// license:GPL-2.0+ // copyright-holders:Kevin Thacker /*************************************************************************** NOTE: ****** Specbusy: press N, R, or E to boot ************* Spectrum/Inves/TK90X etc. memory map: CPU: 0000-3fff ROM 4000-ffff RAM Spectrum 128/+2/+2a/+3 memory map: CPU: 0000-3fff Banked ROM/RAM (banked rom only on 128/+2) 4000-7fff Banked RAM 8000-bfff Banked RAM c000-ffff Banked RAM TS2068 memory map: (Can't have both EXROM and DOCK active) The 8K EXROM can be loaded into multiple pages. CPU: 0000-1fff ROM / EXROM / DOCK (Cartridge) 2000-3fff ROM / EXROM / DOCK 4000-5fff \ 6000-7fff \ 8000-9fff |- RAM / EXROM / DOCK a000-bfff | c000-dfff / e000-ffff / Interrupts: Changes: 29/1/2000 KT - Implemented initial +3 emulation. 30/1/2000 KT - Improved input port decoding for reading and therefore correct keyboard handling for Spectrum and +3. 31/1/2000 KT - Implemented buzzer sound for Spectrum and +3. Implementation copied from Paul Daniel's Jupiter driver. Fixed screen display problems with dirty chars. Added support to load .Z80 snapshots. 48k support so far. 13/2/2000 KT - Added Interface II, Kempston, Fuller and Mikrogen joystick support. 17/2/2000 DJR - Added full key descriptions and Spectrum+ keys. Fixed Spectrum +3 keyboard problems. 17/2/2000 KT - Added tape loading from WAV/Changed from DAC to generic speaker code. 18/2/2000 KT - Added tape saving to WAV. 27/2/2000 KT - Took DJR's changes and added my changes. 27/2/2000 KT - Added disk image support to Spectrum +3 driver. 27/2/2000 KT - Added joystick I/O code to the Spectrum +3 I/O handler. 14/3/2000 DJR - Tape handling dipswitch. 26/3/2000 DJR - Snapshot files are now classified as snapshots not cartridges. 04/4/2000 DJR - Spectrum 128 / +2 Support. 13/4/2000 DJR - +4 Support (unofficial 48K hack). 13/4/2000 DJR - +2a Support (rom also used in +3 models). 13/4/2000 DJR - TK90X, TK95 and Inves support (48K clones). 21/4/2000 DJR - TS2068 and TC2048 support (TC2048 Supports extra video modes but doesn't have bank switching or sound chip). 09/5/2000 DJR - Spectrum +2 (France, Spain), +3 (Spain). 17/5/2000 DJR - Dipswitch to enable/disable disk drives on +3 and clones. 27/6/2000 DJR - Changed 128K/+3 port decoding (sound now works in Zub 128K). 06/8/2000 DJR - Fixed +3 Floppy support 10/2/2001 KT - Re-arranged code and split into each model emulated. Code is split into 48k, 128k, +3, tc2048 and ts2048 segments. 128k uses some of the functions in 48k, +3 uses some functions in 128, and tc2048/ts2048 use some of the functions in 48k. The code has been arranged so these functions come in some kind of "override" order, read functions changed to use READ8_HANDLER and write functions changed to use WRITE8_HANDLER. Added Scorpion256 preliminary. 18/6/2001 DJR - Added support for Interface 2 cartridges. xx/xx/2001 KS - TS-2068 sound fixed. Added support for DOCK cartridges for TS-2068. Added Spectrum 48k Psycho modified rom driver. Added UK-2086 driver. 