ref: 4d69aacea023546a7150d92e147e531c38de822f
dir: /sys/src/9/sgi/screen.c/
#include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #include "../port/error.h" #define Image IMAGE #include <draw.h> #include <memdraw.h> #include <cursor.h> #include "screen.h" /* * MAME screws up hardware cursor, * so use software cursor for now. */ #define SWCURSOR 1 /* * Register constant below from XFree86 driver. */ #define DM1_PLANES 0x00000007 #define DM1_NOPLANES 0x00000000 #define DM1_RGBPLANES 0x00000001 #define DM1_RGBAPLANES 0x00000002 #define DM1_OLAYPLANES 0x00000004 #define DM1_PUPPLANES 0x00000005 #define DM1_CIDPLANES 0x00000006 #define NPORT_DMODE1_DDMASK 0x00000018 #define NPORT_DMODE1_DD4 0x00000000 #define NPORT_DMODE1_DD8 0x00000008 #define NPORT_DMODE1_DD12 0x00000010 #define NPORT_DMODE1_DD24 0x00000018 #define NPORT_DMODE1_DSRC 0x00000020 #define NPORT_DMODE1_YFLIP 0x00000040 #define NPORT_DMODE1_RWPCKD 0x00000080 #define NPORT_DMODE1_HDMASK 0x00000300 #define NPORT_DMODE1_HD4 0x00000000 #define NPORT_DMODE1_HD8 0x00000100 #define NPORT_DMODE1_HD12 0x00000200 #define NPORT_DMODE1_HD32 0x00000300 #define NPORT_DMODE1_RWDBL 0x00000400 #define NPORT_DMODE1_ESWAP 0x00000800 /* Endian swap */ #define NPORT_DMODE1_CCMASK 0x00007000 #define NPORT_DMODE1_CCLT 0x00001000 #define NPORT_DMODE1_CCEQ 0x00002000 #define NPORT_DMODE1_CCGT 0x00004000 #define NPORT_DMODE1_RGBMD 0x00008000 #define NPORT_DMODE1_DENAB 0x00010000 /* Dither enable */ #define NPORT_DMODE1_FCLR 0x00020000 /* Fast clear */ #define NPORT_DMODE1_BENAB 0x00040000 /* Blend enable */ #define NPORT_DMODE1_SFMASK 0x00380000 #define NPORT_DMODE1_SF0 0x00000000 #define NPORT_DMODE1_SF1 0x00080000 #define NPORT_DMODE1_SFDC 0x00100000 #define NPORT_DMODE1_SFMDC 0x00180000 #define NPORT_DMODE1_SFSA 0x00200000 #define NPORT_DMODE1_SFMSA 0x00280000 #define NPORT_DMODE1_DFMASK 0x01c00000 #define NPORT_DMODE1_DF0 0x00000000 #define NPORT_DMODE1_DF1 0x00400000 #define NPORT_DMODE1_DFSC 0x00800000 #define NPORT_DMODE1_DFMSC 0x00c00000 #define NPORT_DMODE1_DFSA 0x01000000 #define NPORT_DMODE1_DFMSA 0x01400000 #define NPORT_DMODE1_BBENAB 0x02000000 /* Back blend enable */ #define NPORT_DMODE1_PFENAB 0x04000000 /* Pre-fetch enable */ #define NPORT_DMODE1_ABLEND 0x08000000 /* Alpha blend */ #define NPORT_DMODE1_LOMASK 0xf0000000 #define NPORT_DMODE1_LOZERO 0x00000000 #define NPORT_DMODE1_LOAND 0x10000000 #define NPORT_DMODE1_LOANDR 0x20000000 #define NPORT_DMODE1_LOSRC 0x30000000 #define NPORT_DMODE1_LOANDI 0x40000000 #define NPORT_DMODE1_LODST 0x50000000 #define NPORT_DMODE1_LOXOR 0x60000000 #define NPORT_DMODE1_LOOR 0x70000000 #define NPORT_DMODE1_LONOR 0x80000000 #define NPORT_DMODE1_LOXNOR 