/* vax_vc.c: QVSS video simulator (VCB01) | |
Copyright (c) 2011-2013, Matt Burke | |
Permission is hereby granted, free of charge, to any person obtaining a | |
copy of this software and associated documentation files (the "Software"), | |
to deal in the Software without restriction, including without limitation | |
the rights to use, copy, modify, merge, publish, distribute, sublicense, | |
and/or sell copies of the Software, and to permit persons to whom the | |
Software is furnished to do so, subject to the following conditions: | |
The above copyright notice and this permission notice shall be included in | |
all copies or substantial portions of the Software. | |
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR | |
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, | |
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL | |
THE AUTHOR BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER | |
IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN | |
CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. | |
Except as contained in this notice, the name of the author shall not be | |
used in advertising or otherwise to promote the sale, use or other dealings | |
in this Software without prior written authorization from the author. | |
vc Qbus video subsystem | |
08-Nov-2013 MB Implemented mouse position register | |
06-Nov-2013 MB Increased the speed of v-sync interrupts, which | |
was too slow for some O/S drivers. | |
11-Jun-2013 MB First version | |
*/ | |
#if !defined(VAX_620) | |
#include "vax_defs.h" | |
#include "sim_video.h" | |
#include "vax_2681.h" | |
/* CSR - control/status register */ | |
BITFIELD vc_csr_bits[] = { | |
BIT(MOD), /* Monitor size (1 -> VR260(19"), 0 -> (15") */ | |
#define CSR_V_MOD 0 | |
#define CSR_MOD (1<<CSR_V_MOD) | |
BITNCF(1), /* unused */ | |
BIT(VID), /* Video output Enable */ | |
#define CSR_V_VID 2 | |
#define CSR_VID (1<<CSR_V_VID) | |
BIT(FNC), /* Cursor function */ | |
#define CSR_V_FNC 3 | |
#define CSR_FNC (1<<CSR_V_FNC) | |
BIT(VRB), /* Video readback Enable */ | |
#define CSR_V_VRB 4 | |
#define CSR_VRB (1<<CSR_V_VRB) | |
BIT(TST), /* Test bit */ | |
#define CSR_V_TST 5 | |
#define CSR_TST (1<<CSR_V_TST) | |
BIT(IEN), /* Interrupt Enable */ | |
#define CSR_V_IEN 6 | |
#define CSR_IEN (1<<CSR_V_IEN) | |
BIT(CUR), /* Cursor active */ | |
#define CSR_V_CUR 7 | |
#define CSR_CUR (1<<CSR_V_CUR) | |
BIT(MSA), /* Mouse Button A */ | |
#define CSR_V_MSA 8 | |
#define CSR_MSA (1<<CSR_V_MSA) | |
BIT(MSA), /* Mouse Button B */ | |
#define CSR_V_MSB 9 | |
#define CSR_MSB (1<<CSR_V_MSB) | |
BIT(MSA), /* Mouse Button C */ | |
#define CSR_V_MSC 10 | |
#define CSR_MSC (1<<CSR_V_MSC) | |
BITF(MA,8), /* Memory Bank Switch (Base Address) */ | |
#define CSR_V_MA 11 | |
#define CSR_S_MA 4 | |
#define CSR_M_MA (((1<<CSR_S_MA)-1)<<CSR_V_MA) | |
BITNCF(1), /* unused */ | |
ENDBITS | |
}; | |
#define CSR_RW (CSR_IEN|CSR_TST|CSR_VRB|CSR_FNC|CSR_VID) | |
/* ICSR - interrupt controller command/status register */ | |
BITFIELD vc_icsr_bits[] = { | |
BITF(IRRVEC,3), /* IRR Vector */ | |
#define ICSR_V_IRRVEC 0 | |
#define ICSR_S_IRRVEC 3 | |
#define ICSR_M_IRRVEC (((1<<ICSR_S_IRRVEC)-1)<<ICSR_V_IRRVEC) | |
BIT(MMS), /* Master Mask */ | |
#define ICSR_V_MMS 3 | |
#define ICSR_MMS (1<<ICSR_V_MMS) | |
BIT(INM), /* Interrupt Mode */ | |
#define ICSR_V_INM 4 | |
#define ICSR_INM (1<<ICSR_V_INM) | |
BIT(PRM), /* Priority Mode */ | |
#define ICSR_V_PRM 5 | |
#define ICSR_PRM (1<<ICSR_V_PRM) | |
BIT(ENA), /* Enable */ | |
#define ICSR_V_ENA 6 | |
#define ICSR_ENA (1<<ICSR_V_ENA) | |
BIT(GRI), /* Group Interrupt */ | |
#define ICSR_V_GRI 7 | |
#define ICSR_GRI (1<<ICSR_V_GRI) | |
BITNCF(8), /* unused */ | |
ENDBITS | |
}; | |
const char *vc_icm_rp_names[] = {"ISR", "IMR", "IRR", "ACR"}; | |
/* mode - interrupt controller mode register */ | |
BITFIELD vc_ic_mode_bits[] = { | |
BIT(PM), /* Priority Mode */ | |
#define ICM_V_PM 0 | |
#define ICM_PM (1<<ICM_V_PM) | |
BIT(PM), /* Vector Selection */ | |
#define ICM_V_VS 1 | |
#define ICM_VS (1<<ICM_V_VS) | |
BIT(IM), /* Interrupt Mode */ | |
#define ICM_V_IM 2 | |
#define ICM_IM (1<<ICM_V_IM) | |
BIT(GIP), /* Group Interrupt Polarity */ | |
#define ICM_V_GIP 3 | |
#define ICM_GIP (1<<ICM_V_GIP) | |
BIT(REQP), /* Interrupt Request Polarity */ | |
#define ICM_V_REQP 4 | |
#define ICM_REQP (1<<ICM_V_REQP) | |
BITFNAM(RP,2,vc_icm_rp_names), /* Register Preselect */ | |
#define ICM_V_RP 5 | |
