/*
* 86Box A hypervisor and IBM PC system emulator that specializes in
* running old operating systems and software designed for IBM
* PC systems and compatibles from 1981 through fairly recent
* system designs based on the PCI bus.
*
* This file is part of the 86Box distribution.
*
* Paradise VGA emulation
* PC2086, PC3086 use PVGA1A
* MegaPC uses W90C11A
*
*
*
* Authors: Sarah Walker,
* Miran Grca,
*
* Copyright 2008-2019 Sarah Walker.
* Copyright 2016-2019 Miran Grca.
*/
#include
#include
#include
#include
#include
#include <86box/86box.h>
#include <86box/io.h>
#include <86box/timer.h>
#include <86box/mem.h>
#include <86box/rom.h>
#include <86box/device.h>
#include <86box/video.h>
#include <86box/vid_svga.h>
#include <86box/vid_svga_render.h>
typedef struct paradise_t {
svga_t svga;
rom_t bios_rom;
uint8_t bank_mask;
enum {
PVGA1A = 0,
WD90C11,
WD90C30
} type;
uint32_t vram_mask;
uint32_t read_bank[4], write_bank[4];
int interlace;
int check;
struct {
uint8_t reg_block_ptr;
uint8_t reg_idx;
uint8_t disable_autoinc;
uint16_t int_status;
uint16_t blt_ctrl1, blt_ctrl2;
uint16_t srclow, srchigh;
uint16_t dstlow, dsthigh;
uint32_t srcaddr, dstaddr;
int invalid_block;
} accel;
} paradise_t;
static video_timings_t timing_paradise_pvga1a = { .type = VIDEO_ISA, .write_b = 6, .write_w = 8, .write_l = 16, .read_b = 6, .read_w = 8, .read_l = 16 };
static video_timings_t timing_paradise_wd90c = { .type = VIDEO_ISA, .write_b = 3, .write_w = 3, .write_l = 6, .read_b = 5, .read_w = 5, .read_l = 10 };
void paradise_remap(paradise_t *paradise);
uint8_t
paradise_in(uint16_t addr, void *priv)
{
paradise_t *paradise = (paradise_t *) priv;
svga_t *svga = ¶dise->svga;
uint8_t temp = 0;
if (((addr & 0xfff0) == 0x3d0 || (addr & 0xfff0) == 0x3b0) && !(svga->miscout & 1))
addr ^= 0x60;
switch (addr) {
case 0x3c5:
if (svga->seqaddr > 7) {
if (paradise->type < WD90C11 || svga->seqregs[6] != 0x48)
return 0xff;
if (svga->seqaddr > 0x12)
return 0xff;
return svga->seqregs[svga->seqaddr & 0x1f];
}
break;
case 0x3c6:
case 0x3c7:
case 0x3c8:
case 0x3c9:
if (paradise->type == WD90C30)
return sc1148x_ramdac_in(addr, 0, svga->ramdac, svga);
return svga_in(addr, svga);
case 0x3cf:
if (svga->gdcaddr >= 9 && svga->gdcaddr <= 0x0e) {
if (svga->gdcreg[0x0f] & 0x10)
return 0xff;
}
switch (svga->gdcaddr) {
case 0x0b:
temp = svga->gdcreg[0x0b];
if (paradise->type == WD90C30) {
if (paradise->vram_mask == ((512 << 10) - 1)) {
temp &= ~0x40;
temp |= 0xc0;
}
}
return temp;
case 0x0f:
return (svga->gdcreg[0x0f] & 0x17) | 0x80;
default:
break;
}
break;
case 0x3D4:
return svga->crtcreg;
case 0x3D5:
if ((paradise->type == PVGA1A) && (svga->crtcreg & 0x20))
return 0xff;
if (svga->crtcreg > 0x29 && svga->crtcreg < 0x30 && (svga->crtc[0x29] & 0x88) != 0x80)
return 0xff;
return svga->crtc[svga->crtcreg];
default:
break;
}
return svga_in(addr, svga);
}
void
paradise_out(uint16_t addr, uint8_t val, void *priv)
{
paradise_t *paradise = (paradise_t *) priv;
svga_t *svga = ¶dise->svga;
uint8_t old;
if (paradise->vram_mask <= ((512 << 10) - 1))
paradise->bank_mask = 0x7f;
else
paradise->bank_mask = 0xff;
if (((addr & 0xfff0) == 0x3d0 || (addr & 0xfff0) == 0x3b0) && !(svga->miscout & 1))
addr ^= 0x60;
switch (addr) {
case 0x3c5:
if (svga->seqaddr > 7) {
if (paradise->type < WD90C11 || svga->seqregs[6] != 0x48)
return;
svga->seqregs[svga->seqaddr & 0x1f] = val;
if (svga->seqaddr == 0x11) {
