HP2100/hp2100_defs.h - emulators/simh - Rivoreo Source Code Repositories

 /* hp2100_defs.h: HP 2100 simulator definitions

    Copyright (c) 1993-2002, Robert M. Supnik

    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
    ROBERT M SUPNIK 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 Robert M Supnik shall not
    be used in advertising or otherwise to promote the sale, use or other dealings
    in this Software without prior written authorization from Robert M Supnik.

    24-Oct-02	RMS	Added indirect address interrupt
    08-Feb-02	RMS	Added DMS definitions
    01-Feb-02	RMS	Added terminal multiplexor support
    16-Jan-02	RMS	Added additional device support
    30-Nov-01	RMS	Added extended SET/SHOW support
    15-Oct-00	RMS	Added dynamic device numbers
    14-Apr-99	RMS	Changed t_addr to unsigned

    The author gratefully acknowledges the help of Jeff Moffat in answering
    questions about the HP2100.
 */

 #include "sim_defs.h"					/* simulator defns */

 /* Simulator stop codes */

 #define STOP_RSRV	1				/* must be 1 */
 #define STOP_IODV	2				/* must be 2 */
 #define STOP_HALT	3				/* HALT */
 #define STOP_IBKPT	4				/* breakpoint */
 #define STOP_IND	5				/* indirect loop */
 #define STOP_INDINT	6				/* indirect intr */
 #define STOP_NOCONN	7				/* no connection */

 #define ABORT_PRO	1				/* protection abort */

 /* Memory */

 #define MEMSIZE		(cpu_unit.capac)		/* actual memory size */
 #define MEM_ADDR_OK(x)	(((t_addr) (x)) < MEMSIZE)
 #define VA_N_SIZE	15				/* virtual addr size */
 #define VASIZE		(1 << VA_N_SIZE)
 #define VAMASK		(VASIZE - 1)			/* virt addr mask */
 #define PA_N_SIZE	20				/* phys addr size */
 #define PASIZE		(1 << PA_N_SIZE)
 #define PAMASK		(PASIZE - 1)			/* phys addr mask */

 /* Architectural constants */

 #define SIGN32		020000000000			/* 32b sign */
 #define SIGN		0100000				/* 16b sign */
 #define DMASK		0177777				/* 16b data mask */
 #define AR		M[0]				/* A = location 0 */
 #define BR		M[1]				/* B = location 1 */
 #define ABREG		M				/* register array */
 #define SEXT(x)		((int32) (((x) & SIGN)? ((x) | ~DMASK): ((x) & DMASK)))

 /* Memory reference instructions */

 #define I_IA		0100000				/* indirect address */
 #define I_AB		0004000				/* A/B select */
 #define I_CP		0002000				/* current page */
 #define I_DISP		0001777				/* page displacement */
 #define I_PAGENO	0076000				/* page number */

 /* Other instructions */

 #define I_NMRMASK	0102000				/* non-mrf opcode */
 #define I_SRG		0000000				/* shift */
 #define I_ASKP		0002000				/* alter/skip */
 #define I_EXTD		0100000				/* extend */
 #define I_IO		0102000				/* I/O */
 #define I_CTL		0004000				/* CTL on/off */
 #define I_HC		0001000				/* hold/clear */
 #define I_DEVMASK	0000077				/* device mask */
 #define I_GETIOOP(x)	(((x) >> 6) & 07)		/* I/O sub op */

 /* DMA channels */

 #define DMA1_STC	0100000				/* DMA - issue STC */
 #define DMA1_CLC	0020000				/* DMA - issue CLC */
 #define DMA2_OI		0100000				/* DMA - output/input */

 struct DMA {						/* DMA channel */
 	int32	cw1;					/* device select */
 	int32	cw2;					/* direction, address */
 	int32	cw3;					/* word count */
 };

