// license:BSD-3-Clause // copyright-holders:R. Belmont /*************************************************************************** Micro Craft Dimension 68000 This computer had the facility for plug-in cards to emulate popular computers of the time such as the Apple II Plus, TRS80, Kaypro, etc. The floppy disk parameters could be set to be able to read the disks of the emulated systems, or you create any other format you wished. TODO: - HLE serial keyboard - Graphics display (including colour and video_control options) - RTC (is this a thing? the manual indicates it just uses the DUART's timers to track time) - Centronics printer - Video-high - Video-reset - Game switches, paddles and timers (which work almost identically to the Apple II) - The plug-in boards - Emulator trap function DUART I/O port bits: INPUT: bit 0 = Centronics RDY OUTPUT: all bits = Centronics data Colors (from COLORDEM.BAS) 0 = black 1 = dark blue 2 = red 3 = magenta 4 = brown 5 = grey 6 = orange 7 = pink 8 = dark aqua 9 = blue A = grey 2 B = light blue C = green D = aqua E = yellow F = white ****************************************************************************/ #include "emu.h" #include "cpu/m68000/m68000.h" #include "imagedev/floppy.h" #include "machine/mc68681.h" #include "machine/upd765.h" #include "sound/spkrdev.h" #include "video/mc6845.h" #include "bus/rs232/rs232.h" #include "emupal.h" #include "screen.h" #include "softlist_dev.h" #include "speaker.h" class dim68k_state : public driver_device { public: dim68k_state(const machine_config &mconfig, device_type type, const char *tag) : driver_device(mconfig, type, tag) , m_maincpu(*this, "maincpu") , m_crtc(*this, "crtc") , m_speaker(*this, "speaker") , m_fdc(*this, "fdc") , m_floppy(*this, "fdc:%u", 0U) , m_ram(*this, "ram") , m_palette(*this, "palette") , m_p_chargen(*this, "chargen") , m_duart(*this, "duart") , m_bootview(*this, "bootview") { } void dim68k(machine_config &config); private: void dim68k_palette(palette_device &palette); u16 dim68k_fdc_r(); u16 dim68k_game_switches_r(); u16 dim68k_speaker_r(); u16 dim68k_banksw_r(); void dim68k_banksw_w(u16 data); void dim68k_fdc_w(u16 data); void dim68k_printer_strobe_w(u16 data); void dim68k_reset_timers_w(u16 data); void dim68k_speaker_w(u16 data); void dim68k_video_control_w(u16 data); void dim68k_video_high_w(u16 data); void dim68k_video_reset_w(u16 data); MC6845_UPDATE_ROW(crtc_update_row); DECLARE_WRITE_LINE_MEMBER(fdc_irq_w); void mem_map(address_map &map); bool m_speaker_bit = 0; u8 m_video_control = 0U; u8 m_fdc_irq = 0U; void machine_reset() override; void machine_start() override; required_device m_maincpu; required_device m_crtc; required_device m_speaker; required_device m_fdc; required_device_array m_floppy; required_shared_ptr