paradise_remap(paradise);
}
return;
}
break;
case 0x3c6:
case 0x3c7:
case 0x3c8:
case 0x3c9:
if (paradise->type == WD90C30)
sc1148x_ramdac_out(addr, 0, val, svga->ramdac, svga);
else
svga_out(addr, val, svga);
return;
case 0x3cf:
if (svga->gdcaddr >= 9 && svga->gdcaddr <= 0x0e) {
if ((svga->gdcreg[0x0f] & 7) != 5)
return;
}
old = svga->gdcreg[svga->gdcaddr];
switch (svga->gdcaddr) {
case 6:
if (old ^ (val & 0x0c)) {
switch (val & 0x0c) {
case 0x00: /*128k at A0000*/
mem_mapping_set_addr(&svga->mapping, 0xa0000, 0x20000);
svga->banked_mask = 0xffff;
break;
case 0x04: /*64k at A0000*/
mem_mapping_set_addr(&svga->mapping, 0xa0000, 0x10000);
svga->banked_mask = 0xffff;
break;
case 0x08: /*32k at B0000*/
mem_mapping_set_addr(&svga->mapping, 0xb0000, 0x08000);
svga->banked_mask = 0x7fff;
break;
case 0x0c: /*32k at B8000*/
mem_mapping_set_addr(&svga->mapping, 0xb8000, 0x08000);
svga->banked_mask = 0x7fff;
break;
default:
break;
}
svga->gdcreg[6] = val;
paradise_remap(paradise);
}
return;
case 9:
case 0x0a:
svga->gdcreg[svga->gdcaddr] = val & paradise->bank_mask;
paradise_remap(paradise);
return;
case 0x0b:
svga->gdcreg[0x0b] = val;
paradise_remap(paradise);
return;
case 0x0e:
svga->gdcreg[0x0e] = val;
svga_recalctimings(svga);
return;
default:
break;
}
break;
case 0x3D4:
svga->crtcreg = val & 0x3f;
return;
case 0x3D5:
if ((paradise->type == PVGA1A) && (svga->crtcreg & 0x20))
return;
if ((svga->crtcreg < 7) && (svga->crtc[0x11] & 0x80))
return;
if ((svga->crtcreg == 7) && (svga->crtc[0x11] & 0x80))
val = (svga->crtc[7] & ~0x10) | (val & 0x10);
if (svga->crtcreg > 0x29 && (svga->crtc[0x29] & 7) != 5)
return;
if (svga->crtcreg >= 0x31 && svga->crtcreg <= 0x37)
return;
old = svga->crtc[svga->crtcreg];
svga->crtc[svga->crtcreg] = val;
if (old != val) {
if (svga->crtcreg < 0xe || svga->crtcreg > 0x10) {
if ((svga->crtcreg == 0xc) || (svga->crtcreg == 0xd)) {
svga->fullchange = 3;
svga->ma_latch = ((svga->crtc[0xc] << 8) | svga->crtc[0xd]) + ((svga->crtc[8] & 0x60) >> 5);
} else {
svga->fullchange = changeframecount;
svga_recalctimings(svga);
}
}
}
break;
default:
break;
}
svga_out(addr, val, svga);
}
void
paradise_remap(paradise_t *paradise)
{
svga_t *svga = ¶dise->svga;
paradise->check = 0;
if (svga->seqregs[0x11] & 0x80) {
paradise->read_bank[0] = paradise->read_bank[2] = svga->gdcreg[9] << 12;
paradise->read_bank[1] = paradise->read_bank[3] = (svga->gdcreg[9] << 12) + ((svga->gdcreg[6] & 0x08) ? 0 : 0x8000);
paradise->write_bank[0] = paradise->write_bank[2] = svga->gdcreg[0x0a] << 12;
paradise->write_bank[1] = paradise->write_bank[3] = (svga->gdcreg[0x0a] << 12) + ((svga->gdcreg[6] & 0x08) ? 0 : 0x8000);
} else if (svga->gdcreg[0x0b] & 0x08) {
if (svga->gdcreg[6] & 0x0c) {
paradise->read_bank[0] = paradise->read_bank[2] = svga->gdcreg[0x0a] << 12;
paradise->write_bank[0] = paradise->write_bank[2] = svga->gdcreg[0x0a] << 12;
paradise->read_bank[1] = paradise->read_bank[3] = (svga->gdcreg[9] << 12) + ((svga->gdcreg[6] & 0x08) ? 0 : 0x8000);
paradise->write_bank[1] = paradise->write_bank[3] = (svga->gdcreg[9] << 12) + ((svga->gdcreg[6] & 0x08) ? 0 : 0x8000);
} else {
paradise->read_bank[0] = paradise->write_bank[0] = svga->gdcreg[0x0a] << 12;
paradise->read_bank[1] = paradise->write_bank[1] = (svga->gdcreg[0xa] << 12) + ((svga->gdcreg[6] & 0x08) ? 0 : 0x8000);
paradise->read_bank[2] = paradise->write_bank[2] = svga->gdcreg[9] << 12;