 /* Memory management */

 #define VA_N_OFF	10				/* offset width */
 #define VA_M_OFF	((1 << VA_N_OFF) - 1)		/* offset mask */
 #define VA_GETOFF(x)	((x) & VA_M_OFF)
 #define VA_N_PAG	(VA_N_SIZE - VA_N_OFF)		/* page width */
 #define VA_V_PAG	(VA_N_OFF)
 #define VA_M_PAG	((1 << VA_N_PAG) - 1)
 #define VA_GETPAG(x)	(((x) >> VA_V_PAG) & VA_M_PAG)

 /* Maps */

 #define MAP_NUM		4				/* num maps */
 #define MAP_LNT		(1 << VA_N_PAG)			/* map length */
 #define MAP_MASK	((MAP_NUM * MAP_LNT) - 1)
 #define SMAP		0				/* system map */
 #define UMAP		(SMAP + MAP_LNT)		/* user map */
 #define PAMAP		(UMAP + MAP_LNT)		/* port A map */
 #define PBMAP		(PAMAP + MAP_LNT)		/* port B map */

 /* Map entries are left shifted by VA_N_OFF, flags in lower 2b */

 #define PA_N_PAG	(PA_N_SIZE - VA_N_OFF)		/* page width */
 #define PA_V_PAG	(VA_N_OFF)
 #define PA_M_PAG	((1 << PA_N_PAG) - 1)
 #define MAPM_V_RPR	15				/* in mem: read prot */
 #define MAPM_V_WPR	14				/* write prot */
 #define MAPA_V_RPR	1				/* in array: */
 #define MAPA_V_WPR	0
 #define PA_GETPAG(x)	((x) & (PA_M_PAG << VA_V_PAG))
 #define RD		(1 << MAPA_V_RPR)
 #define WR		(1 << MAPA_V_WPR)

 /* Map status register */

 #define MST_ENBI	0100000				/* mem enb @ int */
 #define MST_UMPI	0040000				/* usr map @ int */
 #define MST_ENB		0020000				/* mem enb */
 #define MST_UMP		0010000				/* usr map */
 #define MST_PRO		0004000				/* protection */
 #define MST_FLT		0002000				/* fence comp */
 #define MST_FENCE	0001777				/* base page fence */

 /* Map violation register */

 #define MVI_V_RPR	15
 #define MVI_V_WPR	14
 #define MVI_RPR		(1 << MVI_V_RPR)		/* rd viol */
 #define MVI_WPR		(1 << MVI_V_WPR)		/* wr viol */
 #define MVI_BPG		0020000				/* base page viol */
 #define MVI_PRV		0010000				/* priv viol */
 #define MVI_MEB		0000200				/* me bus enb @ viol */
 #define MVI_MEM		0000100				/* mem enb @ viol */
 #define MVI_UMP		0000040				/* usr map @ viol */
 #define MVI_PAG		0000037				/* pag sel */

 /* Timers */

 #define TMR_CLK		0				/* clock */
 #define TMR_MUX		1				/* multiplexor */

 /* I/O sub-opcodes */

 #define ioHLT		0				/* halt */
 #define ioFLG		1				/* set/clear flag */
 #define ioSFC		2				/* skip on flag clear */
 #define ioSFS		3				/* skip on flag set */
 #define ioMIX		4				/* merge into A/B */
 #define ioLIX		5				/* load into A/B */
 #define ioOTX		6				/* output from A/B */
 #define ioCTL		7				/* set/clear control */

 /* I/O devices - fixed assignments */

 #define CPU		000				/* interrupt control */
 #define OVF		001				/* overflow */
 #define DMALT0		002				/* DMA 0 alternate */
 #define DMALT1		003				/* DMA 1 alternate */
 #define PWR		004				/* power fail */
 #define PRO		005				/* parity/mem protect */
 #define DMA0		006				/* DMA channel 0 */
 #define DMA1		007				/* DMA channel 1 */
 #define VARDEV		(DMA1 + 1)			/* start of var assign */
 #define M_NXDEV		(INT_M (CPU) | INT_M (OVF) | \
 			 INT_M (DMALT0) | INT_M (DMALT1))
 #define M_FXDEV		(M_NXDEV | INT_M (PWR) | INT_M (PRO) | \
 			 INT_M (DMA0) | INT_M (DMA1))

