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/* pdp11_sys.c: PDP-11 simulator interface
Copyright (c) 1993-2013, 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.
02-Sep-13 RMS Added third Massbus, RS03/RS04
29-Apr-12 RMS Fixed compiler warning (Mark Pizzolato)
19-Nov-08 RMS Moved I/O support routines to I/O library
15-May-08 RMS Added KE11-A, DC11 support
Renamed DL11
04-Feb-08 RMS Modified to allow -A, -B use with 8b devices
25-Jan-08 RMS Added RC11, KG11A support from John Dundas
10-Sep-07 RMS Cleaned up binary loader
20-Dec-06 RMS Added TA11 support
12-Nov-06 RMS Fixed operand order in EIS instructions (W.F.J. Mueller)
14-Jul-06 RMS Reordered device list
06-Jul-06 RMS Added multiple KL11/DL11 support
26-Jun-06 RMS Added RF11 support
17-May-06 RMS Added CR11/CD11 support (John Dundas)
16-Aug-05 RMS Fixed C++ declaration and cast problems
22-Jul-05 RMS Fixed missing , in initializer (Doug Gwyn)
22-Dec-03 RMS Added second DEUNA/DELUA support
18-Oct-03 RMS Added DECtape off reel message
14-Sep-03 PLB Added VT11 support
06-May-03 RMS Added support for second DEQNA/DELQA
09-Jan-03 RMS Added DELUA/DEUNA support
17-Oct-02 RMS Fixed bugs in branch, SOB address parsing
09-Oct-02 RMS Added DELQA support
12-Sep-02 RMS Added TMSCP, KW11P, RX211 support, RAD50 examine
29-Nov-01 RMS Added read only unit support
17-Sep-01 RMS Removed multiconsole support
26-Aug-01 RMS Added DZ11
20-Aug-01 RMS Updated bad block inquiry
17-Jul-01 RMS Fixed warning from VC++ 6.0
27-May-01 RMS Added multiconsole support
05-Apr-01 RMS Added support for TS11/TSV05
14-Mar-01 RMS Revised load/dump interface (again)
11-Feb-01 RMS Added DECtape support
30-Oct-00 RMS Added support for examine to file
14-Apr-99 RMS Changed t_addr to unsigned
09-Nov-98 RMS Fixed assignments of ROR/ROL (John Wilson)
27-Oct-98 RMS V2.4 load interface
08-Oct-98 RMS Fixed bug in bad block routine
30-Mar-98 RMS Fixed bug in floating point display
12-Nov-97 RMS Added bad block table routine
*/
#include "pdp11_defs.h"
#include <ctype.h>
extern DEVICE cpu_dev;
extern DEVICE sys_dev;
extern DEVICE ptr_dev;
extern DEVICE ptp_dev;
extern DEVICE tti_dev;
extern DEVICE tto_dev;
extern DEVICE lpt_dev;
extern DEVICE cr_dev;
extern DEVICE clk_dev;
extern DEVICE pclk_dev;
extern DEVICE dli_dev;
extern DEVICE dlo_dev;
extern DEVICE dci_dev;
extern DEVICE dco_dev;
extern DEVICE dz_dev;
extern DEVICE vh_dev;
extern DEVICE dt_dev;
extern DEVICE rc_dev;
extern DEVICE rf_dev;
extern DEVICE rk_dev;
extern DEVICE rl_dev;
extern DEVICE hk_dev;
extern DEVICE rx_dev;
extern DEVICE ry_dev;
extern DEVICE mba_dev[];
extern DEVICE rp_dev;
extern DEVICE rs_dev;
extern DEVICE rq_dev, rqb_dev, rqc_dev, rqd_dev;
extern DEVICE tm_dev;
extern DEVICE tq_dev;
extern DEVICE ts_dev;
extern DEVICE tu_dev;
extern DEVICE ta_dev;
#ifdef USE_DISPLAY
extern DEVICE vt_dev;
#endif
extern DEVICE xq_dev, xqb_dev;
extern DEVICE xu_dev, xub_dev;
extern DEVICE ke_dev;
extern DEVICE kg_dev;
extern DEVICE dmc_dev;
extern DEVICE dup_dev;
extern DEVICE dpv_dev;
extern DEVICE kmc_dev;
extern UNIT cpu_unit;
extern REG cpu_reg[];
extern uint16 *M;
extern int32 saved_PC;
/* SCP data structures and interface routines
sim_name simulator name string
sim_PC pointer to saved PC register descriptor
sim_emax number of words for examine
sim_devices array of pointers to simulated devices
sim_stop_messages array of pointers to stop messages
sim_load binary loader
*/
char sim_name[] = "PDP-11";
REG *sim_PC = &cpu_reg[0];
int32 sim_emax = 4;
DEVICE *sim_devices[] = {
&cpu_dev,
&sys_dev,
&mba_dev[0],
&mba_dev[1],
&mba_dev[2],
&clk_dev,
&pclk_dev,
&ptr_dev,
&ptp_dev,
&tti_dev,
&tto_dev,
&cr_dev,
&lpt_dev,
&dli_dev,
&dlo_dev,
&dci_dev,
&dco_dev,
&dz_dev,
&vh_dev,
&rc_dev,
&rf_dev,
&rk_dev,
&rl_dev,
&hk_dev,
&rx_dev,
&ry_dev,
&rp_dev,
&rs_dev,
&rq_dev,
&rqb_dev,
&rqc_dev,
&rqd_dev,
&dt_dev,
&tm_dev,
&ts_dev,
&tq_dev,
&tu_dev,
&ta_dev,
#ifdef USE_DISPLAY
&vt_dev,
#endif
&xq_dev,
&xqb_dev,
&xu_dev,
&xub_dev,
&ke_dev,
&kg_dev,
&dmc_dev,
&dup_dev,
&dpv_dev,
&kmc_dev,
NULL
};
const char *sim_stop_messages[] = {
"Unknown error",
"Red stack trap",
"Odd address trap",
"Memory management trap",
"Non-existent memory trap",
"Parity error trap",
"Privilege trap",
"Illegal instruction trap",
"BPT trap",
"IOT trap",
"EMT trap",
"TRAP trap",
"Trace trap",
"Yellow stack trap",
"Powerfail trap",
"Floating point exception",
"HALT instruction",
"Breakpoint",
"Wait state",
"Trap vector fetch abort",
"Trap stack push abort",
"RQDX3 consistency error",
"Sanity timer expired",
"DECtape off reel"
};
/* Binary loader.
