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# if (is(tcc) && is(linux)) || (is(gcc) && !is(mingw)) // || is(clang)
int __argc ; char * * __argv ;
# if !is(ems)
__attribute__ ( ( constructor ) ) void init_argcv ( int argc , char * * argv ) { __argc = argc ; __argv = argv ; }
# endif
# endif
const char * app_path ( ) { // @fixme: should return absolute path always. see tcc -g -run
static char buffer [ 1024 ] = { 0 } ;
if ( buffer [ 0 ] ) return buffer ;
# if is(win32)
unsigned length = GetModuleFileNameA ( NULL , buffer , sizeof ( buffer ) ) ; // @todo: use GetModuleFileNameW+wchar_t && convert to utf8 instead
char * a = strrchr ( buffer , ' / ' ) ; if ( ! a ) a = buffer + strlen ( buffer ) ;
char * b = strrchr ( buffer , ' \\ ' ) ; if ( ! b ) b = buffer + strlen ( buffer ) ;
char slash = ( a < b ? * a : b < a ? * b : ' / ' ) ;
snprintf ( buffer , 1024 , " %.*s%c " , length - ( int ) ( a < b ? b - a : a - b ) , buffer , slash ) ;
if ( strendi ( buffer , " tools \\ tcc \\ " ) ) { // fix tcc -g -run case. @fixme: use TOOLS instead
strcat ( buffer , " .. \\ .. \\ " ) ;
}
# else // #elif is(linux)
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char path [ 32 ] = { 0 } ;
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sprintf ( path , " /proc/%d/exe " , getpid ( ) ) ;
readlink ( path , buffer , sizeof ( buffer ) ) ;
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if ( strrchr ( buffer , ' / ' ) ) 1 [ strrchr ( buffer , ' / ' ) ] = ' \0 ' ;
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# endif
return buffer ;
}
const char * app_temp ( ) {
static char buffer [ 256 ] = { 0 } ;
if ( ! buffer [ 0 ] ) {
snprintf ( buffer , 256 , " %s " , ifdef ( win32 , getenv ( " TEMP " ) , P_tmpdir ) ) ;
for ( int i = 0 ; buffer [ i ] ; + + i ) if ( buffer [ i ] = = ' \\ ' ) buffer [ i ] = ' / ' ;
if ( buffer [ strlen ( buffer ) - 1 ] ! = ' / ' ) strcat ( buffer , " / " ) ;
}
return buffer ;
}
/*
bool exporting_dll = ! strcmp ( STRINGIZE ( API ) , STRINGIZE ( EXPORT ) ) ;
bool importing_dll = ! strcmp ( STRINGIZE ( API ) , STRINGIZE ( IMPORT ) ) ;
else static_build
*/
# ifndef APP_NAME
# define APP_NAME ifdef(ems, "", (__argv ? __argv[0] : ""))
# endif
const char * app_name ( ) {
static char buffer [ 256 ] = { 0 } ;
if ( ! buffer [ 0 ] ) {
char s [ 256 ] ;
strncpy ( s , APP_NAME , 256 ) ;
char * a = strrchr ( s , ' / ' ) ;
char * b = strrchr ( s , ' \\ ' ) ;
strncpy ( buffer , a > b ? a + 1 : b > a ? b + 1 : s , 256 ) ;
if ( strendi ( buffer , " .exe " ) ) buffer [ strlen ( buffer ) - 4 ] = 0 ;
}
return buffer ;
}
const char * app_cmdline ( ) {
static char * cmdline = 0 ;
if ( ! cmdline ) {
if ( argc ( ) < = 1 ) strcatf ( & cmdline , " %s " , " " ) ;
for ( int i = 1 ; i < argc ( ) ; + + i ) strcatf ( & cmdline , " %s " , argv ( i ) ) ;
}
return cmdline + 1 ;
}
const char * app_cache ( ) {
static char buffer [ 256 ] = { 0 } ;
if ( ! buffer [ 0 ] ) {
# if is(osx)
snprintf ( buffer , 256 , " ~/Library/Caches/%s/ " , app_name ( ) ) ; // getenv("user.home")
# elif is(win32) // APPDATA for roaming?
snprintf ( buffer , 256 , " %s \\ %s \\ " , getenv ( " LOCALAPPDATA " ) , app_name ( ) ) ; // getenv("LOCALAPPDATA")
# else // linux
snprintf ( buffer , 256 , " ~/.cache/%s/ " , app_name ( ) ) ; // getenv("user.home")
# endif
mkdir ( buffer , 0777 ) ;
for ( int i = 0 ; buffer [ i ] ; + + i ) if ( buffer [ i ] = = ' \\ ' ) buffer [ i ] = ' / ' ;
}
return buffer ;
}
const char * app_exec ( const char * cmd ) {
static __thread char output [ 4096 + 16 ] = { 0 } ;
if ( ! cmd [ 0 ] ) return " 0 " ;
cmd = file_normalize ( cmd ) ;
int rc = - 1 ;
char * buf = output + 16 ; buf [ 0 ] = 0 ; // memset(buf, 0, 4096);
for ( FILE * fp = popen ( cmd , " r " ) ; fp ; rc = pclose ( fp ) , fp = 0 ) {
while ( fgets ( buf , 4096 - 1 , fp ) ) {
}
}
if ( rc ! = 0 ) {
char * r = strrchr ( buf , ' \r ' ) ; if ( r ) * r = 0 ;
char * n = strrchr ( buf , ' \n ' ) ; if ( n ) * n = 0 ;
}
return snprintf ( output , 16 , " %-15d " , rc ) , buf [ - 1 ] = ' ' , output ;
}
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int app_spawn ( const char * cmd ) {
if ( ! cmd [ 0 ] ) return - 1 ;
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cmd = file_normalize ( cmd ) ;
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return system ( cmd ) ;
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}
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# if is(osx)
