#ifdef GEN_INTELLISENSE_DIRECTIVES # pragma once # include "filesystem.hpp" # include "strings.hpp" # include "string_ops.cpp" #endif #pragma region Printing enum { GEN_FMT_MINUS = bit( 0 ), GEN_FMT_PLUS = bit( 1 ), GEN_FMT_ALT = bit( 2 ), GEN_FMT_SPACE = bit( 3 ), GEN_FMT_ZERO = bit( 4 ), GEN_FMT_CHAR = bit( 5 ), GEN_FMT_SHORT = bit( 6 ), GEN_FMT_INT = bit( 7 ), GEN_FMT_LONG = bit( 8 ), GEN_FMT_LLONG = bit( 9 ), GEN_FMT_SIZE = bit( 10 ), GEN_FMT_INTPTR = bit( 11 ), GEN_FMT_UNSIGNED = bit( 12 ), GEN_FMT_LOWER = bit( 13 ), GEN_FMT_UPPER = bit( 14 ), GEN_FMT_WIDTH = bit( 15 ), GEN_FMT_DONE = bit( 30 ), GEN_FMT_INTS = GEN_FMT_CHAR | GEN_FMT_SHORT | GEN_FMT_INT | GEN_FMT_LONG | GEN_FMT_LLONG | GEN_FMT_SIZE | GEN_FMT_INTPTR }; struct _format_info { s32 base; s32 flags; s32 width; s32 precision; }; internal sw _print_string( char* text, sw max_len, _format_info* info, char const* str ) { sw res = 0, len = 0; sw remaining = max_len; char* begin = text; if ( str == NULL && max_len >= 6 ) { res += str_copy_nulpad( text, "(null)", 6 ); return res; } if ( info && info->precision >= 0 ) // Made the design decision for this library that precision is the length of the string. len = info->precision; else len = str_len( str ); if ( info && ( info->width == 0 && info->flags & GEN_FMT_WIDTH ) ) { return res; } if ( info && ( info->width == 0 || info->flags & GEN_FMT_MINUS ) ) { if ( info->precision > 0 ) len = info->precision < len ? info->precision : len; if ( res + len > max_len ) return res; res += str_copy_nulpad( text, str, len ); text += res; if ( info->width > res ) { sw padding = info->width - len; char pad = ( info->flags & GEN_FMT_ZERO ) ? '0' : ' '; while ( padding-- > 0 && remaining-- > 0 ) *text++ = pad, res++; } } else { if ( info && ( info->width > res ) ) { sw padding = info->width - len; char pad = ( info->flags & GEN_FMT_ZERO ) ? '0' : ' '; while ( padding-- > 0 && remaining-- > 0 ) *text++ = pad, res++; } if ( res + len > max_len ) return res; res += str_copy_nulpad( text, str, len ); } if ( info ) { if ( info->flags & GEN_FMT_UPPER ) str_to_upper( begin ); else if ( info->flags & GEN_FMT_LOWER ) str_to_lower( begin ); } return res; } internal sw _print_char( char* text, sw max_len, _format_info* info, char arg ) { char str[ 2 ] = ""; str[ 0 ] = arg; return _print_string( text, max_len, info, str ); } internal sw _print_repeated_char( char* text, sw max_len, _format_info* info, char arg ) { sw res = 0; s32 rem = ( info ) ? ( info->width > 0 ) ? info->width : 1 : 1; res = rem; while ( rem-- > 0 ) *text++ = arg; return res; } internal sw _print_i64( char* text, sw max_len, _format_info* info, s64 value ) { char num[ 130 ]; i64_to_str( value, num, info ? info->base : 10 ); return _print_string( text, max_len, info, num ); } internal sw _print_u64( char* text, sw max_len, _format_info* info, u64 value ) { char num[ 130 ]; u64_to_str( value, num, info ? info->base : 10 ); return _print_string( text, max_len, info, num ); } internal sw _print_f64( char* text, sw max_len, _format_info* info, b32 is_hexadecimal, f64 arg ) { // TODO: Handle exponent notation sw width, len, remaining = max_len; char* text_begin = text; if ( arg ) { u64 value; if ( arg < 0 ) { if ( remaining > 1 ) *text = '-', remaining--; text++; arg = -arg; } else if ( info->flags & GEN_FMT_MINUS ) { if ( remaining > 1 ) *text = '+', remaining--; text++; } value = zpl_cast( u64 ) arg; len = _print_u64( text, remaining, NULL, value ); text += len; if ( len >= remaining ) remaining = min( remaining, 1 ); else remaining -= len; arg -= value; if ( info->precision < 0 ) info->precision = 6; if ( ( info->flags & GEN_FMT_ALT ) || info->precision > 0 ) { s64 mult = 10; if ( remaining > 1 ) *text = '.', remaining--; text++; while ( info->precision-- > 0 ) { value = zpl_cast( u64 )( arg * mult ); len = _print_u64( text, remaining, NULL, value ); text += len; if ( len >= remaining ) remaining = min( remaining, 1 ); else remaining -= len; arg -= zpl_cast( f64 ) value / mult; mult *= 10; } } } else { if ( remaining > 1 ) *text = '0', remaining--; text++; if ( info->flags & GEN_FMT_ALT ) { if ( remaining > 1 ) *text = '.', remaining--; text++; } } width = info->width - ( text - text_begin ); if ( width > 0 ) { char fill = ( info->flags & GEN_FMT_ZERO ) ? '0' : ' '; char* end = text + remaining - 1; len = ( text - text_begin ); for ( len = ( text - text_begin ); len--; ) { if ( ( text_begin + len + width ) < end ) *( text_begin + len + width ) = *( text_begin + len ); } len = width; text += len; if ( len >= remaining ) remaining = min( remaining, 1 ); else remaining -= len; while ( len-- ) { if ( text_begin + len < end ) text_begin[ len ] = fill; } } return ( text - text_begin ); } neverinline sw str_fmt_va( char* text, sw max_len, char const* fmt, va_list va ) { char const* text_begin = text; sw remaining = max_len, res; while ( *fmt ) { _format_info info = { 0 }; sw len = 0; info.precision = -1; while ( *fmt && *fmt != '%' && remaining ) *text++ = *fmt++; if ( *fmt == '%' ) { do { switch ( *++fmt ) { case '-' : { info.flags |= GEN_FMT_MINUS; break; } case '+' : { info.flags |= GEN_FMT_PLUS; break; } case '#' : { info.flags |= GEN_FMT_ALT; break; } case ' ' : { info.flags |= GEN_FMT_SPACE; break; } case '0' : { info.flags |= ( GEN_FMT_ZERO | GEN_FMT_WIDTH ); break; } default : { info.flags |= GEN_FMT_DONE; break; } } } while ( ! ( info.flags & GEN_FMT_DONE ) ); } // NOTE: Optional Width if ( *fmt == '*' ) { int width = va_arg( va, int ); if ( width < 0 ) { info.flags |= GEN_FMT_MINUS; info.width = -width; } else { info.width = width; } info.flags |= GEN_FMT_WIDTH; fmt++; } else { info.width = zpl_cast( s32 ) str_to_i64( fmt, zpl_cast( char** ) & fmt, 10 ); if ( info.width != 0 ) { info.flags |= GEN_FMT_WIDTH; } } // NOTE: Optional Precision if ( *fmt == '.' ) { fmt++; if ( *fmt == '*' ) { info.precision = va_arg( va, int ); fmt++; } else { info.precision = zpl_cast( s32 ) str_to_i64( fmt, zpl_cast( char** ) & fmt, 10 ); } info.flags &= ~GEN_FMT_ZERO; } switch ( *fmt++ ) { case 'h' : if ( *fmt == 'h' ) { // hh => char info.flags |= GEN_FMT_CHAR; fmt++; } else { // h => short info.flags |= GEN_FMT_SHORT; } break; case 'l' : if ( *fmt == 'l' ) { // ll => long long info.flags |= GEN_FMT_LLONG; fmt++; } else { // l => long info.flags |= GEN_FMT_LONG; } break; break; case 'z' : // NOTE: zpl_usize info.flags |= GEN_FMT_UNSIGNED; // fallthrough case 't' : // NOTE: zpl_isize info.flags |= GEN_FMT_SIZE; break; default : fmt--; break; } switch ( *fmt ) { case 'u' : info.flags |= GEN_FMT_UNSIGNED; // fallthrough case 'd' : case 'i' : info.base = 10; break; case 'o' : info.base = 8; break; case 'x' : info.base = 16; info.flags |= ( GEN_FMT_UNSIGNED | GEN_FMT_LOWER ); break; case 'X' : info.base = 16; info.flags |= ( GEN_FMT_UNSIGNED | GEN_FMT_UPPER ); break; case 'f' : case 'F' : case 'g' : case 'G' : len = _print_f64( text, remaining, &info, 0, va_arg( va, f64 ) ); break; case 'a' : case 'A' : len = _print_f64( text, remaining, &info, 1, va_arg( va, f64 ) ); break; case 'c' : len = _print_char( text, remaining, &info, zpl_cast( char ) va_arg( va, int ) ); break; case 's' : len = _print_string( text, remaining, &info, va_arg( va, char* ) ); break; case 'S': { String gen_str = String { va_arg( va, char*) }; info.precision = gen_str.length(); len = _print_string( text, remaining, &info, gen_str ); } break; case 'r' : len = _print_repeated_char( text, remaining, &info, va_arg( va, int ) ); break; case 'p' : info.base = 16; info.flags |= ( GEN_FMT_LOWER | GEN_FMT_UNSIGNED | GEN_FMT_ALT | GEN_FMT_INTPTR ); break; case '%' : len = _print_char( text, remaining, &info, '%' ); break; default : fmt--; break; } fmt++; if ( info.base != 0 ) { if ( info.flags & GEN_FMT_UNSIGNED ) { u64 value = 0; switch ( info.flags & GEN_FMT_INTS ) { case GEN_FMT_CHAR : value = zpl_cast( u64 ) zpl_cast( u8 ) va_arg( va, int ); break; case GEN_FMT_SHORT : value = zpl_cast( u64 ) zpl_cast( u16 ) va_arg( va, int ); break; case GEN_FMT_LONG : value = zpl_cast( u64 ) va_arg( va, unsigned long ); break; case GEN_FMT_LLONG : value = zpl_cast( u64 ) va_arg( va, unsigned long long ); break; case GEN_FMT_SIZE : value = zpl_cast( u64 ) va_arg( va, uw ); break; case GEN_FMT_INTPTR : value = zpl_cast( u64 ) va_arg( va, uptr ); break; default : value = zpl_cast( u64 ) va_arg( va, unsigned int ); break; } len = _print_u64( text, remaining, &info, value ); } else { s64 value = 0; switch ( info.flags & GEN_FMT_INTS ) { case GEN_FMT_CHAR : value = zpl_cast( s64 ) zpl_cast( s8 ) va_arg( va, int ); break; case GEN_FMT_SHORT : value = zpl_cast( s64 ) zpl_cast( s16 ) va_arg( va, int ); break; case GEN_FMT_LONG : value = zpl_cast( s64 ) va_arg( va, long ); break; case GEN_FMT_LLONG : value = zpl_cast( s64 ) va_arg( va, long long ); break; case GEN_FMT_SIZE : value = zpl_cast( s64 ) va_arg( va, uw ); break; case GEN_FMT_INTPTR : value = zpl_cast( s64 ) va_arg( va, uptr ); break; default : value = zpl_cast( s64 ) va_arg( va, int ); break; } len = _print_i64( text, remaining, &info, value ); } } text += len; if ( len >= remaining ) remaining = min( remaining, 1 ); else remaining -= len; } *text++ = '\0'; res = ( text - text_begin ); return ( res >= max_len || res < 0 ) ? -1 : res; } char* str_fmt_buf_va( char const* fmt, va_list va ) { local_persist thread_local char buffer[ GEN_PRINTF_MAXLEN ]; str_fmt_va( buffer, size_of( buffer ), fmt, va ); return buffer; } char* str_fmt_buf( char const* fmt, ... ) { va_list va; char* str; va_start( va, fmt ); str = str_fmt_buf_va( fmt, va ); va_end( va ); return str; } sw str_fmt_file_va( struct FileInfo* f, char const* fmt, va_list va ) { local_persist thread_local char buf[ GEN_PRINTF_MAXLEN ]; sw len = str_fmt_va( buf, size_of( buf ), fmt, va ); b32 res = file_write( f, buf, len - 1 ); // NOTE: prevent extra whitespace return res ? len : -1; } sw str_fmt_file( struct FileInfo* f, char const* fmt, ... ) { sw res; va_list va; va_start( va, fmt ); res = str_fmt_file_va( f, fmt, va ); va_end( va ); return res; } sw str_fmt( char* str, sw n, char const* fmt, ... ) { sw res; va_list va; va_start( va, fmt ); res = str_fmt_va( str, n, fmt, va ); va_end( va ); return res; } sw str_fmt_out_va( char const* fmt, va_list va ) { return str_fmt_file_va( file_get_standard( EFileStandard_OUTPUT ), fmt, va ); } sw str_fmt_out_err_va( char const* fmt, va_list va ) { return str_fmt_file_va( file_get_standard( EFileStandard_ERROR ), fmt, va ); } sw str_fmt_out_err( char const* fmt, ... ) { sw res; va_list va; va_start( va, fmt ); res = str_fmt_out_err_va( fmt, va ); va_end( va ); return res; } #pragma endregion Printing