Loader format consists of blocks, optionally preceded, separated, and
followed by zeroes. Each block consists of:
001 ---
xxx |
lo_count |
hi_count |
lo_origin > count bytes
hi_origin |
data byte |
: |
data byte ---
checksum
If the byte count is exactly six, the block is the last on the tape, and
there is no checksum. If the origin is not 000001, then the origin is
the PC at which to start the program.
*/
t_stat sim_load (FILE *fileref, char *cptr, char *fnam, int flag)
{
int32 c[6], d, i, cnt, csum;
uint32 org;
if ((*cptr != 0) || (flag != 0))
return SCPE_ARG;
do { /* block loop */
csum = 0; /* init checksum */
for (i = 0; i < 6; ) { /* 6 char header */
if ((c[i] = getc (fileref)) == EOF)
return SCPE_FMT;
if ((i != 0) || (c[i] == 1)) /* 1st must be 1 */
csum = csum + c[i++]; /* add into csum */
}
cnt = (c[3] << 8) | c[2]; /* count */
org = (c[5] << 8) | c[4]; /* origin */
if (cnt < 6) /* invalid? */
return SCPE_FMT;
if (cnt == 6) { /* end block? */
if (org != 1) /* set PC? */
saved_PC = org & 0177776;
return SCPE_OK;
}
for (i = 6; i < cnt; i++) { /* exclude hdr */
if ((d = getc (fileref)) == EOF) /* data char */
return SCPE_FMT;
csum = csum + d; /* add into csum */
if (org >= MEMSIZE) /* invalid addr? */
return SCPE_NXM;
M[org >> 1] = (org & 1)? /* store data */
(M[org >> 1] & 0377) | (uint16)(d << 8):
(M[org >> 1] & 0177400) | (uint16)d;
org = (org + 1) & 0177777; /* inc origin */
}
if ((d = getc (fileref)) == EOF) /* get csum */
return SCPE_FMT;
csum = csum + d; /* add in */
} while ((csum & 0377) == 0); /* result mbz */
return SCPE_CSUM;
}
/* Symbol tables */
#define I_V_L 16 /* long mode */
#define I_V_D 17 /* double mode */
#define I_L (1 << I_V_L)
#define I_D (1 << I_V_D)
/* Warning: for literals, the class number MUST equal the field width!! */
#define I_V_CL 18 /* class bits */
#define I_M_CL 037 /* class mask */
#define I_V_NPN 0 /* no operands */
#define I_V_REG 1 /* reg */
#define I_V_SOP 2 /* operand */
#define I_V_3B 3 /* 3b literal */
#define I_V_FOP 4 /* flt operand */
#define I_V_AFOP 5 /* fac, flt operand */
#define I_V_6B 6 /* 6b literal */
#define I_V_BR 7 /* cond branch */
#define I_V_8B 8 /* 8b literal */
#define I_V_SOB 9 /* reg, disp */
#define I_V_RSOP 10 /* reg, operand */
#define I_V_ASOP 11 /* fac, operand */
#define I_V_ASMD 12 /* fac, moded int op */
#define I_V_DOP 13 /* double operand */
#define I_V_CCC 14 /* CC clear */
#define I_V_CCS 15 /* CC set */
#define I_V_SOPR 16 /* operand, reg */
#define I_NPN (I_V_NPN << I_V_CL)
#define I_REG (I_V_REG << I_V_CL)
#define I_3B (I_V_3B << I_V_CL)
#define I_SOP (I_V_SOP << I_V_CL)
#define I_FOP (I_V_FOP << I_V_CL)
#define I_6B (I_V_6B << I_V_CL)
#define I_BR (I_V_BR << I_V_CL)
#define I_8B (I_V_8B << I_V_CL)
#define I_AFOP (I_V_AFOP << I_V_CL)
#define I_ASOP (I_V_ASOP << I_V_CL)
#define I_RSOP (I_V_RSOP << I_V_CL)
#define I_SOB (I_V_SOB << I_V_CL)
#define I_ASMD (I_V_ASMD << I_V_CL)
#define I_DOP (I_V_DOP << I_V_CL)
#define I_CCC (I_V_CCC << I_V_CL)
#define I_CCS (I_V_CCS << I_V_CL)
#define I_SOPR (I_V_SOPR << I_V_CL)
static const int32 masks[] = {
0177777, 0177770, 0177700, 0177770,
0177700+I_D, 0177400+I_D, 0177700, 0177400,
0177400, 0177000, 0177000, 0177400,
