Changeset 305 in pacpusframework for trunk/include


Ignore:
Timestamp:
Apr 11, 2014, 1:34:51 PM (11 years ago)
Author:
phudelai
Message:

BinaryDecoder.h corrected

File:
1 edited

Legend:

Unmodified
Added
Removed
  • trunk/include/Pacpus/PacpusTools/BinaryDecoder.h

    r295 r305  
     1<<<<<<< .mine
    12// %pacpus:license{
    23// This file is part of the PACPUS framework distributed under the
     
    3637#endif // __cplusplus
    3738
    38 #include "PacpusToolsConfig.h" 
    39  
    4039#include <stdio.h>
    4140
     
    776775                c = data[startBit>>3];                // >>3 <=> div 8
    777776        //c >>= (8-((startBit & 0x07)+1));      // &0x07 <=> modulo 8
    778                 c >>= startBit & 0x07 - (length - 1);    // &0x07 <=> modulo 8
     777                c >>= (startBit & 0x07) - (length - 1);    // &0x07 <=> modulo 8
    779778                *result = c & getMask8( length );
    780779
     
    13931392
    13941393#endif // BINARYDECODER_H
     1394=======
     1395// %pacpus:license{
     1396// This file is part of the PACPUS framework distributed under the
     1397// CECILL-C License, Version 1.0.
     1398// %pacpus:license}
     1399/// @file
     1400/// @author  Gerald Dherbomez <firstname.surname@utc.fr>
     1401/// @date    July, 2008
     1402/// @version $Id: BinaryDecoder.h 76 2013-01-10 17:05:10Z kurdejma $
     1403/// @copyright Copyright (c) UTC/CNRS Heudiasyc 2006 - 2013. All rights reserved.
     1404/// @brief Extracts data of specified type in a string.
     1405///
     1406/// Purpose:    Extract data of specified type in a string (char *)
     1407/// Usage:
     1408///     bool xDecodeToXXX(T* result, const char * data, const unsigned int startBit, const unsigned int length)
     1409///     => x = format (i:Intel, Little Endian)
     1410///                   (m:Motorola, Big Endian)
     1411///     => XXX = type of return value
     1412///                   (Bool = bool)
     1413///                   (I8 = char - 8 bits)
     1414///                   (UI8 = unsigned char - 8 bits)
     1415///                   (I16 = short - 16 bits)
     1416///                   (UI16 = unsigned short - 16 bits)
     1417///                   (I32 = long - 32 bits)
     1418///                   (UI32 = unsigned long - 32 bits)
     1419///                   (I64 = long long - 64 bits)
     1420///                   (UI16 = unisgned long long - 64 bits)
     1421///
     1422///     ex: inline bool mDecodeToUI16(r, str, 8, 12);
     1423
     1424#ifndef BINARYDECODER_H
     1425#define BINARYDECODER_H
     1426
     1427#ifdef __cplusplus
     1428extern "C"
     1429{
     1430#endif // __cplusplus
     1431
     1432#include "PacpusToolsConfig.h" 
     1433 
     1434#include <stdio.h>
     1435
     1436//////////////////////////////////////////////////////////////////////////
     1437// print the data in the hexadecimal format in the console
     1438inline void displayData(const unsigned char * data, const unsigned long length, const int id)
     1439{
     1440    printf("\ndata = ");
     1441    for (unsigned int i = 0;i< length;++i )
     1442        printf("%02x ",data[i]);
     1443    printf(" dlc = %ld ID = 0x%x\n", length, id);
     1444}
     1445
     1446//////////////////////////////////////////////////////////////////////////
     1447// for Big Endian - Motorola coding
     1448//------------------------------------------------------------------------
     1449// return true if the signal is spread on more than 1 byte
     1450// ie if length is greater than ((startBit%8) + 1)
     1451// example:
     1452//   7654 3210
     1453// 0 .... ..||
     1454// 1 |||| ....
     1455// startBit is 1 and the length is 8: result gives (1%8)+1 = 2 < length(=6)
     1456inline bool mSpreadOnMoreThan1Byte(const unsigned int startBit, const unsigned int length)
     1457{
     1458    if ( (length  > (startBit & 0x07) + 1) ) {
     1459        return true;
     1460    } else {
     1461        return false;
     1462    }
     1463}
     1464
     1465//////////////////////////////////////////////////////////////////////////
     1466// for Little Endian - Intel coding
     1467//------------------------------------------------------------------------
     1468// return true if the signal is spread on more than 1 byte
     1469// ie if length is greater than 8-(startBit%8)
     1470// example:
     1471//   7654 3210
     1472// 0 ||.. ....
     1473// 1 .... ||||
     1474// startBit is 6 and the length is 6: result gives 8-((6%8)) = 2 < length(=6)
     1475inline bool iSpreadOnMoreThan1Byte(const unsigned int startBit, const unsigned int length)
     1476{
     1477    if ( length  > 8 - (startBit & 0x07) ) {
     1478        return true;
     1479    } else {
     1480        return false;
     1481    }
     1482}
     1483
     1484//////////////////////////////////////////////////////////////////////////
     1485// for Big Endian - Motorola coding
     1486//------------------------------------------------------------------------
     1487// return true if the signal is spread on more than 2 bytes
     1488// ie if (length - ((startBit%8) + 1) is greater than 8
     1489// example:
     1490//   7654 3210
     1491// 0 .... ...|
     1492// 1 |||| ||||
     1493// 2 ||.. ....
     1494// the start bit is 0 and the length is 11: result gives 11 - (0%8+1) = 10 (>8)
     1495//////////////////////////////////////////////////////////////////////////
     1496inline bool mSpreadOnMoreThan2Bytes(const unsigned int startBit, const unsigned int length)
     1497{
     1498    if ( length - ((startBit & 0x07) + 1) > 8 )
     1499        return true;
     1500    else
     1501        return false;
     1502}
     1503
     1504//////////////////////////////////////////////////////////////////////////
     1505// for Little Endian - Intel coding
     1506//------------------------------------------------------------------------
     1507// return true if the signal is spread on more than 2 bytes
     1508// ie if (length - (8 - startBit)) is greater than 8
     1509// example:
     1510//   7654 3210
     1511// 0 |... ....
     1512// 1 |||| ||||
     1513// 2 .... ..||
     1514// the start bit is 7 and the length is 11: result gives 11 - (8 - 7) = 10 (>8)
     1515//////////////////////////////////////////////////////////////////////////
     1516inline bool iSpreadOnMoreThan2Bytes(const unsigned int startBit, const unsigned int length)
     1517{
     1518    if ( length - (8 - (startBit & 0x07)) > 8 )
     1519        return true;
     1520    else
     1521        return false;
     1522}
     1523
     1524//////////////////////////////////////////////////////////////////////////
     1525// for Big Endian - Motorola coding
     1526//------------------------------------------------------------------------
     1527// return true if the signal is spread on more than 4 bytes
     1528// ie if length is greater than ((startBit%8) + 1)
     1529// example:
     1530//   7654 3210
     1531// 0 .... ..||
     1532// 1 |||| ||||
     1533// 2 |||| ||||
     1534// 3 |||| ||||
     1535// 4 |||. ....
     1536// startBit is 1 and the length is 29: result gives 29 - ((1%8)+1) = 27 (> 24)
     1537inline bool mSpreadOnMoreThan4Bytes(const unsigned int startBit, const unsigned int length)
     1538{
     1539    return (3*8) < (length - ((startBit & 0x07) + 1));
     1540}
     1541
     1542//////////////////////////////////////////////////////////////////////////
     1543// for Little Endian - Intel coding
     1544//------------------------------------------------------------------------
     1545// return true if the signal is spread on more than 4 bytes
     1546// ie if length is greater than 8-(startBit%8)
     1547// example:
     1548//   7654 3210
     1549// 0 ||.. ....