0x90000000 #define NPORT_DMODE1_LONDST 0xa0000000 #define NPORT_DMODE1_LOORR 0xb0000000 #define NPORT_DMODE1_LONSRC 0xc0000000 #define NPORT_DMODE1_LOORI 0xd0000000 #define NPORT_DMODE1_LONAND 0xe0000000 #define NPORT_DMODE1_LOONE 0xf0000000 /* These bits define the graphics opcode being performed. */ #define NPORT_DMODE0_OPMASK 0x00000003 /* Opcode mask */ #define NPORT_DMODE0_NOP 0x00000000 /* No operation */ #define NPORT_DMODE0_RD 0x00000001 /* Read operation */ #define NPORT_DMODE0_DRAW 0x00000002 /* Draw operation */ #define NPORT_DMODE0_S2S 0x00000003 /* Screen to screen operation */ /* The following decide what addressing mode(s) are to be used */ #define NPORT_DMODE0_AMMASK 0x0000001c /* Address mode mask */ #define NPORT_DMODE0_SPAN 0x00000000 /* Spanning address mode */ #define NPORT_DMODE0_BLOCK 0x00000004 /* Block address mode */ #define NPORT_DMODE0_ILINE 0x00000008 /* Iline address mode */ #define NPORT_DMODE0_FLINE 0x0000000c /* Fline address mode */ #define NPORT_DMODE0_ALINE 0x00000010 /* Aline address mode */ #define NPORT_DMODE0_TLINE 0x00000014 /* Tline address mode */ #define NPORT_DMODE0_BLINE 0x00000018 /* Bline address mode */ /* And now some misc. operation control bits. */ #define NPORT_DMODE0_DOSETUP 0x00000020 #define NPORT_DMODE0_CHOST 0x00000040 #define NPORT_DMODE0_AHOST 0x00000080 #define NPORT_DMODE0_STOPX 0x00000100 #define NPORT_DMODE0_STOPY 0x00000200 #define NPORT_DMODE0_SK1ST 0x00000400 #define NPORT_DMODE0_SKLST 0x00000800 #define NPORT_DMODE0_ZPENAB 0x00001000 #define NPORT_DMODE0_LISPENAB 0x00002000 #define NPORT_DMODE0_LISLST 0x00004000 #define NPORT_DMODE0_L32 0x00008000 #define NPORT_DMODE0_ZOPQ 0x00010000 #define NPORT_DMODE0_LISOPQ 0x00020000 #define NPORT_DMODE0_SHADE 0x00040000 #define NPORT_DMODE0_LRONLY 0x00080000 #define NPORT_DMODE0_XYOFF 0x00100000 #define NPORT_DMODE0_CLAMP 0x00200000 #define NPORT_DMODE0_ENDPF 0x00400000 #define NPORT_DMODE0_YSTR 0x00800000 #define NPORT_LSMODE_REPMASK 0x0000ff00 #define NPORT_LSMODE_LENMASK 0x0f000000 #define NPORT_DMODE_WMASK 0x00000003 /* dataWidth of data being transfered */ #define NPORT_DMODE_W4 0x00000000 #define NPORT_DMODE_W1 0x00000001 #define NPORT_DMODE_W2 0x00000002 #define NPORT_DMODE_W3 0x00000003 #define NPORT_DMODE_EDPACK 0x00000004 #define NPORT_DMODE_ECINC 0x00000008 #define NPORT_DMODE_CMASK 0x00000070 #define NPORT_DMODE_AMASK 0x00000780 #define NPORT_DMODE_AVC2 0x00000000 #define NPORT_DMODE_ACMALL 0x00000080 #define NPORT_DMODE_ACM0 0x00000100 #define NPORT_DMODE_ACM1 0x00000180 #define NPORT_DMODE_AXMALL 0x00000200 #define NPORT_DMODE_AXM0 0x00000280 #define NPORT_DMODE_AXM1 0x00000300 #define NPORT_DMODE_ABT 0x00000380 #define NPORT_DMODE_AVCC1 0x00000400 #define NPORT_DMODE_AVAB1 0x00000480 #define NPORT_DMODE_ALG3V0 0x00000500 #define NPORT_DMODE_A1562 0x00000580 #define NPORT_DMODE_ESACK 0x00000800 #define NPORT_DMODE_EASACK 0x00001000 #define NPORT_DMODE_CWMASK 0x0003e000 #define NPORT_DMODE_CHMASK 0x007c0000 #define NPORT_DMODE_CSMASK 0x0f800000 #define NPORT_DMODE_SENDIAN 0x10000000 #define NPORT_SMASKXOFF 4096 #define NPORT_SMASKYOFF 4096 #define NPORT_CMODE_SM0 0x00000001 #define NPORT_CMODE_SM1 0x00000002 #define NPORT_CMODE_SM2 0x00000004 #define NPORT_CMODE_SM3 0x00000008 #define NPORT_CMODE_SM4 0x00000010 #define NPORT_CMODE_CMSK 0x00001e00 #define NPORT_CFG_G32MD 0x00000001 #define NPORT_CFG_BWIDTH 0x00000002 #define NPORT_CFG_ERCVR 0x00000004 #define NPORT_CFG_BDMSK 0x00000078 #define NPORT_CFG_BFAINT 0x00000080 #define NPORT_CFG_GDMSK 0x00001f00 #define NPORT_CFG_GD0 0x00000100 #define NPORT_CFG_GD1 0x00000200 #define NPORT_CFG_GD2 0x00000400 #define NPORT_CFG_GD3 0x00000800 #define NPORT_CFG_GD4 0x00001000 #define NPORT_CFG_GFAINT 0x00002000 #define NPORT_CFG_TOMSK 0x0001C000 #define NPORT_CFG_VRMSK 0x000E0000 #define NPORT_CFG_FBTYP 0x00100000 #define NPORT_STAT_VERS 0x00000007 #define NPORT_STAT_GBUSY 0x00000008 #define NPORT_STAT_BBUSY 0x00000010 #define NPORT_STAT_VRINT 0x00000020 #define NPORT_STAT_VIDINT 0x00000040 #define NPORT_STAT_GLMSK 0x00001f80 #define NPORT_STAT_BLMSK 0x0007e000 #define NPORT_STAT_BFIRQ 0x00080000 #define NPORT_STAT_GFIRQ 0x00100000 /* Reading/writing VC2 registers. */ #define VC2_REGADDR_INDEX 0x00000000 #define VC2_REGADDR_IREG 0x00000010 #define VC2_REGADDR_RAM 0x00000030 #define VC2_PROTOCOL (NPORT_DMODE_EASACK | 0x00800000 | 0x00040000) #define VC2_VLINET_ADDR 0x000 #define VC2_VFRAMET_ADDR 0x400 #define VC2_CGLYPH_ADDR 0x500 /* Now the Indexed registers of the VC2. */ #define VC2_IREG_VENTRY 0x00 #define VC2_IREG_CENTRY 0x01 #define VC2_IREG_CURSX 0x02 #define VC2_IREG_CURSY 0x03 #define VC2_IREG_CCURSX 0x04 #define VC2_IREG_DENTRY 0x05 #define VC2_IREG_SLEN 0x06 #define VC2_IREG_RADDR 0x07 #define VC2_IREG_VFPTR 0x08 #define VC2_IREG_VLSPTR 0x09 #define VC2_IREG_VLIR 0x0a #define VC2_IREG_VLCTR 0x0b #define VC2_IREG_CTPTR 0x0c #define VC2_IREG_WCURSY 0x0d #define VC2_IREG_DFPTR 0x0e #define VC2_IREG_DLTPTR 0x0f #define VC2_IREG_CONTROL 0x10 #define VC2_IREG_CONFIG 0x20 /* VC2 Control register bits */ #define VC2_CTRL_EVIRQ 0x0001 #define VC2_CTRL_EDISP 0x0002 #define VC2_CTRL_EVIDEO 0x0004 #define VC2_CTRL_EDIDS 0x0008 #define VC2_CTRL_ECURS 0x0010 #define VC2_CTRL_EGSYNC 0x0020 #define VC2_CTRL_EILACE 0x0040 #define VC2_CTRL_ECDISP 0x0080 #define VC2_CTRL_ECCURS 0x0100 #define VC2_CTRL_ECG64 