paradise->read_bank[3] = paradise->write_bank[3] = (svga->gdcreg[9] << 12) + ((svga->gdcreg[6] & 0x08) ? 0 : 0x8000);
}
} else {
paradise->read_bank[0] = paradise->read_bank[2] = svga->gdcreg[9] << 12;
paradise->read_bank[1] = paradise->read_bank[3] = (svga->gdcreg[9] << 12) + ((svga->gdcreg[6] & 0x08) ? 0 : 0x8000);
paradise->write_bank[0] = paradise->write_bank[2] = svga->gdcreg[9] << 12;
paradise->write_bank[1] = paradise->write_bank[3] = (svga->gdcreg[9] << 12) + ((svga->gdcreg[6] & 0x08) ? 0 : 0x8000);
}
if (((svga->gdcreg[0x0b] & 0xc0) == 0xc0) && !svga->chain4 && (svga->crtc[0x14] & 0x40) && ((svga->gdcreg[6] >> 2) & 3) == 1)
paradise->check = 1;
if (paradise->bank_mask == 0x7f) {
paradise->read_bank[1] &= 0x7ffff;
paradise->write_bank[1] &= 0x7ffff;
}
}
void
paradise_recalctimings(svga_t *svga)
{
const paradise_t *paradise = (paradise_t *) svga->priv;
if (paradise->type == WD90C30) {
if (svga->crtc[0x3e] & 0x01)
svga->vtotal |= 0x400;
if (svga->crtc[0x3e] & 0x02)
svga->dispend |= 0x400;
if (svga->crtc[0x3e] & 0x04)
svga->vsyncstart |= 0x400;
if (svga->crtc[0x3e] & 0x08)
svga->vblankstart |= 0x400;
if (svga->crtc[0x3e] & 0x10)
svga->split |= 0x400;
svga->interlace = !!(svga->crtc[0x2d] & 0x20);
if (!svga->interlace && !(svga->gdcreg[0x0e] & 0x01) && (svga->hdisp >= 1024) && ((svga->gdcreg[5] & 0x60) == 0) && (svga->miscout >= 0x27) && (svga->miscout <= 0x2f) && ((svga->gdcreg[6] & 1) || (svga->attrregs[0x10] & 1))) { /*Horrible tweak to re-enable the interlace after returning to
a windowed DOS box in Win3.x*/
svga->interlace = 1;
}
}
if (paradise->type < WD90C30) {
if ((svga->gdcreg[6] & 1) || (svga->attrregs[0x10] & 1)) {
if ((svga->bpp >= 8) && (svga->gdcreg[0x0e] & 0x01)) {
svga->render = svga_render_8bpp_highres;
}
}
} else {
if ((svga->gdcreg[6] & 1) || (svga->attrregs[0x10] & 1)) {
if ((svga->bpp >= 8) && (svga->gdcreg[0x0e] & 0x01)) {
if (svga->bpp == 16) {
svga->render = svga_render_16bpp_highres;
svga->hdisp >>= 1;
if (svga->hdisp == 788)
svga->hdisp += 12;
if (svga->hdisp == 800)
svga->ma_latch -= 3;
} else if (svga->bpp == 15) {
svga->render = svga_render_15bpp_highres;
svga->hdisp >>= 1;
if (svga->hdisp == 788)
svga->hdisp += 12;
if (svga->hdisp == 800)
svga->ma_latch -= 3;
} else {
svga->render = svga_render_8bpp_highres;
}
}
}
}
svga->vram_display_mask = (svga->crtc[0x2f] & 0x02) ? 0x3ffff : paradise->vram_mask;
}
static void
paradise_write(uint32_t addr, uint8_t val, void *priv)
{
paradise_t *paradise = (paradise_t *) priv;
svga_t *svga = ¶dise->svga;
uint32_t prev_addr;
uint32_t prev_addr2;
if (!(svga->gdcreg[5] & 0x40)) {
svga_write(addr, val, svga);
return;
}
addr = (addr & 0x7fff) + paradise->write_bank[(addr >> 15) & 3];
/*Could be done in a better way but it works.*/
if (svga->gdcreg[0x0e] & 0x01) {
if (paradise->check) {
prev_addr = addr & 3;
prev_addr2 = addr & 0xfffc;
if ((addr & 3) == 3) {
if ((addr & 0x30000) == 0x20000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
else if ((addr & 0x30000) == 0x10000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
else if ((addr & 0x30000) == 0x00000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
} else if ((addr & 3) == 2) {
if ((addr & 0x30000) == 0x30000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
else if ((addr & 0x30000) == 0x10000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
else if ((addr & 0x30000) == 0x00000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
