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// NOTE: [$PRIN] Dqn_Print =========================================================================
DQN_API Dqn_PrintStyle Dqn_Print_StyleColour ( uint8_t r , uint8_t g , uint8_t b , Dqn_PrintBold bold )
{
Dqn_PrintStyle result = { } ;
result . bold = bold ;
result . colour = true ;
result . r = r ;
result . g = g ;
result . b = b ;
return result ;
}
DQN_API Dqn_PrintStyle Dqn_Print_StyleColourU32 ( uint32_t rgb , Dqn_PrintBold bold )
{
uint8_t r = ( rgb > > 24 ) & 0xFF ;
uint8_t g = ( rgb > > 16 ) & 0xFF ;
uint8_t b = ( rgb > > 8 ) & 0xFF ;
Dqn_PrintStyle result = Dqn_Print_StyleColour ( r , g , b , bold ) ;
return result ;
}
DQN_API Dqn_PrintStyle Dqn_Print_StyleBold ( )
{
Dqn_PrintStyle result = { } ;
result . bold = Dqn_PrintBold_Yes ;
return result ;
}
DQN_API void Dqn_Print_Std ( Dqn_PrintStd std_handle , Dqn_String8 string )
{
DQN_ASSERT ( std_handle = = Dqn_PrintStd_Out | | std_handle = = Dqn_PrintStd_Err ) ;
# if defined(DQN_OS_WIN32)
// NOTE: Get the output handles from kernel
// =========================================================================
DQN_THREAD_LOCAL void * std_out_print_handle = nullptr ;
DQN_THREAD_LOCAL void * std_err_print_handle = nullptr ;
DQN_THREAD_LOCAL bool std_out_print_to_console = false ;
DQN_THREAD_LOCAL bool std_err_print_to_console = false ;
if ( ! std_out_print_handle ) {
unsigned long mode = 0 ; ( void ) mode ;
std_out_print_handle = GetStdHandle ( STD_OUTPUT_HANDLE ) ;
std_out_print_to_console = GetConsoleMode ( std_out_print_handle , & mode ) ! = 0 ;
std_err_print_handle = GetStdHandle ( STD_ERROR_HANDLE ) ;
std_err_print_to_console = GetConsoleMode ( std_err_print_handle , & mode ) ! = 0 ;
}
// NOTE: Select the output handle
// =========================================================================
void * print_handle = std_out_print_handle ;
bool print_to_console = std_out_print_to_console ;
if ( std_handle = = Dqn_PrintStd_Err ) {
print_handle = std_err_print_handle ;
print_to_console = std_err_print_to_console ;
}
// NOTE: Write the string
// =========================================================================
DQN_ASSERT ( string . size < DQN_CAST ( unsigned long ) - 1 ) ;
unsigned long bytes_written = 0 ; ( void ) bytes_written ;
if ( print_to_console ) {
WriteConsoleA ( print_handle , string . data , DQN_CAST ( unsigned long ) string . size , & bytes_written , nullptr ) ;
} else {
WriteFile ( print_handle , string . data , DQN_CAST ( unsigned long ) string . size , & bytes_written , nullptr ) ;
}
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# else
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fprintf ( std_handle = = Dqn_PrintStd_Out ? stdout : stderr , " %.*s " , DQN_STRING_FMT ( string ) ) ;
# endif
}
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DQN_API void Dqn_Print_StdStyle ( Dqn_PrintStd std_handle , Dqn_PrintStyle style , Dqn_String8 string )
{
if ( string . data & & string . size ) {
if ( style . colour )
Dqn_Print_Std ( std_handle , Dqn_Print_ESCColourFgString ( style . r , style . g , style . b ) ) ;
if ( style . bold = = Dqn_PrintBold_Yes )
Dqn_Print_Std ( std_handle , Dqn_Print_ESCBoldString ) ;
Dqn_Print_Std ( std_handle , string ) ;
if ( style . colour | | style . bold = = Dqn_PrintBold_Yes )
Dqn_Print_Std ( std_handle , Dqn_Print_ESCResetString ) ;
}
}
DQN_FILE_SCOPE char * Dqn_Print_VSPrintfChunker_ ( const char * buf , void * user , int len )
{
Dqn_String8 string = { } ;
string . data = DQN_CAST ( char * ) buf ;
string . size = len ;
Dqn_PrintStd std_handle = DQN_CAST ( Dqn_PrintStd ) DQN_CAST ( uintptr_t ) user ;
Dqn_Print_Std ( std_handle , string ) ;
return ( char * ) buf ;
}
DQN_API void Dqn_Print_StdF ( Dqn_PrintStd std_handle , char const * fmt , . . . )
{
va_list args ;
va_start ( args , fmt ) ;
Dqn_Print_StdFV ( std_handle , fmt , args ) ;
va_end ( args ) ;
}
DQN_API void Dqn_Print_StdFStyle ( Dqn_PrintStd std_handle , Dqn_PrintStyle style , char const * fmt , . . . )
{
va_list args ;
va_start ( args , fmt ) ;
Dqn_Print_StdFVStyle ( std_handle , style , fmt , args ) ;
va_end ( args ) ;
}
DQN_API void Dqn_Print_StdFV ( Dqn_PrintStd std_handle , char const * fmt , va_list args )
{
char buffer [ STB_SPRINTF_MIN ] ;
STB_SPRINTF_DECORATE ( vsprintfcb ) ( Dqn_Print_VSPrintfChunker_ , DQN_CAST ( void * ) DQN_CAST ( uintptr_t ) std_handle , buffer , fmt , args ) ;
}
DQN_API void Dqn_Print_StdFVStyle ( Dqn_PrintStd std_handle , Dqn_PrintStyle style , char const * fmt , va_list args )
{
if ( fmt ) {
if ( style . colour )
Dqn_Print_Std ( std_handle , Dqn_Print_ESCColourFgString ( style . r , style . g , style . b ) ) ;
if ( style . bold = = Dqn_PrintBold_Yes )
Dqn_Print_Std ( std_handle , Dqn_Print_ESCBoldString ) ;
Dqn_Print_StdFV ( std_handle , fmt , args ) ;
if ( style . colour | | style . bold = = Dqn_PrintBold_Yes )
Dqn_Print_Std ( std_handle , Dqn_Print_ESCResetString ) ;
}
}
DQN_API void Dqn_Print_StdLn ( Dqn_PrintStd std_handle , Dqn_String8 string )
{
Dqn_Print_Std ( std_handle , string ) ;
Dqn_Print_Std ( std_handle , DQN_STRING8 ( " \n " ) ) ;
}
DQN_API void Dqn_Print_StdLnF ( Dqn_PrintStd std_handle , char const * fmt , . . . )
{
va_list args ;
va_start ( args , fmt ) ;
Dqn_Print_StdLnFV ( std_handle , fmt , args ) ;
va_end ( args ) ;
}
DQN_API void Dqn_Print_StdLnFV ( Dqn_PrintStd std_handle , char const * fmt , va_list args )
{
Dqn_Print_StdFV ( std_handle , fmt , args ) ;
Dqn_Print_Std ( std_handle , DQN_STRING8 ( " \n " ) ) ;
}
DQN_API void Dqn_Print_StdLnStyle ( Dqn_PrintStd std_handle , Dqn_PrintStyle style , Dqn_String8 string )
{
Dqn_Print_StdStyle ( std_handle , style , string ) ;
Dqn_Print_Std ( std_handle , DQN_STRING8 ( " \n " ) ) ;
}
DQN_API void Dqn_Print_StdLnFStyle ( Dqn_PrintStd std_handle , Dqn_PrintStyle style , char const * fmt , . . . )
{
va_list args ;
va_start ( args , fmt ) ;
Dqn_Print_StdLnFVStyle ( std_handle , style , fmt , args ) ;
va_end ( args ) ;
}
DQN_API void Dqn_Print_StdLnFVStyle ( Dqn_PrintStd std_handle , Dqn_PrintStyle style , char const * fmt , va_list args )
{
Dqn_Print_StdFVStyle ( std_handle , style , fmt , args ) ;
Dqn_Print_Std ( std_handle , DQN_STRING8 ( " \n " ) ) ;
}
DQN_API Dqn_String8 Dqn_Print_ESCColourString ( Dqn_PrintESCColour colour , uint8_t r , uint8_t g , uint8_t b )
{
DQN_THREAD_LOCAL char buffer [ 32 ] ;
buffer [ 0 ] = 0 ;
Dqn_String8 result = { } ;
result . size = STB_SPRINTF_DECORATE ( snprintf ) ( buffer ,
DQN_ARRAY_UCOUNT ( buffer ) ,
" \x1b [%d;2;%u;%u;%um " ,
colour = = Dqn_PrintESCColour_Fg ? 38 : 48 ,
r , g , b ) ;
result . data = buffer ;
return result ;
}
DQN_API Dqn_String8 Dqn_Print_ESCColourU32String ( Dqn_PrintESCColour colour , uint32_t value )
{
uint8_t r = DQN_CAST ( uint8_t ) ( value > > 24 ) ;
uint8_t g = DQN_CAST ( uint8_t ) ( value > > 16 ) ;
uint8_t b = DQN_CAST ( uint8_t ) ( value > > 8 ) ;
Dqn_String8 result = Dqn_Print_ESCColourString ( colour , r , g , b ) ;
return result ;
}
// TODO(doyle): Use our temp scratch arenas instead of a massive array on the
// stack.
// NOTE: Max size from MSDN, using \\? syntax, but the ? bit can be expanded
// even more so the max size is kind of not well defined.
# if defined(DQN_OS_WIN32) && !defined(DQN_OS_WIN32_MAX_PATH)
# define DQN_OS_WIN32_MAX_PATH 32767 + 128 /*fudge*/
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# endif
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# if !defined(DQN_NO_FS)
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// NOTE: [$FSYS] Dqn_Fs ============================================================================
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# if defined(DQN_OS_WIN32)
DQN_API uint64_t Dqn__WinFileTimeToSeconds ( FILETIME const * time )
{
ULARGE_INTEGER time_large_int = { } ;
time_large_int . u . LowPart = time - > dwLowDateTime ;
time_large_int . u . HighPart = time - > dwHighDateTime ;
uint64_t result = ( time_large_int . QuadPart / 10000000ULL ) - 11644473600ULL ;
return result ;
}
# endif
DQN_API bool Dqn_Fs_Exists ( Dqn_String8 path )
{
bool result = false ;
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# if defined(DQN_OS_WIN32)
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wchar_t path16 [ DQN_OS_WIN32_MAX_PATH ] ;
int path16_size = Dqn_Win_String8ToCString16 ( path , path16 , DQN_ARRAY_ICOUNT ( path16 ) ) ;
if ( path16_size ) {
WIN32_FILE_ATTRIBUTE_DATA attrib_data = { } ;
if ( GetFileAttributesExW ( path16 , GetFileExInfoStandard , & attrib_data ) ) {
result = ( attrib_data . dwFileAttributes ! = INVALID_FILE_ATTRIBUTES ) & &
! ( attrib_data . dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY ) ;
}
}
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# elif defined(DQN_OS_UNIX)
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struct stat stat_result ;
if ( lstat ( path . data , & stat_result ) ! = - 1 )
result = S_ISREG ( stat_result . st_mode ) | | S_ISLNK ( stat_result . st_mode ) ;
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# else
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# error Unimplemented
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# endif
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return result ;
}
DQN_API bool Dqn_Fs_DirExists ( Dqn_String8 path )
{
bool result = false ;
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# if defined(DQN_OS_WIN32)
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wchar_t path16 [ DQN_OS_WIN32_MAX_PATH ] ;
int path16_size = Dqn_Win_String8ToCString16 ( path , path16 , DQN_ARRAY_ICOUNT ( path16 ) ) ;
if ( path16_size ) {
WIN32_FILE_ATTRIBUTE_DATA attrib_data = { } ;
if ( GetFileAttributesExW ( path16 , GetFileExInfoStandard , & attrib_data ) ) {
result = ( attrib_data . dwFileAttributes ! = INVALID_FILE_ATTRIBUTES ) & &
( attrib_data . dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY ) ;
}
}
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# elif defined(DQN_OS_UNIX)
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struct stat stat_result ;
if ( lstat ( path . data , & stat_result ) ! = - 1 )
result = S_ISDIR ( stat_result . st_mode ) ;
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# else
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# error Unimplemented
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# endif
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return result ;
}
DQN_API Dqn_FsInfo Dqn_Fs_GetInfo ( Dqn_String8 path )
{
Dqn_FsInfo result = { } ;
# if defined(DQN_OS_WIN32)
WIN32_FILE_ATTRIBUTE_DATA attrib_data = { } ;
wchar_t path16 [ DQN_OS_WIN32_MAX_PATH ] ;
Dqn_Win_String8ToCString16 ( path , path16 , DQN_ARRAY_ICOUNT ( path16 ) ) ;
if ( ! GetFileAttributesExW ( path16 , GetFileExInfoStandard , & attrib_data ) )
return result ;
result . exists = true ;
result . create_time_in_s = Dqn__WinFileTimeToSeconds ( & attrib_data . ftCreationTime ) ;
result . last_access_time_in_s = Dqn__WinFileTimeToSeconds ( & attrib_data . ftLastAccessTime ) ;
result . last_write_time_in_s = Dqn__WinFileTimeToSeconds ( & attrib_data . ftLastWriteTime ) ;
LARGE_INTEGER large_int = { } ;
large_int . u . HighPart = DQN_CAST ( int32_t ) attrib_data . nFileSizeHigh ;
large_int . u . LowPart = attrib_data . nFileSizeLow ;
result . size = ( uint64_t ) large_int . QuadPart ;
if ( attrib_data . dwFileAttributes ! = INVALID_FILE_ATTRIBUTES ) {
if ( attrib_data . dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY ) {
result . type = Dqn_FsInfoType_Directory ;
} else {
result . type = Dqn_FsInfoType_File ;
}
}
# elif defined(DQN_OS_UNIX)
struct stat file_stat ;
if ( lstat ( path . data , & file_stat ) ! = - 1 ) {
result . exists = true ;
result . size = file_stat . st_size ;
result . last_access_time_in_s = file_stat . st_atime ;
result . last_write_time_in_s = file_stat . st_mtime ;
// TODO(dqn): Seems linux does not support creation time via stat. We
// shoddily deal with this.
