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/* pdp10_sys.c: PDP-10 simulator interface
Copyright (c) 1993-2017, 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.
09-Mar-17 RMS Added mask on EXE repeat count (COVERITY)
Fixed word count test in EXE loader (COVERITY)
20-Jan-17 RMS Fixed RIM loader to handle ITS and RIM10B formats
04-Apr-11 RMS Removed DEUNA/DELUA support - never implemented
01-Feb-07 RMS Added CD support
22-Jul-05 RMS Fixed warning from Solaris C (from Doug Gwyn)
09-Jan-03 RMS Added DEUNA/DELUA support
12-Sep-02 RMS Added RX211 support
22-Apr-02 RMS Removed magtape record length error
17-Sep-01 RMS Removed multiconsole support
25-Aug-01 RMS Enabled DZ11
27-May-01 RMS Added multiconsole support
29-Apr-01 RMS Fixed format for RDPCST, WRPCST
Added CLRCSH for ITS
03-Apr-01 RMS Added support for loading EXE files
19-Mar-01 RMS Added support for loading SAV files
30-Oct-00 RMS Added support for examine to file
*/
#include "pdp10_defs.h"
#include <ctype.h>
extern DEVICE cpu_dev;
extern DEVICE pag_dev;
extern DEVICE tim_dev;
extern DEVICE fe_dev;
extern DEVICE uba_dev;
extern DEVICE ptr_dev;
extern DEVICE ptp_dev;
extern DEVICE rp_dev;
extern DEVICE tu_dev;
extern DEVICE dz_dev;
extern DEVICE ry_dev;
extern DEVICE cr_dev;
extern DEVICE lp20_dev;
extern DEVICE xu_dev;
extern DEVICE dup_dev;
extern DEVICE kmc_dev;
extern DEVICE dmc_dev;
extern REG cpu_reg[];
extern a10 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-10";
REG *sim_PC = &cpu_reg[0];
int32 sim_emax = 1;
DEVICE *sim_devices[] = {
&cpu_dev,
&pag_dev,
&tim_dev,
&fe_dev,
&uba_dev,
&ptr_dev,
&ptp_dev,
&ry_dev,
&lp20_dev,
&cr_dev,
&rp_dev,
&tu_dev,
&dz_dev,
&xu_dev,
&dup_dev,
&kmc_dev,
&dmc_dev,
NULL
};
const char *sim_stop_messages[] = {
"Unknown error",
"HALT instruction",
"Breakpoint",
"Illegal instruction",
"Illegal interrupt instruction",
"Paging error in interrupt",
"Zero vector table",
"NXM on UPT/EPT reference",
"Nested indirect address limit exceeded",
"Nested XCT limit exceeded",
"Invalid I/O controller",
"Address stop",
"Console FE halt",
"Unaligned DMA",
"Panic stop"
};
/* Binary loader, supports RIM10, SAV, EXE */
#define FMT_R 1 /* RIM10 */
#define FMT_S 2 /* SAV */
#define FMT_E 3 /* EXE */
#define EXE_DIR 01776 /* EXE directory */
#define EXE_VEC 01775 /* EXE entry vec */
#define EXE_PDV 01774 /* EXE ignored */
#define EXE_END 01777 /* EXE end */
/* RIM10B loader
RIM10B format is a binary paper tape format (all data frames
are 200 or greater). It consists of blocks containing
-count,,origin-1
word
:
word
checksum (includes IOWD)
:
JRST start
The checksum is the simple binary sum of all the words in
the block, including the IOWD.
ITS RIM format is a binary paper tape format (all data frames
are 200 or greater). It consists of blocks containing
-count,,origin
word
:
word
checksum (includes pseudo IOWD)
:
JRST start
The checksum is the simple binary sum of all the words in
the block, including the pseudo IOWD. The checksum is rotated
left by 1 before each new word is added in.
Both formats include the actual RIM loader as the first block.
It begins with a BLKI word: -count,,start-1. The count is 16(8)
for RIM10B and 17(8) for ITS RIM. On a real KA10 or KI10, this
twisty little program is loaded into the ACs and executed.
Here it is simply skipped.
*/
d10 getrimw (FILE *fileref)
{
int32 i, tmp;
d10 word;
word = 0;
for (i = 0; i < 6;) {
if ((tmp = getc (fileref)) == EOF)
return -1;
if (tmp & 0200) {
word = (word << 6) | ((d10) tmp & 077);
i++;
}
}
return word;
}
t_stat load_rim (FILE *fileref)
{
d10 count, cksm, data;
a10 pa;
int32 op, i, ldrc;
t_bool its_rim;
extern d10 rot (d10 val, a10 ea);
data = getrimw (fileref); /* get first word */
if ((data < 0) || ((data & AMASK) != 0)) /* error? SA != 0? */
return SCPE_FMT;
ldrc = 01000000 - ((int32) (LRZ (data))); /* get loader count */
if (ldrc == 016) /* 16? RIM10B */
its_rim = FALSE;
else if (ldrc == 017) /* 17? ITS RIM */
its_rim = TRUE;
else return SCPE_FMT; /* unknown */
for (i = 0; i < ldrc; i++) { /* skip the loader */
data = getrimw (fileref);
if (data < 0)
return SCPE_FMT;
}
for ( ;; ) { /* loop until JRST */
count = cksm = getrimw (fileref); /* get header */
if (count < 0) /* read err? */
return SCPE_FMT;
if (TSTS (count)) { /* hdr = IOWD? */
for ( ; TSTS (count); count = AOB (count)) {
data = getrimw (fileref); /* get data wd */
if (data < 0)
return SCPE_FMT;
if (its_rim) { /* ITS RIM? */
cksm = (rot (cksm, 1) + data) & DMASK; /* add to rotated cksm */
pa = ((a10) count) & AMASK; /* store */
}
else { /* RIM10B */
cksm = (cksm + data) & DMASK; /* add to cksm */