m_ram; required_device m_palette; required_region_ptr m_p_chargen; required_device m_duart; memory_view m_bootview; }; void dim68k_state::dim68k_palette(palette_device &palette) { palette.set_pen_color(0, rgb_t::black()); palette.set_pen_color(1, rgb_t(0x40, 0x1c, 0xf7)); /* Dark Blue */ palette.set_pen_color(2, rgb_t(0xa7, 0x0b, 0x40)); /* Dark Red */ palette.set_pen_color(3, rgb_t(0xe6, 0x28, 0xff)); /* Purple */ palette.set_pen_color(4, rgb_t(0x40, 0x63, 0x00)); /* Brown */ palette.set_pen_color(5, rgb_t(0x80, 0x80, 0x80)); /* Dark Gray */ palette.set_pen_color(6, rgb_t(0xe6, 0x6f, 0x00)); /* Orange */ palette.set_pen_color(7, rgb_t(0xff, 0x8b, 0xbf)); /* Pink */ palette.set_pen_color(8, rgb_t(0x00, 0x74, 0x40)); /* Dark Green */ palette.set_pen_color(9, rgb_t(0x19, 0x90, 0xff)); /* Medium Blue */ palette.set_pen_color(10, rgb_t(0x80, 0x80, 0x80)); /* Light Grey */ palette.set_pen_color(11, rgb_t(0xbf, 0x9c, 0xff)); /* Light Blue */ palette.set_pen_color(12, rgb_t(0x19, 0xd7, 0x00)); /* Light Green */ palette.set_pen_color(13, rgb_t(0x58, 0xf4, 0xbf)); /* Aquamarine */ palette.set_pen_color(14, rgb_t(0xbf, 0xe3, 0x08)); /* Yellow */ palette.set_pen_color(15, rgb_t(0xff, 0xff, 0xff)); /* White */ }; u16 dim68k_state::dim68k_fdc_r() { return 0; } u16 dim68k_state::dim68k_game_switches_r() // Reading the game port switches // FFCC11 = switch 0; FFCC13 = switch 1, etc to switch 3 // FFCC19 = paddle 0; FFCC1B = paddle 1, etc to paddle 3 { return 0xffff; } u16 dim68k_state::dim68k_speaker_r() // Any read or write of this address will toggle the position of the speaker cone { m_speaker_bit ^= 1; m_speaker->level_w(m_speaker_bit); return 0; } void dim68k_state::dim68k_speaker_w(u16 data) { m_speaker_bit ^= 1; m_speaker->level_w(m_speaker_bit); } WRITE_LINE_MEMBER(dim68k_state::fdc_irq_w) { if (state) { m_fdc_irq = 0; } else { m_fdc_irq = 0x80; } } void dim68k_state::dim68k_fdc_w(u16 data) { m_fdc->tc_w(BIT(data, 5)); if (BIT(data, 1)) { m_floppy[BIT(data, 0)^1]->get_device()->mon_w(true); } else { m_floppy[BIT(data, 0)^1]->get_device()->mon_w(false); } } void dim68k_state::dim68k_video_high_w(u16 data) // "write high byte of address in memory of start of display buffer" { } void dim68k_state::dim68k_video_control_w(u16 data) { /* D7 0 = Hires/Graphics; 1= Lores/Text [not emulated yet] D6 0 = 8 dots per character; 1 = 7 dots [emulated] D5 0 = CRTC and CPU run Asynchronously; 1 = Synchronously [won't be emulated] D4,D3 Dot clock: 00=14MHz; 01=3.58MHz; 10=7MHz; 11=1.79MHz [emulated] D2 0 = Screen On; 1 = Off [emulated] D1 0 = Standard Chars & LoRes; 1 = Alternate Chars & HiRes [not emulated yet] D0 0 = Non-Mixed (all text or all Graphics); 1 = Mixed (Colour Graphics and Monochrome Text) [not emulated yet] */ unsigned dots = (data & 0x40) ? 