result . create_time_in_s = DQN_MIN ( result . last_access_time_in_s , result . last_write_time_in_s ) ;
}
# else
# error Unimplemented
# endif
return result ;
}
DQN_API bool Dqn_Fs_Copy ( Dqn_String8 src , Dqn_String8 dest , bool overwrite )
{
bool result = false ;
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# if defined(DQN_OS_WIN32)
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Dqn_ThreadScratch scratch = Dqn_Thread_GetScratch ( nullptr ) ;
Dqn_String16 src16 = Dqn_Win_String8ToString16Allocator ( src , Dqn_Arena_Allocator ( scratch . arena ) ) ;
Dqn_String16 dest16 = Dqn_Win_String8ToString16Allocator ( dest , Dqn_Arena_Allocator ( scratch . arena ) ) ;
int fail_if_exists = overwrite = = false ;
result = CopyFileW ( src16 . data , dest16 . data , fail_if_exists ) ! = 0 ;
if ( ! result ) {
Dqn_WinErrorMsg error = Dqn_Win_LastError ( ) ;
Dqn_Log_ErrorF ( " Copy file failed [src= \" %.*s \" , dest= \" %.*s \" , reason= \" %.*s \" ] " ,
DQN_STRING_FMT ( src ) ,
DQN_STRING_FMT ( dest ) ,
DQN_STRING_FMT ( error ) ) ;
}
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# elif defined(DQN_OS_UNIX)
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int src_fd = open ( src . data , O_RDONLY ) ;
int dest_fd = open ( dest . data , O_WRONLY | O_CREAT | ( overwrite ? O_TRUNC : 0 ) ) ;
if ( src_fd ! = - 1 & & dest_fd ! = - 1 ) {
struct stat stat_existing ;
fstat ( src_fd , & stat_existing ) ;
Dqn_usize bytes_written = sendfile64 ( dest_fd , src_fd , 0 , stat_existing . st_size ) ;
result = ( bytes_written = = stat_existing . st_size ) ;
}
if ( src_fd ! = - 1 )
close ( src_fd ) ;
if ( dest_fd ! = - 1 )
close ( dest_fd ) ;
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# else
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# error Unimplemented
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# endif
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return result ;
}
DQN_API bool Dqn_Fs_MakeDir ( Dqn_String8 path )
{
Dqn_ThreadScratch scratch = Dqn_Thread_GetScratch ( nullptr ) ;
bool result = true ;
Dqn_usize path_indexes_size = 0 ;
uint16_t path_indexes [ 64 ] = { } ;
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# if defined(DQN_OS_WIN32)
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Dqn_String16 path16 = Dqn_Win_String8ToString16Allocator ( path , Dqn_Arena_Allocator ( scratch . arena ) ) ;
// NOTE: Go back from the end of the string to all the directories in the
// string, and try to create them. Since Win32 API cannot create
// intermediate directories that don't exist in a path we need to go back
// and record all the directories until we encounter one that exists.
//
// From that point onwards go forwards and make all the directories
// inbetween by null-terminating the string temporarily, creating the
// directory and so forth until we reach the end.
//
// If we find a file at some point in the path we fail out because the
// series of directories can not be made if a file exists with the same
// name.
for ( Dqn_usize index = path16 . size - 1 ; index < path16 . size ; index - - ) {
bool first_char = index = = ( path16 . size - 1 ) ;
wchar_t ch = path16 . data [ index ] ;
if ( ch = = ' / ' | | ch = = ' \\ ' | | first_char ) {
WIN32_FILE_ATTRIBUTE_DATA attrib_data = { } ;
wchar_t temp = path16 . data [ index ] ;
if ( ! first_char ) path16 . data [ index ] = 0 ; // Temporarily null terminate it
bool successful = GetFileAttributesExW ( path16 . data , GetFileExInfoStandard , & attrib_data ) ; // Check
if ( ! first_char ) path16 . data [ index ] = temp ; // Undo null termination
if ( successful ) {
if ( attrib_data . dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY ) {
// NOTE: We found a directory, we can stop here and start
// building up all the directories that didn't exist up to
// this point.
break ;
} else {
// NOTE: There's something that exists in at this path, but
// it's not a directory. This request to make a directory is
// invalid.
return false ;
}
} else {
// NOTE: There's nothing that exists at this path, we can create
// a directory here
path_indexes [ path_indexes_size + + ] = DQN_CAST ( uint16_t ) index ;
}
}
}
for ( Dqn_usize index = path_indexes_size - 1 ; result & & index < path_indexes_size ; index - - ) {
uint16_t path_index = path_indexes [ index ] ;
wchar_t temp = path16 . data [ path_index ] ;
if ( index ! = 0 ) path16 . data [ path_index ] = 0 ;
result | = ( CreateDirectoryW ( path16 . data , nullptr ) = = 0 ) ;
if ( index ! = 0 ) path16 . data [ path_index ] = temp ;
}
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# elif defined(DQN_OS_UNIX)
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Dqn_String8 copy = Dqn_String8_Copy ( scratch . arena , path ) ;
for ( Dqn_usize index = copy . size - 1 ; index < copy . size ; index - - ) {
bool first_char = index = = ( copy . size - 1 ) ;
char ch = copy . data [ index ] ;
if ( ch = = ' / ' | | first_char ) {
char temp = copy . data [ index ] ;
if ( ! first_char ) copy . data [ index ] = 0 ; // Temporarily null terminate it
bool is_file = Dqn_Fs_Exists ( copy ) ;
if ( ! first_char ) copy . data [ index ] = temp ; // Undo null termination
if ( is_file ) {
// NOTE: There's something that exists in at this path, but
// it's not a directory. This request to make a directory is
// invalid.
return false ;
} else {
if ( Dqn_Fs_DirExists ( copy ) ) {
// NOTE: We found a directory, we can stop here and start
// building up all the directories that didn't exist up to
// this point.
break ;
} else {
// NOTE: There's nothing that exists at this path, we can
// create a directory here
path_indexes [ path_indexes_size + + ] = DQN_CAST ( uint16_t ) index ;
}
}
}
}
for ( Dqn_usize index = path_indexes_size - 1 ; result & & index < path_indexes_size ; index - - ) {
uint16_t path_index = path_indexes [ index ] ;
char temp = copy . data [ path_index ] ;
if ( index ! = 0 ) copy . data [ path_index ] = 0 ;
result | = mkdir ( copy . data , 0774 ) = = 0 ;
if ( index ! = 0 ) copy . data [ path_index ] = temp ;
}
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# else
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# error Unimplemented
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# endif
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return result ;
}
DQN_API bool Dqn_Fs_Move ( Dqn_String8 src , Dqn_String8 dest , bool overwrite )
{
bool result = false ;
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# if defined(DQN_OS_WIN32)
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Dqn_ThreadScratch scratch = Dqn_Thread_GetScratch ( nullptr ) ;
Dqn_String16 src16 = Dqn_Win_String8ToString16Allocator ( src , Dqn_Arena_Allocator ( scratch . arena ) ) ;
Dqn_String16 dest16 = Dqn_Win_String8ToString16Allocator ( dest , Dqn_Arena_Allocator ( scratch . arena ) ) ;
unsigned long flags = MOVEFILE_COPY_ALLOWED ;
if ( overwrite ) {
flags | = MOVEFILE_REPLACE_EXISTING ;
}
result = MoveFileExW ( src16 . data , dest16 . data , flags ) ! = 0 ;
if ( ! result ) {
Dqn_Log_ErrorF ( " Failed to move file [from=%.*s, to=%.*s, reason=%.*s] " ,
DQN_STRING_FMT ( src ) ,
DQN_STRING_FMT ( dest ) ,
DQN_STRING_FMT ( Dqn_Win_LastError ( ) ) ) ;
}
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# elif defined(DQN_OS_UNIX)
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// See: https://github.com/gingerBill/gb/blob/master/gb.h
bool file_moved = true ;
if ( link ( src . data , dest . data ) = = - 1 )
{
// NOTE: Link can fail if we're trying to link across different volumes
// so we fall back to a binary directory.