0177400+I_D+I_L, 0170000, 0177777, 0177777,
0177000
};
static const char *opcode[] = {
"HALT","WAIT","RTI","BPT",
"IOT","RESET","RTT","MFPT",
"JMP","RTS","SPL",
"NOP","CLC","CLV","CLV CLC",
"CLZ","CLZ CLC","CLZ CLV","CLZ CLV CLC",
"CLN","CLN CLC","CLN CLV","CLN CLV CLC",
"CLN CLZ","CLN CLZ CLC","CLN CLZ CLC","CCC",
"NOP","SEC","SEV","SEV SEC",
"SEZ","SEZ SEC","SEZ SEV","SEZ SEV SEC",
"SEN","SEN SEC","SEN SEV","SEN SEV SEC",
"SEN SEZ","SEN SEZ SEC","SEN SEZ SEC","SCC",
"SWAB","BR","BNE","BEQ",
"BGE","BLT","BGT","BLE",
"JSR",
"CLR","COM","INC","DEC",
"NEG","ADC","SBC","TST",
"ROR","ROL","ASR","ASL",
"MARK","MFPI","MTPI","SXT",
"CSM", "TSTSET","WRTLCK",
"MOV","CMP","BIT","BIC",
"BIS","ADD",
"MUL","DIV","ASH","ASHC",
"XOR",
"FADD","FSUB","FMUL","FDIV",
"L2DR",
"MOVC","MOVRC","MOVTC",
"LOCC","SKPC","SCANC","SPANC",
"CMPC","MATC",
"ADDN","SUBN","CMPN","CVTNL",
"CVTPN","CVTNP","ASHN","CVTLN",
"L3DR",
"ADDP","SUBP","CMPP","CVTPL",
"MULP","DIVP","ASHP","CVTLP",
"MOVCI","MOVRCI","MOVTCI",
"LOCCI","SKPCI","SCANCI","SPANCI",
"CMPCI","MATCI",
"ADDNI","SUBNI","CMPNI","CVTNLI",
"CVTPNI","CVTNPI","ASHNI","CVTLNI",
"ADDPI","SUBPI","CMPPI","CVTPLI",
"MULPI","DIVPI","ASHPI","CVTLPI",
"SOB",
"BPL","BMI","BHI","BLOS",
"BVC","BVS","BCC","BCS",
"BHIS","BLO", /* encode only */
"EMT","TRAP",
"CLRB","COMB","INCB","DECB",
"NEGB","ADCB","SBCB","TSTB",
"RORB","ROLB","ASRB","ASLB",
"MTPS","MFPD","MTPD","MFPS",
"MOVB","CMPB","BITB","BICB",
"BISB","SUB",
"CFCC","SETF","SETI","SETD","SETL",
"LDFPS","STFPS","STST",
"CLRF","CLRD","TSTF","TSTD",
"ABSF","ABSD","NEGF","NEGD",
"MULF","MULD","MODF","MODD",
"ADDF","ADDD","LDF","LDD",
"SUBF","SUBD","CMPF","CMPD",
"STF","STD","DIVF","DIVD",
"STEXP",
"STCFI","STCDI","STCFL","STCDL",
"STCFD","STCDF",
"LDEXP",
"LDCIF","LDCID","LDCLF","LDCLD",
"LDCFD","LDCDF",
NULL
};
static const int32 opc_val[] = {
0000000+I_NPN, 0000001+I_NPN, 0000002+I_NPN, 0000003+I_NPN,
0000004+I_NPN, 0000005+I_NPN, 0000006+I_NPN, 0000007+I_NPN,
0000100+I_SOP, 0000200+I_REG, 0000230+I_3B,
0000240+I_CCC, 0000241+I_CCC, 0000242+I_CCC, 0000243+I_NPN,
0000244+I_CCC, 0000245+I_NPN, 0000246+I_NPN, 0000247+I_NPN,
0000250+I_CCC, 0000251+I_NPN, 0000252+I_NPN, 0000253+I_NPN,
0000254+I_NPN, 0000255+I_NPN, 0000256+I_NPN, 0000257+I_CCC,
0000260+I_CCS, 0000261+I_CCS, 0000262+I_CCS, 0000263+I_NPN,
0000264+I_CCS, 0000265+I_NPN, 0000266+I_NPN, 0000267+I_NPN,
0000270+I_CCS, 0000271+I_NPN, 0000272+I_NPN, 0000273+I_NPN,
0000274+I_NPN, 0000275+I_NPN, 0000276+I_NPN, 0000277+I_CCS,
0000300+I_SOP, 0000400+I_BR, 0001000+I_BR, 0001400+I_BR,
0002000+I_BR, 0002400+I_BR, 0003000+I_BR, 0003400+I_BR,
0004000+I_RSOP,
0005000+I_SOP, 0005100+I_SOP, 0005200+I_SOP, 0005300+I_SOP,
0005400+I_SOP, 0005500+I_SOP, 0005600+I_SOP, 0005700+I_SOP,
0006000+I_SOP, 0006100+I_SOP, 0006200+I_SOP, 0006300+I_SOP,
0006400+I_6B, 0006500+I_SOP, 0006600+I_SOP, 0006700+I_SOP,
0007000+I_SOP, 0007200+I_SOP, 0007300+I_SOP,
0010000+I_DOP, 0020000+I_DOP, 0030000+I_DOP, 0040000+I_DOP,
0050000+I_DOP, 0060000+I_DOP,
0070000+I_SOPR, 0071000+I_SOPR, 0072000+I_SOPR, 0073000+I_SOPR,
0074000+I_RSOP,
0075000+I_REG, 0075010+I_REG, 0075020+I_REG, 0075030+I_REG,
0076020+I_REG,
0076030+I_NPN, 0076031+I_NPN, 0076032+I_NPN,