pa = ((a10) count + 1) & AMASK; /* store */
}
M[pa] = data;
} /* end for */
data = getrimw (fileref); /* get cksm */
if (data < 0)
return SCPE_FMT;
if (cksm != data) /* test cksm */
return SCPE_CSUM;
} /* end if count */
else {
op = GET_OP (count); /* not IOWD */
if (op != OP_JRST) /* JRST? */
return SCPE_FMT;
saved_PC = (a10) count & AMASK; /* set PC */
break;
} /* end else */
} /* end for */
return SCPE_OK;
}
/* SAV file loader
SAV format is a disk file format (36b words). It consists of
blocks containing:
-count,,origin-1
word
:
word
:
JRST start
*/
t_stat load_sav (FILE *fileref)
{
d10 count, data;
a10 pa;
int32 wc, op;
for ( ;; ) { /* loop */
wc = fxread (&count, sizeof (d10), 1, fileref); /* read IOWD */
if (wc == 0) /* done? */
return SCPE_OK;
if (TSTS (count)) { /* IOWD? */
for ( ; TSTS (count); count = AOB (count)) {
wc = fxread (&data, sizeof (d10), 1, fileref);
if (wc == 0)
return SCPE_FMT;
pa = ((a10) count + 1) & AMASK; /* store data */
M[pa] = data;
} /* end for */
} /* end if count*/
else {
op = GET_OP (count); /* not IOWD */
if (op != OP_JRST) /* JRST? */
return SCPE_FMT;
saved_PC = (a10) count & AMASK; /* set PC */
break;
} /* end else */
} /* end for */
return SCPE_OK;
}
/* EXE file loader
EXE format is a disk file format (36b words). It consists of
blocks containing:
block type,,total words = n
n - 1 data words
Block types are
EXE_DIR (1776) directory
EXE_VEC (1775) entry vector
EXE_PDV (1774) optional blocks
EXE_END (1777) end block
The directory blocks are the most important and contain doubleword
page loading information:
word0<0:8> = flags
<9:35> = page in file (0 if 0 page)
word1<0:8> = repeat count - 1
<9:35> = page in memory
*/
#define DIRSIZ (2 * PAG_SIZE)
t_stat load_exe (FILE *fileref)
{
d10 data, dirbuf[DIRSIZ], pagbuf[PAG_SIZE], entbuf[2];
int32 ndir, entvec, i, j, k, cont, bsz, bty, rpt, wc;
int32 fpage, mpage;
a10 ma;
ndir = entvec = 0; /* no dir, entvec */
cont = 1;
do {
wc = fxread (&data, sizeof (d10), 1, fileref); /* read blk hdr */
if (wc == 0) /* error? */
return SCPE_FMT;
bsz = (int32) ((data & RMASK) - 1); /* get count */
if (bsz < 0) /* zero? */
return SCPE_FMT;
bty = (int32) LRZ (data); /* get type */
switch (bty) { /* case type */
case EXE_DIR: /* directory */
if (ndir != 0) /* got one */
return SCPE_FMT;
ndir = fxread (dirbuf, sizeof (d10), bsz, fileref);
if (ndir < bsz) /* error */
return SCPE_FMT;
break;
case EXE_PDV: /* optional */
fseek (fileref, bsz * sizeof (d10), SEEK_CUR); /* skip data */
break;
case EXE_VEC: /* entry vec */
if (bsz != 2) /* must be 2 wds */
return SCPE_FMT;
entvec = fxread (entbuf, sizeof (d10), bsz, fileref);
if (entvec < 2) /* error? */
return SCPE_FMT;
cont = 0; /* stop */
break;
case EXE_END: /* end */
if (bsz != 0) /* must be hdr */
return SCPE_FMT;
cont = 0; /* stop */
break;
default:
return SCPE_FMT;
} /* end switch */
} while (cont); /* end do */
for (i = 0; i < ndir; i = i + 2) { /* loop thru dir */
fpage = (int32) (dirbuf[i] & RMASK); /* file page */
mpage = (int32) (dirbuf[i + 1] & RMASK); /* memory page */
rpt = ((int32) ((dirbuf[i + 1] >> 27) + 1)) & 0777; /* repeat count */
for (j = 0; j < rpt; j++, mpage++) { /* loop thru rpts */
if (fpage) { /* file pages? */
fseek (fileref, (fpage << PAG_V_PN) * sizeof (d10), SEEK_SET);
wc = fxread (pagbuf, sizeof (d10), PAG_SIZE, fileref);
if (wc < PAG_SIZE)
return SCPE_FMT;
fpage++;
}
ma = mpage << PAG_V_PN; /* mem addr */
for (k = 0; k < PAG_SIZE; k++, ma++) { /* copy buf to mem */
if (MEM_ADDR_NXM (ma))
return SCPE_NXM;
M[ma] = fpage? (pagbuf[k] & DMASK): 0;
} /* end copy */
} /* end rpt */
} /* end directory */
if (entvec && entbuf[1])
saved_PC = (int32) (entbuf[1] & RMASK); /* start addr */
return SCPE_OK;
}
/* Master loader */
t_stat sim_load (FILE *fileref, CONST char *cptr, CONST char *fnam, int flag)
{
d10 data;
int32 wc, fmt;
fmt = 0; /* no fmt */
if (sim_switches & SWMASK ('R')) /* -r? */
fmt = FMT_R;
else if (sim_switches & SWMASK ('S')) /* -s? */
fmt = FMT_S;
else if (sim_switches & SWMASK ('E')) /* -e? */
fmt = FMT_E;
else if (match_ext (fnam, "RIM")) /* .RIM? */
fmt = FMT_R;
else if (match_ext (fnam, "SAV")) /* .SAV? */
fmt = FMT_S;
else if (match_ext (fnam, "EXE")) /* .EXE? */
fmt = FMT_E;
else {
wc = fxread (&data, sizeof (d10), 1, fileref); /* read hdr */
if (wc == 0) /* error? */
return SCPE_FMT;
if (LRZ (data) == EXE_DIR) /* EXE magic? */
fmt = FMT_E;
else if (TSTS (data)) { /* SAV/RIM magic? */
if ((data & AMASK) != 0) /* SAV has SA != 0 */
fmt = FMT_S;
else fmt = FMT_R; /* RIM has SA == 0 */
}
fseek (fileref, 0, SEEK_SET); /* rewind */
}
switch (fmt) { /* case fmt */
case FMT_R: /* RIM */
