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gencpp/project/dependencies/file_handling.cpp
Ed_ 5d7dfaf666 Heavy refactor.. 
Isolating large macros to their own directory (components/temp).
- Plan is to remove them soon with proper generation.

Added additional component files, separating the old data_structures header for a set of ast headers.
Header_end also had its inlines extracted out.
Necessary to complete the macro isolation.

ZPL parser dependencies were removed from the core library along with builder, its now generated in bootstrap as pare of making a gen_builder set of files.

Singleheader will be changed in next few commits to reflect this as well (By making builder deps and components a conditional option).

Tests are most likely all broken for now.
2023-08-03 11:01:43 -04:00

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#pragma region File Handling
#if defined( GEN_SYSTEM_WINDOWS ) || defined( GEN_SYSTEM_CYGWIN )
internal wchar_t* _alloc_utf8_to_ucs2( AllocatorInfo a, char const* text, sw* w_len_ )
{
wchar_t* w_text = NULL;
sw len = 0, w_len = 0, w_len1 = 0;
if ( text == NULL )
{
if ( w_len_ )
*w_len_ = w_len;
return NULL;
}
len = str_len( text );
if ( len == 0 )
{
if ( w_len_ )
*w_len_ = w_len;
return NULL;
}
w_len = MultiByteToWideChar( CP_UTF8, MB_ERR_INVALID_CHARS, text, zpl_cast( int ) len, NULL, 0 );
if ( w_len == 0 )
{
if ( w_len_ )
*w_len_ = w_len;
return NULL;
}
w_text = alloc_array( a, wchar_t, w_len + 1 );
w_len1 = MultiByteToWideChar( CP_UTF8, MB_ERR_INVALID_CHARS, text, zpl_cast( int ) len, w_text, zpl_cast( int ) w_len );
if ( w_len1 == 0 )
{
free( a, w_text );
if ( w_len_ )
*w_len_ = 0;
return NULL;
}
w_text[ w_len ] = 0;
if ( w_len_ )
*w_len_ = w_len;
return w_text;
}
internal GEN_FILE_SEEK_PROC( _win32_file_seek )
{
LARGE_INTEGER li_offset;
li_offset.QuadPart = offset;
if ( ! SetFilePointerEx( fd.p, li_offset, &li_offset, whence ) )
{
return false;
}
if ( new_offset )
*new_offset = li_offset.QuadPart;
return true;
}
internal GEN_FILE_READ_AT_PROC( _win32_file_read )
{
// unused( stop_at_newline );
b32 result = false;
_win32_file_seek( fd, offset, ESeekWhence_BEGIN, NULL );
DWORD size_ = zpl_cast( DWORD )( size > GEN_I32_MAX ? GEN_I32_MAX : size );
DWORD bytes_read_;
if ( ReadFile( fd.p, buffer, size_, &bytes_read_, NULL ) )
{
if ( bytes_read )
*bytes_read = bytes_read_;
result = true;
}
return result;
}
internal GEN_FILE_WRITE_AT_PROC( _win32_file_write )
{
DWORD size_ = zpl_cast( DWORD )( size > GEN_I32_MAX ? GEN_I32_MAX : size );
DWORD bytes_written_;
_win32_file_seek( fd, offset, ESeekWhence_BEGIN, NULL );
if ( WriteFile( fd.p, buffer, size_, &bytes_written_, NULL ) )
{
if ( bytes_written )
*bytes_written = bytes_written_;
return true;
}
return false;
}
internal GEN_FILE_CLOSE_PROC( _win32_file_close )
{
CloseHandle( fd.p );
}
FileOperations const default_file_operations = { _win32_file_read, _win32_file_write, _win32_file_seek, _win32_file_close };
neverinline GEN_FILE_OPEN_PROC( _win32_file_open )
{
DWORD desired_access;
DWORD creation_disposition;
void* handle;
wchar_t* w_text;
switch ( mode & GEN_FILE_MODES )
{
case EFileMode_READ :
desired_access = GENERIC_READ;
creation_disposition = OPEN_EXISTING;
break;
case EFileMode_WRITE :
desired_access = GENERIC_WRITE;
creation_disposition = CREATE_ALWAYS;
break;
case EFileMode_APPEND :
desired_access = GENERIC_WRITE;
creation_disposition = OPEN_ALWAYS;