file_moved | = Dqn_Fs_Copy ( src , dest , overwrite ) ;
}
if ( file_moved )
result = ( unlink ( src . data ) ! = - 1 ) ; // Remove original file
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# else
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# error Unimplemented
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# endif
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return result ;
}
DQN_API bool Dqn_Fs_Delete ( Dqn_String8 path )
{
bool result = false ;
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# if defined(DQN_OS_WIN32)
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wchar_t path16 [ DQN_OS_WIN32_MAX_PATH ] ;
int path16_size = Dqn_Win_String8ToCString16 ( path , path16 , DQN_ARRAY_ICOUNT ( path16 ) ) ;
if ( path16_size ) {
result = DeleteFileW ( path16 ) ;
if ( ! result )
result = RemoveDirectoryW ( path16 ) ;
}
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# elif defined(DQN_OS_UNIX)
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result = remove ( path . data ) = = 0 ;
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# else
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# error Unimplemented
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# endif
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return result ;
}
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// NOTE: R/W Entire File ===========================================================================
DQN_API char * Dqn_Fs_ReadCString8 ( char const * path , Dqn_usize path_size , Dqn_usize * file_size , Dqn_Allocator allocator )
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{
char * result = nullptr ;
if ( ! path )
return result ;
if ( path_size < = 0 )
path_size = Dqn_CString8_Size ( path ) ;
( void ) allocator ;
( void ) file_size ;
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# if defined(DQN_OS_WIN32)
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// NOTE: Convert to UTF16
// -------------------------------------------------------------------------
Dqn_ThreadScratch scratch = Dqn_Thread_GetScratch ( allocator . user_context ) ;
Dqn_String8 path8 = Dqn_String8_Init ( path , path_size ) ;
Dqn_String16 path16 = Dqn_Win_String8ToString16Allocator ( path8 , scratch . allocator ) ;
Dqn_WinErrorMsg error_msg = { } ;
// NOTE: Get the file handle
// -------------------------------------------------------------------------
void * file_handle = CreateFileW ( /*LPCWSTR lpFileName*/ path16 . data ,
/*DWORD dwDesiredAccess*/ GENERIC_READ ,
/*DWORD dwShareMode*/ 0 ,
/*LPSECURITY_ATTRIBUTES lpSecurityAttributes*/ nullptr ,
/*DWORD dwCreationDisposition*/ OPEN_EXISTING ,
/*DWORD dwFlagsAndAttributes*/ FILE_ATTRIBUTE_READONLY ,
/*HANDLE hTemplateFile*/ nullptr ) ;
if ( file_handle = = INVALID_HANDLE_VALUE ) {
Dqn_Win_LastErrorToBuffer ( & error_msg ) ;
Dqn_Log_ErrorF ( " Failed to open file for reading [file=%.*s, reason=%.*s] " , DQN_STRING_FMT ( path8 ) , DQN_STRING_FMT ( error_msg ) ) ;
return nullptr ;
}
DQN_DEFER { CloseHandle ( file_handle ) ; } ;
// NOTE: Query the file size
// -------------------------------------------------------------------------
LARGE_INTEGER win_file_size ;
if ( ! GetFileSizeEx ( file_handle , & win_file_size ) ) {
Dqn_Win_LastErrorToBuffer ( & error_msg ) ;
Dqn_Log_ErrorF ( " Failed to query file size [file=%.*s, reason=%.*s] " , DQN_STRING_FMT ( path8 ) , DQN_STRING_FMT ( error_msg ) ) ;
return nullptr ;
}
unsigned long const bytes_desired = DQN_CAST ( unsigned long ) win_file_size . QuadPart ;
if ( ! DQN_CHECKF ( bytes_desired = = win_file_size . QuadPart ,
" Current implementation doesn't support >4GiB, implement Win32 overlapped IO " ) ) {
return nullptr ;
}
// NOTE: Read the file from disk
// -------------------------------------------------------------------------
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result = DQN_CAST ( char * ) Dqn_Allocator_Alloc ( allocator ,
bytes_desired ,
alignof ( char ) ,
Dqn_ZeroMem_No ) ;
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unsigned long bytes_read = 0 ;
unsigned long read_result = ReadFile ( /*HANDLE hFile*/ file_handle ,
/*LPVOID lpBuffer*/ result ,
/*DWORD nNumberOfBytesToRead*/ bytes_desired ,
/*LPDWORD lpNumberOfByesRead*/ & bytes_read ,
/*LPOVERLAPPED lpOverlapped*/ nullptr ) ;
if ( read_result = = 0 ) {
Dqn_Allocator_Dealloc ( allocator , result , bytes_desired ) ;
Dqn_Win_LastErrorToBuffer ( & error_msg ) ;
Dqn_Log_ErrorF ( " 'ReadFile' failed to load file to memory [file=%.*s, reason=%.*s] " , DQN_STRING_FMT ( path8 ) , DQN_STRING_FMT ( error_msg ) ) ;
return nullptr ;
}
if ( bytes_read ! = bytes_desired ) {
Dqn_Win_LastErrorToBuffer ( & error_msg ) ;
Dqn_Allocator_Dealloc ( allocator , result , bytes_desired ) ;
Dqn_Log_ErrorF ( " 'ReadFile' failed to read all bytes into file [file=%.*s, bytes_desired=%u, bytes_read=%u, reason=%.*s] " ,
DQN_STRING_FMT ( path8 ) ,
bytes_desired ,
bytes_read ,
DQN_STRING_FMT ( error_msg ) ) ;
return nullptr ;
}
if ( file_size ) {
* file_size = Dqn_Safe_SaturateCastI64ToISize ( bytes_read ) ;
}
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# else
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Dqn_usize file_size_ = 0 ;
if ( ! file_size )
file_size = & file_size_ ;
FILE * file_handle = fopen ( path , " rb " ) ;
if ( ! file_handle ) {
Dqn_Log_ErrorF ( " Failed to open file '%s' using fopen \n " , path ) ;
return result ;
}
DQN_DEFER { fclose ( file_handle ) ; } ;
fseek ( file_handle , 0 , SEEK_END ) ;
* file_size = ftell ( file_handle ) ;
if ( DQN_CAST ( long ) ( * file_size ) = = - 1L ) {
Dqn_Log_ErrorF ( " Failed to determine '%s' file size using ftell \n " , file ) ;
return result ;
}
rewind ( file_handle ) ;
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result = DQN_CAST ( char * ) Dqn_Allocator_Alloc ( allocator ,
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* file_size ,
alignof ( char ) ,
Dqn_ZeroMem_No ) ;
if ( ! result ) {
Dqn_Log_ErrorF ( " Failed to allocate %td bytes to read file '%s' \n " , * file_size + 1 , file ) ;
return result ;
}
result [ * file_size ] = 0 ;
if ( fread ( result , DQN_CAST ( size_t ) ( * file_size ) , 1 , file_handle ) ! = 1 ) {
Dqn_Allocator_Dealloc ( allocator , result , * file_size ) ;
Dqn_Log_ErrorF ( " Failed to read %td bytes into buffer from '%s' \n " , * file_size , file ) ;
return result ;
}
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# endif
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return result ;
}
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DQN_API Dqn_String8 Dqn_Fs_Read ( Dqn_String8 path , Dqn_Allocator allocator )
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{
Dqn_usize file_size = 0 ;
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char * string = Dqn_Fs_ReadCString8 ( path . data , path . size , & file_size , allocator ) ;
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Dqn_String8 result = Dqn_String8_Init ( string , file_size ) ;
return result ;
}
DQN_API bool Dqn_Fs_WriteCString8 ( char const * path , Dqn_usize path_size , char const * buffer , Dqn_usize buffer_size )
{
bool result = false ;
if ( ! path | | ! buffer | | buffer_size < = 0 )
return result ;
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# if defined(DQN_OS_WIN32)
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if ( path_size < = 0 )
path_size = Dqn_CString8_Size ( path ) ;
Dqn_ThreadScratch scratch = Dqn_Thread_GetScratch ( nullptr ) ;
Dqn_String8 path8 = Dqn_String8_Init ( path , path_size ) ;
Dqn_String16 path16 = Dqn_Win_String8ToString16Allocator ( path8 , scratch . allocator ) ;
void * file_handle = CreateFileW ( /*LPCWSTR lpFileName*/ path16 . data ,
/*DWORD dwDesiredAccess*/ GENERIC_WRITE ,
/*DWORD dwShareMode*/ 0 ,
/*LPSECURITY_ATTRIBUTES lpSecurityAttributes*/ nullptr ,
/*DWORD dwCreationDisposition*/ CREATE_ALWAYS ,
/*DWORD dwFlagsAndAttributes*/ FILE_ATTRIBUTE_NORMAL ,
/*HANDLE hTemplateFile*/ nullptr ) ;
if ( file_handle = = INVALID_HANDLE_VALUE ) {
Dqn_Log_ErrorF ( " Failed to open file for writing [file=%.*s, reason=%.*s] " , DQN_STRING_FMT ( path8 ) , DQN_STRING_FMT ( Dqn_Win_LastError ( ) ) ) ;
return result ;
}
DQN_DEFER { CloseHandle ( file_handle ) ; } ;
unsigned long bytes_written = 0 ;
result = WriteFile ( file_handle , buffer , DQN_CAST ( unsigned long ) buffer_size , & bytes_written , nullptr /*lpOverlapped*/ ) ;
DQN_ASSERT ( bytes_written = = buffer_size ) ;
return result ;
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# else
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// TODO(dqn): Use OS apis
( void ) path_size ;
FILE * file_handle = nullptr ;
fopen_s ( & file_handle , path , " w+b " ) ;
if ( ! file_handle ) {
Dqn_Log_ErrorF ( " Failed to 'fopen' to get the file handle [file=%s] " , path ) ;
return result ;
}
DQN_DEFER { fclose ( file_handle ) ; } ;
result = fwrite ( buffer , buffer_size , 1 /*count*/ , file_handle ) = = 1 /*count*/ ;
if ( ! result )
Dqn_Log_ErrorF ( " Failed to 'fwrite' memory to file [file=%s] " , path ) ;
return result ;
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# endif
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}
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DQN_API bool Dqn_Fs_Write ( Dqn_String8 file_path , Dqn_String8 buffer )
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{
bool result = Dqn_Fs_WriteCString8 ( file_path . data , file_path . size , buffer . data , buffer . size ) ;
return result ;
}
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// NOTE: R/W Stream API ============================================================================
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DQN_API Dqn_FsFile Dqn_Fs_OpenFile ( Dqn_String8 path , Dqn_FsFileOpen open_mode , uint32_t access )
{
Dqn_FsFile result = { } ;
if ( ! Dqn_String8_IsValid ( path ) | | path . size < = 0 )
return result ;
if ( ( access & ~ Dqn_FsFileAccess_All ) | | ( ( access & Dqn_FsFileAccess_All ) = = 0 ) ) {
DQN_INVALID_CODE_PATH ;
return result ;
}
# if defined(DQN_OS_WIN32)
unsigned long create_flag = 0 ;
switch ( open_mode ) {
case Dqn_FsFileOpen_CreateAlways : create_flag = CREATE_ALWAYS ; break ;
case Dqn_FsFileOpen_OpenIfExist : create_flag = OPEN_EXISTING ; break ;
case Dqn_FsFileOpen_OpenAlways : create_flag = OPEN_ALWAYS ; break ;
default : DQN_INVALID_CODE_PATH ; return result ;
}
unsigned long access_mode = 0 ;
if ( access & Dqn_FsFileAccess_AppendOnly ) {
DQN_ASSERTF ( ( access & ~ Dqn_FsFileAccess_AppendOnly ) = = 0 ,
" Append can only be applied exclusively to the file, other access modes not permitted " ) ;
access_mode = FILE_APPEND_DATA ;
} else {
if ( access & Dqn_FsFileAccess_Read )
access_mode | = GENERIC_READ ;
if ( access & Dqn_FsFileAccess_Write )
access_mode | = GENERIC_WRITE ;
if ( access & Dqn_FsFileAccess_Execute )
access_mode | = GENERIC_EXECUTE ;
}
Dqn_ThreadScratch scratch = Dqn_Thread_GetScratch ( nullptr ) ;
Dqn_String16 path16 = Dqn_Win_String8ToString16Allocator ( path , scratch . allocator ) ;
void * handle = CreateFileW ( /*LPCWSTR lpFileName*/ path16 . data ,
/*DWORD dwDesiredAccess*/ access_mode ,
/*DWORD dwShareMode*/ 0 ,
/*LPSECURITY_ATTRIBUTES lpSecurityAttributes*/ nullptr ,
/*DWORD dwCreationDisposition*/ create_flag ,
/*DWORD dwFlagsAndAttributes*/ FILE_ATTRIBUTE_NORMAL ,
/*HANDLE hTemplateFile*/ nullptr ) ;
if ( handle = = INVALID_HANDLE_VALUE ) {
Dqn_WinErrorMsg msg = Dqn_Win_LastError ( ) ;
result . error_size =
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DQN_CAST ( uint16_t ) Dqn_SNPrintFDotTruncate ( result . error ,
DQN_ARRAY_UCOUNT ( result . error ) ,
" Open file failed: %.*s for \" %.*s \" " ,
DQN_STRING_FMT ( msg ) ,
DQN_STRING_FMT ( path ) ) ;
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return result ;
}
# else
if ( access & Dqn_FsFileAccess_Execute ) {
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result . error_size = DQN_CAST ( uint16_t ) Dqn_SNPrintFDotTruncate (
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result . error ,
DQN_ARRAY_UCOUNT ( result . error ) ,
" Open file failed: execute access not supported for \" %.*s \" " ,
DQN_STRING_FMT ( path ) ) ;
DQN_INVALID_CODE_PATH ; // TODO: Not supported via fopen
return result ;
}
// NOTE: fopen interface is not as expressive as the Win32
// We will fopen the file beforehand to setup the state/check for validity
// before closing and reopening it if valid with the correct request access
// permissions.
