| /* s3_sys.c: IBM System/3 system interface | |
| Copyright (c) 2001-2012, Charles E. Owen | |
| 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 Charles E. Owen shall not be | |
| used in advertising or otherwise to promote the sale, use or other dealings | |
| in this Software without prior written authorization from Charles E. Owen. | |
| 19-Mar-12 RMS Fixed declaration of conversion tables (Mark Pizzolato) | |
| */ | |
| #include <ctype.h> | |
| #include "s3_defs.h" | |
| extern DEVICE cpu_dev; | |
| extern DEVICE pkb_dev; | |
| extern DEVICE cdr_dev; | |
| extern DEVICE cdp_dev; | |
| extern DEVICE stack_dev; | |
| extern DEVICE lpt_dev; | |
| extern DEVICE r1_dev; | |
| extern DEVICE f1_dev; | |
| extern DEVICE r2_dev; | |
| extern DEVICE f2_dev; | |
| extern UNIT cpu_unit; | |
| extern REG cpu_reg[]; | |
| extern unsigned char M[]; | |
| extern int32 saved_PC, IAR[]; | |
| extern unsigned char ebcdic_to_ascii[]; | |
| CONST char *parse_addr(CONST char *cptr, char *gbuf, t_addr *addr, int32 *addrtype); | |
| int32 printf_sym (FILE *of, char *strg, t_addr addr, uint32 *val, | |
| UNIT *uptr, int32 sw); | |
| /* SCP data structures | |
| sim_name simulator name string | |
| sim_PC pointer to saved PC register descriptor | |
| sim_emax number of words needed 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[] = "System/3"; | |
| REG *sim_PC = &cpu_reg[0]; | |
| int32 sim_emax = 6; | |
| DEVICE *sim_devices[] = { | |
| &cpu_dev, | |
| &pkb_dev, | |
| &cdr_dev, | |
| &cdp_dev, | |
| &stack_dev, | |
| &lpt_dev, | |
| &r1_dev, | |
| &f1_dev, | |
| &r2_dev, | |
| &f2_dev, | |
| NULL | |
| }; | |
| const char *sim_stop_messages[] = { | |
| "Unknown error", | |
| "Unknown I/O Instruction", | |
| "HALT instruction", | |
| "Breakpoint", | |
| "Invalid Opcode", | |
| "Invalid Qbyte", | |
| "Invalid Address", | |
| "Invalid Device Command", | |
| "ATTN Card Reader" | |
| }; | |
| /* This is the opcode master defintion table. Each possible opcode mnemonic | |
| is defined here, with enough information to translate to and from | |
| symbolic to binary machine code. | |
| First field is the opcode's mnemonic | |
| Second field is the hex of the right nybble of the binary opcode | |
| Third field is the Q code for those with implicit Q codes | |
| Fourth field is the symbolic format of the operands: | |
| 0 - (Q-byte),(R-byte) | |
| 1 - (Q-byte),(Address) | |
| 2 - (Address),(Address),(Qbyte) | |
| 3 - (Address),(Qbyte) | |
| 4 - (device),(modifier),(function) -- these 3 make up qbyte | |
| 5 - (device),(modifier),(function),(control) | |
| 6 - (device),(modifier),(function),(Address) | |
| 7 - (displacement) -- Q byte is implicit in opcode | |
| 8 - (address) -- Qbyte is implicit in opcode | |
| 9 - (Address),(Address) -- Qbyte is implicit in opcode | |
| Fifth Field is the group number: | |
| 0 - Command Group (left op nybble is F) | |
| 1 - One Address Operations A (Left Nybble C, D, or E) | |
| 2 - Two Address Operations (Left Nybble 0,1,2,4,5,6,8,9, or A) | |
| 3 - One Address Operations B (left Nybble 3, 7, or B) | |
| There is duplication in this table -- IBM defines different opcodes | |
| that resolve to the same binary machine instruction -- e.g. JE and | |
| JZ. On input this is no problem, on output, define the one you | |
| want to appear first, the second will never appear on output. | |