     1550// 1 |||| ||||
     1551// 2 |||| ||||
     1552// 3 |||| ||||
     1553// 4 .... ..||
     1554// startBit is 6 and the length is 28: result gives 28 - (8-((6%8))) = 26  (>24)
     1555inline bool iSpreadOnMoreThan4Bytes(const unsigned int startBit, const unsigned int length)
     1556{
     1557    return (3*8) < (length - (8 - (startBit & 0x07)));
     1558}
     1559
     1560//////////////////////////////////////////////////////////////////////////
     1561// return a 8-bits shifted-left mask corresponding to the length parameter
     1562// ex: shift = 2 and length = 3
     1563// mask will be 0b00011100
     1564inline unsigned char getShiftMask8(const unsigned int shift, const unsigned int length)
     1565{
     1566    unsigned char mask;
     1567    switch (length)
     1568    {
     1569    case 1: mask = 0x01; break;
     1570    case 2: mask = 0x03; break;
     1571    case 3: mask = 0x07; break;
     1572    case 4: mask = 0x0F; break;
     1573    case 5: mask = 0x1F; break;
     1574    case 6: mask = 0x3F; break;
     1575    case 7: mask = 0x7F; break;
     1576    case 8: mask = 0xFF; break;
     1577    default: mask = 0; break;
     1578    }
     1579    return mask << shift;
     1580}
     1581
     1582//////////////////////////////////////////////////////////////////////////
     1583// return a 8-bits mask corresponding to the length parameter with bit order decreasing
     1584// ex: startBit = 2 and length = 3
     1585// mask will be 0b00000111
     1586inline unsigned char getMask8( const unsigned int length )
     1587{
     1588    unsigned char mask;
     1589    switch (length) {
     1590    case 1: mask = 0x01; break;
     1591    case 2: mask = 0x03; break;
     1592    case 3: mask = 0x07; break;
     1593    case 4: mask = 0x0F; break;
     1594    case 5: mask = 0x1F; break;
     1595    case 6: mask = 0x3F; break;
     1596    case 7: mask = 0x7F; break;
     1597    case 8: mask = 0xFF; break;
     1598    default: mask = 0; break;
     1599    }
     1600    return mask;
     1601}
     1602
     1603//////////////////////////////////////////////////////////////////////////
     1604// return a 16-bits shifted-left mask corresponding to the length parameter
     1605inline unsigned short getShiftMask16(const unsigned int shift, const unsigned int length)
     1606{
     1607    unsigned short mask;
     1608    switch (length) {
     1609    case 1: mask = 0x0001; break;
     1610    case 2: mask = 0x0003; break;
     1611    case 3: mask = 0x0007; break;
     1612    case 4: mask = 0x000F; break;
     1613    case 5: mask = 0x001F; break;
     1614    case 6: mask = 0x003F; break;
     1615    case 7: mask = 0x007F; break;
     1616    case 8: mask = 0x00FF; break;
     1617    case 9: mask = 0x01FF; break;
     1618    case 10: mask = 0x03FF; break;
     1619    case 11: mask = 0x07FF; break;
     1620    case 12: mask = 0x0FFF; break;
     1621    case 13: mask = 0x1FFF; break;
     1622    case 14: mask = 0x3FFF; break;
     1623    case 15: mask = 0x7FFF; break;
     1624    case 16: mask = 0xFFFF; break;
     1625    default: mask = 0; break;
     1626    }
     1627    return mask << shift;
     1628}
     1629
     1630//////////////////////////////////////////////////////////////////////////
     1631// return a 16-bits mask corresponding to the length parameter with bit order decreasing
     1632inline unsigned short getMask16( const unsigned int length )
     1633{
     1634    unsigned short mask;
     1635    switch (length) {
     1636    case 1: mask = 0x0001; break;
     1637    case 2: mask = 0x0003; break;
     1638    case 3: mask = 0x0007; break;
     1639    case 4: mask = 0x000F; break;
     1640    case 5: mask = 0x001F; break;
     1641    case 6: mask = 0x003F; break;
     1642    case 7: mask = 0x007F; break;
     1643    case 8: mask = 0x00FF; break;
     1644    case 9: mask = 0x01FF; break;
     1645    case 10: mask = 0x03FF; break;
     1646    case 11: mask = 0x07FF; break;
     1647    case 12: mask = 0x0FFF; break;
     1648    case 13: mask = 0x1FFF; break;
     1649    case 14: mask = 0x3FFF; break;
     1650    case 15: mask = 0x7FFF; break;
     1651    case 16: mask = 0xFFFF; break;
     1652    default: mask = 0; break;
     1653    }
     1654    return mask;
     1655}
     1656
     1657//////////////////////////////////////////////////////////////////////////
     1658// return a 32-bits shifted-left mask corresponding to the length parameter
     1659inline unsigned long getShiftMask32(const unsigned int shift, const unsigned int length)
     1660{
     1661    unsigned long mask;
     1662    switch (length) {
     1663    case 1: mask = 0x00000001; break;
     1664    case 2: mask = 0x00000003; break;
     1665    case 3: mask = 0x00000007; break;
     1666    case 4: mask = 0x0000000F; break;
     1667    case 5: mask = 0x0000001F; break;
     1668    case 6: mask = 0x0000003F; break;
     1669    case 7: mask = 0x0000007F; break;
     1670    case 8: mask = 0x000000FF; break;
     1671    case 9: mask = 0x000001FF; break;
     1672    case 10: mask = 0x000003FF; break;
     1673    case 11: mask = 0x000007FF; break;
     1674    case 12: mask = 0x00000FFF; break;
     1675    case 13: mask = 0x00001FFF; break;
     1676    case 14: mask = 0x00003FFF; break;
     1677    case 15: mask = 0x00007FFF; break;
     1678    case 16: mask = 0x0000FFFF; break;
     1679    case 17: mask = 0x0001FFFF; break;
     1680    case 18: mask = 0x0003FFFF; break;
     1681    case 19: mask = 0x0007FFFF; break;
     1682    case 20: mask = 0x000FFFFF; break;
     1683    case 21: mask = 0x001FFFFF; break;
     1684    case 22: mask = 0x003FFFFF; break;
     1685    case 23: mask = 0x007FFFFF; break;
     1686    case 24: mask = 0x00FFFFFF; break;
     1687    case 25: mask = 0x01FFFFFF; break;
     1688    case 26: mask = 0x03FFFFFF; break;
     1689    case 27: mask = 0x07FFFFFF; break;
     1690    case 28: mask = 0x0FFFFFFF; break;
     1691    case 29: mask = 0x1FFFFFFF; break;
     1692    case 30: mask = 0x3FFFFFFF; break;
     1693    case 31: mask = 0x7FFFFFFF; break;
     1694    case 32: mask = 0xFFFFFFFF; break;
     1695    default: mask = 0; break;
     1696    }
     1697    return mask << shift;
     1698}
     1699
     1700//////////////////////////////////////////////////////////////////////////
     1701// return a 32-bits mask corresponding to the length parameter with bit order decreasing
     1702inline unsigned long getMask32( const unsigned int length )
     1703{
     1704    unsigned long mask;
     1705    switch (length) {
     1706    case 1: mask = 0x00000001; break;
     1707    case 2: mask = 0x00000003; break;
     1708    case 3: mask = 0x00000007; break;
     1709    case 4: mask = 0x0000000F; break;
     1710    case 5: mask = 0x0000001F; break;
     1711    case 6: mask = 0x0000003F; break;
     1712    case 7: mask = 0x0000007F; break;
     1713    case 8: mask = 0x000000FF; break;
     1714    case 9: mask = 0x000001FF; break;
     1715    case 10: mask = 0x000003FF; break;
     1716    case 11: mask = 0x000007FF; break;
     1717    case 12: mask = 0x00000FFF; break;
     1718    case 13: mask = 0x00001FFF; break;
     1719    case 14: mask = 0x00003FFF; break;
     1720    case 15: mask = 0x00007FFF; break;
     1721    case 16: mask = 0x0000FFFF; break;
     1722    case 17: mask = 0x0001FFFF; break;
     1723    case 18: mask = 0x0003FFFF; break;
     1724    case 19: mask = 0x0007FFFF; break;
     1725    case 20: mask = 0x000FFFFF; break;
     1726    case 21: mask = 0x001FFFFF; break;
     1727    case 22: mask = 0x003FFFFF; break;
     1728    case 23: mask = 0x007FFFFF; break;
     1729    case 24: mask = 0x00FFFFFF; break;
     1730    case 25: mask = 0x01FFFFFF; break;
     1731    case 26: mask = 0x03FFFFFF; break;
     1732    case 27: mask = 0x07FFFFFF; break;
     1733    case 28: mask = 0x0FFFFFFF; break;
     1734    case 29: mask = 0x1FFFFFFF; break;
     1735    case 30: mask = 0x3FFFFFFF; break;
     1736    case 31: mask = 0x7FFFFFFF; break;
     1737    case 32: mask = 0xFFFFFFFF; break;
     1738    default: mask = 0; break;
     1739    }
     1740    return mask;
     1741}
     1742
     1743//////////////////////////////////////////////////////////////////////////
     1744// return a 64-bits mask corresponding to the length parameter with bit order decreasing
     1745inline unsigned long long getMask64( const unsigned int length )
     1746{
     1747    unsigned long long mask;
     1748    switch (length) {
     1749    case 1: mask = 0x0000000000000001ULL; break;
     1750    case 2: mask = 0x0000000000000003ULL; break;
     1751    case 3: mask = 0x0000000000000007ULL; break;
     1752    case 4: mask = 0x000000000000000FULL; break;
     1753    case 5: mask = 0x000000000000001FULL; break;
     1754    case 6: mask = 0x000000000000003FULL; break;
     1755    case 7: mask = 0x000000000000007FULL; break;
     1756    case 8: mask = 0x00000000000000FFULL; break;
     1757    case 9: mask = 0x00000000000001FFULL; break;
     1758    case 10: mask = 0x00000000000003FFULL; break;
     1759    case 11: mask = 0x00000000000007FFULL; break;
     1760    case 12: mask = 0x0000000000000FFFULL; break;
     1761    case 13: mask = 0x0000000000001FFFULL; break;
     1762    case 14: mask = 0x0000000000003FFFULL; break;
     1763    case 15: mask = 0x0000000000007FFFULL; break;
     1764    case 16: mask = 0x000000000000FFFFULL; break;
     1765    case 17: mask = 0x000000000001FFFFULL; break;
     1766    case 18: mask = 0x000000000003FFFFULL; break;
     1767    case 19: mask = 0x000000000007FFFFULL; break;
     1768    case 20: mask = 0x00000000000FFFFFULL; break;
     1769    case 21: mask = 0x00000000001FFFFFULL; break;
     1770    case 22: mask = 0x00000000003FFFFFULL; break;
     1771    case 23: mask = 0x00000000007FFFFFULL; break;
     1772    case 24: mask = 0x0000000000FFFFFFULL; break;
     1773    case 25: mask = 0x0000000001FFFFFFULL; break;
     1774    case 26: mask = 0x0000000003FFFFFFULL; break;
     1775    case 27: mask = 0x0000000007FFFFFFULL; break;
     1776    case 28: mask = 0x000000000FFFFFFFULL; break;
     1777    case 29: mask = 0x000000001FFFFFFFULL; break;
     1778    case 30: mask = 0x000000003FFFFFFFULL; break;
     1779    case 31: mask = 0x000000007FFFFFFFULL; break;
     1780    case 32: mask = 0x00000000FFFFFFFFULL; break;
     1781    case 33: mask = 0x00000001FFFFFFFFULL; break;
     1782    case 34: mask = 0x00000003FFFFFFFFULL; break;
     1783    case 35: mask = 0x00000007FFFFFFFFULL; break;
     1784    case 36: mask = 0x0000000FFFFFFFFFULL; break;
     1785    case 37: mask = 0x0000001FFFFFFFFFULL; break;
     1786    case 38: mask = 0x0000003FFFFFFFFFULL; break;
     1787    case 39: mask = 0x0000007FFFFFFFFFULL; break;
     1788    case 40: mask = 0x000000FFFFFFFFFFULL; break;
     1789    case 41: mask = 0x000001FFFFFFFFFFULL; break;
     1790    case 42: mask = 0x000003FFFFFFFFFFULL; break;
     1791    case 43: mask = 0x000007FFFFFFFFFFULL; break;
     1792    case 44: mask = 0x00000FFFFFFFFFFFULL; break;
     1793    case 45: mask = 0x00001FFFFFFFFFFFULL; break;
     1794    case 46: mask = 0x00003FFFFFFFFFFFULL; break;
     1795    case 47: mask = 0x00007FFFFFFFFFFFULL; break;
     1796    case 48: mask = 0x0000FFFFFFFFFFFFULL; break;
     1797    case 49: mask = 0x0001FFFFFFFFFFFFULL; break;
     1798    case 50: mask = 0x0003FFFFFFFFFFFFULL; break;
     1799    case 51: mask = 0x0007FFFFFFFFFFFFULL; break;
     1800    case 52: mask = 0x000FFFFFFFFFFFFFULL; break;
     1801    case 53: mask = 0x001FFFFFFFFFFFFFULL; break;
     1802    case 54: mask = 0x003FFFFFFFFFFFFFULL; break;
     1803    case 55: mask = 0x007FFFFFFFFFFFFFULL; break;
     1804    case 56: mask = 0x00FFFFFFFFFFFFFFULL; break;
     1805    case 57: mask = 0x01FFFFFFFFFFFFFFULL; break;
     1806    case 58: mask = 0x03FFFFFFFFFFFFFFULL; break;
     1807    case 59: mask = 0x07FFFFFFFFFFFFFFULL; break;
     1808    case 60: mask = 0x0FFFFFFFFFFFFFFFULL; break;
     1809    case 61: mask = 0x1FFFFFFFFFFFFFFFULL; break;
     1810    case 62: mask = 0x3FFFFFFFFFFFFFFFULL; break;
     1811    case 63: mask = 0x7FFFFFFFFFFFFFFFULL; break;
     1812    case 64: mask = 0xFFFFFFFFFFFFFFFFULL; break;
     1813    default: mask = 0; break;
     1814    }
     1815    return mask;
     1816}
     1817
     1818//////////////////////////////////////////////////////////////////////////
     1819/// Returns a 64-bits shifted-left mask corresponding to the length parameter
     1820inline unsigned long long getShiftMask64(const unsigned int shift, const unsigned int length)
     1821{
     1822    unsigned long long mask;
     1823    mask = getMask64( length );
     1824    mask <<= shift;
     1825    return mask;
     1826}
     1827
     1828//////////////////////////////////////////////////////////////////////////
     1829/// Big Endian - Motorola coding
     1830inline bool mDecodeToBool(const unsigned char * data, const unsigned int startBit)
     1831{
     1832    return (data[startBit>>3] & getShiftMask8(startBit&0x07,1)) != 0;
     1833}
     1834
     1835//////////////////////////////////////////////////////////////////////////
     1836// Big Endian - Motorola coding
     1837// to test ?