{
void * handle = nullptr ;
switch ( open_mode ) {
case Dqn_FsFileOpen_CreateAlways : handle = fopen ( path , " w " ) ; break ;
case Dqn_FsFileOpen_OpenIfExist : handle = fopen ( path , " r " ) ; break ;
case Dqn_FsFileOpen_OpenAlways : handle = fopen ( path , " a " ) ; break ;
default : DQN_INVALID_CODE_PATH ; break ;
}
if ( ! handle ) {
result . error_size = DQN_CAST ( uint16_t ) Dqn_SNPrintF2DotsOnOverflow (
result . error ,
DQN_ARRAY_UCOUNT ( result . error ) ,
" Open file failed: Could not open file in requested mode %d for \" %.*s \" " ,
open_mode ,
DQN_STRING_FMT ( path ) ) ;
return result ;
}
fclose ( handle ) ;
}
char const * fopen_mode = nullptr ;
if ( access & Dqn_FsFileAccess_AppendOnly ) {
fopen_mode = " a+ " ;
} else if ( access & Dqn_FsFileAccess_Write ) {
fopen_mode = " w+ " ;
} else if ( access & Dqn_FsFileAccess_Read ) {
fopen_mode = " r+ " ;
}
void * handle = fopen ( path , fopen_mode ) ;
if ( ! handle ) {
result . error_size = DQN_CAST ( uint16_t ) Dqn_SNPrintF2DotsOnOverflow (
result . error ,
DQN_ARRAY_UCOUNT ( result . error ) ,
" Open file failed: Could not open file in fopen mode \" %s \" for \" %.*s \" " ,
fopen_mode ,
DQN_STRING_FMT ( path ) ) ;
return result ;
}
# endif
result . handle = handle ;
return result ;
}
DQN_API bool Dqn_Fs_WriteFile ( Dqn_FsFile * file , char const * buffer , Dqn_usize size )
{
if ( ! file | | ! file - > handle | | ! buffer | | size < = 0 | | file - > error_size )
return false ;
bool result = true ;
# if defined(DQN_OS_WIN32)
char const * end = buffer + size ;
for ( char const * ptr = buffer ; result & & ptr ! = end ; ) {
unsigned long write_size = DQN_CAST ( unsigned long ) DQN_MIN ( ( unsigned long ) - 1 , end - ptr ) ;
unsigned long bytes_written = 0 ;
result = WriteFile ( file - > handle , ptr , write_size , & bytes_written , nullptr /*lpOverlapped*/ ) ! = 0 ;
ptr + = bytes_written ;
}
if ( ! result ) {
Dqn_WinErrorMsg msg = Dqn_Win_LastError ( ) ;
file - > error_size =
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DQN_CAST ( uint16_t ) Dqn_SNPrintFDotTruncate ( file - > error ,
DQN_ARRAY_UCOUNT ( file - > error ) ,
" Write file failed: %.*s for %.*s " ,
DQN_STRING_FMT ( msg ) ) ;
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}
# else
result = fwrite ( buffer , DQN_CAST ( Dqn_usize ) size , 1 /*count*/ , file - > handle ) = = 1 /*count*/ ;
# endif
return result ;
}
DQN_API void Dqn_Fs_CloseFile ( Dqn_FsFile * file )
{
if ( ! file | | ! file - > handle | | file - > error_size )
return ;
# if defined(DQN_OS_WIN32)
CloseHandle ( file - > handle ) ;
# else
fclose ( file - > handle ) ;
# endif
* file = { } ;
}
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# endif // !defined(DQN_NO_FS)
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DQN_API bool Dqn_FsPath_AddRef ( Dqn_Arena * arena , Dqn_FsPath * fs_path , Dqn_String8 path )
{
if ( ! arena | | ! fs_path | | ! Dqn_String8_IsValid ( path ) )
return false ;
if ( path . size < = 0 )
return true ;
Dqn_String8 const delimiter_array [ ] = {
DQN_STRING8 ( " \\ " ) ,
DQN_STRING8 ( " / " )
} ;
for ( ; ; ) {
Dqn_String8BinarySplitResult delimiter = Dqn_String8_BinarySplitArray ( path , delimiter_array , DQN_ARRAY_UCOUNT ( delimiter_array ) ) ;
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for ( ; delimiter . lhs . data ; delimiter = Dqn_String8_BinarySplitArray ( delimiter . rhs , delimiter_array , DQN_ARRAY_UCOUNT ( delimiter_array ) ) ) {
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if ( delimiter . lhs . size < = 0 )
continue ;
Dqn_FsPathLink * link = Dqn_Arena_New ( arena , Dqn_FsPathLink , Dqn_ZeroMem_Yes ) ;
if ( ! link )
return false ;
link - > string = delimiter . lhs ;
link - > prev = fs_path - > tail ;
if ( fs_path - > tail ) {
fs_path - > tail - > next = link ;
} else {
fs_path - > head = link ;
}
fs_path - > tail = link ;
fs_path - > links_size + = 1 ;
fs_path - > string_size + = delimiter . lhs . size ;
}
if ( ! delimiter . lhs . data )
break ;
}
return true ;
}
DQN_API bool Dqn_FsPath_Add ( Dqn_Arena * arena , Dqn_FsPath * fs_path , Dqn_String8 path )
{
Dqn_String8 copy = Dqn_String8_Copy ( Dqn_Arena_Allocator ( arena ) , path ) ;
bool result = Dqn_FsPath_AddRef ( arena , fs_path , copy ) ;
return result ;
}
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DQN_API bool Dqn_FsPath_AddF ( Dqn_Arena * arena , Dqn_FsPath * fs_path , char const * fmt , . . . )
{
va_list args ;
va_start ( args , fmt ) ;
Dqn_String8 path = Dqn_String8_InitFV ( Dqn_Arena_Allocator ( arena ) , fmt , args ) ;
va_end ( args ) ;
bool result = Dqn_FsPath_AddRef ( arena , fs_path , path ) ;
return result ;
}
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DQN_API bool Dqn_FsPath_Pop ( Dqn_FsPath * fs_path )
{
if ( ! fs_path )
return false ;
if ( fs_path - > tail ) {
DQN_ASSERT ( fs_path - > head ) ;
fs_path - > links_size - = 1 ;
fs_path - > string_size - = fs_path - > tail - > string . size ;
fs_path - > tail = fs_path - > tail - > prev ;
if ( fs_path - > tail ) {
fs_path - > tail - > next = nullptr ;
} else {
fs_path - > head = nullptr ;
}
} else {
DQN_ASSERT ( ! fs_path - > head ) ;
}
return true ;
}
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DQN_API Dqn_String8 Dqn_FsPath_Convert ( Dqn_Arena * arena , Dqn_String8 path )
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{
Dqn_FsPath fs_path = { } ;
Dqn_FsPath_AddRef ( arena , & fs_path , path ) ;
Dqn_String8 result = Dqn_FsPath_Build ( arena , & fs_path ) ;
return result ;
}
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DQN_API Dqn_String8 Dqn_FsPath_ConvertF ( Dqn_Arena * arena , char const * fmt , . . . )
{
Dqn_ThreadScratch scratch = Dqn_Thread_GetScratch ( arena ) ;
va_list args ;
va_start ( args , fmt ) ;
Dqn_String8 path = Dqn_String8_InitFV ( scratch . allocator , fmt , args ) ;
va_end ( args ) ;
Dqn_String8 result = Dqn_FsPath_Convert ( arena , path ) ;
return result ;
}
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DQN_API Dqn_String8 Dqn_FsPath_BuildWithSeparator ( Dqn_Arena * arena , Dqn_FsPath const * fs_path , Dqn_String8 path_separator )
{
Dqn_String8 result = { } ;
if ( ! fs_path | | fs_path - > links_size < = 0 )
return result ;
// NOTE: Each link except the last one needs the path separator appended to it, '/' or '\\'
Dqn_usize string_size = fs_path - > string_size + ( ( fs_path - > links_size - 1 ) * path_separator . size ) ;
result = Dqn_String8_Allocate ( Dqn_Arena_Allocator ( arena ) , string_size , Dqn_ZeroMem_No ) ;
if ( result . data ) {
char * dest = result . data ;
for ( Dqn_FsPathLink * link = fs_path - > head ; link ; link = link - > next ) {
Dqn_String8 string = link - > string ;
DQN_MEMCPY ( dest , string . data , string . size ) ;
dest + = string . size ;
if ( link ! = fs_path - > tail ) {
DQN_MEMCPY ( dest , path_separator . data , path_separator . size ) ;
dest + = path_separator . size ;
}
}
}
result . data [ string_size ] = 0 ;
return result ;
}
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// NOTE: [$DATE] Dqn_Date ==========================================================================
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DQN_API Dqn_DateHMSTime Dqn_Date_HMSLocalTimeNow ( )
{
Dqn_DateHMSTime result = { } ;
# if defined(DQN_OS_WIN32)
SYSTEMTIME sys_time ;
GetLocalTime ( & sys_time ) ;
result . hour = DQN_CAST ( uint8_t ) sys_time . wHour ;
result . minutes = DQN_CAST ( uint8_t ) sys_time . wMinute ;
result . seconds = DQN_CAST ( uint8_t ) sys_time . wSecond ;
result . day = DQN_CAST ( uint8_t ) sys_time . wDay ;
result . month = DQN_CAST ( uint8_t ) sys_time . wMonth ;
result . year = DQN_CAST ( int16_t ) sys_time . wYear ;
# else
struct timespec ts ;
clock_gettime ( CLOCK_REALTIME , & ts ) ;
// NOTE: localtime_r is used because it is thread safe
// See: https://linux.die.net/man/3/localtime
// According to POSIX.1-2004, localtime() is required to behave as though
// tzset(3) was called, while localtime_r() does not have this requirement.
// For portable code tzset(3) should be called before localtime_r().
for ( static bool once = true ; once ; once = false )
tzset ( ) ;
struct tm time = { } ;
localtime_r ( & ts . tv_sec , & time ) ;
result . hour = time . tm_hour ;
result . minutes = time . tm_min ;
result . seconds = time . tm_sec ;
result . day = DQN_CAST ( uint8_t ) time . tm_mday ;
result . month = DQN_CAST ( uint8_t ) time . tm_mon + 1 ;
result . year = 1900 + DQN_CAST ( int16_t ) time . tm_year ;
# endif
return result ;
}
DQN_API Dqn_DateHMSTimeString Dqn_Date_HMSLocalTimeString ( Dqn_DateHMSTime time , char date_separator , char hms_separator )
{
Dqn_DateHMSTimeString result = { } ;
result . hms_size = DQN_CAST ( uint8_t ) STB_SPRINTF_DECORATE ( snprintf ) ( result . hms ,
DQN_ARRAY_ICOUNT ( result . hms ) ,
" %02d%c%02d%c%02d " ,
time . hour ,
hms_separator ,
time . minutes ,
hms_separator ,
time . seconds ) ;
result . date_size = DQN_CAST ( uint8_t ) STB_SPRINTF_DECORATE ( snprintf ) ( result . date ,
DQN_ARRAY_ICOUNT ( result . date ) ,
" %d%c%02d%c%02d " ,
time . year ,
date_separator ,
time . month ,
date_separator ,
time . day ) ;
DQN_ASSERT ( result . hms_size < DQN_ARRAY_UCOUNT ( result . hms ) ) ;
DQN_ASSERT ( result . date_size < DQN_ARRAY_UCOUNT ( result . date ) ) ;
return result ;
}
DQN_API Dqn_DateHMSTimeString Dqn_Date_HMSLocalTimeStringNow ( char date_separator , char hms_separator )
{
Dqn_DateHMSTime time = Dqn_Date_HMSLocalTimeNow ( ) ;
Dqn_DateHMSTimeString result = Dqn_Date_HMSLocalTimeString ( time , date_separator , hms_separator ) ;
return result ;
}
DQN_API uint64_t Dqn_Date_EpochTime ( )
{
# if defined(DQN_OS_WIN32)
const uint64_t UNIX_TIME_START = 0x019DB1DED53E8000 ; //January 1, 1970 (start of Unix epoch) in "ticks"
const uint64_t TICKS_PER_SECOND = 10'000'000 ; // Filetime returned is in intervals of 100 nanoseconds
FILETIME file_time ;
GetSystemTimeAsFileTime ( & file_time ) ;
LARGE_INTEGER date_time ;
date_time . LowPart = file_time . dwLowDateTime ;
date_time . HighPart = file_time . dwHighDateTime ;
uint64_t result = ( date_time . QuadPart - UNIX_TIME_START ) / TICKS_PER_SECOND ;
# elif defined(DQN_OS_UNIX)
uint64_t result = time ( nullptr ) ;
# else
# error Unimplemented
# endif
return result ;
}
# if defined(DQN_OS_WIN32)
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# if !defined(DQN_NO_WIN)
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// NOTE: [$WIND] Dqn_Win ===========================================================================
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DQN_API void Dqn_Win_LastErrorToBuffer ( Dqn_WinErrorMsg * msg )
{
msg - > code = GetLastError ( ) ;
msg - > data [ 0 ] = 0 ;
unsigned long flags = FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS ;
void * module_to_get_errors_from = nullptr ;
if ( msg - > code > = 12000 & & msg - > code < = 12175 ) { // WinINET Errors
flags | = FORMAT_MESSAGE_FROM_HMODULE ;
module_to_get_errors_from = GetModuleHandleA ( " wininet.dll " ) ;
}
msg - > size = FormatMessageA ( flags ,
module_to_get_errors_from , // LPCVOID lpSource,
msg - > code , // unsigned long dwMessageId,
0 , // unsigned long dwLanguageId,
msg - > data , // LPSTR lpBuffer,
DQN_ARRAY_ICOUNT ( msg - > data ) , // unsigned long nSize,
nullptr ) ; // va_list * Arguments
if ( msg - > size > = 2 & &
( msg - > data [ msg - > size - 2 ] = = ' \r ' & & msg - > data [ msg - > size - 1 ] = = ' \n ' ) ) {
msg - > size - = 2 ;
}
}
DQN_API Dqn_WinErrorMsg Dqn_Win_LastError ( )
{
Dqn_WinErrorMsg result = { } ;
Dqn_Win_LastErrorToBuffer ( & result ) ;
return result ;
}
DQN_API void Dqn_Win_MakeProcessDPIAware ( )
{
typedef bool SetProcessDpiAwareProc ( void ) ;
typedef bool SetProcessDpiAwarenessProc ( PROCESS_DPI_AWARENESS ) ;
typedef bool SetProcessDpiAwarenessContextProc ( void * /*DPI_AWARENESS_CONTEXT*/ ) ;
// NOTE(doyle): Taken from cmuratori/refterm snippet on DPI awareness. It
// appears we can make this robust by just loading user32.dll and using
// GetProcAddress on the DPI function. If it's not there, we're on an old
// version of windows, so we can call an older version of the API.
