ASSEMBLY LISTING OF SEGMENT >special_ldd>install>MR12.0-1206>r4_io_.alm ASSEMBLED ON: 11/05/86 1043.2 mst Wed OPTIONS USED: list ASSEMBLED BY: ALM Version 6.7 October 1986 ASSEMBLER CREATED: 10/08/86 1557.5 mst Wed  1 " ***********************************************************  2 " * *  3 " * Copyright, (C) Honeywell Information Systems Inc., 1982 *  4 " * *  5 " * Copyright (c) 1972 by Massachusetts Institute of *  6 " * Technology and Honeywell Information Systems, Inc. *  7 " * *  8 " ***********************************************************  9  000000 10 name r4_io_  11 "  12 "  13 " Gate to support cross-ring io attachments into ring 4 14 "  15 "  16 include gate_macros  1-1 " BEGIN INCLUDE FILE ...... gate_macros.incl.alm  1-2 " Last modified 6/77 by N. Morris, B. Greenberg, & T. VanVleck  1-3 " Modified 741212 by PG to inhibit while computing virtual CPU time  1-4 " Modified 83-03-14 by E. N. Kittlitz to clear IR 1-5 " Modified 83-06-01 BIM for ring alarm polling  1-6 " Modified 85-04-03 by Keith Loepere to make polling a little smarter.  1-7  1-8 " This file contains several macros used when generating gate segments. 1-9 " The major macros that are defined are:  1-10 "  1-11 " gate_info general setup code for normal gates  1-12 " hardcore_gate_info general setup code for hardcore gates  1-13 " bad_dir_handler setup and handler for bad_dir_ condition (goes at bottom) 1-14 " bad_dir_handler_entry entrypoint for above (goes at top)  1-15 " gate to define a normal gate 1-16 " hgate to define a hardcore gate  1-17 " fgate to define a fast hardcore gate 1-18 "  1-19  1-20  000000 1-21 maclist off  1-22  1-23  1-24 " HGATE - define a hardcore gate entry  1-25 "  1-26 " hgate gatename,procedure,entry,args{,bad_dir_trap}  1-27 "  1-28 " The entrypoint gatename is defined in the gate segment. If args  1-29 " is nonzero, the number of arguments passed to gatename must be  1-30 " equal to args. When gatename is called, it will in turn call 1-31 " procedure$entry.  1-32 "  1-33  1-34 macro hgate 1 1-35 gentry &1,&4*2,&1.t  2 1-36 tsx2 .setup  3 1-37 &=&5,bad_dir_trap&[ tsx0 .set_dir_trap  4 1-38 &] ldi =0,dl  5 1-39 short_call &2$&3(ap|0) 6 1-40 eppbp lp|&1.t  7 1-41 tra .return_code  8 1-42 maclist restore  9 1-43 use linkage  10 1-44 even  11 1-45 maclist on,save  12 1-46 &1.t:  13 1-47 bss ,gate_entry_data_size  14 1-48  15 1-49 maclist restore  16 1-50 &end  1-51  1-52  1-53 " FGATE - define a fast hardcore gate  1-54 "  1-55 " fgate gatename,procedure,entry  1-56 "  1-57  1-58 macro fgate 1 1-59 gentry &1,0,0  2 1-60 ldi =0,dl  3 1-61 epplp .my_lp,* 4 1-62 tra &2$&3  5 1-63  6 1-64 maclist off  7 1-65 &end  1-66  1-67  1-68 " GATE - define a normal gate entry 1-69 "  1-70 " gate gatename,procedure,entry,args  1-71 "  1-72  1-73 macro gate  1 1-74 gentry &1,&4*2,0  2 1-75 tsx2 .setup  3 1-76 ldi =0,dl  4 1-77 short_call &2$&3(ap|0) 5 1-78 return 6 1-79  7 1-80 maclist restore  8 1-81 &end  1-82  1-83  1-84  1-85 macro gentry  1 1-86 maclist on,save  2 1-87 segdef &1  3 1-88 