     1838inline bool mDecodeToUI64(unsigned long long * result, const unsigned char * data, const unsigned int startBit, const unsigned int length)
     1839{
     1840    if (length > 64) {
     1841        *result = 0;
     1842        return false;
     1843    }
     1844
     1845    if (length == 64) {
     1846        // only work if data are correctly byte-aligned
     1847        unsigned char c[8];   // c[0] = MSB
     1848        for (int i = 0 ; i < 8 ; i++)
     1849            c[i] = data[(startBit>>3) + i];
     1850
     1851        unsigned long long temp = 0;
     1852        for (int i = 0 ; i < 8 ; i++)
     1853            temp += (c[i] << ( 56 - (8*i) ) );
     1854        *result = temp;
     1855        return true;
     1856    } else {
     1857        unsigned char c[8], mask[8], nbBits[8]; // MSB = c[0]
     1858        nbBits[0] = (startBit & 0x07)+1;
     1859        mask[0] = getMask8( nbBits[0] );
     1860        c[0] = data[startBit>>3] & mask[0];
     1861        unsigned short nbBitsIncrement = nbBits[0];
     1862        for (int i = 1 ; i < 8 ; i++) {
     1863            nbBits[i] = static_cast<unsigned char>( (length - nbBitsIncrement) < 8 ? length - nbBitsIncrement : 8 );
     1864            nbBitsIncrement += nbBits[i];
     1865            mask[i] = getShiftMask8(8 - nbBits[i],nbBits[i]);
     1866            c[i] = data[(startBit>>3) + i] & mask[i];
     1867        }
     1868
     1869        unsigned long long temp = 0;
     1870        for (int i = 0 ; i < 8 ; i++)
     1871            temp += (c[i] << ( 56 - (8*i) ) );
     1872        *result = temp >> (56 + (startBit&0x07) + 1 - length);
     1873        return true;
     1874    }
     1875}
     1876
     1877//////////////////////////////////////////////////////////////////////////
     1878// Big Endian - Motorola coding
     1879// to test ?
     1880inline bool mDecodeToI64(long long *result, const unsigned char * data, const unsigned int startBit, const unsigned int length)
     1881{
     1882    if (length>64) {
     1883        *result = 0;
     1884        return false;
     1885    }
     1886
     1887    if (length == 64) {
     1888        // only work if data are correctly byte-aligned
     1889        unsigned char c[8];   // c[0] = MSB
     1890        for (int i = 0 ; i < 8 ; i++)
     1891            c[i] = data[(startBit>>3) + i];
     1892
     1893        for (int i = 0 ; i < 8 ; i++)
     1894            *result += (c[i] << ( 56 - (8*i) ) );
     1895
     1896        // need to be signed ??
     1897        return true;
     1898    } else {
     1899        unsigned char c[8], mask[8], nbBits[8]; // MSB = c[0]
     1900        nbBits[0] = (startBit & 0x07)+1;
     1901        mask[0] = getMask8( nbBits[0] );
     1902        c[0] = data[startBit>>3] & mask[0];
     1903        unsigned short nbBitsIncrement = nbBits[0];
     1904        for (int i = 1 ; i < 8 ; i++) {
     1905            nbBits[i] = static_cast<unsigned char>( (length - nbBitsIncrement) < 8 ? (length - nbBitsIncrement) : 8 );
     1906            nbBitsIncrement += nbBits[i];
     1907            mask[i] = getShiftMask8(8 - nbBits[i],nbBits[i]);
     1908            c[i] = data[(startBit>>3) + i] & mask[i];
     1909        }
     1910        unsigned long long temp = 0;
     1911        for (int i = 0 ; i < 8 ; i++)
     1912            temp += (c[i] << ( 56 - (8*i) ) );
     1913        temp >>= (56 + (startBit&0x07) + 1 - length);
     1914
     1915        if ( temp & getShiftMask64(length-1,1) )
     1916            // do the two's complement to get the signed value if the msb=1
     1917            *result = -1 * ( ( (~temp) + 1 ) & getMask64(length) );
     1918        else
     1919            *result = temp;
     1920
     1921        return true;
     1922    }
     1923}
     1924
     1925//////////////////////////////////////////////////////////////////////////
     1926// Big Endian - Motorola coding
     1927// ok
     1928inline bool mDecodeToUI32(unsigned long *result, const unsigned char * data, const unsigned int startBit, const unsigned int length)
     1929{
     1930    if (length>32) {
     1931        *result = 0;
     1932        return false;
     1933    }
     1934
     1935    // verify that the frame is not spread in 5 bytes
     1936    if (mSpreadOnMoreThan4Bytes(startBit, length)) {
     1937        // decode in a 64-bits integer
     1938        unsigned long long temp;
     1939        if (mDecodeToUI64(&temp,data,startBit,length))
     1940        {
     1941            *result = static_cast<unsigned long> (temp);
     1942            return true;
     1943        } else {
     1944            *result = 0;
     1945            return false;
     1946        }
     1947    } else {
     1948        if (length == 32) {
     1949            // only work if data are correctly byte-aligned
     1950            unsigned char c1, c2, c3, c4;
     1951            c1 = data[startBit>>3];
     1952            c2 = data[(startBit>>3) + 1];
     1953            c3 = data[(startBit>>3) + 2];
     1954            c4 = data[(startBit>>3) + 3];
     1955
     1956            *result = (c1 << 24) + (c2 << 16) + (c3 << 8) + c4;
     1957            return true;
     1958        } else {
     1959            unsigned char c[4], mask[4], nbBits[4]; // MSB = c[0]
     1960            nbBits[0] = (startBit & 0x07)+1;
     1961            nbBits[1] = static_cast<unsigned char>( (length - nbBits[0]) < 8 ? length - nbBits[0] : 8 );
     1962            nbBits[2] = static_cast<unsigned char>( (length - nbBits[0] - nbBits[1]) < 8 ? (length - nbBits[0] - nbBits[1]) : 8 );
     1963            nbBits[3] = static_cast<unsigned char>( (length - nbBits[0] - nbBits[1] - nbBits[2]) < 8 ? (length - nbBits[0] - nbBits[1] - nbBits[2]) : 8 );
     1964            mask[0] = getMask8( nbBits[0] );
     1965            mask[1] = getShiftMask8(8 - nbBits[1],nbBits[1]);
     1966            mask[2] = getShiftMask8(8 - nbBits[2],nbBits[2]);
     1967            mask[3] = getShiftMask8(8 - nbBits[3],nbBits[3]);
     1968            c[0] = data[startBit>>3] & mask[0];
     1969            c[1] = data[(startBit>>3) + 1] & mask[1];
     1970            c[2] = data[(startBit>>3) + 2] & mask[2];
     1971            c[3] = data[(startBit>>3) + 3] & mask[3];
     1972            *result = ( (c[0]<<24) + (c[1]<<16) + (c[2]<<8) + c[3]) >> (24 + (startBit&0x07) + 1 - length);
     1973            return true;
     1974        }
     1975    }
     1976}
     1977
     1978//////////////////////////////////////////////////////////////////////////
     1979// Big Endian - Motorola coding
     1980// ok
     1981inline bool mDecodeToI32(long *result, const unsigned char * data, const unsigned int startBit, const unsigned int length)
     1982{
     1983    if (length>32) {
     1984        *result = 0;
     1985        return false;
     1986    }
     1987
     1988    // verify that the frame is not spread in 5 bytes
     1989    if (mSpreadOnMoreThan4Bytes(startBit, length)) {
     1990        // decode in a 64-bits integer
     1991        long long temp;
     1992        if (mDecodeToI64(&temp,data,startBit,length))
     1993        {
     1994            *result = static_cast<long>(temp);
     1995            return true;
     1996        } else {
     1997            *result = 0;
     1998            return false;
     1999        }
     2000    } else {
     2001        if (length == 32)
     2002        {
     2003            // only work if data are correctly byte-aligned
     2004            unsigned char c1, c2, c3, c4;
     2005            c1 = data[startBit>>3];
     2006            c2 = data[(startBit>>3) + 1];
     2007            c3 = data[(startBit>>3) + 2];
     2008            c4 = data[(startBit>>3) + 3];
     2009
     2010            *result = (c1 << 24) + (c2 << 16) + (c3 << 8) + c4;
     2011            return true;
     2012        } else {
     2013            unsigned char c[4], mask[4], nbBits[4]; // MSB = c[0]
     2014            nbBits[0] = (startBit & 0x07) + 1;
     2015            nbBits[1] = static_cast<unsigned char>( (length - nbBits[0]) < 8 ? length - nbBits[0] : 8 );