 /* I/O devices - variable assignment defaults */

 #define PTR		010				/* paper tape reader */
 #define TTY		011				/* console */
 #define PTP		012				/* paper tape punch */
 #define CLK		013				/* clock */
 #define LPS		014				/* 12653 line printer */
 #define LPT		015				/* 12845 line printer */
 #define MTD		020				/* 12559A data */
 #define MTC		021				/* 12559A control */
 #define DPD		022				/* 12557A data */
 #define DPC		023				/* 12557A control */
 #define DQD		024				/* 12565A data */
 #define DQC		025				/* 12565A control */
 #define DRD		026				/* 12610A data */
 #define DRC		027				/* 12610A control */
 #define MSD		030				/* 13181A data */
 #define MSC		031				/* 13181A control */
 #define IPLI		032				/* 12556B link in */
 #define IPLO		033				/* 12556B link out */
 #define MUXL		040				/* 12920A lower data */
 #define MUXU		041				/* 12920A upper data */
 #define MUXC		042				/* 12920A control */

 /* IBL assignments */

 #define IBL_PTR		0000000				/* PTR */
 #define IBL_DP		0040000				/* DP */
 #define IBL_DQ		0060000				/* DQ */
 #define IBL_MS		0100000				/* MS */
 #define IBL_TBD		0140000				/* tbd */
 #define IBL_V_DEV	6				/* dev in <11:6> */
 #define IBL_FIX		0000001				/* DP fixed */
 #define IBL_LNT		64				/* boot length */
 #define IBL_MASK	(IBL_LNT - 1)			/* boot length mask */

 /* Dynamic device information table */

 struct hp_dib {
 	int32	devno;					/* device number */
 	int32	cmd;					/* saved command */
 	int32	ctl;					/* saved control */
 	int32	flg;					/* saved flag */
 	int32	fbf;					/* saved flag buf */
 	int32	(*iot)();				/* I/O routine */
 };

 typedef struct hp_dib DIB;

 /* I/O macros */

 #define INT_V(x)	((x) & 037)			/* device bit pos */
 #define INT_M(x)	(1u << INT_V (x))		/* device bit mask */
 #define setCMD(D)	dev_cmd[(D)/32] = dev_cmd[(D)/32] | INT_M ((D))
 #define clrCMD(D)	dev_cmd[(D)/32] = dev_cmd[(D)/32] & ~INT_M (D)
 #define setCTL(D)	dev_ctl[(D)/32] = dev_ctl[(D)/32] | INT_M ((D))
 #define clrCTL(D)	dev_ctl[(D)/32] = dev_ctl[(D)/32] & ~INT_M (D)
 #define setFBF(D)	dev_fbf[(D)/32] = dev_fbf[(D)/32] | INT_M (D)
 #define clrFBF(D)	dev_fbf[(D)/32] = dev_fbf[(D)/32] & ~INT_M (D)
 #define setFLG(D)	dev_flg[(D)/32] = dev_flg[(D)/32] | INT_M (D); \
 			setFBF(D)
 #define clrFLG(D)	dev_flg[(D)/32] = dev_flg[(D)/32] & ~INT_M (D); \
 			clrFBF(D)
 #define CMD(D)		((dev_cmd[(D)/32] >> INT_V (D)) & 1)
 #define CTL(D)		((dev_ctl[(D)/32] >> INT_V (D)) & 1)
 #define FLG(D)		((dev_flg[(D)/32] >> INT_V (D)) & 1)
 #define FBF(D)		((dev_fbf[(D)/32] >> INT_V (D)) & 1)

 #define IOT_V_REASON	16
 #define IORETURN(f,v)	((f)? (v): SCPE_OK)		/* stop on error */

 /* Function prototypes */

 t_stat hp_setdev (UNIT *uptr, int32 val, char *cptr, void *desc);
 t_stat hp_showdev (FILE *st, UNIT *uptr, int32 val, void *desc);
 void hp_enbdis_pair (DEVICE *ccp, DEVICE *dcp);
	/* hp2100_defs.h: HP 2100 simulator definitions

	Copyright (c) 1993-2002, Robert M. Supnik

	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
	ROBERT M SUPNIK 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 Robert M Supnik shall not
	be used in advertising or otherwise to promote the sale, use or other dealings
	in this Software without prior written authorization from Robert M Supnik.