maclist restore  4 1-89 use transfer_vector  5 1-90 maclist on,save  6 1-91 &1: 7 1-92 tra &1.e  8 1-93 maclist restore  9 1-94 use main  10 1-95 maclist on,save  11 1-96 zero &2,&3 12 1-97 &1.e:  13 1-98 &end  1-99  1-100  1-101 " HARDCORE_GATE_INFO - general info for hardcore gates  1-102  1-103 macro hardcore_gate_info  1 1-104 maclist on,save  2 1-105 name &1  3 1-106  4 1-107 include stack_header  5 1-108  6 1-109 include stack_frame  7 1-110 include gate_data  8 1-111  9 1-112 maclist restore  10 1-113 eject  11 1-114  12 1-115 tempd .temp  13 1-116 tempd .label_variable(0)  14 1-117 tempd .time1,.time2  15 1-118 tempd .unwinder_arglist(0) 16 1-119 tempd .on_unit(5)  17 1-120 temp .pf,.entryp  18 1-121 tempd .vfl_arglist(2)  19 1-122 tempd .mcptr  20 1-123  21 1-124 use transfer_vector  22 1-125 equ .tv_begin,*  23 1-126  24 1-127 tra .actor 25 1-128  26 1-129 use tv_end 27 1-130 entrybound 28 1-131  29 1-132 segdef .tv_end 30 1-133 .tv_end: vfd 14/(*-.tv_begin)  31 1-134  32 1-135 use main  33 1-136  34 1-137 segdef .my_lp  35 1-138 even  36 1-139 .my_lp: bss ,2  37 1-140  38 1-141 join /text/transfer_vector,tv_end,main 39 1-142  40 1-143 use linkage  41 1-144 join /link/linkage 42 1-145  43 1-146 use main  44 1-147  45 1-148 maclist restore  46 1-149 eject  47 1-150  48 1-151 .actor: epplp .my_lp,*  49 1-152 maclist restore  50 1-153 gate_actor 51 1-154  52 1-155  53 1-156  54 1-157 .setup: push  55 1-158 epplp .my_lp,* 56 1-159 sprilp sp|stack_frame.lp_ptr  57 1-160  58 1-161 maclist restore  59 1-162 gcheck 60 1-163  61 1-164 inhibit on <+><+><+><+><+><+><+><+><+><+><+><+>  62 1-165 rccl sys_info$clock_,* calculate times 63 1-166 sbaq pds$cpu_time  64 1-167 staq .time1  65 1-168 sbaq pds$virtual_delta 66 1-169 staq .time2  67 1-170 lda pds$page_waits 68 1-171 sta .pf  69 1-172 inhibit off <-><-><-><-><-><-><-><-><-><-><-><->  70 1-173 tra 0,2  71 1-174  72 1-175 maclist restore  73 1-176 eject  74 1-177  75 1-178 .return_code:  76 1-179  77 1-180 inhibit on <+><+><+><+><+><+><+><+><+><+><+><+>  78 1-181 rccl sys_info$clock_,* calculate times 79 1-182 sbaq pds$cpu_time  80 1-183 staq .temp 81 1-184 sbaq .time1  82 1-185 adaq bp|gate_entry_data.cpu_time  83 1-186 staq bp|gate_entry_data.cpu_time  84 1-187 ldaq .temp 85 1-188 sbaq pds$virtual_delta 86 1-189 sbaq .time2  87 1-190 adaq bp|gate_entry_data.vcpu_time  88 1-191 staq bp|gate_entry_data.vcpu_time  89 1-192 lda pds$page_waits 90 1-193 sbla .pf  91 1-194 asa bp|gate_entry_data.page_waits  92 1-195 aos bp|gate_entry_data.calls  93 1-196 inhibit off <-><-><-><-><-><-><-><-><-><-><-><->  94 1-197  95 1-198 " Poll for ring alarms  96 1-199 sra .temp Borrow from time calc  97 1-200 szn .temp Zero?  98 1-201 tze .return_code_return  99 1-202  100 1-203 epp1 sp|stack_frame.prev_sp,* "possible ring alarm 101 1-204 epaq pr1|stack_frame.return_ptr,*  102 1-205 ana 7,dl " ring number to which we return  103 1-206 cmpa .temp 104 1-207 tpl .ring_alarm " ring alarm will occur  105 1-208  106 1-209 .return_code_return:  107 1-210 return 108 1-211  109 1-212 .ring_alarm: " perhaps we can handle without faults?  