     2016            nbBits[2] = static_cast<unsigned char>( (length - nbBits[0] - nbBits[1]) < 8 ? (length - nbBits[0] - nbBits[1]) : 8 );
     2017            nbBits[3] = static_cast<unsigned char>( (length - nbBits[0] - nbBits[1] - nbBits[2]) < 8 ? length - nbBits[0] - nbBits[1] - nbBits[2] : 8 );
     2018            mask[0] = getMask8( nbBits[0] );
     2019            mask[1] = getShiftMask8(8 - nbBits[1],nbBits[1]);
     2020            mask[2] = getShiftMask8(8 - nbBits[2],nbBits[2]);
     2021            mask[3] = getShiftMask8(8 - nbBits[3],nbBits[3]);
     2022            c[0] = data[startBit>>3] & mask[0];
     2023            c[1] = data[(startBit>>3) + 1] & mask[1];
     2024            c[2] = data[(startBit>>3) + 2] & mask[2];
     2025            c[3] = data[(startBit>>3) + 3] & mask[3];
     2026
     2027            unsigned long temp = ( (c[0]<<24) + (c[1]<<16) + (c[2]<<8) + c[3]) >> (24 + (startBit&0x07) + 1 - length);
     2028            if (temp & getShiftMask32(length-1, 1))
     2029                // do the two's complement to get the signed value if the msb=1
     2030                *result = -1 * ( ( (~temp) + 1 ) & getMask32(length) );
     2031            else
     2032                *result = temp;
     2033            return true;
     2034        }
     2035    }
     2036}
     2037
     2038
     2039
     2040//////////////////////////////////////////////////////////////////////////
     2041// Big Endian - Motorola coding
     2042// ok
     2043inline bool mDecodeToUI16(unsigned short * result, const unsigned char * data, const unsigned int startBit, const unsigned int length)
     2044{
     2045    if (length > 16) {
     2046        *result = 0;
     2047        return false;
     2048    }
     2049
     2050    // verify that the frame is not spread in 3 bytes
     2051    if (mSpreadOnMoreThan2Bytes(startBit, length)) {
     2052        // decode in a 32-bits integer
     2053        unsigned long temp;
     2054        if (mDecodeToUI32(&temp,data,startBit,length)) {
     2055            *result = static_cast<unsigned short>(temp);
     2056            return true;
     2057        } else {
     2058            *result = 0;
     2059            return false;
     2060        }
     2061    } else {
     2062        if (length == 16) {
     2063            // only work if data are correctly byte-aligned
     2064            unsigned char LSB, MSB;
     2065            MSB = data[startBit>>3];
     2066            LSB = data[(startBit>>3) + 1];
     2067
     2068            *result = ( (MSB << 8) + LSB );
     2069            return true;
     2070        } else {
     2071            unsigned char LSB, MSB, maskMSB, maskLSB, nbBitsMSB, nbBitsLSB;
     2072            nbBitsMSB = (startBit & 0x07) + 1;  // the number of bits contained in the MSB
     2073            nbBitsLSB = static_cast<unsigned char>(length - nbBitsMSB);
     2074            maskMSB = getMask8( nbBitsMSB );
     2075            maskLSB = getShiftMask8(8 - nbBitsLSB , nbBitsLSB);
     2076            MSB = data[startBit>>3] & maskMSB;
     2077            LSB = data[(startBit>>3) + 1] & maskLSB;
     2078
     2079            *result = ( (MSB << 8) + LSB ) >> (8 + (startBit&0x07) + 1 - length);
     2080            return true;
     2081        }
     2082    }
     2083}
     2084
     2085//////////////////////////////////////////////////////////////////////////
     2086// Big Endian - Motorola coding
     2087// ok
     2088inline bool mDecodeToI16(short *result, const unsigned char * data, const unsigned int startBit, const unsigned int length)
     2089{
     2090    if (length > 16) {
     2091        *result = 0;
     2092        return false;
     2093    }
     2094
     2095    // verify that the frame is not spread in 3 bytes
     2096    if (mSpreadOnMoreThan2Bytes(startBit, length)) {
     2097        // decode in a 32-bits integer
     2098        long temp;
     2099        if (mDecodeToI32(&temp, data, startBit, length)) {
     2100            *result = (short)temp;
     2101            return true;
     2102        } else  {
     2103            *result = 0;
     2104            return false;
     2105        }
     2106    } else {
     2107        // ok data are stored at most in 2 bytes
     2108        if (length == 16) {
     2109            // only work if data are correctly byte-aligned
     2110            unsigned char LSB, MSB;
     2111            MSB = data[startBit>>3];
     2112            LSB = data[(startBit>>3) + 1];
     2113            short temp = (MSB << 8) + LSB;
     2114
     2115            // Attention : a-t on besoin d'appliquer le signe ?
     2116            // n'est-il pas deja inclu dans la donn�e comme elle est correctement align�e sur l'octet ?
     2117            if (temp & 0x8000) {
     2118                // do the two's complement to get the signed value
     2119                *result = - ( ( (~temp) + 1 ) & 0xFFFF );
     2120            } else {
     2121                *result = temp;
     2122            }
     2123            return true;
     2124        } else {
     2125            unsigned char LSB, MSB, maskMSB, maskLSB, nbBitsMSB, nbBitsLSB;
     2126            nbBitsMSB = (startBit & 0x07) + 1;  // the number of bits contained in the MSB
     2127            nbBitsLSB = static_cast<unsigned char>(length - nbBitsMSB);
     2128            maskMSB = getMask8( nbBitsMSB );
     2129            maskLSB = getShiftMask8(8 - nbBitsLSB , nbBitsLSB);
     2130            MSB = data[startBit>>3] & maskMSB;
     2131            LSB = data[(startBit>>3) + 1] & maskLSB;
     2132            // assign the MSB and LSB char in the short integer value and right-shift
     2133            // to place the lsb to the bit 0
     2134            unsigned short temp = ( (MSB << 8) + LSB ) >> (8 + (startBit&0x07) + 1 - length);
     2135            if (temp & getShiftMask16(length-1,1))
     2136                // do the two's complement to get the signed value if the msb=1
     2137                *result = -1 * ( ( (~temp) + 1 ) & getMask16(length) );
     2138            else
     2139                *result = temp;
     2140            return true;
     2141        }
     2142    }
     2143}
     2144
     2145//////////////////////////////////////////////////////////////////////////
     2146// Big Endian - Motorola coding
     2147// OK
     2148inline bool mDecodeToUI8(unsigned char * result, const unsigned char * data, const unsigned int startBit, const unsigned int length)
     2149{
     2150    if (length > 8) {
     2151        *result = 0;
     2152        return false;
     2153    }
     2154
     2155    // verify that the frame is not spread in 2 bytes
     2156    if (mSpreadOnMoreThan1Byte(startBit, length)) {
     2157        // decode in a 16-bit integer
     2158        unsigned short temp;
     2159        if ( mDecodeToUI16(&temp, data, startBit, length) ) {
     2160            *result = static_cast<unsigned char>(temp);
     2161            return true;
     2162        } else {
     2163            *result = 0;
     2164            return false;
     2165        }
     2166    } else {
     2167        // ok data is stored at most in 1 byte
     2168        unsigned char c;
     2169       
     2170                c = data[startBit>>3];                // >>3 <=> div 8
     2171        //c >>= (8-((startBit & 0x07)+1));      // &0x07 <=> modulo 8
     2172                c >>= startBit & 0x07 - (length - 1);    // &0x07 <=> modulo 8
     2173                *result = c & getMask8( length );
     2174
     2175        return true;
     2176    }
     2177}
     2178
     2179//////////////////////////////////////////////////////////////////////////
     2180// Big Endian - Motorola coding
     2181// OK
     2182inline bool mDecodeToI8(char * result, const unsigned char * data, const unsigned int startBit, const unsigned int length)
     2183{
     2184    if (length > 8) {
     2185        *result = 0;
     2186        return false;
     2187    }
     2188
     2189    // verify that the frame is not spread in 2 bytes
     2190    if (mSpreadOnMoreThan1Byte(startBit, length)) {
     2191        // decode in a 16-bit integer
     2192        short temp;
