/* * Copyright (C) 2002-2006 The DOSBox Team * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ /* $Id: int10_char.cpp,v 1.47 2006/03/27 19:31:54 c2woody Exp $ */ /* Character displaying moving functions */ #include "dosbox.h" #include "bios.h" #include "mem.h" #include "inout.h" #include "int10.h" static INLINE void CGA2_CopyRow(Bit8u cleft,Bit8u cright,Bit8u rold,Bit8u rnew,PhysPt base) { Bit8u cheight = real_readb(BIOSMEM_SEG,BIOSMEM_CHAR_HEIGHT); PhysPt dest=base+((CurMode->twidth*rnew)*(cheight/2)+cleft); PhysPt src=base+((CurMode->twidth*rold)*(cheight/2)+cleft); Bitu copy=(cright-cleft); Bitu nextline=CurMode->twidth; for (Bitu i=0;itwidth*rnew)*(cheight/2)+cleft)*2; PhysPt src=base+((CurMode->twidth*rold)*(cheight/2)+cleft)*2; Bitu copy=(cright-cleft)*2;Bitu nextline=CurMode->twidth*2; for (Bitu i=0;itwidth*rnew)*(cheight/4)+cleft)*4; PhysPt src=base+((CurMode->twidth*rold)*(cheight/4)+cleft)*4; Bitu copy=(cright-cleft)*4;Bitu nextline=CurMode->twidth*4; for (Bitu i=0;itwidth*rnew)*cheight+cleft; src=base+(CurMode->twidth*rold)*cheight+cleft; Bitu nextline=CurMode->twidth; /* Setup registers correctly */ IO_Write(0x3ce,5);IO_Write(0x3cf,1); /* Memory transfer mode */ IO_Write(0x3c4,2);IO_Write(0x3c5,0xf); /* Enable all Write planes */ /* Do some copying */ Bitu rowsize=(cright-cleft); copy=cheight; for (;copy>0;copy--) { for (Bitu x=0;xtwidth*rnew)*cheight+cleft); src=base+8*((CurMode->twidth*rold)*cheight+cleft); Bitu nextline=8*CurMode->twidth; Bitu rowsize=8*(cright-cleft); copy=cheight; for (;copy>0;copy--) { for (Bitu x=0;xtwidth+cleft)*2; dest=base+(rnew*CurMode->twidth+cleft)*2; MEM_BlockCopy(dest,src,(cright-cleft)*2); } static INLINE void CGA2_FillRow(Bit8u cleft,Bit8u cright,Bit8u row,PhysPt base,Bit8u attr) { Bit8u cheight = real_readb(BIOSMEM_SEG,BIOSMEM_CHAR_HEIGHT); PhysPt dest=base+((CurMode->twidth*row)*(cheight/2)+cleft); Bitu copy=(cright-cleft); Bitu nextline=CurMode->twidth; attr=(attr & 0x3) | ((attr & 0x3) << 2) | ((attr & 0x3) << 4) | ((attr & 0x3) << 6); for (Bitu i=0;itwidth*row)*(cheight/2)+cleft)*2; Bitu copy=(cright-cleft)*2;Bitu nextline=CurMode->twidth*2; attr=(attr & 0x3) | ((attr & 0x3) << 2) | ((attr & 0x3) << 4) | ((attr & 0x3) << 6); for (Bitu i=0;itwidth*row)*(cheight/4)+cleft)*4; Bitu copy=(cright-cleft)*4;Bitu nextline=CurMode->twidth*4; attr=(attr & 0xf) | (attr & 0xf) << 4; for (Bitu i=0;itwidth*row)*cheight+cleft; Bitu nextline=CurMode->twidth; Bitu copy = cheight;Bitu rowsize=(cright-cleft); for (;copy>0;copy--) { for (Bitu x=0;xtwidth*row)*cheight+cleft); Bitu nextline=8*CurMode->twidth; Bitu copy = cheight;Bitu rowsize=8*(cright-cleft); for (;copy>0;copy--) { for (Bitu x=0;xtwidth+cleft)*2; Bit16u fill=(attr<<8)+' '; for (Bit8u x=0;x<(cright-cleft);x++) { mem_writew(dest,fill); dest+=2; } } void INT10_ScrollWindow(Bit8u rul,Bit8u cul,Bit8u rlr,Bit8u clr,Bit8s nlines,Bit8u attr,Bit8u page) { /* Do some range checking */ if (CurMode->type!