110 1-213  111 1-214 aos bp|gate_entry_data.ring_alarms 112 1-215 stz .temp " return argument for ring_alarm$poll  113 1-216 ldaq .one_arg_header  114 1-217 staq .ring_alarm_arg_list  115 1-218 epp1 .temp 116 1-219 spri1 .ring_alarm_arg_list+2  117 1-220 eppap .ring_alarm_arg_list 118 1-221 short_call ring_alarm$poll 119 1-222 szn .temp  120 1-223 tze .return_code_return  121 1-224 eppsp sp|stack_frame.prev_sp,* 122 1-225 sprisp pds$pre_empt_poll_return " short-return from here  123 1-226 epp1 sb|stack_header.stack_begin_ptr,* " abandoning this stack frame.  124 1-227 spri1 sb|stack_header.stack_end_ptr  125 1-228 " Leave SB as stack_0, so pxss can get to operators.  126 1-229 tra pxss$pre_empt_poll 127 1-230  128 1-231 tempd .ring_alarm_arg_list(2)  129 1-232 even  130 1-233 .one_arg_header:  131 1-234 vfd 17/2,1/0,18/4  132 1-235 vfd 18/0,18/0  133 1-236  134 1-237  135 1-238 maclist restore  136 1-239 eject  137 1-240 maclist restore  138 1-241 &end  1-242  1-243  1-244 " BAD_DIR_HANDLER - code to setup and handle bad_dir_ condition 1-245 " put this after the last hgate macro 1-246  1-247 macro bad_dir_handler  1 1-248 maclist on,save  2 1-249  3 1-250 include on_unit  4 1-251  5 1-252 use transfer_vector  6 1-253 .handler_entry: 7 1-254 tra .handler  8 1-255 .handler_restart_entry: 9 1-256 tra .handler_restart_point 10 1-257  11 1-258 use main  12 1-259 .set_dir_trap:  13 1-260 stx0 .entryp save for restart 14 1-261  15 1-262 mlr (),(pr),fill(000)  16 1-263 desc9a 0,0 17 1-264 desc9a .on_unit,10*4  18 1-265 eppbp .bad_dir_name  19 1-266 spribp .on_unit+on_unit.name  20 1-267 eppbp .handler_entry  21 1-268 spribp .on_unit+on_unit.body  22 1-269 lxl1 .bad_dir_desc 23 1-270 sxl1 .on_unit+on_unit.size 24 1-271 eaa .on_unit set up on-unit for bad_dir_  25 1-272 sbla sp|0,du .. make rel to sp  26 1-273 sta sp|stack_frame.on_unit_rel_ptrs  27 1-274 lda stack_frame.condition_bit,dl  28 1-275 orsa sp|stack_frame.flag_word  29 1-276 tra 0,0  30 1-277  31 1-278 string bad_dir_  32 1-279  33 1-280  34 1-281  35 1-282 .handler: epaq sp|0 verify that call came from ring 0  36 1-283 cana -1,dl check ring number in AL  37 1-284 tze *+2  38 1-285 zero 0 go way kid you bother me  39 1-286  40 1-287 push " ok, we like the call  41 1-288 epplp .my_lp,* 42 1-289 ldx0 ap|0 get display 43 1-290 eppbp ap|2,0*  44 1-291 lda bp|stack_frame.prev_sp 45 1-292 cana =o700000,dl from another ring?  46 1-293 tze .continue_signal if not, back to signal_  47 1-294 eppap ap|2,* Get mcptr  48 1-295 eppap ap|0,* ..  