freetype2/demos/graph/gros2pm.c

896 lines
24 KiB
C

#include "gros2pm.h"
#define INCL_DOS
#define INCL_WIN
#define INCL_GPI
#define INCL_SUB
#include <os2.h>
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
static void Panic( const char* message )
{
fprintf( stderr, "%s", message );
exit(1);
}
typedef struct Translator
{
ULONG os2key;
grKey grkey;
} Translator;
static
Translator key_translators[] =
{
{ VK_BACKSPACE, grKeyBackSpace },
{ VK_TAB, grKeyTab },
{ VK_ENTER, grKeyReturn },
{ VK_ESC, grKeyEsc },
{ VK_HOME, grKeyHome },
{ VK_LEFT, grKeyLeft },
{ VK_UP, grKeyUp },
{ VK_RIGHT, grKeyRight },
{ VK_DOWN, grKeyDown },
{ VK_PAGEUP, grKeyPageUp },
{ VK_PAGEDOWN, grKeyPageDown },
{ VK_END, grKeyEnd },
{ VK_F1, grKeyF1 },
{ VK_F2, grKeyF2 },
{ VK_F3, grKeyF3 },
{ VK_F4, grKeyF4 },
{ VK_F5, grKeyF5 },
{ VK_F6, grKeyF6 },
{ VK_F7, grKeyF7 },
{ VK_F8, grKeyF8 },
{ VK_F9, grKeyF9 },
{ VK_F10, grKeyF10 },
{ VK_F11, grKeyF11 },
{ VK_F12, grKeyF12 }
};
#define MAX_PIXEL_MODES 32
static int num_pixel_modes = 0;
static grPixelMode pixel_modes[ MAX_PIXEL_MODES ];
static int pixel_depth[ MAX_PIXEL_MODES ];
static HAB gr_anchor; /* device anchor block */
typedef POINTL PMBlitPoints[4];
typedef struct grPMSurface_
{
grSurface root;
grBitmap image;
HAB anchor; /* handle to anchor block for surface's window */
HWND frame_window; /* handle to window's frame */
HWND client_window; /* handle to window's client */
HWND title_window; /* handle to window's title bar */
HPS image_ps; /* memory presentation space used to hold */
/* the surface's content under PM */
HDC image_dc; /* memory device context for the image */
HEV event_lock; /* semaphore used in listen_surface */
HMTX image_lock; /* a mutex used to synchronise access */
/* to the memory presentation space */
/* used to hold the surface */
TID message_thread; /* thread used to process this surface's */
/* messages.. */
PBITMAPINFO2 bitmap_header;/* os/2 bitmap descriptor */
HBITMAP os2_bitmap; /* Handle to OS/2 bitmap contained in image */
BOOL ready; /* ??? */
long shades[256]; /* indices of gray levels in pixel_mode_gray */
POINTL surface_blit[4]; /* surface blitting table */
POINTL magnify_blit[4]; /* magnifier blitting table */
int magnification; /* level of magnification */
POINTL magnify_center;
SIZEL magnify_size;
grEvent event;
PMBlitPoints blit_points;
} grPMSurface;
static
void enable_os2_iostreams( void )
{
PTIB thread_block;
PPIB process_block;
/* XXX : This is a very nasty hack, it fools OS/2 and let the program */
/* call PM functions, even though stdin/stdout/stderr are still */
/* directed to the standard i/o streams.. */
/* The program must be compiled with WINDOWCOMPAT */
/* */
/* Credits go to Michal for finding this !! */
/* */
DosGetInfoBlocks( &thread_block, &process_block );
process_block->pib_ultype = 3;
}
static
int init_device( void )
{
enable_os2_iostreams();
/* create an anchor block. This will allow this thread (i.e. the */
/* main one) to call Gpi functions.. */
gr_anchor = WinInitialize(0);
if (!gr_anchor)
{
/* could not initialise Presentation Manager */
return -1;
}
return 0;
}
static
void done_device( void )
{
/* Indicates that we do not use the Presentation Manager, this */
/* will also release all associated resources.. */
WinTerminate( gr_anchor );
}
/* close a given window */
static
void done_surface( grPMSurface* surface )
{
if ( surface->frame_window )
WinDestroyWindow( surface->frame_window );
WinReleasePS( surface->image_ps );
grDoneBitmap( &surface->image );
grDoneBitmap( &surface->root.bitmap );
}
static
void add_pixel_mode( grPixelMode pixel_mode,
int depth )
{
if ( num_pixel_modes >= MAX_PIXEL_MODES )
Panic( "X11.Too many pixel modes\n" );
pixel_modes[ num_pixel_modes ] = pixel_mode;
pixel_depth[ num_pixel_modes ] = depth;
num_pixel_modes++;
}
#define LOCK(x) DosRequestMutexSem( x, SEM_INDEFINITE_WAIT );
#define UNLOCK(x) DosReleaseMutexSem( x )
static
const int pixel_mode_bit_count[] =
{
0,
1,
4,
8, /* pal8 */
8, /* gray */
15,
16,
24,
32
};
/************************************************************************
*
* Technical note : how the OS/2 Presntation Manager driver works
*
* PM is, in my opinion, a bloated and over-engineered graphics
* sub-system, even though it has lots of nice features. Here are
* a few tidbits about it :
*
*
* - under PM, a "bitmap" is a device-specific object whose bits are
* not directly accessible to the client application. This means
* that we must use a scheme like the following to display our
* surfaces :
*
* - hold, for each surface, its own bitmap buffer where the
* rest of MiGS writes directly.
