forked from KolibriOS/kolibrios
9040dc17ec
git-svn-id: svn://kolibrios.org@810 a494cfbc-eb01-0410-851d-a64ba20cac60
379 lines
8.7 KiB
C
379 lines
8.7 KiB
C
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//ld -T ld.x -s --shared --image-base 0 --file-alignment 32 -o test.exe test.obj core.lib
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#include "common.h"
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#include "ati2d.h"
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#include "accel_2d.h"
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RHD_t rhd;
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static clip_t clip;
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void STDCALL (*SelectHwCursor)(cursor_t*)__asm__("SelectHwCursor");
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void STDCALL (*SetHwCursor)(cursor_t*,int x,int y)__asm__("SetHwCursor");
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void STDCALL (*HwCursorRestore)(int x, int y)__asm("HwCursorRestore");
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cursor_t* IMPORT (*HwCursorCreate)(void)__asm("HwCursorCreate"); //params eax, ebx, ecx
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void (__stdcall *old_select)(cursor_t*);
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void (__stdcall *old_set)(cursor_t*,int x,int y);
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void (__stdcall *old_restore)(int x, int y);
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cursor_t* (*old_create)(void);
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cursor_t* __create_cursor(void);
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u32 __stdcall drvEntry(int action)
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{
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RHDPtr rhdPtr;
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u32 retval;
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int i;
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if(action != 1)
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return 0;
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if(!dbg_open("/hd0/2/ati2d.log"))
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{
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printf("Can't open /rd/1/drivers/ati2d.log\nExit\n");
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return 0;
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}
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if((rhdPtr=FindPciDevice())==NULL)
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{
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dbgprintf("Device not found\n");
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return 0;
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};
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for(i=0;i<6;i++)
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{
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if(rhd.memBase[i])
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dbgprintf("Memory base_%d 0x%x size 0x%x\n",
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i,rhd.memBase[i],(1<<rhd.memsize[i]));
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};
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for(i=0;i<6;i++)
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{
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if(rhd.ioBase[i])
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dbgprintf("Io base_%d 0x%x size 0x%x\n",
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i,rhd.ioBase[i],(1<<rhd.memsize[i]));
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};
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if(!RHDPreInit())
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return 0;
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// old_select = SelectHwCursor;
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// old_set = SetHwCursor;
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// old_restore = HwCursorRestore ;
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// old_create = HwCursorCreate;
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R5xx2DInit();
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//init_r500();
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// SelectHwCursor = r500_SelectCursor;
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// SetHwCursor = r500_SetCursor;
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// HwCursorCreate = __create_cursor;
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// HwCursorRestore = r500_CursorRestore;
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retval = RegService("HDRAW", srv_2d);
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dbgprintf("reg service %s as: %x\n", "HDRAW", retval);
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// retval = RegService("HWCURSOR", srv_cursor);
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return retval;
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};
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#define ERR_PARAM -1
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#pragma pack (push,1)
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#pragma pack (pop)
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#define API_VERSION 0x01000100
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#define SRV_GETVERSION 0
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int _stdcall srv_cursor(ioctl_t *io)
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{
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u32 *inp;
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u32 *outp;
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inp = io->input;
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outp = io->output;
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switch(io->io_code)
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{
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case SRV_GETVERSION:
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if(io->out_size==4)
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{
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*(u32*)io->output = API_VERSION;
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return 0;
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}
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break;
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default:
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return ERR_PARAM;
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};
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return ERR_PARAM;
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}
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int _stdcall srv_2d(ioctl_t *io)
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{
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u32 *inp;
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u32 *outp;
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inp = io->input;
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outp = io->output;
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switch(io->io_code)
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{
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case SRV_GETVERSION:
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if(io->out_size==4)
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{
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*outp = API_VERSION;
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return 0;
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}
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break;
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case DRAW_RECT:
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if(io->inp_size==5)
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return DrawRect((draw_t*)inp);
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break;
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case FILL_RECT:
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if(io->inp_size==8)
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return FillRect((fill_t*)inp);
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break;
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case LINE_2P:
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if(io->inp_size==5)
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return Line2P((line2p_t*)inp);
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break;
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case BLIT:
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if(io->inp_size==6)
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return Blit((blit_t*)inp);
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break;
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default:
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return ERR_PARAM;
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};
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return ERR_PARAM;
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}
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#include "init.c"
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#include "pci.c"
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#include "ati_mem.c"
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#include "cursor.inc"
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#include "r500.inc"
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#include "accel_2d.inc"
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#define CLIP_TOP 1
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#define CLIP_BOTTOM 2
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#define CLIP_RIGHT 4
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#define CLIP_LEFT 8
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char _L1OutCode( int x, int y )
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/*=================================
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Verify that a point is inside or outside the active viewport. */
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{
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char flag;
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flag = 0;
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if( x < clip.xmin ) {
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flag |= CLIP_LEFT;
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} else if( x > clip.xmax ) {
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flag |= CLIP_RIGHT;
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}
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if( y < clip.ymin ) {
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flag |= CLIP_TOP;
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} else if( y > clip.ymax ) {
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flag |= CLIP_BOTTOM;
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}
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return( flag );
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}
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static void line_inter( int * x1, int* y1, int x2, int y2, int x )
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/*===========================================================================
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Find the intersection of a line with a boundary of the viewport.