void * lib_handle = LoadLibraryA ( " user32.dll " ) ;
if ( auto * set_process_dpi_awareness_context = DQN_CAST ( SetProcessDpiAwarenessContextProc * ) GetProcAddress ( DQN_CAST ( HMODULE ) lib_handle , " SetProcessDpiAwarenessContext " ) ) {
set_process_dpi_awareness_context ( DPI_AWARENESS_CONTEXT_PER_MONITOR_AWARE_V2 ) ;
} else if ( auto * set_process_dpi_awareness = DQN_CAST ( SetProcessDpiAwarenessProc * ) GetProcAddress ( DQN_CAST ( HMODULE ) lib_handle , " SetProcessDpiAwareness " ) ) {
set_process_dpi_awareness ( PROCESS_PER_MONITOR_DPI_AWARE ) ;
} else if ( auto * set_process_dpi_aware = DQN_CAST ( SetProcessDpiAwareProc * ) GetProcAddress ( DQN_CAST ( HMODULE ) lib_handle , " SetProcessDpiAware " ) ) {
set_process_dpi_aware ( ) ;
}
}
DQN_API void Dqn_Win_DumpLastError_ ( Dqn_CallSite call_site , char const * fmt , . . . )
{
// TODO(dqn): Hmmm .. should this be a separate log or part of the above
// macro. If so we need to make the logging macros more flexible.
Dqn_WinErrorMsg msg = Dqn_Win_LastError ( ) ;
if ( fmt ) {
va_list args ;
va_start ( args , fmt ) ;
Dqn_Log_TypeFVCallSite ( Dqn_LogType_Error , call_site , fmt , args ) ;
va_end ( args ) ;
}
if ( msg . size )
Dqn_Log_TypeFCallSite ( Dqn_LogType_Error , call_site , " Last Windows error [msg=%.*s] " , DQN_STRING_FMT ( msg ) ) ;
else
Dqn_Log_TypeFCallSite ( Dqn_LogType_Error , call_site , " Failed to dump last error, no error message found [format_message_error=%d, msg_error=%d] " , GetLastError ( ) , msg . code ) ;
}
// NOTE: Windows UTF8 to String16
// -----------------------------------------------------------------------------
DQN_API int Dqn_Win_CString8ToCString16 ( const char * src , int src_size , wchar_t * dest , int dest_size )
{
int result = MultiByteToWideChar ( CP_UTF8 , 0 /*dwFlags*/ , src , src_size , dest , dest_size ) ;
if ( result & & dest & & dest_size > 0 )
dest [ DQN_MIN ( result , dest_size - 1 ) ] = 0 ; // Null-terminate the buffer
return result ;
}
DQN_API int Dqn_Win_String8ToCString16 ( Dqn_String8 src , wchar_t * dest , int dest_size )
{
int result = 0 ;
int src_size = Dqn_Safe_SaturateCastISizeToInt ( src . size ) ;
if ( src_size )
result = Dqn_Win_CString8ToCString16 ( src . data , src_size , dest , dest_size ) ;
return result ;
}
DQN_API Dqn_String16 Dqn_Win_String8ToString16Allocator ( Dqn_String8 src , Dqn_Allocator allocator )
{
Dqn_String16 result = { } ;
int required = Dqn_Win_String8ToCString16 ( src , nullptr , 0 ) ;
if ( required > 0 ) {
result . data = Dqn_Allocator_NewArray ( allocator , wchar_t , required + 1 , Dqn_ZeroMem_No ) ;
if ( result . data ) {
result . size = Dqn_Win_String8ToCString16 ( src , result . data , required + 1 ) ;
DQN_ASSERT ( result . size = = DQN_CAST ( Dqn_usize ) required ) ;
}
}
return result ;
}
// NOTE: Windows String16 To UTF8
// -----------------------------------------------------------------------------
DQN_API int Dqn_Win_CString16ToCString8 ( const wchar_t * src , int src_size , char * dest , int dest_size )
{
int result = WideCharToMultiByte ( CP_UTF8 , 0 /*dwFlags*/ , src , src_size , dest , dest_size , nullptr , nullptr ) ;
if ( result & & dest & & dest_size > 0 )
dest [ DQN_MIN ( result , dest_size - 1 ) ] = 0 ;
return result ;
}
DQN_API Dqn_String8 Dqn_Win_CString16ToString8Allocator ( const wchar_t * src , int src_size , Dqn_Allocator allocator )
{
Dqn_String8 result = { } ;
int required = Dqn_Win_CString16ToCString8 ( src , src_size , nullptr , 0 ) ;
if ( required > 0 ) {
// NOTE: String allocate ensures there's one extra byte for
// null-termination already so no-need to +1 the required size
result = Dqn_String8_Allocate ( allocator , DQN_CAST ( Dqn_usize ) required , Dqn_ZeroMem_No ) ;
if ( Dqn_String8_IsValid ( result ) ) {
int next_required = Dqn_Win_CString16ToCString8 ( src , src_size , result . data , required + 1 ) ;
DQN_ASSERT ( required = = next_required ) ;
}
}
return result ;
}
DQN_API int Dqn_Win_String16ToCString8 ( Dqn_String16 src , char * dest , int dest_size )
{
int result = 0 ;
int src_size = Dqn_Safe_SaturateCastISizeToInt ( src . size ) ;
if ( src_size ) {
result = Dqn_Win_CString16ToCString8 ( src . data , src_size , dest , dest_size ) ;
}
return result ;
}
DQN_API Dqn_String8 Dqn_Win_String16ToString8Allocator ( Dqn_String16 src , Dqn_Allocator allocator )
{
Dqn_String8 result = { } ;
int src_size = Dqn_Safe_SaturateCastISizeToInt ( src . size ) ;
if ( src_size ) {
result = Dqn_Win_CString16ToString8Allocator ( src . data , src_size , allocator ) ;
}
return result ;
}
// NOTE: Windows Executable Directory
// -----------------------------------------------------------------------------
DQN_API Dqn_usize Dqn_Win_EXEDirW ( wchar_t * buffer , Dqn_usize size )
{
wchar_t module_path [ DQN_OS_WIN32_MAX_PATH ] ;
Dqn_usize module_size = DQN_CAST ( Dqn_usize ) GetModuleFileNameW ( nullptr /*module*/ , module_path , DQN_ARRAY_UCOUNT ( module_path ) ) ;
DQN_HARD_ASSERTF ( GetLastError ( ) ! = ERROR_INSUFFICIENT_BUFFER , " How the hell? " ) ;
Dqn_usize result = 0 ;
for ( Dqn_usize index = module_size - 1 ; ! result & & index < module_size ; index - - )
result = module_path [ index ] = = ' \\ ' ? index : 0 ;
if ( ! buffer | | size < result ) {
return result ;
}
DQN_MEMCPY ( buffer , module_path , sizeof ( wchar_t ) * result ) ;
return result ;
}
DQN_API Dqn_String16 Dqn_Win_EXEDirWArena ( Dqn_Arena * arena )
{
wchar_t dir [ DQN_OS_WIN32_MAX_PATH ] ;
Dqn_usize dir_size = Dqn_Win_EXEDirW ( dir , DQN_ARRAY_ICOUNT ( dir ) ) ;
DQN_HARD_ASSERTF ( dir_size < = DQN_ARRAY_ICOUNT ( dir ) , " How the hell? " ) ;
Dqn_String16 result = { } ;
if ( dir_size > 0 ) {
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result . data = Dqn_Arena_NewCopyZ ( arena , wchar_t , dir , dir_size ) ;
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if ( result . data ) {
result . size = dir_size ;
}
}
return result ;
}
DQN_API Dqn_String8 Dqn_Win_WorkingDir ( Dqn_Allocator allocator , Dqn_String8 suffix )
{
Dqn_ThreadScratch scratch = Dqn_Thread_GetScratch ( allocator . user_context ) ;
Dqn_String16 suffix16 = Dqn_Win_String8ToString16Allocator ( suffix , Dqn_Arena_Allocator ( scratch . arena ) ) ;
Dqn_String16 dir16 = Dqn_Win_WorkingDirW ( Dqn_Arena_Allocator ( scratch . arena ) , suffix16 ) ;
Dqn_String8 result = Dqn_Win_String16ToString8Allocator ( dir16 , allocator ) ;
return result ;
}
DQN_API Dqn_String16 Dqn_Win_WorkingDirW ( Dqn_Allocator allocator , Dqn_String16 suffix )
{
DQN_ASSERT ( suffix . size > = 0 ) ;
Dqn_String16 result = { } ;
Dqn_ThreadScratch scratch = Dqn_Thread_GetScratch ( allocator . user_context ) ;
// NOTE: required_size is the size required *including* the null-terminator
unsigned long required_size = GetCurrentDirectoryW ( 0 , nullptr ) ;
unsigned long desired_size = required_size + DQN_CAST ( unsigned long ) suffix . size ;
wchar_t * scratch_w_path = Dqn_Arena_NewArray ( scratch . arena , wchar_t , desired_size , Dqn_ZeroMem_No ) ;
if ( ! scratch_w_path )
return result ;
unsigned long bytes_written_wo_null_terminator = GetCurrentDirectoryW ( desired_size , scratch_w_path ) ;
if ( ( bytes_written_wo_null_terminator + 1 ) ! = required_size ) {
// TODO(dqn): Error
return result ;
}
wchar_t * w_path = Dqn_Allocator_NewArray ( allocator , wchar_t , desired_size , Dqn_ZeroMem_No ) ;
if ( ! w_path )
return result ;
if ( suffix . size ) {
DQN_MEMCPY ( w_path , scratch_w_path , sizeof ( * scratch_w_path ) * bytes_written_wo_null_terminator ) ;
DQN_MEMCPY ( w_path + bytes_written_wo_null_terminator , suffix . data , sizeof ( suffix . data [ 0 ] ) * suffix . size ) ;
w_path [ desired_size ] = 0 ;
}
result = Dqn_String16 { w_path , DQN_CAST ( Dqn_usize ) ( desired_size - 1 ) } ;
return result ;
}
DQN_API bool Dqn_Win_FolderWIterate ( Dqn_String16 path , Dqn_Win_FolderIteratorW * it )
{
WIN32_FIND_DATAW find_data = { } ;
if ( it - > handle ) {
if ( FindNextFileW ( it - > handle , & find_data ) = = 0 )
return false ;
} else {
it - > handle = FindFirstFileExW ( path . data , /*LPCWSTR lpFileName,*/
FindExInfoStandard , /*FINDEX_INFO_LEVELS fInfoLevelId,*/
& find_data , /*LPVOID lpFindFileData,*/
FindExSearchNameMatch , /*FINDEX_SEARCH_OPS fSearchOp,*/
nullptr , /*LPVOID lpSearchFilter,*/
FIND_FIRST_EX_LARGE_FETCH /*unsigned long dwAdditionalFlags)*/ ) ;
if ( it - > handle = = INVALID_HANDLE_VALUE )
return false ;
}
it - > file_name_buf [ 0 ] = 0 ;
it - > file_name = Dqn_String16 { it - > file_name_buf , 0 } ;
do {
if ( find_data . cFileName [ 0 ] = = ' . ' | | ( find_data . cFileName [ 0 ] = = ' . ' & & find_data . cFileName [ 1 ] = = ' . ' ) )
continue ;
it - > file_name . size = Dqn_CString16_Size ( find_data . cFileName ) ;
DQN_ASSERT ( it - > file_name . size < ( DQN_ARRAY_UCOUNT ( it - > file_name_buf ) - 1 ) ) ;
DQN_MEMCPY ( it - > file_name . data , find_data . cFileName , it - > file_name . size * sizeof ( wchar_t ) ) ;
it - > file_name_buf [ it - > file_name . size ] = 0 ;
break ;
} while ( FindNextFileW ( it - > handle , & find_data ) ! = 0 ) ;
return it - > file_name . size > 0 ;
}
DQN_API bool Dqn_Win_FolderIterate ( Dqn_String8 path , Dqn_Win_FolderIterator * it )
{
if ( ! Dqn_String8_IsValid ( path ) | | ! it | | path . size < = 0 )
return false ;
wchar_t path16 [ DQN_OS_WIN32_MAX_PATH + 1 ] ;
path16 [ 0 ] = 0 ;
Dqn_usize path16_size = 0 ;
Dqn_Win_FolderIteratorW wide_it = { } ;
if ( it - > handle ) {
wide_it . handle = it - > handle ;
} else {
bool needs_asterisks = Dqn_String8_EndsWith ( path , DQN_STRING8 ( " \\ " ) ) | |
Dqn_String8_EndsWith ( path , DQN_STRING8 ( " / " ) ) ;
bool has_glob = Dqn_String8_EndsWith ( path , DQN_STRING8 ( " \\ * " ) ) | |
Dqn_String8_EndsWith ( path , DQN_STRING8 ( " /* " ) ) ;
path16_size = Dqn_Win_String8ToCString16 ( path , path16 , DQN_ARRAY_UCOUNT ( path16 ) ) ;
if ( path16_size < = 0 ) // Conversion error
return false ;
if ( ! has_glob ) {
// NOTE: We are missing the glob for enumerating the files, we will
// add those characters in this branch, so overwrite the null
// character, add the glob and re-null terminate the buffer.