	24-Oct-02 RMS Added indirect address interrupt
	08-Feb-02 RMS Added DMS definitions
	01-Feb-02 RMS Added terminal multiplexor support
	16-Jan-02 RMS Added additional device support
	30-Nov-01 RMS Added extended SET/SHOW support
	15-Oct-00 RMS Added dynamic device numbers
	14-Apr-99 RMS Changed t_addr to unsigned

	The author gratefully acknowledges the help of Jeff Moffat in answering
	questions about the HP2100.
	*/

	#include "sim_defs.h" /* simulator defns */

	/* Simulator stop codes */

	#define STOP_RSRV 1 /* must be 1 */
	#define STOP_IODV 2 /* must be 2 */
	#define STOP_HALT 3 /* HALT */
	#define STOP_IBKPT 4 /* breakpoint */
	#define STOP_IND 5 /* indirect loop */
	#define STOP_INDINT 6 /* indirect intr */
	#define STOP_NOCONN 7 /* no connection */

	#define ABORT_PRO 1 /* protection abort */

	/* Memory */

	#define MEMSIZE (cpu_unit.capac) /* actual memory size */
	#define MEM_ADDR_OK(x) (((t_addr) (x)) < MEMSIZE)
	#define VA_N_SIZE 15 /* virtual addr size */
	#define VASIZE (1 << VA_N_SIZE)
	#define VAMASK (VASIZE - 1) /* virt addr mask */
	#define PA_N_SIZE 20 /* phys addr size */
	#define PASIZE (1 << PA_N_SIZE)
	#define PAMASK (PASIZE - 1) /* phys addr mask */

	/* Architectural constants */

	#define SIGN32 020000000000 /* 32b sign */
	#define SIGN 0100000 /* 16b sign */
	#define DMASK 0177777 /* 16b data mask */
	#define AR M[0] /* A = location 0 */
	#define BR M[1] /* B = location 1 */
	#define ABREG M /* register array */
	#define SEXT(x) ((int32) (((x) & SIGN)? ((x) \| ~DMASK): ((x) & DMASK)))

	/* Memory reference instructions */

	#define I_IA 0100000 /* indirect address */
	#define I_AB 0004000 /* A/B select */
	#define I_CP 0002000 /* current page */
	#define I_DISP 0001777 /* page displacement */
	#define I_PAGENO 0076000 /* page number */

	/* Other instructions */

	#define I_NMRMASK 0102000 /* non-mrf opcode */
	#define I_SRG 0000000 /* shift */
	#define I_ASKP 0002000 /* alter/skip */
	#define I_EXTD 0100000 /* extend */
	#define I_IO 0102000 /* I/O */
	#define I_CTL 0004000 /* CTL on/off */
	#define I_HC 0001000 /* hold/clear */
	#define I_DEVMASK 0000077 /* device mask */
	#define I_GETIOOP(x) (((x) >> 6) & 07) /* I/O sub op */

	/* DMA channels */

	#define DMA1_STC 0100000 /* DMA - issue STC */
	#define DMA1_CLC 0020000 /* DMA - issue CLC */
	#define DMA2_OI 0100000 /* DMA - output/input */

	struct DMA { /* DMA channel */
	int32 cw1; /* device select */
	int32 cw2; /* direction, address */
	int32 cw3; /* word count */
	};