return load_rim (fileref);
case FMT_S: /* SAV */
return load_sav (fileref);
case FMT_E: /* EXE */
return load_exe (fileref);
}
sim_printf ("Can't determine load file format\n");
return SCPE_FMT;
}
/* Symbol tables */
#define I_V_FL 39 /* inst class */
#define I_M_FL 03 /* class mask */
#define I_ITS INT64_C(004000000000000) /* ITS flag */
#define I_AC INT64_C(000000000000000) /* AC, address */
#define I_OP INT64_C(010000000000000) /* address only */
#define I_IO INT64_C(020000000000000) /* classic I/O */
#define I_V_AC 00
#define I_V_OP 01
#define I_V_IO 02
static const d10 masks[] = {
INT64_C(0777000000000), INT64_C(0777740000000),
INT64_C(0700340000000), INT64_C(0777777777777)
};
static const char *opcode[] = {
"XCTR", "XCTI", /* ITS only */
"IORDI", "IORDQ", "IORD", "IOWR", "IOWRI", "IOWRQ",
"IORDBI", "IORDBQ", "IORDB", "IOWRB", "IOWRBI", "IOWRBQ",
"CLRCSH", "RDPCST", "WRPCST",
"SDBR1", "SDBR2", "SDBR3", "SDBR4", "SPM",
"LDBR1", "LDBR2", "LDBR3", "LDBR4", "LPMR",
"PORTAL", "JRSTF", "HALT", /* AC defines op */
"XJRSTF", "XJEN", "XPCW",
"JEN", "SFM", "XJRST", "IBP",
"JFOV", "JCRY1", "JCRY0", "JCRY", "JOV",
"APRID", "WRAPR", "RDAPR", "WRPI", "RDPI", "RDUBR", "CLRPT", "WRUBR",
"WREBR", "RDEBR",
"RDSPB", "RDCSB", "RDPUR", "RDCSTM", "RDTIM", "RDINT", "RDHSB",
"WRSPB", "WRCSB", "WRPUR", "WRCSTM", "WRTIM", "WRINT", "WRHSB",
"LUUO01", "LUUO02", "LUUO03", "LUUO04", "LUUO05", "LUUO06", "LUUO07",
"LUUO10", "LUUO11", "LUUO12", "LUUO13", "LUUO14", "LUUO15", "LUUO16", "LUUO17",
"LUUO20", "LUUO21", "LUUO22", "LUUO23", "LUUO24", "LUUO25", "LUUO26", "LUUO27",
"LUUO30", "LUUO31", "LUUO32", "LUUO33", "LUUO34", "LUUO35", "LUUO36", "LUUO37",
"MUUO40", "MUUO41", "MUUO42", "MUUO43", "MUUO44", "MUUO45", "MUUO46", "MUUO47",
"MUUO50", "MUUO51", "MUUO52", "MUUO53", "MUUO54", "MUUO55", "MUUO56", "MUUO57",
"MUUO60", "MUUO61", "MUUO62", "MUUO63", "MUUO64", "MUUO65", "MUUO66", "MUUO67",
"MUUO70", "MUUO71", "MUUO72", "MUUO73", "MUUO74", "MUUO75", "MUUO76", "MUUO77",
"UJEN", "GFAD", "GFSB", "JSYS", "ADJSP", "GFMP", "GFDV ",
"DFAD", "DFSB", "DFMP", "DFDV", "DADD", "DSUB", "DMUL", "DDIV",
"DMOVE", "DMOVN", "FIX", "EXTEND", "DMOVEM", "DMOVNM", "FIXR", "FLTR",
"UFA", "DFN", "FSC", "ADJBP", "ILDB", "LDB", "IDPB", "DPB",
"FAD", "FADL", "FADM", "FADB", "FADR", "FADRL", "FADRM", "FADRB",
"FSB", "FSBL", "FSBM", "FSBB", "FSBR", "FSBRL", "FSBRM", "FSBRB",
"FMP", "FMPL", "FMPM", "FMPB", "FMPR", "FMPRL", "FMPRM", "FMPRB",
"FDV", "FDVL", "FDVM", "FDVB", "FDVR", "FDVRL", "FDVRM", "FDVRB",
"MOVE", "MOVEI", "MOVEM", "MOVES", "MOVS", "MOVSI", "MOVSM", "MOVSS",
"MOVN", "MOVNI", "MOVNM", "MOVNS", "MOVM", "MOVMI", "MOVMM", "MOVMS",
"IMUL", "IMULI", "IMULM", "IMULB", "MUL", "MULI", "MULM", "MULB",
"IDIV", "IDIVI", "IDIVM", "IDIVB", "DIV", "DIVI", "DIVM", "DIVB",
"ASH", "ROT", "LSH", "JFFO", "ASHC", "ROTC", "LSHC", "CIRC",
"EXCH", "BLT", "AOBJP", "AOBJN", "JRST", "JFCL", "XCT", "MAP",
"PUSHJ", "PUSH", "POP", "POPJ", "JSR", "JSP", "JSA", "JRA",
"ADD", "ADDI", "ADDM", "ADDB", "SUB", "SUBI", "SUBM", "SUBB",
"CAI", "CAIL", "CAIE", "CAILE", "CAIA", "CAIGE", "CAIN", "CAIG",
"CAM", "CAML", "CAME", "CAMLE", "CAMA", "CAMGE", "CAMN", "CAMG",
"JUMP", "JUMPL", "JUMPE", "JUMPLE", "JUMPA", "JUMPGE", "JUMPN", "JUMPG",
"SKIP", "SKIPL", "SKIPE", "SKIPLE", "SKIPA", "SKIPGE", "SKIPN", "SKIPG",
"AOJ", "AOJL", "AOJE", "AOJLE", "AOJA", "AOJGE", "AOJN", "AOJG",
"AOS", "AOSL", "AOSE", "AOSLE", "AOSA", "AOSGE", "AOSN", "AOSG",
"SOJ", "SOJL", "SOJE", "SOJLE", "SOJA", "SOJGE", "SOJN", "SOJG",
"SOS", "SOSL", "SOSE", "SOSLE", "SOSA", "SOSGE", "SOSN", "SOSG",
"SETZ", "SETZI", "SETZM", "SETZB", "AND", "ANDI", "ANDM", "ANDB",
"ANDCA", "ANDCAI", "ANDCAM", "ANDCAB", "SETM", "SETMI", "SETMM", "SETMB",
"ANDCM", "ANDCMI", "ANDCMM", "ANDCMB", "SETA", "SETAI", "SETAM", "SETAB",
"XOR", "XORI", "XORM", "XORB", "IOR", "IORI", "IORM", "IORB",
"ANDCB", "ANDCBI", "ANDCBM", "ANDCBB", "EQV", "EQVI", "EQVM", "EQVB",
"SETCA", "SETCAI", "SETCAM", "SETCAB", "ORCA", "ORCAI", "ORCAM", "ORCAB",
"SETCM", "SETCMI", "SETCMM", "SETCMB", "ORCM", "ORCMI", "ORCMM", "ORCMB",
"ORCB", "ORCBI", "ORCBM", "ORCBB", "SETO", "SETOI", "SETOM", "SETOB",
"HLL", "HLLI", "HLLM", "HLLS", "HRL", "HRLI", "HRLM", "HRLS",
"HLLZ", "HLLZI", "HLLZM", "HLLZS", "HRLZ", "HRLZI", "HRLZM", "HRLZS",
"HLLO", "HLLOI", "HLLOM", "HLLOS", "HRLO", "HRLOI", "HRLOM", "HRLOS",
"HLLE", "HLLEI", "HLLEM", "HLLES", "HRLE", "HRLEI", "HRLEM", "HRLES",
"HRR", "HRRI", "HRRM", "HRRS", "HLR", "HLRI", "HLRM", "HLRS",
"HRRZ", "HRRZI", "HRRZM", "HRRZS", "HLRZ", "HLRZI", "HLRZM", "HLRZS",
"HRRO", "HRROI", "HRROM", "HRROS", "HLRO", "HLROI", "HLROM", "HLROS",
