*/ void Mold_Value(REB_MOLD *mold, REBVAL *value, REBFLG molded) /* ** Mold or form any value to string series tail. ** ***********************************************************************/ { REBYTE buf[60]; REBINT len; REBSER *ser = mold->series; CHECK_STACK(&len); ASSERT2(SERIES_WIDE(mold->series) == sizeof(REBUNI), RP_BAD_SIZE); ASSERT2(ser, RP_NO_BUFFER); // Special handling of string series: { if (ANY_STR(value) && !IS_TAG(value)) { // Forming a string: if (!molded) { Insert_String(ser, -1, VAL_SERIES(value), VAL_INDEX(value), VAL_LEN(value), 0); return; } // Special format for ALL string series when not at head: if (GET_MOPT(mold, MOPT_MOLD_ALL) && VAL_INDEX(value) != 0) { Mold_All_String(value, mold); return; } } switch (VAL_TYPE(value)) { case REB_NONE: Emit(mold, "+N", SYM_NONE); break; case REB_LOGIC: // if (!molded || !VAL_LOGIC_WORDS(value) || !GET_MOPT(mold, MOPT_MOLD_ALL)) Emit(mold, "+N", VAL_LOGIC(value) ? SYM_TRUE : SYM_FALSE); // else // Mold_Logic(mold, value); break; case REB_INTEGER: len = Emit_Integer(buf, VAL_INT64(value)); goto append; case REB_DECIMAL: case REB_PERCENT: len = Emit_Decimal(buf, VAL_DECIMAL(value), IS_PERCENT(value)?DEC_MOLD_PERCENT:0, Punctuation[GET_MOPT(mold, MOPT_COMMA_PT) ? PUNCT_COMMA : PUNCT_DOT], mold->digits); goto append; case REB_MONEY: len = Emit_Money(value, buf, mold->opts); goto append; case REB_CHAR: Mold_Uni_Char(ser, VAL_CHAR(value), (REBOOL)molded, (REBOOL)GET_MOPT(mold, MOPT_MOLD_ALL)); break; case REB_PAIR: len = Emit_Decimal(buf, VAL_PAIR_X(value), DEC_MOLD_MINIMAL, Punctuation[PUNCT_DOT], mold->digits/2); Append_Bytes_Len(ser, buf, len); Append_Byte(ser, 'x'); len = Emit_Decimal(buf, VAL_PAIR_Y(value), DEC_MOLD_MINIMAL, Punctuation[PUNCT_DOT], mold->digits/2); Append_Bytes_Len(ser, buf, len); //Emit(mold, "IxI", VAL_PAIR_X(value), VAL_PAIR_Y(value)); break; case REB_TUPLE: len = Emit_Tuple(value, buf); goto append; case REB_TIME: //len = Emit_Time(value, buf, Punctuation[GET_MOPT(mold, MOPT_COMMA_PT) ? PUNCT_COMMA : PUNCT_DOT]); Emit_Time(mold, value); break; case REB_DATE: Emit_Date(mold, value); break; case REB_STRING: // FORM happens in top section. Mold_String_Series(value, mold); break; case REB_BINARY: if (GET_MOPT(mold, MOPT_MOLD_ALL) && VAL_INDEX(value) != 0) { Mold_All_String(value, mold); return; } Mold_Binary(value, mold); break; case REB_FILE: if (VAL_LEN(value) == 0) { Append_Bytes(ser, "%\"\""); break; } Mold_File(value, mold); break; case REB_EMAIL: case REB_URL: Mold_Url(value, mold); break; case REB_TAG: if (GET_MOPT(mold, MOPT_MOLD_ALL) && VAL_INDEX(value) != 0) { Mold_All_String(value, mold); return; } Mold_Tag(value, mold); break; // Mold_Issue(value, mold); // break; case REB_BITSET: Pre_Mold(value, mold); // #[bitset! or make bitset! Mold_Bitset(value, mold); End_Mold(mold); break; case REB_IMAGE: Pre_Mold(value, mold); if (!GET_MOPT(mold, MOPT_MOLD_ALL)) { Append_Byte(ser, '['); Mold_Image_Data(value, mold); Append_Byte(ser, ']'); End_Mold(mold); } else { REBVAL val = *value; VAL_INDEX(&val) = 0; // mold all of it Mold_Image_Data(&val, mold); Post_Mold(value, mold); } break; case REB_BLOCK: case REB_PAREN: if (!molded) Form_Block_Series(VAL_SERIES(value), VAL_INDEX(value), mold, 0); else Mold_Block(value, mold); break; case REB_PATH: case REB_SET_PATH: