// Copyright (c) 2018-2019 Emil Dotchevski and Reverge Studios, Inc. // Distributed under the Boost Software License, Version 1.0. (See accompanying // file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) // This is the program presented in https://zajo.github.io/leaf/#introduction-result. // It reads a text file in a buffer and prints it to std::cout, using LEAF to handle errors. // This version does not use exception handling. The version that does use exception // handling is in print_file_eh.cpp. #include #include #include #include #include #include #include namespace leaf = boost::leaf; // First, we need an enum to define our error codes: enum error_code { bad_command_line = 1, input_file_open_error, input_file_size_error, input_file_read_error, input_eof_error, cout_error }; // To enable LEAF to work with our error_code enum, we need to specialize the is_e_type template: namespace boost { namespace leaf { template<> struct is_e_type: std::true_type { }; } } // We will handle all failures in our main function, but first, here are the declarations of the functions it calls, each // communicating failures using leaf::result: // Parse the command line, return the file name. leaf::result parse_command_line( int argc, char const * argv[] ); // Open a file for reading. leaf::result> file_open( char const * file_name ); // Return the size of the file. leaf::result file_size( FILE & f ); // Read size bytes from f into buf. leaf::result file_read( FILE & f, void * buf, int size ); // The main function, which handles all errors. int main( int argc, char const * argv[] ) { return leaf::try_handle_all( [&]() -> leaf::result { LEAF_AUTO(file_name, parse_command_line(argc,argv)); auto load = leaf::preload( leaf::e_file_name{file_name} ); LEAF_AUTO(f, file_open(file_name)); LEAF_AUTO(s, file_size(*f)); std::string buffer( 1 + s, '\0' ); LEAF_CHECK(file_read(*f, &buffer[0], buffer.size()-1)); std::cout << buffer; std::cout.flush(); if( std::cout.fail() ) return leaf::new_error( cout_error, leaf::e_errno{errno} ); return 0; }, // Each of the lambdas below is an error handler. LEAF will consider them, in order, and call the first one that matches // the available error objects. // This handler will be called if the error includes: // - an object of type error_code equal to input_file_open_error, and // - an object of type leaf::e_errno that has .value equal to ENOENT, and // - an object of type leaf::e_file_name. []( leaf::match, leaf::match, leaf::e_file_name const & fn ) { std::cerr << "File not found: " << fn.value << std::endl; return 1; }, // This handler will be called if the error includes: // - an object of type error_code equal to input_file_open_error, and // - an object of type leaf::e_errno (regardless of its .value), and // - an object of type leaf::e_file_name. []( leaf::match, leaf::e_errno const & errn, leaf::e_file_name const & fn ) { std::cerr << "Failed to open " << fn.value << ", errno=" << errn << std::endl; return 2; }, // This handler will be called if the error includes: // - an object of type error_code equal to any of input_file_size_error, input_file_read_error, input_eof_error, and // - an object of type leaf::e_errno (regardless of its .value), and // - an object of type leaf::e_file_name. []( leaf::match, leaf::e_errno const & errn, leaf::e_file_name const & fn ) { std::cerr << "Failed to access " << fn.value << ", errno=" << errn << std::endl; return 3; }, // This handler will be called if the error includes: // - an object of type error_code equal to cout_error, and // - an object of type leaf::e_errno (regardless of its .value), []( leaf::match, leaf::e_errno const & errn ) { std::cerr << "Output error, errno=" << errn << std::endl; return 4; }, // This handler will be called if the error includes an object of type error_code equal to bad_command_line. []( leaf::match ) { std::cout << "Bad command line argument" << std::endl; return 5; }, // This last handler matches any error: it prints diagnostic information to help debug logic errors in the program, since it // failed to match an appropriate error handler to the error condition it encountered. In this program this handler will // never be called. []( leaf::error_info const & unmatched ) { std::cerr << "Unknown failure detected" << std::endl << "Cryptic diagnostic information follows" << std::endl << unmatched; return 6; } ); } // Implementations of the functions called by main: // Parse the command line, return the file name. leaf::result parse_command_line( int argc, char const * argv[] ) { if( argc==2 ) return argv[1]; else return leaf::new_error(bad_command_line); } // Open a file for reading. leaf::result> file_open( char const * file_name ) { if( FILE * f = fopen(file_name,"rb") ) return std::shared_ptr(f,&fclose); else return leaf::new_error(input_file_open_error, leaf::e_errno{errno}); } // Return the size of the file. leaf::result file_size( FILE & f ) { // All exceptions escaping this function will automatically load errno. auto load = leaf::defer([] { return leaf::e_errno{errno}; }); if( fseek(&f,0,SEEK_END) ) return leaf::new_error(input_file_size_error); int s = ftell(&f); if( s==-1L ) return leaf::new_error(input_file_size_error); if( fseek(&f,0,SEEK_SET) ) return leaf::new_error(input_file_size_error); return s; } // Read size bytes from f into buf. leaf::result file_read( FILE & f, void * buf, int size ) { int n = fread(buf,1,size,&f); if( ferror(&f) ) return leaf::new_error(input_file_read_error, leaf::e_errno{errno}); if( n!=size ) return leaf::new_error(input_eof_error); return { }; }