS(type,EW_NEAREST,EW_GAUSSIAN), ARG_WORD(mode) == EW_RESAMPLE, IS_NONE(arg+3) ? 1.0 : ARG_DECIMAL(3), FALSE); } break; case EW_FLIP: FX_Flip(effects, IS_NONE(arg+1) ? &def_pair : &ARG_PAIR(1), ARG_OPT_IMAGE(0)); break; case EW_GRADCOL: FX_Gradcol(effects, &ARG_PAIR(1), IS_NONE(arg+2) ? def_color1 : ARG_TUPLE(2), IS_NONE(arg+3) ? def_color2 : ARG_TUPLE(3),ARG_OPT_IMAGE(0)); break; case EW_GRADIENT: FX_Gradient(effects, &ARG_PAIR(1), IS_NONE(arg+2) ? def_color1 : ARG_TUPLE(2), IS_NONE(arg+3) ? def_color2 : ARG_TUPLE(3), ARG_OPT_IMAGE(0)); break; case EW_GRADMUL: FX_Gradmul(effects, &ARG_PAIR(1), IS_NONE(arg+2) ? def_color1 : ARG_TUPLE(2), IS_NONE(arg+3) ? def_color2 : ARG_TUPLE(3), ARG_OPT_IMAGE(0)); break; case EW_GRAYSCALE: FX_Grayscale(effects,ARG_OPT_IMAGE(0)); break; case EW_HSV: FX_HSV(effects, IS_NONE(arg+1) ? def_color2 : ARG_TUPLE(1), ARG_OPT_IMAGE(0)); break; case EW_INVERT: FX_Invert(effects,ARG_OPT_IMAGE(0)); break; case EW_KEY: if (IS_IMAGE(arg)) FX_Key(effects, IS_NONE(arg+1) ? def_color1 : ARG_TUPLE(1), ARG_IMAGE(0)); break; case EW_LUMA: FX_Luma(effects, IS_NONE(arg+1) ? 127 : ARG_INTEGER(1),ARG_OPT_IMAGE(0)); break; case EW_MIX: FX_Mix(effects, ARG_OPT_IMAGE(0), ARG_OPT_IMAGE(1)); break; case EW_MULTIPLY: { REBINT i = 0x00FFFFFF; REBYTE* color = (REBYTE*)&i; if (IS_INTEGER(arg+3)) { i = ARG_INTEGER(3); i = i + (i << 8) + (i << 16); } else if (IS_TUPLE(arg+2)) color = ARG_TUPLE(2); FX_Multiply(effects, color ,ARG_OPT_IMAGE(0), ARG_OPT_IMAGE(1), (IS_NONE(arg+2) && IS_NONE(arg+3)) ? 1 : 0); } break; case EW_REFLECT: FX_Reflect(effects, IS_NONE(arg+1) ? &def_pair : &ARG_PAIR(1), ARG_OPT_IMAGE(0)); break; case EW_ROTATE: FX_Rotate(effects, IS_NONE(arg+1) ? 90 : ARG_INTEGER(1), ARG_OPT_IMAGE(0)); break; case EW_SHADOW: if (IS_IMAGE(arg)) FX_Shadow(effects, ARG_IMAGE(0), IS_NONE(arg+1) ? 0 : &ARG_PAIR(1), IS_NONE(arg+2) ? 0 : &ARG_PAIR(2), IS_NONE(arg+3) ? 0 : ARG_TUPLE(3), IS_NONE(arg+4) ? 0 : ARG_DECIMAL(4), IS_NONE(arg+5) ? 0 : ARG_WORD(5) == EW_ONLY); break; case EW_SHARPEN: // FX_Sharpen(effects, ARG_OPT_IMAGE(0)); { REBDEC filter[9] = {0, -1, 0, -1, 8, -1, 0, -1, 0}; FX_Convolve(effects, ARG_OPT_IMAGE(0),filter , 4.0, 0, FALSE); } break; case EW_TILE: if (IS_IMAGE(arg)) FX_Tile(effects, ARG_IMAGE(0), &ARG_PAIR(1)); break; case EW_TILE_VIEW: if (IS_IMAGE(arg)) { REBPAR p; Effect_Offset(effects, &p); FX_Tile(effects, ARG_IMAGE(0), &p); } break; case EW_TINT: FX_Tint(effects, IS_NONE(arg+1) ? 127 : ARG_INTEGER(1),ARG_OPT_IMAGE(0)); break; } } while (TRUE); }
// // MAKE_Tuple: C // void MAKE_Tuple(REBVAL *out, enum Reb_Kind type, const REBVAL *arg) { if (IS_TUPLE(arg)) { *out = *arg; return; } VAL_RESET_HEADER(out, REB_TUPLE); REBYTE *vp = VAL_TUPLE(out); // !!! Net lookup parses IP addresses out of `tcp://93.184.216.34` or // similar URL!s. In Rebol3 these captures come back the same type // as the input instead of as STRING!, which was a latent bug in the // network code of the 12-Dec-2012 release: // // https://github.com/rebol/rebol/blob/master/src/mezz/sys-ports.r#L110 // // All attempts to convert a URL!