#define ICM_S_RP 2 | |
#define ICM_M_RP (((1<<ICM_S_RP)-1)<<ICM_V_RP) | |
BIT(MM), /* Master Mask */ | |
#define ICM_V_MM 7 | |
#define ICM_MM (1<<ICM_V_MM) | |
ENDBITS | |
}; | |
#define CRTCP_REG 0x001F /* CRTC internal register address */ | |
#define CRTCP_VB 0x0020 /* Vertical blank */ | |
#define CRTCP_LPF 0x0040 /* Light pen register full */ | |
#define CRTCP_US 0x0080 /* Update strobe */ | |
#define CRTCP_RW CRTCP_REG | |
#define CRTC_HTOT 0 /* Horizontal total */ | |
#define CRTC_HDSP 1 /* Horizontal displayed */ | |
#define CRTC_HPOS 2 /* HSYNC position */ | |
#define CRTC_HVWD 3 /* HSYNC/VSYNC widths */ | |
#define CRTC_VTOT 4 /* Vertical total */ | |
#define CRTC_VTOA 5 /* Vertical total adjust */ | |
#define CRTC_VDSP 6 /* Vertical displayed */ | |
#define CRTC_VPOS 7 /* VSYNC position */ | |
#define CRTC_MODE 8 /* Mode */ | |
#define CRTC_MSCN 9 /* Maximum scan line */ | |
#define CRTC_CSCS 10 /* Cursor scan start */ | |
#define CRTC_CSCE 11 /* Cursor scan end */ | |
#define CRTC_SAH 12 /* Start address high */ | |
#define CRTC_SAL 13 /* Start address low */ | |
#define CRTC_CAH 14 /* Cursor address high */ | |
#define CRTC_CAL 15 /* Cursor address low */ | |
#define CRTC_LPPL 16 /* Light pen position low */ | |
#define CRTC_LPPH 17 /* Light pen position high */ | |
#define CRTC_SIZE 18 /* Number of registers */ | |
#define IRQ_DUART 0 /* UART chip */ | |
#define IRQ_VSYNC 1 /* VSYNC */ | |
#define IRQ_MOUSE 2 /* Mouse movement */ | |
#define IRQ_CSTRT 3 /* Cursor start */ | |
#define IRQ_MBA 4 /* Mouse button A */ | |
#define IRQ_MBB 5 /* Mouse button B */ | |
#define IRQ_MBC 6 /* Mouse button C */ | |
#define IRQ_SPARE 7 /* (spare) */ | |
#define VC_XSIZE 1024 /* screen size */ | |
#define VC_YSIZE 864 | |
#define VC_MEMSIZE (1u << 16) /* video memory size */ | |
#define VC_MOVE_MAX 49 /* mouse movement max (per update) */ | |
#define VCMAP_VLD 0x80000000 /* valid */ | |
#define VCMAP_LN 0x00000FFF /* buffer line */ | |
#define VC_OFF(x,y) ((x >> 5) | (y << 5)) /* index into framebuffer */ | |
#define CUR_X (vc_curx & 0x3FF) /* cursor X */ | |
#define CUR_Y ((vc_crtc[CRTC_CAH] * \ | |
(vc_crtc[CRTC_MSCN] + 1)) + \ | |
vc_crtc[CRTC_CSCS]) /* cursor Y */ | |
#define CUR_V ((vc_crtc[CRTC_CSCS] & 0x20) == 0) /* cursor visible */ | |
#define CUR_F (vc_csr & CSR_FNC) /* cursor function (0->AND, 1->OR) */ | |
#define VSYNC_TIME 8000 /* vertical sync interval */ | |
#define IOLN_QVSS 0100 | |
extern int32 int_req[IPL_HLVL]; | |
extern int32 tmxr_poll; /* calibrated delay */ | |
extern t_stat lk_wr (uint8 c); | |
extern t_stat lk_rd (uint8 *c); | |
extern t_stat vs_wr (uint8 c); | |
extern t_stat vs_rd (uint8 *c); | |
struct vc_int_t { | |
uint32 ptr; | |
uint32 vec[8]; /* Interrupt vectors */ | |
uint32 irr; /* Interrupt request */ | |
uint32 imr; /* Interrupt mask */ | |
uint32 isr; /* Interrupt status */ | |
uint32 acr; /* Auto-clear mask */ | |
uint32 mode; | |
}; | |
struct vc_int_t vc_intc; /* Interrupt controller */ | |
uint32 vc_csr = 0; /* Control/status */ | |
uint32 vc_curx = 0; /* Cursor X-position */ | |
uint32 vc_cur_x = 0; /* Last cursor X-position */ | |
uint32 vc_cur_y = 0; /* Last cursor Y-position */ | |
uint32 vc_cur_f = 0; /* Last cursor function (0->AND, 1->OR) */ | |
t_bool vc_cur_v = FALSE; /* Last cursor visible */ | |
t_bool vc_cur_new_data = FALSE; /* New Cursor image data */ | |
t_bool vc_input_captured = FALSE; /* Mouse and Keyboard input captured in video window */ | |
uint32 vc_mpos = 0; /* Mouse position */ | |
uint32 vc_crtc[CRTC_SIZE]; /* CRTC registers */ | |
uint32 vc_crtc_p = 0; /* CRTC pointer */ | |
uint32 vc_icdr = 0; /* Interrupt controller data */ | |
uint32 vc_icsr = 0; /* Interrupt controller status */ | |
uint32 *vc_map; /* Scanline map */ | |
uint32 *vc_buf = NULL; /* Video memory */ | |
uint32 *vc_lines = NULL; /* Video Display Lines */ | |
uint8 vc_cur[256]; /* Cursor image */ | |
t_stat vc_rd (int32 *data, int32 PA, int32 access); | |
t_stat vc_wr (int32 data, int32 PA, int32 access); | |
t_stat vc_svc (UNIT *uptr); | |
t_stat vc_reset (DEVICE *dptr); | |
t_stat vc_detach (UNIT *dptr); | |
t_stat vc_set_enable (UNIT *uptr, int32 val, char *cptr, void *desc); | |
t_stat vc_set_capture (UNIT *uptr, int32 val, char *cptr, void *desc); | |
t_stat vc_show_capture (FILE* st, UNIT* uptr, int32 val, void* desc); | |
void vc_setint (int32 src); | |
int32 vc_inta (void); | |
void vc_clrint (int32 src); | |