# include <execinfo.h> // backtrace, backtrace_symbols
# include <dlfcn.h> // dladdr, Dl_info
# elif is(gcc) && !is(ems) && !is(mingw) // maybe is(linux) is enough?
# include <execinfo.h> // backtrace, backtrace_symbols
# elif is(win32) // && !defined __TINYC__
# include <winsock2.h> // windows.h alternative
# include <dbghelp.h>
# pragma comment(lib, "DbgHelp")
# pragma comment(lib, "Kernel32")
static int backtrace ( void * * addr , int maxtraces ) {
static bool init = 0 ;
do_once SymSetOptions ( SYMOPT_UNDNAME | SYMOPT_DEFERRED_LOADS | SYMOPT_INCLUDE_32BIT_MODULES ) ;
do_once init = SymInitialize ( GetCurrentProcess ( ) , NULL , TRUE ) ;
if ( ! init ) return 0 ; // error: cannot initialize DbgHelp.lib
//typedef USHORT (WINAPI *pFN)(__in ULONG, __in ULONG, __out PVOID*, __out_opt PULONG); // _MSC_VER
typedef USHORT ( WINAPI * pFN ) ( ) ; // TINYC
static pFN rtlCaptureStackBackTrace = 0 ;
if ( ! rtlCaptureStackBackTrace ) {
rtlCaptureStackBackTrace = ( pFN ) GetProcAddress ( LoadLibraryA ( " kernel32.dll " ) , " RtlCaptureStackBackTrace " ) ;
}
if ( ! rtlCaptureStackBackTrace ) {
return 0 ;
}
return rtlCaptureStackBackTrace ( 1 , maxtraces , ( PVOID * ) addr , ( DWORD * ) 0 ) ;
}
static char * * backtrace_symbols ( void * const * list , int size ) {
HANDLE process = GetCurrentProcess ( ) ;
struct symbol_t {
SYMBOL_INFO info ;
TCHAR symbolname [ 256 ] , terminator ;
} si = { { 0 } } ;
si . info . SizeOfStruct = sizeof ( SYMBOL_INFO ) ;
si . info . MaxNameLen = sizeof ( si . symbolname ) / sizeof ( TCHAR ) ; // number of chars, not bytes
IMAGEHLP_LINE l64 = { 0 } ;
l64 . SizeOfStruct = sizeof ( IMAGEHLP_LINE ) ;
static __thread char * * symbols = 0 ; //[32][64] = {0};
if ( ! symbols ) {
symbols = SYS_REALLOC ( 0 , 128 * sizeof ( char * ) ) ;
for ( int i = 0 ; i < 128 ; + + i ) symbols [ i ] = SYS_REALLOC ( 0 , 128 * sizeof ( char ) ) ;
}
if ( size > 128 ) size = 128 ;
for ( int i = 0 ; i < size ; + + i ) {
char * ptr = symbols [ i ] ;
* ptr = ' \0 ' ;
if ( SymFromAddr ( process , ( DWORD64 ) ( uintptr_t ) list [ i ] , 0 , & si . info ) ) {
//char undecorated[1024];
//UnDecorateSymbolName(si.info.Name, undecorated, sizeof(undecorated)-1, UNDNAME_COMPLETE);
char * undecorated = ( char * ) si . info . Name ;
ptr + = snprintf ( ptr , 128 , " %s " , undecorated ) ;
} else {
ptr + = snprintf ( ptr , 128 , " %s " , " (? " " ?) " ) ;
}
DWORD dw = 0 ;
if ( SymGetLineFromAddr ( process , ( DWORD64 ) ( uintptr_t ) list [ i ] , & dw , & l64 ) ) {
ptr + = snprintf ( ptr , 128 - ( ptr - symbols [ i ] ) , " (%s:%u) " , l64 . FileName , ( unsigned ) l64 . LineNumber ) ;
}
}
return symbols ;
}
# else
static int backtrace ( void * * heap , int num ) { return 0 ; }
static char * * backtrace_symbols ( void * const * sym , int num ) { return 0 ; }
# endif
char * callstack ( int traces ) {
static __thread char * output = 0 ;
if ( ! output ) output = SYS_REALLOC ( 0 , 128 * ( 64 + 2 ) ) ;
if ( output ) output [ 0 ] = ' \0 ' ;
char * ptr = output ;
enum { skip = 1 } ; /* exclude 1 trace from stack (this function) */
enum { maxtraces = 128 } ;
int inc = 1 ;
if ( traces < 0 ) traces = - traces , inc = - 1 ;
if ( traces = = 0 ) return " " ;
if ( traces > maxtraces ) traces = maxtraces ;
void * stacks [ maxtraces /* + 1*/ ] ; // = { 0 };
traces = backtrace ( stacks , traces ) ;
char * * symbols = backtrace_symbols ( stacks , traces ) ; // @todo: optimization: map(void*,char*) cache; and retrieve only symbols not in cache
char demangled [ 1024 ] = " ?? " ;
int L = 0 , B = inc > 0 ? skip - 1 : traces , E = inc > 0 ? traces : skip - 1 ;
for ( int i = B ; ( i + = inc ) ! = E ; ) {
# if is(linux)
# if ENABLE_LINUX_CALLSTACKS
// @fixme: following snippet works if compiled with '-g', albeit terribly slow
// should concat addresses into a multi-address line
char * binary = symbols [ i ] ;
char * address = strchr ( symbols [ i ] , ' ( ' ) + 1 ;
* strrchr ( address , ' ) ' ) = ' \0 ' ; * ( address - 1 ) = ' \0 ' ;
for ( FILE * fp = popen ( va ( " addr2line -e %s %s " , binary , address ) , " r " ) ; fp ; pclose ( fp ) , fp = 0 ) { //addr2line -e binary -f -C address
fgets ( demangled , sizeof ( demangled ) , fp ) ;
int len = strlen ( demangled ) ; while ( len > 0 & & demangled [ len - 1 ] < 32 ) demangled [ - - len ] = 0 ;
}
symbols [ i ] = demangled ;