| */ | |
| int32 nopcode = 75; | |
| struct opdef opcode[75] = { | |
| {"HPL", 0x00,0,0,0}, /** Halt Program Level */ | |
| {"A", 0x06,0,1,3}, /** Add to Register: A R,AADD */ | |
| {"ST", 0x04,0,1,3}, /** Store Register */ | |
| {"L", 0x05,0,1,3}, /** Load Register */ | |
| {"LA", 0x02,0,1,1}, /** Load Address */ | |
| {"ZAZ", 0x04,0,2,2}, /** Zero and Add Zoned */ | |
| {"AZ", 0x06,0,2,2}, /** Add Zoned Decimal */ | |
| {"SZ", 0x07,0,2,2}, /** Subtract Zoned Decimal */ | |
| {"ALC", 0x0E,0,2,2}, /** Add Logical: ALC BADD,AADD,LEN */ | |
| {"SLC", 0x0F,0,2,2}, /** Sub Logical: SLC BADD,AADD,LEN */ | |
| {"MVC", 0x0C,0,2,2}, /** Move Chars MVX BADD,AADD,LEN */ | |
| {"ED", 0x0A,0,2,2}, /** Edit: ED BADD,AADD,LEN */ | |
| {"ITC", 0x0B,0,2,2}, /** Insert Chars: ITC BADD,AADD,LEN */ | |
| {"CLC", 0x0D,0,2,2}, /** Compare Logical: CLC BADD,AADD,LEN */ | |
| {"MVI", 0x0C,0,3,3}, /** Move Immediate */ | |
| {"SBN", 0x0A,0,3,3}, /** Set Bits On */ | |
| {"SBF", 0x0B,0,3,3}, /** Set Bits Off */ | |
| {"CLI", 0x0D,0,3,3}, /** Compare Immediate */ | |
| {"TBN", 0x08,0,3,3}, /** Test Bits On */ | |
| {"TBF", 0x09,0,3,3}, /** Test Bits Off */ | |
| {"APL", 0x01,0,4,0}, /** Advance Program Level */ | |
| {"SIO", 0x03,0,5,0}, /** Start I/O */ | |
| {"SNS", 0x00,0,6,3}, /** Sense I/O */ | |
| {"LIO", 0x01,0,6,3}, /** Load I/O */ | |
| {"TIO", 0x01,0,6,1}, /** Test I/O */ | |
| {"J", 0x02,0,7,0}, /** Jump Unconditional */ | |
| {"J", 0x02,0x87,7,0}, /* Alternate J */ | |
| {"JH", 0x02,132,7,0}, /* Jump if High */ | |
| {"JL", 0x02,130,7,0}, /* Jump if Low */ | |
| {"JE", 0x02,129,7,0}, /* Jump if Equal */ | |
| {"JNH", 0x02,4,7,0}, /** Jump if Not High */ | |
| {"JNL", 0x02,2,7,0}, /** Jump if Not Low */ | |
| {"JNE", 0x02,1,7,0}, /** Jump if Not Equal */ | |
| {"JOZ", 0x02,136,7,0}, /* Jump if Overflow Zoned */ | |
| {"JOL", 0x02,160,7,0}, /* Jump if Overflow Logical */ | |
| {"JNOZ", 0x02,8,7,0}, /** Jump if No Overflow Zoned */ | |
| {"JNOL", 0x02,32,7,0}, /* Jump if No Overflow Logical */ | |
| {"JT", 0x02,16,7,0}, /* Jump if True */ | |
| {"JF", 0x02,144,7,0}, /* Jump if False */ | |
| {"JP", 0x02,132,7,0}, /* Jump if Plus */ | |
| {"JM", 0x02,130,7,0}, /* Jump if Minus */ | |
| {"JZ", 0x02,129,7,0}, /* Jump if Zero */ | |
| {"JNP", 0x02,4,7,0}, /** Jump if Not Plus */ | |
| {"JNM", 0x02,2,7,0}, /** Jump if Not Minus */ | |
| {"JNZ", 0x02,1,7,0}, /** Jump if Not Zero */ | |
| {"NOPJ", 0x02,0x80,7,0}, /* Never Jump - NOP */ | |
| {"B", 0x00,0x00,8,1}, /* Branch Unconditional */ | |
| {"B", 0x00,0x87,8,1}, /* Alternate B */ | |
| {"BH", 0x00,0x84,8,1}, /* Branch if High */ | |
| {"BL", 0x00,0x82,8,1}, /* Branch if Low */ | |
| {"BE", 0x00,0x81,8,1}, /* Branch if Equal */ | |
| {"BNH", 0x00,0x04,8,1}, /* Branch if Not High */ | |
| {"BNL", 0x00,0x02,8,1}, /* Branch if Not Low */ | |
| {"BNE", 0x00,0x01,8,1}, /* Branch if Not Equal */ | |
| {"BOZ", 0x00,0x88,8,1}, /* Branch if Overflow Zoned */ | |
| {"BOL", 0x00,0xA0,8,1}, /* Branch if Overflow Logical */ | |
| {"BNOZ", 0x00,0x08,8,1}, /* Branch if No Overflow Zoned */ | |
| {"BNOL", 0x00,0x20,8,1}, /* Branch if No Overflow Logical */ | |
| {"BT", 0x00,0x10,8,1}, /* Branch if True */ | |
| {"BF", 0x00,0x90,8,1}, /* Branch if False */ | |
| {"BP", 0x00,0x84,8,1}, /* Branch if Plus */ | |