*
* - create a PM bitmap object with the same dimensions (and
* possibly format).
*
* - copy the content of each updated rectangle into the
* PM bitmap with the function 'GpiSetBitmapBits'.
*
* - finally, "blit" the PM bitmap to the screen calling
* 'GpiBlitBlt'
*
* - but there is more : you cannot directly blit a PM bitmap to the
* screen with PM. The 'GpiBlitBlt' only works with presentation
* spaces. This means that we also need to create, for each surface :
*
* - a memory presentation space, used to hold the PM bitmap
* - a "memory device context" for the presentation space
*
* The blit is then performed from the memory presentation space
* to the screen's presentation space..
*
*
* - because each surface creates its own event-handling thread,
* we must protect the surface's presentation space from concurrent
* accesses (i.e. calls to 'GpiSetBitmapBits' when drawing to the
* surface, and calls to 'GpiBlitBlt' when drawing it on the screen
* are performed in two different threads).
*
* we use a simple mutex to do this.
*
*
* - we also use a semaphore to perform a rendez-vous between the
* main and event-handling threads (needed in "listen_event").
*
************************************************************************/
static
void RunPMWindow( grPMSurface* surface );
static
void convert_gray_to_pal8( grPMSurface* surface,
int x,
int y,
int w,
int h )
{
grBitmap* target = &surface->image;
grBitmap* source = &surface->root.bitmap;
byte* write = (byte*)target->buffer + y*target->pitch + x;
byte* read = (byte*)source->buffer + y*source->pitch + x;
long* palette = surface->shades;
while (h > 0)
{
byte* _write = write;
byte* _read = read;
byte* limit = _write + w;
for ( ; _write < limit; _write++, _read++ )
*_write = (byte) palette[ *_read ];
write += target->pitch;
read += source->pitch;
h--;
}
}
static
void convert_gray_to_16( grPMSurface* surface,
int x,
int y,
int w,
int h )
{
grBitmap* target = &surface->image;
grBitmap* source = &surface->root.bitmap;
byte* write = (byte*)target->buffer + y*target->pitch + 2*x;
byte* read = (byte*)source->buffer + y*source->pitch + x;
long* palette = surface->shades;
while (h > 0)
{
byte* _write = write;
byte* _read = read;
byte* limit = _write + 2*w;
for ( ; _write < limit; _write += 2, _read++ )
*(short*)_write = (short)palette[ *_read ];
write += target->pitch;
read += source->pitch;
h--;
}
}
static
void convert_gray_to_24( grPMSurface* surface,
int x,
int y,
int w,
int h )
{
grBitmap* target = &surface->image;
grBitmap* source = &surface->root.bitmap;
byte* write = (byte*)target->buffer + y*target->pitch + 3*x;
byte* read = (byte*)source->buffer + y*source->pitch + x;
while (h > 0)
{
byte* _write = write;
byte* _read = read;
byte* limit = _write + 3*w;
for ( ; _write < limit; _write += 3, _read++ )
{
byte color = *_read;
_write[0] =
_write[1] =
_write[2] = color;
}
write += target->pitch;
read += source->pitch;
h--;
}
}
static
void convert_gray_to_32( grPMSurface* surface,
int x,
int y,
int w,
int h )
{
grBitmap* target = &surface->image;
grBitmap* source = &surface->root.bitmap;
byte* write = (byte*)target->buffer + y*target->pitch + 4*x;
byte* read = (byte*)source->buffer + y*source->pitch + x;
while (h > 0)
{
byte* _write = write;
byte* _read = read;
byte* limit = _write + 4*w;
for ( ; _write < limit; _write += 4, _read++ )
{
byte color = *_read;
