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[/] [openrisc/] [trunk/] [rtos/] [ecos-3.0/] [packages/] [language/] [cxx/] [ustl/] [current/] [src/] [uexception.cpp] - Rev 786
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// This file is part of the uSTL library, an STL implementation. // // Copyright (c) 2005-2009 by Mike Sharov <msharov@users.sourceforge.net> // This file is free software, distributed under the MIT License. #include "uexception.h" #include "ustring.h" #include "mistream.h" #include "sostream.h" #include "strmsize.h" #include "uspecial.h" #include <errno.h> #if HAVE_CXXABI_H && WANT_NAME_DEMANGLING #include <cxxabi.h> #endif namespace ustl { //---------------------------------------------------------------------- /// \brief Returns a descriptive error message. fmt="%s" /// Overloads of this functions must set NULL as the default fmt /// argument and handle that case to provide a default format string /// in case the user does not have a localized one. The format /// string should be shown in the documentation to not require /// translators to look through code. Also, this function must /// not throw anything, so you must wrap memory allocation routines /// (like string::format, for instance) in a try{}catch(...){} block. /// void exception::info (string& msgbuf, const char*) const throw() { USTL_TRY { msgbuf.format ("%s", what()); } USTL_CATCH_ALL; } /// Reads the exception from stream \p is. void exception::read (istream& is) { uint32_t stmSize = 0; xfmt_t fmt = xfmt_Exception; is >> fmt >> stmSize >> m_Backtrace; assert (fmt == m_Format && "The saved exception is of a different type."); assert ((stmSize + 8) - exception::stream_size() <= is.remaining() && "The saved exception data is corrupt."); m_Format = fmt; } /// Writes the exception into stream \p os as an IFF chunk. void exception::write (ostream& os) const { os << m_Format << uint32_t(stream_size() - 8) << m_Backtrace; } /// Writes the exception as text into stream \p os. void exception::text_write (ostringstream& os) const { USTL_TRY { string buf; info (buf); os << buf; } USTL_CATCH_ALL } //---------------------------------------------------------------------- /// Initializes the empty object. \p nBytes is the size of the attempted allocation. bad_alloc::bad_alloc (size_t nBytes) throw() : ustl::exception(), m_nBytesRequested (nBytes) { set_format (xfmt_BadAlloc); } /// Returns a descriptive error message. fmt="failed to allocate %d bytes" void bad_alloc::info (string& msgbuf, const char* fmt) const throw() { if (!fmt) fmt = "failed to allocate %d bytes"; USTL_TRY { msgbuf.format (fmt, m_nBytesRequested); } USTL_CATCH_ALL } /// Reads the exception from stream \p is. void bad_alloc::read (istream& is) { ustl::exception::read (is); is >> m_nBytesRequested; } /// Writes the exception into stream \p os. void bad_alloc::write (ostream& os) const { ustl::exception::write (os); os << m_nBytesRequested; } /// Returns the size of the written exception. size_t bad_alloc::stream_size (void) const { return (ustl::exception::stream_size() + stream_size_of(m_nBytesRequested)); } //---------------------------------------------------------------------- /// Initializes the empty object. \p operation is the function that returned the error code. libc_exception::libc_exception (const char* operation) throw() : exception(), m_Errno (errno), m_Operation (operation) { set_format (xfmt_LibcException); } /// Copies object \p v. libc_exception::libc_exception (const libc_exception& v) throw() : exception (v), m_Errno (v.m_Errno), m_Operation (v.m_Operation) { } /// Copies object \p v. const libc_exception& libc_exception::operator= (const libc_exception& v) { m_Errno = v.m_Errno; m_Operation = v.m_Operation; return (*this); } /// Returns a descriptive error message. fmt="%s: %m" void libc_exception::info (string& msgbuf, const char* fmt) const throw() { if (!fmt) fmt = "%s: %d %s"; USTL_TRY { msgbuf.format (fmt, m_Operation, m_Errno, strerror(m_Errno)); } USTL_CATCH_ALL } /// Reads the exception from stream \p is. void libc_exception::read (istream& is) { exception::read (is); is >> m_Errno >> m_Operation; } /// Writes the exception into stream \p os. void libc_exception::write (ostream& os) const { exception::write (os); os << m_Errno << m_Operation; } /// Returns the size of the written exception. size_t libc_exception::stream_size (void) const { return (exception::stream_size() + stream_size_of(m_Errno) + stream_size_of(m_Operation)); } //---------------------------------------------------------------------- /// Initializes the empty object. \p operation is the function that returned the error code. file_exception::file_exception (const char* operation, const char* filename) throw() : libc_exception (operation) { memset (m_Filename, 0, VectorSize(m_Filename)); set_format (xfmt_FileException); if (filename) { strncpy (m_Filename, filename, VectorSize(m_Filename)); m_Filename [VectorSize(m_Filename) - 1] = 0; } } /// Returns a descriptive error message. fmt="%s %s: %m" void file_exception::info (string& msgbuf, const char* fmt) const throw() { if (!fmt) fmt = "%s %s: %d %s"; USTL_TRY { msgbuf.format (fmt, m_Operation, m_Filename, m_Errno, strerror(m_Errno)); } USTL_CATCH_ALL } /// Reads the exception from stream \p is. void file_exception::read (istream& is) { libc_exception::read (is); string filename; is >> filename; is.align (8); filename.copyto (filename, VectorSize(m_Filename)); } /// Writes the exception into stream \p os. void file_exception::write (ostream& os) const { libc_exception::write (os); os << string (m_Filename); os.align (8); } /// Returns the size of the written exception. size_t file_exception::stream_size (void) const { return (libc_exception::stream_size() + Align (stream_size_of (string (m_Filename)), 8)); } //---------------------------------------------------------------------- /// \brief Uses C++ ABI call, if available to demangle the contents of \p buf. /// /// The result is written to \p buf, with the maximum size of \p bufSize, and /// is zero-terminated. The return value is \p buf. /// const char* demangle_type_name (char* buf, size_t bufSize, size_t* pdmSize) { size_t bl = strlen (buf); #if HAVE_CXXABI_H && WANT_NAME_DEMANGLING char dmname [256]; size_t sz = VectorSize(dmname); int bFailed; abi::__cxa_demangle (buf, dmname, &sz, &bFailed); if (!bFailed) { bl = min (strlen (dmname), bufSize - 1); memcpy (buf, dmname, bl); buf[bl] = 0; } #else bl = min (bl, bufSize); #endif if (pdmSize) *pdmSize = bl; return (buf); } //---------------------------------------------------------------------- /// Initializes the empty object. \p operation is the function that returned the error code. stream_bounds_exception::stream_bounds_exception (const char* operation, const char* type, uoff_t offset, size_t expected, size_t remaining) throw() : libc_exception (operation), m_TypeName (type), m_Offset (offset), m_Expected (expected), m_Remaining (remaining) { set_format (xfmt_StreamBoundsException); } /// Returns a descriptive error message. fmt="%s stream %s: @%u: expected %u, available %u"; void stream_bounds_exception::info (string& msgbuf, const char* fmt) const throw() { char typeName [256]; strncpy (typeName, m_TypeName, VectorSize(typeName)); typeName[VectorSize(typeName)-1] = 0; if (!fmt) fmt = "%s stream %s: @0x%X: need %u bytes, have %u"; USTL_TRY { msgbuf.format (fmt, demangle_type_name (VectorBlock(typeName)), m_Operation, m_Offset, m_Expected, m_Remaining); } USTL_CATCH_ALL } /// Reads the exception from stream \p is. void stream_bounds_exception::read (istream& is) { libc_exception::read (is); is >> m_TypeName >> m_Offset >> m_Expected >> m_Remaining; } /// Writes the exception into stream \p os. void stream_bounds_exception::write (ostream& os) const { libc_exception::write (os); os << m_TypeName << m_Offset << m_Expected << m_Remaining; } /// Returns the size of the written exception. size_t stream_bounds_exception::stream_size (void) const { return (libc_exception::stream_size() + stream_size_of(m_TypeName) + stream_size_of(m_Offset) + stream_size_of(m_Expected) + stream_size_of(m_Remaining)); } } // namespace ustl