=M_TEXT) page=0xff; BIOS_NCOLS;BIOS_NROWS; if(rul>rlr) return; if(cul>clr) return; if(rlr>=nrows) rlr=(Bit8u)nrows-1; if(clr>=ncols) clr=(Bit8u)ncols-1; clr++; /* Get the correct page */ if(page==0xFF) page=real_readb(BIOSMEM_SEG,BIOSMEM_CURRENT_PAGE); PhysPt base=CurMode->pstart+page*real_readw(BIOSMEM_SEG,BIOSMEM_PAGE_SIZE); /* See how much lines need to be copied */ Bit8u start,end;Bits next; /* Copy some lines */ if (nlines>0) { start=rlr-nlines+1; end=rul; next=-1; } else if (nlines<0) { start=rul-nlines-1; end=rlr; next=1; } else { nlines=rlr-rul+1; goto filling; } while (start!=end) { start+=next; switch (CurMode->type) { case M_TEXT: TEXT_CopyRow(cul,clr,start,start+nlines,base);break; case M_CGA2: CGA2_CopyRow(cul,clr,start,start+nlines,base);break; case M_CGA4: CGA4_CopyRow(cul,clr,start,start+nlines,base);break; case M_TANDY16: TANDY16_CopyRow(cul,clr,start,start+nlines,base);break; case M_EGA: EGA16_CopyRow(cul,clr,start,start+nlines,base);break; case M_VGA: VGA_CopyRow(cul,clr,start,start+nlines,base);break; default: LOG(LOG_INT10,LOG_ERROR)("Unhandled mode %d for scroll",CurMode->type); } } /* Fill some lines */ filling: if (nlines>0) { start=rul; } else { nlines=-nlines; start=rlr-nlines+1; } for (;nlines>0;nlines--) { switch (CurMode->type) { case M_TEXT: TEXT_FillRow(cul,clr,start,base,attr);break; case M_CGA2: CGA2_FillRow(cul,clr,start,base,attr);break; case M_CGA4: CGA4_FillRow(cul,clr,start,base,attr);break; case M_TANDY16: TANDY16_FillRow(cul,clr,start,base,attr);break; case M_EGA: EGA16_FillRow(cul,clr,start,base,attr);break; case M_VGA: VGA_FillRow(cul,clr,start,base,attr);break; default: LOG(LOG_INT10,LOG_ERROR)("Unhandled mode %d for scroll",CurMode->type); } start++; } } void INT10_SetActivePage(Bit8u page) { Bit16u mem_address; if (page>7) return; mem_address=page*real_readw(BIOSMEM_SEG,BIOSMEM_PAGE_SIZE); /* Write the new page start */ real_writew(BIOSMEM_SEG,BIOSMEM_CURRENT_START,mem_address); if (machine==MCH_VGA && CurMode->mode<0x8) mem_address>>=1; /* Write the new start address in vgahardware */ Bit16u base=real_readw(BIOSMEM_SEG,BIOSMEM_CRTC_ADDRESS); IO_Write(base,0x0c); IO_Write(base+1,(Bit8u)(mem_address>>8)); IO_Write(base,0x0d); IO_Write(base+1,(Bit8u)mem_address); // And change the BIOS page real_writeb(BIOSMEM_SEG,BIOSMEM_CURRENT_PAGE,page); Bit8u cur_row=CURSOR_POS_ROW(page); Bit8u cur_col=CURSOR_POS_COL(page); // Display the cursor, now the page is active INT10_SetCursorPos(cur_row,cur_col,page); } void INT10_SetCursorShape(Bit8u first,Bit8u last) { real_writew(BIOSMEM_SEG,BIOSMEM_CURSOR_TYPE,last|(first<<8)); if (machine==MCH_CGA) goto dowrite; if (IS_TANDY_ARCH) goto dowrite; /* Skip CGA cursor emulation if EGA/VGA system is active */ if (!(real_readb(BIOSMEM_SEG,BIOSMEM_VIDEO_CTL) & 0x8)) { /* Check for CGA type 01, invisible */ if ((first & 0x60) == 0x20) { first=0x1e; last=0x00; goto dowrite; } /* Check if we need to convert CGA Bios cursor values */ if (!(real_readb(BIOSMEM_SEG,BIOSMEM_VIDEO_CTL) & 0x1)) { // set by int10 fun12 sub34 // if (CurMode->mode>0x3) goto dowrite; //Only mode 0-3 are text modes on cga if ((first & 0xe0) || (last & 0xe0)) goto dowrite; Bit8u cheight=real_readb(BIOSMEM_SEG,BIOSMEM_CHAR_HEIGHT)-1; /* Creative routine i based of the original ibmvga bios */ if (last=cheight) || !(last==(cheight-1)) || !