_write[0] =
_write[1] =
_write[2] =
_write[3] = color;
}
write += target->pitch;
read += source->pitch;
h--;
}
}
static
void convert_rectangle( grPMSurface* surface,
int x,
int y,
int w,
int h )
{
int z;
/* first of all, clip to the surface's area */
if ( x >= surface->image.width ||
x+w <= 0 ||
y >= surface->image.rows ||
y+h <= 0 )
return;
if ( x < 0 )
{
w += x;
x = 0;
}
z = (x + w) - surface->image.width;
if (z > 0)
w -= z;
z = (y + h) - surface->image.rows;
if (z > 0)
h -= z;
/* convert the rectangle to the target depth for gray surfaces */
if (surface->root.bitmap.mode == gr_pixel_mode_gray)
{
switch (surface->image.mode)
{
case gr_pixel_mode_pal8 :
convert_gray_to_pal8( surface, x, y, w, h );
break;
case gr_pixel_mode_rgb555:
case gr_pixel_mode_rgb565:
convert_gray_to_16 ( surface, x, y, w, h );
break;
case gr_pixel_mode_rgb24:
convert_gray_to_24 ( surface, x, y, w, h );
break;
case gr_pixel_mode_rgb32:
convert_gray_to_32 ( surface, x, y, w, h );
break;
default:
;
}
}
}
static
void refresh_rectangle( grPMSurface* surface,
int x,
int y,
int w,
int h )
{
convert_rectangle( surface, x, y, w, h );
WinInvalidateRect( surface->client_window, NULL, FALSE );
WinUpdateWindow( surface->frame_window );
}
static
void set_title( grPMSurface* surface,
const char* title )
{
WinSetWindowText( surface->title_window, (PSZ)title );
}
static
void listen_event( grPMSurface* surface,
int event_mask,
grEvent* grevent )
{
ULONG ulRequestCount;
(void) event_mask; /* ignored for now */
/* the listen_event function blocks until there is an event to process */
DosWaitEventSem( surface->event_lock, SEM_INDEFINITE_WAIT );
DosQueryEventSem( surface->event_lock, &ulRequestCount );
*grevent = surface->event;
DosResetEventSem( surface->event_lock, &ulRequestCount );
return;
}
static
int init_surface( grPMSurface* surface,
grBitmap* bitmap )
{
PBITMAPINFO2 bit;
SIZEL sizl = { 0, 0 };
LONG palette[256];
/* create the bitmap - under OS/2, we support all modes as PM */
/* handles all conversions automatically.. */
if ( grNewBitmap( surface->root.bitmap.mode,
surface->root.bitmap.grays,
surface->root.bitmap.width,
surface->root.bitmap.rows,
bitmap ) )
return grError;
surface->root.bitmap = *bitmap;
/* create the image and event lock */
DosCreateEventSem( NULL, &surface->event_lock, 0, TRUE );
DosCreateMutexSem( NULL, &surface->image_lock, 0, FALSE );
/* create the image's presentation space */
surface->image_dc = DevOpenDC( gr_anchor,
OD_MEMORY, (PSZ)"*", 0L, 0L, 0L );
surface->image_ps = GpiCreatePS( gr_anchor,
surface->image_dc,
&sizl,
PU_PELS | GPIT_MICRO |
GPIA_ASSOC | GPIF_DEFAULT );
GpiSetBackMix( surface->image_ps, BM_OVERPAINT );
/* create the image's PM bitmap */
bit = (PBITMAPINFO2)grAlloc( sizeof(BITMAPINFO2) + 256*sizeof(RGB2) );
surface->bitmap_header = bit;
bit->cbFix = sizeof( BITMAPINFOHEADER2 );
bit->cx = surface->root.bitmap.width;
bit->cy = surface->root.bitmap.rows;
bit->cPlanes = 1;
bit->argbColor[0].bBlue = 0;
bit->argbColor[0].bGreen = 0;
bit->argbColor[0].bRed = 0;
bit->argbColor[1].bBlue = 255;
bit->argbColor[1].bGreen = 255;
bit->argbColor[1].bRed = 255;
bit->cBitCount = pixel_mode_bit_count[ surface->root.bitmap.mode ];
surface->os2_bitmap = GpiCreateBitmap( surface->image_ps,
(PBITMAPINFOHEADER2)bit,
0L, NULL, NULL );
GpiSetBitmap( surface->image_ps, surface->os2_bitmap );