"HRRE", "HRREI", "HRREM", "HRRES", "HLRE", "HLREI", "HLREM", "HLRES",
"TRN", "TLN", "TRNE", "TLNE", "TRNA", "TLNA", "TRNN", "TLNN",
"TDN", "TSN", "TDNE", "TSNE", "TDNA", "TSNA", "TDNN", "TSNN",
"TRZ", "TLZ", "TRZE", "TLZE", "TRZA", "TLZA", "TRZN", "TLZN",
"TDZ", "TSZ", "TDZE", "TSZE", "TDZA", "TSZA", "TDZN", "TSZN",
"TRC", "TLC", "TRCE", "TLCE", "TRCA", "TLCA", "TRCN", "TLCN",
"TDC", "TSC", "TDCE", "TSCE", "TDCA", "TSCA", "TDCN", "TSCN",
"TRO", "TLO", "TROE", "TLOE", "TROA", "TLOA", "TRON", "TLON",
"TDO", "TSO", "TDOE", "TSOE", "TDOA", "TSOA", "TDON", "TSON",
"UMOVE", "UMOVEM", /* KS10 I/O */
"TIOE", "TION", "RDIO", "WRIO",
"BSIO", "BCIO", "BLTBU", "BLTUB",
"TIOEB", "TIONB", "RDIOB", "WRIOB",
"BSIOB", "BCIOB",
"BLKI", "DATAI", "BLKO", "DATAO", /* classic I/O */
"CONO", "CONI", "CONSZ", "CONSO",
"CLEAR", "CLEARI", "CLEARM", "CLEARB",
"OR", "ORI", "ORM", "ORB", "XMOVEI", "XHLLI", /* alternate ops */
"CMPSL", "CMPSE", "CMPSLE", /* extended ops */
"EDIT", "CMPSGE", "CMPSN", "CMPSG",
"CVTDBO", "CVTDBT", "CVTBDO", "CVTBDT",
"MOVSO", "MOVST", "MOVSLJ", "MOVSRJ",
"XBLT", "GSNGL", "GDBLE", "GDFIX",
"GFIX", "GDFIXR", "GFIXR", "DGFLTR",
"GFLTR", "GFSC",
NULL
};
static const d10 opc_val[] = {
INT64_C(0102000000000)+I_AC+I_ITS, INT64_C(0103000000000)+I_AC+I_ITS,
INT64_C(0710000000000)+I_AC+I_ITS, INT64_C(0711000000000)+I_AC+I_ITS, INT64_C(0712000000000)+I_AC+I_ITS,
INT64_C(0713000000000)+I_AC+I_ITS, INT64_C(0714000000000)+I_AC+I_ITS, INT64_C(0715000000000)+I_AC+I_ITS,
INT64_C(0720000000000)+I_AC+I_ITS, INT64_C(0721000000000)+I_AC+I_ITS, INT64_C(0722000000000)+I_AC+I_ITS,
INT64_C(0723000000000)+I_AC+I_ITS, INT64_C(0724000000000)+I_AC+I_ITS, INT64_C(0725000000000)+I_AC+I_ITS,
INT64_C(0701000000000)+I_OP+I_ITS, INT64_C(0701440000000)+I_OP+I_ITS, INT64_C(0701540000000)+I_OP+I_ITS,
INT64_C(0702000000000)+I_OP+I_ITS, INT64_C(0702040000000)+I_OP+I_ITS,
INT64_C(0702100000000)+I_OP+I_ITS, INT64_C(0702140000000)+I_OP+I_ITS, INT64_C(0702340000000)+I_OP+I_ITS,
INT64_C(0702400000000)+I_OP+I_ITS, INT64_C(0702440000000)+I_OP+I_ITS,
INT64_C(0702500000000)+I_OP+I_ITS, INT64_C(0702540000000)+I_OP+I_ITS, INT64_C(0702740000000)+I_OP+I_ITS,
INT64_C(0254040000000)+I_OP, INT64_C(0254100000000)+I_OP,
INT64_C(0254200000000)+I_OP, INT64_C(0254240000000)+I_OP, INT64_C(0254300000000)+I_OP, INT64_C(0254340000000)+I_OP,
INT64_C(0254500000000)+I_OP, INT64_C(0254600000000)+I_OP, INT64_C(0254640000000)+I_OP, INT64_C(0133000000000)+I_OP,
INT64_C(0255040000000)+I_OP, INT64_C(0255100000000)+I_OP, INT64_C(0255200000000)+I_OP, INT64_C(0255300000000)+I_OP,
INT64_C(0255400000000)+I_OP,
INT64_C(0700000000000)+I_OP, INT64_C(0700200000000)+I_OP, INT64_C(0700240000000)+I_OP, INT64_C(0700600000000)+I_OP,
INT64_C(0700640000000)+I_OP, INT64_C(0701040000000)+I_OP, INT64_C(0701100000000)+I_OP, INT64_C(0701140000000)+I_OP,
INT64_C(0701200000000)+I_OP, INT64_C(0701240000000)+I_OP,
INT64_C(0702000000000)+I_OP, INT64_C(0702040000000)+I_OP, INT64_C(0702100000000)+I_OP, INT64_C(0702140000000)+I_OP,
INT64_C(0702200000000)+I_OP, INT64_C(0702240000000)+I_OP, INT64_C(0702300000000)+I_OP,
INT64_C(0702400000000)+I_OP, INT64_C(0702440000000)+I_OP, INT64_C(0702500000000)+I_OP, INT64_C(0702540000000)+I_OP,
INT64_C(0702600000000)+I_OP, INT64_C(0702640000000)+I_OP, INT64_C(0702700000000)+I_OP,
INT64_C(0001000000000)+I_AC, INT64_C(0002000000000)+I_AC, INT64_C(0003000000000)+I_AC,
INT64_C(0004000000000)+I_AC, INT64_C(0005000000000)+I_AC, INT64_C(0006000000000)+I_AC, INT64_C(0007000000000)+I_AC,
INT64_C(0010000000000)+I_AC, INT64_C(0011000000000)+I_AC, INT64_C(0012000000000)+I_AC, INT64_C(0013000000000)+I_AC,
INT64_C(0014000000000)+I_AC, INT64_C(0015000000000)+I_AC, INT64_C(0016000000000)+I_AC, INT64_C(0017000000000)+I_AC,
INT64_C(0020000000000)+I_AC, INT64_C(0021000000000)+I_AC, INT64_C(0022000000000)+I_AC, INT64_C(0023000000000)+I_AC,
INT64_C(0024000000000)+I_AC, INT64_C(0025000000000)+I_AC, INT64_C(0026000000000)+I_AC, INT64_C(0027000000000)+I_AC,
INT64_C(0030000000000)+I_AC, INT64_C(0031000000000)+I_AC, INT64_C(0032000000000)+I_AC, INT64_C(0033000000000)+I_AC,
INT64_C(0034000000000)+I_AC, INT64_C(0035000000000)+I_AC, INT64_C(0036000000000)+I_AC, INT64_C(0037000000000)+I_AC,
INT64_C(0040000000000)+I_AC, INT64_C(0041000000000)+I_AC, INT64_C(0042000000000)+I_AC, INT64_C(0043000000000)+I_AC,
INT64_C(0044000000000)+I_AC, INT64_C(0045000000000)+I_AC, INT64_C(0046000000000)+I_AC, INT64_C(0047000000000)+I_AC,
INT64_C(0050000000000)+I_AC, INT64_C(0051000000000)+I_AC, INT64_C(0052000000000)+I_AC, INT64_C(0053000000000)+I_AC,
INT64_C(0054000000000)+I_AC, INT64_C(0055000000000)+I_AC, INT64_C(0056000000000)+I_AC, INT64_C(0057000000000)+I_AC,