0x0200 #define VC2_CTRL_GLSEL 0x0400 /* Controlling the color map on Newport. */ #define NCMAP_REGADDR_AREG 0x00000000 #define NCMAP_REGADDR_ALO 0x00000000 /* address register low */ #define NCMAP_REGADDR_AHI 0x00000010 /* address register high */ #define NCMAP_REGADDR_PBUF 0x00000020 /* color palette buffer */ #define NCMAP_REGADDR_CREG 0x00000030 /* command register */ #define NCMAP_REGADDR_SREG 0x00000040 /* color buffer register */ #define NCMAP_REGADDR_RREG 0x00000060 /* revision register */ #define NCMAP_PROTOCOL (0x00008000 | 0x00040000 | 0x00800000) /* * DCBMODE register defines: */ /* Widht of the data being transfered for each DCBDATA[01] word */ #define DCB_DATAWIDTH_4 0x0 #define DCB_DATAWIDTH_1 0x1 #define DCB_DATAWIDTH_2 0x2 #define DCB_DATAWIDTH_3 0x3 /* If set, all of DCBDATA will be moved, otherwise only DATAWIDTH bytes */ #define DCB_ENDATAPACK (1 << 2) /* Enables DCBCRS auto increment after each DCB transfer */ #define DCB_ENCRSINC (1 << 3) /* shift for accessing the control register select address (DBCCRS, 3 bits) */ #define DCB_CRS_SHIFT 4 /* DCBADDR (4 bits): display bus slave address */ #define DCB_ADDR_SHIFT 7 #define DCB_VC2 (0 << DCB_ADDR_SHIFT) #define DCB_CMAP_ALL (1 << DCB_ADDR_SHIFT) #define DCB_CMAP0 (2 << DCB_ADDR_SHIFT) #define DCB_CMAP1 (3 << DCB_ADDR_SHIFT) #define DCB_XMAP_ALL (4 << DCB_ADDR_SHIFT) #define DCB_XMAP0 (5 << DCB_ADDR_SHIFT) #define DCB_XMAP1 (6 << DCB_ADDR_SHIFT) #define DCB_BT445 (7 << DCB_ADDR_SHIFT) #define DCB_VCC1 (8 << DCB_ADDR_SHIFT) #define DCB_VAB1 (9 << DCB_ADDR_SHIFT) #define DCB_LG3_BDVERS0 (10 << DCB_ADDR_SHIFT) #define DCB_LG3_ICS1562 (11 << DCB_ADDR_SHIFT) #define DCB_RESERVED (15 << DCB_ADDR_SHIFT) /* DCB protocol ack types */ #define DCB_ENSYNCACK (1 << 11) #define DCB_ENASYNCACK (1 << 12) #define DCB_CSWIDTH_SHIFT 13 #define DCB_CSHOLD_SHIFT 18 #define DCB_CSSETUP_SHIFT 23 /* XMAP9 specific defines */ /* XMAP9 -- registers as seen on the DCBMODE register*/ # define XM9_CRS_CONFIG (0 << DCB_CRS_SHIFT) # define XM9_PUPMODE (1 << 0) # define XM9_ODD_PIXEL (1 << 1) # define XM9_8_BITPLANES (1 << 2) # define XM9_SLOW_DCB (1 << 3) # define XM9_VIDEO_RGBMAP_MASK (3 << 4) # define XM9_VIDEO_RGBMAP_M0 (1 << 4) # define XM9_VIDEO_RGMPAP_M1 (1 << 5) # define XM9_VIDEO_RGBMAP_M2 (3 << 4) # define XM9_EXPRESS_VIDEO (1 << 6) # define XM9_VIDEO_OPTION (1 << 7) # define XM9_CRS_REVISION (1 << DCB_CRS_SHIFT) # define XM9_CRS_FIFO_AVAIL (2 << DCB_CRS_SHIFT) # define XM9_FIFO_0_AVAIL 0 # define XM9_FIFO_1_AVAIL 1 # define XM9_FIFO_2_AVAIL 3 # define XM9_FIFO_3_AVAIL 2 # define XM9_FIFO_FULL XM9_FIFO_0_AVAIL # define XM9_FIFO_EMPTY XM9_FIFO_3_AVAIL # define XM9_CRS_CURS_CMAP_MSB (3 << DCB_CRS_SHIFT) # define XM9_CRS_PUP_CMAP_MSB (4 << DCB_CRS_SHIFT) # define XM9_CRS_MODE_REG_DATA (5 << DCB_CRS_SHIFT) # define XM9_CRS_MODE_REG_INDEX (7 << DCB_CRS_SHIFT) #define DCB_CYCLES(setup,hold,width) \ ((hold << DCB_CSHOLD_SHIFT) | \ (setup << DCB_CSSETUP_SHIFT)| \ (width << DCB_CSWIDTH_SHIFT)) #define W_DCB_XMAP9_PROTOCOL DCB_CYCLES (2, 1, 0) #define WSLOW_DCB_XMAP9_PROTOCOL DCB_CYCLES (5, 5, 0) #define WAYSLOW_DCB_XMAP9_PROTOCOL DCB_CYCLES (12, 12, 0) #define R_DCB_XMAP9_PROTOCOL DCB_CYCLES (2, 1, 3) /* xmap9 mode register layout */ #define XM9_MREG_BUF_SEL (1 << 0) #define XM9_MREG_OVL_BUF_SEL (1 << 1) #define XM9_MREG_GAMMA_BYPASS (1 << 2) #define XM9_MREG_MSB_CMAP (31 << 3) #define XM9_MREG_PIX_MODE_MASK (3 << 8) #define XM9_MREG_PIX_MODE_RGB0 (1 << 8) #define XM9_MREG_PIX_MODE_RGB1 (1 << 9) #define XM9_MREG_PIX_MODE_RGB2 (3 << 8) #define XM9_MREG_PIX_SIZE_MASK (3 << 10) #define XM9_MREG_PIX_SIZE_8BPP (1 << 10) #define XM9_MREG_PIX_SIZE_12BPP (1 << 11) #define XM9_MREG_PIX_SIZE_24BPP (3 << 10) #define XM9_MREG_VID_MODE_MASK (3 << 12) #define XM9_MREG_VID_MODE_OVL (1 << 12) #define XM9_MREG_VID_MODE_UDL (1 << 13) #define XM9_MREG_VID_MODE_RPL (3 << 12) #define XM9_MREG_BUF_VID_ALPHA (1 << 15) #define XM9_MREG_APIX_MODE_MASK (7 << 16) #define XM9_MREG_APIX_MODE_FUDL (1 << 16) #define XM9_MREG_APIX_MODE_FOVL (1 << 17) #define XM9_MREG_APIX_MODE_ODB (3 << 17) #define XM9_MREG_APIX_MODE_BOTH (7 << 16) #define XM9_MREG_AMSB_CMAP_MASK (31 << 19) typedef struct Newport Newport; struct Newport { ulong drawmode1; ulong drawmode0; ulong lsmode; ulong lspattern; ulong lspatsave; ulong zpattern; ulong colorback; ulong colorvram; ulong alpharef; ulong unused0; ulong smask0x; ulong smask0y; ulong _setup; ulong _stepz; ulong _lsrestore; ulong _lssave; ulong unused1[0x30]; ulong _xstart; ulong _ystart; ulong _xend; ulong _yend; ulong xsave; ulong xymode; ulong bresd; ulong bress1; ulong bresoctinc1; ulong bresoctinc2; ulong brese1; ulong bress2; ulong aweight0; ulong aweight1; ulong xstartf; ulong ystartf; ulong xendf; ulong yendf; ulong xstarti; ulong xendfi; ulong xystarti; ulong xyendi; ulong xstartendi; ulong unused2[0x29]; ulong colorred; ulong coloralpha; ulong colorgrn; ulong colorblue; ulong slopered; ulong slopealpha; ulong slopegrn; ulong slopeblue; ulong wrmask; ulong colori; ulong colorx; ulong slopered1; ulong hostrw0; ulong hostrw1; ulong dcbmode; ulong unused3; ulong dcbdata0; ulong dcbdata1; ulong unused4[0x36e]; ulong smask1x; ulong smask1y; ulong smask2x; ulong smask2y; ulong smask3x; ulong smask3y; ulong smask4x; ulong smask4y; ulong topscan; ulong xywin; ulong clipmode; ulong unused5; ulong config; ulong unused6; ulong