bit->cbFix = sizeof( BITMAPINFOHEADER2 );
GpiQueryBitmapInfoHeader( surface->os2_bitmap,
(PBITMAPINFOHEADER2)bit );
/* for gr_pixel_mode_gray, create a gray-levels logical palette */
if ( bitmap->mode == gr_pixel_mode_gray )
{
int x, count;
count = bitmap->grays;
for ( x = 0; x < count; x++ )
palette[x] = (((count-x)*255)/count) * 0x010101;
/* create logical color table */
GpiCreateLogColorTable( surface->image_ps,
(ULONG) LCOL_PURECOLOR,
(LONG) LCOLF_CONSECRGB,
(LONG) 0L,
(LONG) count,
(PLONG) palette );
/* now, copy the color indexes to surface->shades */
for ( x = 0; x < count; x++ )
surface->shades[x] = GpiQueryColorIndex( surface->image_ps,
0, palette[x] );
}
/* set up the blit points array */
surface->blit_points[1].x = surface->root.bitmap.width;
surface->blit_points[1].y = surface->root.bitmap.rows;
surface->blit_points[3] = surface->blit_points[1];
/* Finally, create the event handling thread for the surface's window */
DosCreateThread( &surface->message_thread,
(PFNTHREAD) RunPMWindow,
(ULONG) surface,
0UL,
32920 );
surface->root.done = (grDoneSurfaceFunc) done_surface;
surface->root.refresh_rect = (grRefreshRectFunc) refresh_rectangle;
surface->root.set_title = (grSetTitleFunc) set_title;
surface->root.listen_event = (grListenEventFunc) listen_event;
convert_rectangle( surface, 0, 0, bitmap->width, bitmap->rows );
return 0;
}
MRESULT EXPENTRY Message_Process( HWND handle,
ULONG mess,
MPARAM parm1,
MPARAM parm2 );
static
void RunPMWindow( grPMSurface* surface )
{
unsigned char class_name[] = "DisplayClass";
ULONG class_flags;
static HMQ queue;
QMSG message;
/* create an anchor to allow this thread to use PM */
surface->anchor = WinInitialize(0);
if (!surface->anchor)
{
printf( "Error doing WinInitialize()\n" );
return;
}
/* create a message queue */
queue = WinCreateMsgQueue( surface->anchor, 0 );
if (!queue)
{
printf( "Error doing >inCreateMsgQueue()\n" );
return;
}
/* register the window class */
if ( !WinRegisterClass( surface->anchor,
(PSZ) class_name,
(PFNWP) Message_Process,
CS_SIZEREDRAW,
0 ) )
{
printf( "Error doing WinRegisterClass()\n" );
return;
}
/* create the PM window */
class_flags = FCF_TITLEBAR | FCF_MINBUTTON | FCF_DLGBORDER |
FCF_TASKLIST | FCF_SYSMENU;
surface->frame_window = WinCreateStdWindow(
HWND_DESKTOP,
WS_VISIBLE,
&class_flags,
(PSZ) class_name,
(PSZ) "FreeType PM Graphics",
WS_VISIBLE,
0, 0,
&surface->client_window );
if (!surface->frame_window)
{
printf( "Error doing WinCreateStdWindow()\n" );
return;
}
/* find the title window handle */
surface->title_window = WinWindowFromID( surface->frame_window,
FID_TITLEBAR );
/* set Window size and position */
WinSetWindowPos( surface->frame_window,
0L,
(SHORT) 60,
(SHORT) WinQuerySysValue( HWND_DESKTOP, SV_CYSCREEN ) -
surface->root.bitmap.rows + 100,
(SHORT) WinQuerySysValue( HWND_DESKTOP, SV_CYDLGFRAME )*2 +
surface->root.bitmap.width,
(SHORT) WinQuerySysValue( HWND_DESKTOP, SV_CYTITLEBAR ) +
WinQuerySysValue( HWND_DESKTOP, SV_CYDLGFRAME )*2 +
surface->root.bitmap.rows,
SWP_SIZE | SWP_MOVE );
/* save the handle to the current surface within the window words */
WinSetWindowPtr( surface->frame_window,QWL_USER, surface );
/* run the message queue till the end */
while ( WinGetMsg( surface->anchor, &message, (HWND)NULL, 0, 0 ) )
WinDispatchMsg( surface->anchor, &message );
/* clean-up */
WinDestroyWindow( surface->frame_window );