case REB_GET_PATH: case REB_LIT_PATH: Mold_Block(value, mold); break; case REB_VECTOR: Mold_Vector(value, mold, molded); break; case REB_DATATYPE: if (!molded) Emit(mold, "N", VAL_DATATYPE(value) + 1); else Emit(mold, "+DN", SYM_DATATYPE_TYPE, VAL_DATATYPE(value) + 1); break; case REB_TYPESET: Mold_Typeset(value, mold, molded); break; case REB_WORD: // This is a high frequency function, so it is optimized. Append_UTF8(ser, Get_Sym_Name(VAL_WORD_SYM(value)), -1); break; case REB_SET_WORD: Emit(mold, "W:", value); break; case REB_GET_WORD: Emit(mold, ":W", value); break; case REB_LIT_WORD: Emit(mold, "\'W", value); break; case REB_REFINEMENT: Emit(mold, "/W", value); break; case REB_ISSUE: Emit(mold, "#W", value); break; case REB_CLOSURE: case REB_FUNCTION: case REB_NATIVE: case REB_ACTION: case REB_COMMAND: Mold_Function(value, mold); break; case REB_OBJECT: case REB_MODULE: case REB_PORT: if (!molded) Form_Object(value, mold); else Mold_Object(value, mold); break; case REB_TASK: Mold_Object(value, mold); //// | (1<<MOPT_NO_NONE)); break; case REB_ERROR: Mold_Error(value, mold, molded); break; case REB_MAP: Mold_Map(value, mold, molded); break; case REB_GOB: { REBSER *blk; Pre_Mold(value, mold); blk = Gob_To_Block(VAL_GOB(value)); Mold_Block_Series(mold, blk, 0, 0); End_Mold(mold); } break; case REB_EVENT: Mold_Event(value, mold); break; case REB_REBCODE: case REB_OP: case REB_FRAME: case REB_HANDLE: case REB_STRUCT: case REB_LIBRARY: case REB_UTYPE: // Value has no printable form, so just print its name. if (!molded) Emit(mold, "?T?", value); else Emit(mold, "+T", value); break; case REB_END: case REB_UNSET: if (molded) Emit(mold, "+T", value); break; default: Crash(RP_DATATYPE+5, VAL_TYPE(value)); } return; append: Append_Bytes_Len(ser, buf, len); }
// // Mold_Vector: C // void Mold_Vector(const REBVAL *value, REB_MOLD *mold, REBOOL molded) { REBSER *vect = VAL_SERIES(value); REBYTE *data = SER_DATA_RAW(vect); REBCNT bits = VECT_TYPE(vect); // REBCNT dims = vect->size >> 8; REBCNT len; REBCNT n; REBCNT c; union {REBU64 i; REBDEC d;} v; REBYTE buf[32]; REBYTE l; if (GET_MOPT(mold, MOPT_MOLD_ALL)) { len = VAL_LEN_HEAD(value); n = 0; } else { len = VAL_LEN_AT(value); n = VAL_INDEX(value); } if (molded) { enum Reb_Kind kind = (bits >= VTSF08) ? REB_DECIMAL : REB_INTEGER; Pre_Mold(value, mold); if (!GET_MOPT(mold, MOPT_MOLD_ALL)) Append_Codepoint_Raw(mold->series, '['); if (bits >= VTUI08 && bits <= VTUI64) Append_Unencoded(mold->series, "unsigned "); Emit( mold, "N I I [", Canon(SYM_FROM_KIND(kind)), bit_sizes[bits & 3], len ); if (len) New_Indented_Line(mold); } c = 0; for (; n < SER_LEN(vect); n++) { v.i = get_vect(bits, data, n); if (bits < VTSF08) { l = Emit_Integer(buf, v.i); } else { l = Emit_Decimal(buf, v.d, 0, '.', mold->digits); } Append_Unencoded_Len(mold->series, s_cast(buf), l); if ((++c > 7) && (n + 1 < SER_LEN(vect))) { New_Indented_Line(mold); c = 0; } else Append_Codepoint_Raw(mold->series, ' '); } if (len) { // // remove final space (overwritten with terminator) // TERM_UNI_LEN(mold->series, UNI_LEN(mold->series) - 1); } if (molded) { if (len) New_Indented_Line(mold); Append_Codepoint_Raw(mold->series, ']'); if (!GET_MOPT(mold, MOPT_MOLD_ALL)) { Append_Codepoint_Raw(mold->series, ']'); } else { Post_Mold(value, mold); } } }