# else
// make it shorter. ie, `0x00558997ccc87e ./a.out(+0x20187e) [0x00558997ccc87e]`
strchr ( symbols [ i ] , ' ) ' ) [ 1 ] = ' \0 ' ;
# endif
# elif is(osx)
/*struct*/ Dl_info info ;
if ( dladdr ( stacks [ i ] , & info ) & & info . dli_sname ) {
const char * dmgbuf = info . dli_sname [ 0 ] ! = ' _ ' ? NULL :
ifdef ( cpp , __cxa_demangle ( info . dli_sname , NULL , 0 , NULL ) , info . dli_sname ) ;
strcpy ( demangled , dmgbuf ? dmgbuf : info . dli_sname ) ;
symbols [ i ] = demangled ;
if ( dmgbuf ) free ( ( void * ) dmgbuf ) ;
}
# endif
ptr + = sprintf ( ptr , " %03d: %#016llx %s \n " , + + L , ( unsigned long long ) ( uintptr_t ) stacks [ i ] , symbols [ i ] ) ; // format gymnastics because %p is not standard when printing pointers
}
# if is(linux) || is(osx)
if ( symbols ) free ( symbols ) ;
# endif
return output ? output : " " ;
}
int callstackf ( FILE * fp , int traces ) {
char * buf = callstack ( traces ) ;
fputs ( buf , fp ) ;
return 0 ;
}
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// trap signals ---------------------------------------------------------------
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const char * trap_name ( int signal ) {
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if ( signal = = SIGABRT ) return " SIGABRT - \" abort \" , abnormal termination " ;
if ( signal = = SIGFPE ) return " SIGFPE - floating point exception " ;
if ( signal = = SIGILL ) return " SIGILL - \" illegal \" , invalid instruction " ;
if ( signal = = SIGSEGV ) return " SIGSEGV - \" segmentation violation \" , invalid memory access " ;
if ( signal = = SIGINT ) return " SIGINT - \" interrupt \" , interactive attention request sent to the program " ;
if ( signal = = SIGTERM ) return " SIGTERM - \" terminate \" , termination request sent to the program " ;
ifndef ( win32 , if ( signal = = SIGBUS ) return " SIGBUS " ) ;
ifdef ( linux , if ( signal = = SIGSTKFLT ) return " SIGSTKFLT " ) ;
ifndef ( win32 , if ( signal = = SIGQUIT ) return " SIGQUIT " ) ;
return " ?? " ;
}
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void trap_on_ignore ( int sgn ) {
signal ( sgn , trap_on_ignore ) ;
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}
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void trap_on_quit ( int sgn ) {
signal ( sgn , trap_on_quit ) ;
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exit ( 0 ) ;
}
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void trap_on_abort ( int sgn ) {
char * cs = va ( " Error: unexpected signal %s (%d) \n %s " , trap_name ( sgn ) , sgn , callstack ( + 16 ) ) ;
fprintf ( stderr , " %s \n " , cs ) , alert ( cs ) , breakpoint ( ) ;
signal ( sgn , trap_on_abort ) ;
exit ( - sgn ) ;
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}
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void trap_on_debug ( int sgn ) { // @todo: rename to trap_on_choice() and ask the developer what to do next? abort, continue, debug
char * cs = va ( " Error: unexpected signal %s (%d) \n %s " , trap_name ( sgn ) , sgn , callstack ( + 16 ) ) ;
fprintf ( stderr , " %s \n " , cs ) , alert ( cs ) , breakpoint ( ) ;
signal ( sgn , trap_on_debug ) ;
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}
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# if is(win32)
LONG WINAPI trap_on_SEH ( PEXCEPTION_POINTERS pExceptionPtrs ) {
char * cs = va ( " Error: unexpected SEH exception \n %s " , callstack ( + 16 ) ) ;
fprintf ( stderr , " %s \n " , cs ) , alert ( cs ) , breakpoint ( ) ;
return EXCEPTION_EXECUTE_HANDLER ; // Execute default exception handler next
}
# endif
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void trap_install ( void ) {
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// expected signals
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signal ( SIGINT , trap_on_quit ) ;
signal ( SIGTERM , trap_on_quit ) ;
ifndef ( win32 , signal ( SIGQUIT , trap_on_quit ) ) ;
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// unexpected signals
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signal ( SIGABRT , trap_on_abort ) ;
signal ( SIGFPE , trap_on_abort ) ;
signal ( SIGILL , trap_on_abort ) ;
signal ( SIGSEGV , trap_on_abort ) ;
ifndef ( win32 , signal ( SIGBUS , trap_on_abort ) ) ;
ifdef ( linux , signal ( SIGSTKFLT , trap_on_abort ) ) ;