23/12/2001 KS - 48k machines are now able to run code in screen memory. Programs which keep their code in screen memory like monitors, tape copiers, decrunchers, etc. works now. Fixed problem with interrupt vector set to 0xffff (much more 128k games works now). A useful used trick on the Spectrum is to set interrupt vector to 0xffff (using the table which contain 0xff's) and put a byte 0x18 hex, the opcode for JR, at this address. The first byte of the ROM is a 0xf3 (DI), so the JR will jump to 0xfff4, where a long JP to the actual interrupt routine is put. Due to unideal bankswitching in MAME this JP were to 0001 what causes Spectrum to reset. Fixing this problem made much more software running (i.e. Paperboy). Corrected frames per second value for 48k and 128k Sinclair machines. There are 50.08 frames per second for Spectrum 48k what gives 69888 cycles for each frame and 50.021 for Spectrum 128/+2/+2A/+3 what gives 70908 cycles for each frame. Remapped some Spectrum+ keys. Pressing F3 to reset was setting 0xf7 on keyboard input port. Problem occurred for snapshots of some programs where it was read as pressing key 4 (which is exit in Tapecopy by R. Dannhoefer for example). Added support to load .SP snapshots. Added .BLK tape images support. .BLK files are identical to .TAP ones, extension is an only difference. 08/03/2002 KS - #FF port emulation added. Arkanoid works now, but is not playable due to completely messed timings. Initialisation values used when determining which model is being emulated: 48K Spectrum doesn't use either port. 128K/+2 Bank switches with port 7ffd only. +3/+2a Bank switches with both ports. Notes: 1. No contented memory. 2. No hi-res colour effects (need contended memory first for accurate timing). 3. Multiface 1 and Interface 1 not supported. 4. Horace and the Spiders cartridge doesn't run properly. 5. Tape images not supported: .TZX, .SPC, .ITM, .PAN, .TAP(Warajevo), .VOC, .ZXS. 6. Snapshot images not supported: .ACH, .PRG, .RAW, .SEM, .SIT, .SNX, .ZX, .ZXS, .ZX82. 7. 128K emulation is not perfect - the 128K machines crash and hang while running quite a lot of games. 8. Disk errors occur on some +3 games. 9. Video hardware of all machines is timed incorrectly. 10. EXROM and HOME cartridges are not emulated. 11. The TK90X and TK95 roms output 0 to port #df on start up. 12. The purpose of this port is unknown (probably display mode as TS2068) and thus is not emulated. Very detailed infos about the ZX Spectrum +3e can be found at http://www.z88forever.org.uk/zxplus3e/ *******************************************************************************/ #include "emu.h" #include "includes/spectrum.h" #include "includes/spec128.h" #include "includes/timex.h" #include "cpu/z80/z80.h" #include "machine/beta.h" #include "sound/ay8910.h" #include "screen.h" #include "softlist.h" #include "formats/tzx_cas.h" /****************************************************************************************************/ /* TS2048 specific functions */ READ8_MEMBER( timex_state::ts2068_port_f4_r ) { return m_port_f4_data; } WRITE8_MEMBER( timex_state::ts2068_port_f4_w ) { m_port_f4_data = data; ts2068_update_memory(); } READ8_MEMBER( timex_state::ts2068_port_ff_r ) { return