Dqn_usize space = DQN_OS_WIN32_MAX_PATH - path16_size ;
if ( needs_asterisks ) {
if ( space < 2 )
return false ;
path16 [ path16_size + + ] = L ' * ' ;
} else {
if ( space < 3 )
return false ;
path16 [ path16_size + + ] = L ' \\ ' ;
path16 [ path16_size + + ] = L ' * ' ;
}
path16 [ path16_size + + ] = 0 ;
}
DQN_ASSERT ( path16_size < = DQN_OS_WIN32_MAX_PATH ) ;
}
bool result = Dqn_Win_FolderWIterate ( Dqn_String16 { path16 , path16_size } , & wide_it ) ;
it - > handle = wide_it . handle ;
if ( result ) {
int size = Dqn_Win_String16ToCString8 ( wide_it . file_name , it - > file_name_buf , DQN_ARRAY_ICOUNT ( it - > file_name_buf ) ) ;
it - > file_name = Dqn_String8_Init ( it - > file_name_buf , size ) ;
}
return result ;
}
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# endif // !defined(DQN_NO_WIN)
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# if !defined(DQN_NO_WINNET)
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// NOTE: [$WINN] Dqn_WinNet ========================================================================
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DQN_API Dqn_WinNetHandle Dqn_Win_NetHandleInitCString ( char const * url , int url_size )
{
URL_COMPONENTSA components = { } ;
components . dwStructSize = sizeof ( components ) ;
components . dwHostNameLength = url_size ;
components . dwUrlPathLength = url_size ;
// Seperate the URL into bits and bobs
Dqn_WinNetHandle result = { } ;
if ( ! InternetCrackUrlA ( url , url_size , 0 /*flags*/ , & components ) ) {
Dqn_Log_ErrorF ( " InternetCrackUrlA failed [reason=%.*s] " , DQN_STRING_FMT ( Dqn_Win_LastError ( ) ) ) ;
return result ;
}
if ( url [ url_size ] ! = 0 ) {
Dqn_Log_ErrorF ( " URL '%.*s' must be null-terminated " , url_size , url ) ;
return result ;
}
if ( components . dwHostNameLength > ( DQN_ARRAY_UCOUNT ( result . host_name ) - 1 ) ) {
Dqn_Log_ErrorF ( " Host name is longer than the maximum supported [max=%d] " , DQN_ARRAY_UCOUNT ( result . host_name ) - 1 ) ;
return result ;
}
result . host_name_size = components . dwHostNameLength ;
DQN_MEMCPY ( result . host_name , components . lpszHostName , result . host_name_size ) ;
result . host_name [ result . host_name_size ] = 0 ;
result . url_size = components . dwUrlPathLength ;
result . url = components . lpszUrlPath ;
// Create the Win32 networking handles we need
result . internet_open_handle = InternetOpenA ( " Generic/Win32 " ,
INTERNET_OPEN_TYPE_PRECONFIG ,
nullptr /*proxy*/ ,
nullptr /*proxy bypass*/ ,
0 /*flags*/ ) ;
result . internet_connect_handle = InternetConnectA ( result . internet_open_handle ,
result . host_name ,
INTERNET_DEFAULT_HTTPS_PORT ,
nullptr /*username*/ ,
nullptr /*password*/ ,
INTERNET_SERVICE_HTTP ,
0 /*flags*/ ,
0 /*context*/ ) ;
result . state = Dqn_WinNetHandleState_Initialised ;
return result ;
}
DQN_API Dqn_WinNetHandle Dqn_Win_NetHandleInit ( Dqn_String8 url )
{
Dqn_WinNetHandle result = Dqn_Win_NetHandleInitCString ( url . data , DQN_CAST ( int ) url . size ) ;
return result ;
}
DQN_API Dqn_WinNetHandle Dqn_Win_NetHandleInitHTTPMethodCString ( char const * url , int url_size , char const * http_method )
{
Dqn_WinNetHandle result = Dqn_Win_NetHandleInitCString ( url , url_size ) ;
Dqn_Win_NetHandleSetHTTPMethod ( & result , http_method ) ;
return result ;
}
DQN_API Dqn_WinNetHandle Dqn_Win_NetHandleInitHTTPMethod ( Dqn_String8 url , Dqn_String8 http_method )
{
Dqn_WinNetHandle result = Dqn_Win_NetHandleInit ( url ) ;
Dqn_Win_NetHandleSetHTTPMethod ( & result , http_method . data ) ;
return result ;
}
DQN_API void Dqn_Win_NetHandleClose ( Dqn_WinNetHandle * handle )
{
if ( ! Dqn_Win_NetHandleIsValid ( handle ) )
return ;
InternetCloseHandle ( handle - > internet_open_handle ) ;
InternetCloseHandle ( handle - > internet_connect_handle ) ;
InternetCloseHandle ( handle - > http_handle ) ;
handle - > internet_open_handle = nullptr ;
handle - > internet_connect_handle = nullptr ;
handle - > http_handle = nullptr ;
}
DQN_API bool Dqn_Win_NetHandleIsValid ( Dqn_WinNetHandle const * handle )
{
bool result = handle & & handle - > state > = Dqn_WinNetHandleState_Initialised ;
return result ;
}
DQN_API void Dqn_Win_NetHandleSetUserAgentCString ( Dqn_WinNetHandle * handle , char const * user_agent , int user_agent_size )
{
if ( ! Dqn_Win_NetHandleIsValid ( handle ) )
return ;
InternetSetOptionA ( handle - > internet_open_handle , INTERNET_OPTION_USER_AGENT , ( void * ) user_agent , user_agent_size ) ;
}
DQN_API bool Dqn_Win_NetHandleSetHTTPMethod ( Dqn_WinNetHandle * handle ,
char const * http_verb )
{
if ( ! Dqn_Win_NetHandleIsValid ( handle ) )
return false ;
if ( handle - > http_handle ) {
InternetCloseHandle ( handle - > http_handle ) ;
handle - > http_handle = nullptr ;
handle - > state = Dqn_WinNetHandleState_Initialised ;
}
if ( handle - > state ! = Dqn_WinNetHandleState_Initialised )
return false ;
handle - > http_handle = HttpOpenRequestA ( handle - > internet_connect_handle ,
http_verb ,
handle - > url ,
nullptr /*http version*/ ,
nullptr /*referrer*/ ,
nullptr ,
INTERNET_FLAG_NO_AUTH | INTERNET_FLAG_SECURE ,
0 /*context*/ ) ;
handle - > state = Dqn_WinNetHandleState_HttpMethodReady ;
return true ;
}
DQN_API bool Dqn_Win_NetHandleSetRequestHeaderCString8 ( Dqn_WinNetHandle * handle ,
char const * header ,
uint32_t header_size ,
uint32_t mode )
{
if ( ! Dqn_Win_NetHandleIsValid ( handle ) | | ! header | | header_size < = 0 )
return false ;
if ( mode > = Dqn_WinNetHandleRequestHeaderFlag_Count )
return false ;
if ( handle - > state < Dqn_WinNetHandleState_HttpMethodReady )
return false ;
if ( ! DQN_CHECK ( handle - > http_handle ) )
return false ;
unsigned long modifier = 0 ;
if ( mode = = 0 ) {
} else if ( mode = = Dqn_WinNetHandleRequestHeaderFlag_Add ) {
modifier = HTTP_ADDREQ_FLAG_ADD ;
} else if ( mode = = Dqn_WinNetHandleRequestHeaderFlag_AddIfNew ) {
modifier = HTTP_ADDREQ_FLAG_ADD_IF_NEW ;
} else if ( mode = = Dqn_WinNetHandleRequestHeaderFlag_Replace ) {
modifier = HTTP_ADDREQ_FLAG_REPLACE ;
} else {
Dqn_Log_ErrorF ( " Unrecognised flag for adding a request header " ) ;
return false ;
}
bool result = HttpAddRequestHeadersA (
handle - > http_handle ,
header ,
header_size ,
modifier
) ;
return result ;
}
DQN_API bool Dqn_Win_NetHandleSetRequestHeaderString8 ( Dqn_WinNetHandle * handle , Dqn_String8 header , uint32_t mode )
{
bool result = Dqn_Win_NetHandleSetRequestHeaderCString8 ( handle , header . data , Dqn_Safe_SaturateCastISizeToUInt ( header . size ) , mode ) ;
return result ;
}
DQN_API Dqn_WinNetHandleResponse Dqn_Win_NetHandleSendRequest ( Dqn_WinNetHandle * handle , Dqn_Allocator allocator , char const * post_data , unsigned long post_data_size )
{
Dqn_WinNetHandleResponse result = { } ;
if ( ! Dqn_Win_NetHandleIsValid ( handle ) )
return result ;
if ( handle - > state ! = Dqn_WinNetHandleState_HttpMethodReady )
return result ;
if ( ! handle - > http_handle )
return result ;
if ( ! HttpSendRequestA ( handle - > http_handle , nullptr /*headers*/ , 0 /*headers length*/ , ( char * ) post_data , post_data_size ) ) {
handle - > state = Dqn_WinNetHandleState_RequestFailed ;
Dqn_Log_ErrorF ( " Failed to send request to %.*s [reason=%.*s] " ,
handle - > host_name_size ,
handle - > host_name ,
DQN_STRING_FMT ( Dqn_Win_LastError ( ) ) ) ;
return result ;
}
handle - > state = Dqn_WinNetHandleState_RequestGood ;
unsigned long buffer_size = 0 ;
int query_result = HttpQueryInfoA ( handle - > http_handle , HTTP_QUERY_RAW_HEADERS_CRLF , nullptr , & buffer_size , nullptr ) ;
if ( ! DQN_CHECK ( query_result ! = ERROR_INSUFFICIENT_BUFFER ) )
return result ;
result . raw_headers = Dqn_String8_Allocate ( allocator , buffer_size , Dqn_ZeroMem_No ) ;
if ( ! result . raw_headers . data )
return result ;
query_result = HttpQueryInfoA ( handle - > http_handle , HTTP_QUERY_RAW_HEADERS_CRLF , result . raw_headers . data , & buffer_size , nullptr ) ;
if ( ! query_result ) {
Dqn_Allocator_Dealloc ( allocator , result . raw_headers . data , buffer_size ) ;
return result ;
}
Dqn_String8 delimiter = DQN_STRING8 ( " \r \n " ) ;
Dqn_usize splits_required = Dqn_String8_Split ( result . raw_headers , delimiter , nullptr , 0 ) ;
result . headers = Dqn_Allocator_NewArray ( allocator , Dqn_String8 , splits_required , Dqn_ZeroMem_No ) ;
result . headers_size = Dqn_String8_Split ( result . raw_headers , delimiter , result . headers , splits_required ) ;
bool found_content_type = false ;
bool found_content_length = false ;
for ( Dqn_usize header_index = 0 ; header_index < result . headers_size ; header_index + + ) {
Dqn_String8 header = result . headers [ header_index ] ;
Dqn_String8BinarySplitResult key_value_split = Dqn_String8_BinarySplit ( header , DQN_STRING8 ( " : " ) ) ;
Dqn_String8 value = key_value_split . lhs ;
Dqn_String8 key = key_value_split . rhs ;
key = Dqn_String8_TrimWhitespaceAround ( key ) ;
value = Dqn_String8_TrimWhitespaceAround ( value ) ;
if ( Dqn_String8_EqInsensitive ( key , DQN_STRING8 ( " Content-Type " ) ) ) {
DQN_ASSERT ( ! found_content_type ) ;
if ( ! found_content_type ) {
found_content_type = true ;
result . content_type = value ;
}
} else if ( Dqn_String8_EqInsensitive ( key , DQN_STRING8 ( " Content-Length " ) ) ) {
DQN_ASSERT ( ! found_content_length ) ;
if ( ! found_content_length ) {
found_content_length = true ;
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result . content_length = Dqn_String8_ToU64 ( value , 0 /*separator*/ ) . value ;
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}
}
if ( found_content_type & & found_content_length )
break ;
}
return result ;
}
DQN_API bool Dqn_Win_NetHandlePump ( Dqn_WinNetHandle * handle ,
char * dest ,
int dest_size ,
size_t * download_size )
{
if ( ! Dqn_Win_NetHandleIsValid ( handle ) )
return false ;
if ( handle - > state ! = Dqn_WinNetHandleState_RequestGood )
return false ;
bool result = true ;
unsigned long bytes_read ;
if ( InternetReadFile ( handle - > http_handle , dest , dest_size , & bytes_read ) ) {
if ( bytes_read = = 0 )
result = false ;
* download_size = bytes_read ;
} else {
* download_size = 0 ;
result = false ;
}
if ( ! result ) {
// NOTE: If it's false here, we've finished downloading/the pumping the
// handled finished. We can reset the handle state to allow the user to
// re-use this handle by calling the function again with new post data.
