ref: e11c7aa718df592bd69de53ce1d6498cc870f256
dir: /os/mpc/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" #include <draw.h> #include <memdraw.h> #include <cursor.h> #include "screen.h" enum { Backgnd = 0xFF, /* white */ Foregnd = 0x00, /* black */ }; Cursor arrow = { { -1, -1 }, { 0xFF, 0xFF, 0x80, 0x01, 0x80, 0x02, 0x80, 0x0C, 0x80, 0x10, 0x80, 0x10, 0x80, 0x08, 0x80, 0x04, 0x80, 0x02, 0x80, 0x01, 0x80, 0x02, 0x8C, 0x04, 0x92, 0x08, 0x91, 0x10, 0xA0, 0xA0, 0xC0, 0x40, }, { 0x00, 0x00, 0x7F, 0xFE, 0x7F, 0xFC, 0x7F, 0xF0, 0x7F, 0xE0, 0x7F, 0xE0, 0x7F, 0xF0, 0x7F, 0xF8, 0x7F, 0xFC, 0x7F, 0xFE, 0x7F, 0xFC, 0x73, 0xF8, 0x61, 0xF0, 0x60, 0xE0, 0x40, 0x40, 0x00, 0x00, }, }; static Memdata xgdata; static Memimage xgscreen = { {0, 0, 0, 0}, /* r */ {0, 0, 0, 0}, /* clipr */ 8, /* depth */ 1, /* nchan */ CMAP8, /* chan */ nil, /* cmap */ &xgdata, /* data */ 0, /* zero */ 0, /* width */ nil, /* layer */ 0, /* flags */ }; int novgascreen; /* optionally set by configuration file */ static int lcdpdpar; /* value to load into io->pdpar */ Memimage *gscreen; Memimage *conscol; Memimage *back; static Memsubfont *memdefont; static Lock palettelock; /* access to DAC registers */ static Lock screenlock; static int h; static Point curpos; static Rectangle window; typedef struct SWcursor SWcursor; static SWcursor *swc = nil; SWcursor* swcurs_create(ulong *, int, int, Rectangle, int); void swcurs_destroy(SWcursor*); void swcurs_enable(SWcursor*); void swcurs_disable(SWcursor*); void swcurs_hide(SWcursor*); void swcurs_unhide(SWcursor*); void swcurs_load(SWcursor*, Cursor*); static void screenputc(char*); static void scroll(void); static void setscreen(Mode*); static void cursorlock(Rectangle); static void cursorunlock(void); static void lcdinit(Mode*); static void lcdsetrgb(int, ulong, ulong, ulong); /* * Called by main(). */ void screeninit(void) { Mode m; novgascreen=1; return; /* default size and parameters */ memset(&m.lcd, 0, sizeof(m.lcd)); m.x = 640; m.y = 480; m.d = 3; if(novgascreen == 0 && archlcdmode(&m) >= 0){ memdefont = getmemdefont(); setscreen(&m); } } /* * On 8 bit displays, load the default color map */ void graphicscmap(int invert) { int num, den, i, j; int r, g, b, cr, cg, cb, v; for(r=0,i=0;r!=4;r++) for(v=0;v!=4;v++,i+=16){ for(g=0,j=v-r;g!=4;g++) for(b=0;b!=4;b++,j++){ den=r; if(g>den) den=g; if(b>den) den=b; if(den==0) /* divide check -- pick grey shades */ cr=cg=cb=v*17; else{ num=17*(4*den+v); cr=r*num/den; cg=g*num/den; cb=b*num/den; } if(invert) setcolor(255-i-(j&15), cr*0x01010101, cg*0x01010101, cb*0x01010101); else setcolor(i+(j&15), cr*0x01010101, cg*0x01010101, cb*0x01010101); } } } /* * reconfigure screen shape */ static void setscreen(Mode *mode) { int h; if(swc) swcurs_destroy(swc); gscreen = &xgscreen; xgdata.ref = 1; lcdinit(mode); xgdata.bdata = (uchar*)mode->aperture; if(xgdata.bdata == nil) panic("setscreen: vga soft memory"); gscreen->r = Rect(0, 0, mode->x, mode->y); gscreen->clipr = gscreen->r; gscreen->depth = 1<<mode->d; gscreen->width = wordsperline(gscreen->r, gscreen->depth); memimageinit(); memdefont = getmemdefont(); memsetchan(gscreen, CMAP8); back = memwhite; conscol = memblack; memimagedraw(gscreen, gscreen->r, memwhite, ZP, memopaque, ZP, SoverD); graphicscmap(0); /* get size for a system window */ h = memdefont->height; window = insetrect(gscreen->r, 4); window.max.y = window.min.y+(Dy(window)/h)*h; curpos = window.min; // screenclear(); graphicscmap(0); // swc = swcurs_create(gscreendata.data, gscreen.width, gscreen.ldepth, gscreen.r, 1); drawcursor(nil); } enum { ScreenCached = 1 /* non-zero if screen region not write-through */ }; void flushmemscreen(Rectangle r) { if(rectclip(&r, gscreen->r) == 0) return; if(r.min.x >= r.max.x || r.min.y >= r.max.y) return; if(ScreenCached) dcflush((ulong*)gscreen->data->bdata + gscreen->width*r.min.y, gscreen->width*Dy(r)); } /* * export screen to interpreter */ 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 = ScreenCached; return (uchar*)gscreen->data->bdata; } void detachscreen(void) { } /* * write a string to the screen */ void screenputs(char *s, int n) { int i; Rune r; char buf[4]; if(novgascreen || xgdata.bdata == nil || memdefont == nil) return; if(islo() == 0) { /* 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); } /* Only OK for now */ flushmemscreen(gscreen->r); unlock(&screenlock); } static void scroll(void) { int o; Point p; Rectangle r; o = 4*memdefont->height; 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, SoverD); flushmemscreen(r); r = Rpt(Pt(window.min.x, window.max.y-o), window.max); memimagedraw(gscreen, r, back, ZP, nil, ZP, SoverD); flushmemscreen(r); curpos.y -= o; } static void clearline(void) { Rectangle r; int yloc = curpos.y; r = Rpt(Pt(window.min.x, window.min.y + yloc), Pt(window.max.x, window.min.y+yloc+memdefont->height)); memimagedraw(gscreen, r, back, ZP, nil, ZP, SoverD); } static void screenputc(char *buf) { Point p; int h, w, pos; Rectangle r; static int *xp; static int xbuf[256]; h = memdefont->height; 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; /* fall through */ case '\r': xp = xbuf; curpos.x = window.min.x; break; case '\t': if(curpos.x == window.min.x) clearline(); p = memsubfontwidth(memdefont, " "); w = p.x; *xp++ = curpos.x; pos = (curpos.x-window.min.x)/w; pos = 8-(pos%8); r = Rect(curpos.x, curpos.y, curpos.x+pos*w, curpos.y+h); memimagedraw(gscreen, r, back, ZP, nil, ZP, SoverD); flushmemscreen(r); curpos.x += pos*w; break; case '\b': if(xp <= xbuf) break; xp--; r = Rpt(Pt(*xp, curpos.y), Pt(curpos.x, curpos.y + h)); memimagedraw(gscreen, r, back, ZP, nil, ZP, SoverD); 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"); if(curpos.x == window.min.x) clearline(); if(xp < xbuf+nelem(xbuf)) *xp++ = curpos.x; r = Rect(curpos.x, curpos.y, curpos.x+w, curpos.y+h); memimagedraw(gscreen, r, back, ZP, nil, ZP, SoverD); memimagestring(gscreen, curpos, conscol, ZP, memdefont, buf); flushmemscreen(r); curpos.x += w; } } int setcolor(ulong p, ulong r, ulong g, ulong b) { ulong x; if(gscreen->depth >= 8) x = 0xFF; else x = 0xF; p &= x; p ^= x; lock(&palettelock); lcdsetrgb(p, r, g, b); unlock(&palettelock); return ~0; } void getcolor(ulong p, ulong *pr, ulong *pg, ulong *pb) { /* TO DO */ *pr = *pg = *pb = 0; } /* * See section 5.2.1 (page 5-6) of the MPC823 manual */ static uchar lcdclock[17] = { /* (a<<2)|b => divisor of (1<<a)*((b<<1)+1) */ 0, 0, (1<<2), 1, (2<<2), 2, (1<<2)|1, 3, (3<<2), (1<<2)|2, (1<<2)|2, (2<<2)|1, (2<<2)|1, (1<<2)|3, (1<<2)|3, (4<<2), (4<<2) }; enum { /* lccr */ Enable = 1<<0, /* lchcr */ BigEndian = 1<<24, AT7 = 7<<21, /* access type */ /* sdcr */ LAM = 1<<6, /* ``LCD aggressive mode'' */ }; /* * initialise MPC8xx LCD controller incorporating board or display-specific values in Mode.lcd */ static void lcdinit(Mode *mode) { IMM *io; int i, d; long hz; io = m->iomem; mode->aperture = xspanalloc(mode->x*mode->y, 16, 0); mode->apsize = mode->x*mode->y; io->sdcr = 1; /* MPC823 errata: turn off LAM before disabling controller */ eieio(); io->lcfaa = PADDR(mode->aperture); io->lccr = (((mode->x*mode->y*(1<<mode->d)+127)/128) << 17) | (mode->d << 5) | mode->lcd.flags; switch(mode->d){ default: case 0: /* monochrome/greyscale identity map */ for(i=0; i<16; i++) io->lcdmap[i] = i; break; case 2: /* 4-bit grey scale map */ for(i=0; i<16; i++) io->lcdmap[0] = (i<<8)|(i<<4)|i; break; case 3: /* 8-bit linear map */ for(i=0; i<256; i++) io->lcdmap[i] = (i<<8)|(i<<4)|i; break; } io->lcvcr = (mode->y << 11) | (mode->lcd.vpw<<28) | (mode->lcd.ac<<21) | mode->lcd.wbf; io->lchcr = (mode->x<<10) | BigEndian | mode->lcd.wbl; hz = m->cpuhz; d = hz/mode->lcd.freq; if(hz/d > mode->lcd.freq) d++; if(d >= 16) d = 16; /* * enable LCD outputs */ io->pddat = 0; lcdpdpar = 0x1fff & ~mode->lcd.notpdpar; io->pdpar = lcdpdpar; io->pddir = 0x1fff; io->pbpar |= IBIT(31) | IBIT(19) | IBIT(17); io->pbdir |= IBIT(31) | IBIT(19) | IBIT(17); io->pbodr &= ~(IBIT(31) | IBIT(19) | IBIT(17)); /* * with the data cache off, early revisions of the 823 did not require * the `aggressive' DMA priority to avoid flicker, but flicker is obvious * on the 823A when the cache is on, so LAM is now set */ io->sdcr = (io->sdcr & ~0xF) | LAM; /* LAM=1, LAID=0, RAID=0 */ // gscreen.width = gscreen.width; /* access external memory before enabling (mpc823 errata) */ eieio(); io->sccrk = KEEP_ALIVE_KEY; eieio(); io->sccr = (io->sccr & ~0x1F) | lcdclock[d]; eieio(); io->sccrk= ~KEEP_ALIVE_KEY; io->lcsr = 7; /* clear status */ eieio(); io->lccr |= Enable; archbacklight(1); } static void lcdsetrgb(int