INT64_C(0060000000000)+I_AC, INT64_C(0061000000000)+I_AC, INT64_C(0062000000000)+I_AC, INT64_C(0063000000000)+I_AC,
INT64_C(0064000000000)+I_AC, INT64_C(0065000000000)+I_AC, INT64_C(0066000000000)+I_AC, INT64_C(0067000000000)+I_AC,
INT64_C(0070000000000)+I_AC, INT64_C(0071000000000)+I_AC, INT64_C(0072000000000)+I_AC, INT64_C(0073000000000)+I_AC,
INT64_C(0074000000000)+I_AC, INT64_C(0075000000000)+I_AC, INT64_C(0076000000000)+I_AC, INT64_C(0077000000000)+I_AC,
INT64_C(0100000000000)+I_AC, INT64_C(0102000000000)+I_AC, INT64_C(0103000000000)+I_AC,
INT64_C(0104000000000)+I_AC, INT64_C(0105000000000)+I_AC, INT64_C(0106000000000)+I_AC, INT64_C(0107000000000)+I_AC,
INT64_C(0110000000000)+I_AC, INT64_C(0111000000000)+I_AC, INT64_C(0112000000000)+I_AC, INT64_C(0113000000000)+I_AC,
INT64_C(0114000000000)+I_AC, INT64_C(0115000000000)+I_AC, INT64_C(0116000000000)+I_AC, INT64_C(0117000000000)+I_AC,
INT64_C(0120000000000)+I_AC, INT64_C(0121000000000)+I_AC, INT64_C(0122000000000)+I_AC, INT64_C(0123000000000)+I_AC,
INT64_C(0124000000000)+I_AC, INT64_C(0125000000000)+I_AC, INT64_C(0126000000000)+I_AC, INT64_C(0127000000000)+I_AC,
INT64_C(0130000000000)+I_AC, INT64_C(0131000000000)+I_AC, INT64_C(0132000000000)+I_AC, INT64_C(0133000000000)+I_AC,
INT64_C(0134000000000)+I_AC, INT64_C(0135000000000)+I_AC, INT64_C(0136000000000)+I_AC, INT64_C(0137000000000)+I_AC,
INT64_C(0140000000000)+I_AC, INT64_C(0141000000000)+I_AC, INT64_C(0142000000000)+I_AC, INT64_C(0143000000000)+I_AC,
INT64_C(0144000000000)+I_AC, INT64_C(0145000000000)+I_AC, INT64_C(0146000000000)+I_AC, INT64_C(0147000000000)+I_AC,
INT64_C(0150000000000)+I_AC, INT64_C(0151000000000)+I_AC, INT64_C(0152000000000)+I_AC, INT64_C(0153000000000)+I_AC,
INT64_C(0154000000000)+I_AC, INT64_C(0155000000000)+I_AC, INT64_C(0156000000000)+I_AC, INT64_C(0157000000000)+I_AC,
INT64_C(0160000000000)+I_AC, INT64_C(0161000000000)+I_AC, INT64_C(0162000000000)+I_AC, INT64_C(0163000000000)+I_AC,
INT64_C(0164000000000)+I_AC, INT64_C(0165000000000)+I_AC, INT64_C(0166000000000)+I_AC, INT64_C(0167000000000)+I_AC,
INT64_C(0170000000000)+I_AC, INT64_C(0171000000000)+I_AC, INT64_C(0172000000000)+I_AC, INT64_C(0173000000000)+I_AC,
INT64_C(0174000000000)+I_AC, INT64_C(0175000000000)+I_AC, INT64_C(0176000000000)+I_AC, INT64_C(0177000000000)+I_AC,
INT64_C(0200000000000)+I_AC, INT64_C(0201000000000)+I_AC, INT64_C(0202000000000)+I_AC, INT64_C(0203000000000)+I_AC,
INT64_C(0204000000000)+I_AC, INT64_C(0205000000000)+I_AC, INT64_C(0206000000000)+I_AC, INT64_C(0207000000000)+I_AC,
INT64_C(0210000000000)+I_AC, INT64_C(0211000000000)+I_AC, INT64_C(0212000000000)+I_AC, INT64_C(0213000000000)+I_AC,
INT64_C(0214000000000)+I_AC, INT64_C(0215000000000)+I_AC, INT64_C(0216000000000)+I_AC, INT64_C(0217000000000)+I_AC,
INT64_C(0220000000000)+I_AC, INT64_C(0221000000000)+I_AC, INT64_C(0222000000000)+I_AC, INT64_C(0223000000000)+I_AC,
INT64_C(0224000000000)+I_AC, INT64_C(0225000000000)+I_AC, INT64_C(0226000000000)+I_AC, INT64_C(0227000000000)+I_AC,
INT64_C(0230000000000)+I_AC, INT64_C(0231000000000)+I_AC, INT64_C(0232000000000)+I_AC, INT64_C(0233000000000)+I_AC,
INT64_C(0234000000000)+I_AC, INT64_C(0235000000000)+I_AC, INT64_C(0236000000000)+I_AC, INT64_C(0237000000000)+I_AC,
INT64_C(0240000000000)+I_AC, INT64_C(0241000000000)+I_AC, INT64_C(0242000000000)+I_AC, INT64_C(0243000000000)+I_AC,
INT64_C(0244000000000)+I_AC, INT64_C(0245000000000)+I_AC, INT64_C(0246000000000)+I_AC, INT64_C(0247000000000)+I_AC+I_ITS,
INT64_C(0250000000000)+I_AC, INT64_C(0251000000000)+I_AC, INT64_C(0252000000000)+I_AC, INT64_C(0253000000000)+I_AC,
INT64_C(0254000000000)+I_AC, INT64_C(0255000000000)+I_AC, INT64_C(0256000000000)+I_AC, INT64_C(0257000000000)+I_AC,
INT64_C(0260000000000)+I_AC, INT64_C(0261000000000)+I_AC, INT64_C(0262000000000)+I_AC, INT64_C(0263000000000)+I_AC,
INT64_C(0264000000000)+I_AC, INT64_C(0265000000000)+I_AC, INT64_C(0266000000000)+I_AC, INT64_C(0267000000000)+I_AC,
INT64_C(0270000000000)+I_AC, INT64_C(0271000000000)+I_AC, INT64_C(0272000000000)+I_AC, INT64_C(0273000000000)+I_AC,
INT64_C(0274000000000)+I_AC, INT64_C(0275000000000)+I_AC, INT64_C(0276000000000)+I_AC, INT64_C(0277000000000)+I_AC,
INT64_C(0300000000000)+I_AC, INT64_C(0301000000000)+I_AC, INT64_C(0302000000000)+I_AC, INT64_C(0303000000000)+I_AC,
INT64_C(0304000000000)+I_AC, INT64_C(0305000000000)+I_AC, INT64_C(0306000000000)+I_AC, INT64_C(0307000000000)+I_AC,
INT64_C(0310000000000)+I_AC, INT64_C(0311000000000)+I_AC, INT64_C(0312000000000)+I_AC, INT64_C(0313000000000)+I_AC,
INT64_C(0314000000000)+I_AC, INT64_C(0315000000000)+I_AC, INT64_C(0316000000000)+I_AC, INT64_C(0317000000000)+I_AC,