| {"BM", 0x00,0x82,8,1}, /* Branch if Minus */ | |
| {"BZ", 0x00,0x81,8,1}, /* Branch if Zero */ | |
| {"BNP", 0x00,0x04,8,1}, /* Branch if Not Plus */ | |
| {"BNM", 0x00,0x02,8,1}, /* Branch if Not Minus */ | |
| {"BNZ", 0x00,0x01,8,1}, /* Branch if Not Zero */ | |
| {"NOPB", 0x00,0x80,8,1}, /* Never Branch - NOP */ | |
| {"MZZ", 0x08,0,9,2}, /** Move Zone to Zone */ | |
| {"MNZ", 0x08,1,9,2}, /** Move Numeric to Zone */ | |
| {"MZN", 0x08,2,9,2}, /** Move Zone to Numeric */ | |
| {"MNN", 0x08,3,9,2}, /** Move Numeric to Numeric */ | |
| {"MVX", 0x08,0,2,2}, /** Move Hex: MVX BADD,AADD,CODE */ | |
| {"JC", 0x02,0,3,0}, /** Jump on Specified Condition bits */ | |
| {"BC", 0x00,0,3,1}, /** Branch on Specified Condition */ | |
| {"***", 0x00,0,0,0} | |
| }; | |
| int32 regcode[15] = { 0x40, 0x20, 0x10, 0x08, 0x04, 0x02, 0x01, | |
| 0x80, 0xC0, 0xA0, 0x90, 0x88, 0x84, 0x82, 0x81 | |
| }; | |
| char regname[15][8] = { "(P2IAR)", | |
| "(P1IAR)", | |
| "(IAR)", | |
| "(ARR)", | |
| "(PSR)", | |
| "(XR2)", | |
| "(XR1)", | |
| "(IAR0)", | |
| "(IAR1)", | |
| "(IAR2)", | |
| "(IAR3)", | |
| "(IAR4)", | |
| "(IAR5)", | |
| "(IAR6)", | |
| "(IAR7)" | |
| }; | |
| /* This is the binary loader. The input file is considered to be | |
| a string of literal bytes with no special format. The | |
| load starts at the current value of the P1IAR. | |
| */ | |
| t_stat sim_load (FILE *fileref, CONST char *cptr, CONST char *fnam, int flag) | |
| { | |
| int32 i, addr = 0, cnt = 0; | |
| if ((*cptr != 0) || (flag != 0)) return SCPE_ARG; | |
| addr = IAR[8]; | |
| while ((i = getc (fileref)) != EOF) { | |
| M[addr] = i & 0xff; | |
| addr++; | |
| cnt++; | |
| } /* end while */ | |
| printf ("%d Bytes loaded.\n", cnt); | |
| return (SCPE_OK); | |
| } | |
| /* Symbolic output | |
| Inputs: | |
| *of = output stream | |
| addr = current PC | |
| *val = pointer to values | |
| *uptr = pointer to unit | |
| sw = switches | |
| Outputs: | |
| status = error code | |
| */ | |
| t_stat fprint_sym (FILE *of, t_addr addr, t_value *val, | |
| UNIT *uptr, int32 sw) | |
| { | |
| int32 r; | |
| char strg[256]; | |
| strcpy(strg, ""); | |
| r = printf_sym(of, strg, addr, val, uptr, sw); | |
| if (sw & SWMASK ('A')) | |
| strcpy(strg, ""); | |
| else | |
| fprintf(of, "%s", strg); | |
| return (r); | |
| } | |
| int32 printf_sym (FILE *of, char *strg, t_addr addr, uint32 *val, | |
| UNIT *uptr, int32 sw) | |
| { | |
| int32 c1, c2, group, len1, len2, inst, aaddr, baddr; | |
| int32 oplen, groupno, i, j, vpos, qbyte, da, m, n; | |
| char bld[128], bldaddr[32], boperand[32], aoperand[32]; | |
| int32 blk[16], blt[16]; | |
| int32 blkadd; | |
| c1 = val[0] & 0xff; | |
| if (sw & SWMASK ('A')) { | |
| for (i = 0; i < 16; i++) { | |
| blkadd = addr + (i*16); | |
| for (j = 0; j < 16; j++) { | |
| blk[j] = M[blkadd+j] & 0xff; | |
| c2 = ebcdic_to_ascii[blk[j]]; | |
| if (c2 < 040 || c2 > 0177 || blk[j] == 07) { | |
| blt[j] = '.'; | |
| } else { | |
| blt[j] = c2; | |
| } | |
| } | |
| if (i == 0) { | |
| fprintf(of, "%02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X [%c%c%c%c%c%c%c%c%c%c%c%c%c%c%c%c]\n ", | |
| blk[0], blk[1], blk[2], blk[3], blk[4], blk[5], blk[6], blk[7], | |
| blk[8], blk[9], blk[10], blk[11], blk[12], blk[13], blk[14], blk[15], | |
| blt[0], blt[1], blt[2], blt[3], blt[4], blt[5], blt[6], blt[7], | |