p, ulong r, ulong g, ulong b) { r >>= 28; g >>= 28; b >>= 28; m->iomem->lcdmap[p&0xFF] = (r<<8) | (g<<4) | b; } void blankscreen(int blank) { USED(blank); /* TO DO */ } /* * enable/disable LCD panel (eg, when using video subsystem) */ void lcdpanel(int on) { IMM *io; if(on){ archbacklight(1); io = ioplock(); io->pddat = 0; io->pdpar = lcdpdpar; io->pddir = 0x1fff; io->lccr |= Enable; iopunlock(); }else{ io = ioplock(); io->sdcr = 1; /* MPC823 errata: turn off LAM before disabling controller */ eieio(); io->pddir = 0; eieio(); io->lccr &= ~Enable; iopunlock(); archbacklight(0); } } /* * Software cursor code. Interim version (for baseline). * we may want to replace code here by memdraw primitives. */ enum { CUR_ENA = 0x01, /* cursor is enabled */ CUR_DRW = 0x02, /* cursor is currently drawn */ CUR_SWP = 0x10, /* bit swap */ CURSWID = 16, CURSHGT = 16, }; typedef struct SWcursor { ulong *fb; /* screen frame buffer */ Rectangle r; int d; /* ldepth of screen */ int width; /* width of screen in ulongs */ int x; int y; int hotx; int hoty; uchar cbwid; /* cursor byte width */ uchar f; /* flags */ uchar cwid; uchar chgt; int hidecount; uchar data[CURSWID*CURSHGT]; uchar mask[CURSWID*CURSHGT]; uchar save[CURSWID*CURSHGT]; } SWcursor; static Rectangle cursoroffrect; static int cursorisoff; static void swcursorflush(int, int); static void swcurs_draw_or_undraw(SWcursor *); static void cursorupdate0(void) { int inrect, x, y; Point m; m = mousexy(); x = m.x - swc->hotx; y = m.y - swc->hoty; inrect = (x >= cursoroffrect.min.x && x < cursoroffrect.max.x && y >= cursoroffrect.min.y && y < cursoroffrect.max.y); if (cursorisoff == inrect) return; cursorisoff = inrect; if (inrect) swcurs_hide(swc); else { swc->hidecount = 0; swcurs_draw_or_undraw(swc); } swcursorflush(m.x, m.y); } void cursorupdate(Rectangle r) { lock(&screenlock); r.min.x -= 16; r.min.y -= 16; cursoroffrect = r; if (swc) cursorupdate0(); unlock(&screenlock); } void cursorenable(void) { Point m; lock(&screenlock); if(swc) { swcurs_enable(swc); m = mousexy(); swcursorflush(m.x, m.y); } unlock(&screenlock); } void cursordisable(void) { Point m; lock(&screenlock); if(swc) { swcurs_disable(swc); m = mousexy(); swcursorflush(m.x, m.y); } unlock(&screenlock); } void drawcursor(Drawcursor* c) { Point p; Cursor curs, *cp; int j, i, h, bpl; uchar *bc, *bs, *cclr, *cset; if(!swc) return; /* Set the default system cursor */ if(!c || c->data == nil) cp = &arrow /*&crosshair_black*/; else { cp = &curs; p.x = c->hotx; p.y = c->hoty; cp->offset = p; bpl = bytesperline(Rect(c->minx, c->miny, c->maxx, c->maxy), 1); h = (c->maxy-c->miny)/2; if(h > 16) h = 16; bc = c->data; bs = c->data + h*bpl; cclr = cp->clr; cset = cp->set; for(i = 0; i < h; i++) { for(j = 0; j < 2; j++) { cclr[j] = bc[j]; cset[j] = bs[j]; } bc += bpl; bs += bpl; cclr += 2; cset += 