// Scintilla source code edit control /** @file LexHex.cxx ** Lexers for Motorola S-Record, Intel HEX and Tektronix extended HEX. ** ** Written by Markus Heidelberg **/ // Copyright 1998-2001 by Neil Hodgson // The License.txt file describes the conditions under which this software may be distributed. /* * Motorola S-Record * =============================== * * Each record (line) is built as follows: * * field digits states * * +----------+ * | start | 1 ('S') SCE_HEX_RECSTART * +----------+ * | type | 1 SCE_HEX_RECTYPE, (SCE_HEX_RECTYPE_UNKNOWN) * +----------+ * | count | 2 SCE_HEX_BYTECOUNT, SCE_HEX_BYTECOUNT_WRONG * +----------+ * | address | 4/6/8 SCE_HEX_NOADDRESS, SCE_HEX_DATAADDRESS, SCE_HEX_RECCOUNT, SCE_HEX_STARTADDRESS, (SCE_HEX_ADDRESSFIELD_UNKNOWN) * +----------+ * | data | 0..504/502/500 SCE_HEX_DATA_ODD, SCE_HEX_DATA_EVEN, SCE_HEX_DATA_EMPTY, (SCE_HEX_DATA_UNKNOWN) * +----------+ * | checksum | 2 SCE_HEX_CHECKSUM, SCE_HEX_CHECKSUM_WRONG * +----------+ * * * Intel HEX * =============================== * * Each record (line) is built as follows: * * field digits states * * +----------+ * | start | 1 (':') SCE_HEX_RECSTART * +----------+ * | count | 2 SCE_HEX_BYTECOUNT, SCE_HEX_BYTECOUNT_WRONG * +----------+ * | address | 4 SCE_HEX_NOADDRESS, SCE_HEX_DATAADDRESS, (SCE_HEX_ADDRESSFIELD_UNKNOWN) * +----------+ * | type | 2 SCE_HEX_RECTYPE, (SCE_HEX_RECTYPE_UNKNOWN) * +----------+ * | data | 0..510 SCE_HEX_DATA_ODD, SCE_HEX_DATA_EVEN, SCE_HEX_DATA_EMPTY, SCE_HEX_EXTENDEDADDRESS, SCE_HEX_STARTADDRESS, (SCE_HEX_DATA_UNKNOWN) * +----------+ * | checksum | 2 SCE_HEX_CHECKSUM, SCE_HEX_CHECKSUM_WRONG * +----------+ * * * Folding: * * Data records (type 0x00), which follow an extended address record (type * 0x02 or 0x04), can be folded. The extended address record is the fold * point at fold level 0, the corresponding data records are set to level 1. * * Any record, which is not a data record, sets the fold level back to 0. * Any line, which is not a record (blank lines and lines starting with a * character other than ':'), leaves the fold level unchanged. * * * Tektronix extended HEX * =============================== * * Each record (line) is built as follows: * * field digits states * * +----------+ * | start | 1 ('%') SCE_HEX_RECSTART * +----------+ * | length | 2 SCE_HEX_BYTECOUNT, SCE_HEX_BYTECOUNT_WRONG * +----------+ * | type | 1 SCE_HEX_RECTYPE, (SCE_HEX_RECTYPE_UNKNOWN) * +----------+ * | checksum | 2 SCE_HEX_CHECKSUM, SCE_HEX_CHECKSUM_WRONG * +----------+ * | address | 9 SCE_HEX_DATAADDRESS, SCE_HEX_STARTADDRESS, (SCE_HEX_ADDRESSFIELD_UNKNOWN) * +----------+ * | data | 0..241 SCE_HEX_DATA_ODD, SCE_HEX_DATA_EVEN * +----------+ * * * General notes for all lexers * =============================== * * - Depending on where the helper functions are invoked, some of them have to * read beyond the current position. In case of malformed data (record too * short), it has to be ensured that this either does not have bad influence * or will be captured deliberately. * * - States in parentheses in the upper format descriptions indicate that they * should not appear in a valid hex file. * * - State SCE_HEX_GARBAGE means garbage data after the intended end of the * record, the line is too long then. This state is used in all lexers. */ #include #include #include #include #include #include #include "ILexer.h" #include "Scintilla.h" #include "SciLexer.h" #include "WordList.h" #include "LexAccessor.h" #include "Accessor.h" #include "StyleContext.h" #include "CharacterSet.h" #include "LexerModule.h" #ifdef SCI_NAMESPACE using namespace Scintilla; #endif // prototypes for general helper functions static inline bool IsNewline(const int ch); static int GetHexaNibble(char hd); static int GetHexaChar(char hd1, char hd2); static int GetHexaChar(Sci_PositionU pos, Accessor &styler); static bool ForwardWithinLine(StyleContext &sc, Sci_Position nb = 1); static bool PosInSameRecord(Sci_PositionU pos1, Sci_PositionU pos2, Accessor &styler); static Sci_Position CountByteCount(Sci_PositionU startPos, Sci_Position uncountedDigits, Accessor &styler); static int CalcChecksum(Sci_PositionU startPos, Sci_Position cnt, bool twosCompl, Accessor &styler); // prototypes for file format specific helper functions static Sci_PositionU GetSrecRecStartPosition(Sci_PositionU pos, Accessor &styler); static int GetSrecByteCount(Sci_PositionU recStartPos, Accessor &styler); static Sci_Position CountSrecByteCount(Sci_PositionU recStartPos, Accessor &styler); static int GetSrecAddressFieldSize(Sci_PositionU recStartPos, Accessor &styler); static int GetSrecAddressFieldType(Sci_PositionU recStartPos, Accessor &styler); static int GetSrecDataFieldType(Sci_PositionU recStartPos, Accessor &styler); static Sci_Position GetSrecRequiredDataFieldSize(Sci_PositionU recStartPos, Accessor &styler); static int GetSrecChecksum(Sci_PositionU recStartPos, Accessor &styler); static int CalcSrecChecksum(Sci_PositionU recStartPos, Accessor &styler); static Sci_PositionU GetIHexRecStartPosition(Sci_PositionU pos, Accessor &styler); static int GetIHexByteCount(Sci_PositionU recStartPos, Accessor &styler); static Sci_Position CountIHexByteCount(Sci_PositionU recStartPos, Accessor &styler); static int GetIHexAddressFieldType(Sci_PositionU recStartPos, Accessor &styler); static int GetIHexDataFieldType(Sci_PositionU recStartPos, Accessor &styler); static int GetIHexRequiredDataFieldSize(Sci_PositionU recStartPos, Accessor &styler); static int GetIHexChecksum(Sci_PositionU recStartPos, Accessor &styler); static int CalcIHexChecksum(Sci_PositionU recStartPos, Accessor &styler); static int GetTEHexDigitCount(Sci_PositionU recStartPos, Accessor &styler); static Sci_Position CountTEHexDigitCount(Sci_PositionU recStartPos, Accessor &styler); static int GetTEHexAddressFieldType(Sci_PositionU recStartPos, Accessor &styler); static int GetTEHexChecksum(Sci_PositionU recStartPos, Accessor &styler); static int CalcTEHexChecksum(Sci_PositionU recStartPos, Accessor &styler); static inline bool IsNewline(const int ch) { return (ch == '\n' || ch == '\r'); } static int GetHexaNibble(char hd) { int hexValue = 0; if (hd >= '0' && hd <= '9') { hexValue += hd - '0'; } else if (hd >= 'A' && hd <= 'F') { hexValue += hd - 'A' + 10; } else if (hd >= 'a' && hd <= 'f') { hexValue += hd - 'a' + 10; } else { return -1; } return hexValue; } static int GetHexaChar(char hd1, char hd2) { int hexValue = 0; if (hd1 >= '0' && hd1 <= '9') { hexValue += 16 * (hd1 - '0'); } else if (hd1 >= 'A' && hd1 <= 'F') { hexValue += 16 * (hd1 - 'A' + 10); } else if (hd1 >= 'a' && hd1 <= 'f') { hexValue += 16 * (hd1 - 'a' + 