     2193        if ( mDecodeToI16(&temp, data, startBit, length) ) {
     2194            *result = static_cast<char>(temp);
     2195            return true;
     2196        } else {
     2197            *result = 0;
     2198            return false;
     2199        }
     2200    }
     2201    else {
     2202        // ok data is stored at most in 1 byte
     2203        char c;
     2204        c = data[startBit>>3];
     2205        c >>= (8-((startBit & 0x07)+1));
     2206        c = c & getMask8( length );
     2207
     2208        // a-t-on besoin d'appliquer le signe dans le cas ou length = 8
     2209        // la donnee est correctement alignee sur l'octet donc le signe est peut-etre compris
     2210        if (c & getShiftMask8(length-1,1))
     2211            // do the two's complement to get the signed value if the msb=1
     2212            *result = - ( ( (~c) + 1 ) & getMask8(length) );
     2213        else
     2214            *result = c;
     2215        return true;
     2216    }
     2217}
     2218
     2219//////////////////////////////////////////////////////////////////////////
     2220// Little Endian - Intel coding
     2221// ok
     2222inline bool iDecodeToBool(const unsigned char * data, const unsigned int startBit)
     2223{
     2224    mDecodeToBool(data, startBit);
     2225}
     2226
     2227//////////////////////////////////////////////////////////////////////////
     2228// Little Endian - Intel coding
     2229// pas de depassement possible - la trame CAN fait 64 bits max
     2230// gerer le signe
     2231inline bool iDecodeToUI64(unsigned long long * /*result*/, const unsigned char * /*data*/, const unsigned int /*startBit*/, const unsigned int /*length*/)
     2232{
     2233    return true;
     2234}
     2235
     2236//////////////////////////////////////////////////////////////////////////
     2237// Little Endian - Intel coding
     2238// pas de depassement possible - la trame CAN fait 64 bits max
     2239// gerer le signe
     2240inline bool iDecodeToI64(long long * /*result*/, const unsigned char * /*data*/, const unsigned int /*startBit*/, const unsigned int /*length*/)
     2241{
     2242    return true;
     2243}
     2244
     2245//////////////////////////////////////////////////////////////////////////
     2246// Little Endian - Intel coding
     2247// gerer le depassement sur plus de 4 octets : necessite la fonction de decodage 64 bits
     2248// verifier le depassement avant cette ligne :   if (length == 32)
     2249inline bool iDecodeToUI32(unsigned long * result, const unsigned char * data, const unsigned int startBit, const unsigned int length)
     2250{
     2251    if (length>32) {
     2252        *result = 0;
     2253        return false;
     2254    }
     2255
     2256    if (length == 32) {
     2257        // only work if length == 32
     2258        unsigned char c1, c2, c3, c4;
     2259        c4 = data[startBit>>3];       // LSB
     2260        c3 = data[(startBit>>3) + 1];
     2261        c2 = data[(startBit>>3) + 2];
     2262        c1 = data[(startBit>>3) + 3]; // MSB
     2263
     2264        *result = (c1 << 24) + (c2 << 16) + (c3 << 8) + c4;
     2265        return true;
     2266    } else {
     2267        // todo
     2268        *result = 0;
     2269        return false;
     2270    }
     2271}
     2272
     2273//////////////////////////////////////////////////////////////////////////
     2274// Little Endian - Intel coding
     2275// gerer le signe
     2276// gerer le depassement sur plus de 4 octets : necessite la fonction de decodage 64 bits
     2277// verifier le depassement avant cette ligne :   if (length == 32)
     2278inline bool iDecodeToI32(long * result, const unsigned char * data, const unsigned int startBit, const unsigned int length)
     2279{
     2280    if (length>32) {
     2281        *result = 0;
     2282        return false;
     2283    }
     2284
     2285    if (length == 32) {
     2286        // only work if length == 32
     2287        unsigned char c1, c2, c3, c4;
     2288        c4 = data[startBit>>3];       // LSB
     2289        c3 = data[(startBit>>3) + 1];
     2290        c2 = data[(startBit>>3) + 2];
     2291        c1 = data[(startBit>>3) + 3]; // MSB
     2292
     2293        *result = (c1 << 24) + (c2 << 16) + (c3 << 8) + c4;
     2294        return true;
     2295    } else {
     2296        // todo
     2297        *result = 0;
     2298        return false;
     2299    }
     2300}
     2301
     2302//////////////////////////////////////////////////////////////////////////
     2303// Little Endian - Intel coding
     2304// gerer le depassement sur plus de 2 octets
     2305// verifier le depassement avant cette ligne :   if (length == 16)
     2306inline bool iDecodeToUI16(unsigned short * result, const unsigned char * data, const unsigned int startBit, const unsigned int length)
     2307{
     2308    if (length > 16) {
     2309        *result = 0;
     2310        return false;
     2311    }
     2312
     2313    if (length == 16) {
     2314        // only work if length == 16
     2315        unsigned char LSB, MSB;
     2316        LSB = data[startBit>>3];
     2317        MSB = data[(startBit>>3) + 1];
     2318
     2319        *result = (MSB << 8) + LSB;
     2320        return true;
     2321    } else {
     2322        // TODO
     2323        *result = 0;
     2324        return false;
     2325    }
     2326}
     2327
     2328//////////////////////////////////////////////////////////////////////////
     2329// Little Endian - Intel coding
     2330// gerer le signe
     2331// gerer le depassement sur plus de 2 octets
     2332// verifier le depassement avant cette ligne :   if (length == 16)
     2333// manque le decalage
     2334inline bool iDecodeToI16(short * result, const unsigned char * data, const unsigned int startBit, const unsigned int length)
     2335{
     2336    if (length > 16) {
     2337        *result = 0;
     2338        return false;
     2339    }
     2340
     2341    if (length == 16) {
     2342        // only work if length == 16
     2343        unsigned char LSB, MSB;
     2344        LSB = data[startBit>>3];
     2345        MSB = data[(startBit>>3) + 1];
     2346
     2347        *result = (MSB << 8) + LSB;
     2348        return true;
     2349    } else {
     2350        // todo
     2351        *result = 0;
     2352        return false;
     2353    }
     2354}
     2355
     2356//////////////////////////////////////////////////////////////////////////
     2357// Little Endian - Intel coding
     2358// OK
     2359inline bool iDecodeToUI8(unsigned char * result,const unsigned char * data, const unsigned int startBit, const unsigned int length)
     2360{
     2361    if (length > 8) {
     2362        *result = 0;
     2363        return false;
     2364    }
     2365
     2366    // verify that the frame is not spread in 2 bytes
     2367    if (iSpreadOnMoreThan1Byte(startBit, length)) {
     2368        // decode in a 16-bit integer
     2369        unsigned short temp;
     2370        if ( iDecodeToUI16(&temp, data, startBit, length) ) {
     2371            // and cast in an 8 bit integer
     2372            *result = (unsigned char) temp;
     2373            return true;
     2374        } else {
     2375            *result = 0;
     2376            return true;
     2377        }
     2378    } else {
     2379        // ok data is stored at most in 1 byte
     2380        unsigned char c;
     2381        c = data[startBit>>3];
     2382        c >>= (startBit & 0x07);
     2383        *result = c & getMask8( length );
     2384
     2385        return true;
     2386    }
     2387}
     2388
     2389//////////////////////////////////////////////////////////////////////////
     2390// Little Endian - Intel coding
     2391// OK
     2392inline bool iDecodeToI8(char * result, const unsigned char * data, const unsigned int startBit, const unsigned int length)
     2393{
     2394    if (length > 8) {
     2395        *result = 0;
     2396        return false;
     2397    }
     2398
     2399    // verify that the frame is not spread in 2 bytes
