ref: 7f224a8f6d343cf0aaf162cc9b9f7d4d62ac78ac
dir: /sys/src/9/bitsy/screen.c/
#include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #include "ureg.h" #include "../port/error.h" #define Image IMAGE #include <draw.h> #include <memdraw.h> #include <cursor.h> #include "screen.h" #include "gamma.h" #define MINX 8 int landscape = 0; /* orientation of the screen, default is 0: portait */ enum { Wid = 240, Ht = 320, Pal0 = 0x2000, /* 16-bit pixel data in active mode (12 in passive) */ hsw = 0x00, elw = 0x0e, blw = 0x0d, vsw = 0x02, efw = 0x01, bfw = 0x0a, pcd = 0x10, }; struct sa1110fb { /* Frame buffer for 16-bit active color */ short palette[16]; /* entry 0 set to Pal0, the rest to 0 */ ushort pixel[Wid*Ht]; /* Pixel data */ } *framebuf; enum { /* LCD Control Register 0, lcd->lccr0 */ LEN = 0, /* 1 bit */ CMS = 1, /* 1 bit */ SDS = 2, /* 1 bit */ LDM = 3, /* 1 bit */ BAM = 4, /* 1 bit */ ERM = 5, /* 1 bit */ PAS = 7, /* 1 bit */ BLE = 8, /* 1 bit */ DPD = 9, /* 1 bit */ PDD = 12, /* 8 bits */ }; enum { /* LCD Control Register 1, lcd->lccr1 */ PPL = 0, /* 10 bits */ HSW = 10, /* 6 bits */ ELW = 16, /* 8 bits */ BLW = 24, /* 8 bits */ }; enum { /* LCD Control Register 2, lcd->lccr2 */ LPP = 0, /* 10 bits */ VSW = 10, /* 6 bits */ EFW = 16, /* 8 bits */ BFW = 24, /* 8 bits */ }; enum { /* LCD Control Register 3, lcd->lccr3 */ PCD = 0, /* 8 bits */ ACB = 8, /* 8 bits */ API = 16, /* 4 bits */ VSP = 20, /* 1 bit */ HSP = 21, /* 1 bit */ PCP = 22, /* 1 bit */ OEP = 23, /* 1 bit */ }; enum { /* LCD Status Register, lcd->lcsr */ LDD = 0, /* 1 bit */ BAU = 1, /* 1 bit */ BER = 2, /* 1 bit */ ABC = 3, /* 1 bit */ IOL = 4, /* 1 bit */ IUL = 5, /* 1 bit */ OIU = 6, /* 1 bit */ IUU = 7, /* 1 bit */ OOL = 8, /* 1 bit */ OUL = 9, /* 1 bit */ OOU = 10, /* 1 bit */ OUU = 11, /* 1 bit */ }; struct sa1110regs { ulong lccr0; ulong lcsr; ulong dummies[2]; short* dbar1; ulong dcar1; ulong dbar2; ulong dcar2; ulong lccr1; ulong lccr2; ulong lccr3; } *lcd; static Memdata xgdata; static Memimage xgscreen = { { 0, 0, Wid, Ht }, /* r */ { 0, 0, Wid, Ht }, /* clipr */ 16, /* depth */ 3, /* nchan */ RGB16, /* chan */ nil, /* cmap */ &xgdata, /* data */ 0, /* zero */ Wid/2, /* width */ 0, /* layer */ 0, /* flags */ }; struct{ Point pos; int bwid; }out; Memimage *gscreen; Memimage *conscol; Memimage *back; Memsubfont *memdefont; Lock screenlock; ushort *vscreen; /* virtual screen */ Rectangle window; Point curpos; int h, w; static ulong rep(ulong, int); static void screenwin(void); static void screenputc(char *buf); static void bitsyscreenputs(char *s, int n); static void scroll(void); static void lcdinit(void) { /* the following line works because main memory is direct mapped */ gpioregs->direction |= GPIO_LDD8_o|GPIO_LDD9_o|GPIO_LDD10_o|GPIO_LDD11_o |GPIO_LDD12_o|GPIO_LDD13_o|GPIO_LDD14_o|GPIO_LDD15_o; gpioregs->altfunc |= GPIO_LDD8_o|GPIO_LDD9_o|GPIO_LDD10_o|GPIO_LDD11_o |GPIO_LDD12_o|GPIO_LDD13_o|GPIO_LDD14_o|GPIO_LDD15_o; framebuf->palette[0] = Pal0; lcd->dbar1 = framebuf->palette; lcd->lccr3 = pcd<<PCD | 0<<ACB | 0<<API | 1<<VSP | 1<<HSP | 0<<PCP | 0<<OEP; lcd->lccr2 = (Wid-1)<<LPP | vsw<<VSW | efw<<EFW | bfw<<BFW; lcd->lccr1 = (Ht-16)<<PPL | hsw<<HSW | elw<<ELW | blw<<BLW; lcd->lccr0 = 1<<LEN | 0<<CMS | 0<<SDS | 1<<LDM | 1<<BAM | 1<<ERM | 1<<PAS | 0<<BLE | 0<<DPD | 0<<PDD; } void flipscreen(int ls) { if (ls == landscape) return; if (ls) { gscreen->r = Rect(0, 0, Ht, Wid); gscreen->clipr = gscreen->r; gscreen->width = Ht/2; xgdata.bdata = (uchar *)framebuf->pixel; } else { gscreen->r = Rect(0, 0, Wid, Ht); gscreen->clipr = gscreen->r; gscreen->width = Wid/2; xgdata.bdata = (uchar *)vscreen; } landscape = ls; } void lcdtweak(Cmdbuf *cmd) { if(cmd->nf < 4) return; if(*cmd->f[0] == 'h') lcd->lccr1 = ((Ht-16)<<PPL) | (strtol(cmd->f[1], 0, 0)<<HSW) | (strtol(cmd->f[2], 0, 0)<<ELW) | (strtol(cmd->f[3], 0, 0)<<BLW); if(*cmd->f[0] == 'v') lcd->lccr2 = ((Wid-1)<<LPP) | (strtol(cmd->f[1], 0, 0)<<VSW) | (strtol(cmd->f[2], 0, 0)<<EFW) | (strtol(cmd->f[3], 0, 0)<<BFW); } void screenpower(int on) { blankscreen(on == 0); } void screeninit(void) { int i; /* map the lcd regs into the kernel's virtual space */ lcd = (struct sa1110regs*)mapspecial(LCDREGS, sizeof(struct sa1110regs));; framebuf = xspanalloc(sizeof *framebuf, 0x100, 0); vscreen = xalloc(sizeof(ushort)*Wid*Ht); lcdpower(1); lcdinit(); gscreen = &xgscreen; xgdata.ref = 1; i = 0; if (landscape) { gscreen->r = Rect(0, 0, Ht, Wid); gscreen->clipr = gscreen->r; gscreen->width = Ht/2; xgdata.bdata = (uchar *)framebuf->pixel; while (i < Wid*Ht*1/3) framebuf->pixel[i++] = 0xf800; /* red */ while (i < Wid*Ht*2/3) framebuf->pixel[i++] = 0xffff; /* white */ while (i < Wid*Ht*3/3) framebuf->pixel[i++] = 0x001f; /* blue */ } else { gscreen->r = Rect(0, 0, Wid, Ht); gscreen->clipr = gscreen->r; gscreen->width = Wid/2; xgdata.bdata = (uchar *)vscreen; while (i < Wid*Ht*1/3) vscreen[i++] = 0xf800; /* red */ while (i < Wid*Ht*2/3) vscreen[i++] = 0xffff; /* white */ while (i < Wid*Ht*3/3) vscreen[i++] = 0x001f; /* blue */ flushmemscreen(gscreen->r); } memimageinit(); memdefont = getmemdefont(); out.pos.x = MINX; out.pos.y = 0; out.bwid = memdefont->info[' '].width; blanktime = 3; /* minutes */ screenwin(); // screenputs = bitsyscreenputs; screenputs = nil; } void flushmemscreen(Rectangle r) { int x, y; ulong start, end; if (landscape == 0) { if (r.min.x < 0) r.min.x = 0; if (r.max.x > Wid) r.max.x = Wid; if (r.min.y < 0) r.min.y = 0; if (r.max.y > Ht) r.max.y = Ht; for (x = r.min.x; x < r.max.x; x++) for (y = r.min.y; y < r.max.y; y++) framebuf->pixel[(x+1)*Ht-1-y] = gamma[vscreen[y*Wid+x]]; start = (ulong)&framebuf->pixel[(r.min.x+1)*Ht-1-(r.max.y-1)]; end = (ulong)&framebuf->pixel[(r.max.x-1+1)*Ht-1-(r.min.y)]; } else { start = (ulong)&framebuf->pixel[r.min.y*Ht + r.min.x]; end = (ulong)&framebuf->pixel[(r.max.y-1)*Ht + r.max.x - 1]; } cachewbregion(start, end-start); } /* * export screen to devdraw */ uchar* attachscreen(Rectangle *r, ulong *chan, int* d, int *width, int *softscreen) { *r = gscreen->r; *d = gscreen->depth; *chan = gscreen->chan; *width = gscreen->width; *softscreen = (landscape == 0); return (uchar*)gscreen->data->bdata; } void getcolor(ulong p, ulong* pr, ulong* pg, ulong* pb) { USED(p, pr, pg, pb); } int setcolor(ulong p, ulong r, ulong g, ulong b) { USED(p,r,g,b); return 0; } void blankscreen(int blank) { int