0076040+I_NPN, 0076041+I_NPN, 0076042+I_NPN, 0076043+I_NPN,
0076044+I_NPN, 0076045+I_NPN,
0076050+I_NPN, 0076051+I_NPN, 0076052+I_NPN, 0076053+I_NPN,
0076054+I_NPN, 0076055+I_NPN, 0076056+I_NPN, 0076057+I_NPN,
0076060+I_REG,
0076070+I_NPN, 0076071+I_NPN, 0076072+I_NPN, 0076073+I_NPN,
0076074+I_NPN, 0076075+I_NPN, 0076076+I_NPN, 0076077+I_NPN,
0076130+I_NPN, 0076131+I_NPN, 0076132+I_NPN,
0076140+I_NPN, 0076141+I_NPN, 0076142+I_NPN, 0076143+I_NPN,
0076144+I_NPN, 0076145+I_NPN,
0076150+I_NPN, 0076151+I_NPN, 0076152+I_NPN, 0076153+I_NPN,
0076154+I_NPN, 0076155+I_NPN, 0076156+I_NPN, 0076157+I_NPN,
0076170+I_NPN, 0076171+I_NPN, 0076172+I_NPN, 0076173+I_NPN,
0076174+I_NPN, 0076175+I_NPN, 0076176+I_NPN, 0076177+I_NPN,
0077000+I_SOB,
0100000+I_BR, 0100400+I_BR, 0101000+I_BR, 0101400+I_BR,
0102000+I_BR, 0102400+I_BR, 0103000+I_BR, 0103400+I_BR,
0103000+I_BR, 0103400+I_BR,
0104000+I_8B, 0104400+I_8B,
0105000+I_SOP, 0105100+I_SOP, 0105200+I_SOP, 0105300+I_SOP,
0105400+I_SOP, 0105500+I_SOP, 0105600+I_SOP, 0105700+I_SOP,
0106000+I_SOP, 0106100+I_SOP, 0106200+I_SOP, 0106300+I_SOP,
0106400+I_SOP, 0106500+I_SOP, 0106600+I_SOP, 0106700+I_SOP,
0110000+I_DOP, 0120000+I_DOP, 0130000+I_DOP, 0140000+I_DOP,
0150000+I_DOP, 0160000+I_DOP,
0170000+I_NPN, 0170001+I_NPN, 0170002+I_NPN, 0170011+I_NPN, 0170012+I_NPN,
0170100+I_SOP, 0170200+I_SOP, 0170300+I_SOP,
0170400+I_FOP, 0170400+I_FOP+I_D, 0170500+I_FOP, 0170500+I_FOP+I_D,
0170600+I_FOP, 0170600+I_FOP+I_D, 0170700+I_FOP, 0170700+I_FOP+I_D,
0171000+I_AFOP, 0171000+I_AFOP+I_D, 0171400+I_AFOP, 0171400+I_AFOP+I_D,
0172000+I_AFOP, 0172000+I_AFOP+I_D, 0172400+I_AFOP, 0172400+I_AFOP+I_D,
0173000+I_AFOP, 0173000+I_AFOP+I_D, 0173400+I_AFOP, 0173400+I_AFOP+I_D,
0174000+I_AFOP, 0174000+I_AFOP+I_D, 0174400+I_AFOP, 0174400+I_AFOP+I_D,
0175000+I_ASOP,
0175400+I_ASMD, 0175400+I_ASMD+I_D, 0175400+I_ASMD+I_L, 0175400+I_ASMD+I_D+I_L,
0176000+I_AFOP, 0176000+I_AFOP+I_D,
0176400+I_ASOP,
0177000+I_ASMD, 0177000+I_ASMD+I_D, 0177000+I_ASMD+I_L, 0177000+I_ASMD+I_D+I_L,
0177400+I_AFOP, 0177400+I_AFOP+I_D,
-1
};
static const char *rname [] = {
"R0", "R1", "R2", "R3", "R4", "R5", "SP", "PC"
};
static const char *fname [] = {
"F0", "F1", "F2", "F3", "F4", "F5", "?6", "?7"
};
static const char r50_to_asc[] = " ABCDEFGHIJKLMNOPQRSTUVWXYZ$._0123456789";
/* Specifier decode
Inputs:
*of = output stream
addr = current PC
spec = specifier
nval = next word
flag = TRUE if decoding for CPU
iflag = TRUE if decoding integer instruction
Outputs:
count = -number of extra words retired
*/
/* Use scp.c provided fprintf function */
#define fprintf Fprintf
#define fputs(_s,f) Fprintf(f,"%s",_s)
#define fputc(_c,f) Fprintf(f,"%c",_c)
int32 fprint_spec (FILE *of, t_addr addr, int32 spec, t_value nval,
int32 flag, int32 iflag)
{
int32 reg, mode;
static const int32 rgwd[8] = { 0, 0, 0, 0, 0, 0, -1, -1 };
static const int32 pcwd[8] = { 0, 0, -1, -1, 0, 0, -1, -1 };
reg = spec & 07;
mode = ((spec >> 3) & 07);
switch (mode) {
case 0:
if (iflag)
fprintf (of, "%s", rname[reg]);
else fprintf (of, "%s", fname[reg]);
break;
case 1:
fprintf (of, "(%s)", rname[reg]);
break;
case 2:
if (reg != 7)
fprintf (of, "(%s)+", rname[reg]);
else fprintf (of, "#%-o", nval);