7 : 8; m_crtc->set_hpixels_per_column(dots); m_video_control = data; switch (data & 0x18) { case 0x00: m_crtc->set_unscaled_clock(XTAL(14'000'000) / dots); break; case 0x08: m_crtc->set_unscaled_clock(XTAL(3'579'545) / dots); break; case 0x10: m_crtc->set_unscaled_clock(XTAL(14'000'000) / dots / 2); break; case 0x18: m_crtc->set_unscaled_clock(XTAL(3'579'545) / dots / 2); break; } } void dim68k_state::dim68k_video_reset_w(u16 data) { } void dim68k_state::dim68k_reset_timers_w(u16 data) // reset game port timer before reading paddles { } void dim68k_state::dim68k_printer_strobe_w(u16 data) // anything sent here will trigger a one-shot for a strobe pulse { } u16 dim68k_state::dim68k_banksw_r() { m_bootview.disable(); return 0xffff; } void dim68k_state::dim68k_banksw_w(u16 data) { m_bootview.disable(); } void dim68k_state::mem_map(address_map &map) { map(0x000000, 0x7fffff).ram().share("ram"); // 8 MiB of RAM map(0x000000, 0x00ffff).view(m_bootview); m_bootview[0](0x000000, 0x001fff).rom().region("bootrom", 0); // graphics VRAM is not used by the stub before the bankswitch occurs, so it's not mapped here m_bootview[0](0x008001, 0x008001).rw(m_crtc, FUNC(mc6845_device::status_r), FUNC(mc6845_device::address_w)); m_bootview[0](0x008003, 0x008003).rw(m_crtc, FUNC(mc6845_device::register_r), FUNC(mc6845_device::register_w)); m_bootview[0](0x008004, 0x008005).w(FUNC(dim68k_state::dim68k_video_high_w)); m_bootview[0](0x008008, 0x008009).w(FUNC(dim68k_state::dim68k_video_control_w)); m_bootview[0](0x00800a, 0x00800b).w(FUNC(dim68k_state::dim68k_video_reset_w)); m_bootview[0](0x00dc00, 0x00dc01).rw(FUNC(dim68k_state::dim68k_banksw_r), FUNC(dim68k_state::dim68k_banksw_w)); map(0xff0000, 0xff1fff).rom().region("bootrom", 0); map(0xff2000, 0xff7fff).ram(); // Graphics Video RAM map(0xff8001, 0xff8001).rw(m_crtc, FUNC(mc6845_device::status_r), FUNC(mc6845_device::address_w)); map(0xff8003, 0xff8003).rw(m_crtc, FUNC(mc6845_device::register_r), FUNC(mc6845_device::register_w)); map(0xff8004, 0xff8005).w(FUNC(dim68k_state::dim68k_video_high_w)); map(0xff8008, 0xff8009).w(FUNC(dim68k_state::dim68k_video_control_w)); map(0xff800a, 0xff800b).w(FUNC(dim68k_state::dim68k_video_reset_w)); map(0xff8800, 0xff8fff).rom().region("cop6512", 0); // slot 1 controller rom map(0xff9000, 0xff97ff).rom().region("copz80", 0); // slot 2 controller rom map(0xff9800, 0xff9fff).rom().region("cop8086", 0); // slot 3 controller rom #if 0 map(0xffa000, 0xffa7ff).rom(); // slot 4 controller rom map(0xffa800, 0xffafff).rom(); // slot 5 controller rom map(0xffb000, 0xffb7ff).rom(); // slot 6 controller rom #endif map(0xffc400, 0xffc41f).rw(m_duart, FUNC(scn2681_device::read), FUNC(scn2681_device::write)).umask16(0x00ff); map(0xffc800, 