本文整理汇总了C++中BVariant::Bytes方法的典型用法代码示例。如果您正苦于以下问题:C++ BVariant::Bytes方法的具体用法?C++ BVariant::Bytes怎么用?C++ BVariant::Bytes使用的例子?那么, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类BVariant的用法示例。
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示例1: switch
//.........这里部分代码省略.........
if (totalBitSize > 64) {
TRACE_LOCALS(" -> longer than 64 bits: unsupported\n");
return B_UNSUPPORTED;
}
uint64 valueBitSize = BVariant::SizeOfType(valueType) * 8;
if (!shortValueIsFine && totalBitSize < valueBitSize) {
TRACE_LOCALS(" -> too short for value type (%" B_PRIu64 " vs. %"
B_PRIu64 " bits)\n", totalBitSize, valueBitSize);
return B_BAD_VALUE;
}
// Load the data. Since the BitBuffer class we're using only supports big
// endian bit semantics, we convert all data to big endian before pushing
// them to the buffer. For later conversion to BVariant we need to make sure
// the final buffer has the size of the value type, so we pad the most
// significant bits with zeros.
BitBuffer valueBuffer;
if (totalBitSize < valueBitSize)
valueBuffer.AddZeroBits(valueBitSize - totalBitSize);
bool bigEndian = fArchitecture->IsBigEndian();
const Register* registers = fArchitecture->Registers();
for (int32 i = 0; i < count; i++) {
ValuePieceLocation piece = location->PieceAt(
bigEndian ? i : count - i - 1);
uint32 bytesToRead = piece.size;
uint32 bitSize = piece.bitSize;
uint8 bitOffset = piece.bitOffset;
// TODO: the offset's ordinal position and direction aren't
// specified by DWARF, and simply follow the target language.
// To handle non C/C++ languages properly, the corresponding
// SourceLanguage will need to be passed in and extended to
// return the relevant information.
switch (piece.type) {
case VALUE_PIECE_LOCATION_INVALID:
case VALUE_PIECE_LOCATION_UNKNOWN:
return B_ENTRY_NOT_FOUND;
case VALUE_PIECE_LOCATION_MEMORY:
{
target_addr_t address = piece.address;
TRACE_LOCALS(" piece %" B_PRId32 ": memory address: %#"
B_PRIx64 ", bits: %" B_PRIu32 "\n", i, address, bitSize);
uint8 pieceBuffer[kMaxPieceSize];
ssize_t bytesRead = fTeamMemory->ReadMemory(address,
pieceBuffer, bytesToRead);
if (bytesRead < 0)
return bytesRead;
if ((uint32)bytesRead != bytesToRead)
return B_BAD_ADDRESS;
TRACE_LOCALS_ONLY(
TRACE_LOCALS(" -> read: ");
for (ssize_t k = 0; k < bytesRead; k++)
TRACE_LOCALS("%02x", pieceBuffer[k]);
TRACE_LOCALS("\n");
)
// convert to big endian
if (!bigEndian) {
for (int32 k = bytesRead / 2 - 1; k >= 0; k--) {
std::swap(pieceBuffer[k],
pieceBuffer[bytesRead - k - 1]);
}
}
valueBuffer.AddBits(pieceBuffer, bitSize, bitOffset);
break;
}
case VALUE_PIECE_LOCATION_REGISTER:
{
TRACE_LOCALS(" piece %" B_PRId32 ": register: %" B_PRIu32
", bits: %" B_PRIu32 "\n", i, piece.reg, bitSize);
if (fCpuState == NULL) {
WARNING("ValueLoader::LoadValue(): register piece, but no "
"CpuState\n");
return B_UNSUPPORTED;
}
BVariant registerValue;
if (!fCpuState->GetRegisterValue(registers + piece.reg,
registerValue)) {
return B_ENTRY_NOT_FOUND;
}
if (registerValue.Size() < bytesToRead)
return B_ENTRY_NOT_FOUND;
if (!bigEndian) {
registerValue.SwapEndianess();
bitOffset = registerValue.Size() * 8 - bitOffset - bitSize;
}
valueBuffer.AddBits(registerValue.Bytes(), bitSize, bitOffset);
break;
}
}
}