void vc_uart_int (uint32 set); | |
t_stat vc_help (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, const char *cptr); | |
const char *vc_description (DEVICE *dptr); | |
/* QVSS data structures | |
vc_dev QVSS device descriptor | |
vc_unit QVSS unit list | |
vc_reg QVSS register list | |
vc_mod QVSS modifier list | |
*/ | |
DIB vc_dib = { | |
IOBA_AUTO, IOLN_QVSS, &vc_rd, &vc_wr, | |
2, IVCL (QVSS), VEC_AUTO, { &vc_inta, &vc_inta } | |
}; | |
/* Debugging Bitmaps */ | |
#define DBG_REG 0x0100 /* register activity */ | |
#define DBG_CRTC 0x0200 /* crtc register activity */ | |
#define DBG_CURSOR 0x0400 /* Cursor content, function and visibility activity */ | |
#define DBG_TCURSOR 0x0800 /* Cursor content, function and visibility activity */ | |
#define DBG_SCANL 0x1000 /* Scanline map activity */ | |
#define DBG_INT0 0x0001 /* interrupt 0 */ | |
#define DBG_INT1 0x0002 /* interrupt 1 */ | |
#define DBG_INT2 0x0004 /* interrupt 2 */ | |
#define DBG_INT3 0x0008 /* interrupt 3 */ | |
#define DBG_INT4 0x0010 /* interrupt 4 */ | |
#define DBG_INT5 0x0020 /* interrupt 5 */ | |
#define DBG_INT6 0x0040 /* interrupt 6 */ | |
#define DBG_INT7 0x0080 /* interrupt 7 */ | |
#define DBG_INT 0x00FF /* interrupt 0-7 */ | |
DEBTAB vc_debug[] = { | |
{"REG", DBG_REG, "Register activity"}, | |
{"CRTC", DBG_CRTC, "CRTC register activity"}, | |
{"CURSOR", DBG_CURSOR, "Cursor content, function and visibility activity"}, | |
{"TCURSOR", DBG_TCURSOR, "Cursor content, function and visibility activity"}, | |
{"SCANL", DBG_SCANL, "Scanline map activity"}, | |
{"DUART", DBG_INT0, "interrupt 0"}, | |
{"VSYNC", DBG_INT1, "interrupt 1"}, | |
{"MOUSE", DBG_INT2, "interrupt 2"}, | |
{"CSTRT", DBG_INT3, "interrupt 3"}, | |
{"MBA", DBG_INT4, "interrupt 4"}, | |
{"MBB", DBG_INT5, "interrupt 5"}, | |
{"MBC", DBG_INT6, "interrupt 6"}, | |
{"SPARE", DBG_INT7, "interrupt 7"}, | |
{"INT", DBG_INT0|DBG_INT1|DBG_INT2|DBG_INT3|DBG_INT4|DBG_INT5|DBG_INT6|DBG_INT7, "interrupt 0-7"}, | |
{"VMOUSE", SIM_VID_DBG_MOUSE, "Video Mouse"}, | |
{"VCURSOR", SIM_VID_DBG_CURSOR, "Video Cursor"}, | |
{"VKEY", SIM_VID_DBG_KEY, "Video Key"}, | |
{"VVIDEO", SIM_VID_DBG_VIDEO, "Video Video"}, | |
{0} | |
}; | |
UNIT vc_unit = { UDATA (&vc_svc, UNIT_IDLE, 0) }; | |
REG vc_reg[] = { | |
{ HRDATADF (CSR, vc_csr, 16, "Control and status register", vc_csr_bits) }, | |
{ HRDATAD (CURX, vc_curx, 9, "Cursor X-position") }, | |
{ HRDATAD (MPOS, vc_mpos, 16, "Mouse position register") }, | |
{ HRDATAD (ICDR, vc_icdr, 16, "Interrupt controller data register") }, | |
{ HRDATADF (ICSR, vc_icsr, 16, "Interrupt controller command/status register", vc_icsr_bits) }, | |
{ HRDATAD (IRR, vc_intc.irr, 8, "Interrupt controller request") }, | |
{ HRDATAD (IMR, vc_intc.imr, 8, "Interrupt controller mask") }, | |
{ HRDATAD (ISR, vc_intc.isr, 8, "Interrupt controller status") }, | |
{ HRDATAD (ACR, vc_intc.acr, 8, "Interrupt controller Auto-clear mask") }, | |
{ HRDATADF (MODE, vc_intc.mode, 8, "Interrupt controller mode", vc_ic_mode_bits) }, | |
{ HRDATA (IPTR, vc_intc.ptr, 8), REG_HRO }, | |
{ BRDATA (VEC, vc_intc.vec, 16, 32, 8) }, | |
{ BRDATAD (CRTC, vc_crtc, 16, 8, CRTC_SIZE, "CRTC registers") }, | |
{ HRDATAD (CRTCP, vc_crtc_p, 8, "CRTC pointer") }, | |
{ NULL } | |
}; | |
MTAB vc_mod[] = { | |
{ MTAB_XTD|MTAB_VDV, 1, NULL, "ENABLE", | |
&vc_set_enable, NULL, NULL, "Enable VCB01 (QVSS)" }, | |
{ MTAB_XTD|MTAB_VDV, 0, NULL, "DISABLE", | |
&vc_set_enable, NULL, NULL, "Disable VCB01 (QVSS)" }, | |
{ MTAB_XTD|MTAB_VDV, TRUE, NULL, "CAPTURE", | |
&vc_set_capture, &vc_show_capture, NULL, "Enable Captured Input Mode" }, | |
{ MTAB_XTD|MTAB_VDV, FALSE, NULL, "NOCAPTURE", | |
&vc_set_capture, NULL, NULL, "Disable Captured Input Mode" }, | |
{ MTAB_XTD|MTAB_VDV, TRUE, "OSCURSOR", NULL, | |
NULL, &vc_show_capture, NULL, "Display Input Capture mode" }, | |
{ MTAB_XTD|MTAB_VDV|MTAB_NMO, 0, "VIDEO", NULL, | |
NULL, &vid_show_video, NULL, "Display the host system video capabilities" }, | |
{ MTAB_XTD|MTAB_VDV|MTAB_VALR, 004, "ADDRESS", "ADDRESS", | |
&set_addr, &show_addr, NULL, "Bus address" }, | |
{ MTAB_XTD|MTAB_VDV|MTAB_VALR, 0, "VECTOR", "VECTOR", | |
&set_vec, &show_vec, NULL, "Interrupt vector" }, | |
{ 0 } | |
}; | |
DEVICE vc_dev = { | |
"QVSS", &vc_unit, vc_reg, vc_mod, | |
1, DEV_RDX, 20, 1, DEV_RDX, 8, | |
NULL, NULL, &vc_reset, | |
NULL, NULL, &vc_detach, | |
&vc_dib, DEV_DIS | DEV_QBUS | DEV_DEBUG, 0, | |