49 1-296 spriap bp|.mcptr .. save in gate frame  50 1-297 spribp .label_variable+2  51 1-298 eppbp .handler_restart_entry  52 1-299 spribp .label_variable 53 1-300 eppbp .label_variable  54 1-301 spribp .unwinder_arglist+2 55 1-302 fld =1b24,dl  56 1-303 staq .unwinder_arglist 57 1-304 call unwinder_$unwinder_(.unwinder_arglist)  58 1-305  59 1-306 .continue_signal:  60 1-307 lda =o400000,du "1"b  61 1-308 sta ap|10,* set continue bit  62 1-309 return 63 1-310  64 1-311 .handler_restart_point: 65 1-312 epaq sp|0 check that call came from ring 0  66 1-313 cana -1,dl 67 1-314 tze *+2  68 1-315 zero 1 69 1-316 epplp .my_lp,* 70 1-317 lca stack_frame.condition_bit+1,dl Vanish on-unit 71 1-318 ansa sp|stack_frame.flag_word  72 1-319 eppbp .mcptr  73 1-320 spribp .vfl_arglist+2  74 1-321 fld =1b24,dl  75 1-322 staq .vfl_arglist  76 1-323 short_call verify_lock$verify_lock_bad_dir(.vfl_arglist)  77 1-324 ldx0 .entryp  78 1-325 eppap sp|stack_frame.arg_ptr,* 79 1-326 tra 0,0 retry the call  80 1-327  81 1-328 maclist restore  82 1-329 eject  83 1-330 maclist restore  84 1-331 &end  1-332  1-333  1-334 " GATE_INFO - general info for non-hardcore gates  1-335  1-336 macro gate_info 1 1-337 maclist on,save  2 1-338 use transfer_vector  3 1-339 tra .actor 4 1-340  5 1-341 use tv_end 6 1-342 entrybound 7 1-343  8 1-344 use main  9 1-345 join /text/transfer_vector,tv_end,main 10 1-346  11 1-347 maclist restore  12 1-348 eject  13 1-349  14 1-350 .actor: getlp  15 1-351 maclist restore  16 1-352 gate_actor 17 1-353  18 1-354 maclist restore  19 1-355 eject  20 1-356  21 1-357 .setup: push  22 1-358 getlp  23 1-359 maclist restore  24 1-360 gcheck 25 1-361 tra 0,2  26 1-362  27 1-363 maclist restore  28 1-364 eject  29 1-365  30 1-366 maclist restore  31 1-367 &end  1-368  1-369  1-370 " Macro to generate gate actor. 1-371  1-372 macro gate_actor  1 1-373 maclist on,save  2 1-374 eppbp ap|2,*  3 1-375 lda bp|-1 get length of string  4 1-376 tze .return_name zero length => get name  5 1-377  6 1-378 adla 1,dl include length of acc  7 1-379 stz ap|4,* 8 1-380 tsx0 .search_defs  9 1-381  10 1-382 cmpc (pr,rl),(pr,rl) compare name  11 1-383 desc9a bp|-1(3),al 12 1-384 desc9a bb|0,al 13 1-385 tnz .next_def  14 1-386  15 1-387 lda ab|1,2 return location  16 1-388 arl 18 17 1-389 sta ap|4,* 18 1-390  19 1-391 short_return  20 1-392  21 1-393 .return_name:  22 1-394 lxl3 ap|4,* get location  23 1-395 tsx0 .search_defs  24 1-396  25 1-397 cmpx3 ab|1,2 compare location 26 1-398 tnz .next_def  27 1-399  28 1-400 lda bb|0 get length of name  29 1-401 arl 27 30 1-402 sta bp|-1 set length of varying string  31 1-403 mlr (pr,rl),(pr,rl) return string  32 1-404 desc9a bb|0(1),al  33 1-405 desc9a bp|0,al 34 1-406  35 1-407 short_return  36 1-408  37 1-409 .search_defs:  38 1-410 eax2 0 39 1-411 eppab lp|0,* ab -> defs  40 1-412 .defs_loop: 41 1-413 lxl1 ab|1,2 get class and flags  42 1-414 cmpx1 =o400000,du must be class 0  43 1-415 tnz .next_def  44 1-416  45 1-417 ldx7 ab|2,2  46 1-418 eppbb ab|0,7 bb -> name  47 1-419 tra 0,0 test definition  48 1-420 .next_def:  49 1-421 ldx2 ab|0,2 chain to next def 50 1-422 tnz .defs_loop 51 1-423  52 1-424 short_return  53 1-425  54 1-426 &end  1-427  1-428  1-429 " Miscellaneous macros. 