10); } else { return -1; } if (hd2 >= '0' && hd2 <= '9') { hexValue += hd2 - '0'; } else if (hd2 >= 'A' && hd2 <= 'F') { hexValue += hd2 - 'A' + 10; } else if (hd2 >= 'a' && hd2 <= 'f') { hexValue += hd2 - 'a' + 10; } else { return -1; } return hexValue; } static int GetHexaChar(Sci_PositionU pos, Accessor &styler) { char highNibble, lowNibble; highNibble = styler.SafeGetCharAt(pos); lowNibble = styler.SafeGetCharAt(pos + 1); return GetHexaChar(highNibble, lowNibble); } // Forward characters, but abort (and return false) if hitting the line // end. Return true if forwarding within the line was possible. // Avoids influence on highlighting of the subsequent line if the current line // is malformed (too short). static bool ForwardWithinLine(StyleContext &sc, Sci_Position nb) { for (Sci_Position i = 0; i < nb; i++) { if (sc.atLineEnd) { // line is too short sc.SetState(SCE_HEX_DEFAULT); sc.Forward(); return false; } else { sc.Forward(); } } return true; } // Checks whether the given positions are in the same record. static bool PosInSameRecord(Sci_PositionU pos1, Sci_PositionU pos2, Accessor &styler) { return styler.GetLine(pos1) == styler.GetLine(pos2); } // Count the number of digit pairs from till end of record, ignoring // digits. // If the record is too short, a negative count may be returned. static Sci_Position CountByteCount(Sci_PositionU startPos, Sci_Position uncountedDigits, Accessor &styler) { Sci_Position cnt; Sci_PositionU pos; pos = startPos; while (!IsNewline(styler.SafeGetCharAt(pos, '\n'))) { pos++; } // number of digits in this line minus number of digits of uncounted fields cnt = static_cast(pos - startPos) - uncountedDigits; // Prepare round up if odd (digit pair incomplete), this way the byte // count is considered to be valid if the checksum is incomplete. if (cnt >= 0) { cnt++; } // digit pairs cnt /= 2; return cnt; } // Calculate the checksum of the record. // is the position of the first character of the starting digit // pair, is the number of digit pairs. static int CalcChecksum(Sci_PositionU startPos, Sci_Position cnt, bool twosCompl, Accessor &styler) { int cs = 0; for (Sci_PositionU pos = startPos; pos < startPos + cnt; pos += 2) { int val = GetHexaChar(pos, styler); if (val < 0) { return val; } // overflow does not matter cs += val; } if (twosCompl) { // low byte of two's complement return -cs & 0xFF; } else { // low byte of one's complement return ~cs & 0xFF; } } // Get the position of the record "start" field (first character in line) in // the record around position . static Sci_PositionU GetSrecRecStartPosition(Sci_PositionU pos, Accessor &styler) { while (styler.SafeGetCharAt(pos) != 'S') { pos--; } return pos; } // Get the value of the "byte count" field, it counts the number of bytes in // the subsequent fields ("address", "data" and "checksum" fields). static int GetSrecByteCount(Sci_PositionU recStartPos, Accessor &styler) { int val; val = GetHexaChar(recStartPos + 2, styler); if (val < 0) { val = 0; } return val; } // Count the number of digit pairs for the "address", "data" and "checksum" // fields in this record. Has to be equal to the "byte count" field value. // If the record is too short, a negative count may be returned. static Sci_Position CountSrecByteCount(Sci_PositionU recStartPos, Accessor &styler) { return