-flavored IP address failed. Taking // URL! here fixes it, though there are still open questions. // if (IS_STRING(arg) || IS_URL(arg)) { REBCNT len; REBYTE *ap = Temp_Byte_Chars_May_Fail(arg, MAX_SCAN_TUPLE, &len, FALSE); if (Scan_Tuple(ap, len, out)) return; goto bad_arg; } if (ANY_ARRAY(arg)) { REBCNT len = 0; REBINT n; RELVAL *item = VAL_ARRAY_AT(arg); for (; NOT_END(item); ++item, ++vp, ++len) { if (len >= MAX_TUPLE) goto bad_make; if (IS_INTEGER(item)) { n = Int32(item); } else if (IS_CHAR(item)) { n = VAL_CHAR(item); } else goto bad_make; if (n > 255 || n < 0) goto bad_make; *vp = n; } VAL_TUPLE_LEN(out) = len; for (; len < MAX_TUPLE; len++) *vp++ = 0; return; } REBCNT alen; if (IS_ISSUE(arg)) { REBUNI c; const REBYTE *ap = VAL_WORD_HEAD(arg); REBCNT len = LEN_BYTES(ap); // UTF-8 len if (len & 1) goto bad_arg; // must have even # of chars len /= 2; if (len > MAX_TUPLE) goto bad_arg; // valid even for UTF-8 VAL_TUPLE_LEN(out) = len; for (alen = 0; alen < len; alen++) { const REBOOL unicode = FALSE; if (!Scan_Hex2(ap, &c, unicode)) goto bad_arg; *vp++ = cast(REBYTE, c); ap += 2; } } else if (IS_BINARY(arg)) { REBYTE *ap = VAL_BIN_AT(arg); REBCNT len = VAL_LEN_AT(arg); if (len > MAX_TUPLE) len = MAX_TUPLE; VAL_TUPLE_LEN(out) = len; for (alen = 0; alen < len; alen++) *vp++ = *ap++; } else goto bad_arg; for (; alen < MAX_TUPLE; alen++) *vp++ = 0; return; bad_arg: fail (Error_Invalid_Arg(arg)); bad_make: fail (Error_Bad_Make(REB_TUPLE, arg)); }
*/ REBYTE *Security_Policy(REBCNT sym, REBVAL *name) /* ** Given a security symbol (like FILE) and a value (like the file ** path) returns the security policy (RWX) allowed for it. ** ** Args: ** ** sym: word that represents the type ['file 'net] ** name: file or path value ** ** Returns BTYE array of flags for the policy class: ** ** flags: [rrrr wwww xxxx ----] ** ** Where each byte is: ** 0: SEC_ALLOW ** 1: SEC_ASK ** 2: SEC_THROW ** 3: SEC_QUIT ** ** The secuity is defined by the system/state/policies object, that ** is of the form: ** ** [ ** file: [%file1 tuple-flags %file2 ... default tuple-flags] ** net: [...] ** call: tuple-flags ** stack: tuple-flags ** eval: integer (limit) ** ] ** ***********************************************************************/ { REBVAL *policy = Get_System(SYS_STATE, STATE_POLICIES); REBYTE *flags; REBCNT len; REBCNT errcode = RE_SECURITY_ERROR; if (!IS_OBJECT(policy)) goto error; // Find the security class in the block: (file net call...) policy = Find_Word_Value(VAL_OBJ_FRAME(policy), sym); if (!policy) goto error; // Obtain the policies for it: // Check for a master tuple: [file rrrr.wwww.xxxx] if (IS_TUPLE(policy)) return VAL_TUPLE(policy); // non-aligned // removed A90: if (IS_INTEGER(policy)) return (REBYTE*)VAL_INT64(policy); // probably not used // Only other form is detailed block: if (!IS_BLOCK(policy)) goto error; // Scan block of policies for the class: [file [allow read quit write]] len = 0; // file or url length flags = 0; // policy flags for (policy = VAL_BLK(policy); NOT_END(policy); policy += 2) { // Must be a policy tuple: if (!IS_TUPLE(policy+1)) goto error; // Is it a policy word: if (IS_WORD(policy)) { // any word works here // If no strings found, use the default: if (len == 0) flags = VAL_TUPLE(policy+1); // non-aligned } // Is it a string (file or URL): else if (ANY_BINSTR(policy) && name) { //Debug_Fmt("sec: %r %r", policy, name); if (Match_Sub_Path(VAL_SERIES(policy), VAL_SERIES(name))) { // Is the match adequate? if (VAL_TAIL(name) >= len) { len = VAL_TAIL(name); flags = VAL_TUPLE(policy+1); // non-aligned } } } else goto error; } if (!flags) { errcode = RE_SECURITY; policy = name ? name : 0; error: if (!policy) { Init_Word(DS_TOP, sym); policy = DS_TOP; } Trap1(errcode, policy); } return flags; }