break;
case EFileMode_READ | EFileMode_RW :
desired_access = GENERIC_READ | GENERIC_WRITE;
creation_disposition = OPEN_EXISTING;
break;
case EFileMode_WRITE | EFileMode_RW :
desired_access = GENERIC_READ | GENERIC_WRITE;
creation_disposition = CREATE_ALWAYS;
break;
case EFileMode_APPEND | EFileMode_RW :
desired_access = GENERIC_READ | GENERIC_WRITE;
creation_disposition = OPEN_ALWAYS;
break;
default :
GEN_PANIC( "Invalid file mode" );
return EFileError_INVALID;
}
w_text = _alloc_utf8_to_ucs2( heap(), filename, NULL );
handle = CreateFileW( w_text, desired_access, FILE_SHARE_READ | FILE_SHARE_DELETE, NULL, creation_disposition, FILE_ATTRIBUTE_NORMAL, NULL );
free( heap(), w_text );
if ( handle == INVALID_HANDLE_VALUE )
{
DWORD err = GetLastError();
switch ( err )
{
case ERROR_FILE_NOT_FOUND :
return EFileError_NOT_EXISTS;
case ERROR_FILE_EXISTS :
return EFileError_EXISTS;
case ERROR_ALREADY_EXISTS :
return EFileError_EXISTS;
case ERROR_ACCESS_DENIED :
return EFileError_PERMISSION;
}
return EFileError_INVALID;
}
if ( mode & EFileMode_APPEND )
{
LARGE_INTEGER offset = { { 0 } };
if ( ! SetFilePointerEx( handle, offset, NULL, ESeekWhence_END ) )
{
CloseHandle( handle );
return EFileError_INVALID;
}
}
fd->p = handle;
*ops = default_file_operations;
return EFileError_NONE;
}
#else // POSIX
# include <fcntl.h>
internal GEN_FILE_SEEK_PROC( _posix_file_seek )
{
# if defined( GEN_SYSTEM_OSX )
s64 res = lseek( fd.i, offset, whence );
# else // TODO(ZaKlaus): @fixme lseek64
s64 res = lseek( fd.i, offset, whence );
# endif
if ( res < 0 )
return false;
if ( new_offset )
*new_offset = res;
return true;
}
internal GEN_FILE_READ_AT_PROC( _posix_file_read )
{
unused( stop_at_newline );
sw res = pread( fd.i, buffer, size, offset );
if ( res < 0 )
return false;
if ( bytes_read )
*bytes_read = res;
return true;
}
internal GEN_FILE_WRITE_AT_PROC( _posix_file_write )
{
sw res;
s64 curr_offset = 0;
_posix_file_seek( fd, 0, ESeekWhence_CURRENT, &curr_offset );
if ( curr_offset == offset )
{
// NOTE: Writing to stdout et al. doesn't like pwrite for numerous reasons
res = write( zpl_cast( int ) fd.i, buffer, size );
}
else
{
res = pwrite( zpl_cast( int ) fd.i, buffer, size, offset );
}
if ( res < 0 )
return false;
if ( bytes_written )
*bytes_written = res;
return true;
}
internal GEN_FILE_CLOSE_PROC( _posix_file_close )
{
close( fd.i );
}
FileOperations const default_file_operations = { _posix_file_read, _posix_file_write, _posix_file_seek, _posix_file_close };
neverinline GEN_FILE_OPEN_PROC( _posix_file_open )
{
s32 os_mode;
switch ( mode & GEN_FILE_MODES )
{
case EFileMode_READ :
os_mode = O_RDONLY;
break;
case EFileMode_WRITE :
os_mode = O_WRONLY | O_CREAT | O_TRUNC;
break;
case EFileMode_APPEND :
os_mode = O_WRONLY | O_APPEND | O_CREAT;
break;
case EFileMode_READ | EFileMode_RW :
os_mode = O_RDWR;
break;
case EFileMode_WRITE | EFileMode_RW :
os_mode = O_RDWR | O_CREAT | O_TRUNC;
break;
case EFileMode_APPEND | EFileMode_RW :
os_mode = O_RDWR | O_APPEND | O_CREAT;
break;
default :
GEN_PANIC( "Invalid file mode" );
return EFileError_INVALID;
}
fd->i = open( filename, os_mode, S_IRUSR | S_IWUSR | S_IRGRP | S_IWGRP | S_IROTH | S_IWOTH );
if ( fd->i < 0 )
{
// TODO : More file errors
return EFileError_INVALID;
}
*ops = default_file_operations;
return EFileError_NONE;
}
// POSIX
#endif
internal void _dirinfo_free_entry( DirEntry* entry );
// TODO : Is this a bad idea?