| blt[8], blt[9], blt[10], blt[11], blt[12], blt[13], blt[14], blt[15]); | |
| } else { | |
| fprintf(of, "%X\t%02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X [%c%c%c%c%c%c%c%c%c%c%c%c%c%c%c%c]\n ", | |
| blkadd, blk[0], blk[1], blk[2], blk[3], blk[4], blk[5], blk[6], blk[7], | |
| blk[8], blk[9], blk[10], blk[11], blk[12], blk[13], blk[14], blk[15], | |
| blt[0], blt[1], blt[2], blt[3], blt[4], blt[5], blt[6], blt[7], | |
| blt[8], blt[9], blt[10], blt[11], blt[12], blt[13], blt[14], blt[15]); | |
| } | |
| } | |
| return SCPE_OK; } | |
| if (sw & SWMASK ('C')) { | |
| c2 = ebcdic_to_ascii[c1]; | |
| if (c2 < 040 || c2 > 0177) { | |
| sprintf(strg, "<%02X>", c1 & 0xff); | |
| } else { | |
| sprintf (strg, "%c", c2 & 0xff); | |
| } | |
| return SCPE_OK; } | |
| if (!(sw & SWMASK ('M'))) return SCPE_ARG; | |
| inst = val[0] & 0x0f; | |
| len1 = (val[0] >> 6) & 3; | |
| len2 = (val[0] >> 4) & 3; | |
| group = (val[0] >> 4) & 0x0f; | |
| qbyte = val[1]; | |
| /* Get total length of instruction */ | |
| if (group == 0x0f) { | |
| oplen = 3; | |
| } else { | |
| oplen = 2; | |
| if (len1 == 0) oplen += 2; | |
| if (len1 == 1 || len1 == 2) oplen++; | |
| if (len2 == 0) oplen += 2; | |
| if (len2 == 1 || len2 == 2) oplen++; | |
| } | |
| /* Find which group it belongs to */ | |
| switch (group) { | |
| case 0x0f: | |
| groupno = 0; | |
| break; | |
| case 0x0c: | |
| case 0x0d: | |
| case 0x0e: | |
| groupno = 1; | |
| break; | |
| case 0x03: | |
| case 0x07: | |
| case 0x0b: | |
| groupno = 3; | |
| break; | |
| default: | |
| groupno = 2; | |
| break; | |
| } | |
| /* find the table entry */ | |
| for (i = 0; i < nopcode; i++) { | |
| if (opcode[i].form < 7) { /* Explicit Q */ | |
| if (opcode[i].group == groupno && | |
| opcode[i].opmask == inst) break; | |
| } else { /* Implicit Q */ | |
| if (opcode[i].group == groupno && | |
| opcode[i].opmask == inst && | |
| opcode[i].q == qbyte) break; | |
| } | |
| } | |
| /* print the opcode */ | |
| if (i >= nopcode) { | |
| sprintf(strg, "%02X", val[0]); | |
| oplen = 1; | |
| } else { | |
| sprintf(bld, "%s ", opcode[i].op); | |
| /* Extract the addresses into aaddr and baddr */ | |
| strcpy(aoperand, "ERROR"); | |
| strcpy(boperand, "ERROR"); | |
| vpos = 2; | |
| aaddr = baddr = 0; | |
| switch (len1) { | |
| case 0: | |
| baddr = ((val[vpos] << 8) & 0xff00) | (val[vpos + 1] & 0x00ff); | |
| sprintf(boperand, "%04X", baddr); | |
| vpos = 4; | |
| break; | |
| case 1: | |
| baddr = val[vpos] & 255; | |
| sprintf(boperand, "(%02X,XR1)", baddr); | |
| vpos = 3; | |
| break; | |
| case 2: | |
| baddr = val[vpos] & 255; | |
| sprintf(boperand, "(%02X,XR2)", baddr); | |
| vpos = 3; | |
| break; | |
| default: | |
| baddr = 0; | |
| break; | |
| } | |
| switch (len2) { | |
| case 0: | |
| aaddr = ((val[vpos] << 8) & 0xff00) | (val[vpos + 1] & 0x00ff); | |
| if (group == 0x0C || group == 0x0D || group == 0x0E) | |
| sprintf(boperand, "%04X", aaddr); | |
| else | |
| sprintf(aoperand, "%04X", aaddr); | |
| break; | |
| case 1: | |
| aaddr = val[vpos] & 255; | |
| if (group == 0x0C || group == 0x0D || group == 0x0E) | |
| sprintf(boperand, "(%02X,XR1)", aaddr); | |
| else | |
| sprintf(aoperand, "(%02X,XR1)", aaddr); | |
| break; | |
| case 2: | |
| aaddr = val[vpos] & 255; | |
| if (group == 0x0C || group == 0x0D || group == 0x0E) | |