cnt; if (blank) { lcd->lccr0 &= ~(1<<LEN); /* disable the LCD */ cnt = 0; while((lcd->lcsr & (1<<LDD)) == 0) { delay(10); if (++cnt == 100) { iprint("LCD doesn't stop\n"); break; } } lcdpower(0); } else { lcdpower(1); lcdinit(); } } static void bitsyscreenputs(char *s, int n) { int i; Rune r; char buf[4]; if(!islo()) { /* don't deadlock trying to print in interrupt */ if(!canlock(&screenlock)) return; } else lock(&screenlock); while(n > 0){ i = chartorune(&r, s); if(i == 0){ s++; --n; continue; } memmove(buf, s, i); buf[i] = 0; n -= i; s += i; screenputc(buf); } unlock(&screenlock); } static void screenwin(void) { Point p, q; char *greet; Memimage *orange; Rectangle r; memsetchan(gscreen, RGB16); back = memwhite; conscol = memblack; orange = allocmemimage(Rect(0,0,1,1), RGB16); orange->flags |= Frepl; orange->clipr = gscreen->r; orange->data->bdata[0] = 0x40; orange->data->bdata[1] = 0xfd; w = memdefont->info[' '].width; h = memdefont->height; r = insetrect(gscreen->r, 4); memimagedraw(gscreen, r, memblack, ZP, memopaque, ZP, S); window = insetrect(r, 4); memimagedraw(gscreen, window, memwhite, ZP, memopaque, ZP, S); memimagedraw(gscreen, Rect(window.min.x, window.min.y, window.max.x, window.min.y+h+5+6), orange, ZP, nil, ZP, S); freememimage(orange); window = insetrect(window, 5); greet = " Plan 9 Console "; p = addpt(window.min, Pt(10, 0)); q = memsubfontwidth(memdefont, greet); memimagestring(gscreen, p, conscol, ZP, memdefont, greet); flushmemscreen(r); window.min.y += h+6; curpos = window.min; window.max.y = window.min.y+((window.max.y-window.min.y)/h)*h; } static void screenputc(char *buf) { Point p; int w, pos; Rectangle r; static int *xp; static int xbuf[256]; if(xp < xbuf || xp >= &xbuf[sizeof(xbuf)]) xp = xbuf; switch(buf[0]) { case '\n': if(curpos.y+h >= window.max.y) scroll(); curpos.y += h; screenputc("\r"); break; case '\r': xp = xbuf; curpos.x = window.min.x; break; case '\t': p = memsubfontwidth(memdefont, " "); w = p.x; if(curpos.x >= window.max.x-4*w) screenputc("\n"); pos = (curpos.x-window.min.x)/w; pos = 4-(pos%4); *xp++ = curpos.x; r = Rect(curpos.x, curpos.y, curpos.x+pos*w, curpos.y + h); memimagedraw(gscreen, r, back, back->r.min, nil, back->r.min, S); flushmemscreen(r); curpos.x += pos*w; break; case '\b': if(xp <= xbuf) break; xp--; r = Rect(*xp, curpos.y, curpos.x, curpos.y + h); memimagedraw(gscreen, r, back, back->r.min, nil, back->r.min, S); flushmemscreen(r); curpos.x = *xp; break; case '\0': break; default: p = memsubfontwidth(memdefont, buf); w = p.x; if(curpos.x >= window.max.x-w) screenputc("\n"); *xp++ = curpos.x; r = Rect(curpos.x, curpos.y, curpos.x+w, curpos.y + h); memimagedraw(gscreen, r, back, back->r.min, nil, back->r.min, S); memimagestring(gscreen, curpos, conscol, ZP, memdefont, buf); flushmemscreen(r); curpos.x += w; } } static void scroll(void) { int o; Point p; Rectangle r; o = 8*h; r = Rpt(window.min, Pt(window.max.x, window.max.y-o)); p = Pt(window.min.x, window.min.y+o); memimagedraw(gscreen, r, gscreen, p, nil, p, S); flushmemscreen(r); r = Rpt(Pt(window.min.x, window.max.y-o), window.max); memimagedraw(gscreen, r, back, ZP, nil, ZP, S); flushmemscreen(r); curpos.y -= o; }