	/* Memory management */

	#define VA_N_OFF 10 /* offset width */
	#define VA_M_OFF ((1 << VA_N_OFF) - 1) /* offset mask */
	#define VA_GETOFF(x) ((x) & VA_M_OFF)
	#define VA_N_PAG (VA_N_SIZE - VA_N_OFF) /* page width */
	#define VA_V_PAG (VA_N_OFF)
	#define VA_M_PAG ((1 << VA_N_PAG) - 1)
	#define VA_GETPAG(x) (((x) >> VA_V_PAG) & VA_M_PAG)

	/* Maps */

	#define MAP_NUM 4 /* num maps */
	#define MAP_LNT (1 << VA_N_PAG) /* map length */
	#define MAP_MASK ((MAP_NUM * MAP_LNT) - 1)
	#define SMAP 0 /* system map */
	#define UMAP (SMAP + MAP_LNT) /* user map */
	#define PAMAP (UMAP + MAP_LNT) /* port A map */
	#define PBMAP (PAMAP + MAP_LNT) /* port B map */

	/* Map entries are left shifted by VA_N_OFF, flags in lower 2b */

	#define PA_N_PAG (PA_N_SIZE - VA_N_OFF) /* page width */
	#define PA_V_PAG (VA_N_OFF)
	#define PA_M_PAG ((1 << PA_N_PAG) - 1)
	#define MAPM_V_RPR 15 /* in mem: read prot */
	#define MAPM_V_WPR 14 /* write prot */
	#define MAPA_V_RPR 1 /* in array: */
	#define MAPA_V_WPR 0
	#define PA_GETPAG(x) ((x) & (PA_M_PAG << VA_V_PAG))
	#define RD (1 << MAPA_V_RPR)
	#define WR (1 << MAPA_V_WPR)

	/* Map status register */

	#define MST_ENBI 0100000 /* mem enb @ int */
	#define MST_UMPI 0040000 /* usr map @ int */
	#define MST_ENB 0020000 /* mem enb */
	#define MST_UMP 0010000 /* usr map */
	#define MST_PRO 0004000 /* protection */
	#define MST_FLT 0002000 /* fence comp */
	#define MST_FENCE 0001777 /* base page fence */

	/* Map violation register */

	#define MVI_V_RPR 15
	#define MVI_V_WPR 14
	#define MVI_RPR (1 << MVI_V_RPR) /* rd viol */
	#define MVI_WPR (1 << MVI_V_WPR) /* wr viol */
	#define MVI_BPG 0020000 /* base page viol */
	#define MVI_PRV 0010000 /* priv viol */
	#define MVI_MEB 0000200 /* me bus enb @ viol */
	#define MVI_MEM 0000100 /* mem enb @ viol */
	#define MVI_UMP 0000040 /* usr map @ viol */
	#define MVI_PAG 0000037 /* pag sel */

	/* Timers */

	#define TMR_CLK 0 /* clock */
	#define TMR_MUX 1 /* multiplexor */

	/* I/O sub-opcodes */

	#define ioHLT 0 /* halt */
	#define ioFLG 1 /* set/clear flag */
	#define ioSFC 2 /* skip on flag clear */
	#define ioSFS 3 /* skip on flag set */
	#define ioMIX 4 /* merge into A/B */
	#define ioLIX 5 /* load into A/B */
	#define ioOTX 6 /* output from A/B */
	#define ioCTL 7 /* set/clear control */

	/* I/O devices - fixed assignments */

	#define CPU 000 /* interrupt control */
	#define OVF 001 /* overflow */
	#define DMALT0 002 /* DMA 0 alternate */
	#define DMALT1 003 /* DMA 1 alternate */
	#define PWR 004 /* power fail */
	#define PRO 005 /* parity/mem protect */
	#define DMA0 006 /* DMA channel 0 */
	#define DMA1 007 /* DMA channel 1 */
	#define VARDEV (DMA1 + 1) /* start of var assign */
	#define M_NXDEV (INT_M (CPU) \| INT_M (OVF) \| \
	INT_M (DMALT0) \| INT_M (DMALT1))
	#define M_FXDEV (M_NXDEV \| INT_M (PWR) \| INT_M (PRO) \| \
	INT_M (DMA0) \| INT_M (DMA1))