| sprintf(boperand, "(%02X,XR2)", aaddr); | |
| else | |
| sprintf(aoperand, "(%02X,XR2)", aaddr); | |
| break; | |
| default: | |
| aaddr = 0; | |
| break; | |
| } | |
| /* Display the operands in the correct format */ | |
| da = (qbyte >> 4) & 0x0f; | |
| m = (qbyte >> 3) & 0x01; | |
| n = (qbyte) & 0x07; | |
| switch (opcode[i].form) { | |
| case 0: | |
| sprintf(bldaddr, "%02X,%02X", qbyte, val[2]); | |
| break; | |
| case 1: | |
| if (inst == 2 || inst == 4 || inst == 5 || inst == 6) { | |
| for (i = 0; i < 16; i++) { | |
| if (regcode[i] == qbyte) | |
| break; | |
| } | |
| if (i < 16) { | |
| sprintf(bldaddr, "%s,%s", regname[i], boperand); | |
| } else { | |
| sprintf(bldaddr, "%02X,%s", qbyte, boperand); | |
| } | |
| } else { | |
| sprintf(bldaddr, "%02X,%s", qbyte, boperand); | |
| } | |
| break; | |
| case 2: | |
| if (inst > 9 || inst == 4 || inst == 6 || inst == 7) | |
| qbyte++; /* special +1 for length display */ | |
| sprintf(bldaddr, "%s,%s,%d", boperand, aoperand, qbyte); | |
| break; | |
| case 3: | |
| if (strcmp(opcode[i].op, "JC") == 0) { | |
| sprintf(bldaddr, "%04X,%02X", addr+oplen+val[2], qbyte); | |
| } else { | |
| sprintf(bldaddr, "%s,%02X", boperand, qbyte); | |
| } | |
| break; | |
| case 4: | |
| sprintf(bldaddr, "%d,%d,%d", da, m, n); | |
| break; | |
| case 5: | |
| sprintf(bldaddr, "%d,%d,%d,%02X", da, m, n, val[2]); | |
| break; | |
| case 6: | |
| sprintf(bldaddr, "%d,%d,%d,%s", da, m, n, boperand); | |
| break; | |
| case 7: | |
| sprintf(bldaddr, "%04X", addr+oplen+val[2]); | |
| break; | |
| case 8: | |
| sprintf(bldaddr, "%s", boperand); | |
| break; | |
| default: | |
| sprintf(bldaddr, "%s,%s", boperand, aoperand); | |
| break; | |
| } | |
| sprintf(strg, "%s%s", bld, bldaddr); | |
| } | |
| return -(oplen - 1); | |
| } | |
| /* 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 cflag, i = 0, j, r, oplen, addtyp, saveaddr, vptr; | |
| char gbuf[CBUFSIZE]; | |
| cflag = (uptr == NULL) || (uptr == &cpu_unit); | |
| while (isspace (*cptr)) cptr++; /* absorb spaces */ | |
| if ((sw & SWMASK ('A')) || ((*cptr == '\'') && cptr++)) { /* ASCII char? */ | |
| if (cptr[0] == 0) return SCPE_ARG; /* must have 1 char */ | |
| val[0] = (unsigned int) cptr[0]; | |
| return SCPE_OK; | |
| } | |
| if ((sw & SWMASK ('C')) || ((*cptr == '"') && cptr++)) { /* ASCII string? */ | |
| if (cptr[0] == 0) return SCPE_ARG; /* must have 1 char */ | |
| val[0] = ((unsigned int) cptr[0] << 8) + (unsigned int) cptr[1]; | |
| return SCPE_OK; | |
| } | |
| /* An instruction: get opcode (all characters until null, comma, left paren, | |
| or numeric (including spaces). | |
| */ | |
| while (1) { | |
| if (*cptr == ',' || *cptr == '\0' || *cptr == '(' || | |
| isdigit(*cptr)) | |
| break; | |
| gbuf[i] = toupper(*cptr); | |
| cptr++; | |
| i++; | |
| } | |
| /* kill trailing spaces if any */ | |
| gbuf[i] = '\0'; | |
| for (j = i - 1; gbuf[j] == ' '; j--) { | |
| gbuf[j] = '\0'; | |
| } | |
| /* find opcode in table */ | |
| for (j = 0; j < nopcode; j++) { | |
| if (strcmp(gbuf, opcode[j].op) == 0) | |
| break; | |
| } | |
| if (j >= nopcode) /* not found */ | |
| return SCPE_ARG; | |
| oplen = 2; /* start with op & q */ | |
| val[0] = opcode[j].opmask; /* store opcode right nybble */ | |
| switch (opcode[j].form) { /* Get operands based on operand format */ | |