} else if ((addr & 3) == 1) {
if ((addr & 0x30000) == 0x30000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
else if ((addr & 0x30000) == 0x20000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
else if ((addr & 0x30000) == 0x00000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
} else if ((addr & 3) == 0) {
if ((addr & 0x30000) == 0x30000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
else if ((addr & 0x30000) == 0x20000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
else if ((addr & 0x30000) == 0x10000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
}
}
}
svga_write_linear(addr, val, svga);
}
static void
paradise_writew(uint32_t addr, uint16_t val, void *priv)
{
paradise_t *paradise = (paradise_t *) priv;
svga_t *svga = ¶dise->svga;
uint32_t prev_addr;
uint32_t prev_addr2;
if (!(svga->gdcreg[5] & 0x40)) {
svga_writew(addr, val, svga);
return;
}
addr = (addr & 0x7fff) + paradise->write_bank[(addr >> 15) & 3];
/*Could be done in a better way but it works.*/
if (svga->gdcreg[0x0e] & 0x01) {
if (paradise->check) {
prev_addr = addr & 3;
prev_addr2 = addr & 0xfffc;
if ((addr & 3) == 3) {
if ((addr & 0x30000) == 0x20000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
else if ((addr & 0x30000) == 0x10000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
else if ((addr & 0x30000) == 0x00000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
} else if ((addr & 3) == 2) {
if ((addr & 0x30000) == 0x30000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
else if ((addr & 0x30000) == 0x10000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
else if ((addr & 0x30000) == 0x00000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
} else if ((addr & 3) == 1) {
if ((addr & 0x30000) == 0x30000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
else if ((addr & 0x30000) == 0x20000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
else if ((addr & 0x30000) == 0x00000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
} else if ((addr & 3) == 0) {
if ((addr & 0x30000) == 0x30000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
else if ((addr & 0x30000) == 0x20000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
else if ((addr & 0x30000) == 0x10000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
}
}
}
svga_writew_linear(addr, val, svga);
}
static uint8_t
paradise_read(uint32_t addr, void *priv)
{
paradise_t *paradise = (paradise_t *) priv;
svga_t *svga = ¶dise->svga;
uint32_t prev_addr;
uint32_t prev_addr2;
if (!(svga->gdcreg[5] & 0x40)) {
return svga_read(addr, svga);
}
addr = (addr & 0x7fff) + paradise->read_bank[(addr >> 15) & 3];
/*Could be done in a better way but it works.*/
if (svga->gdcreg[0x0e] & 0x01) {
if (paradise->check) {
prev_addr = addr & 3;
prev_addr2 = addr & 0xfffc;
if ((addr & 3) == 3) {
if ((addr & 0x30000) == 0x20000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
else if ((addr & 0x30000) == 0x10000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
else if ((addr & 0x30000) == 0x00000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
} else if ((addr & 3) == 2) {
if ((addr & 0x30000) == 0x30000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
else if ((addr & 0x30000) == 0x10000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
else if ((addr & 0x30000) == 0x00000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