vc_debug, NULL, NULL, &vc_help, NULL, NULL, | |
&vc_description | |
}; | |
UART2681 vc_uart = { | |
&vc_uart_int, NULL, | |
{ { &lk_wr, &lk_rd }, { &vs_wr, &vs_rd } } | |
}; | |
const char *vc_regnames[] = { | |
"CSR", /* +0 */ | |
"CUR-X", /* +2 */ | |
"MPOS", /* +4 */ | |
"", /* +6 spare */ | |
"CRTCA", /* +8 */ | |
"CRTCD", /* +10 */ | |
"ICDR", /* +12 */ | |
"ICSR", /* +14 */ | |
"", /* +16 spare */ | |
"", /* +18 spare */ | |
"", /* +20 spare */ | |
"", /* +22 spare */ | |
"", /* +24 spare */ | |
"", /* +26 spare */ | |
"", /* +28 spare */ | |
"", /* +30 spare */ | |
"UART1A2A", /* +32 */ | |
"UARTSTCLA", /* +34 */ | |
"UARTCMDA", /* +36 */ | |
"UARTBUFA", /* +38 */ | |
"", /* +40 spare */ | |
"UARTIMSK", /* +42 */ | |
"", /* +44 spare */ | |
"", /* +46 spare */ | |
"UART1B2B", /* +48 */ | |
"UARTSTCLB", /* +50 */ | |
"UARTCMDB", /* +52 */ | |
"UARTBUFB", /* +54 */ | |
"", /* +56 spare */ | |
"", /* +56 spare */ | |
"", /* +58 spare */ | |
"", /* +60 spare */ | |
"", /* +62 spare */ | |
}; | |
const char *vc_crtc_regnames[] = { | |
"HTOT", /* Horizontal Total The total number of character times in a line, minus 1 */ | |
"HDSP", /* Horizontal Displayed The total number of displayed characters in a line. */ | |
"HPOS", /* HSYNC Position Defines the number of character times until HSYNC (horizontal sync). */ | |
"HVWD", /* HSYNC/VSYNC Widths Four bits each are used to define the HSYNC | |
pulse width and the VSYNC (vertical sync) pulse width. */ | |
"VTOT", /* Vertical Total Total number of character rows on the screen, minus 1. */ | |
"VTOA", /* Vertical Total Adjust The number of scan lines to complete the screen. */ | |
"VDSP", /* Vertical Displayed The number of character rows displayed. */ | |
"VPOS", /* VSYNC Position The number of character rows until VSYNC. */ | |
"MODE", /* Mode Controls addressing, interlace, and cursor. */ | |
"MSCN", /* Maximum Scan Line The number of scan lines in a character row, minus 1. */ | |
"CSCS", /* Cursor Scan Start Defines the scan line at which the cursor starts. */ | |
"CSCE", /* Cursor Scan End Defines where the cursor ends. */ | |
"SAH", /* Start Address High Defines the RAM location where video refresh */ | |
"SAL", /* Start Address Low begins. */ | |
"CAH", /* Cursor Address High Defines the cursor position in RAM. */ | |
"CAL", /* Cursor Address Low */ | |
"LPPL", /* Light Pen Position High Contains the position of the light pen. */ | |
"LPPH", /* Light Pen Position Low */ | |
"18", "19", "20", "21", "22", "23", "24", "25", "26", "27", "28", "29", "30", "31" | |
}; | |
t_stat vc_rd (int32 *data, int32 PA, int32 access) | |
{ | |
uint32 rg = (PA >> 1) & 0x1F; | |
uint32 crtc_rg, i; | |
*data = 0; | |
switch (rg) { | |
case 0: /* CSR */ | |
*data = vc_csr; | |
break; | |
case 1: /* Cursor X */ | |
*data = 0; | |
break; | |
case 2: /* Mouse position */ | |
*data = vc_mpos; | |
break; | |
case 4: /* CRTC addr ptr */ | |
*data = vc_crtc_p; | |
sim_debug (DBG_CRTC, &vc_dev, "CRTC-Addr Read: %d - %s\n", vc_crtc_p, vc_crtc_regnames[vc_crtc_p & CRTCP_REG]); | |
break; | |
case 5: /* CRTC data */ | |
crtc_rg = vc_crtc_p & CRTCP_REG; | |
*data = vc_crtc[crtc_rg]; | |
if ((crtc_rg == CRTC_LPPL) || (crtc_rg == CRTC_LPPH)) | |
vc_crtc_p &= ~CRTCP_LPF; /* Clear light pen full */ | |
sim_debug (DBG_CRTC, &vc_dev, "CRTC-Data:%s[%d] Read: 0x%x\n", vc_crtc_regnames[crtc_rg], crtc_rg, *data); | |
break; | |
case 6: /* ICDR */ | |
switch ((vc_intc.mode & ICM_M_RP) >> ICM_V_RP) { | |
case 0: /* ISR */ | |
*data = vc_intc.isr; | |
break; | |
case 1: /* IMR */ | |
*data = vc_intc.imr; | |
break; | |
case 2: /* IRR */ | |
*data = vc_intc.irr; | |
break; | |
case 3: /* ACR */ | |
*data = vc_intc.acr; | |
break; | |
} | |
break; | |
case 7: /* ICSR */ | |
*data = vc_icsr | 0x40; /* Chip enabled */ | |
*data |= (vc_intc.mode & ICM_PM) ? 0x20 : 0; /* Priority mode */ | |
*data |= (vc_intc.mode & ICM_IM) ? 0x10 : 0; /* Interrupt mode */ | |
*data |= (vc_intc.mode & ICM_MM) ? 0x8 : 0; /* Master mask */ | |
if (vc_icsr & 0x80) { /* Group int pending */ | |
for (i = 0; i < 8; i++) { | |
if (vc_intc.isr & (1u << i)) { | |
*data |= i; | |
break; | |
} | |
} | |
} | |
break; | |
case 16: /* UART mode 1A,2A */ | |
case 17: /* UART status/clock A */ | |
case 18: /* UART command A */ | |
case 19: /* UART tx/rx buf A */ | |
case 21: /* UART interrupt status/mask */ | |
case 24: /* UART mode 1B,2B */ | |
case 25: /* UART status/clock B */ | |