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// others
ifdef ( win32 , SetUnhandledExceptionFilter ( trap_on_SEH ) ) ;
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}
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# ifdef TRAP_DEMO
AUTORUN {
trap_install ( ) ;
app_crash ( ) ; // app_hang();
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}
# endif
// cpu -------------------------------------------------------------------------
# if is(linux)
# include <sched.h>
# endif
int app_cores ( ) {
# if is(win32)
DWORD_PTR pm , sm ;
if ( GetProcessAffinityMask ( GetCurrentProcess ( ) , & pm , & sm ) ) if ( pm ) {
int count = 0 ;
while ( pm ) {
+ + count ;
pm & = pm - 1 ;
}
return count ;
}
{ SYSTEM_INFO si ; GetSystemInfo ( & si ) ; return ( int ) si . dwNumberOfProcessors ; }
# else // unix
int count = sysconf ( _SC_NPROCESSORS_ONLN ) ;
return count > 0 ? count : 1 ;
# endif
#if 0
# elif is(linux)
cpu_set_t prevmask , testmask ;
CPU_ZERO ( & prevmask ) ;
CPU_ZERO ( & testmask ) ;
sched_getaffinity ( 0 , sizeof ( prevmask ) , & prevmask ) ; //Get current mask
sched_setaffinity ( 0 , sizeof ( testmask ) , & testmask ) ; //Set zero mask
sched_getaffinity ( 0 , sizeof ( testmask ) , & testmask ) ; //Get mask for all CPUs
sched_setaffinity ( 0 , sizeof ( prevmask ) , & prevmask ) ; //Reset current mask
int num = CPU_COUNT ( & testmask ) ;
return ( num > 1 ? num : 1 ) ;
# elif is(cpp)
return ( int ) std : : thread : : hardware_concurrency ( ) ;
# elif defined(_OPENMP)
// omp
int cores = 0 ;
# pragma omp parallel
{
# pragma omp atomic
+ + cores ;
}
return cores ;
# endif
}
// -----------------------------------------------------------------------------
// Battery API. Based on code by Rabia Alhaffar (UNLICENSE)
// - rlyeh, public domain.
# if is(win32)
# include <winsock2.h>
int app_battery ( ) {
SYSTEM_POWER_STATUS ibstatus ;
if ( GetSystemPowerStatus ( & ibstatus ) = = FALSE ) {
return 0 ;
}
int level = ( ibstatus . BatteryLifePercent ! = 255 ) ? ibstatus . BatteryLifePercent : 0 ;
int charging = ( ibstatus . BatteryFlag & 8 ) > 0 ;
return charging ? + level : - level ;
}
# elif defined __linux__ // is(linux)
# include <stdlib.h>
# include <stdio.h>
# include <string.h>
# include <unistd.h>
# include <fcntl.h>
int app_battery ( ) {
static int battery_status_handle ;
static int battery_capacity_handle ;
do_once {
battery_status_handle = open ( " /sys/class/power_supply/BAT0/status " , O_RDONLY ) ;
battery_capacity_handle = open ( " /sys/class/power_supply/BAT0/capacity " , O_RDONLY ) ;
}
if ( battery_status_handle = = - 1 | | battery_capacity_handle = = - 1 ) {
return 0 ;
}
char buffer [ 512 ] ;
// level
lseek ( battery_capacity_handle , 0 , SEEK_SET ) ;
int readlen = read ( battery_capacity_handle , buffer , 511 ) ; buffer [ readlen < 0 ? 0 : readlen ] = ' \0 ' ;
int level = atoi ( buffer ) ;
// charging
lseek ( battery_status_handle , 0 , SEEK_SET ) ;
readlen = read ( battery_status_handle , buffer , 511 ) ; buffer [ readlen < 0 ? 0 : readlen ] = ' \0 ' ;
int charging = strstr ( buffer , " Discharging " ) ? 0 : 1 ;
return charging ? + level : - level ;
}
# elif is(osx)
# import <Foundation / Foundation.h>
# include <CoreFoundation/CoreFoundation.h>
# import <IOKit / ps / IOPowerSources.h>
# import <IOKit / ps / IOPSKeys.h>
int app_battery ( ) {
static CFDictionaryRef psrc ;
do_once {
CFTypeRef blob = IOPSCopyPowerSourcesInfo ( ) ;
CFArrayRef sources = IOPSCopyPowerSourcesList ( blob ) ;
int sourcesCount = CFArrayGetCount ( sources ) ;
if ( sourcesCount > 0 ) {
psrc = IOPSGetPowerSourceDescription ( blob , CFArrayGetValueAtIndex ( sources , 0 ) ) ;
}
}
if ( psrc = = NULL ) return 0 ;
int cur_cap = 0 ;
CFNumberGetValue ( ( CFNumberRef ) CFDictionaryGetValue ( psrc , CFSTR ( kIOPSCurrentCapacityKey ) ) , kCFNumberSInt32Type , & cur_cap ) ;
int max_cap = 0 ;
CFNumberGetValue ( ( CFNumberRef ) CFDictionaryGetValue ( psrc , CFSTR ( kIOPSMaxCapacityKey ) ) , kCFNumberSInt32Type , & max_cap ) ;
int level = ( int ) ( cur_cap * 100.f / max_cap ) ;
int charging = CFDictionaryGetValue ( psrc , CFSTR ( kIOPSIsChargingKey ) ) = = kCFBooleanTrue ;
return charging ? + level : - level ;
}
# else
int app_battery ( ) {
return 0 ;
}
# endif
// ----------------------------------------------------------------------------
// argc/v
static void argc_init ( ) {
