#include #include void graph_putsa_fx(int x, int y, int fx, const unsigned char *str) { uint16_t codepoint; unsigned int glyph_row; unsigned char far *vram; int fullwidth; int first_bit; int weight = (fx >> 4) & 3; int spacing = (fx >> 6) & 7; int line; unsigned int glyph[GLYPH_HEIGHT]; register unsigned int glyph_row_orig; grcg_setcolor(GC_RMW, fx); OUTB(0x68, 0xB); // CG ROM dot access while(str[0]) { vram = MK_FP(GRAM_400, (y * ROW_SIZE) + (x / 8)); first_bit = x % 8; if(_ismbblead(str[0])) { codepoint = _mbcjmstojis(((char)str[0] << 8) + str[1]); str += 2; } else if(_ismbbkana((char)str[0])) { codepoint = str[0] + 0x2980; str += 1; } else if(isgraph((char)str[0])) { codepoint = str[0] + 0x2900; str += 1; } else { codepoint = 0x2B21; str += 1; } OUTB(0xA1, codepoint & 0xFF); OUTB(0xA3, (codepoint >> 8) - 0x20); if(codepoint >= 0x2921 && codepoint <= 0x2B7E) { if(x <= 632) { for(line = 0; line < GLYPH_HEIGHT; line++) { OUTB(0xA5, line | 0x20); glyph[line] = INPB(0xA9) << 8; } fullwidth = 0; } else { break; } } else if(x <= 624) { for(line = 0; line < GLYPH_HEIGHT; line++) { OUTB(0xA5, line | 0x20); glyph[line] = INPB(0xA9) << 8; OUTB(0xA5, line); glyph[line] += INPB(0xA9); } fullwidth = 1; } else { break; } for(line = 0; line < GLYPH_HEIGHT; line++) { glyph_row = glyph[line]; #define GLYPH_DOUBLE \ glyph_row_orig = glyph_row; \ glyph_row |= glyph_row_orig << 1; switch(weight) { case 1: GLYPH_DOUBLE; break; case 3: GLYPH_DOUBLE; // fallthrough case 2: GLYPH_DOUBLE; glyph_row_orig ^= glyph_row; glyph_row &= ~(glyph_row_orig << 1); } if(first_bit) { vram[0] = glyph_row >> (first_bit + 8); vram[1] = glyph_row >> (first_bit + 0); vram[2] = glyph_row << (8 - first_bit); } else { vram[0] = glyph_row >> 8; vram[1] = glyph_row; } vram += ROW_SIZE; } if(fullwidth) { x += 8; } x += spacing + 8; } OUTB(0x68, 0xA); // CG ROM code access grcg_off(); }