| case 0: /* Single Byte Operand */ | |
| if (*cptr == ',') cptr++; | |
| cptr = get_glyph(cptr, gbuf, ','); /* Get Q Byte */ | |
| sscanf(gbuf, "%x", &r); | |
| val[1] = r; | |
| if (*cptr == ',') cptr++; | |
| cptr = get_glyph(cptr, gbuf, 0); /* Get R Byte */ | |
| sscanf(gbuf, "%x", &r); | |
| val[2] = r; | |
| oplen = 3; | |
| val[0] = 0xf0 | opcode[j].opmask; | |
| break; | |
| case 1: | |
| if (*cptr == ',') cptr++; | |
| cptr = get_glyph(cptr, gbuf, ','); | |
| if (opcode[j].opmask == 2 || | |
| opcode[j].opmask == 4 || | |
| opcode[j].opmask == 5 || | |
| opcode[j].opmask == 6) { | |
| if (isdigit(gbuf[0])) { | |
| sscanf(gbuf, "%x", &r); | |
| } else { | |
| for (i = 0; i < 16; i++) { | |
| if (strcmp(gbuf, regname[i]) == 0) | |
| break; | |
| } | |
| if (i < 16) { | |
| r = regcode[i]; | |
| } else { | |
| return SCPE_ARG; | |
| } | |
| } | |
| } else { | |
| sscanf(gbuf, "%x", &r); | |
| } | |
| if (r > 255) return SCPE_ARG; | |
| val[1] = r; | |
| if (*cptr == ',') cptr++; | |
| cptr = parse_addr(cptr, gbuf, &addr, &addtyp); | |
| switch(addtyp) { | |
| case 0: | |
| val[2] = (addr >> 8) & 0x00ff; | |
| val[3] = addr & 0xff; | |
| oplen = 4; | |
| if (opcode[j].group == 1) | |
| val[0] = 0xC0 | opcode[j].opmask; | |
| else | |
| val[0] = 0x30 | opcode[j].opmask; | |
| break; | |
| case 1: | |
| val[2] = addr & 0xff; | |
| oplen = 3; | |
| if (opcode[j].group == 1) | |
| val[0] = 0xD0 | opcode[j].opmask; | |
| else | |
| val[0] = 0x70 | opcode[j].opmask; | |
| break; | |
| case 2: | |
| val[2] = addr & 0xff; | |
| oplen = 3; | |
| if (opcode[j].group == 1) | |
| val[0] = 0xE0 | opcode[j].opmask; | |
| else | |
| val[0] = 0xB0 | opcode[j].opmask; | |
| break; | |
| default: | |
| return SCPE_ARG; | |
| break; | |
| } | |
| break; | |
| case 2: | |
| oplen = 2; | |
| cptr = parse_addr(cptr, gbuf, &addr, &addtyp); | |
| switch(addtyp) { | |
| case 0: | |
| val[2] = (addr >> 8) & 0xff; | |
| val[3] = addr & 0xff; | |
| oplen += 2; | |
| vptr = 4; | |
| val[0] = 0x00 | opcode[j].opmask; | |
| break; | |
| case 1: | |
| val[2] = addr & 0xff; | |
| oplen += 1; | |
| vptr = 3; | |
| val[0] = 0x40 | opcode[j].opmask; | |
| break; | |
| case 2: | |
| val[2] = addr & 0xff; | |
| oplen += 1; | |
| vptr = 3; | |
| val[0] = 0x80 | opcode[j].opmask; | |
| break; | |
| default: | |
| return SCPE_ARG; | |
| break; | |
| } | |
| if (*cptr == ',') cptr++; | |
| cptr = parse_addr(cptr, gbuf, &addr, &addtyp); | |
| switch(addtyp) { | |
| case 0: | |
| val[vptr] = (addr >> 8) & 0xff; | |
| val[vptr+1] = addr & 0xff; | |
| oplen += 2; | |
| break; | |
| case 1: | |
| val[vptr] = addr & 0xff; | |
| oplen += 1; | |
| val[0] = 0x10 | val[0]; | |
| break; | |
| case 2: | |
| val[vptr] = addr & 0xff; | |
| oplen += 1; | |
| val[0] = 0x20 | val[0]; | |
| break; | |
| default: | |
| return SCPE_ARG; | |
| break; | |
| } | |
| if (*cptr == ',') cptr++; | |
| cptr = get_glyph(cptr, gbuf, 0); | |
| sscanf(gbuf, "%d", &r); | |
| if (opcode[j].opmask > 9 || | |
| opcode[j].opmask == 4 || | |
| opcode[j].opmask == 6 || | |
| opcode[j].opmask == 7) r--; /* special: length -1 */ | |
| val[1] = r; | |
| if (*cptr == ',') cptr++; | |
| break; | |
| case 3: | |
| saveaddr = addr; | |
| if (*cptr == ',') cptr++; | |
| cptr = parse_addr(cptr, gbuf, &addr, &addtyp); | |
| switch(addtyp) { | |
| case 0: | |