# if is(tcc) && is(linux)
do_once {
char buffer [ 128 ] , arg0 [ 128 ] = { 0 } ;
for ( FILE * fp = fopen ( " /proc/self/status " , " rb " ) ; fp ; fclose ( fp ) , fp = 0 ) {
while ( fgets ( buffer , 128 , fp ) ) {
if ( strbeg ( buffer , " Name: " ) ) {
sscanf ( buffer + 5 , " %s " , arg0 ) ;
break ;
}
}
}
extern char * * environ ;
__argv = environ - 2 ; // last argv, as stack is [argc][argv0][argv1][...][NULL][envp]
while ( ! strend ( * __argv , arg0 ) ) - - __argv ;
__argc = * ( int * ) ( __argv - 1 ) ;
}
# endif
}
int argc ( ) {
do_once argc_init ( ) ;
return __argc ;
}
char * argv ( int arg ) {
do_once argc_init ( ) ;
static __thread char empty [ 1 ] ;
return ( unsigned ) arg < __argc ? __argv [ arg ] : ( empty [ 0 ] = ' \0 ' , empty ) ;
}
// ----------------------------------------------------------------------------
// options
int flag ( const char * commalist ) {
while ( commalist [ 0 ] ) {
const char * begin = commalist ;
while ( * commalist ! = ' , ' & & * commalist ! = ' \0 ' ) + + commalist ;
const char * end = commalist ;
char token [ 128 ] ;
snprintf ( token , 128 , " %.*s " , ( int ) ( end - begin ) , begin ) ;
for ( int i = 1 ; i < argc ( ) ; + + i ) {
char * arg = argv ( i ) ;
if ( ! strcmpi ( arg , token ) ) { // --arg
return 1 ;
}
}
commalist = end + ! ! end [ 0 ] ;
}
return 0 ;
}
const char * option ( const char * commalist , const char * defaults ) {
while ( commalist [ 0 ] ) {
const char * begin = commalist ;
while ( * commalist ! = ' , ' & & * commalist ! = ' \0 ' ) + + commalist ;
const char * end = commalist ;
char token [ 128 ] , tokeneq [ 128 ] ;
snprintf ( token , 128 , " %.*s " , ( int ) ( end - begin ) , begin ) ;
snprintf ( tokeneq , 128 , " %.*s= " , ( int ) ( end - begin ) , begin ) ;
for ( int i = 1 ; i < argc ( ) ; + + i ) {
char * arg = argv ( i ) ;
if ( strbegi ( arg , tokeneq ) ) { // --arg=value
return argv ( i ) + strlen ( tokeneq ) ;
}
if ( ! strcmpi ( arg , token ) ) { // --arg value
if ( ( i + 1 ) < argc ( ) ) {
return argv ( i + 1 ) ;
}
}
}
commalist = end + ! ! end [ 0 ] ;
}
return defaults ;
}
int optioni ( const char * commalist , int defaults ) {
const char * rc = option ( commalist , 0 ) ;
return rc ? atoi ( rc ) : defaults ;
}
float optionf ( const char * commalist , float defaults ) {
const char * rc = option ( commalist , 0 ) ;
return rc ? atof ( rc ) : defaults ;
}
// ----------------------------------------------------------------------------
// tty
void tty_color ( unsigned color ) {
# if is(win32)
do_once {
DWORD mode = 0 ; SetConsoleMode ( GetStdHandle ( - 11 ) , ( GetConsoleMode ( GetStdHandle ( - 11 ) , & mode ) , mode | 4 ) ) ;
}
# endif
if ( color ) {
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// if( color == RED ) alert("break on error message (RED)"), breakpoint(); // debug
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unsigned r = ( color > > 16 ) & 255 ;
unsigned g = ( color > > 8 ) & 255 ;
unsigned b = ( color > > 0 ) & 255 ;
// 24-bit console ESC[ … 38;2;<r>;<g>;<b> … m Select RGB foreground color
// 256-color console ESC[38;5;<fgcode>m
// 0x00-0x07: standard colors (as in ESC [ 30..37 m)
// 0x08-0x0F: high intensity colors (as in ESC [ 90..97 m)
// 0x10-0xE7: 6*6*6=216 colors: 16 + 36*r + 6*g + b (0≤r,g,b≤5)
// 0xE8-0xFF: grayscale from black to white in 24 steps
r / = 51 , g / = 51 , b / = 51 ; // [0..5]
printf ( " \033 [38;5;%dm " , r * 36 + g * 6 + b + 16 ) ; // "\033[0;3%sm", color_code);
} else {
printf ( " %s " , " \x1B [39;49m " ) ; // reset
}
}
void tty_puts ( unsigned color , const char * text ) {
tty_color ( color ) ; puts ( text ) ;
}
void tty_init ( ) {
tty_color ( 0 ) ;
}
int tty_cols ( ) {
# if is(win32)
CONSOLE_SCREEN_BUFFER_INFO c ;
if ( GetConsoleScreenBufferInfo ( GetStdHandle ( STD_OUTPUT_HANDLE ) , & c ) ) {
int w = c . srWindow . Right - c . srWindow . Left - c . dwCursorPosition . X ;
return w > 2 ? w - 1 : w ; // w-1 to allow window resizing to a larger dimension (already printed text would break otherwise)
}
# endif
# ifdef TIOCGWINSZ
struct winsize ws ;
ioctl ( STDIN_FILENO , TIOCGWINSZ , & ws ) ;
return ws . ws_col - 1 ;
# endif
# ifdef TIOCGSIZE
struct ttysize ts ;
ioctl ( STDIN_FILENO , TIOCGSIZE , & ts ) ;
return ts . ts_cols - 1 ;
# endif
return 80 ;
}
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void tty_detach ( ) {
