/* ** ClanLib SDK ** Copyright (c) 1997-2005 The ClanLib Team ** ** This software is provided 'as-is', without any express or implied ** warranty. In no event will the authors be held liable for any damages ** arising from the use of this software. ** ** Permission is granted to anyone to use this software for any purpose, ** including commercial applications, and to alter it and redistribute it ** freely, subject to the following restrictions: ** ** 1. The origin of this software must not be misrepresented; you must not ** claim that you wrote the original software. If you use this software ** in a product, an acknowledgment in the product documentation would be ** appreciated but is not required. ** 2. Altered source versions must be plainly marked as such, and must not be ** misrepresented as being the original software. ** 3. This notice may not be removed or altered from any source distribution. ** ** Note: Some of the libraries ClanLib may link to may have additional ** requirements or restrictions. ** ** File Author(s): ** ** Magnus Norddahl ** (if your name is missing here, please add it) */ #include "Core/precomp.h" #include "API/Core/IOData/inputsource.h" #include "API/Core/IOData/cl_endian.h" ///////////////////////////////////////////////////////////////////////////// // CL_InputSource operations: void CL_InputSource::set_system_mode() { little_endian_mode = !CL_Endian::is_system_big(); } void CL_InputSource::set_big_endian_mode() { little_endian_mode = false; } void CL_InputSource::set_little_endian_mode() { little_endian_mode = true; } cl_int64 CL_InputSource::read_int64() { cl_int64 answer; if (read(&answer, sizeof(cl_int64)) != sizeof(cl_int64)) throw CL_Error("CL_InputSource_Datafile::read_int64() failed"); if (little_endian_mode) { SWAP_IF_BIG(answer); } else { SWAP_IF_LITTLE(answer); } return answer; } cl_uint64 CL_InputSource::read_uint64() { cl_uint64 answer; if (read(&answer, sizeof(cl_uint64)) != sizeof(cl_uint64)) throw CL_Error("CL_InputSource_Datafile::read_uint64() failed"); if (little_endian_mode) { SWAP_IF_BIG(answer); } else { SWAP_IF_LITTLE(answer); } return answer; } cl_int32 CL_InputSource::read_int32() { cl_int32 answer; if (read(&answer, sizeof(cl_int32)) != sizeof(cl_int32)) throw CL_Error("CL_InputSource_Datafile::read_int32() failed"); if (little_endian_mode) { SWAP_IF_BIG(answer); } else { SWAP_IF_LITTLE(answer); } return answer; } cl_uint32 CL_InputSource::read_uint32() { cl_uint32 answer; if (read(&answer, sizeof(cl_uint32)) != sizeof(cl_uint32)) throw CL_Error("CL_InputSource_Datafile::read_uint32() failed"); if (little_endian_mode) { SWAP_IF_BIG(answer); } else { SWAP_IF_LITTLE(answer); } return answer; } cl_int16 CL_InputSource::read_int16() { cl_int16 answer; if (read(&answer, sizeof(cl_int16)) != sizeof(cl_int16)) throw CL_Error("CL_InputSource_Datafile::read_int16() failed"); if (little_endian_mode) { SWAP_IF_BIG(answer); } else { SWAP_IF_LITTLE(answer); } return answer; } cl_uint16 CL_InputSource::read_uint16() { cl_uint16 answer; if (read(&answer, sizeof(cl_uint16)) != sizeof(cl_uint16)) throw CL_Error("CL_InputSource_Datafile::read_uint16() failed"); if (little_endian_mode) { SWAP_IF_BIG(answer); } else { SWAP_IF_LITTLE(answer); } return answer; } cl_int8 CL_InputSource::read_int8() { cl_int8 answer; if (read(&answer, sizeof(cl_int8)) != sizeof(cl_int8)) throw CL_Error("CL_InputSource_Datafile::read_int8() failed"); if (little_endian_mode) { SWAP_IF_BIG(answer); } else { SWAP_IF_LITTLE(answer); } return answer; } cl_uint8 CL_InputSource::read_uint8() { cl_uint8 answer; if (read(&answer, sizeof(cl_uint8)) != sizeof(cl_uint8)) throw CL_Error("CL_InputSource_Datafile::read_uint8() failed"); if (little_endian_mode) { SWAP_IF_BIG(answer); } else { SWAP_IF_LITTLE(answer); } return answer; } short CL_InputSource::read_short16() { short answer; if (read(&answer, sizeof(short)) != sizeof(short)) throw CL_Error("CL_InputSource_Datafile::read_short16() failed"); if (little_endian_mode) { SWAP_IF_BIG(answer); } else { SWAP_IF_LITTLE(answer); } return answer; } unsigned short CL_InputSource::read_ushort16() { unsigned short answer; if (read(&answer, sizeof(unsigned short)) != sizeof(unsigned short)) throw CL_Error("CL_InputSource_Datafile::read_ushort16() failed"); if (little_endian_mode) { SWAP_IF_BIG(answer); } else { SWAP_IF_LITTLE(answer); } return answer; } char CL_InputSource::read_char8() { char answer; if (read(&answer, sizeof(char)) != sizeof(char)) throw CL_Error("CL_InputSource_Datafile::read_char8() failed"); if (little_endian_mode) { SWAP_IF_BIG(answer); } else { SWAP_IF_LITTLE(answer); } return answer; } unsigned char CL_InputSource::read_uchar8() { unsigned char answer; if (read(&answer, sizeof(unsigned char)) != sizeof(unsigned char)) throw CL_Error("CL_InputSource_Datafile::read_uchar8() failed"); return answer; } float CL_InputSource::read_float32() { float answer; if (read(&answer, sizeof(float)) != sizeof(float)) throw CL_Error("CL_InputSource_Datafile::read_float32() failed"); if (little_endian_mode) { SWAP_IF_BIG(answer); } else { SWAP_IF_LITTLE(answer); } return answer; } double CL_InputSource::read_float64() { double answer; if (read(&answer, sizeof(double)) != sizeof(double)) throw CL_Error("CL_InputSource_Datafile::read_float64() failed"); if (little_endian_mode) { SWAP_IF_BIG(answer); } else { SWAP_IF_LITTLE(answer); } return answer; } bool CL_InputSource::read_bool8() { bool answer; if (read(&answer, sizeof(bool)) != sizeof(bool)) throw CL_Error("CL_InputSource_Datafile::read_bool8() failed"); if (little_endian_mode) { SWAP_IF_BIG(answer); } else { SWAP_IF_LITTLE(answer); } return answer; } std::string CL_InputSource::read_string() { int size = read_int32(); char *str = new char[size]; try { read(str, size); std::string ret(str, size); delete[] str; return ret; } catch (...) { delete[] str; throw; } }