     2400    if (iSpreadOnMoreThan1Byte(startBit, length)) {
     2401        // decode in a 16-bit integer
     2402        short temp;
     2403        if ( iDecodeToI16(&temp, data, startBit, length) ) {
     2404            // and cast in an 8 bit integer
     2405            *result = static_cast<char>(temp);
     2406            return true;
     2407        } else {
     2408            *result = 0;
     2409            return true;
     2410        }
     2411    } else {
     2412        // ok data is stored at most in 1 byte
     2413        char c;
     2414        c = data[startBit>>3];     // >>3 <=> div 8
     2415        c >>= (startBit & 0x07);    // &0x07 <=> modulo 8
     2416        c = c & getMask8( length );
     2417        if (c & getShiftMask8(length-1,1))
     2418            // do the two's complement to get the signed value if the msb=1
     2419            *result = - ( ( (~c) + 1 ) & getMask8(length) );
     2420        else
     2421            *result = c;
     2422
     2423        return true;
     2424    }
     2425}
     2426
     2427//////////////////////////////////////////////////////////////////////////
     2428// Big Endian - Motorola coding
     2429// ok
     2430inline bool mobileyemDecodeToUI16(unsigned short * result, const unsigned char * data, const unsigned int startBit, const unsigned int length)
     2431{
     2432    if (length>16){ *result = 0; return false; }
     2433
     2434    // verify that the frame is not spread in 3 bytes
     2435    /*    if (mSpreadOnMoreThan2Bytes(startBit, length))
     2436    {
     2437    // decode in a 32-bits integer
     2438    unsigned long temp;
     2439    if (mDecodeToUI32(&temp,data,startBit,length))
     2440    {
     2441    *result = static_cast<unsigned short>(temp);
     2442    return true;
     2443    } else {
     2444    *result = 0;
     2445    return false;
     2446    }
     2447    }
     2448    else
     2449    {*/
     2450    if (length == 16) {
     2451        // only work if data are correctly byte-aligned
     2452        unsigned char LSB, MSB;
     2453        MSB = data[startBit>>3];
     2454        LSB = data[(startBit>>3) + 1];
     2455
     2456        *result = ( (MSB << 8) + LSB );
     2457        return true;
     2458    } else {
     2459        unsigned char LSB, MSB, maskMSB, maskLSB, nbBitsMSB, nbBitsLSB;
     2460        nbBitsMSB = (startBit & 0x07) + 1;  // the number of bits contained in the MSB
     2461        nbBitsLSB = static_cast<unsigned char>(length - nbBitsMSB);
     2462        maskMSB = getMask8( nbBitsMSB );
     2463        maskLSB = getShiftMask8(8 - nbBitsLSB , nbBitsLSB);
     2464        MSB = data[startBit>>3] & maskMSB;
     2465        LSB = data[(startBit>>3) + 1] & maskLSB;
     2466
     2467        *result = ( (MSB << 8) + LSB ) >> (8 + (startBit&0x07) + 1 - length);
     2468        return true;
     2469    }
     2470    //}
     2471}
     2472
     2473//////////////////////////////////////////////////////////////////////////
     2474// Big Endian - Motorola coding
     2475// ok
     2476inline bool mobileyemDecodeToI16(short *result, const unsigned char * data, const unsigned int startBit, const unsigned int length)
     2477{
     2478    if (length>16) { *result = 0; return false; }
     2479
     2480    // verify that the frame is not spread in 3 bytes
     2481    /*    if (mSpreadOnMoreThan2Bytes(startBit, length))
     2482    {
     2483    // decode in a 32-bits integer
     2484    long temp;
     2485    if (mDecodeToI32(&temp, data, startBit, length)) {
     2486    *result = (short)temp;
     2487    return true;
     2488    } else  {
     2489    *result = 0;
     2490    return false;
     2491    }
     2492    }
     2493    else  // ok data are stored at most in 2 bytes
     2494    {*/
     2495    if (length == 16)
     2496    {
     2497        // only work if data are correctly byte-aligned
     2498        unsigned char LSB, MSB;
     2499        MSB = data[startBit>>3];
     2500        LSB = data[(startBit>>3) + 1];
     2501        short temp = (MSB << 8) + LSB;
     2502
     2503        // Attention : a-t on besoin d'appliquer le signe ?
     2504        // n'est-il pas deja inclu dans la donn�e comme elle est correctement align�e sur l'octet ?
     2505        if (temp & 0x8000) {
     2506            // do the two's complement to get the signed value
     2507            *result = - ( ( (~temp) + 1 ) & 0xFFFF );
     2508        } else {
     2509            *result = temp;
     2510        }
     2511        return true;
     2512    } else {
     2513        unsigned char LSB, MSB, maskMSB, maskLSB, nbBitsMSB, nbBitsLSB;
     2514        nbBitsMSB = (startBit & 0x07)+1;  // the number of bits contained in the MSB
     2515        nbBitsLSB = static_cast<unsigned char>(length - nbBitsMSB);
     2516        maskMSB = getMask8( nbBitsMSB );
     2517        maskLSB = getShiftMask8(8 - nbBitsLSB , nbBitsLSB);
     2518        MSB = data[startBit>>3] & maskMSB;
     2519        LSB = data[(startBit>>3) + 1] & maskLSB;
     2520        // assign the MSB and LSB char in the short integer value and right-shift
     2521        // to place the lsb to the bit 0
     2522        unsigned short temp = ( (MSB << 8) + LSB ) >> (8 + (startBit&0x07) + 1 - length);
     2523        if (temp & getShiftMask16(length-1,1))
     2524            // do the two's complement to get the signed value if the msb=1
     2525            *result = -1 * ( ( (~temp) + 1 ) & getMask16(length) );
     2526        else
     2527            *result = temp;
     2528        return true;
     2529    }
     2530    //}
     2531}
     2532
     2533//////////////////////////////////////////////////////////////////////////
     2534// Big Endian - Motorola coding
     2535// OK
     2536inline bool mobileyemDecodeToUI8(unsigned char * result, const unsigned char * data, const unsigned int startBit, const unsigned int length)
     2537{
     2538    if (length>8) { *result = 0; return false; }
     2539
     2540    // verify that the frame is not spread in 2 bytes
     2541    if (mSpreadOnMoreThan1Byte(startBit, length))
     2542    {
     2543        // decode in a 16-bit integer
     2544        unsigned short temp;
     2545        if ( mDecodeToUI16(&temp, data, startBit, length) ) {
     2546            *result = static_cast<unsigned char>(temp);
     2547            return true;
     2548        } else {
     2549            *result = 0;
     2550            return true;
     2551        }
     2552    }
     2553    else // ok data is stored at most in 1 byte
     2554    {
     2555        unsigned char c;
     2556        c = data[startBit>>3];                // >>3 <=> div 8
     2557        c >>= (8-((startBit & 0x07)+1));      // &0x07 <=> modulo 8
     2558        *result = c & getMask8( length );
     2559
     2560        return true;
     2561    }
     2562}
     2563
     2564//////////////////////////////////////////////////////////////////////////
     2565// Big Endian - Motorola coding
     2566// OK
     2567inline bool mobileyemDecodeToI8(char * result, const unsigned char * data, const unsigned int startBit, const unsigned int length)
     2568{
     2569    if (length>8) { *result = 0; return false; }
     2570
     2571    // verify that the frame is not spread in 2 bytes
     2572    if (mSpreadOnMoreThan1Byte(startBit, length))
     2573    {
     2574        // decode in a 16-bit integer
     2575        short temp;
     2576        if ( mDecodeToI16(&temp, data, startBit, length) ) {
     2577            *result = static_cast<char>(temp);
     2578            return true;
     2579        } else {
     2580            *result = 0;
     2581            return true;
     2582        }
     2583    }
     2584    else // ok data is stored at most in 1 byte
     2585    {
     2586        char c;
     2587        c = data[startBit>>3];
     2588        c >>= (8-((startBit & 0x07)+1));
     2589        c = c & getMask8( length );
     2590
     2591        // a-t-on besoin d'appliquer le signe dans le cas ou length = 8
     2592        // la donnee est correctement alignee sur l'octet donc le signe est peut-etre compris