ifdef ( win32 , FreeConsole ( ) ) ;
}
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void tty_attach ( ) {
# if is(win32)
// in order to have a Windows gui application with console:
// - use WinMain() then AllocConsole(), but that may require supporintg different entry points for different platforms.
// - /link /SUBSYSTEM:CONSOLE and then call FreeConsole() if no console is needed, but feels naive to flash the terminal for a second.
// - /link /SUBSYSTEM:WINDOWS /entry:mainCRTStartup, then AllocConsole() as follows. Quoting @pmttavara:
// "following calls are the closest i'm aware you can get to /SUBSYSTEM:CONSOLE in a gui program
// while cleanly handling existing consoles (cmd.exe), pipes (ninja) and no console (VS/RemedyBG; double-clicking the game)"
do_once {
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if ( ! AttachConsole ( ATTACH_PARENT_PROCESS ) & & GetLastError ( ) ! = ERROR_ACCESS_DENIED ) { bool ok = ! ! AllocConsole ( ) ; ASSERT ( ok ) ; }
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printf ( " \n " ) ; // print >= 1 byte to distinguish empty stdout from a redirected stdout (fgetpos() position <= 0)
fpos_t pos = 0 ;
if ( fgetpos ( stdout , & pos ) ! = 0 | | pos < = 0 ) {
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bool ok1 = ! ! freopen ( " CONIN$ " , " r " , stdin ) ; ASSERT ( ok1 ) ;
bool ok2 = ! ! freopen ( " CONOUT$ " , " w " , stderr ) ; ASSERT ( ok2 ) ;
bool ok3 = ! ! freopen ( " CONOUT$ " , " w " , stdout ) ; ASSERT ( ok3 ) ;
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}
}
# endif
}
// -----------------------------------------------------------------------------
// debugger
# include <stdio.h>
void hexdumpf ( FILE * fp , const void * ptr , unsigned len , int width ) {
unsigned char * data = ( unsigned char * ) ptr ;
for ( unsigned jt = 0 ; jt < = len ; jt + = width ) {
fprintf ( fp , " ; %05d%s " , jt , jt = = len ? " \n " : " " ) ;
for ( unsigned it = jt , next = it + width ; it < len & & it < next ; + + it ) {
fprintf ( fp , " %02x %s " , ( unsigned char ) data [ it ] , & " \n \0 ... \n " [ ( 1 + it ) < len ? 2 * ! ! ( ( 1 + it ) % width ) : 3 ] ) ;
}
fprintf ( fp , " ; %05d%s " , jt , jt = = len ? " \n " : " " ) ;
for ( unsigned it = jt , next = it + width ; it < len & & it < next ; + + it ) {
fprintf ( fp , " %c %s " , ( signed char ) data [ it ] > = 32 ? ( signed char ) data [ it ] : ( signed char ) ' . ' , & " \n \0 ... " [ ( 1 + it ) < len ? 2 * ! ! ( ( 1 + it ) % width ) : 3 ] ) ;
}
}
fprintf ( fp , " %d bytes \n " , len ) ;
}
void hexdump ( const void * ptr , unsigned len ) {
hexdumpf ( stdout , ptr , len , 16 ) ;
}
#if 0 // is(cl) only
static void debugbreak ( void ) {
do { \
__try { DebugBreak ( ) ; } \
__except ( GetExceptionCode ( ) = = EXCEPTION_BREAKPOINT ? \
EXCEPTION_EXECUTE_HANDLER : EXCEPTION_CONTINUE_SEARCH ) { } \
} while ( 0 ) ;
}
# endif
# if is(win32)
static void debugbreak ( void ) { if ( IsDebuggerPresent ( ) ) DebugBreak ( ) ; }
# else // is(unix)
static int is_debugger_present = - 1 ;
static void _sigtrap_handler ( int signum ) {
is_debugger_present = 0 ;
signal ( SIGTRAP , SIG_DFL ) ;
}
static void debugbreak ( void ) { // break if debugger present
// __builtin_trap(); //
//raise(SIGABRT); // SIGTRAP);
//__asm__ volatile("int $0x03");
if ( is_debugger_present < 0 ) {
is_debugger_present = 1 ;
signal ( SIGTRAP , _sigtrap_handler ) ;
raise ( SIGTRAP ) ;
}
}
# endif
void alert ( const char * message ) { // @todo: move to app_, besides die()
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window_visible ( false ) ;
message = message [ 0 ] = = ' ! ' ? ( const char * ) va ( " %s \n %s " , message + 1 , callstack ( + 48 ) ) : message ;
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# if is(win32)
MessageBoxA ( 0 , message , 0 , 0 ) ;
# elif is(ems)
emscripten_run_script ( va ( " alert('%s') " , message ) ) ;
# elif is(linux)
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for ( FILE * fp = fopen ( " /tmp/v4k.warning " , " wb " ) ; fp ; fp = 0 )
fputs ( message , fp ) , fclose ( fp ) , system ( " xmessage -center -file /tmp/v4k.warning " ) ;
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# elif is(osx)
system ( va ( " osascript -e 'display alert \" Alert \" message \" %s \" ' " , message ) ) ;