case 26: /* UART command B */ | |
case 27: /* UART tx/rx buf B */ | |
*data = ua2681_rd (&vc_uart, (rg - 16)); | |
break; | |
default: /* Spares */ | |
break; | |
} /* end switch PA */ | |
sim_debug (DBG_REG, &vc_dev, "vc_rd(%s) data=0x%04X\n", vc_regnames[(PA >> 1) & 0x1F], *data); | |
return SCPE_OK; | |
} | |
t_stat vc_wr (int32 data, int32 PA, int32 access) | |
{ | |
uint32 rg = (PA >> 1) & 0x1F; | |
uint32 crtc_rg; | |
uint32 old_data; | |
sim_debug (DBG_REG, &vc_dev, "vc_wr(%s) data=0x%04X\n", vc_regnames[(PA >> 1) & 0x1F], data); | |
switch (rg) { | |
case 0: /* CSR */ | |
if ((data & CSR_IEN) && ((vc_csr & CSR_IEN) == 0)) { | |
sim_cancel (&vc_unit); /* reactivate with short delay */ | |
sim_activate (&vc_unit, VSYNC_TIME); /* in case software checks for vsync */ | |
} | |
old_data = vc_csr; | |
vc_csr = (vc_csr & ~CSR_RW) | (data & CSR_RW); | |
if ((vc_csr ^ old_data) & CSR_FNC) { | |
sim_debug (DBG_CURSOR, &vc_dev, "Cursor Function changed to: %s\n", CUR_F ? "OR" : "AND"); | |
} | |
break; | |
case 1: /* Cursor X */ | |
vc_curx = data; | |
sim_debug (SIM_VID_DBG_MOUSE, &vc_dev, "Cursor-X set: %d\n", vc_curx); | |
vid_set_cursor_position (CUR_X, CUR_Y); | |
break; | |
case 2: /* Mouse position */ | |
break; | |
case 4: /* CRTC addr ptr */ | |
vc_crtc_p = (vc_crtc_p & ~CRTCP_RW) | (data & CRTCP_RW); | |
sim_debug (DBG_CRTC, &vc_dev, "CRTC-Addr Set: %d - %s\n", vc_crtc_p, vc_crtc_regnames[vc_crtc_p & CRTCP_REG]); | |
break; | |
case 5: /* CRTC data */ | |
crtc_rg = vc_crtc_p & CRTCP_REG; | |
old_data = vc_crtc[crtc_rg]; | |
vc_crtc[crtc_rg] = data & BMASK; | |
sim_debug (DBG_CRTC, &vc_dev, "CRTC-Data:%s[%d] Set: 0x%x\n", vc_crtc_regnames[crtc_rg], crtc_rg, vc_crtc[crtc_rg]); | |
if (crtc_rg == CRTC_CAH) { | |
sim_debug (SIM_VID_DBG_MOUSE, &vc_dev, "Cursor-Y-High set (%d). Y value: %d\n", vc_crtc[crtc_rg], CUR_Y); | |
vid_set_cursor_position (CUR_X, CUR_Y); | |
} | |
if (crtc_rg == CRTC_CAL) { | |
sim_debug (SIM_VID_DBG_MOUSE, &vc_dev, "Cursor-Y-Low set (%d). Y value: %d\n", vc_crtc[crtc_rg], CUR_Y); | |
} | |
if (crtc_rg == CRTC_MSCN) { | |
sim_debug (SIM_VID_DBG_MOUSE, &vc_dev, "Maximum Scan Line set (%d). Y value: %d\n", vc_crtc[crtc_rg], CUR_Y); | |
} | |
if (crtc_rg == CRTC_CSCS) { | |
if (0x20 & (old_data ^ vc_crtc[crtc_rg])) { | |
sim_debug (DBG_CURSOR, &vc_dev, "Visibility Changed to: %s\n", CUR_V ? "Visible" : "Invisible"); | |
} | |
sim_debug (SIM_VID_DBG_MOUSE, &vc_dev, "CSCS set (%d). Y value: %d\n", vc_crtc[crtc_rg], CUR_Y); | |
} | |
break; | |
case 6: /* ICDR */ | |
if (vc_intc.ptr == 8) /* IMR */ | |
vc_intc.imr = data & 0xFFFF; | |
else if (vc_intc.ptr == 9) /* ACR */ | |
vc_intc.acr = data & 0xFFFF; | |
else | |
/* | |
Masking the vector with 0x1FC is probably storing | |
one more bit than the original hardware did. | |
Doing this allows a maximal simulated hardware | |
configuration use a reasonable vector where real | |
hardware could never be assembled with that many | |
devices. | |
*/ | |
vc_intc.vec[vc_intc.ptr] = data & 0x1FC; /* Vector */ | |
break; | |
case 7: /* ICSR */ | |
switch ((data >> 4) & 0xF) { | |
case 0: /* Reset */ | |
vc_intc.imr = 0xFF; | |
vc_intc.irr = 0; | |
vc_intc.isr = 0; | |
vc_intc.acr = 0; | |
break; | |
case 2: /* Clear IRR & IMR */ | |
if (data & 0x8) { /* one bit */ | |
vc_intc.irr &= ~(1u << (data & 0x7)); | |
vc_intc.imr &= ~(1u << (data & 0x7)); | |
} | |
else { /* all bits */ | |
vc_intc.irr = 0; | |
vc_intc.imr = 0; | |
} | |
break; | |
case 3: /* Set IMR */ | |
if (data & 0x8) /* one bit */ | |
vc_intc.imr |= (1u << (data & 0x7)); | |
else /* all bits */ | |
vc_intc.imr = 0xFF; | |
break; | |
case 4: /* Clear IRR */ | |
if (data & 0x8) /* one bit */ | |
vc_intc.irr &= ~(1u << (data & 0x7)); | |
else /* all bits */ | |
vc_intc.irr = 0; | |
break; | |
case 6: /* Clear highest priority ISR */ | |
break; | |
case 7: /* Clear ISR */ | |
if (data & 0x8) /* one bit */ | |
vc_intc.isr &= ~(1u << (data & 0x7)); | |
else /* all bits */ | |
vc_intc.isr = 0; | |
break; | |
case 8: /* Load mode bits */ | |
case 9: | |
vc_intc.mode &= ~0x1F | (data & 0x1F); | |
break; | |
case 10: /* Control mode bits */ | |
vc_intc.mode &= ~0x60 | ((data << 3) & 0x60); /* mode<06:05> = data<03:02> */ | |
if (((data & 0x3) == 0x1) || ((data & 0x3) == 2)) | |
vc_intc.mode &= ~0x80 | ((data << 7) & 0x80); | |
break; | |
case 11: /* Preselect IMR */ | |
vc_intc.ptr = 8; | |
break; | |
case 12: /* Preselect ACR */ | |