     2593        if (c & getShiftMask8(length-1,1))
     2594            // do the two's complement to get the signed value if the msb=1
     2595            *result = - ( ( (~c) + 1 ) & getMask8(length) );
     2596        else
     2597            *result = c;
     2598        return true;
     2599    }
     2600}
     2601
     2602//////////////////////////////////////////////////////////////////////////
     2603// Little Endian - Intel coding
     2604// OK, mais gerer le depassement sur plus de 2 octets
     2605inline bool mobileyeiDecodeToUI16(unsigned short * result, const unsigned char * data, const unsigned int startBit, const unsigned int length)
     2606{
     2607    if (length>16) {
     2608        *result = 0;
     2609        return false;
     2610    }
     2611
     2612    if (length == 16) {
     2613        // only work if length == 16
     2614        unsigned char LSB, MSB;
     2615        LSB = data[startBit>>3];
     2616        MSB = data[(startBit>>3) + 1];
     2617
     2618        *result = (unsigned short)((MSB << 8) + LSB);
     2619        return true;
     2620    } else {
     2621        unsigned char LSB, MSB, maskMSB, maskLSB, nbBitsMSB, nbBitsLSB;
     2622
     2623        nbBitsLSB = static_cast<unsigned char>(8*((startBit>>3) + 1) - startBit);
     2624        nbBitsMSB = static_cast<unsigned char>(length - nbBitsLSB);
     2625        maskLSB = getShiftMask8(8 - nbBitsLSB , nbBitsLSB);
     2626        maskMSB = getMask8( nbBitsMSB );
     2627        LSB = data[startBit>>3] & maskLSB;
     2628        MSB = data[(startBit>>3) + 1] & maskMSB;
     2629
     2630        *result = (unsigned short)((MSB<<8) + (LSB>>(startBit-8*(startBit>>3))));
     2631
     2632        return true;
     2633    }
     2634}
     2635
     2636//////////////////////////////////////////////////////////////////////////
     2637// Little Endian - Intel coding
     2638// gerer le signe
     2639// gerer le depassement sur plus de 2 octets
     2640// verifier le depassement avant cette ligne :   if (length == 16)
     2641// manque le decalage
     2642inline bool mobileyeiDecodeToI16(short * result, const unsigned char * data, const unsigned int startBit, const unsigned int length)
     2643{
     2644    if (length > 16) {
     2645        *result = 0;
     2646        return false;
     2647    }
     2648
     2649    if (length == 16) {
     2650        // only work if length == 16
     2651        unsigned char LSB, MSB;
     2652        LSB = data[startBit>>3];
     2653        MSB = data[(startBit>>3) + 1];
     2654
     2655        short temp = (MSB << 8) + LSB;
     2656
     2657        if (temp & 0x8000) {
     2658            // do the two's complement to get the signed value
     2659            *result = - ( ( (~temp) + 1 ) & 0xFFFF );
     2660        } else {
     2661            *result = temp;
     2662        }
     2663        return true;
     2664    } else {
     2665        unsigned char LSB, MSB, maskMSB, maskLSB, nbBitsMSB, nbBitsLSB;
     2666
     2667        nbBitsLSB = static_cast<unsigned char>(8*((startBit>>3) + 1) - startBit);
     2668        nbBitsMSB = static_cast<unsigned char>(length - nbBitsLSB);
     2669        maskLSB = getShiftMask8(8 - nbBitsLSB , nbBitsLSB);
     2670        maskMSB = getMask8( nbBitsMSB );
     2671        LSB = data[startBit>>3] & maskLSB;
     2672        MSB = data[(startBit>>3) + 1] & maskMSB;
     2673
     2674        unsigned short temp = (unsigned short)((MSB<<8) + (LSB>>(startBit-8*(startBit>>3))));
     2675
     2676        if (temp & getShiftMask16(length-1,1))
     2677            // do the two's complement to get the signed value if the msb=1
     2678            *result = -1 * ( ( (~temp) + 1 ) & getMask16(length) );
     2679        else
     2680            *result = temp;
     2681        return true;
     2682    }
     2683}
     2684
     2685//////////////////////////////////////////////////////////////////////////
     2686// Little Endian - Intel coding
     2687// OK
     2688inline bool mobileyeiDecodeToUI8(unsigned char * result,const unsigned char * data, const unsigned int startBit, const unsigned int length)
     2689{
     2690    if (length>8) { *result = 0; return false; }
     2691
     2692    // verify that the frame is not spread in 2 bytes
     2693    if (iSpreadOnMoreThan1Byte(startBit, length))
     2694    {
     2695        // decode in a 16-bit integer
     2696        unsigned short temp;
     2697        if ( iDecodeToUI16(&temp, data, startBit, length) )
     2698        {
     2699            // and cast in an 8 bit integer
     2700            *result = (unsigned char) temp;
     2701            return true;
     2702        }
     2703        else
     2704        {
     2705            *result = 0;
     2706            return true;
     2707        }
     2708    }
     2709    else // ok data is stored at most in 1 byte
     2710    {
     2711        unsigned char c;
     2712        c = data[startBit>>3];
     2713        c >>= (startBit & 0x07);
     2714        *result = c & getMask8( length );
     2715
     2716        return true;
     2717    }
     2718
     2719}
     2720
     2721//////////////////////////////////////////////////////////////////////////
     2722// Little Endian - Intel coding
     2723// OK
     2724inline bool mobileyeiDecodeToI8(char * result, const unsigned char * data, const unsigned int startBit, const unsigned int length)
     2725{
     2726    if (length > 8) {
     2727        *result = 0;
     2728        return false;
     2729    }
     2730
     2731    // verify that the frame is not spread in 2 bytes
     2732    if (iSpreadOnMoreThan1Byte(startBit, length)) {
     2733        // decode in a 16-bit integer
     2734        short temp;
     2735        if ( iDecodeToI16(&temp, data, startBit, length) ) {
     2736            // and cast in an 8 bit integer
     2737            *result = (char)(temp);
     2738            return true;
     2739        } else {
     2740            *result = 0;
     2741            return true;
     2742        }
     2743    } else {
     2744        // ok data is stored at most in 1 byte
     2745        char c;
     2746        c = data[startBit>>3];     // >>3 <=> div 8
     2747        c >>= (startBit & 0x07);    // &0x07 <=> modulo 8
     2748        c = c & getMask8( length );
     2749        if (c & getShiftMask8(length-1,1))
     2750            // do the two's complement to get the signed value if the msb=1
     2751            *result = - ( ( (~c) + 1 ) & getMask8(length) );
     2752        else
     2753            *result = c;
     2754
     2755        return true;
     2756    }
     2757}
     2758
     2759inline int mobileyeDecodeCAN(unsigned char *data,unsigned char bigEndian,unsigned int startBit,unsigned int length,unsigned char Signed)
     2760{
     2761    int value;
     2762    unsigned short ustemp16 = 0;
     2763    unsigned char uctemp8 = 0;
     2764    short stemp16 = 0;
     2765    char ctemp8 = 0;
     2766
     2767    if(bigEndian) {
     2768        if(length>8){
     2769            if(Signed){mobileyemDecodeToI16(&stemp16,data, startBit, length);value = stemp16;}
     2770            else {mobileyemDecodeToUI16(&ustemp16,data, startBit, length);value = ustemp16;}}
     2771        else if(Signed) {mobileyemDecodeToI8(&ctemp8,data, startBit, length);value = ctemp8;}
     2772        else {mobileyemDecodeToUI8(&uctemp8,data, startBit, length);value = uctemp8;}
     2773    } else {
     2774        if(length>8){
     2775            if(Signed) {mobileyeiDecodeToI16(&stemp16,data, startBit, length);value = stemp16;}
     2776            else {mobileyeiDecodeToUI16(&ustemp16,data, startBit, length);value = ustemp16;}}
     2777        else if(Signed) {mobileyeiDecodeToI8(&ctemp8,data, startBit, length);value = ctemp8;}
     2778        else {mobileyeiDecodeToUI8(&uctemp8,data, startBit, length);value = uctemp8;}
     2779    }
     2780
     2781    return value;
     2782}
     2783
     2784#ifdef __cplusplus
     2785}
     2786#endif // __cplusplus
     2787
     2788#endif // BINARYDECODER_H
     2789>>>>>>> .r303
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