break;
case 3:
if (reg != 7)
fprintf (of, "@(%s)+", rname[reg]);
else fprintf (of, "@#%-o", nval);
break;
case 4:
fprintf (of, "-(%s)", rname[reg]);
break;
case 5:
fprintf (of, "@-(%s)", rname[reg]);
break;
case 6:
if ((reg != 7) || !flag)
fprintf (of, "%-o(%s)", nval, rname[reg]);
else fprintf (of, "%-o", (nval + addr + 4) & 0177777);
break;
case 7:
if ((reg != 7) || !flag)
fprintf (of, "@%-o(%s)", nval, rname[reg]);
else fprintf (of, "@%-o", (nval + addr + 4) & 0177777);
break;
} /* end case */
return ((reg == 07)? pcwd[mode]: rgwd[mode]);
}
/* Symbolic decode
Inputs:
*of = output stream
addr = current PC
*val = values to decode
*uptr = pointer to unit
sw = switches
Outputs:
return = if >= 0, error code
if < 0, number of extra words retired
*/
t_stat fprint_sym (FILE *of, t_addr addr, t_value *val,
UNIT *uptr, int32 sw)
{
int32 cflag, i, j, c1, c2, c3, inst, fac, srcm, srcr, dstm, dstr;
int32 bflag, l8b, brdisp, wd1, wd2;
extern int32 FPS;
bflag = 0; /* assume 16b */
cflag = (uptr == NULL) || (uptr == &cpu_unit); /* cpu? */
if (!cflag) { /* not cpu? */
DEVICE *dptr = find_dev_from_unit (uptr);
if (dptr == NULL)
return SCPE_IERR;
if (dptr->dwidth < 16)
bflag = 1;
}
if (sw & SWMASK ('A')) { /* ASCII? */
if (bflag)
c1 = val[0] & 0177;
else c1 = (val[0] >> ((addr & 1)? 8: 0)) & 0177;
fprintf (of, (c1 < 040)? "<%03o>": "%c", c1);
return 0;
}
if (sw & SWMASK ('B')) { /* byte? */
if (bflag)
c1 = val[0] & 0177;
else c1 = (val[0] >> ((addr & 1)? 8: 0)) & 0377;
fprintf (of, "%o", c1);
return 0;
}
if (bflag) /* 16b only */
return SCPE_ARG;
if (sw & SWMASK ('C')) { /* character? */
c1 = val[0] & 0177;
c2 = (val[0] >> 8) & 0177;
fprintf (of, (c1 < 040)? "<%03o>": "%c", c1);
fprintf (of, (c2 < 040)? "<%03o>": "%c", c2);
return -1;
}
if (sw & SWMASK ('R')) { /* radix 50? */
if (val[0] > 0174777) /* max value */
return SCPE_ARG;
c3 = val[0] % 050;
c2 = (val[0] / 050) % 050;
c1 = val[0] / (050 * 050);
fprintf (of, "%c%c%c", r50_to_asc[c1],
r50_to_asc[c2], r50_to_asc[c3]);
return -1;
}
if (!(sw & SWMASK ('M')))
return SCPE_ARG;
inst = val[0] | ((FPS << (I_V_L - FPS_V_L)) & I_L) |
((FPS << (I_V_D - FPS_V_D)) & I_D); /* inst + fp mode */
for (i = 0; opc_val[i] >= 0; i++) { /* loop thru ops */
j = (opc_val[i] >> I_V_CL) & I_M_CL; /* get class */
if ((opc_val[i] & 0777777) == (inst & masks[j])) { /* match? */
srcm = (inst >> 6) & 077; /* opr fields */
srcr = srcm & 07;
fac = srcm & 03;
dstm = inst & 077;
dstr = dstm & 07;
l8b = inst & 0377;
wd1 = wd2 = 0;
switch (j) { /* case on class */
case I_V_NPN: case I_V_CCC: case I_V_CCS: /* no operands */
fprintf (of, "%s", opcode[i]);
break;
case I_V_REG: /* reg */
fprintf (of, "%s %-s", opcode[i], rname[dstr]);
break;
case I_V_SOP: /* sop */
fprintf (of, "%s ", opcode[i]);
wd1 = fprint_spec (of, addr, dstm, val[1], cflag, TRUE);
break;
case I_V_3B: /* 3b */
fprintf (of, "%s %-o", opcode[i], dstr);
break;
case I_V_FOP: /* fop */
fprintf (of, "%s ", opcode[i]);
wd1 = fprint_spec (of, addr, dstm, val[1], cflag, FALSE);
break;
case I_V_AFOP: /* afop */
fprintf (of, "%s %s,", opcode[i], fname[fac]);
wd1 = fprint_spec (of, addr, dstm, val[1], cflag, FALSE);
break;
case I_V_6B: /* 6b */