// IF they need to set a new URL/resource location then they need to
// make a new handle for that otherwise they can re-use this handle to
// hit that same end point.
handle - > state = Dqn_WinNetHandleState_Initialised ;
InternetCloseHandle ( handle - > http_handle ) ;
handle - > http_handle = nullptr ;
}
return result ;
}
struct Dqn_Win_NetChunk
{
char data [ DQN_WIN_NET_HANDLE_DOWNLOAD_SIZE ] ;
size_t size ;
Dqn_Win_NetChunk * next ;
} ;
DQN_API char * Dqn_Win_NetHandlePumpCString8 ( Dqn_WinNetHandle * handle , Dqn_Arena * arena , size_t * download_size )
{
if ( handle - > state ! = Dqn_WinNetHandleState_RequestGood )
return nullptr ;
Dqn_ThreadScratch scratch = Dqn_Thread_GetScratch ( arena ) ;
size_t total_size = 0 ;
Dqn_Win_NetChunk * first_chunk = nullptr ;
for ( Dqn_Win_NetChunk * last_chunk = nullptr ; ; ) {
Dqn_Win_NetChunk * chunk = Dqn_Arena_New ( scratch . arena , Dqn_Win_NetChunk , Dqn_ZeroMem_Yes ) ;
bool pump_result = Dqn_Win_NetHandlePump ( handle , chunk - > data , DQN_WIN_NET_HANDLE_DOWNLOAD_SIZE , & chunk - > size ) ;
if ( chunk - > size ) {
total_size + = chunk - > size ;
if ( first_chunk ) {
last_chunk - > next = chunk ;
last_chunk = chunk ;
} else {
first_chunk = chunk ;
last_chunk = chunk ;
}
}
if ( ! pump_result )
break ;
}
char * result = Dqn_Arena_NewArray ( arena , char , total_size + 1 /*null-terminator*/ , Dqn_ZeroMem_No ) ;
char * result_ptr = result ;
for ( Dqn_Win_NetChunk * chunk = first_chunk ; chunk ; chunk = chunk - > next ) {
DQN_MEMCPY ( result_ptr , chunk - > data , chunk - > size ) ;
result_ptr + = chunk - > size ;
}
* download_size = total_size ;
result [ total_size ] = 0 ;
return result ;
}
DQN_API Dqn_String8 Dqn_Win_NetHandlePumpString8 ( Dqn_WinNetHandle * handle , Dqn_Arena * arena )
{
size_t size = 0 ;
char * download = Dqn_Win_NetHandlePumpCString8 ( handle , arena , & size ) ;
Dqn_String8 result = Dqn_String8_Init ( download , size ) ;
return result ;
}
DQN_API void Dqn_Win_NetHandlePumpToCRTFile ( Dqn_WinNetHandle * handle , FILE * file )
{
for ( bool keep_pumping = true ; keep_pumping ; ) {
char buffer [ DQN_WIN_NET_HANDLE_DOWNLOAD_SIZE ] ;
size_t buffer_size = 0 ;
keep_pumping = Dqn_Win_NetHandlePump ( handle , buffer , sizeof ( buffer ) , & buffer_size ) ;
fprintf ( file , " %.*s " , ( int ) buffer_size , buffer ) ;
}
}
DQN_API char * Dqn_Win_NetHandlePumpToAllocCString ( Dqn_WinNetHandle * handle , size_t * download_size )
{
size_t total_size = 0 ;
Dqn_Win_NetChunk * first_chunk = nullptr ;
for ( Dqn_Win_NetChunk * last_chunk = nullptr ; ; ) {
auto * chunk = DQN_CAST ( Dqn_Win_NetChunk * ) Dqn_VMem_Reserve ( sizeof ( Dqn_Win_NetChunk ) , Dqn_VMemCommit_Yes , Dqn_VMemPage_ReadWrite ) ;
bool pump_result = Dqn_Win_NetHandlePump ( handle , chunk - > data , DQN_WIN_NET_HANDLE_DOWNLOAD_SIZE , & chunk - > size ) ;
if ( chunk - > size ) {
total_size + = chunk - > size ;
if ( first_chunk ) {
last_chunk - > next = chunk ;
last_chunk = chunk ;
} else {
first_chunk = chunk ;
last_chunk = chunk ;
}
}
if ( ! pump_result )
break ;
}
auto * result = DQN_CAST ( char * ) Dqn_VMem_Reserve ( total_size * sizeof ( char ) , Dqn_VMemCommit_Yes , Dqn_VMemPage_ReadWrite ) ;
char * result_ptr = result ;
for ( Dqn_Win_NetChunk * chunk = first_chunk ; chunk ; ) {
DQN_MEMCPY ( result_ptr , chunk - > data , chunk - > size ) ;
result_ptr + = chunk - > size ;
Dqn_Win_NetChunk * prev_chunk = chunk ;
chunk = chunk - > next ;
Dqn_VMem_Release ( prev_chunk , sizeof ( * prev_chunk ) ) ;
}
* download_size = total_size ;
result [ total_size ] = 0 ;
return result ;
}
DQN_API Dqn_String8 Dqn_Win_NetHandlePumpToAllocString ( Dqn_WinNetHandle * handle )
{
size_t download_size = 0 ;
char * download = Dqn_Win_NetHandlePumpToAllocCString ( handle , & download_size ) ;
Dqn_String8 result = Dqn_String8_Init ( download , download_size ) ;
return result ;
}
# endif // !defined(DQN_NO_WINNET)
# endif // defined(DQN_OS_WIN32)
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// NOTE: [$OSYS] Dqn_OS ============================================================================
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DQN_API bool Dqn_OS_SecureRNGBytes ( void * buffer , uint32_t size )
{
if ( ! buffer | | size < 0 )
return false ;
if ( size = = 0 )
return true ;
# if defined(DQN_OS_WIN32)
bool init = true ;
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Dqn_TicketMutex_Begin ( & g_dqn_library - > win32_bcrypt_rng_mutex ) ;
if ( ! g_dqn_library - > win32_bcrypt_rng_handle )
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{
wchar_t const BCRYPT_ALGORITHM [ ] = L " RNG " ;
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long /*NTSTATUS*/ init_status = BCryptOpenAlgorithmProvider ( & g_dqn_library - > win32_bcrypt_rng_handle , BCRYPT_ALGORITHM , nullptr /*implementation*/ , 0 /*flags*/ ) ;
if ( ! g_dqn_library - > win32_bcrypt_rng_handle | | init_status ! = 0 )
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{
Dqn_Log_ErrorF ( " Failed to initialise random number generator, error: %d " , init_status ) ;
init = false ;
}
}
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Dqn_TicketMutex_End ( & g_dqn_library - > win32_bcrypt_rng_mutex ) ;
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if ( ! init )
return false ;
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long gen_status = BCryptGenRandom ( g_dqn_library - > win32_bcrypt_rng_handle , DQN_CAST ( unsigned char * ) buffer , size , 0 /*flags*/ ) ;
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if ( gen_status ! = 0 )
{
Dqn_Log_ErrorF ( " Failed to generate random bytes: %d " , gen_status ) ;
return false ;
}
# else
DQN_ASSERTF ( size < = 32 ,
" We can increase this by chunking the buffer and filling 32 bytes at a time. *Nix guarantees 32 "
" bytes can always be fulfilled by this system at a time " ) ;
// TODO(doyle): https://github.com/jedisct1/libsodium/blob/master/src/libsodium/randombytes/sysrandom/randombytes_sysrandom.c
// TODO(doyle): https://man7.org/linux/man-pages/man2/getrandom.2.html
int read_bytes = 0 ;
do
{
read_bytes = getrandom ( buffer , size , 0 ) ;
// NOTE: EINTR can not be triggered if size <= 32 bytes
} while ( read_bytes ! = size | | errno = = EAGAIN ) ;
# endif
return true ;
}
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# if (defined(DQN_OS_WIN32) && !defined(DQN_NO_WIN)) || !defined(DQN_OS_WIN32)
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DQN_API Dqn_String8 Dqn_OS_EXEDir ( Dqn_Allocator allocator )
{
Dqn_String8 result = { } ;
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# if defined(DQN_OS_WIN32)
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wchar_t exe_dir [ DQN_OS_WIN32_MAX_PATH ] ;
Dqn_usize exe_dir_size = Dqn_Win_EXEDirW ( exe_dir , DQN_ARRAY_ICOUNT ( exe_dir ) ) ;
result = Dqn_Win_CString16ToString8Allocator ( exe_dir , DQN_CAST ( int ) exe_dir_size , allocator ) ;
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# elif defined(DQN_OS_UNIX)
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int required_size_wo_null_terminator = 0 ;
for ( int try_size = 128 ;
;
try_size * = 2 )
{
auto scoped_arena = Dqn_ArenaTempMemoryScope ( arena ) ;
char * try_buf = Dqn_Arena_NewArray ( arena , char , try_size , Dqn_ZeroMem_No ) ;
int bytes_written = readlink ( " /proc/self/exe " , try_buf , try_size ) ;
if ( bytes_written = = - 1 )
{
// Failed, we're unable to determine the executable directory
break ;
}
else if ( bytes_written = = try_size )
{
// Try again, if returned size was equal- we may of prematurely
// truncated according to the man pages
continue ;
}
else
{
// readlink will give us the path to the executable. Once we
// determine the correct buffer size required to get the full file
// path, we do some post-processing on said string and extract just
// the directory.