vc_intc.ptr = 9; | |
break; | |
case 14: /* Preselect response mem */ | |
vc_intc.ptr = (data & 0x7); | |
break; | |
} | |
break; | |
case 16: /* UART mode 1A,2A */ | |
case 17: /* UART status/clock A */ | |
case 18: /* UART command A */ | |
case 19: /* UART tx/rx buf A (keyboard) */ | |
case 21: /* UART interrupt status/mask */ | |
case 24: /* UART mode 1B,2B */ | |
case 25: /* UART status/clock B */ | |
case 26: /* UART command B */ | |
case 27: /* UART tx/rx buf B (mouse) */ | |
ua2681_wr (&vc_uart, (rg - 16), data); | |
break; | |
default: /* Spares */ | |
break; | |
} | |
return SCPE_OK; | |
} | |
extern jmp_buf save_env; | |
extern int32 p1; | |
int32 vc_mem_rd (int32 pa) | |
{ | |
uint32 rg = (pa >> 2) & 0xFFFF; | |
if (!vc_buf) /* QVSS disabled? */ | |
MACH_CHECK (MCHK_READ); /* Invalid memory reference */ | |
return vc_buf[rg]; | |
} | |
void vc_mem_wr (int32 pa, int32 val, int32 lnt) | |
{ | |
uint32 rg = (pa >> 2) & 0xFFFF; | |
uint32 nval; | |
int32 i; | |
int32 sc; | |
uint32 scrln, bufln; | |
uint32 idx; | |
if (!vc_buf) /* QVSS disabled? */ | |
MACH_CHECK (MCHK_WRITE); /* Invalid memory reference */ | |
if (lnt < L_LONG) { | |
uint32 mask = (lnt == L_WORD)? 0xFFFF: 0xFF; | |
uint32 t = vc_buf[rg]; | |
sc = (pa & 3) << 3; | |
nval = ((val & mask) << sc) | (t & ~(mask << sc)); | |
} | |
else nval = (uint32)val; | |
if (rg >= 0xFFF8) { /* cursor image */ | |
idx = (pa << 3) & 0xFF; /* get byte index */ | |
if (sim_deb) { | |
char binary[40]; | |
int32 i; | |
for (i=0; i<8*lnt; i++) | |
binary[i] = '0' + ((val & (1 << i)) != 0); | |
binary[i] = '\0'; | |
sim_debug (DBG_CURSOR, &vc_dev, "Cursor Data at 0x%X set to 0x%0*X - %s\n", rg, 2*lnt, val, binary); | |
} | |
for (i = 0; i < (lnt << 3); i++) | |
vc_cur[idx++] = (val >> i) & 1; /* 1bpp to 8bpp */ | |
vc_cur_new_data = TRUE; | |
} | |
else if (rg >= 0xFE00) { /* scanline map */ | |
if (vc_buf[rg] != nval) { | |
scrln = (pa >> 1) & 0x3FF; /* screen line */ | |
sc = (scrln & 1) ? 16 : 0; /* odd line? (upper word) */ | |
bufln = (nval >> sc) & 0x7FF; /* buffer line */ | |
vc_map[scrln] = bufln; /* update map */ | |
sim_debug (DBG_SCANL, &vc_dev, "Scan Line 0x%X set to 0x%X\n", scrln, bufln); | |
if (lnt > L_WORD) { /* remapping 2 lines? */ | |
scrln++; /* next screen line */ | |
bufln = (val >> 16) & 0x7FF; /* buffer line */ | |
vc_map[scrln] = bufln; /* update map */ | |
} | |
} | |
} | |
bufln = rg / 32; | |
for (scrln = 0; scrln < 1024; scrln++) { | |
if ((vc_map[scrln] & 0x7FF) == bufln) { | |
vc_map[scrln] &= ~VCMAP_VLD; /* invalidate map */ | |
} | |
} | |
vc_buf[rg] = nval; | |
} | |
static SIM_INLINE void vc_invalidate (uint32 y1, uint32 y2) | |
{ | |
uint32 ln; | |
if ((!vc_input_captured) && (!(vc_dev.dctrl & DBG_CURSOR))) | |
return; | |
for (ln = y1; ln < y2; ln++) | |
vc_map[ln] &= ~VCMAP_VLD; /* invalidate map entry */ | |
} | |
static void vc_set_vid_cursor (t_bool visible, int func, uint8 *cur_bits) | |
{ | |
uint8 data[2*16]; | |
uint8 mask[2*16]; | |
int i, d, m; | |
sim_debug (DBG_CURSOR, &vc_dev, "vc_set_vid_cursor(%s, %s)\n", visible ? "Visible" : "Invisible", func ? "OR" : "AND"); | |
memset (data, 0, sizeof(data)); | |
memset (mask, 0, sizeof(mask)); | |
for (i=0; i<16*16; i++) { | |
if (func) { /* OR */ | |
if (cur_bits[i]) { | |
/* White */ | |
d = 0; m = 1; | |
} | |
else { | |
/* Transparent */ | |
d = 0; m = 0; | |
} | |
} | |
else { /* AND */ | |
if (cur_bits[i]) { | |
/* Black */ | |
d = 1; m = 1; | |
} | |
else { | |
/* Transparent */ | |
d = 0; m = 0; | |
} | |
} | |
data[i>>3] |= d<<(7-(i&7)); | |
mask[i>>3] |= m<<(7-(i&7)); | |
} | |
if ((vc_dev.dctrl & DBG_CURSOR) && (vc_dev.dctrl & DBG_TCURSOR)) { | |
/* box the cursor image */ | |
for (i=0; i<16*16; i++) { | |
if ((0 == i>>4) || (0xF == i>>4) || (0 == (i&0xF)) || (0xF == (i&0xF))) { | |
data[i>>3] |= 1<<(7-(i&7)); | |
mask[i>>3] |= 1<<(7-(i&7)); | |
} | |
if ((1 == i>>4) || (0xE == i>>4) || (1 == (i&0xF)) || (0xE == (i&0xF))) { | |
data[i>>3] &= ~(1<<(7-(i&7))); | |
mask[i>>3] |= 1<<(7-(i&7)); | |
} | |
} | |
} | |
vid_set_cursor (visible, 16, 16, data, mask, 0, 0); | |
} | |
void vc_checkint (void) | |
{ | |
uint32 i; | |
uint32 msk = (vc_intc.irr & ~vc_intc.imr); /* unmasked interrutps */ | |
vc_icsr &= ~(ICSR_GRI|ICSR_M_IRRVEC); /* clear GRI & vector */ | |
if ((vc_intc.mode & 0x80) && ~(vc_intc.mode & 0x4)) { /* group int MM & not polled */ | |
for (i = 0; i < 8; i++) { | |
if (msk & (1u << i)) { | |