global b32 _std_file_set = false;
global FileInfo _std_files[ EFileStandard_COUNT ] = {
{
{ nullptr, nullptr, nullptr, nullptr },
{ nullptr },
0,
nullptr,
0,
nullptr
} };
#if defined( GEN_SYSTEM_WINDOWS ) || defined( GEN_SYSTEM_CYGWIN )
FileInfo* file_get_standard( FileStandardType std )
{
if ( ! _std_file_set )
{
# define GEN__SET_STD_FILE( type, v ) \
_std_files[ type ].fd.p = v; \
_std_files[ type ].ops = default_file_operations
GEN__SET_STD_FILE( EFileStandard_INPUT, GetStdHandle( STD_INPUT_HANDLE ) );
GEN__SET_STD_FILE( EFileStandard_OUTPUT, GetStdHandle( STD_OUTPUT_HANDLE ) );
GEN__SET_STD_FILE( EFileStandard_ERROR, GetStdHandle( STD_ERROR_HANDLE ) );
# undef GEN__SET_STD_FILE
_std_file_set = true;
}
return &_std_files[ std ];
}
#else // POSIX
FileInfo* file_get_standard( FileStandardType std )
{
if ( ! _std_file_set )
{
# define GEN__SET_STD_FILE( type, v ) \
_std_files[ type ].fd.i = v; \
_std_files[ type ].ops = default_file_operations
GEN__SET_STD_FILE( EFileStandard_INPUT, 0 );
GEN__SET_STD_FILE( EFileStandard_OUTPUT, 1 );
GEN__SET_STD_FILE( EFileStandard_ERROR, 2 );
# undef GEN__SET_STD_FILE
_std_file_set = true;
}
return &_std_files[ std ];
}
#endif
FileError file_close( FileInfo* f )
{
if ( ! f )
return EFileError_INVALID;
if ( f->filename )
free( heap(), zpl_cast( char* ) f->filename );
#if defined( GEN_SYSTEM_WINDOWS )
if ( f->fd.p == INVALID_HANDLE_VALUE )
return EFileError_INVALID;
#else
if ( f->fd.i < 0 )
return EFileError_INVALID;
#endif
if ( f->is_temp )
{
f->ops.close( f->fd );
return EFileError_NONE;
}
if ( ! f->ops.read_at )
f->ops = default_file_operations;
f->ops.close( f->fd );
#if 0
if ( f->Dir )
{
_dirinfo_free_entry( f->Dir );
mfree( f->Dir );
f->Dir = NULL;
}
#endif
return EFileError_NONE;
}
FileError file_new( FileInfo* f, FileDescriptor fd, FileOperations ops, char const* filename )
{
FileError err = EFileError_NONE;
sw len = str_len( filename );
f->ops = ops;
f->fd = fd;
f->dir = nullptr;
f->last_write_time = 0;
f->filename = alloc_array( heap(), char, len + 1 );
mem_copy( zpl_cast( char* ) f->filename, zpl_cast( char* ) filename, len + 1 );
return err;
}
FileError file_open( FileInfo* f, char const* filename )
{
return file_open_mode( f, EFileMode_READ, filename );
}
FileError file_open_mode( FileInfo* f, FileMode mode, char const* filename )
{
FileInfo file_ =
{
{ nullptr, nullptr, nullptr, nullptr },
{ nullptr },
0,
nullptr,
0,
nullptr
};
*f = file_;
FileError err;
#if defined( GEN_SYSTEM_WINDOWS ) || defined( GEN_SYSTEM_CYGWIN )
err = _win32_file_open( &f->fd, &f->ops, mode, filename );
#else
err = _posix_file_open( &f->fd, &f->ops, mode, filename );
#endif
if ( err == EFileError_NONE )
return file_new( f, f->fd, f->ops, filename );
return err;
}
s64 file_size( FileInfo* f )
{
s64 size = 0;
s64 prev_offset = file_tell( f );
file_seek_to_end( f );
size = file_tell( f );
file_seek( f, prev_offset );
return size;
}
FileContents file_read_contents( AllocatorInfo a, b32 zero_terminate, char const* filepath )
{
FileContents result;
FileInfo file ;
result.allocator = a;
if ( file_open( &file, filepath ) == EFileError_NONE )
{
sw fsize = zpl_cast( sw ) file_size( &file );
if ( fsize > 0 )
{
result.data = alloc( a, zero_terminate ? fsize + 1 : fsize );
result.size = fsize;
file_read_at( &file, result.data, result.size, 0 );
if ( zero_terminate )
{
u8* str = zpl_cast( u8* ) result.data;
str[ fsize ] = '\0';
}
}
file_close( &file );
}
return result;
}
struct _memory_fd
{
u8 magic;
u8* buf; //< zpl_array OR plain buffer if we can't write
sw cursor;
AllocatorInfo allocator;
FileStreamFlags flags;
sw cap;
};
#define GEN__FILE_STREAM_FD_MAGIC 37
GEN_DEF_INLINE FileDescriptor _file_stream_fd_make( _memory_fd* d );
GEN_DEF_INLINE _memory_fd* _file_stream_from_fd( FileDescriptor fd );
