// This code is in the public domain -- Ignacio Castaņo //#pragma once //#ifndef NV_CORE_STDSTREAM_H //#define NV_CORE_STDSTREAM_H #include "nvcore.h" #include "Stream.h" #include "Array.h" #include // fopen #include // memcpy namespace nv { // Portable version of fopen. inline FILE * fileOpen(const char * fileName, const char * mode) { nvCheck(fileName != NULL); #if NV_CC_MSVC && _MSC_VER >= 1400 FILE * fp; if (fopen_s(&fp, fileName, mode) == 0) { return fp; } return NULL; #else return fopen(fileName, mode); #endif } /// Base stdio stream. class NVCORE_CLASS StdStream : public Stream { NV_FORBID_COPY(StdStream); public: /// Ctor. StdStream( FILE * fp, bool autoclose ) : m_fp(fp), m_autoclose(autoclose) { } /// Dtor. virtual ~StdStream() { if( m_fp != NULL && m_autoclose ) { #if NV_OS_WIN32 _fclose_nolock( m_fp ); #else fclose( m_fp ); #endif } } /** @name Stream implementation. */ //@{ virtual void seek( uint pos ) { nvDebugCheck(m_fp != NULL); nvDebugCheck(pos <= size()); #if NV_OS_WIN32 _fseek_nolock(m_fp, pos, SEEK_SET); #else fseek(m_fp, pos, SEEK_SET); #endif } virtual uint tell() const { nvDebugCheck(m_fp != NULL); #if NV_OS_WIN32 return _ftell_nolock(m_fp); #else return (uint)ftell(m_fp); #endif } virtual uint size() const { nvDebugCheck(m_fp != NULL); #if NV_OS_WIN32 uint pos = _ftell_nolock(m_fp); _fseek_nolock(m_fp, 0, SEEK_END); uint end = _ftell_nolock(m_fp); _fseek_nolock(m_fp, pos, SEEK_SET); #else uint pos = (uint)ftell(m_fp); fseek(m_fp, 0, SEEK_END); uint end = (uint)ftell(m_fp); fseek(m_fp, pos, SEEK_SET); #endif return end; } virtual bool isError() const { return m_fp == NULL || ferror( m_fp ) != 0; } virtual void clearError() { nvDebugCheck(m_fp != NULL); clearerr(m_fp); } // @@ The original implementation uses feof, which only returns true when we attempt to read *past* the end of the stream. // That is, if we read the last byte of a file, then isAtEnd would still return false, even though the stream pointer is at the file end. This is not the intent and was inconsistent with the implementation of the MemoryStream, a better // implementation uses use ftell and fseek to determine our location within the file. virtual bool isAtEnd() const { if (m_fp == NULL) return true; //nvDebugCheck(m_fp != NULL); //return feof( m_fp ) != 0; #if NV_OS_WIN32 uint pos = _ftell_nolock(m_fp); _fseek_nolock(m_fp, 0, SEEK_END); uint end = _ftell_nolock(m_fp); _fseek_nolock(m_fp, pos, SEEK_SET); #else uint pos = (uint)ftell(m_fp); fseek(m_fp, 0, SEEK_END); uint end = (uint)ftell(m_fp); fseek(m_fp, pos, SEEK_SET); #endif return pos == end; } /// Always true. virtual bool isSeekable() const { return true; } //@} protected: FILE * m_fp; bool m_autoclose; }; /// Standard output stream. class NVCORE_CLASS StdOutputStream : public StdStream { NV_FORBID_COPY(StdOutputStream); public: /// Construct stream by file name. StdOutputStream( const char * name ) : StdStream(fileOpen(name, "wb"), /*autoclose=*/true) { } /// Construct stream by file handle. StdOutputStream( FILE * fp, bool autoclose ) : StdStream(fp, autoclose) { } /** @name Stream implementation. */ //@{ /// Write data. virtual uint serialize( void * data, uint len ) { nvDebugCheck(data != NULL); nvDebugCheck(m_fp != NULL); #if NV_OS_WIN32 return (uint)_fwrite_nolock(data, 1, len, m_fp); #elif NV_OS_LINUX return (uint)fwrite_unlocked(data, 1, len, m_fp); #elif NV_OS_DARWIN // @@ No error checking, always returns len. for (uint i = 0; i < len; i++) { putc_unlocked(((char *)data)[i], m_fp); } return len; #else return (uint)fwrite(data, 1, len, m_fp); #endif } virtual bool isLoading() const { return false; } virtual bool isSaving() const { return true; } //@} }; /// Standard input stream. class NVCORE_CLASS StdInputStream : public StdStream { NV_FORBID_COPY(StdInputStream); public: /// Construct stream by file name. StdInputStream( const char * name ) : StdStream(fileOpen(name, "rb"), /*autoclose=*/true) { } /// Construct stream by file handle. StdInputStream( FILE * fp, bool autoclose=true ) : StdStream(fp, autoclose) { } /** @name