vc_icsr |= (ICSR_GRI | i); | |
} | |
} | |
if ((vc_csr & CSR_IEN) && (vc_icsr & ICSR_GRI)) { | |
if (!(int_req[IPL_QVSS] & (INT_QVSS))) { | |
sim_debug (DBG_INT, &vc_dev, "vc_checkint(SET_INT) icsr=0x%x\n", vc_icsr); | |
} | |
SET_INT (QVSS); | |
} | |
else { | |
if ((int_req[IPL_QVSS] & (INT_QVSS))) { | |
sim_debug (DBG_INT, &vc_dev, "vc_checkint(CLR_INT)\n"); | |
} | |
CLR_INT (QVSS); | |
} | |
} | |
else { | |
if ((int_req[IPL_QVSS] & (INT_QVSS))) { | |
sim_debug (DBG_INT, &vc_dev, "vc_checkint(CLR_INT)\n"); | |
} | |
CLR_INT (QVSS); | |
} | |
} | |
void vc_clrint (int32 src) | |
{ | |
uint32 msk = (1u << src); | |
vc_intc.irr &= ~msk; | |
vc_intc.isr &= ~msk; | |
sim_debug (msk, &vc_dev, "vc_clrint(%d)\n", src); | |
vc_checkint (); | |
} | |
void vc_setint (int32 src) | |
{ | |
uint32 msk = (1u << src); | |
vc_intc.irr |= msk; | |
sim_debug (msk, &vc_dev, "vc_setint(%d)\n", src); | |
vc_checkint (); | |
} | |
void vc_uart_int (uint32 set) | |
{ | |
if (set) | |
vc_setint (IRQ_DUART); | |
else | |
vc_clrint (IRQ_DUART); | |
} | |
int32 vc_inta (void) | |
{ | |
uint32 i; | |
uint32 msk = (vc_intc.irr & ~vc_intc.imr); /* unmasked interrutps */ | |
int32 result; | |
for (i = 0; i < 8; i++) { | |
if (msk & (1u << i)) { | |
vc_intc.irr &= ~(1u << i); | |
if (vc_intc.acr & (1u << i)) | |
vc_intc.isr &= ~(1u << i); | |
else vc_intc.isr |= (1u << i); | |
vc_checkint(); | |
result = vc_intc.vec[i]; | |
sim_debug (DBG_INT, &vc_dev, "Int Ack Vector: 0%03o (0x%X)\n", result, result); | |
return result; | |
} | |
} | |
sim_debug (DBG_INT, &vc_dev, "Int Ack Vector: 0%03o\n", 0); | |
return 0; /* no intr req */ | |
} | |
t_stat vc_svc (UNIT *uptr) | |
{ | |
t_bool updated = FALSE; /* flag for refresh */ | |
uint32 lines; | |
uint32 ln, col, off; | |
int32 xpos, ypos, dx, dy; | |
uint8 *cur; | |
vc_crtc_p = vc_crtc_p ^ CRTCP_VB; /* Toggle VBI */ | |
vc_crtc_p = vc_crtc_p | CRTCP_LPF; /* Light pen full */ | |
if (vc_cur_v != CUR_V) { /* visibility changed? */ | |
if (CUR_V) /* visible? */ | |
vc_invalidate (CUR_Y, (CUR_Y + 16)); /* invalidate new pos */ | |
else | |
vc_invalidate (vc_cur_y, (vc_cur_y + 16)); /* invalidate old pos */ | |
} | |
else if (vc_cur_y != CUR_Y) { /* moved (Y)? */ | |
vc_invalidate (CUR_Y, (CUR_Y + 16)); /* invalidate new pos */ | |
vc_invalidate (vc_cur_y, (vc_cur_y + 16)); /* invalidate old pos */ | |
} | |
else if ((vc_cur_x != CUR_X) || /* moved (X)? or */ | |
(vc_cur_f != CUR_F) || /* mask changed? or */ | |
(vc_cur_new_data)) { /* cursor image changed? */ | |
vc_invalidate (CUR_Y, (CUR_Y + 16)); /* invalidate new pos */ | |
} | |
if ((!vc_input_captured) && /* OS cursor? AND*/ | |
((vc_cur_f != CUR_F) || /* (mask changed? OR */ | |
(vc_cur_new_data) || /* cursor image changed? OR) */ | |
(vc_cur_v != CUR_V))) { /* visibility changed?) */ | |
vc_set_vid_cursor (CUR_V, CUR_F, vc_cur); | |
} | |
vc_cur_x = CUR_X; /* store cursor data */ | |
vc_cur_y = CUR_Y; | |
vid_set_cursor_position (vc_cur_x, vc_cur_y); | |
vc_cur_v = CUR_V; | |
vc_cur_f = CUR_F; | |
vc_cur_new_data = FALSE; | |
xpos = vc_mpos & 0xFF; /* get current mouse position */ | |
ypos = (vc_mpos >> 8) & 0xFF; | |
dx = vid_mouse_xrel; /* get relative movement */ | |
dy = -vid_mouse_yrel; | |
if (dx > VC_MOVE_MAX) /* limit movement */ | |
dx = VC_MOVE_MAX; | |
else if (dx < -VC_MOVE_MAX) | |
dx = -VC_MOVE_MAX; | |
if (dy > VC_MOVE_MAX) | |
dy = VC_MOVE_MAX; | |
else if (dy < -VC_MOVE_MAX) | |
dy = -VC_MOVE_MAX; | |
xpos += dx; /* add to counters */ | |
ypos += dy; | |
vc_mpos = ((ypos & 0xFF) << 8) | (xpos & 0xFF); /* update register */ | |
vid_mouse_xrel -= dx; /* reset counters for next poll */ | |
vid_mouse_yrel += dy; | |
vc_csr |= (CSR_MSA | CSR_MSB | CSR_MSC); /* reset button states */ | |
if (vid_mouse_b3) /* set new button states */ | |
vc_csr &= ~CSR_MSA; | |
if (vid_mouse_b2) | |
vc_csr &= ~CSR_MSB; | |
if (vid_mouse_b1) | |
vc_csr &= ~CSR_MSC; | |
lines = 0; | |
for (ln = 0; ln < VC_YSIZE; ln++) { | |
if ((vc_map[ln] & VCMAP_VLD) == 0) { /* line invalid? */ | |
off = vc_map[ln] * 32; /* get video buf offset */ | |
for (col = 0; col < VC_XSIZE; col++) | |
vc_lines[ln*VC_XSIZE + col] = vid_mono_palette[(vc_buf[off + (col >> 5)] >> (col & 0x1F)) & 1]; | |
/* 1bpp to 32bpp */ | |
if (CUR_V && /* cursor visible && need to draw cursor? */ | |
(vc_input_captured || (vc_dev.dctrl & DBG_CURSOR))) { | |
if ((ln >= CUR_Y) && (ln < (CUR_Y + 16))) { /* cursor on this line? */ | |