| if (opcode[j].group == 0) { /* Group 0 form 3 is JC with explicit Q */ | |
| if (*cptr == ',') cptr++; | |
| cptr = get_glyph(cptr, gbuf, 0); | |
| sscanf(gbuf, "%x", &r); | |
| if ((addr - (saveaddr+3)) > 255 || (addr - (saveaddr+3)) < 1) | |
| return SCPE_ARG; | |
| val[2] = addr - (saveaddr+3); | |
| val[1] = r; | |
| val[0] = 0xf0 | opcode[j].opmask; | |
| oplen = 3; | |
| } else { | |
| val[2] = (addr >> 8) & 0x00ff; | |
| val[3] = addr & 0xff; | |
| oplen = 4; | |
| if (opcode[j].group == 1) | |
| val[0] = 0xC0 | opcode[j].opmask; | |
| else | |
| val[0] = 0x30 | opcode[j].opmask; | |
| } | |
| break; | |
| case 1: | |
| val[2] = addr & 0xff; | |
| oplen = 3; | |
| if (opcode[j].group == 1) | |
| val[0] = 0xD0 | opcode[j].opmask; | |
| else | |
| val[0] = 0x70 | opcode[j].opmask; | |
| break; | |
| case 2: | |
| val[2] = addr & 0xff; | |
| oplen = 3; | |
| if (opcode[j].group == 1) | |
| val[0] = 0xE0 | opcode[j].opmask; | |
| else | |
| val[0] = 0xB0 | opcode[j].opmask; | |
| break; | |
| default: | |
| return SCPE_ARG; | |
| break; | |
| } | |
| if (*cptr == ',') cptr++; | |
| cptr = get_glyph(cptr, gbuf, 0); | |
| sscanf(gbuf, "%x", &r); | |
| if (r > 255) return SCPE_ARG; | |
| val[1] = r; | |
| break; | |
| case 4: | |
| if (*cptr == ',') cptr++; | |
| cptr = get_glyph(cptr, gbuf, ','); | |
| sscanf(gbuf, "%d", &r); | |
| if (r > 15) return SCPE_ARG; | |
| val[1] = (r << 4) & 0xf0; | |
| val[0] = 0xf0 | opcode[j].opmask; | |
| if (*cptr == ',') cptr++; | |
| cptr = get_glyph(cptr, gbuf, ','); | |
| sscanf(gbuf, "%d", &r); | |
| if (r > 1) return SCPE_ARG; | |
| val[1] |= (r << 3) & 0x08; | |
| if (*cptr == ',') cptr++; | |
| cptr = get_glyph(cptr, gbuf, 0); | |
| sscanf(gbuf, "%d", &r); | |
| if (r > 7) return SCPE_ARG; | |
| val[1] |= r & 0x07; | |
| val[2] = 0; | |
| oplen = 3; | |
| break; | |
| case 5: | |
| if (*cptr == ',') cptr++; | |
| cptr = get_glyph(cptr, gbuf, ','); | |
| sscanf(gbuf, "%d", &r); | |
| if (r > 15) return SCPE_ARG; | |
| val[1] = (r << 4) & 0xf0; | |
| val[0] = 0xf0 | opcode[j].opmask; | |
| if (*cptr == ',') cptr++; | |
| cptr = get_glyph(cptr, gbuf, ','); | |
| sscanf(gbuf, "%d", &r); | |
| if (r > 1) return SCPE_ARG; | |
| val[1] |= (r << 3) & 0x08; | |
| if (*cptr == ',') cptr++; | |
| cptr = get_glyph(cptr, gbuf, ','); | |
| sscanf(gbuf, "%d", &r); | |
| if (r > 7) return SCPE_ARG; | |
| val[1] |= r & 0x07; | |
| if (*cptr == ',') cptr++; | |
| cptr = get_glyph(cptr, gbuf, 0); | |
| sscanf(gbuf, "%x", &r); | |
| if (r > 255) return SCPE_ARG; | |
| val[2] = r; | |
| oplen = 3; | |
| break; | |
| case 6: | |
| if (*cptr == ',') cptr++; | |
| cptr = get_glyph(cptr, gbuf, ','); | |
| sscanf(gbuf, "%d", &r); | |
| if (r > 15) return SCPE_ARG; | |
| val[1] = (r << 4) & 0xf0; | |
| if (*cptr == ',') cptr++; | |
| cptr = get_glyph(cptr, gbuf, ','); | |
| sscanf(gbuf, "%d", &r); | |
| if (r > 1) return SCPE_ARG; | |
| val[1] |= (r << 3) & 0x08; | |
| if (*cptr == ',') cptr++; | |
| cptr = get_glyph(cptr, gbuf, ','); | |
| sscanf(gbuf, "%d", &r); | |
| if (r > 7) return SCPE_ARG; | |
| val[1] |= r & 0x07; | |
| if (*cptr == ',') cptr++; | |
| cptr = parse_addr(cptr, gbuf, &addr, &addtyp); | |
| switch(addtyp) { | |
| case 0: | |
| val[2] = (addr >> 8) & 0x00ff; | |
| val[3] = addr & 0xff; | |
| oplen = 4; | |
| if (opcode[j].group == 1) | |