fprintf (of, "%s %-o", opcode[i], dstm);
break;
case I_V_BR: /* cond branch */
fprintf (of, "%s ", opcode[i]);
brdisp = (l8b + l8b + ((l8b & 0200)? 0177002: 2)) & 0177777;
if (cflag)
fprintf (of, "%-o", (addr + brdisp) & 0177777);
else if (brdisp < 01000)
fprintf (of, ".+%-o", brdisp);
else fprintf (of, ".-%-o", 0200000 - brdisp);
break;
case I_V_8B: /* 8b */
fprintf (of, "%s %-o", opcode[i], l8b);
break;
case I_V_SOB: /* sob */
fprintf (of, "%s %s,", opcode[i], rname[srcr]);
brdisp = (dstm * 2) - 2;
if (cflag)
fprintf (of, "%-o", (addr - brdisp) & 0177777);
else if (brdisp <= 0)
fprintf (of, ".+%-o", -brdisp);
else fprintf (of, ".-%-o", brdisp);
break;
case I_V_RSOP: /* rsop */
fprintf (of, "%s %s,", opcode[i], rname[srcr]);
wd1 = fprint_spec (of, addr, dstm, val[1], cflag, TRUE);
break;
case I_V_SOPR: /* sopr */
fprintf (of, "%s ", opcode[i]);
wd1 = fprint_spec (of, addr, dstm, val[1], cflag, TRUE);
fprintf (of, ",%s", rname[srcr]);
break;
case I_V_ASOP: case I_V_ASMD: /* asop, asmd */
fprintf (of, "%s %s,", opcode[i], fname[fac]);
wd1 = fprint_spec (of, addr, dstm, val[1], cflag, TRUE);
break;
case I_V_DOP: /* dop */
fprintf (of, "%s ", opcode[i]);
wd1 = fprint_spec (of, addr, srcm, val[1], cflag, TRUE);
fprintf (of, ",");
wd2 = fprint_spec (of, addr - wd1 - wd1, dstm,
val[1 - wd1], cflag, TRUE);
break;
} /* end case */
return ((wd1 + wd2) * 2) - 1;
} /* end if */
} /* end for */
return SCPE_ARG; /* no match */
}
#define A_PND 100 /* # seen */
#define A_MIN 040 /* -( seen */
#define A_PAR 020 /* (Rn) seen */
#define A_REG 010 /* Rn seen */
#define A_PLS 004 /* + seen */
#define A_NUM 002 /* number seen */
#define A_REL 001 /* relative addr seen */
/* Register number
Inputs:
*cptr = pointer to input string
*strings = pointer to register names
mchar = character to match after register name
Outputs:
rnum = 0..7 if a legitimate register
< 0 if error
*/
int32 get_reg (char *cptr, const char *strings[], char mchar)
{
int32 i;
if (*(cptr + 2) != mchar)
return -1;
for (i = 0; i < 8; i++) {
if (strncmp (cptr, strings[i], 2) == 0)
return i;
}
return -1;
}
/* Number or memory address
Inputs:
*cptr = pointer to input string
*dptr = pointer to output displacement
*pflag = pointer to accumulating flags
Outputs:
cptr = pointer to next character in input string
NULL if parsing error
Flags: 0 (no result), A_NUM (number), A_REL (relative)
*/
char *get_addr (char *cptr, int32 *dptr, int32 *pflag)
{
int32 val, minus;
char *tptr;
minus = 0;
if (*cptr == '.') { /* relative? */
*pflag = *pflag | A_REL;
cptr++;
}
if (*cptr == '+') { /* +? */
*pflag = *pflag | A_NUM;
cptr++;
}
if (*cptr == '-') { /* -? */
*pflag = *pflag | A_NUM;
minus = 1;
cptr++;
}
errno = 0;
val = strtoul (cptr, &tptr, 8);
if (cptr == tptr) { /* no number? */
if (*pflag == (A_REL + A_NUM)) /* .+, .-? */
return NULL;
*dptr = 0;
return cptr;
}
if (errno || (*pflag == A_REL)) /* .n? */
return NULL;
*dptr = (minus? -val: val) & 0177777;
*pflag = *pflag | A_NUM;
return tptr;
}
/* Specifier decode
Inputs:
*cptr = pointer to input string
addr = current PC
n1 = 0 if no extra word used
-1 if extra word used in prior decode
*sptr = pointer to output specifier
*dptr = pointer to output displacement