cur = &vc_cur[((ln - CUR_Y) << 4)]; /* get image base */ | |
for (col = 0; col < 16; col++) { | |
if ((CUR_X + col) >= VC_XSIZE) /* Part of cursor off screen? */ | |
continue; /* Skip */ | |
if (CUR_F) /* mask function */ | |
vc_lines[ln*VC_XSIZE + CUR_X + col] = vid_mono_palette[(vc_lines[ln*VC_XSIZE + CUR_X + col] == vid_mono_palette[1]) | (cur[col] & 1)]; | |
else | |
vc_lines[ln*VC_XSIZE + CUR_X + col] = vid_mono_palette[(vc_lines[ln*VC_XSIZE + CUR_X + col] == vid_mono_palette[1]) & (~cur[col] & 1)]; | |
} | |
} | |
} | |
vc_map[ln] |= VCMAP_VLD; /* set valid */ | |
if ((ln == (VC_YSIZE-1)) || /* if end of window OR */ | |
(vc_map[ln+1] & VCMAP_VLD)) { /* next is already valid? */ | |
vid_draw (0, ln-lines, VC_XSIZE, lines+1, vc_lines+(ln-lines)*VC_XSIZE); /* update region */ | |
lines = 0; | |
} | |
else | |
lines++; | |
updated = TRUE; | |
} | |
} | |
if (updated) /* video updated? */ | |
vid_refresh (); /* put to screen */ | |
ua2681_svc (&vc_uart); /* service DUART */ | |
vc_setint (IRQ_VSYNC); /* VSYNC int */ | |
sim_clock_coschedule (uptr, tmxr_poll); /* reactivate */ | |
return SCPE_OK; | |
} | |
t_stat vc_reset (DEVICE *dptr) | |
{ | |
uint32 i; | |
t_stat r; | |
CLR_INT (QVSS); /* clear int req */ | |
sim_cancel (&vc_unit); /* stop poll */ | |
ua2681_reset (&vc_uart); /* reset DUART */ | |
vc_intc.ptr = 0; /* interrupt controller */ | |
vc_intc.irr = 0; | |
vc_intc.imr = 0xFF; | |
vc_intc.isr = 0; | |
vc_intc.acr = 0; | |
vc_intc.mode = 0x80; | |
vc_icsr = 0; | |
vc_csr = (((QVMBASE >> QVMAWIDTH) & ((1<<CSR_S_MA)-1)) << CSR_V_MA) | CSR_MOD; | |
vc_curx = 0; | |
vc_mpos = 0; | |
for (i = 0; i < CRTC_SIZE; i++) | |
vc_crtc[i] = 0; | |
vc_crtc[CRTC_CSCS] = 0x20; /* hide cursor */ | |
vc_crtc_p = (CRTCP_LPF | CRTCP_VB); | |
if (dptr->flags & DEV_DIS) { | |
free (vc_buf); | |
vc_buf = NULL; | |
free (vc_lines); | |
vc_lines = NULL; | |
free (vc_map); | |
vc_map = NULL; | |
return vid_close (); | |
} | |
if (!vid_active) { | |
r = vid_open (dptr, NULL, VC_XSIZE, VC_YSIZE, vc_input_captured ? SIM_VID_INPUTCAPTURED : 0);/* display size & capture mode */ | |
if (r != SCPE_OK) | |
return r; | |
vc_buf = (uint32 *) calloc (VC_MEMSIZE, sizeof (uint32)); | |
if (vc_buf == NULL) { | |
vid_close (); | |
return SCPE_MEM; | |
} | |
vc_lines = (uint32 *) calloc (VC_XSIZE*VC_YSIZE, sizeof (uint32)); | |
if (vc_lines == NULL) { | |
free (vc_buf); | |
vid_close (); | |
return SCPE_MEM; | |
} | |
vc_map = (uint32 *) calloc (VC_XSIZE, sizeof (uint32)); | |
if (vc_map == NULL) { | |
free (vc_lines); | |
vc_lines = NULL; | |
free (vc_buf); | |
vid_close (); | |
return SCPE_MEM; | |
} | |
sim_printf ("QVSS Display Created. "); | |
vc_show_capture (stdout, NULL, 0, NULL); | |
if (sim_log) | |
vc_show_capture (sim_log, NULL, 0, NULL); | |
sim_printf ("\n"); | |
} | |
sim_activate_abs (&vc_unit, tmxr_poll); | |
return auto_config (NULL, 0); /* run autoconfig */ | |
} | |
t_stat vc_detach (UNIT *uptr) | |
{ | |
if ((vc_dev.flags & DEV_DIS) == 0) { | |
vc_dev.flags |= DEV_DIS; | |
vc_reset(&vc_dev); | |
} | |
return SCPE_OK; | |
} | |
t_stat vc_set_enable (UNIT *uptr, int32 val, char *cptr, void *desc) | |
{ | |
return cpu_set_model (NULL, 0, (val ? "VAXSTATION" : "MICROVAX"), NULL); | |
} | |
t_stat vc_set_capture (UNIT *uptr, int32 val, char *cptr, void *desc) | |
{ | |
if (vid_active) | |
return sim_messagef (SCPE_ALATT, "Capture Mode Can't be changed with device enabled\n"); | |
vc_input_captured = val; | |
return SCPE_OK; | |
} | |
t_stat vc_show_capture (FILE* st, UNIT* uptr, int32 val, void* desc) | |
{ | |
if (vc_input_captured) { | |
fprintf (st, "Captured Input Mode, "); | |
vid_show_release_key (st, uptr, val, desc); | |
} | |
else | |
fprintf (st, "Uncaptured Input Mode"); | |
return SCPE_OK; | |
} | |
t_stat vc_help (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, const char *cptr) | |
{ | |
fprintf (st, "VCB01 Monochrome Video Subsystem (%s)\n\n", dptr->name); | |
fprintf (st, "Use the Control-Right-Shift key combination to regain focus from the simulated\n"); | |
fprintf (st, "video display\n"); | |
fprint_set_help (st, dptr); | |
fprint_show_help (st, dptr); | |
fprint_reg_help (st, dptr); | |
return SCPE_OK; | |
} | |
const char *vc_description (DEVICE *dptr) | |
{ | |
return "VCB01 Monochrome Graphics Adapter"; | |
} | |
#else /* defined(VAX_620) */ | |
static const char *dummy_declaration = "Something to compile"; | |
#endif /* !defined(VAX_620) */ |