CountByteCount(recStartPos, 4, styler); } // Get the size of the "address" field. static int GetSrecAddressFieldSize(Sci_PositionU recStartPos, Accessor &styler) { switch (styler.SafeGetCharAt(recStartPos + 1)) { case '0': case '1': case '5': case '9': return 2; // 16 bit case '2': case '6': case '8': return 3; // 24 bit case '3': case '7': return 4; // 32 bit default: return 0; } } // Get the type of the "address" field content. static int GetSrecAddressFieldType(Sci_PositionU recStartPos, Accessor &styler) { switch (styler.SafeGetCharAt(recStartPos + 1)) { case '0': return SCE_HEX_NOADDRESS; case '1': case '2': case '3': return SCE_HEX_DATAADDRESS; case '5': case '6': return SCE_HEX_RECCOUNT; case '7': case '8': case '9': return SCE_HEX_STARTADDRESS; default: // handle possible format extension in the future return SCE_HEX_ADDRESSFIELD_UNKNOWN; } } // Get the type of the "data" field content. static int GetSrecDataFieldType(Sci_PositionU recStartPos, Accessor &styler) { switch (styler.SafeGetCharAt(recStartPos + 1)) { case '0': case '1': case '2': case '3': return SCE_HEX_DATA_ODD; case '5': case '6': case '7': case '8': case '9': return SCE_HEX_DATA_EMPTY; default: // handle possible format extension in the future return SCE_HEX_DATA_UNKNOWN; } } // Get the required size of the "data" field. Useless for block header and // ordinary data records (type S0, S1, S2, S3), return the value calculated // from the "byte count" and "address field" size in this case. static Sci_Position GetSrecRequiredDataFieldSize(Sci_PositionU recStartPos, Accessor &styler) { switch (styler.SafeGetCharAt(recStartPos + 1)) { case '5': case '6': case '7': case '8': case '9': return 0; default: return GetSrecByteCount(recStartPos, styler) - GetSrecAddressFieldSize(recStartPos, styler) - 1; // -1 for checksum field } } // Get the value of the "checksum" field. static int GetSrecChecksum(Sci_PositionU recStartPos, Accessor &styler) { int byteCount; byteCount = GetSrecByteCount(recStartPos, styler); return GetHexaChar(recStartPos + 2 + byteCount * 2, styler); } // Calculate the checksum of the record. static int CalcSrecChecksum(Sci_PositionU recStartPos, Accessor &styler) { Sci_Position byteCount; byteCount = GetSrecByteCount(recStartPos, styler); // sum over "byte count", "address" and "data" fields (6..510 digits) return CalcChecksum(recStartPos + 2, byteCount * 2, false, styler); } // Get the position of the record "start" field (first character in line) in // the record around position . static Sci_PositionU GetIHexRecStartPosition(Sci_PositionU pos, Accessor &styler) { while (styler.SafeGetCharAt(pos) != ':') { pos--; } return pos; } // Get the value of the "byte count" field, it counts the number of bytes in // the "data" field. static int GetIHexByteCount(Sci_PositionU recStartPos, Accessor &styler) { int val; val = GetHexaChar(recStartPos + 1, styler); if (val < 0) { val = 0; } return val; } // Count the number of digit pairs for the "data" field in this record. Has to // be equal to the "byte count" field value. // If the record is too short, a negative count may be returned. static Sci_Position CountIHexByteCount(Sci_PositionU recStartPos, Accessor &styler) { return CountByteCount(recStartPos, 11, styler); } // Get the type of the "address" field content. static int GetIHexAddressFieldType(Sci_PositionU