surface->frame_window = 0;
WinDestroyMsgQueue( queue );
WinTerminate( surface->anchor );
/* await death... */
while ( 1 )
DosSleep( 100 );
}
/* Message processing for our PM Window class */
MRESULT EXPENTRY Message_Process( HWND handle,
ULONG mess,
MPARAM parm1,
MPARAM parm2 )
{
static HDC screen_dc;
static HPS screen_ps;
static BOOL minimized;
SIZEL sizl;
SWP swp;
grPMSurface* surface;
/* get the handle to the window's surface */
surface = (grPMSurface*)WinQueryWindowPtr( handle, QWL_USER );
switch( mess )
{
case WM_DESTROY:
/* warn the main thread to quit if it didn't know */
surface->event.type = gr_event_key;
surface->event.key = grKeyEsc;
DosPostEventSem( surface->event_lock );
break;
case WM_CREATE:
/* set original magnification */
minimized = FALSE;
/* create Device Context and Presentation Space for screen. */
screen_dc = WinOpenWindowDC( handle );
screen_ps = GpiCreatePS( surface->anchor,
screen_dc,
&sizl,
PU_PELS | GPIT_MICRO |
GPIA_ASSOC | GPIF_DEFAULT );
/* take the input focus */
WinFocusChange( HWND_DESKTOP, handle, 0L );
break;
case WM_MINMAXFRAME:
/* to update minimized if changed */
swp = *((PSWP) parm1);
if ( swp.fl & SWP_MINIMIZE )
minimized = TRUE;
if ( swp.fl & SWP_RESTORE )
minimized = FALSE;
return WinDefWindowProc( handle, mess, parm1, parm2 );
break;
case WM_ERASEBACKGROUND:
case WM_PAINT:
/* copy the memory image of the screen out to the real screen */
DosRequestMutexSem( surface->image_lock, SEM_INDEFINITE_WAIT );
WinBeginPaint( handle, screen_ps, NULL );
/* main image and magnified picture */
GpiBitBlt( screen_ps,
surface->image_ps,
4L,
surface->blit_points,
ROP_SRCCOPY, BBO_AND );
WinEndPaint( screen_ps );
DosReleaseMutexSem( surface->image_lock );
break;
case WM_CHAR:
if ( CHARMSG( &mess )->fs & KC_KEYUP )
break;
/* look for a specific vkey */
{
int count = sizeof( key_translators )/sizeof( key_translators[0] );
Translator* trans = key_translators;
Translator* limit = trans + count;
for ( ; trans < limit; trans++ )
if ( CHARMSG(&mess)->vkey == trans->os2key )
{
surface->event.key = trans->grkey;
goto Do_Key_Event;
}
}
/* otherwise, simply record the character code */
if ( (CHARMSG( &mess )->fs & KC_CHAR) == 0 )
break;
surface->event.key = CHARMSG(&mess)->chr;
Do_Key_Event:
surface->event.type = gr_event_key;
DosPostEventSem( surface->event_lock );
break;
default:
return WinDefWindowProc( handle, mess, parm1, parm2 );
}
return (MRESULT) FALSE;
}
#if 0
static
grKey KeySymTogrKey( key )
{
grKey k;
int count = sizeof(key_translators)/sizeof(key_translators[0]);
Translator* trans = key_translators;
Translator* limit = trans + count;
k = grKeyNone;
while ( trans < limit )
{
if ( trans->xkey == key )
{
k = trans->grkey;
break;
}
trans++;
}
return k;
}
static
void listen_event( grPMSurface* surface,
int event_mask,
grEvent* grevent )
{
grKey grkey;
/* XXXX : For now, ignore the event mask, and only exit when */
/* a key is pressed.. */
(void)event_mask;
/* Now, translate the keypress to a grKey */
/* If this wasn't part of the simple translated keys, simply get the charcode */
/* from the character buffer */
grkey = grKEY(key_buffer[key_cursor++]);
Set_Key:
grevent->type = gr_key_down;
grevent->key = grkey;
}
#endif
grDevice gr_os2pm_device =
{
sizeof( grPMSurface ),
"os2pm",
init_device,
done_device,
(grDeviceInitSurfaceFunc) init_surface,
0,
0
};