m_port_ff_data; } WRITE8_MEMBER( timex_state::ts2068_port_ff_w ) { /* Bits 0-2 Video Mode Select Bits 3-5 64 column mode ink/paper selection (See ts2068_vh_screenrefresh for more info) Bit 6 17ms Interrupt Inhibit Bit 7 Cartridge (0) / EXROM (1) select */ m_port_ff_data = data; ts2068_update_memory(); logerror("Port %04x write %02x\n", offset, data); } /******************************************************************* * * Bank switch between the 3 internal memory banks HOME, EXROM * and DOCK (Cartridges). The HOME bank contains 16K ROM in the * 0-16K area and 48K RAM fills the rest. The EXROM contains 8K * ROM and can appear in every 8K segment (ie 0-8K, 8-16K etc). * The DOCK is empty and is meant to be occupied by cartridges * you can plug into the cartridge dock of the 2068. * * The address space is divided into 8 8K chunks. Bit 0 of port * #f4 corresponds to the 0-8K chunk, bit 1 to the 8-16K chunk * etc. If the bit is 0 then the chunk is controlled by the HOME * bank. If the bit is 1 then the chunk is controlled by either * the DOCK or EXROM depending on bit 7 of port #ff. Note this * means that the Z80 can't see chunks of the EXROM and DOCK * at the same time. * *******************************************************************/ void timex_state::ts2068_update_memory() { uint8_t *messram = nullptr; if (m_ram) messram = m_ram->pointer(); address_space &space = m_maincpu->space(AS_PROGRAM); uint8_t *DOCK = nullptr; if (m_dock_crt) DOCK = m_dock_crt->base(); uint8_t *ExROM = memregion("maincpu")->base() + 0x014000; uint8_t *ChosenROM; if (m_port_f4_data & 0x01) { if (m_port_ff_data & 0x80) { space.install_read_bank(0x0000, 0x1fff, "bank1"); space.unmap_write(0x0000, 0x1fff); membank("bank1")->set_base(ExROM); logerror("0000-1fff EXROM\n"); } else { if (m_dock_cart_type == TIMEX_CART_DOCK) { membank("bank1")->set_base(DOCK); space.install_read_bank(0x0000, 0x1fff, "bank1"); if (m_ram_chunks & 0x01) space.install_write_bank(0x0000, 0x1fff, "bank9"); else space.unmap_write(0x0000, 0x1fff); } else { space.nop_read(0x0000, 0x1fff); space.unmap_write(0x0000, 0x1fff); } logerror("0000-1fff Cartridge\n"); } } else { ChosenROM = memregion("maincpu")->base() + 0x010000; membank("bank1")->set_base(ChosenROM); space.install_read_bank(0x0000, 0x1fff, "bank1"); space.unmap_write(0x0000, 0x1fff); logerror("0000-1fff HOME\n"); } if (m_port_f4_data & 0x02) { if (m_port_ff_data & 0x80) { membank("bank2")->set_base(ExROM); space.install_read_bank(0x2000, 0x3fff, "bank2"); space.unmap_write(0x2000, 0x3fff); logerror("2000-3fff EXROM\n"); } else { if (m_dock_cart_type == TIMEX_CART_DOCK) { membank("bank2")->set_base(DOCK+0x2000); space.install_read_bank(0x2000, 0x3fff, "bank2"); if (m_ram_chunks & 0x02) space.install_write_bank(0x2000, 0x3fff, "bank10"); else space.unmap_write(0x2000, 0x3fff); } else { space.nop_read(0x2000, 0x3fff); space.unmap_write(0x2000, 0x3fff); } logerror("2000-3fff Cartridge\n"); } } else { ChosenROM = memregion("maincpu")->base() + 0x012000; membank("bank2")->set_base(ChosenROM); space.install_read_bank(0x2000, 0x3fff, "bank2"); space.unmap_write(0x2000, 