//Copyright (c) 2018 Emil Dotchevski //Copyright (c) 2018 Second Spectrum, 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 example demonstrates the basic use of LEAF to augment error conditions with //additional information when using exceptions to report failures. See print_file_ec.cpp //for the variant that uses error codes. #include #include #include namespace leaf = boost::leaf; //We could define our own exception info types, but for this example the ones //defined in are a perfect match. using leaf::ei_file_name; using leaf::ei_errno; //Exception type hierarchy. struct print_file_error : virtual std::exception { }; struct command_line_error : virtual print_file_error { }; struct bad_command_line : virtual command_line_error { }; struct io_error : virtual print_file_error { }; struct file_error : virtual io_error { }; struct file_open_error : virtual file_error { }; struct file_size_error : virtual file_error { }; struct file_read_error : virtual file_error { }; struct file_eof_error : virtual file_error { }; std::shared_ptr file_open( char const * file_name ) { if( FILE * f = fopen(file_name,"rb") ) return std::shared_ptr(f,&fclose); else leaf::throw_exception( file_open_error(), ei_file_name{file_name}, ei_errno{errno} ); } int file_size( FILE & f ) { auto put = leaf::preload(&leaf::get_errno); if( fseek(&f,0,SEEK_END) ) throw file_size_error(); int s = ftell(&f); if( s==-1L ) throw file_size_error(); if( fseek(&f,0,SEEK_SET) ) throw file_size_error(); return s; } void file_read( FILE & f, void * buf, int size ) { int n = fread(buf,1,size,&f); if( ferror(&f) ) leaf::throw_exception( file_read_error(), ei_errno{errno} ); if( n!=size ) throw file_eof_error(); } void print_file( char const * file_name ) { auto put = leaf::preload( ei_file_name{file_name} ); std::shared_ptr f = file_open( file_name ); std::string buffer( 1+file_size(*f), '\0' ); file_read(*f,&buffer[0],buffer.size()-1); std::cout << buffer; std::cout.flush(); } char const * parse_command_line( int argc, char const * argv[ ] ) { if( argc!=2 ) throw bad_command_line(); return argv[1]; } int main( int argc, char const * argv[ ] ) { std::cout.exceptions ( std::ostream::failbit | std::ostream::badbit ); //We expect ei_file_name and ei_errno info to arrive with exceptions handled in this function. leaf::expect exp; try { print_file(parse_command_line(argc,argv)); } catch( bad_command_line const & ) { std::cout << "Bad command line argument" << std::endl; return 1; } catch( file_open_error const & e ) { //handle_error is given a list of match objects (in this case only one), which it attempts to match (in order) to //available exception info (if none can be matched, it throws leaf::mismatch_error). handle_error( exp, e, leaf::match( [ ] ( std::string const & fn, int errn ) { if( errn==ENOENT ) std::cerr << "File not found: " << fn << std::endl; else std::cerr << "Failed to open " << fn << ", errno=" << errn << std::endl; } ) ); return 2; } catch( io_error const & e ) { //handle_error is given a list of match objects, which it attempts to match (in order) to available exception info. //In this case it will first check if both ei_file_name and ei_errno are avialable; if not, it will next check //if just ei_errno is available; and if not, the last match will match even if no exception info is available, //to print a generic error message. handle_error( exp, e, leaf::match( [ ] ( std::string const & fn, int errn ) { std::cerr << "Failed to access " << fn << ", errno=" << errn << std::endl; } ), leaf::match( [ ] ( int errn ) { std::cerr << "I/O error, errno=" << errn << std::endl; } ), leaf::match<>( [ ] { std::cerr << "I/O error" << std::endl; } ) ); return 3; } catch(...) { std::cerr << "Unknown error, cryptic information follows." << std::endl; exp.print_current_exception_diagnostic_information(std::cerr); return 4; } return 0; }