	/* I/O devices - variable assignment defaults */

	#define PTR 010 /* paper tape reader */
	#define TTY 011 /* console */
	#define PTP 012 /* paper tape punch */
	#define CLK 013 /* clock */
	#define LPS 014 /* 12653 line printer */
	#define LPT 015 /* 12845 line printer */
	#define MTD 020 /* 12559A data */
	#define MTC 021 /* 12559A control */
	#define DPD 022 /* 12557A data */
	#define DPC 023 /* 12557A control */
	#define DQD 024 /* 12565A data */
	#define DQC 025 /* 12565A control */
	#define DRD 026 /* 12610A data */
	#define DRC 027 /* 12610A control */
	#define MSD 030 /* 13181A data */
	#define MSC 031 /* 13181A control */
	#define IPLI 032 /* 12556B link in */
	#define IPLO 033 /* 12556B link out */
	#define MUXL 040 /* 12920A lower data */
	#define MUXU 041 /* 12920A upper data */
	#define MUXC 042 /* 12920A control */

	/* IBL assignments */

	#define IBL_PTR 0000000 /* PTR */
	#define IBL_DP 0040000 /* DP */
	#define IBL_DQ 0060000 /* DQ */
	#define IBL_MS 0100000 /* MS */
	#define IBL_TBD 0140000 /* tbd */
	#define IBL_V_DEV 6 /* dev in <11:6> */
	#define IBL_FIX 0000001 /* DP fixed */
	#define IBL_LNT 64 /* boot length */
	#define IBL_MASK (IBL_LNT - 1) /* boot length mask */

	/* Dynamic device information table */

	struct hp_dib {
	int32 devno; /* device number */
	int32 cmd; /* saved command */
	int32 ctl; /* saved control */
	int32 flg; /* saved flag */
	int32 fbf; /* saved flag buf */
	int32 (iot)(); / I/O routine */
	};

	typedef struct hp_dib DIB;

	/* I/O macros */

	#define INT_V(x) ((x) & 037) /* device bit pos */
	#define INT_M(x) (1u << INT_V (x)) /* device bit mask */
	#define setCMD(D) dev_cmd[(D)/32] = dev_cmd[(D)/32] \| INT_M ((D))
	#define clrCMD(D) dev_cmd[(D)/32] = dev_cmd[(D)/32] & ~INT_M (D)
	#define setCTL(D) dev_ctl[(D)/32] = dev_ctl[(D)/32] \| INT_M ((D))
	#define clrCTL(D) dev_ctl[(D)/32] = dev_ctl[(D)/32] & ~INT_M (D)
	#define setFBF(D) dev_fbf[(D)/32] = dev_fbf[(D)/32] \| INT_M (D)
	#define clrFBF(D) dev_fbf[(D)/32] = dev_fbf[(D)/32] & ~INT_M (D)
	#define setFLG(D) dev_flg[(D)/32] = dev_flg[(D)/32] \| INT_M (D); \
	setFBF(D)
	#define clrFLG(D) dev_flg[(D)/32] = dev_flg[(D)/32] & ~INT_M (D); \
	clrFBF(D)
	#define CMD(D) ((dev_cmd[(D)/32] >> INT_V (D)) & 1)
	#define CTL(D) ((dev_ctl[(D)/32] >> INT_V (D)) & 1)
	#define FLG(D) ((dev_flg[(D)/32] >> INT_V (D)) & 1)
	#define FBF(D) ((dev_fbf[(D)/32] >> INT_V (D)) & 1)

	#define IOT_V_REASON 16
	#define IORETURN(f,v) ((f)? (v): SCPE_OK) /* stop on error */

	/* Function prototypes */

	t_stat hp_setdev (UNIT uptr, int32 val, char cptr, void *desc);
	t_stat hp_showdev (FILE st, UNIT uptr, int32 val, void *desc);
	void hp_enbdis_pair (DEVICE ccp, DEVICE dcp);