0x3fff); logerror("2000-3fff HOME\n"); } if (m_port_f4_data & 0x04) { if (m_port_ff_data & 0x80) { membank("bank3")->set_base(ExROM); space.install_read_bank(0x4000, 0x5fff, "bank3"); space.unmap_write(0x4000, 0x5fff); logerror("4000-5fff EXROM\n"); } else { if (m_dock_cart_type == TIMEX_CART_DOCK) { membank("bank3")->set_base(DOCK+0x4000); space.install_read_bank(0x4000, 0x5fff, "bank3"); if (m_ram_chunks & 0x04) space.install_write_bank(0x4000, 0x5fff, "bank11"); else space.unmap_write(0x4000, 0x5fff); } else { space.nop_read(0x4000, 0x5fff); space.unmap_write(0x4000, 0x5fff); } logerror("4000-5fff Cartridge\n"); } } else { membank("bank3")->set_base(messram); membank("bank11")->set_base(messram); space.install_read_bank(0x4000, 0x5fff, "bank3"); space.install_write_bank(0x4000, 0x5fff, "bank11"); logerror("4000-5fff RAM\n"); } if (m_port_f4_data & 0x08) { if (m_port_ff_data & 0x80) { membank("bank4")->set_base(ExROM); space.install_read_bank(0x6000, 0x7fff, "bank4"); space.unmap_write(0x6000, 0x7fff); logerror("6000-7fff EXROM\n"); } else { if (m_dock_cart_type == TIMEX_CART_DOCK) { membank("bank4")->set_base(DOCK+0x6000); space.install_read_bank(0x6000, 0x7fff, "bank4"); if (m_ram_chunks & 0x08) space.install_write_bank(0x6000, 0x7fff, "bank12"); else space.unmap_write(0x6000, 0x7fff); } else { space.nop_read(0x6000, 0x7fff); space.unmap_write(0x6000, 0x7fff); } logerror("6000-7fff Cartridge\n"); } } else { membank("bank4")->set_base(messram + 0x2000); membank("bank12")->set_base(messram + 0x2000); space.install_read_bank(0x6000, 0x7fff, "bank4"); space.install_write_bank(0x6000, 0x7fff, "bank12"); logerror("6000-7fff RAM\n"); } if (m_port_f4_data & 0x10) { if (m_port_ff_data & 0x80) { membank("bank5")->set_base(ExROM); space.install_read_bank(0x8000, 0x9fff, "bank5"); space.unmap_write(0x8000, 0x9fff); logerror("8000-9fff EXROM\n"); } else { if (m_dock_cart_type == TIMEX_CART_DOCK) { membank("bank5")->set_base(DOCK+0x8000); space.install_read_bank(0x8000, 0x9fff,"bank5"); if (m_ram_chunks & 0x10) space.install_write_bank(0x8000, 0x9fff,"bank13"); else space.unmap_write(0x8000, 0x9fff); } else { space.nop_read(0x8000, 0x9fff); space.unmap_write(0x8000, 0x9fff); } logerror("8000-9fff Cartridge\n"); } } else { membank("bank5")->set_base(messram + 0x4000); membank("bank13")->set_base(messram + 0x4000); space.install_read_bank(0x8000, 0x9fff,"bank5"); space.install_write_bank(0x8000, 0x9fff,"bank13"); logerror("8000-9fff RAM\n"); } if (m_port_f4_data & 0x20) { if (m_port_ff_data & 0x80) { membank("bank6")->set_base(ExROM); space.install_read_bank(0xa000, 0xbfff, "bank6"); space.unmap_write(0xa000, 0xbfff); logerror("a000-bfff EXROM\n"); } else { if (m_dock_cart_type == TIMEX_CART_DOCK) { membank("bank6")->set_base(DOCK+0xa000); space.install_read_bank(0xa000, 0xbfff, "bank6"); if (m_ram_chunks & 0x20) space.install_write_bank(0xa000, 0xbfff, "bank14"); else space.unmap_write(0xa000, 0xbfff); } else { space.nop_read(0xa000, 0xbfff); space.unmap_write(0xa000, 0xbfff); } logerror("a000-bfff Cartridge\n"); } } else { membank("bank6")->set_base(messram + 0x6000); membank("bank14")->set_base(messram + 0x6000); space.install_read_bank(0xa000, 0xbfff, "bank6"); space.install_write_bank(0xa000, 0xbfff, "bank14"); logerror("a000-bfff RAM\n"); } if (m_port_f4_data & 0x40) { if (m_port_ff_data & 0x80) { membank("bank7")->set_base(ExROM); space.install_read_bank(0xc000, 0xdfff, "bank7"); space.unmap_write(0xc000, 0xdfff); logerror("c000-dfff EXROM\n"); } else { if (m_dock_cart_type == TIMEX_CART_DOCK) { membank("bank7")->set_base(DOCK+0xc000); space.install_read_bank(0xc000, 0xdfff, "bank7"); if (m_ram_chunks & 0x40) space.install_write_bank(0xc000, 0xdfff, "bank15"); else space.unmap_write(0xc000, 0xdfff); } else { space.nop_read(0xc000, 0xdfff); space.unmap_write(0xc000, 0xdfff); } logerror("c000-dfff Cartridge\n"); } } else { membank("bank7")->set_base(messram + 0x8000); membank("bank15")->set_base(messram + 0x8000); space.install_read_bank(0xc000, 0xdfff, "bank7"); space.install_write_bank(0xc000, 0xdfff, "bank15"); logerror("c000-dfff RAM\n"); } if (m_port_f4_data & 0x80) { if (m_port_ff_data & 0x80) { membank("bank8")->set_base(ExROM); space.install_read_bank(0xe000, 0xffff, "bank8"); space.unmap_write(0xe000, 0xffff); logerror("e000-ffff EXROM\n"); } else { if (m_dock_cart_type == TIMEX_CART_DOCK) { membank("bank8")->set_base(DOCK+0xe000); space.install_read_bank(0xe000, 0xffff, "bank8"); if (m_ram_chunks & 0x80) space.install_write_bank(0xe000, 0xffff, "bank16"); else space.unmap_write(0xe000, 0xffff); } else { space.nop_read(0xe000, 0xffff); space.unmap_write(0xe000, 0xffff); } logerror("e000-ffff Cartridge\n"); } } else { membank("bank8")->set_base(messram + 0xa000); membank("bank16")->set_base(messram + 0xa000); space.install_read_bank(0xe000, 0xffff, "bank8"); space.install_write_bank(0xe000, 0xffff, "bank16"); logerror("e000-ffff RAM\n"); } } void timex_state::ts2068_io(address_map &map) { map(0xf4, 0xf4).rw(FUNC(timex_state::ts2068_port_f4_r), FUNC(timex_state::ts2068_port_f4_w)).mirror(0xff00); map(0xf5, 0xf5).w("ay8912", FUNC(ay8910_device::address_w)).mirror(0xff00); map(0xf6, 0xf6).rw("ay8912", FUNC(ay8910_device::data_r), FUNC(ay8910_device::data_w)).mirror(0xff00); map(0xfe, 0xfe).rw(FUNC(timex_state::spectrum_port_fe_r), FUNC(timex_state::spectrum_port_fe_w)).select(0xff00); map(0xff, 0xff).rw(FUNC(timex_state::ts2068_port_ff_r), FUNC(timex_state::ts2068_port_ff_w)).mirror(0xff00); } void timex_state::ts2068_mem(address_map &map) { map(0x0000, 0x1fff).bankr("bank1").bankw("bank9"); map(0x2000, 0x3fff).bankr("bank2").bankw("bank10"); map(0x4000, 0x5fff).bankr("bank3").bankw("bank11"); map(0x6000, 0x7fff).bankr("bank4").bankw("bank12"); map(0x8000, 0x9fff).bankr("bank5").bankw("bank13"); map(0xa000, 0xbfff).bankr("bank6").bankw("bank14"); map(0xc000, 0xdfff).bankr("bank7").bankw("bank15"); map(0xe000, 0xffff).bankr("bank8").bankw("bank16"); } MACHINE_RESET_MEMBER(timex_state,ts2068) { m_port_ff_data = 0; m_port_f4_data = 0; std::string region_tag; m_dock_crt = memregion(region_tag.assign(m_dock->tag()).append(GENERIC_ROM_REGION_TAG).c_str()); m_dock_cart_type = m_dock_crt ? TIMEX_CART_DOCK : TIMEX_CART_NONE; ts2068_update_memory(); MACHINE_RESET_CALL_MEMBER(spectrum); } /****************************************************************************************************/ /* TC2048 specific functions */ WRITE8_MEMBER( timex_state::tc2048_port_ff_w ) { m_port_ff_data = data; logerror("Port %04x write %02x\n", offset, data); } void timex_state::tc2048_io(address_map &map) { map(0x00, 0x00).rw(FUNC(timex_state::spectrum_port_fe_r), FUNC(timex_state::spectrum_port_fe_w)).select(0xfffe); map(0xff, 0xff).rw(FUNC(timex_state::ts2068_port_ff_r), FUNC(timex_state::tc2048_port_ff_w)).mirror(0xff00); } void timex_state::tc2048_mem(address_map &map) { map(0x0000, 0x3fff).rom(); map(0x4000, 0xffff).bankr("bank1").bankw("bank2"); } MACHINE_RESET_MEMBER(timex_state,tc2048) { uint8_t *messram = m_ram->pointer(); membank("bank1")->set_base(messram); membank("bank2")->set_base(messram); m_port_ff_data = 0; m_port_f4_data = -1; MACHINE_RESET_CALL_MEMBER(spectrum); } DEVICE_IMAGE_LOAD_MEMBER( timex_state::cart_load ) { uint32_t size = m_dock->common_get_size("rom"); if (!image.loaded_through_softlist()) { uint8_t *DOCK; int chunks_in_file = 0; std::vector header; header.resize(9); if (size % 0x2000 != 9) { image.seterror(IMAGE_ERROR_UNSPECIFIED, "File corrupted"); return image_init_result::FAIL; } if (!image.loaded_through_softlist()) { image.seterror(IMAGE_ERROR_UNSPECIFIED, "Loading from softlist is not supported yet"); return image_init_result::FAIL; } m_dock->rom_alloc(0x10000, GENERIC_ROM8_WIDTH, ENDIANNESS_LITTLE); DOCK = m_dock->get_rom_base(); // check header image.fread(&header[0], 9); for (int i = 0; i < 8; i++) if (header[i + 1] & 0x02) chunks_in_file++; if (chunks_in_file * 0x2000 + 0x09 != size) { image.seterror(IMAGE_ERROR_UNSPECIFIED, "File corrupted"); return image_init_result::FAIL; } switch (header[0]) { case 0x00: logerror ("DOCK cart\n"); m_ram_chunks = 0; for (int i = 0; i < 8; i++) { m_ram_chunks = m_ram_chunks | ((header[i + 1] & 0x01) << i); if (header[i + 1] & 0x02) image.fread(DOCK + i * 0x2000, 0x2000); else { if (header[i + 1] & 0x01) memset(DOCK + i * 0x2000, 0x00, 0x2000); else memset(DOCK + i * 0x2000, 0xff, 0x2000); } } break; default: image.seterror(IMAGE_ERROR_UNSPECIFIED, "Cart type not supported"); return image_init_result::FAIL; } logerror ("Cart loaded [Chunks %02x]\n", m_ram_chunks); } else { m_dock->rom_alloc(size, GENERIC_ROM8_WIDTH, ENDIANNESS_LITTLE); memcpy(m_dock->get_rom_base(), image.get_software_region("rom"), size); } return image_init_result::PASS; } /* F4 Character Displayer - tc2048 code is inherited from the spectrum */ static const gfx_layout ts2068_charlayout = { 8, 8, /* 8 x 8 characters */ 96, /* 96 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 /* every char takes 8 bytes */ }; static GFXDECODE_START( gfx_ts2068 ) GFXDECODE_ENTRY( "maincpu", 0x13d00, ts2068_charlayout, 0, 8 ) GFXDECODE_END void timex_state::ts2068(machine_config &config) { spectrum_128(config); Z80(config.replace(), m_maincpu, XTAL(14'112'000)/4); /* From Schematic; 3.528 MHz */ m_maincpu->set_addrmap(AS_PROGRAM, &timex_state::ts2068_mem); m_maincpu->set_addrmap(AS_IO, &timex_state::ts2068_io); m_maincpu->set_vblank_int("screen", FUNC(timex_state::spec_interrupt)); config.set_maximum_quantum(attotime::from_hz(60)); MCFG_MACHINE_RESET_OVERRIDE(timex_state, ts2068 ) /* video hardware */ m_screen->set_refresh_hz(60); m_screen->set_size(TS2068_SCREEN_WIDTH, TS2068_SCREEN_HEIGHT); m_screen->set_visarea(0, TS2068_SCREEN_WIDTH-1, 0, TS2068_SCREEN_HEIGHT-1); m_screen->set_screen_update(FUNC(timex_state::screen_update_ts2068)); m_screen->screen_vblank().set(FUNC(timex_state::screen_vblank_timex)); subdevice("gfxdecode")->set_info(gfx_ts2068); MCFG_VIDEO_START_OVERRIDE(timex_state, ts2068 ) /* sound */ AY8912(config.replace(), "ay8912", XTAL(14'112'000)/8).add_route(ALL_OUTPUTS, "mono", 0.25); /* From Schematic; 1.764 MHz */ /* cartridge */ GENERIC_CARTSLOT(config, "dockslot", generic_plain_slot, "timex_cart", "dck,bin").set_device_load(FUNC(timex_state::cart_load)); /* Software lists */ SOFTWARE_LIST(config, "cart_list").set_original("timex_dock"); /* internal ram */ m_ram->set_default_size("48K"); } void timex_state::uk2086(machine_config &config) { ts2068(config); m_screen->set_refresh_hz(50); } void timex_state::tc2048(machine_config &config) { spectrum(config); m_maincpu->set_addrmap(AS_PROGRAM, &timex_state::tc2048_mem); m_maincpu->set_addrmap(AS_IO, &timex_state::tc2048_io); MCFG_MACHINE_RESET_OVERRIDE(timex_state, tc2048 ) /* video hardware */ m_screen->set_refresh_hz(50); m_screen->set_size(TS2068_SCREEN_WIDTH, SPEC_SCREEN_HEIGHT); m_screen->set_visarea(0, TS2068_SCREEN_WIDTH-1, 0, SPEC_SCREEN_HEIGHT-1); m_screen->set_screen_update(FUNC(timex_state::screen_update_tc2048)); m_screen->screen_vblank().set(FUNC(timex_state::screen_vblank_timex)); MCFG_VIDEO_START_OVERRIDE(timex_state, spectrum_128 ) /* internal ram */ m_ram->set_default_size("48K"); } /*************************************************************************** Game driver(s) ***************************************************************************/ ROM_START(tc2048) ROM_REGION(0x10000,"maincpu",0) ROM_LOAD("tc2048.rom",0x0000,0x4000, CRC(f1b5fa67) SHA1(febb2d495b6eda7cdcb4074935d6e9d9f328972d)) ROM_END ROM_START(ts2068) ROM_REGION(0x16000,"maincpu",0) ROM_LOAD("ts2068_h.rom",0x10000,0x4000, CRC(bf44ec3f) SHA1(1446cb2780a9dedf640404a639fa3ae518b2d8aa)) ROM_LOAD("ts2068_x.rom",0x14000,0x2000, CRC(ae16233a) SHA1(7e265a2c1f621ed365ea23bdcafdedbc79c1299c)) ROM_END ROM_START(uk2086) ROM_REGION(0x16000,"maincpu",0) ROM_LOAD("uk2086_h.rom",0x10000,0x4000, CRC(5ddc0ca2) SHA1(1d525fe5cdc82ab46767f665ad735eb5363f1f51)) ROM_LOAD("ts2068_x.rom",0x14000,0x2000, CRC(ae16233a) SHA1(7e265a2c1f621ed365ea23bdcafdedbc79c1299c)) ROM_END // YEAR NAME PARENT COMPAT MACHINE INPUT CLASS INIT COMPANY FULLNAME FLAGS COMP( 1984, tc2048, spectrum, 0, tc2048, spectrum, timex_state, empty_init, "Timex of Portugal", "TC-2048" , 0 ) COMP( 1983, ts2068, spectrum, 0, ts2068, spectrum, timex_state, empty_init, "Timex Sinclair", "TS-2068" , 0 ) COMP( 1986, uk2086, spectrum, 0, uk2086, spectrum, timex_state, empty_init, "Unipolbrit", "UK-2086 ver. 1.2" , 0 )