# endif
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window_visible ( true ) ;
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}
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void breakpoint ( ) {
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debugbreak ( ) ;
}
bool has_debugger ( ) {
# if is(win32)
return IsDebuggerPresent ( ) ; // SetLastError(123); OutputDebugStringA("\1"); enabled = GetLastError() != 123;
# else
return false ;
# endif
}
void die ( const char * message ) {
fprintf ( stderr , " %s \n " , message ) ;
fflush ( stderr ) ;
alert ( message ) ;
exit ( - 1 ) ;
}
// ----------------------------------------------------------------------------
// logger
//static int __thread _thread_id;
//#define PRINTF(...) (printf("%03d %07.3fs|%-16s|", (((unsigned)(uintptr_t)&_thread_id)>>8) % 1000, time_ss(), __FUNCTION__), printf(__VA_ARGS__), printf("%s", 1[#__VA_ARGS__] == '!' ? callstack(+48) : "")) // verbose logger
int ( PRINTF ) ( const char * text , const char * stack , const char * file , int line , const char * function ) {
double secs = time_ss ( ) ;
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uint32_t color = 0 ;
/**/ if ( strstri ( text , " fail " ) | | strstri ( text , " error " ) ) color = RED ;
else if ( strstri ( text , " warn " ) | | strstri ( text , " not found " ) ) color = YELLOW ;
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# if is(cl)
char * slash = strrchr ( file , ' \\ ' ) ; if ( slash ) file = slash + 1 ;
# endif
char * location = va ( " |%s|%s:%d " , /*errno?strerror(errno):*/ function , file , line ) ;
int cols = tty_cols ( ) + 1 - ( int ) strlen ( location ) ;
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flockfile ( stdout ) ;
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tty_color ( color ) ;
printf ( " \r %*.s%s " , cols , " " , location ) ;
printf ( " \r %07.3fs|%s%s " , secs , text , stack ) ;
tty_color ( 0 ) ;
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funlockfile ( stdout ) ;
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return 1 ;
}
// ----------------------------------------------------------------------------
// panic
static void * panic_oom_reserve ; // for out-of-memory recovery
int ( PANIC ) ( const char * error , const char * file , int line ) {
panic_oom_reserve = SYS_REALLOC ( panic_oom_reserve , 0 ) ;
tty_color ( RED ) ;
error + = error [ 0 ] = = ' ! ' ;
fprintf ( stderr , " Error: %s (%s:%d) (errno:%s) \n " , error , file , line , strerror ( errno ) ) ;
fprintf ( stderr , " %s " , callstack ( + 16 ) ) ; // no \n
fflush ( 0 ) ; // fflush(stderr);
tty_color ( 0 ) ;
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alert ( error ) ;
breakpoint ( ) ;
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exit ( - line ) ;
return 1 ;
}
// ----------------------------------------------------------------------------
// threads
struct thread_wrapper {
int ( * func ) ( void * user_data ) ;
void * user_data ;
} ;
static
int thread_proc ( void * user_data ) {
struct thread_wrapper * w = ( struct thread_wrapper * ) user_data ;
int return_code = w - > func ( w - > user_data ) ;
thread_exit ( return_code ) ;
FREE ( w ) ;
return 0 ;
}
void * thread ( int ( * thread_func ) ( void * user_data ) , void * user_data ) {
struct thread_wrapper * w = MALLOC ( sizeof ( struct thread_wrapper ) ) ;
w - > func = thread_func ;
w - > user_data = user_data ;
int thread_stack_size = 0 ;
const char * thread_name = " " ;
thread_ptr_t thd = thread_init ( thread_proc , w , thread_name , thread_stack_size ) ;
return thd ;
}
void thread_destroy ( void * thd ) {
int rc = thread_join ( thd ) ;
thread_term ( thd ) ;
}
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void app_hang ( ) {
for ( ; ; ) ;
}
void app_crash ( ) {
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volatile int * p = 0 ;
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* p = 42 ;
}
void app_beep ( ) {
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ifdef ( win32 , system ( " rundll32 user32.dll,MessageBeep " ) ; return ; ) ;
ifdef ( linux , system ( " paplay /usr/share/sounds/freedesktop/stereo/message.oga " ) ; return ; ) ;
ifdef ( osx , system ( " tput bel " ) ; return ; ) ;
//fallback:
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fputc ( ' \x7 ' , stdout ) ;