2; } } if(swc) { swcurs_load(swc, cp); p = mousexy(); swcursorflush(p.x, p.y); } } SWcursor* swcurs_create(ulong *fb, int width, int ldepth, Rectangle r, int bitswap) { SWcursor *swc = (SWcursor*)malloc(sizeof(SWcursor)); swc->fb = fb; swc->r = r; swc->d = ldepth; swc->width = width; swc->f = bitswap ? CUR_SWP : 0; swc->x = swc->y = 0; swc->hotx = swc->hoty = 0; swc->hidecount = 0; return swc; } void swcurs_destroy(SWcursor *swc) { swcurs_disable(swc); free(swc); } static void swcursorflush(int x, int y) { Rectangle r; /* XXX a little too paranoid here */ r.min.x = x-16; r.min.y = y-16; r.max.x = x+17; r.max.y = y+17; flushmemscreen(r); } static void swcurs_draw_or_undraw(SWcursor *swc) { uchar *p; uchar *cs; int w, vw; int x1 = swc->r.min.x; int y1 = swc->r.min.y; int x2 = swc->r.max.x; int y2 = swc->r.max.y; int xp = swc->x - swc->hotx; int yp = swc->y - swc->hoty; int ofs; if(((swc->f & CUR_ENA) && (swc->hidecount <= 0)) == ((swc->f & CUR_DRW) != 0)) return; w = swc->cbwid*BI2BY/(1 << swc->d); x1 = xp < x1 ? x1 : xp; y1 = yp < y1 ? y1 : yp; x2 = xp+w >= x2 ? x2 : xp+w; y2 = yp+swc->chgt >= y2 ? y2 : yp+swc->chgt; if(x2 <= x1 || y2 <= y1) return; p = (uchar*)(swc->fb + swc->width*y1) + x1*(1 << swc->d)/BI2BY; y2 -= y1; x2 = (x2-x1)*(1 << swc->d)/BI2BY; vw = swc->width*BY2WD - x2; w = swc->cbwid - x2; ofs = swc->cbwid*(y1-yp)+(x1-xp); cs = swc->save + ofs; if((swc->f ^= CUR_DRW) & CUR_DRW) { uchar *cm = swc->mask + ofs; uchar *cd = swc->data + ofs; while(y2--) { x1 = x2; while(x1--) { *p = ((*cs++ = *p) & *cm++) ^ *cd++; p++; } cs += w; cm += w; cd += w; p += vw; } } else { while(y2--) { x1 = x2; while(x1--) *p++ = *cs++; cs += w; p += vw; } } } void swcurs_hide(SWcursor *swc) { ++swc->hidecount; swcurs_draw_or_undraw(swc); } void swcurs_unhide(SWcursor *swc) { if (--swc->hidecount < 0) swc->hidecount = 0; swcurs_draw_or_undraw(swc); } void swcurs_enable(SWcursor *swc) { swc->f |= CUR_ENA; swcurs_draw_or_undraw(swc); } void swcurs_disable(SWcursor *swc) { swc->f &= ~CUR_ENA; swcurs_draw_or_undraw(swc); } void swcurs_load(SWcursor *swc, Cursor *c) { int i, k; uchar *bc, *bs, *cd, *cm; static uchar bdv[4] = {0,Backgnd,Foregnd,0xff}; static uchar bmv[4] = {0xff,0,0,0xff}; int bits = 1<<swc->d; uchar mask = (1<<bits)-1; int bswp = (swc->f&CUR_SWP) ? 8-bits : 0; bc = c->clr; bs = c->set; swcurs_hide(swc); cd = swc->data; cm = swc->mask; swc->hotx = c->offset.x; swc->hoty = c->offset.y; swc->chgt = CURSHGT; swc->cwid = CURSWID; swc->cbwid = CURSWID*(1<<swc->d)/BI2BY; for(i = 0; i < CURSWID/BI2BY*CURSHGT; i++) { uchar bcb = *bc++; uchar bsb = *bs++; for(k=0; k<BI2BY;) { uchar cdv = 0; uchar cmv = 0; int z; for(z=0; z<BI2BY; z += bits) { int n = ((bsb&(0x80))|((bcb&(0x80))<<1))>>7; int s = z^bswp; cdv |= (bdv[n]&mask) << s; cmv |= (bmv[n]&mask) << s; bcb <<= 1; bsb <<= 1; k++; } *cd++ = cdv; *cm++ = cmv; } } swcurs_unhide(swc); }