cflag = true if parsing for the CPU
iflag = true if integer specifier
Outputs:
status = = -1 extra word decoded
= 0 ok
= +1 error
*/
t_stat get_spec (char *cptr, t_addr addr, int32 n1, int32 *sptr, t_value *dptr,
int32 cflag, int32 iflag)
{
int32 reg, indir, pflag, disp = 0;
indir = 0; /* no indirect */
pflag = 0;
if (*cptr == '@') { /* indirect? */
indir = 010;
cptr++;
}
if (*cptr == '#') { /* literal? */
pflag = pflag | A_PND;
cptr++;
}
if (strncmp (cptr, "-(", 2) == 0) { /* autodecrement? */
pflag = pflag | A_MIN;
cptr++;
}
else if ((cptr = get_addr (cptr, &disp, &pflag)) == NULL)
return 1;
if (*cptr == '(') { /* register index? */
pflag = pflag | A_PAR;
if ((reg = get_reg (cptr + 1, rname, ')')) < 0)
return 1;
cptr = cptr + 4;
if (*cptr == '+') { /* autoincrement? */
pflag = pflag | A_PLS;
cptr++;
}
}
else if ((reg = get_reg (cptr, iflag? rname: fname, 0)) >= 0) {
pflag = pflag | A_REG;
cptr = cptr + 2;
}
if (*cptr != 0) /* all done? */
return 1;
switch (pflag) { /* case on syntax */
case A_REG: /* Rn, @Rn */
*sptr = indir + reg;
return 0;
case A_PAR: /* (Rn), @(Rn) */
if (indir) { /* @(Rn) = @0(Rn) */
*sptr = 070 + reg;
*dptr = 0;
return -1;
}
else *sptr = 010 + reg;
return 0;
case A_PAR+A_PLS: /* (Rn)+, @(Rn)+ */
*sptr = 020 + indir + reg;
return 0;
case A_MIN+A_PAR: /* -(Rn), @-(Rn) */
*sptr = 040 + indir + reg;
return 0;
case A_NUM+A_PAR: /* d(Rn), @d(Rn) */
*sptr = 060 + indir + reg;
*dptr = disp;
return -1;
case A_PND+A_REL: case A_PND+A_REL+A_NUM: /* #.+n, @#.+n */
if (!cflag)
return 1;
disp = (disp + addr) & 0177777; /* fall through */
case A_PND+A_NUM: /* #n, @#n */
*sptr = 027 + indir;
*dptr = disp;
return -1;
case A_REL: case A_REL+A_NUM: /* .+n, @.+n */
*sptr = 067 + indir;
*dptr = (disp - 4 + (2 * n1)) & 0177777;
return -1;
case A_NUM: /* n, @n */
if (cflag) { /* CPU - use rel */
*sptr = 067 + indir;
*dptr = (disp - addr - 4 + (2 * n1)) & 0177777;
}
else {
if (indir) return 1; /* other - use abs */
*sptr = 037;
*dptr = disp;
}
return -1;
default:
return 1;
} /* end case */
}
/* Symbolic input
Inputs:
*cptr = pointer to input string
addr = current PC
*uptr = pointer to unit
*val = pointer to output values
sw = switches
Outputs:
status = > 0 error code
<= 0 -number of extra words
*/
t_stat parse_sym (char *cptr, t_addr addr, UNIT *uptr, t_value *val, int32 sw)
{
int32 bflag, cflag, d, i, j, reg, spec, n1, n2, disp, pflag;
t_value by;
t_stat r;
char *tptr, gbuf[CBUFSIZE];
bflag = 0; /* assume 16b */
cflag = (uptr == NULL) || (uptr == &cpu_unit); /* cpu? */
if (!cflag) { /* not cpu? */
DEVICE *dptr = find_dev_from_unit (uptr);
if (dptr == NULL)
return SCPE_IERR;
if (dptr->dwidth < 16)
bflag = 1;
}
while (isspace (*cptr)) cptr++; /* absorb spaces */
if ((sw & SWMASK ('A')) || ((*cptr == '\'') && cptr++)) { /* ASCII char? */
if (cptr[0] == 0) /* must have 1 char */
return SCPE_ARG;
if (bflag)
val[0] = (t_value) cptr[0];
else val[0] = (addr & 1)?
(val[0] & 0377) | (((t_value) cptr[0]) << 8):
(val[0] & ~0377) | ((t_value) cptr[0]);
return 0;
}
if (sw & SWMASK ('B')) { /* byte? */
by = get_uint (cptr, 8, 0377, &r); /* get byte */
if (r != SCPE_OK)
return SCPE_ARG;
if (bflag)
val[0] = by;
else val[0] = (addr & 1)?