INT64_C(0320000000000)+I_AC, INT64_C(0321000000000)+I_AC, INT64_C(0322000000000)+I_AC, INT64_C(0323000000000)+I_AC,
INT64_C(0324000000000)+I_AC, INT64_C(0325000000000)+I_AC, INT64_C(0326000000000)+I_AC, INT64_C(0327000000000)+I_AC,
INT64_C(0330000000000)+I_AC, INT64_C(0331000000000)+I_AC, INT64_C(0332000000000)+I_AC, INT64_C(0333000000000)+I_AC,
INT64_C(0334000000000)+I_AC, INT64_C(0335000000000)+I_AC, INT64_C(0336000000000)+I_AC, INT64_C(0337000000000)+I_AC,
INT64_C(0340000000000)+I_AC, INT64_C(0341000000000)+I_AC, INT64_C(0342000000000)+I_AC, INT64_C(0343000000000)+I_AC,
INT64_C(0344000000000)+I_AC, INT64_C(0345000000000)+I_AC, INT64_C(0346000000000)+I_AC, INT64_C(0347000000000)+I_AC,
INT64_C(0350000000000)+I_AC, INT64_C(0351000000000)+I_AC, INT64_C(0352000000000)+I_AC, INT64_C(0353000000000)+I_AC,
INT64_C(0354000000000)+I_AC, INT64_C(0355000000000)+I_AC, INT64_C(0356000000000)+I_AC, INT64_C(0357000000000)+I_AC,
INT64_C(0360000000000)+I_AC, INT64_C(0361000000000)+I_AC, INT64_C(0362000000000)+I_AC, INT64_C(0363000000000)+I_AC,
INT64_C(0364000000000)+I_AC, INT64_C(0365000000000)+I_AC, INT64_C(0366000000000)+I_AC, INT64_C(0367000000000)+I_AC,
INT64_C(0370000000000)+I_AC, INT64_C(0371000000000)+I_AC, INT64_C(0372000000000)+I_AC, INT64_C(0373000000000)+I_AC,
INT64_C(0374000000000)+I_AC, INT64_C(0375000000000)+I_AC, INT64_C(0376000000000)+I_AC, INT64_C(0377000000000)+I_AC,
INT64_C(0400000000000)+I_AC, INT64_C(0401000000000)+I_AC, INT64_C(0402000000000)+I_AC, INT64_C(0403000000000)+I_AC,
INT64_C(0404000000000)+I_AC, INT64_C(0405000000000)+I_AC, INT64_C(0406000000000)+I_AC, INT64_C(0407000000000)+I_AC,
INT64_C(0410000000000)+I_AC, INT64_C(0411000000000)+I_AC, INT64_C(0412000000000)+I_AC, INT64_C(0413000000000)+I_AC,
INT64_C(0414000000000)+I_AC, INT64_C(0415000000000)+I_AC, INT64_C(0416000000000)+I_AC, INT64_C(0417000000000)+I_AC,
INT64_C(0420000000000)+I_AC, INT64_C(0421000000000)+I_AC, INT64_C(0422000000000)+I_AC, INT64_C(0423000000000)+I_AC,
INT64_C(0424000000000)+I_AC, INT64_C(0425000000000)+I_AC, INT64_C(0426000000000)+I_AC, INT64_C(0427000000000)+I_AC,
INT64_C(0430000000000)+I_AC, INT64_C(0431000000000)+I_AC, INT64_C(0432000000000)+I_AC, INT64_C(0433000000000)+I_AC,
INT64_C(0434000000000)+I_AC, INT64_C(0435000000000)+I_AC, INT64_C(0436000000000)+I_AC, INT64_C(0437000000000)+I_AC,
INT64_C(0440000000000)+I_AC, INT64_C(0441000000000)+I_AC, INT64_C(0442000000000)+I_AC, INT64_C(0443000000000)+I_AC,
INT64_C(0444000000000)+I_AC, INT64_C(0445000000000)+I_AC, INT64_C(0446000000000)+I_AC, INT64_C(0447000000000)+I_AC,
INT64_C(0450000000000)+I_AC, INT64_C(0451000000000)+I_AC, INT64_C(0452000000000)+I_AC, INT64_C(0453000000000)+I_AC,
INT64_C(0454000000000)+I_AC, INT64_C(0455000000000)+I_AC, INT64_C(0456000000000)+I_AC, INT64_C(0457000000000)+I_AC,
INT64_C(0460000000000)+I_AC, INT64_C(0461000000000)+I_AC, INT64_C(0462000000000)+I_AC, INT64_C(0463000000000)+I_AC,
INT64_C(0464000000000)+I_AC, INT64_C(0465000000000)+I_AC, INT64_C(0466000000000)+I_AC, INT64_C(0467000000000)+I_AC,
INT64_C(0470000000000)+I_AC, INT64_C(0471000000000)+I_AC, INT64_C(0472000000000)+I_AC, INT64_C(0473000000000)+I_AC,
INT64_C(0474000000000)+I_AC, INT64_C(0475000000000)+I_AC, INT64_C(0476000000000)+I_AC, INT64_C(0477000000000)+I_AC,
INT64_C(0500000000000)+I_AC, INT64_C(0501000000000)+I_AC, INT64_C(0502000000000)+I_AC, INT64_C(0503000000000)+I_AC,
INT64_C(0504000000000)+I_AC, INT64_C(0505000000000)+I_AC, INT64_C(0506000000000)+I_AC, INT64_C(0507000000000)+I_AC,
INT64_C(0510000000000)+I_AC, INT64_C(0511000000000)+I_AC, INT64_C(0512000000000)+I_AC, INT64_C(0513000000000)+I_AC,
INT64_C(0514000000000)+I_AC, INT64_C(0515000000000)+I_AC, INT64_C(0516000000000)+I_AC, INT64_C(0517000000000)+I_AC,
INT64_C(0520000000000)+I_AC, INT64_C(0521000000000)+I_AC, INT64_C(0522000000000)+I_AC, INT64_C(0523000000000)+I_AC,
INT64_C(0524000000000)+I_AC, INT64_C(0525000000000)+I_AC, INT64_C(0526000000000)+I_AC, INT64_C(0527000000000)+I_AC,
INT64_C(0530000000000)+I_AC, INT64_C(0531000000000)+I_AC, INT64_C(0532000000000)+I_AC, INT64_C(0533000000000)+I_AC,
INT64_C(0534000000000)+I_AC, INT64_C(0535000000000)+I_AC, INT64_C(0536000000000)+I_AC, INT64_C(0537000000000)+I_AC,
INT64_C(0540000000000)+I_AC, INT64_C(0541000000000)+I_AC, INT64_C(0542000000000)+I_AC, INT64_C(0543000000000)+I_AC,
INT64_C(0544000000000)+I_AC, INT64_C(0545000000000)+I_AC, INT64_C(0546000000000)+I_AC, INT64_C(0547000000000)+I_AC,
INT64_C(0550000000000)+I_AC, INT64_C(0551000000000)+I_AC, INT64_C(0552000000000)+I_AC, INT64_C(0553000000000)+I_AC,
INT64_C(0554000000000)+I_AC, INT64_C(0555000000000)+I_AC, INT64_C(0556000000000)+I_AC, INT64_C(0557000000000)+I_AC,