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(x1, y1) is outside and ( x2, y2 ) is inside the viewport.
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NOTE : the signs of denom and ( x - *x1 ) cancel out during division
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so make both of them positive before rounding. */
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{
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int numer;
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int denom;
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denom = abs( x2 - *x1 );
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numer = 2L * (long)( y2 - *y1 ) * abs( x - *x1 );
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if( numer > 0 ) {
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numer += denom; /* round to closest pixel */
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} else {
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numer -= denom;
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}
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*y1 += numer / ( denom << 1 );
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*x1 = x;
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}
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int LineClip( int *x1, int *y1, int *x2, int *y2 )
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/*=============================================================
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Clips the line with end points (x1,y1) and (x2,y2) to the active
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viewport using the Cohen-Sutherland clipping algorithm. Return the
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clipped coordinates and a decision drawing flag. */
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{
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char flag1;
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char flag2;
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flag1 = _L1OutCode( *x1, *y1 );
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flag2 = _L1OutCode( *x2, *y2 );
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for( ;; ) {
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if( flag1 & flag2 ) break; /* trivially outside */
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if( flag1 == flag2 ) break; /* completely inside */
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if( flag1 == 0 ) { /* first point inside */
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if( flag2 & CLIP_TOP ) {
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line_inter( y2, x2, *y1, *x1, clip.ymin );
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} else if( flag2 & CLIP_BOTTOM ) {
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line_inter( y2, x2, *y1, *x1, clip.ymax );
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} else if( flag2 & CLIP_RIGHT ) {
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line_inter( x2, y2, *x1, *y1, clip.xmax );
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} else if( flag2 & CLIP_LEFT ) {
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line_inter( x2, y2, *x1, *y1, clip.xmin );
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}
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flag2 = _L1OutCode( *x2, *y2 );
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} else { /* second point inside */
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if( flag1 & CLIP_TOP ) {
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line_inter( y1, x1, *y2, *x2, clip.ymin );
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} else if( flag1 & CLIP_BOTTOM ) {
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line_inter( y1, x1, *y2, *x2, clip.ymax );
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} else if( flag1 & CLIP_RIGHT ) {
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line_inter( x1, y1, *x2, *y2, clip.xmax );
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} else if( flag1 & CLIP_LEFT ) {
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line_inter( x1, y1, *x2, *y2, clip.xmin );
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}
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flag1 = _L1OutCode( *x1, *y1 );
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}
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}
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return( flag1 & flag2 );
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}
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static void block_inter( int *x, int *y, int flag )
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/*======================================================
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Find the intersection of a block with a boundary of the viewport. */
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{
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if( flag & CLIP_TOP ) {
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*y = clip.ymin;
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} else if( flag & CLIP_BOTTOM ) {
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*y = clip.ymax;
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} else if( flag & CLIP_RIGHT ) {
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*x = clip.xmax;
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} else if( flag & CLIP_LEFT ) {
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*x = clip.xmin;
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}
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}
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int BlockClip( int *x1, int *y1, int *x2, int* y2 )
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/*==============================================================
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Clip a block with opposite corners (x1,y1) and (x2,y2) to the
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active viewport based on the Cohen-Sutherland algorithm for line
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clipping. Return the clipped coordinates and a decision drawing
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flag ( 0 draw : 1 don't draw ). */
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{
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char flag1;
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char flag2;
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flag1 = _L1OutCode( *x1, *y1 );
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flag2 = _L1OutCode( *x2, *y2 );
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for( ;; ) {
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if( flag1 & flag2 ) break; /* trivially outside */
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if( flag1 == flag2 ) break; /* completely inside */
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if( flag1 == 0 ) {
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block_inter( x2, y2, flag2 );
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flag2 = _L1OutCode( *x2, *y2 );
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} else {
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block_inter( x1, y1, flag1 );
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flag1 = _L1OutCode( *x1, *y1 );
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}
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}
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return( flag1 & flag2 );
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}
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#if 0
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typedef struct
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{
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int left;
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int top;
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int right;
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int bottom;
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}rect_t;
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typedef struct _window
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{
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struct _window *fd;
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struct _window *bk;
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rect_t pos;
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int width;
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int height;
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int level;
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}win_t, *WINPTR;
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WINPTR top = NULL;
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WINPTR bottom = NULL;
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WINPTR alloc_window()
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{
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WINPTR pwin = malloc(sizeof(win_t));
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return pwin;
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};
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WINPTR create_win(int l, int t, int w, int h, int level)
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{
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WINPTR pwin = alloc_window();
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pwin->pos.left = l;
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pwin->pos.top = t;
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pwin->pos.right = l+w-1;
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pwin->pos.bottom = t+h-1;
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pwin->width = w;
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pwin->height = h;
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pwin->level = level;
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return pwin;
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};
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void insert_window(WINPTR pwin)
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{
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WINPTR p = top;
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if(p)
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{
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if(pwin->level <= p->level)
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{
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pwin->fd = p;
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pwin->bk = p->bk;
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pwin->bk->fd = pwin;
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p->bk = pwin;
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}
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else
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p = p->fd;
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}
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else
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top = pwin;
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}
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#endif
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