(val[0] & 0377) | (by << 8):
(val[0] & ~0377) | by;
return 0;
}
if (bflag)
return SCPE_ARG;
if ((sw & SWMASK ('C')) || ((*cptr == '"') && cptr++)) { /* ASCII string? */
if (cptr[0] == 0) /* must have 1 char */
return SCPE_ARG;
val[0] = ((t_value) cptr[1] << 8) | (t_value) cptr[0];
return -1;
}
if (sw & SWMASK ('R')) /* radix 50 */
return SCPE_ARG;
cptr = get_glyph (cptr, gbuf, 0); /* get opcode */
n1 = n2 = pflag = 0;
for (i = 0; (opcode[i] != NULL) && (strcmp (opcode[i], gbuf) != 0) ; i++) ;
if (opcode[i] == NULL)
return SCPE_ARG;
val[0] = opc_val[i] & 0177777; /* get value */
j = (opc_val[i] >> I_V_CL) & I_M_CL; /* get class */
switch (j) { /* case on class */
case I_V_NPN: /* no operand */
break;
case I_V_REG: /* register */
cptr = get_glyph (cptr, gbuf, 0); /* get glyph */
if ((reg = get_reg (gbuf, rname, 0)) < 0)
return SCPE_ARG;
val[0] = val[0] | reg;
break;
case I_V_3B: case I_V_6B: case I_V_8B: /* xb literal */
cptr = get_glyph (cptr, gbuf, 0); /* get literal */
d = get_uint (gbuf, 8, (1 << j) - 1, &r);
if (r != SCPE_OK)
return SCPE_ARG;
val[0] = val[0] | d; /* put in place */
break;
case I_V_BR: /* cond br */
cptr = get_glyph (cptr, gbuf, 0); /* get address */
tptr = get_addr (gbuf, &disp, &pflag); /* parse */
if ((tptr == NULL) || (*tptr != 0))
return SCPE_ARG;
if ((pflag & A_REL) == 0) {
if (cflag)
disp = (disp - addr) & 0177777;
else return SCPE_ARG;
}
if ((disp & 1) || ((disp > 0400) && (disp < 0177402)))
return SCPE_ARG;
val[0] = val[0] | (((disp - 2) >> 1) & 0377);
break;
case I_V_SOB: /* sob */
cptr = get_glyph (cptr, gbuf, ','); /* get glyph */
if ((reg = get_reg (gbuf, rname, 0)) < 0)
return SCPE_ARG;
val[0] = val[0] | (reg << 6);
cptr = get_glyph (cptr, gbuf, 0); /* get address */
tptr = get_addr (gbuf, &disp, &pflag); /* parse */
if ((tptr == NULL) || (*tptr != 0))
return SCPE_ARG;
if ((pflag & A_REL) == 0) {
if (cflag)
disp = (disp - addr) & 0177777;
else return SCPE_ARG;
}
if ((disp & 1) || ((disp > 2) && (disp < 0177604)))
return SCPE_ARG;
val[0] = val[0] | (((2 - disp) >> 1) & 077);
break;
case I_V_RSOP: /* reg, sop */
cptr = get_glyph (cptr, gbuf, ','); /* get glyph */
if ((reg = get_reg (gbuf, rname, 0)) < 0)
return SCPE_ARG;
val[0] = val[0] | (reg << 6); /* fall through */
case I_V_SOP: /* sop */
cptr = get_glyph (cptr, gbuf, 0); /* get glyph */
if ((n1 = get_spec (gbuf, addr, 0, &spec, &val[1], cflag, TRUE)) > 0)
return SCPE_ARG;
val[0] = val[0] | spec;
break;
case I_V_SOPR: /* dop, reg */
cptr = get_glyph (cptr, gbuf, ','); /* get glyph */
if ((n1 = get_spec (gbuf, addr, 0, &spec, &val[1], cflag, TRUE)) > 0)
return SCPE_ARG;
val[0] = val[0] | spec;
cptr = get_glyph (cptr, gbuf, 0); /* get glyph */
if ((reg = get_reg (gbuf, rname, 0)) < 0)
return SCPE_ARG;
val[0] = val[0] | (reg << 6);
break;
case I_V_AFOP: case I_V_ASOP: case I_V_ASMD: /* fac, (s)fop */
cptr = get_glyph (cptr, gbuf, ','); /* get glyph */
if ((reg = get_reg (gbuf, fname, 0)) < 0)
return SCPE_ARG;
if (reg > 3)
return SCPE_ARG;
val[0] = val[0] | (reg << 6); /* fall through */
case I_V_FOP: /* fop */
cptr = get_glyph (cptr, gbuf, 0); /* get glyph */
if ((n1 = get_spec (gbuf, addr, 0, &spec, &val[1], cflag,
(j == I_V_ASOP) || (j == I_V_ASMD))) > 0)
return SCPE_ARG;
val[0] = val[0] | spec;
break;
case I_V_DOP: /* double op */
cptr = get_glyph (cptr, gbuf, ','); /* get glyph */
if ((n1 = get_spec (gbuf, addr, 0, &spec, &val[1], cflag, TRUE)) > 0)
return SCPE_ARG;
val[0] = val[0] | (spec << 6);
cptr = get_glyph (cptr, gbuf, 0); /* get glyph */
if ((n2 = get_spec (gbuf, addr, n1, &spec, &val[1 - n1],
cflag, TRUE)) > 0)
return SCPE_ARG;
val[0] = val[0] | spec;
break;
case I_V_CCC: case I_V_CCS: /* cond code oper */
for (cptr = get_glyph (cptr, gbuf, 0); gbuf[0] != 0;
cptr = get_glyph (cptr, gbuf, 0)) {
for (i = 0; (opcode[i] != NULL) &&
(strcmp (opcode[i], gbuf) != 0) ; i++)
;
if ((((opc_val[i] >> I_V_CL) & I_M_CL) != j) ||
(opcode[i] == NULL))
return SCPE_ARG;
val[0] = val[0] | (opc_val[i] & 0177777);
}
break;
default:
return SCPE_ARG;
}
if (*cptr != 0) /* junk at end? */
return SCPE_ARG;
return ((n1 + n2) * 2) - 1;
}