} else if ((addr & 3) == 1) {
if ((addr & 0x30000) == 0x30000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
else if ((addr & 0x30000) == 0x20000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
else if ((addr & 0x30000) == 0x00000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
} else if ((addr & 3) == 0) {
if ((addr & 0x30000) == 0x30000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
else if ((addr & 0x30000) == 0x20000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
else if ((addr & 0x30000) == 0x10000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
}
}
}
return svga_read_linear(addr, svga);
}
static uint16_t
paradise_readw(uint32_t addr, void *priv)
{
paradise_t *paradise = (paradise_t *) priv;
svga_t *svga = ¶dise->svga;
uint32_t prev_addr;
uint32_t prev_addr2;
if (!(svga->gdcreg[5] & 0x40)) {
return svga_readw(addr, svga);
}
addr = (addr & 0x7fff) + paradise->read_bank[(addr >> 15) & 3];
/*Could be done in a better way but it works.*/
if (svga->gdcreg[0x0e] & 0x01) {
if (paradise->check) {
prev_addr = addr & 3;
prev_addr2 = addr & 0xfffc;
if ((addr & 3) == 3) {
if ((addr & 0x30000) == 0x20000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
else if ((addr & 0x30000) == 0x10000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
else if ((addr & 0x30000) == 0x00000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
} else if ((addr & 3) == 2) {
if ((addr & 0x30000) == 0x30000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
else if ((addr & 0x30000) == 0x10000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
else if ((addr & 0x30000) == 0x00000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
} else if ((addr & 3) == 1) {
if ((addr & 0x30000) == 0x30000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
else if ((addr & 0x30000) == 0x20000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
else if ((addr & 0x30000) == 0x00000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
} else if ((addr & 3) == 0) {
if ((addr & 0x30000) == 0x30000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
else if ((addr & 0x30000) == 0x20000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
else if ((addr & 0x30000) == 0x10000)
addr = (addr >> 16) | (prev_addr << 16) | prev_addr2;
}
}
}
return svga_readw_linear(addr, svga);
}
void *
paradise_init(const device_t *info, uint32_t memsize)
{
paradise_t *paradise = malloc(sizeof(paradise_t));
svga_t *svga = ¶dise->svga;
memset(paradise, 0, sizeof(paradise_t));
if (info->local == PVGA1A)
video_inform(VIDEO_FLAG_TYPE_SPECIAL, &timing_paradise_pvga1a);
else
video_inform(VIDEO_FLAG_TYPE_SPECIAL, &timing_paradise_wd90c);
switch (info->local) {
case PVGA1A:
svga_init(info, svga, paradise, memsize, /*256kb*/
paradise_recalctimings,
paradise_in, paradise_out,
NULL,
NULL);
paradise->vram_mask = memsize - 1;
svga->decode_mask = memsize - 1;
break;
case WD90C11:
svga_init(info, svga, paradise, 1 << 19, /*512kb*/
paradise_recalctimings,
paradise_in, paradise_out,
NULL,
NULL);
paradise->vram_mask = (1 << 19) - 1;
svga->decode_mask = (1 << 19) - 1;
break;
case WD90C30:
svga_init(info, svga, paradise, memsize,
paradise_recalctimings,
paradise_in, paradise_out,
NULL,
NULL);
paradise->vram_mask = memsize - 1;
svga->decode_mask = memsize - 1;
svga->ramdac = device_add(&sc11487_ramdac_device); /*Actually a Winbond W82c487-80, probably a clone.*/
break;
default:
break;
}
mem_mapping_set_handler(&svga->mapping, paradise_read, paradise_readw, NULL, paradise_write, paradise_writew, NULL);
mem_mapping_set_p(&svga->mapping, paradise);
io_sethandler(0x03c0, 0x0020, paradise_in, NULL, NULL, paradise_out, NULL, NULL, paradise);
/* Common to all three types. */
svga->crtc[0x31] = 'W';
svga->crtc[0x32] = 'D';
svga->crtc[0x33] = '9';
svga->crtc[0x34] = '0';
svga->crtc[0x35] = 'C';
switch (info->local) {
case WD90C11:
svga->crtc[0x36] = '1';
svga->crtc[0x37] = '1';
break;
case WD90C30:
svga->crtc[0x36] = '3';
svga->crtc[0x37] = '0';
break;
default:
break;
}
svga->bpp = 8;
svga->miscout = 1;
paradise->type = info->local;
return paradise;
}
static void *
paradise_pvga1a_ncr3302_init(const device_t *info)
{
paradise_t *paradise = paradise_init(info, 1 << 18);
if (paradise)
rom_init(¶dise->bios_rom, "roms/machines/3302/c000-wd_1987-1989-740011-003058-019c.bin", 0xc0000, 0x8000, 0x7fff, 0, MEM_MAPPING_EXTERNAL);
return paradise;
}
static void *
paradise_pvga1a_pc2086_init(const device_t *info)
{
paradise_t *paradise = paradise_init(info, 1 << 18);
if (paradise)
rom_init(¶dise->bios_rom, "roms/machines/pc2086/40186.ic171", 0xc0000, 0x8000, 0x7fff, 0, MEM_MAPPING_EXTERNAL);
return paradise;
}
static void *
paradise_pvga1a_pc3086_init(const device_t *info)
{
paradise_t *paradise = paradise_init(info, 1 << 18);
if (paradise)
rom_init(¶dise->bios_rom, "roms/machines/pc3086/c000.bin", 0xc0000, 0x8000, 0x7fff, 0, MEM_MAPPING_EXTERNAL);
return paradise;
}
static void *
paradise_pvga1a_standalone_init(const device_t *info)
{
paradise_t *paradise;
uint32_t memory = 512;
memory = device_get_config_int("memory");
memory <<= 10;
paradise = paradise_init(info, memory);
if (paradise)
rom_init(¶dise->bios_rom, "roms/video/pvga1a/BIOS.BIN", 0xc0000, 0x8000, 0x7fff, 0, MEM_MAPPING_EXTERNAL);
return paradise;
}
static int
paradise_pvga1a_standalone_available(void)
{
return rom_present("roms/video/pvga1a/BIOS.BIN");
}
static void *
paradise_wd90c11_megapc_init(const device_t *info)
{
paradise_t *paradise = paradise_init(info, 0);
if (paradise)
rom_init_interleaved(¶dise->bios_rom,
"roms/machines/megapc/41651-bios lo.u18",
"roms/machines/megapc/211253-bios hi.u19",
0xc0000, 0x8000, 0x7fff, 0, MEM_MAPPING_EXTERNAL);
return paradise;
}
static void *
paradise_wd90c11_standalone_init(const device_t *info)
{
paradise_t *paradise = paradise_init(info, 0);
if (paradise)
rom_init(¶dise->bios_rom, "roms/video/wd90c11/WD90C11.VBI", 0xc0000, 0x8000, 0x7fff, 0, MEM_MAPPING_EXTERNAL);
return paradise;
}
static int
paradise_wd90c11_standalone_available(void)
{
return rom_present("roms/video/wd90c11/WD90C11.VBI");
}
static void *
paradise_wd90c30_standalone_init(const device_t *info)
{
paradise_t *paradise;
uint32_t memory = 512;
memory = device_get_config_int("memory");
memory <<= 10;
paradise = paradise_init(info, memory);
if (paradise)
rom_init(¶dise->bios_rom, "roms/video/wd90c30/90C30-LR.VBI", 0xc0000, 0x8000, 0x7fff, 0, MEM_MAPPING_EXTERNAL);
return paradise;
}
static int
paradise_wd90c30_standalone_available(void)
{
return rom_present("roms/video/wd90c30/90C30-LR.VBI");
}
void
paradise_close(void *priv)
{
paradise_t *paradise = (paradise_t *) priv;
svga_close(¶dise->svga);
free(paradise);
}
void
paradise_speed_changed(void *priv)
{
paradise_t *paradise = (paradise_t *) priv;
svga_recalctimings(¶dise->svga);
}
void
paradise_force_redraw(void *priv)