GEN_IMPL_INLINE FileDescriptor _file_stream_fd_make( _memory_fd* d )
{
FileDescriptor fd = { 0 };
fd.p = ( void* )d;
return fd;
}
GEN_IMPL_INLINE _memory_fd* _file_stream_from_fd( FileDescriptor fd )
{
_memory_fd* d = ( _memory_fd* )fd.p;
GEN_ASSERT( d->magic == GEN__FILE_STREAM_FD_MAGIC );
return d;
}
b8 file_stream_new( FileInfo* file, AllocatorInfo allocator )
{
GEN_ASSERT_NOT_NULL( file );
_memory_fd* d = ( _memory_fd* )alloc( allocator, size_of( _memory_fd ) );
if ( ! d )
return false;
zero_item( file );
d->magic = GEN__FILE_STREAM_FD_MAGIC;
d->allocator = allocator;
d->flags = EFileStream_CLONE_WRITABLE;
d->cap = 0;
d->buf = Array<u8>::init( allocator );
if ( ! d->buf )
return false;
file->ops = memory_file_operations;
file->fd = _file_stream_fd_make( d );
file->dir = NULL;
file->last_write_time = 0;
file->filename = NULL;
file->is_temp = true;
return true;
}
b8 file_stream_open( FileInfo* file, AllocatorInfo allocator, u8* buffer, sw size, FileStreamFlags flags )
{
GEN_ASSERT_NOT_NULL( file );
_memory_fd* d = ( _memory_fd* )alloc( allocator, size_of( _memory_fd ) );
if ( ! d )
return false;
zero_item( file );
d->magic = GEN__FILE_STREAM_FD_MAGIC;
d->allocator = allocator;
d->flags = flags;
if ( d->flags & EFileStream_CLONE_WRITABLE )
{
Array<u8> arr = Array<u8>::init_reserve( allocator, size );
d->buf = arr;
if ( ! d->buf )
return false;
mem_copy( d->buf, buffer, size );
d->cap = size;
arr.get_header()->Num = size;
}
else
{
d->buf = buffer;
d->cap = size;
}
file->ops = memory_file_operations;
file->fd = _file_stream_fd_make( d );
file->dir = NULL;
file->last_write_time = 0;
file->filename = NULL;
file->is_temp = true;
return true;
}
u8* file_stream_buf( FileInfo* file, sw* size )
{
GEN_ASSERT_NOT_NULL( file );
_memory_fd* d = _file_stream_from_fd( file->fd );
if ( size )
*size = d->cap;
return d->buf;
}
internal GEN_FILE_SEEK_PROC( _memory_file_seek )
{
_memory_fd* d = _file_stream_from_fd( fd );
sw buflen = d->cap;
if ( whence == ESeekWhence_BEGIN )
d->cursor = 0;
else if ( whence == ESeekWhence_END )
d->cursor = buflen;
d->cursor = max( 0, clamp( d->cursor + offset, 0, buflen ) );
if ( new_offset )
*new_offset = d->cursor;
return true;
}
internal GEN_FILE_READ_AT_PROC( _memory_file_read )
{
// unused( stop_at_newline );
_memory_fd* d = _file_stream_from_fd( fd );
mem_copy( buffer, d->buf + offset, size );
if ( bytes_read )
*bytes_read = size;
return true;
}
internal GEN_FILE_WRITE_AT_PROC( _memory_file_write )
{
_memory_fd* d = _file_stream_from_fd( fd );
if ( ! ( d->flags & ( EFileStream_CLONE_WRITABLE | EFileStream_WRITABLE ) ) )
return false;
sw buflen = d->cap;
sw extralen = max( 0, size - ( buflen - offset ) );
sw rwlen = size - extralen;
sw new_cap = buflen + extralen;
if ( d->flags & EFileStream_CLONE_WRITABLE )
{
Array<u8> arr = { d->buf };
if ( arr.get_header()->Capacity < new_cap )
{
if ( ! arr.grow( ( s64 )( new_cap ) ) )
return false;
d->buf = arr;
}
}
mem_copy( d->buf + offset, buffer, rwlen );
if ( ( d->flags & EFileStream_CLONE_WRITABLE ) && extralen > 0 )
{
Array<u8> arr = { d->buf };
mem_copy( d->buf + offset + rwlen, pointer_add_const( buffer, rwlen ), extralen );
d->cap = new_cap;
arr.get_header()->Capacity = new_cap;
}
else
{
extralen = 0;
}
if ( bytes_written )
*bytes_written = ( rwlen + extralen );
return true;
}
internal GEN_FILE_CLOSE_PROC( _memory_file_close )
{
_memory_fd* d = _file_stream_from_fd( fd );
AllocatorInfo allocator = d->allocator;
if ( d->flags & EFileStream_CLONE_WRITABLE )
{
Array<u8> arr = { d->buf };
arr.free();
}
free( allocator, d );
}
FileOperations const memory_file_operations = { _memory_file_read, _memory_file_write, _memory_file_seek, _memory_file_close };
#pragma endregion File Handling
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