Stream implementation. */ //@{ /// Read data. virtual uint serialize( void * data, uint len ) { nvDebugCheck(data != NULL); nvDebugCheck(m_fp != NULL); #if NV_OS_WIN32 return (uint)_fread_nolock(data, 1, len, m_fp); #elif NV_OS_LINUX return (uint)fread_unlocked(data, 1, len, m_fp); #elif NV_OS_DARWIN // This is rather lame. Not sure if it's faster than the locked version. for (uint i = 0; i < len; i++) { ((char *)data)[i] = getc_unlocked(m_fp); if (feof_unlocked(m_fp) != 0) { return i; } } return len; #else return (uint)fread(data, 1, len, m_fp); #endif } virtual bool isLoading() const { return true; } virtual bool isSaving() const { return false; } //@} }; /// Memory input stream. class NVCORE_CLASS MemoryInputStream : public Stream { NV_FORBID_COPY(MemoryInputStream); public: /// Ctor. MemoryInputStream( const uint8 * mem, uint size ) : m_mem(mem), m_ptr(mem), m_size(size) { } /** @name Stream implementation. */ //@{ /// Read data. virtual uint serialize( void * data, uint len ) { nvDebugCheck(data != NULL); nvDebugCheck(!isError()); uint left = m_size - tell(); if (len > left) len = left; memcpy( data, m_ptr, len ); m_ptr += len; return len; } virtual void seek( uint pos ) { nvDebugCheck(!isError()); m_ptr = m_mem + pos; nvDebugCheck(!isError()); } virtual uint tell() const { nvDebugCheck(m_ptr >= m_mem); return uint(m_ptr - m_mem); } virtual uint size() const { return m_size; } virtual bool isError() const { return m_mem == NULL || m_ptr > m_mem + m_size || m_ptr < m_mem; } virtual void clearError() { // Nothing to do. } virtual bool isAtEnd() const { return m_ptr == m_mem + m_size; } /// Always true. virtual bool isSeekable() const { return true; } virtual bool isLoading() const { return true; } virtual bool isSaving() const { return false; } //@} const uint8 * ptr() const { return m_ptr; } private: const uint8 * m_mem; const uint8 * m_ptr; uint m_size; }; /// Buffer output stream. class NVCORE_CLASS BufferOutputStream : public Stream { NV_FORBID_COPY(BufferOutputStream); public: BufferOutputStream(Array & buffer) : m_buffer(buffer) { } virtual uint serialize( void * data, uint len ) { nvDebugCheck(data != NULL); m_buffer.append((uint8 *)data, len); return len; } virtual void seek( uint /*pos*/ ) { /*Not implemented*/ } virtual uint tell() const { return m_buffer.size(); } virtual uint size() const { return m_buffer.size(); } virtual bool isError() const { return false; } virtual void clearError() {} virtual bool isAtEnd() const { return true; } virtual bool isSeekable() const { return false; } virtual bool isLoading() const { return false; } virtual bool isSaving() const { return true; } private: Array & m_buffer; }; /// Protected input stream. class NVCORE_CLASS ProtectedStream : public Stream { NV_FORBID_COPY(ProtectedStream); public: /// Ctor. ProtectedStream( Stream & s ) : m_s(&s), m_autodelete(false) { } /// Ctor. ProtectedStream( Stream * s, bool autodelete = true ) : m_s(s), m_autodelete(autodelete) { nvDebugCheck(m_s != NULL); } /// Dtor. virtual ~ProtectedStream() { if( m_autodelete ) { delete m_s; } } /** @name Stream implementation. */ //@{ /// Read data. virtual uint serialize( void * data, uint len ) { nvDebugCheck(data != NULL); len = m_s->serialize( data, len ); if( m_s->isError() ) { #if NV_OS_ORBIS //SBtodoORBIS disabled (no exceptions) #else throw; #endif } return len; } virtual void seek( uint pos ) { m_s->seek( pos ); if( m_s->isError() ) { #if NV_OS_ORBIS //SBtodoORBIS disabled (no exceptions) #else throw; #endif } } virtual uint tell() const { return m_s->tell(); } virtual uint size() const { return m_s->size(); } virtual bool isError() const { return m_s->isError(); } virtual void clearError() { m_s->clearError(); } virtual bool isAtEnd() const { return m_s->isAtEnd(); } virtual bool isSeekable() const { return m_s->isSeekable(); } virtual bool isLoading() const { return m_s->isLoading(); } virtual bool isSaving() const { return m_s->isSaving(); } //@} private: Stream * const m_s; bool const m_autodelete; }; } // nv namespace //#endif // NV_CORE_STDSTREAM_H