INT64_C(0560000000000)+I_AC, INT64_C(0561000000000)+I_AC, INT64_C(0562000000000)+I_AC, INT64_C(0563000000000)+I_AC,
INT64_C(0564000000000)+I_AC, INT64_C(0565000000000)+I_AC, INT64_C(0566000000000)+I_AC, INT64_C(0567000000000)+I_AC,
INT64_C(0570000000000)+I_AC, INT64_C(0571000000000)+I_AC, INT64_C(0572000000000)+I_AC, INT64_C(0573000000000)+I_AC,
INT64_C(0574000000000)+I_AC, INT64_C(0575000000000)+I_AC, INT64_C(0576000000000)+I_AC, INT64_C(0577000000000)+I_AC,
INT64_C(0600000000000)+I_AC, INT64_C(0601000000000)+I_AC, INT64_C(0602000000000)+I_AC, INT64_C(0603000000000)+I_AC,
INT64_C(0604000000000)+I_AC, INT64_C(0605000000000)+I_AC, INT64_C(0606000000000)+I_AC, INT64_C(0607000000000)+I_AC,
INT64_C(0610000000000)+I_AC, INT64_C(0611000000000)+I_AC, INT64_C(0612000000000)+I_AC, INT64_C(0613000000000)+I_AC,
INT64_C(0614000000000)+I_AC, INT64_C(0615000000000)+I_AC, INT64_C(0616000000000)+I_AC, INT64_C(0617000000000)+I_AC,
INT64_C(0620000000000)+I_AC, INT64_C(0621000000000)+I_AC, INT64_C(0622000000000)+I_AC, INT64_C(0623000000000)+I_AC,
INT64_C(0624000000000)+I_AC, INT64_C(0625000000000)+I_AC, INT64_C(0626000000000)+I_AC, INT64_C(0627000000000)+I_AC,
INT64_C(0630000000000)+I_AC, INT64_C(0631000000000)+I_AC, INT64_C(0632000000000)+I_AC, INT64_C(0633000000000)+I_AC,
INT64_C(0634000000000)+I_AC, INT64_C(0635000000000)+I_AC, INT64_C(0636000000000)+I_AC, INT64_C(0637000000000)+I_AC,
INT64_C(0640000000000)+I_AC, INT64_C(0641000000000)+I_AC, INT64_C(0642000000000)+I_AC, INT64_C(0643000000000)+I_AC,
INT64_C(0644000000000)+I_AC, INT64_C(0645000000000)+I_AC, INT64_C(0646000000000)+I_AC, INT64_C(0647000000000)+I_AC,
INT64_C(0650000000000)+I_AC, INT64_C(0651000000000)+I_AC, INT64_C(0652000000000)+I_AC, INT64_C(0653000000000)+I_AC,
INT64_C(0654000000000)+I_AC, INT64_C(0655000000000)+I_AC, INT64_C(0656000000000)+I_AC, INT64_C(0657000000000)+I_AC,
INT64_C(0660000000000)+I_AC, INT64_C(0661000000000)+I_AC, INT64_C(0662000000000)+I_AC, INT64_C(0663000000000)+I_AC,
INT64_C(0664000000000)+I_AC, INT64_C(0665000000000)+I_AC, INT64_C(0666000000000)+I_AC, INT64_C(0667000000000)+I_AC,
INT64_C(0670000000000)+I_AC, INT64_C(0671000000000)+I_AC, INT64_C(0672000000000)+I_AC, INT64_C(0673000000000)+I_AC,
INT64_C(0674000000000)+I_AC, INT64_C(0675000000000)+I_AC, INT64_C(0676000000000)+I_AC, INT64_C(0677000000000)+I_AC,
INT64_C(0704000000000)+I_AC, INT64_C(0705000000000)+I_AC,
INT64_C(0710000000000)+I_AC, INT64_C(0711000000000)+I_AC, INT64_C(0712000000000)+I_AC, INT64_C(0713000000000)+I_AC,
INT64_C(0714000000000)+I_AC, INT64_C(0715000000000)+I_AC, INT64_C(0716000000000)+I_AC, INT64_C(0717000000000)+I_AC,
INT64_C(0720000000000)+I_AC, INT64_C(0721000000000)+I_AC, INT64_C(0722000000000)+I_AC, INT64_C(0723000000000)+I_AC,
INT64_C(0724000000000)+I_AC, INT64_C(0725000000000)+I_AC,
INT64_C(0700000000000)+I_IO, INT64_C(0700040000000)+I_IO, INT64_C(0700100000000)+I_IO, INT64_C(0700140000000)+I_IO,
INT64_C(0700200000000)+I_IO, INT64_C(0700240000000)+I_IO, INT64_C(0700300000000)+I_IO, INT64_C(0700340000000)+I_IO,
INT64_C(0400000000000)+I_AC, INT64_C(0401000000000)+I_AC, INT64_C(0402000000000)+I_AC, INT64_C(0403000000000)+I_AC,
INT64_C(0434000000000)+I_AC, INT64_C(0435000000000)+I_AC, INT64_C(0436000000000)+I_AC, INT64_C(0437000000000)+I_AC,
INT64_C(0415000000000)+I_AC, INT64_C(0501000000000)+I_AC,
INT64_C(0001000000000)+I_AC, INT64_C(0002000000000)+I_AC, INT64_C(0003000000000)+I_AC,
INT64_C(0004000000000)+I_AC, INT64_C(0005000000000)+I_AC, INT64_C(0006000000000)+I_AC, INT64_C(0007000000000)+I_AC,
INT64_C(0010000000000)+I_AC, INT64_C(0011000000000)+I_AC, INT64_C(0012000000000)+I_AC, INT64_C(0013000000000)+I_AC,
INT64_C(0014000000000)+I_AC, INT64_C(0015000000000)+I_AC, INT64_C(0016000000000)+I_AC, INT64_C(0017000000000)+I_AC,
INT64_C(0020000000000)+I_AC, INT64_C(0021000000000)+I_AC, INT64_C(0022000000000)+I_AC, INT64_C(0023000000000)+I_AC,
INT64_C(0024000000000)+I_AC, INT64_C(0025000000000)+I_AC, INT64_C(0026000000000)+I_AC, INT64_C(0027000000000)+I_AC,
INT64_C(0030000000000)+I_AC, INT64_C(0031000000000)+I_AC,
-INT64_C(1)
};
#define NUMDEV 6
static const char *devnam[NUMDEV] = {
"APR", "PI", "PAG", "CCA", "TIM", "MTR"
};
/* Symbolic decode
Inputs:
*of = output stream
addr = current PC
*val = pointer to values
*uptr = pointer to unit
sw = switches
Outputs:
return = status code
*/
#define FMTASC(x) ((x) < 040)? "<%03o>": "%c", (x)
#define SIXTOASC(x) ((x) + 040)
t_stat fprint_sym (FILE *of, t_addr addr, t_value *val,
UNIT *uptr, int32 sw)
{
int32 i, j, c, ac, xr, y, dev;
d10 inst;
inst = val[0];
if (sw & SWMASK ('A')) { /* ASCII? */