0xffc801).rw(FUNC(dim68k_state::dim68k_speaker_r), FUNC(dim68k_state::dim68k_speaker_w)); map(0xffcc00, 0xffcc1f).rw(FUNC(dim68k_state::dim68k_game_switches_r), FUNC(dim68k_state::dim68k_reset_timers_w)); map(0xffd000, 0xffd003).m(m_fdc, FUNC(upd765a_device::map)).umask16(0x00ff); // NEC uPD765A map(0xffd000, 0xffd000).lr8([this]() -> u8 { return m_fdc_irq; }, "free0"); map(0xffd004, 0xffd005).rw(FUNC(dim68k_state::dim68k_fdc_r), FUNC(dim68k_state::dim68k_fdc_w)); //map(0x00ffd400, 0x00ffd403) emulation trap control map(0xffd800, 0xffd801).w(FUNC(dim68k_state::dim68k_printer_strobe_w)); map(0xffdc00, 0xffdc01).rw(FUNC(dim68k_state::dim68k_banksw_r), FUNC(dim68k_state::dim68k_banksw_w)); } /* Input ports */ static INPUT_PORTS_START( dim68k ) INPUT_PORTS_END void dim68k_state::machine_reset() { m_bootview.select(0); m_fdc_irq = 0; } // Text-only; graphics isn't emulated yet. Need to find out if hardware cursor is used. MC6845_UPDATE_ROW( dim68k_state::crtc_update_row ) { rgb_t const *const palette = m_palette->palette()->entry_list_raw(); uint16_t chr16=0x2020; // set to spaces if screen is off uint32_t *p = &bitmap.pix(y); u8 screen_on = ~m_video_control & 4; u8 dot8 = ~m_video_control & 40; // need to divide everything in half to cater for 16-bit reads x_count /= 2; ma /= 2; u8 xx = 0; for (u8 x = 0; x < x_count; x++) { u8 inv, chr, gfx; if (screen_on) chr16 = m_ram[ma+x]; // reads 2 characters inv=0; if (xx == cursor_x && screen_on) inv=0xff; xx++; chr = chr16>>8; if (m_video_control & 0x80) { gfx = m_p_chargen[(chr<<4) | ra] ^ inv ^ ((chr & 0x80) ? 0xff : 0); *p++ = palette[BIT(gfx, 7)*15]; *p++ = palette[BIT(gfx, 6)*15]; *p++ = palette[BIT(gfx, 5)*15]; *p++ = palette[BIT(gfx, 4)*15]; *p++ = palette[BIT(gfx, 3)*15]; *p++ = palette[BIT(gfx, 2)*15]; *p++ = palette[BIT(gfx, 1)*15]; if (dot8) *p++ = palette[BIT(gfx, 0)*15]; } else { *p++ = palette[(chr>>4) & 0xf]; *p++ = palette[(chr>>4) & 0xf]; *p++ = palette[(chr>>4) & 0xf]; *p++ = palette[(chr>>4) & 0xf]; *p++ = palette[chr & 0xf]; *p++ = palette[chr & 0xf]; *p++ = palette[chr & 0xf]; if (dot8) *p++ = palette[chr & 0xf]; } inv = 0; if (xx == cursor_x) inv=0xff; xx++; chr = chr16; if (m_video_control & 0x80) { gfx = m_p_chargen[(chr << 4) | ra] ^ inv ^ ((chr & 0x80) ? 0xff : 0); *p++ = palette[BIT(gfx, 7)*15]; *p++ = palette[BIT(gfx, 6)*15]; *p++ = palette[BIT(gfx, 5)*15]; *p++ = palette[BIT(gfx, 4)*15]; *p++ = palette[BIT(gfx, 3)*15]; *p++ = palette[BIT(gfx, 2)*15]; *p++ = palette[BIT(gfx, 1)*15]; if (dot8) *p++ = palette[BIT(gfx, 0)*15]; } else { *p++ = palette[(chr >> 4) & 0xf]; *p++ = palette[(chr >> 4) & 0xf]; *p++ = palette[(chr >> 4) & 0xf]; *p++ = palette[(chr >> 4) & 0xf]; *p++ = palette[chr & 0xf]; *p++ = palette[chr & 0xf]; *p++ = palette[chr & 0xf]; if (dot8) *p++ = palette[chr & 0xf]; } } } /* F4 Character Displayer */ static const gfx_layout dim68k_charlayout = { 8, 16, /* 8 x 16 characters */ 256, /* 256 characters */ 1, /* 1 bits per pixel */ { 0 }, /* no bitplanes */ /* x offsets */ { 0, 1, 2, 3, 4, 5, 6, 7 }, /* y offsets */ { 0*8, 1*8, 2*8, 3*8, 4*8, 5*8, 6*8, 7*8, 8*8, 9*8, 10*8, 11*8, 12*8, 13*8, 14*8, 15*8 }, 8*16 /* every char takes 16 bytes */ }; static GFXDECODE_START( gfx_dim68k ) GFXDECODE_ENTRY( "chargen", 0x0000, dim68k_charlayout, 0, 1 ) GFXDECODE_END static void dim68k_floppies(device_slot_interface &device) { device.option_add("525qd", FLOPPY_525_QD); } void dim68k_state::machine_start() { save_item(NAME(m_speaker_bit)); save_item(NAME(m_video_control)); } static DEVICE_INPUT_DEFAULTS_START(keyboard) DEVICE_INPUT_DEFAULTS("RS232_RXBAUD", 0xff, RS232_BAUD_300) DEVICE_INPUT_DEFAULTS("RS232_TXBAUD", 0xff, RS232_BAUD_300) DEVICE_INPUT_DEFAULTS("RS232_DATABITS", 0xff, RS232_DATABITS_8) DEVICE_INPUT_DEFAULTS("RS232_PARITY", 0xff, RS232_PARITY_NONE) DEVICE_INPUT_DEFAULTS("RS232_STOPBITS", 0xff, RS232_STOPBITS_1) DEVICE_INPUT_DEFAULTS_END void dim68k_state::dim68k(machine_config &config) { /* basic machine hardware */ M68000(config, m_maincpu, XTAL(10'000'000)); m_maincpu->set_addrmap(AS_PROGRAM, &dim68k_state::mem_map); /* video hardware */ screen_device &screen(SCREEN(config, "screen", SCREEN_TYPE_RASTER)); screen.set_refresh_hz(50); screen.set_vblank_time(ATTOSECONDS_IN_USEC(2500)); /* not accurate */ screen.set_screen_update("crtc", FUNC(mc6845_device::screen_update)); screen.set_size(640, 480); screen.set_visarea(0, 640-1, 0, 250-1); PALETTE(config, m_palette, FUNC(dim68k_state::dim68k_palette), 16); GFXDECODE(config, "gfxdecode", m_palette, gfx_dim68k); /* sound hardware */ SPEAKER(config, "mono").front_center(); SPEAKER_SOUND(config, m_speaker).add_route(ALL_OUTPUTS, "mono", 0.50); /* Devices */ UPD765A(config, m_fdc, 4'000'000, true, true); // these options unknown FLOPPY_CONNECTOR(config, m_floppy[0], dim68k_floppies, "525qd", floppy_image_device::default_mfm_floppy_formats); FLOPPY_CONNECTOR(config, m_floppy[1], dim68k_floppies, "525qd", floppy_image_device::default_mfm_floppy_formats); m_fdc->intrq_wr_callback().set(FUNC(dim68k_state::fdc_irq_w)); MC6845(config, m_crtc, 1790000); m_crtc->set_screen("screen"); m_crtc->set_show_border_area(false); m_crtc->set_char_width(8); m_crtc->set_update_row_callback(FUNC(dim68k_state::crtc_update_row)); rs232_port_device &rs232(RS232_PORT(config, "rs232", default_rs232_devices, nullptr)); rs232_port_device &kbdport(RS232_PORT(config, "kbdport", default_rs232_devices, "keyboard")); kbdport.set_option_device_input_defaults("keyboard", DEVICE_INPUT_DEFAULTS_NAME(keyboard)); SCN2681(config, m_duart, 