| val[0] = 0xC0 | opcode[j].opmask; | |
| else | |
| val[0] = 0x30 | opcode[j].opmask; | |
| break; | |
| case 1: | |
| val[2] = addr & 0xff; | |
| oplen = 3; | |
| if (opcode[j].group == 1) | |
| val[0] = 0xD0 | opcode[j].opmask; | |
| else | |
| val[0] = 0x70 | opcode[j].opmask; | |
| break; | |
| case 2: | |
| val[2] = addr & 0xff; | |
| oplen = 3; | |
| if (opcode[j].group == 1) | |
| val[0] = 0xE0 | opcode[j].opmask; | |
| else | |
| val[0] = 0xB0 | opcode[j].opmask; | |
| break; | |
| default: | |
| return SCPE_ARG; | |
| break; | |
| } | |
| break; | |
| case 7: | |
| if (*cptr == ',') cptr++; | |
| cptr = get_glyph(cptr, gbuf, 0); | |
| sscanf(gbuf, "%x", &r); | |
| if ((r - (addr+3)) > 255 || (r - (addr+3)) < 1) return SCPE_ARG; | |
| val[2] = r - (addr+3); | |
| val[1] = opcode[j].q; | |
| val[0] = 0xf0 | opcode[j].opmask; | |
| oplen = 3; | |
| break; | |
| case 8: | |
| if (*cptr == ',') cptr++; | |
| cptr = parse_addr(cptr, gbuf, &addr, &addtyp); | |
| switch(addtyp) { | |
| case 0: | |
| val[2] = (addr >> 8) & 0x00ff; | |
| val[3] = addr & 0xff; | |
| oplen = 4; | |
| val[0] = 0xC0 | opcode[j].opmask; | |
| break; | |
| case 1: | |
| val[2] = addr & 0xff; | |
| oplen = 3; | |
| val[0] = 0xD0 | opcode[j].opmask; | |
| break; | |
| case 2: | |
| val[2] = addr & 0xff; | |
| oplen = 3; | |
| val[0] = 0xE0 | opcode[j].opmask; | |
| break; | |
| default: | |
| return SCPE_ARG; | |
| break; | |
| } | |
| val[1] = opcode[j].q; | |
| break; | |
| case 9: | |
| oplen = 2; | |
| val[0] = 0; | |
| cptr = parse_addr(cptr, gbuf, &addr, &addtyp); | |
| switch(addtyp) { | |
| case 0: | |
| val[2] = (addr >> 8) & 0xff; | |
| val[3] = addr & 0xff; | |
| oplen += 2; | |
| vptr = 4; | |
| val[0] = 0x00 | opcode[j].opmask; | |
| break; | |
| case 1: | |
| val[2] = addr & 0xff; | |
| oplen += 1; | |
| vptr = 3; | |
| val[0] = 0x40 | opcode[j].opmask; | |
| break; | |
| case 2: | |
| val[2] = addr & 0xff; | |
| oplen += 1; | |
| vptr = 3; | |
| val[0] = 0x80 | opcode[j].opmask; | |
| break; | |
| default: | |
| return SCPE_ARG; | |
| break; | |
| } | |
| if (*cptr == ',') cptr++; | |
| cptr = parse_addr(cptr, gbuf, &addr, &addtyp); | |
| switch(addtyp) { | |
| case 0: | |
| val[vptr] = (addr >> 8) & 0xff; | |
| val[vptr+1] = addr & 0xff; | |
| oplen += 2; | |
| break; | |
| case 1: | |
| val[vptr] = addr & 0xff; | |
| oplen += 1; | |
| val[0] = 0x10 | val[0]; | |
| break; | |
| case 2: | |
| val[vptr] = addr & 0xff; | |
| oplen += 1; | |
| val[0] = 0x20 | val[0]; | |
| break; | |
| default: | |
| return SCPE_ARG; | |
| break; | |
| } | |
| val[1] = opcode[j].q; | |
| break; | |
| default: | |
| break; | |
| } | |
| return (-(oplen-1)); | |
| } | |
| CONST char *parse_addr(CONST char *cptr, char *gbuf, t_addr *addr, int32 *addrtype) | |
| { | |
| int32 nybble = 0; | |
| char temp[CBUFSIZE]; | |
| cptr = get_glyph(cptr, gbuf, ','); | |
| if (gbuf[0] == '(') { /* XR relative */ | |
| strlcpy(temp, gbuf+1, sizeof(temp)); | |
| sscanf(temp, "%x", addr); | |
| if (*cptr == ',') cptr++; | |
| cptr = get_glyph(cptr, gbuf, ','); | |
| nybble = -1; | |
| if (strcmp(gbuf, "XR1)") == 0) | |
| nybble = 1; | |
| if (strcmp(gbuf, "XR2)") == 0) | |
| nybble = 2; | |
| } else { /* Direct */ | |
| sscanf(gbuf, "%x", addr); | |
| nybble = 0; | |
| } | |
| *addrtype = nybble; | |
| return cptr; | |
| } | |