(first==cheight) ) { if (last<=3) goto dowrite; if (first+22) { first=(cheight+1)/2; last=cheight; } else { last=cheight; } } else { first=(first-last)+cheight; last=cheight; if (cheight>0xc) { // vgatest sets 15 15 2x where only one should be decremented to 14 14 first--; // implementing int10 fun12 sub34 fixed this. last--; } } } } } dowrite: Bit16u base=real_readw(BIOSMEM_SEG,BIOSMEM_CRTC_ADDRESS); IO_Write(base,0xa);IO_Write(base+1,first); IO_Write(base,0xb);IO_Write(base+1,last); } void INT10_SetCursorPos(Bit8u row,Bit8u col,Bit8u page) { Bit16u address; if(page>7) return; // Bios cursor pos real_writeb(BIOSMEM_SEG,BIOSMEM_CURSOR_POS+page*2,col); real_writeb(BIOSMEM_SEG,BIOSMEM_CURSOR_POS+page*2+1,row); // Set the hardware cursor Bit8u current=real_readb(BIOSMEM_SEG,BIOSMEM_CURRENT_PAGE); if(page==current) { // Get the dimensions BIOS_NCOLS; // Calculate the address knowing nbcols nbrows and page num address=(ncols*row)+col+real_readw(BIOSMEM_SEG,BIOSMEM_CURRENT_START); // CRTC regs 0x0e and 0x0f Bit16u base=real_readw(BIOSMEM_SEG,BIOSMEM_CRTC_ADDRESS); IO_Write(base,0x0e); IO_Write(base+1,(Bit8u)(address>>8)); IO_Write(base,0x0f); IO_Write(base+1,(Bit8u)address); } } void ReadCharAttr(Bit16u col,Bit16u row,Bit8u page,Bit16u * result) { /* Externally used by the mouse routine */ PhysPt fontdata; Bitu x,y; Bit8u cheight = real_readb(BIOSMEM_SEG,BIOSMEM_CHAR_HEIGHT); bool split_chr = false; switch (CurMode->type) { case M_TEXT: { // Compute the address Bit16u address=page*real_readw(BIOSMEM_SEG,BIOSMEM_PAGE_SIZE); address+=(row*real_readw(BIOSMEM_SEG,BIOSMEM_NB_COLS)+col)*2; // read the char PhysPt where = CurMode->pstart+address; *result=mem_readw(where); } return; case M_CGA4: case M_CGA2: case M_TANDY16: split_chr = true; /* Fallthrough */ default: /* EGA/VGA don't have a split font-table */ for(Bit16u chr=0;chr <= 255 ;chr++) { if (!split_chr || (chr<128)) fontdata = Real2Phys(RealGetVec(0x43))+chr*cheight; else fontdata = Real2Phys(RealGetVec(0x1F))+(chr-128)*cheight; x=8*col; y=cheight*row; bool error=false; for (Bit8u h=0;h>=1; } y++; if(bitline != vidline){ /* It's not character 'chr', move on to the next */ error = true; break; } } if(!error){ /* We found it */ *result = chr; return; } } LOG(LOG_INT10,LOG_ERROR)("ReadChar didn't find character"); *result = 0; break; } } void INT10_ReadCharAttr(Bit16u * result,Bit8u page) { if(page==0xFF) page=real_readb(BIOSMEM_SEG,BIOSMEM_CURRENT_PAGE); Bit8u cur_row=CURSOR_POS_ROW(page); Bit8u cur_col=CURSOR_POS_COL(page); ReadCharAttr(cur_col,cur_row,page,result); } void WriteChar(Bit16u col,Bit16u row,Bit8u page,Bit8u chr,Bit8u attr,bool useattr) { /* Externally used by the mouse routine */ PhysPt fontdata; Bitu x,y; Bit8u cheight = real_readb(BIOSMEM_SEG,BIOSMEM_CHAR_HEIGHT); switch (CurMode->type) { case M_TEXT: { // Compute the address Bit16u address=page*real_readw(BIOSMEM_SEG,BIOSMEM_PAGE_SIZE); address+=(row*real_readw(BIOSMEM_SEG,BIOSMEM_NB_COLS)+col)*2; // Write the char PhysPt where = CurMode->pstart+address; mem_writeb(where,chr); if (useattr) { mem_writeb(where+1,attr); } } return; case M_CGA4: case M_CGA2: case M_TANDY16: if (chr<128) fontdata=Real2Phys(RealGetVec(0x43))+chr*cheight; else { chr-=128; fontdata=Real2Phys(RealGetVec(0x1F))+(chr)*cheight; } break; default: fontdata=Real2Phys(RealGetVec(0x43))+chr*cheight; break; } if(GCC_UNLIKELY(!useattr)) { //Set