// TODO(dqn): It'd be nice if there's some way of keeping this
// try_buf around, memcopy the byte and trash the try_buf from the
// arena. Instead we just get the size and redo the call one last
// time after this "calculate" step.
DQN_ASSERTF ( bytes_written < try_size , " bytes_written can never be greater than the try size, function writes at most try_size " ) ;
required_size_wo_null_terminator = bytes_written ;
for ( int index_of_last_slash = bytes_written ;
index_of_last_slash > = 0 ;
index_of_last_slash - - )
{
if ( try_buf [ index_of_last_slash ] = = ' / ' )
{
// NOTE: We take the index of the last slash and not
// (index_of_last_slash + 1) because we want to exclude the
// trailing backslash as a convention of this library.
required_size_wo_null_terminator = index_of_last_slash ;
break ;
}
}
break ;
}
}
if ( required_size_wo_null_terminator )
{
Dqn_ArenaTempMemory scope = Dqn_Arena_BeginTempMemory ( arena ) ;
char * exe_path = Dqn_Arena_NewArray ( arena , char , required_size_wo_null_terminator + 1 , Dqn_ZeroMem_No ) ;
exe_path [ required_size_wo_null_terminator ] = 0 ;
int bytes_written = readlink ( " /proc/self/exe " , exe_path , required_size_wo_null_terminator ) ;
if ( bytes_written = = - 1 )
{
// Note that if read-link fails again can be because there's
// a potential race condition here, our exe or directory could have
// been deleted since the last call, so we need to be careful.
Dqn_Arena_EndTempMemory ( scope ) ;
}
else
{
result = Dqn_String8_Init ( exe_path , required_size_wo_null_terminator ) ;
}
}
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# else
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# error Unimplemented
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# endif
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return result ;
}
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# endif
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DQN_API void Dqn_OS_SleepMs ( Dqn_uint milliseconds )
{
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# if defined(DQN_OS_WIN32)
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Sleep ( milliseconds ) ;
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# else
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struct timespec ts ;
ts . tv_sec = milliseconds / 1000 ;
ts . tv_nsec = ( milliseconds % 1000 ) * 1'000'000 ;
nanosleep ( & ts , nullptr ) ;
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# endif
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}
DQN_FILE_SCOPE void Dqn_OS_PerfCounter_Init ( )
{
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// TODO(doyle): Move this to Dqn_Library_Init
# if defined(DQN_OS_WIN32)
if ( g_dqn_library - > win32_qpc_frequency . QuadPart = = 0 )
QueryPerformanceFrequency ( & g_dqn_library - > win32_qpc_frequency ) ;
# endif
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}
DQN_API Dqn_f64 Dqn_OS_PerfCounterS ( uint64_t begin , uint64_t end )
{
Dqn_OS_PerfCounter_Init ( ) ;
uint64_t ticks = end - begin ;
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# if defined(DQN_OS_WIN32)
Dqn_f64 result = ticks / DQN_CAST ( Dqn_f64 ) g_dqn_library - > win32_qpc_frequency . QuadPart ;
# else
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Dqn_f64 result = ticks / 1'000'000'000 ;
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# endif
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return result ;
}
DQN_API Dqn_f64 Dqn_OS_PerfCounterMs ( uint64_t begin , uint64_t end )
{
Dqn_OS_PerfCounter_Init ( ) ;
uint64_t ticks = end - begin ;
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# if defined(DQN_OS_WIN32)
Dqn_f64 result = ( ticks * 1'000 ) / DQN_CAST ( Dqn_f64 ) g_dqn_library - > win32_qpc_frequency . QuadPart ;
# else
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Dqn_f64 result = ticks / DQN_CAST ( Dqn_f64 ) 1'000'000 ;
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# endif
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return result ;
}
DQN_API Dqn_f64 Dqn_OS_PerfCounterMicroS ( uint64_t begin , uint64_t end )
{
Dqn_OS_PerfCounter_Init ( ) ;
uint64_t ticks = end - begin ;
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# if defined(DQN_OS_WIN32)
Dqn_f64 result = ( ticks * 1'000'000 ) / DQN_CAST ( Dqn_f64 ) g_dqn_library - > win32_qpc_frequency . QuadPart ;
# else
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Dqn_f64 result = ticks / DQN_CAST ( Dqn_f64 ) 1'000 ;
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# endif
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return result ;
}
DQN_API Dqn_f64 Dqn_OS_PerfCounterNs ( uint64_t begin , uint64_t end )
{
Dqn_OS_PerfCounter_Init ( ) ;
uint64_t ticks = end - begin ;
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# if defined(DQN_OS_WIN32)
Dqn_f64 result = ( ticks * 1'000'000'000 ) / DQN_CAST ( Dqn_f64 ) g_dqn_library - > win32_qpc_frequency . QuadPart ;
# else
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Dqn_f64 result = ticks ;
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# endif
return result ;
}
DQN_API uint64_t Dqn_OS_PerfCounterFrequency ( )
{
uint64_t result = 0 ;
# if defined(DQN_OS_WIN32)
LARGE_INTEGER integer = { } ;
QueryPerformanceFrequency ( & integer ) ;
result = integer . QuadPart ;
# else
// NOTE: On Linux we use clock_gettime(CLOCK_MONOTONIC_RAW) which
// increments at nanosecond granularity.
result = 1'000'000'000 ;
# endif
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return result ;
}
DQN_API uint64_t Dqn_OS_PerfCounterNow ( )
{
uint64_t result = 0 ;
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# if defined(DQN_OS_WIN32)
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LARGE_INTEGER integer = { } ;
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QueryPerformanceCounter ( & integer ) ;
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result = integer . QuadPart ;
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# else
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struct timespec ts ;
clock_gettime ( CLOCK_MONOTONIC_RAW , & ts ) ;
result = DQN_CAST ( uint64_t ) ts . tv_sec * 1'000'000'000 + DQN_CAST ( uint64_t ) ts . tv_nsec ;
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# endif
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return result ;
}
DQN_API Dqn_OSTimer Dqn_OS_TimerBegin ( )
{
Dqn_OSTimer result = { } ;
result . start = Dqn_OS_PerfCounterNow ( ) ;
return result ;
}
DQN_API void Dqn_OS_TimerEnd ( Dqn_OSTimer * timer )
{
timer - > end = Dqn_OS_PerfCounterNow ( ) ;
}
DQN_API Dqn_f64 Dqn_OS_TimerS ( Dqn_OSTimer timer )
{
Dqn_f64 result = Dqn_OS_PerfCounterS ( timer . start , timer . end ) ;
return result ;
}
DQN_API Dqn_f64 Dqn_OS_TimerMs ( Dqn_OSTimer timer )
{
Dqn_f64 result = Dqn_OS_PerfCounterMs ( timer . start , timer . end ) ;
return result ;
}
DQN_API Dqn_f64 Dqn_OS_TimerMicroS ( Dqn_OSTimer timer )
{
Dqn_f64 result = Dqn_OS_PerfCounterMicroS ( timer . start , timer . end ) ;
return result ;
}
DQN_API Dqn_f64 Dqn_OS_TimerNs ( Dqn_OSTimer timer )
{
Dqn_f64 result = Dqn_OS_PerfCounterNs ( timer . start , timer . end ) ;
return result ;
}
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DQN_API uint64_t Dqn_OS_EstimateTSCPerSecond ( uint64_t duration_ms_to_gauge_tsc_frequency )
{
uint64_t os_frequency = Dqn_OS_PerfCounterFrequency ( ) ;
uint64_t os_target_elapsed = duration_ms_to_gauge_tsc_frequency * os_frequency / 1000ULL ;
uint64_t tsc_begin = Dqn_CPU_TSC ( ) ;
uint64_t os_elapsed = 0 ;
for ( uint64_t os_begin = Dqn_OS_PerfCounterNow ( ) ; os_elapsed < os_target_elapsed ; )
os_elapsed = Dqn_OS_PerfCounterNow ( ) - os_begin ;
uint64_t tsc_end = Dqn_CPU_TSC ( ) ;
uint64_t tsc_elapsed = tsc_end - tsc_begin ;
uint64_t result = tsc_elapsed / os_elapsed * os_frequency ;
return result ;
}
// NOTE: [$TCTX] Dqn_ThreadContext =================================================================
Dqn_ThreadScratch : : Dqn_ThreadScratch ( Dqn_ThreadContext * context , uint8_t context_index )
{
index = context_index ;
allocator = context - > temp_allocators [ index ] ;
arena = context - > temp_arenas [ index ] ;
temp_memory = Dqn_Arena_BeginTempMemory ( arena ) ;
}
Dqn_ThreadScratch : : ~ Dqn_ThreadScratch ( )
{
# if defined(DQN_DEBUG_THREAD_CONTEXT)
temp_arenas_stat [ index ] = arena - > stats ;
# endif
DQN_ASSERT ( destructed = = false ) ;
Dqn_Arena_EndTempMemory ( temp_memory , /*cancel*/ false ) ;
destructed = true ;
}
DQN_API uint32_t Dqn_Thread_GetID ( )
{
# if defined(DQN_OS_WIN32)
unsigned long result = GetCurrentThreadId ( ) ;
# else
pid_t result = gettid ( ) ;
assert ( gettid ( ) > = 0 ) ;
# endif
return ( uint32_t ) result ;
}
DQN_API Dqn_ThreadContext * Dqn_Thread_GetContext ( )
{
DQN_THREAD_LOCAL Dqn_ThreadContext result = { } ;
if ( ! result . init ) {
result . init = true ;
DQN_ASSERTF ( g_dqn_library - > lib_init , " Library must be initialised by calling Dqn_Library_Init(nullptr) " ) ;
// NOTE: Setup permanent arena
Dqn_ArenaCatalog * catalog = & g_dqn_library - > arena_catalog ;
result . allocator = Dqn_Arena_Allocator ( result . arena ) ;
result . arena = Dqn_ArenaCatalog_AllocF ( catalog ,
DQN_GIGABYTES ( 1 ) /*size*/ ,
DQN_KILOBYTES ( 64 ) /*commit*/ ,
" Thread %u Arena " ,
Dqn_Thread_GetID ( ) ) ;
// NOTE: Setup temporary arenas
for ( uint8_t index = 0 ; index < DQN_THREAD_CONTEXT_ARENAS ; index + + ) {
result . temp_arenas [ index ] = Dqn_ArenaCatalog_AllocF ( catalog ,
DQN_GIGABYTES ( 1 ) /*size*/ ,
DQN_KILOBYTES ( 64 ) /*commit*/ ,
" Thread %u Temp Arena %u " ,
Dqn_Thread_GetID ( ) ,
index ) ;
result . temp_allocators [ index ] = Dqn_Arena_Allocator ( result . temp_arenas [ index ] ) ;
}
}
return & result ;
}
// TODO: Is there a way to handle conflict arenas without the user needing to
// manually pass it in?
DQN_API Dqn_ThreadScratch Dqn_Thread_GetScratch ( void const * conflict_arena )
{
static_assert ( DQN_THREAD_CONTEXT_ARENAS < ( uint8_t ) - 1 , " We use UINT8_MAX as a sentinel value " ) ;
Dqn_ThreadContext * context = Dqn_Thread_GetContext ( ) ;
uint8_t context_index = ( uint8_t ) - 1 ;
for ( uint8_t index = 0 ; index < DQN_THREAD_CONTEXT_ARENAS ; index + + ) {
Dqn_Arena * arena = context - > temp_arenas [ index ] ;
if ( ! conflict_arena | | arena ! = conflict_arena ) {
context_index = index ;
break ;
}
}
DQN_ASSERT ( context_index ! = ( uint8_t ) - 1 ) ;
return Dqn_ThreadScratch ( context , context_index ) ;
}