recStartPos, Accessor &styler) { if (!PosInSameRecord(recStartPos, recStartPos + 7, styler)) { // malformed (record too short) // type cannot be determined return SCE_HEX_ADDRESSFIELD_UNKNOWN; } switch (GetHexaChar(recStartPos + 7, styler)) { case 0x00: return SCE_HEX_DATAADDRESS; case 0x01: case 0x02: case 0x03: case 0x04: case 0x05: return SCE_HEX_NOADDRESS; default: // handle possible format extension in the future return SCE_HEX_ADDRESSFIELD_UNKNOWN; } } // Get the type of the "data" field content. static int GetIHexDataFieldType(Sci_PositionU recStartPos, Accessor &styler) { switch (GetHexaChar(recStartPos + 7, styler)) { case 0x00: return SCE_HEX_DATA_ODD; case 0x01: return SCE_HEX_DATA_EMPTY; case 0x02: case 0x04: return SCE_HEX_EXTENDEDADDRESS; case 0x03: case 0x05: return SCE_HEX_STARTADDRESS; default: // handle possible format extension in the future return SCE_HEX_DATA_UNKNOWN; } } // Get the required size of the "data" field. Useless for an ordinary data // record (type 00), return the "byte count" in this case. static int GetIHexRequiredDataFieldSize(Sci_PositionU recStartPos, Accessor &styler) { switch (GetHexaChar(recStartPos + 7, styler)) { case 0x01: return 0; case 0x02: case 0x04: return 2; case 0x03: case 0x05: return 4; default: return GetIHexByteCount(recStartPos, styler); } } // Get the value of the "checksum" field. static int GetIHexChecksum(Sci_PositionU recStartPos, Accessor &styler) { int byteCount; byteCount = GetIHexByteCount(recStartPos, styler); return GetHexaChar(recStartPos + 9 + byteCount * 2, styler); } // Calculate the checksum of the record. static int CalcIHexChecksum(Sci_PositionU recStartPos, Accessor &styler) { int byteCount; byteCount = GetIHexByteCount(recStartPos, styler); // sum over "byte count", "address", "type" and "data" fields (8..518 digits) return CalcChecksum(recStartPos + 1, 8 + byteCount * 2, true, styler); } // Get the value of the "record length" field, it counts the number of digits in // the record excluding the percent. static int GetTEHexDigitCount(Sci_PositionU recStartPos, Accessor &styler) { int val = GetHexaChar(recStartPos + 1, styler); if (val < 0) val = 0; return val; } // Count the number of digits in this record. Has to // be equal to the "record length" field value. static Sci_Position CountTEHexDigitCount(Sci_PositionU recStartPos, Accessor &styler) { Sci_PositionU pos; pos = recStartPos+1; while (!IsNewline(styler.SafeGetCharAt(pos, '\n'))) { pos++; } return static_cast(pos - (recStartPos+1)); } // Get the type of the "address" field content. static int GetTEHexAddressFieldType(Sci_PositionU recStartPos, Accessor &styler) { switch (styler.SafeGetCharAt(recStartPos + 3)) { case '6': return SCE_HEX_DATAADDRESS; case '8': return SCE_HEX_STARTADDRESS; default: // handle possible format extension in the future return SCE_HEX_ADDRESSFIELD_UNKNOWN; } } // Get the value of the "checksum" field. static int GetTEHexChecksum(Sci_PositionU recStartPos, Accessor &styler) { return GetHexaChar(recStartPos+4, styler); } // Calculate the checksum of the record (excluding the checksum field). static int CalcTEHexChecksum(Sci_PositionU recStartPos, Accessor &styler) { Sci_PositionU pos = recStartPos +1; Sci_PositionU length = GetTEHexDigitCount(recStartPos, styler); int cs = GetHexaNibble(styler.SafeGetCharAt(pos++));//length cs += GetHexaNibble(styler.SafeGetCharAt(pos++));//length cs += GetHexaNibble(styler.SafeGetCharAt(pos++));//type pos += 2;// jump over CS field for (; pos <= recStartPos + length; ++pos) { int val = GetHexaNibble(styler.SafeGetCharAt(pos)); if (val < 0) { return val; } // overflow does not matter cs += val; } // low byte return cs & 0xFF; } static void ColouriseSrecDoc(Sci_PositionU startPos, Sci_Position length, int initStyle, WordList *[], Accessor &styler) { StyleContext sc(startPos, length, initStyle, styler); while (sc.More()) { Sci_PositionU recStartPos; int byteCount, reqByteCount, addrFieldSize, addrFieldType, dataFieldSize, dataFieldType; int cs1, cs2; switch (sc.state) { case SCE_HEX_DEFAULT: if (sc.atLineStart && sc.Match('S')) { sc.SetState(SCE_HEX_RECSTART); } ForwardWithinLine(sc); break; case SCE_HEX_RECSTART: recStartPos = sc.currentPos - 1; addrFieldType = GetSrecAddressFieldType(recStartPos, styler); if (addrFieldType == SCE_HEX_ADDRESSFIELD_UNKNOWN) { sc.SetState(SCE_HEX_RECTYPE_UNKNOWN); } else { sc.SetState(SCE_HEX_RECTYPE); } ForwardWithinLine(sc); break; case SCE_HEX_RECTYPE: case SCE_HEX_RECTYPE_UNKNOWN: recStartPos = sc.currentPos - 2; byteCount = GetSrecByteCount(recStartPos, styler); reqByteCount = GetSrecAddressFieldSize(recStartPos, styler) + GetSrecRequiredDataFieldSize(recStartPos, styler) + 1; // +1 for checksum field if (byteCount == CountSrecByteCount(recStartPos, styler) && byteCount == reqByteCount) { sc.SetState(SCE_HEX_BYTECOUNT); } else { sc.SetState(SCE_HEX_BYTECOUNT_WRONG); } ForwardWithinLine(sc, 2); break; case SCE_HEX_BYTECOUNT: case SCE_HEX_BYTECOUNT_WRONG: recStartPos = sc.currentPos - 4; addrFieldSize = GetSrecAddressFieldSize(recStartPos, styler); addrFieldType = GetSrecAddressFieldType(recStartPos, styler); sc.SetState(addrFieldType); ForwardWithinLine(sc, addrFieldSize * 2); break; case SCE_HEX_NOADDRESS: case SCE_HEX_DATAADDRESS: case SCE_HEX_RECCOUNT: case SCE_HEX_STARTADDRESS: case SCE_HEX_ADDRESSFIELD_UNKNOWN: recStartPos = GetSrecRecStartPosition(sc.currentPos, styler); dataFieldType = GetSrecDataFieldType(recStartPos, styler); // Using the required size here if possible has the effect that the // checksum is highlighted at a fixed position after this field for // specific record types, independent on the "byte count" value. dataFieldSize = GetSrecRequiredDataFieldSize(recStartPos, styler); sc.SetState(dataFieldType); if (dataFieldType == SCE_HEX_DATA_ODD) { for (int i = 0; i < dataFieldSize * 2; i++) { if ((i & 0x3) == 0) { sc.SetState(SCE_HEX_DATA_ODD); } else if ((i & 0x3) == 2) { sc.SetState(SCE_HEX_DATA_EVEN); } if (!ForwardWithinLine(sc)) { break; } } } else { ForwardWithinLine(sc, dataFieldSize * 2); } break; case SCE_HEX_DATA_ODD: case SCE_HEX_DATA_EVEN: case SCE_HEX_DATA_EMPTY: case SCE_HEX_DATA_UNKNOWN: recStartPos = GetSrecRecStartPosition(sc.currentPos, styler); cs1 = CalcSrecChecksum(recStartPos, styler); cs2 = GetSrecChecksum(recStartPos, styler); if (cs1 != cs2 || cs1 < 0 || cs2 < 0) { sc.SetState(SCE_HEX_CHECKSUM_WRONG); } else { sc.SetState(SCE_HEX_CHECKSUM); } ForwardWithinLine(sc, 2); break; case SCE_HEX_CHECKSUM: case SCE_HEX_CHECKSUM_WRONG: case SCE_HEX_GARBAGE: // record finished or line too long sc.SetState(SCE_HEX_GARBAGE); ForwardWithinLine(sc); break; default: // prevent endless loop in faulty state sc.SetState(SCE_HEX_DEFAULT); break; } } sc.Complete(); } static void ColouriseIHexDoc(Sci_PositionU startPos, Sci_Position length, int initStyle, WordList *[], Accessor &styler) { StyleContext sc(startPos, length, initStyle, styler); while (sc.More()) { Sci_PositionU recStartPos; int byteCount, addrFieldType, dataFieldSize, dataFieldType; int cs1, cs2; switch (sc.state) { case SCE_HEX_DEFAULT: if (sc.atLineStart && sc.Match(':')) { sc.SetState(SCE_HEX_RECSTART); } ForwardWithinLine(sc); break; case SCE_HEX_RECSTART: recStartPos = sc.currentPos - 1; byteCount = GetIHexByteCount(recStartPos, styler); dataFieldSize = GetIHexRequiredDataFieldSize(recStartPos, styler); if (byteCount == CountIHexByteCount(recStartPos, styler) && byteCount == dataFieldSize) { sc.SetState(SCE_HEX_BYTECOUNT); } else { sc.SetState(SCE_HEX_BYTECOUNT_WRONG); } ForwardWithinLine(sc, 2); break; case SCE_HEX_BYTECOUNT: case SCE_HEX_BYTECOUNT_WRONG: recStartPos = sc.currentPos - 3; addrFieldType = GetIHexAddressFieldType(recStartPos, styler); sc.SetState(addrFieldType); ForwardWithinLine(sc, 4); break; case SCE_HEX_NOADDRESS: case SCE_HEX_DATAADDRESS: case SCE_HEX_ADDRESSFIELD_UNKNOWN: recStartPos = sc.currentPos - 7; addrFieldType = GetIHexAddressFieldType(recStartPos, styler); if (addrFieldType == SCE_HEX_ADDRESSFIELD_UNKNOWN) { sc.SetState(SCE_HEX_RECTYPE_UNKNOWN); } else { sc.SetState(SCE_HEX_RECTYPE); } ForwardWithinLine(sc, 2); break; case SCE_HEX_RECTYPE: case SCE_HEX_RECTYPE_UNKNOWN: recStartPos = sc.currentPos - 9; dataFieldType = GetIHexDataFieldType(recStartPos, styler); // Using the required size here if possible has the effect that the // checksum is highlighted at a fixed position after this field for // specific record types, independent on the "byte count" value. dataFieldSize = GetIHexRequiredDataFieldSize(recStartPos, styler); sc.SetState(dataFieldType); if (dataFieldType == SCE_HEX_DATA_ODD) { for (int i = 0; i < dataFieldSize * 2; i++) { if ((i & 0x3) == 0) { sc.SetState(SCE_HEX_DATA_ODD); } else if ((i & 0x3) == 2) { sc.SetState(SCE_HEX_DATA_EVEN); } if (!ForwardWithinLine(sc)) { break; } } } else { ForwardWithinLine(sc, dataFieldSize * 2); } break; case SCE_HEX_DATA_ODD: case SCE_HEX_DATA_EVEN: case SCE_HEX_DATA_EMPTY: case SCE_HEX_EXTENDEDADDRESS: case SCE_HEX_STARTADDRESS: case SCE_HEX_DATA_UNKNOWN: recStartPos = GetIHexRecStartPosition(sc.currentPos, styler); cs1 = CalcIHexChecksum(recStartPos, styler); cs2 = GetIHexChecksum(recStartPos, styler); if (cs1 != cs2 || cs1 < 0 || cs2 < 0) { sc.SetState(SCE_HEX_CHECKSUM_WRONG); } else { sc.SetState(SCE_HEX_CHECKSUM); } ForwardWithinLine(sc, 2); break; case SCE_HEX_CHECKSUM: case SCE_HEX_CHECKSUM_WRONG: case SCE_HEX_GARBAGE: // record finished or line too long sc.SetState(SCE_HEX_GARBAGE); ForwardWithinLine(sc); break; default: // prevent endless loop in faulty state sc.SetState(SCE_HEX_DEFAULT); break; } } sc.Complete(); } static void FoldIHexDoc(Sci_PositionU startPos, Sci_Position length, int, WordList *[], Accessor &styler) { Sci_PositionU endPos = startPos + length; Sci_Position lineCurrent = styler.GetLine(startPos); int levelCurrent = SC_FOLDLEVELBASE; if (lineCurrent > 0) levelCurrent = styler.LevelAt(lineCurrent - 1); Sci_PositionU lineStartNext = styler.LineStart(lineCurrent + 1); int levelNext = SC_FOLDLEVELBASE; // default if no specific line found for (Sci_PositionU i = startPos; i < endPos; i++) { bool atEOL = i == (lineStartNext - 1); int style = styler.StyleAt(i); // search for specific lines if (style == SCE_HEX_EXTENDEDADDRESS) { // extended addres record levelNext = SC_FOLDLEVELBASE | SC_FOLDLEVELHEADERFLAG; } else if (style == SCE_HEX_DATAADDRESS || (style == SCE_HEX_DEFAULT && i == (Sci_PositionU)styler.LineStart(lineCurrent))) { // data record or no record start code at all if (levelCurrent & SC_FOLDLEVELHEADERFLAG) { levelNext = SC_FOLDLEVELBASE + 1; } else { // continue level 0 or 1, no fold point levelNext = levelCurrent; } } if (atEOL || (i == endPos - 1)) { styler.SetLevel(lineCurrent, levelNext); lineCurrent++; lineStartNext = styler.LineStart(lineCurrent + 1); levelCurrent = levelNext; levelNext = SC_FOLDLEVELBASE; } } } static void ColouriseTEHexDoc(Sci_PositionU startPos, Sci_Position length, int initStyle, WordList *[], Accessor &styler) { StyleContext sc(startPos, length, initStyle, styler); while (sc.More()) { Sci_PositionU recStartPos; int digitCount, addrFieldType; int cs1, cs2; switch (sc.state) { case SCE_HEX_DEFAULT: if (sc.atLineStart && sc.Match('%')) { sc.SetState(SCE_HEX_RECSTART); } ForwardWithinLine(sc); break; case SCE_HEX_RECSTART: recStartPos = sc.currentPos - 1; if (GetTEHexDigitCount(recStartPos, styler) == CountTEHexDigitCount(recStartPos, styler)) { sc.SetState(SCE_HEX_BYTECOUNT); } else { sc.SetState(SCE_HEX_BYTECOUNT_WRONG); } ForwardWithinLine(sc, 2); break; case SCE_HEX_BYTECOUNT: case SCE_HEX_BYTECOUNT_WRONG: recStartPos = sc.currentPos - 3; addrFieldType = GetTEHexAddressFieldType(recStartPos, styler); if (addrFieldType == SCE_HEX_ADDRESSFIELD_UNKNOWN) { sc.SetState(SCE_HEX_RECTYPE_UNKNOWN); } else { sc.SetState(SCE_HEX_RECTYPE); } ForwardWithinLine(sc); break; case SCE_HEX_RECTYPE: case SCE_HEX_RECTYPE_UNKNOWN: recStartPos = sc.currentPos - 4; cs1 = CalcTEHexChecksum(recStartPos, styler); cs2 = GetTEHexChecksum(recStartPos, styler); if (cs1 != cs2 || cs1 < 0 || cs2 < 0) { sc.SetState(SCE_HEX_CHECKSUM_WRONG); } else { sc.SetState(SCE_HEX_CHECKSUM); } ForwardWithinLine(sc, 2); break; case SCE_HEX_CHECKSUM: case SCE_HEX_CHECKSUM_WRONG: recStartPos = sc.currentPos - 6; addrFieldType = GetTEHexAddressFieldType(recStartPos, styler); sc.SetState(addrFieldType); ForwardWithinLine(sc, 9); break; case SCE_HEX_DATAADDRESS: case SCE_HEX_STARTADDRESS: case SCE_HEX_ADDRESSFIELD_UNKNOWN: recStartPos = sc.currentPos - 15; digitCount = GetTEHexDigitCount(recStartPos, styler) - 14; sc.SetState(SCE_HEX_DATA_ODD); for (int i = 0; i < digitCount; i++) { if ((i & 0x3) == 0) { sc.SetState(SCE_HEX_DATA_ODD); } else if ((i & 0x3) == 2) { sc.SetState(SCE_HEX_DATA_EVEN); } if (!ForwardWithinLine(sc)) { break; } } break; case SCE_HEX_DATA_ODD: case SCE_HEX_DATA_EVEN: case SCE_HEX_GARBAGE: // record finished or line too long sc.SetState(SCE_HEX_GARBAGE); ForwardWithinLine(sc); break; default: // prevent endless loop in faulty state sc.SetState(SCE_HEX_DEFAULT); break; } } sc.Complete(); } LexerModule lmSrec(SCLEX_SREC, ColouriseSrecDoc, "srec", 0, NULL); LexerModule lmIHex(SCLEX_IHEX, ColouriseIHexDoc, "ihex", FoldIHexDoc, NULL); LexerModule lmTEHex(SCLEX_TEHEX, ColouriseTEHexDoc, "tehex", 0, NULL);