3.6864_MHz_XTAL); m_duart->a_tx_cb().set(kbdport, FUNC(rs232_port_device::write_txd)); m_duart->b_tx_cb().set(rs232, FUNC(rs232_port_device::write_txd)); kbdport.rxd_handler().set(m_duart, FUNC(scn2681_device::rx_a_w)); rs232.rxd_handler().set(m_duart, FUNC(scn2681_device::rx_b_w)); // software lists SOFTWARE_LIST(config, "flop_list").set_original("dim68k"); } /* 68000 MC101A 82S100 MC102B 82S100 MC103E 2732A MC104 2732A label "4050" underneath MC105 2732A char gen 6512 MC106 82LS135 U24 MC107 82LS135 U20 MC108 82S137 U23 MC109 82S131 U16 MC110 82LS135 U35 Z80 MC111 82S123 U11 8086 MC112 82LS135 U18 MC113 82S153 U16 */ /* ROM definition */ ROM_START( dim68k ) ROM_REGION16_BE( 0x2000, "bootrom", ROMREGION_ERASEFF ) ROM_LOAD16_BYTE( "mc103e.bin", 0x0001, 0x1000, CRC(4730c902) SHA1(5c4bb79ad22def721a22eb63dd05e0391c8082be)) ROM_LOAD16_BYTE( "mc104.bin", 0x0000, 0x1000, CRC(14b04575) SHA1(43e15d9ebe1c9c1bf1bcfc1be3899a49e6748200)) ROM_FILL(0x11dd, 1, 0x0d) // TEMP: patch keyboard table so return is return ROM_REGION( 0x1000, "chargen", ROMREGION_ERASEFF ) ROM_LOAD( "mc105e.bin", 0x0000, 0x1000, CRC(7a09daa8) SHA1(844bfa579293d7c3442fcbfa21bda75fff930394)) // The remaining roms may not be in the correct positions or being loaded correctly ROM_REGION16_BE( 0x1000, "cop6512", ROMREGION_ERASEFF ) ROM_LOAD16_WORD( "mc106.bin", 0x0000, 0x0100, CRC(11530d8a) SHA1(e3eae266535383bcaee2d84d7bed6052d40e4e4a)) ROM_LOAD16_WORD( "mc107.bin", 0x0100, 0x0100, CRC(966db11b) SHA1(3c3105ac842602d8e01b0f924152fd672a85f00c)) ROM_LOAD16_WORD( "mc108.bin", 0x0200, 0x0400, CRC(687f9b0a) SHA1(ed9f1265b25f89f6d3cf8cd0a7b0fb73cb129f9f)) ROM_LOAD16_WORD( "mc109.bin", 0x0600, 0x0200, CRC(4a857f98) SHA1(9f2bbc2171fc49f65aa798c9cd7799a26afd2ddf)) ROM_LOAD16_WORD( "mc110.bin", 0x0800, 0x0100, CRC(e207b457) SHA1(a8987ba3d1bbdb3d8b3b11cec90c532ff09e762e)) ROM_REGION16_BE( 0x1000, "copz80", ROMREGION_ERASEFF ) ROM_LOAD16_WORD( "mc111.bin", 0x0000, 0x0020, CRC(6a380057) SHA1(6522a7b3e0af9db14a6ed04d4eec3ee6e44c2dab)) ROM_REGION16_BE( 0x1000, "cop8086", ROMREGION_ERASEFF ) ROM_LOAD16_WORD( "mc112.bin", 0x0000, 0x0100, CRC(dfd4cdbb) SHA1(a7831d415943fa86c417066807038bccbabb2573)) ROM_LOAD( "mc113.bin", 0x0100, 0x00ef, CRC(594bdf05) SHA1(36db911a27d930e023fa12683e86e9eecfffdba6)) ROM_REGION( 0x1000, "mb", ROMREGION_ERASEFF ) // mainboard unknown ROM_LOAD( "mc102.bin", 0x0000, 0x00fa, CRC(38e2abac) SHA1(0d7e730b46fc162764c69c51dea3bbe8337b1a7d)) ROM_LOAD( "mc101.bin", 0x0100, 0x00fa, CRC(caffb3a0) SHA1(36f5140b306565794c4d856e0c20589b8f2a37f4)) ROM_END /* Driver */ // YEAR NAME PARENT COMPAT MACHINE INPUT CLASS INIT COMPANY FULLNAME FLAGS COMP( 1984, dim68k, 0, 0, dim68k, dim68k, dim68k_state, empty_init, "Micro Craft", "Dimension 68000", MACHINE_NOT_WORKING | MACHINE_SUPPORTS_SAVE )