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// win32:
// rundll32 user32.dll,MessageBeep ; ok
// rundll32 cmdext.dll,MessageBeepStub ; ok
// osx:
// tput bel
// say "beep"
// osascript -e 'beep'
// osascript -e "beep 1"
// afplay /System/Library/Sounds/Ping.aiff
// /usr/bin/printf "\a"
// linux:
// paplay /usr/share/sounds/freedesktop/stereo/message.oga ; ok
// paplay /usr/share/sounds/freedesktop/stereo/complete.oga ; ok
// paplay /usr/share/sounds/freedesktop/stereo/bell.oga ; ok
// beep ; apt-get
// echo -e '\007' ; mute
// echo -e "\007" >/dev/tty10 ; sudo
// tput bel ; mute
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}
void app_singleton ( const char * guid ) {
# ifdef _WIN32
do_once {
char buffer [ 128 ] ;
snprintf ( buffer , 128 , " Global \\ {%s} " , guid ) ;
static HANDLE app_mutex = 0 ;
app_mutex = CreateMutexA ( NULL , FALSE , buffer ) ;
if ( ERROR_ALREADY_EXISTS = = GetLastError ( ) ) {
exit ( - 1 ) ;
}
}
# endif
}
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# ifdef APP_SINGLETON_GUID
AUTORUN { app_singleton ( APP_SINGLETON_GUID ) ; }
# endif
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static
bool app_open_folder ( const char * file ) {
char buf [ 1024 ] ;
# ifdef _WIN32
snprintf ( buf , sizeof ( buf ) , " start \" \" \" %s \" " , file ) ;
# elif __APPLE__
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snprintf ( buf , sizeof ( buf ) , " %s \" %s \" " , file_directory ( file ) ? " open " : " open --reveal " , file ) ;
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# else
snprintf ( buf , sizeof ( buf ) , " xdg-open \" %s \" " , file ) ;
# endif
return system ( buf ) = = 0 ;
}
static
bool app_open_file ( const char * file ) {
char buf [ 1024 ] ;
# ifdef _WIN32
snprintf ( buf , sizeof ( buf ) , " start \" \" \" %s \" " , file ) ;
# elif __APPLE__
snprintf ( buf , sizeof ( buf ) , " open \" %s \" " , file ) ;
# else
snprintf ( buf , sizeof ( buf ) , " xdg-open \" %s \" " , file ) ;
# endif
return system ( buf ) = = 0 ;
}
static
bool app_open_url ( const char * url ) {
return app_open_file ( url ) ;
}
bool app_open ( const char * link ) {
if ( file_directory ( link ) ) return app_open_folder ( link ) ;
if ( file_exist ( link ) ) return app_open_file ( link ) ;
return app_open_url ( link ) ;
}
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const char * app_loadfile ( ) {
const char * windowTitle = NULL ;
const char * defaultPathFile = NULL ;
const char * filterHints = NULL ; // "image files"
const char * filters [ ] = { " *.* " } ;
int allowMultipleSelections = 0 ;
tinyfd_assumeGraphicDisplay = 1 ;
return tinyfd_openFileDialog ( windowTitle , defaultPathFile , countof ( filters ) , filters , filterHints , allowMultipleSelections ) ;
}
const char * app_savefile ( ) {
const char * windowTitle = NULL ;
const char * defaultPathFile = NULL ;
const char * filterHints = NULL ; // "image files"
const char * filters [ ] = { " *.* " } ;
tinyfd_assumeGraphicDisplay = 1 ;
return tinyfd_saveFileDialog ( windowTitle , defaultPathFile , countof ( filters ) , filters , filterHints ) ;
}
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// ----------------------------------------------------------------------------
// tests
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static __thread int test_oks , test_errors , test_once ;
static void test_exit ( void ) { fprintf ( stderr , " %d/%d tests passed \n " , test_oks , test_oks + test_errors ) ; }
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int ( test ) ( const char * file , int line , const char * expr , bool result ) {
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static int breakon = - 1 ; if ( breakon < 0 ) breakon = optioni ( " --test-break " , 0 ) ;
if ( breakon = = ( test_oks + test_errors + 1 ) ) alert ( " user requested to break on this test " ) , breakpoint ( ) ;
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test_once = test_once | | ! ( atexit ) ( test_exit ) ;
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test_oks + = result , test_errors + = ! result ;
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return ( result | | ( tty_color ( RED ) , fprintf ( stderr , " (Test `%s` failed %s:%d) \n " , expr , file , line ) , tty_color ( 0 ) , 0 ) ) ;
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}