{
paradise_t *paradise = (paradise_t *) priv;
paradise->svga.fullchange = changeframecount;
}
const device_t paradise_pvga1a_pc2086_device = {
.name = "Paradise PVGA1A (Amstrad PC2086)",
.internal_name = "pvga1a_pc2086",
.flags = 0,
.local = PVGA1A,
.init = paradise_pvga1a_pc2086_init,
.close = paradise_close,
.reset = NULL,
{ .available = NULL },
.speed_changed = paradise_speed_changed,
.force_redraw = paradise_force_redraw,
.config = NULL
};
const device_t paradise_pvga1a_pc3086_device = {
.name = "Paradise PVGA1A (Amstrad PC3086)",
.internal_name = "pvga1a_pc3086",
.flags = 0,
.local = PVGA1A,
.init = paradise_pvga1a_pc3086_init,
.close = paradise_close,
.reset = NULL,
{ .available = NULL },
.speed_changed = paradise_speed_changed,
.force_redraw = paradise_force_redraw,
.config = NULL
};
static const device_config_t paradise_pvga1a_config[] = {
// clang-format off
{
.name = "memory",
.description = "Memory size",
.type = CONFIG_SELECTION,
.default_int = 512,
.selection = {
{
.description = "256 kB",
.value = 256
},
{
.description = "512 kB",
.value = 512
},
{
.description = ""
}
}
},
{
.type = CONFIG_END
}
// clang-format on
};
const device_t paradise_pvga1a_ncr3302_device = {
.name = "Paradise PVGA1A (NCR 3302)",
.internal_name = "pvga1a_ncr3302",
.flags = 0,
.local = PVGA1A,
.init = paradise_pvga1a_ncr3302_init,
.close = paradise_close,
.reset = NULL,
{ .available = NULL },
.speed_changed = paradise_speed_changed,
.force_redraw = paradise_force_redraw,
.config = paradise_pvga1a_config
};
const device_t paradise_pvga1a_device = {
.name = "Paradise PVGA1A",
.internal_name = "pvga1a",
.flags = DEVICE_ISA,
.local = PVGA1A,
.init = paradise_pvga1a_standalone_init,
.close = paradise_close,
.reset = NULL,
{ .available = paradise_pvga1a_standalone_available },
.speed_changed = paradise_speed_changed,
.force_redraw = paradise_force_redraw,
.config = paradise_pvga1a_config
};
const device_t paradise_wd90c11_megapc_device = {
.name = "Paradise WD90C11 (Amstrad MegaPC)",
.internal_name = "wd90c11_megapc",
.flags = 0,
.local = WD90C11,
.init = paradise_wd90c11_megapc_init,
.close = paradise_close,
.reset = NULL,
{ .available = NULL },
.speed_changed = paradise_speed_changed,
.force_redraw = paradise_force_redraw,
.config = NULL
};
const device_t paradise_wd90c11_device = {
.name = "Paradise WD90C11-LR",
.internal_name = "wd90c11",
.flags = DEVICE_ISA,
.local = WD90C11,
.init = paradise_wd90c11_standalone_init,
.close = paradise_close,
.reset = NULL,
{ .available = paradise_wd90c11_standalone_available },
.speed_changed = paradise_speed_changed,
.force_redraw = paradise_force_redraw,
.config = NULL
};
static const device_config_t paradise_wd90c30_config[] = {
// clang-format off
{
.name = "memory",
.description = "Memory size",
.type = CONFIG_SELECTION,
.default_int = 1024,
.selection = {
{
.description = "512 kB",
.value = 512
},
{
.description = "1 MB",
.value = 1024
},
{
.description = ""
}
}
},
{
.type = CONFIG_END
}
// clang-format on
};
const device_t paradise_wd90c30_device = {
.name = "Paradise WD90C30-LR",
.internal_name = "wd90c30",
.flags = DEVICE_ISA,
.local = WD90C30,
.init = paradise_wd90c30_standalone_init,
.close = paradise_close,
.reset = NULL,
{ .available = paradise_wd90c30_standalone_available },
.speed_changed = paradise_speed_changed,
.force_redraw = paradise_force_redraw,
.config = paradise_wd90c30_config
};