#ifdef GEN_INTELLISENSE_DIRECTIVES # pragma once # include "gen.hpp" #endif // This is a simple file reader that reads the entire file into memory. // It has an extra option to skip the first few lines for undesired includes. // This is done so that includes can be kept in dependency and component files so that intellisense works. inline Code scan_file( char const* path ) { FileInfo file; FileError error = file_open_mode( & file, EFileMode_READ, path ); if ( error != EFileError_NONE ) { GEN_FATAL( "scan_file: Could not open: %s", path ); } ssize fsize = file_size( & file ); if ( fsize <= 0 ) { GEN_FATAL("scan_file: %s is empty", path ); } String str = string_make_reserve( GlobalAllocator, fsize ); file_read( & file, str, fsize ); get_header(str)->Length = fsize; // Skip GEN_INTELLISENSE_DIRECTIVES preprocessor blocks // Its designed so that the directive should be the first thing in the file. // Anything that comes before it will also be omitted. { #define current (*scanner) #define matched 0 #define move_fwd() do { ++ scanner; -- left; } while (0) const StrC directive_start = txt( "ifdef" ); const StrC directive_end = txt( "endif" ); const StrC def_intellisense = txt("GEN_INTELLISENSE_DIRECTIVES" ); bool found_directive = false; char const* scanner = (char const*)str; s32 left = fsize; while ( left ) { // Processing directive. if ( current == '#' ) { move_fwd(); while ( left && char_is_space( current ) ) move_fwd(); if ( ! found_directive ) { if ( left && str_compare( scanner, directive_start.Ptr, directive_start.Len ) == matched ) { scanner += directive_start.Len; left -= directive_start.Len; while ( left && char_is_space( current ) ) move_fwd(); if ( left && str_compare( scanner, def_intellisense.Ptr, def_intellisense.Len ) == matched ) { scanner += def_intellisense.Len; left -= def_intellisense.Len; found_directive = true; } } // Skip to end of line while ( left && current != '\r' && current != '\n' ) move_fwd(); move_fwd(); if ( left && current == '\n' ) move_fwd(); continue; } if ( left && str_compare( scanner, directive_end.Ptr, directive_end.Len ) == matched ) { scanner += directive_end.Len; left -= directive_end.Len; // Skip to end of line while ( left && current != '\r' && current != '\n' ) move_fwd(); move_fwd(); if ( left && current == '\n' ) move_fwd(); // sptr skip_size = fsize - left; if ( (scanner + 2) >= ( (char const*) str + fsize ) ) { mem_move( str, scanner, left ); get_header(str)->Length = left; break; } mem_move( str, scanner, left ); get_header(str)->Length = left; break; } } move_fwd(); } #undef move_fwd #undef matched #undef current } file_close( & file ); return untyped_str( to_strc(str) ); } #if 0 struct CodeFile { using namespace Parser; String FilePath; TokArray Tokens; Array ParseFailures; Code CodeRoot; }; namespace Parser { struct ParseFailure { String Reason; Code Node; }; } CodeFile scan_file( char const* path ) { using namespace Parser; CodeFile result = {}; result.FilePath = String::make( GlobalAllocator, path ); Code code = scan_file( path ); result.CodeRoot = code; ParseContext context = parser_get_last_context(); result.Tokens = context.Tokens; result.ParseFailures = context.Failures; return result; } #endif