if (inst > 0377)
return SCPE_ARG;
fprintf (of, FMTASC ((int32) (inst & 0177)));
return SCPE_OK;
}
if (sw & SWMASK ('C')) { /* character? */
for (i = 30; i >= 0; i = i - 6) {
c = (int32) ((inst >> i) & 077);
fprintf (of, "%c", SIXTOASC (c));
}
return SCPE_OK;
}
if (sw & SWMASK ('P')) { /* packed? */
for (i = 29; i >= 0; i = i - 7) {
c = (int32) ((inst >> i) & 0177);
fprintf (of, FMTASC (c));
}
return SCPE_OK;
}
if (!(sw & SWMASK ('M')))
return SCPE_ARG;
/* Instruction decode */
ac = GET_AC (inst);
xr = GET_XR (inst);
y = GET_ADDR (inst);
dev = GET_DEV (inst);
for (i = 0; opc_val[i] >= 0; i++) { /* loop thru ops */
j = (int32) ((opc_val[i] >> I_V_FL) & I_M_FL); /* get class */
if (((opc_val[i] & DMASK) == (inst & masks[j])) && /* match? */
(((opc_val[i] & I_ITS) == 0) || Q_ITS)) {
fprintf (of, "%s ", opcode[i]); /* opcode */
switch (j) { /* case on class */
case I_V_AC: /* AC + address */
fprintf (of, "%-o,", ac); /* print AC, fall thru */
case I_V_OP: /* address only */
if (inst & INST_IND)
fprintf (of, "@");
if (xr)
fprintf (of, "%-o(%-o)", y, xr);
else fprintf (of, "%-o", y);
break;
case I_V_IO: /* I/O */
if (dev < NUMDEV)
fprintf (of, "%s,", devnam[dev]);
else fprintf (of, "%-o,", dev);
if (inst & INST_IND)
fprintf (of, "@");
if (xr)
fprintf (of, "%-o(%-o)", y, xr);
else fprintf (of, "%-o", y);
break;
} /* end case */
return SCPE_OK;
} /* end if */
} /* end for */
return SCPE_ARG;
}
/* Get operand, including indirect and index
Inputs:
*cptr = pointer to input string
*status = pointer to error status
Outputs:
val = output value
*/
t_value get_opnd (CONST char *cptr, t_stat *status)
{
int32 sign = 0;
t_value val, xr = 0, ind = 0;
CONST char *tptr;
*status = SCPE_ARG; /* assume fail */
if (*cptr == '@') {
ind = INST_IND;
cptr++;
}
if (*cptr == '+')
cptr++;
else if (*cptr == '-') {
sign = 1;
cptr++;
}
val = strtotv (cptr, &tptr, 8);
if (val > 0777777)
return 0;
if (sign)
val = (~val + 1) & 0777777;
cptr = tptr;
if (*cptr == '(') {
cptr++;
xr = strtotv (cptr, &tptr, 8);
if ((cptr == tptr) || (*tptr != ')') ||
(xr > AC_NUM) || (xr == 0))
return 0;
cptr = ++tptr;
}
if (*cptr == 0)
*status = SCPE_OK;
return (ind | (xr << 18) | val);
}
/* Symbolic input
Inputs:
*cptr = pointer to input string
addr = current PC
uptr = pointer to unit
*val = pointer to output values
sw = switches
Outputs:
status = error status
*/
t_stat parse_sym (CONST char *cptr, t_addr addr, UNIT *uptr, t_value *val, int32 sw)
{
int32 i, j;
t_value ac, dev;
t_stat r;
char gbuf[CBUFSIZE], cbuf[2*CBUFSIZE];
while (isspace (*cptr)) cptr++;
memset (cbuf, '\0', sizeof(cbuf));
strncpy (cbuf, cptr, sizeof(cbuf)-7);
cptr = cbuf;
if ((sw & SWMASK ('A')) || ((*cptr == '\'') && cptr++)) { /* ASCII char? */
if (cptr[0] == 0) /* must have 1 char */
return SCPE_ARG;
val[0] = (t_value) cptr[0];
return SCPE_OK;
}
if ((sw & SWMASK ('C')) || ((*cptr == '"') && cptr++)) { /* sixbit string? */
if (cptr[0] == 0) /* must have 1 char */
return SCPE_ARG;
for (i = 0; i < 6; i++) {
val[0] = (val[0] << 6);
if (cptr[i]) val[0] = val[0] |
((t_value) ((cptr[i] + 040) & 077));
}
return SCPE_OK;
}
if ((sw & SWMASK ('P')) || ((*cptr == '#') && cptr++)) { /* packed string? */
if (cptr[0] == 0) /* must have 1 char */
return SCPE_ARG;
for (i = 0; i < 5; i++)
val[0] = (val[0] << 7) | ((t_value) cptr[i]);
val[0] = val[0] << 1;
return SCPE_OK;
}
/* Instruction parse */
cptr = get_glyph (cptr, gbuf, 0); /* get opcode */
for (i = 0; (opcode[i] != NULL) && (strcmp (opcode[i], gbuf) != 0) ; i++) ;
if (opcode[i] == NULL)
return SCPE_ARG;
val[0] = opc_val[i] & DMASK; /* get value */
j = (int32) ((opc_val[i] >> I_V_FL) & I_M_FL); /* get class */
switch (j) { /* case on class */
case I_V_AC: /* AC + operand */
if (strchr (cptr, ',')) { /* AC specified? */
cptr = get_glyph (cptr, gbuf, ','); /* get glyph */
if (gbuf[0]) { /* can be omitted */
ac = get_uint (gbuf, 8, AC_NUM - 1, &r);
if (r != SCPE_OK)
return SCPE_ARG;
val[0] = val[0] | (ac << INST_V_AC);
}
} /* fall through */
case I_V_OP: /* operand */
cptr = get_glyph (cptr, gbuf, 0);
val[0] = val[0] | get_opnd (gbuf, &r);
if (r != SCPE_OK)
return SCPE_ARG;
break;
case I_V_IO: /* I/O */
cptr = get_glyph (cptr, gbuf, ','); /* get glyph */
for (dev = 0; (dev < NUMDEV) && (strcmp (devnam[dev], gbuf) != 0); dev++);
if (dev >= NUMDEV) {
dev = get_uint (gbuf, 8, INST_M_DEV, &r);
if (r != SCPE_OK)
return SCPE_ARG;
}
val[0] = val[0] | (dev << INST_V_DEV);
cptr = get_glyph (cptr, gbuf, 0);
val[0] = val[0] | get_opnd (gbuf, &r);
if (r != SCPE_OK)
return SCPE_ARG;
break;
} /* end case */
if (*cptr != 0) /* junk at end? */
return SCPE_ARG;
return SCPE_OK;
}