stat; ulong ustat; ulong dreset; }; static Newport *regs = IO(Newport, GIO_NEWPORT); static Newport *regsgo = IO(Newport, GIO_NEWPORT|0x800); Memimage *gscreen; static void vc2set(uchar r, ushort val) { regs->dcbmode = NPORT_DMODE_AVC2 | VC2_REGADDR_INDEX | NPORT_DMODE_W3 | NPORT_DMODE_ECINC | VC2_PROTOCOL; regs->dcbdata0 = r << 24 | val << 8; } static ushort vc2get(uchar r) { regs->dcbmode = NPORT_DMODE_AVC2 | VC2_REGADDR_INDEX | NPORT_DMODE_W1 | NPORT_DMODE_ECINC | VC2_PROTOCOL; regs->dcbdata0 = r << 24; regs->dcbmode = NPORT_DMODE_AVC2 | VC2_REGADDR_IREG | NPORT_DMODE_W2 | NPORT_DMODE_ECINC | VC2_PROTOCOL; return regs->dcbdata0 >> 16; } static void hwcursoroff(void) { int s; s = splhi(); vc2set(VC2_IREG_CONTROL, vc2get(VC2_IREG_CONTROL) & ~VC2_CTRL_ECDISP); splx(s); } #ifdef SWCURSOR /* swcursor.c */ extern void swcursorhide(int); extern void swcursoravoid(Rectangle); extern void swcursordraw(Point); extern void swcursorload(Cursor *); extern void swcursorinit(void); void cursoron(void) { swcursorhide(0); swcursordraw(mousexy()); } void cursoroff(void) { swcursorhide(0); } void setcursor(Cursor* curs) { swcursorload(curs); } int hwdraw(Memdrawparam *par) { Memimage *dst, *src, *mask; uchar *scrd; if((dst = par->dst) == nil || dst->data == nil) return 0; if((src = par->src) && src->data == nil) src = nil; if((mask = par->mask) && mask->data == nil) mask = nil; scrd = gscreen->data->bdata; if(dst->data->bdata == scrd) swcursoravoid(par->r); if(src && src->data->bdata == scrd) swcursoravoid(par->sr); if(mask && mask->data->bdata == scrd) swcursoravoid(par->mr); return 0; } #else static Point curoff; void cursoron(void) { Point xy; int s; xy = addpt(mousexy(), curoff); s = splhi(); vc2set(VC2_IREG_CURSX, xy.x); vc2set(VC2_IREG_CURSY, xy.y); vc2set(VC2_IREG_CONTROL, vc2get(VC2_IREG_CONTROL) | VC2_CTRL_ECDISP); splx(s); } void cursoroff(void) { hwcursoroff(); } void setcursor(Cursor *curs) { static uchar mem[(2*32*32)/8]; uchar *set, *clr; int i, s; memset(mem, 0, sizeof(mem)); /* * convert to two 32x32 bitmaps */ set = mem; clr = mem + (32*32)/8; for(i=0;i<32;i++) { *set++ = curs->set[i]; *clr++ = curs->clr[i]; if(i & 1){ set += 2; clr += 2; } } curoff = addpt(Pt(30,30), curs->offset); /* * upload two bytes at a time */ s = splhi(); vc2set(VC2_IREG_RADDR, vc2get(VC2_IREG_CENTRY)); regs->dcbmode = NPORT_DMODE_AVC2 | VC2_REGADDR_RAM | NPORT_DMODE_W2 | VC2_PROTOCOL; for(i = 0; i < sizeof(mem); i += 2){ while(regs->stat & NPORT_STAT_BBUSY) ; regs->dcbdata0 = *(ushort*)(&mem[i]) << 16; } splx(s); } #endif static void setmode(void) { while(regs->stat & NPORT_STAT_BBUSY) ; regs->dcbmode = (DCB_XMAP_ALL | W_DCB_XMAP9_PROTOCOL | XM9_CRS_CONFIG | NPORT_DMODE_W1); regs->dcbdata0 &= ~((XM9_8_BITPLANES | XM9_PUPMODE)<<24); while(regs->stat & NPORT_STAT_BBUSY) ; regs->dcbmode = (DCB_XMAP_ALL | W_DCB_XMAP9_PROTOCOL | XM9_CRS_MODE_REG_DATA | NPORT_DMODE_W4); regs->dcbdata0 = (XM9_MREG_PIX_SIZE_24BPP | XM9_MREG_PIX_MODE_RGB0 | XM9_MREG_GAMMA_BYPASS); while(regs->stat & NPORT_STAT_BBUSY) ; regs->dcbmode = (DCB_XMAP_ALL | W_DCB_XMAP9_PROTOCOL | XM9_CRS_MODE_REG_INDEX | NPORT_DMODE_W1); regs->dcbdata0 &= ~(0xFF<<24); regs->drawmode1 = DM1_RGBPLANES | NPORT_DMODE1_CCLT | NPORT_DMODE1_CCEQ | NPORT_DMODE1_CCGT | NPORT_DMODE1_LOSRC | NPORT_DMODE1_DD24 | NPORT_DMODE1_RGBMD | NPORT_DMODE1_HD32 | NPORT_DMODE1_RWPCKD; } static void arcsoff(void) { if(consuart != nil && consuart->console && strcmp(consuart->name, "arcs") == 0){ consuart = nil; serialoq = nil; } } void flushmemscreen(Rectangle r) { static int modeset = 0; ulong *x0; int s, w; if(rectclip(&r, gscreen->r) == 0) return; s = splhi(); if(!modeset){ modeset = 1; arcsoff(); setmode(); #ifdef SWCURSOR hwcursoroff(); swcursorinit(); #endif } while(regs->stat & NPORT_STAT_GBUSY) ; regs->drawmode0 = (NPORT_DMODE0_DRAW | NPORT_DMODE0_BLOCK | NPORT_DMODE0_CHOST); regs->xystarti = r.min.x << 16 | r.min.y; regs->xyendi = r.max.x-1 << 16 | r.max.y-1; x0 = wordaddr(gscreen, r.min); for(w = r.max.x - r.min.x; r.min.y < r.max.y; r.min.y++){ outl(®sgo->hostrw0, x0, w); x0 += gscreen->width; } splx(s); } void screeninit(void) { enum { RGBX32 = CHAN4(CRed, 8, CGreen, 8, CBlue, 8, CIgnore, 8), }; memimageinit(); gscreen = allocmemimage(Rect(0,0,1280,1024), RGBX32); if(gscreen == nil) panic("screeninit: gscreen == nil"); memfillcolor(gscreen, 0xFFFFFFFF); mouseaccelerate(3); } Memdata* attachscreen(Rectangle *r, ulong *chan, int* d, int *width, int *softscreen) { if(gscreen == nil) return nil; *r = gscreen->r; *d = gscreen->depth; *chan = gscreen->chan; *width = gscreen->width; *softscreen = 1; gscreen->data->ref++; return gscreen->data; } void getcolor(ulong, ulong *, ulong *, ulong *) { } int setcolor(ulong, ulong, ulong, ulong) { return 0; } void blankscreen(int) { } void mousectl(Cmdbuf *) { } /* * sgi mouse protocol * byte 0 - Y0 X0 Y7 X7 F M R L * byte 1 - X7 X6 X5 X4 X3 X2 X1 X0 * byte 2 - Y7 Y6 Y5 Y4 Y3 Y2 Y1 Y0 */ void sgimouseputc(int c) { static uchar msg[3]; static int nb; int dx, dy, newbuttons; static uchar b[] = { 0, 1, 4, 5, 2, 3, 6, 7 }; static ulong lasttick; ulong m; /* Resynchronize in stream with timing. */ m = MACHP(0)->ticks; if(TK2SEC(m - lasttick) > 2) nb = 0; lasttick = m; msg[nb] = c; if(++nb == 3){ nb = 0; newbuttons = b[msg[0]&7]; dx = (char)msg[1]; dy = -(char)msg[2]; mousetrack(dx, dy, newbuttons, TK2MS(MACHP(0)->ticks)); } }