attribute(color) to a sensible value static bool warned_use = false; if(GCC_UNLIKELY(!warned_use)){ LOG(LOG_INT10,LOG_ERROR)("writechar used without attribute in non-textmode"); warned_use = true; } switch(CurMode->type) { case M_CGA4: case M_CGA2: attr = 0x1; break; case M_TANDY16: case M_EGA: default: attr = 0xf; break; } } //Some weird behavior of mode 6 (and 11) if ((CurMode->mode == 0x6)/* || (CurMode->mode==0x11)*/) attr = (attr&0x80)|1; //(same fix for 11 fixes vgatest2, but it's not entirely correct according to wd) x=8*col; y=cheight*row;Bit8u xor_mask=(CurMode->type == M_VGA) ? 0x0 : 0x80; //TODO Check for out of bounds if (CurMode->type==M_EGA) { /* enable all planes for EGA modes (Ultima 1 colour bug) */ /* might be put into INT10_PutPixel but different vga bios implementations have different opinions about this */ IO_Write(0x3c4,0x2);IO_Write(0x3c5,0xf); } for (Bit8u h=0;h>=1; } y++; } } void INT10_WriteChar(Bit8u chr,Bit8u attr,Bit8u page,Bit16u count,bool showattr) { if (CurMode->type!=M_TEXT) { switch (machine) { case MCH_VGA: page%=CurMode->ptotal; break; case MCH_CGA: case MCH_PCJR: page=0; break; } } Bit8u cur_row=CURSOR_POS_ROW(page); Bit8u cur_col=CURSOR_POS_COL(page); BIOS_NCOLS;BIOS_NROWS; while (count>0) { WriteChar(cur_col,cur_row,page,chr,attr,showattr); count--; cur_col++; if(cur_col==ncols) { cur_col=0; cur_row++; } } } static INLINE void INT10_TeletypeOutputAttr(Bit8u chr,Bit8u attr,bool useattr,Bit8u page) { BIOS_NCOLS;BIOS_NROWS; Bit8u cur_row=CURSOR_POS_ROW(page); Bit8u cur_col=CURSOR_POS_COL(page); switch (chr) { case 7: //TODO BEEP break; case 8: if(cur_col>0) cur_col--; break; case '\r': cur_col=0; break; case '\n': // cur_col=0; //Seems to break an old chess game cur_row++; break; case '\t': do { INT10_TeletypeOutputAttr(' ',attr,useattr,page); cur_row=CURSOR_POS_ROW(page); cur_col=CURSOR_POS_COL(page); } while(cur_col%8); break; default: /* Draw the actual Character */ WriteChar(cur_col,cur_row,page,chr,attr,useattr); cur_col++; } if(cur_col==ncols) { cur_col=0; cur_row++; } // Do we need to scroll ? if(cur_row==nrows) { //Fill with black on non-text modes and with 0x7 on textmode Bit8u fill = (CurMode->type == M_TEXT)?0x7:0; INT10_ScrollWindow(0,0,nrows-1,ncols-1,-1,fill,page); cur_row--; } // Set the cursor for the page INT10_SetCursorPos(cur_row,cur_col,page); } void INT10_TeletypeOutputAttr(Bit8u chr,Bit8u attr,bool useattr) { INT10_TeletypeOutputAttr(chr,attr,useattr,real_readb(BIOSMEM_SEG,BIOSMEM_CURRENT_PAGE)); } void INT10_TeletypeOutput(Bit8u chr,Bit8u attr) { INT10_TeletypeOutputAttr(chr,attr,CurMode->type!=M_TEXT); } void INT10_WriteString(Bit8u row,Bit8u col,Bit8u flag,Bit8u attr,PhysPt string,Bit16u count,Bit8u page) { BIOS_NCOLS;BIOS_NROWS; Bit8u cur_row=CURSOR_POS_ROW(page); Bit8u cur_col=CURSOR_POS_COL(page); // if row=0xff special case : use current cursor position if (row==0xff) { row=cur_row; col=cur_col; } INT10_SetCursorPos(row,col,page); while (count>0) { Bit8u chr=mem_readb(string); string++; if (flag&2) { attr=mem_readb(string); string++; }; INT10_TeletypeOutputAttr(chr,attr,true,page); count--; } if (!(flag&1)) { INT10_SetCursorPos(cur_row,cur_col,page); } }