1-430  1-431 macro gcheck  1 1-432 maclist on,save  2 1-433 ldx1 -2,2 get number of args expected 3 1-434 tze .no_gate_error if zero, none or doesn't matter 4 1-435 cmpx1 ap|0 compare against number given  5 1-436 tze .no_gate_error args match, call procedure  6 1-437  7 1-438 call signal_$signal_(signal_arglist)  8 1-439 oct 0  9 1-440  10 1-441 even  11 1-442 signal_arglist: 12 1-443 zero 2,4  13 1-444 zero 2,0  14 1-445 arg .gate_errorname  15 1-446 arg  16 1-447 arg .gate_errordesc  17 1-448 arg  18 1-449  19 1-450 string gate_error  20 1-451  21 1-452  22 1-453 .no_gate_error: 23 1-454 &end  1-455  1-456 macro string  1 1-457 .&1name:  2 1-458 aci "&1"  3 1-459 .&1desc:  4 1-460 vfd o9/525,o27/&l1 5 1-461  6 1-462 &end  1-463  1-464 macro eject 1 1-465 maclist on,save  2 1-466  3 1-467 &end  1-468  1-469 " END INCLUDE FILE ...... gate_macros.incl.alm  1-470  1-471 " To arrange the return it wants to return, it will have to reach back 2 frames.  17 "  18 include stack_header  2-1 " BEGIN INCLUDE FILE ... stack_header.incl.alm 3/72 Bill Silver  2-2 "  2-3 " modified 7/76 by M. Weaver for *system links and more system use of areas 2-4 " modified 3/77 by M. Weaver to add rnt_ptr  2-5 " modified 7/77 by S. Webber to add run_unit_depth and assign_linkage_ptr  2-6 " modified 6/83 by J. Ives to add trace_frames and in_trace.  2-7  2-8 " HISTORY COMMENTS: 2-9 " 1) change(86-06-24,DGHowe), approve(86-06-24,MCR7396),  2-10 " audit(86-08-05,Schroth), install(86-11-03,MR12.0-1206):  2-11 " added the heap_header_ptr definition  2-12 " 2) change(86-08-12,Kissel), approve(86-08-12,MCR7473),  2-13 " audit(86-10-10,Fawcett), install(86-11-03,MR12.0-1206):  2-14 " Modified to support control point management. These changes were 2-15 " actually made in February 1985 by G. Palter.  2-16 " 3) change(86-10-22,Fawcett), approve(86-10-22,MCR7473),  2-17 " audit(86-10-22,Farley), install(86-11-03,MR12.0-1206):  2-18 " Remove the old_lot pointer and replace it with cpm_data_ptr. Use the 18  2-19 " bit pad after cur_lot_size for the cpm_enabled. This was done to save 2-20 " some space int the stack header and change the cpd_ptr unal to  2-21 " cpm_data_ptr (ITS pair).  2-22 " END HISTORY COMMENTS 2-23  000004 2-24 equ stack_header.cpm_data_ptr,4 ptr to control point for this stack  000006 2-25 equ stack_header.combined_stat_ptr,6 ptr to separate static area  2-26  000010 2-27 equ stack_header.clr_ptr,8 ptr to area containing linkage sections  000012 2-28 equ stack_header.max_lot_size,10 number of words allowed in lot (DU)  000012 2-29 equ stack_header.main_proc_invoked,10 nonzero if main proc was invoked in run unit (DL)  000012 2-30 equ stack_header.run_unit_depth,10 number of active run units stacked (DL) 000013 2-31 equ stack_header.cur_lot_size,11 DU number of words (entries) in lot  000013 2-32 equ stack_header.cpm_enabled,11 DL non-zero if control point management is enabled  000014 2-33 equ stack_header.system_free_ptr,12 ptr to system storage area 000016 2-34 equ stack_header.user_free_ptr,14 ptr to user storage area  2-35  000020 2-36 equ stack_header.parent_ptr,16 ptr to parent stack or null  000022 2-37 equ stack_header.stack_begin_ptr,18 ptr to first stack frame  000024 2-38 equ stack_header.stack_end_ptr,20 ptr to next useable stack frame 000026 2-39 equ stack_header.lot_ptr,22 ptr to the lot for the current ring  2-40  000030 2-41 equ stack_header.signal_ptr,24 ptr to signal proc for current ring  000032 2-42 equ stack_header.bar_mode_sp,26 value of sp before entering bar mode  000034 2-43 equ stack_header.pl1_operators_ptr,28 ptr: pl1_operators_$operator_table  000036 2-44 equ stack_header.call_op_ptr,30 ptr to standard call operator 2-45  000040 2-46 equ stack_header.push_op_ptr,32 ptr to standard push operator 000042 2-47 equ stack_header.return_op_ptr,34 ptr to standard return operator 000044 2-48 equ stack_header.ret_no_pop_op_ptr,36 ptr: stand. return/ no pop operator  000046 2-49 equ stack_header.entry_op_ptr,38 ptr to standard entry operator  2-50  000050 2-51 equ stack_header.trans_op_tv_ptr,40 ptr to table of translator operator ptrs  000052 2-52 equ stack_header.isot_ptr,42 pointer to ISOT  000054 2-53 equ stack_header.sct_ptr,44 pointer to System Condition Table 000056 2-54 equ stack_header.unwinder_ptr,46 pointer to unwinder for current ring 2-55  000060 2-56 equ stack_header.sys_link_info_ptr,48 ptr to *system link name table  000062 2-57 equ stack_header.rnt_ptr,50 ptr to reference name table  000064 2-58 equ stack_header.ect_ptr,52 ptr to event channel table  000066 2-59 equ stack_header.assign_linkage_ptr,54 ptr to area for hcs_$assign_linkage calls  000070 2-60 equ stack_header.heap_header_ptr,56 ptr to heap header.  000072 2-61 equ stack_header.trace_frames,58 stack of trace_catch_ frames 000073 2-62 equ stach_header.trace_top_ptr,59 trace pointer  000074 2-63 equ stack_header.in_trace,60 trace antirecurse bit  000100 2-64 equ stack_header_end,64 length of stack header  2-65  2-66  2-67  2-68  000000 2-69 equ trace_frames.count,0 number of trace frames on stack  000001 2-70 equ trace_frames.top_ptr,1 packed pointer to top one  2-71  2-72 " The following constant is an offset within the pl1 operators table.  2-73 " It references a transfer vector table.  2-74  000551 2-75 bool tv_offset,551 2-76  2-77  2-78 " The following constants are offsets within this transfer vector table.  2-79  001170 2-80 equ call_offset,tv_offset+271  001171 2-81 equ push_offset,tv_offset+272  001172 2-82 equ return_offset,tv_offset+273  001173 2-83 equ return_no_pop_offset,tv_offset+274 001174 2-84 equ entry_offset,tv_offset+275 2-85  2-86  2-87 " END INCLUDE FILE stack_header.incl.alm  19 include stack_frame  3-1 "  3-2 " BEGIN INCLUDE FILE ... stack_frame.incl.alm 6/72 RBS  3-3 "  3-4 " Modified: 16 Dec 1977, D. Levin - to add fio_ps_ptr  3-5 " Modified: 3 Feb 1978, P. Krupp - to add run_unit_manager_bit & main_proc_bit 3-6 " Modified: 21 March 1978, D. Levin - change fio_ps_ptr to support_ptr  3-7 "  000020 3-8 equ stack_frame.prev_sp,16 000020 3-9 equ stack_frame.condition_word,16  000022 3-10 equ stack_frame.next_sp,18 000022 3-11 equ stack_frame.signaller_word,18  000024 3-12 equ stack_frame.return_ptr,20  000026 3-13 equ stack_frame.entry_ptr,22  000030 3-14 equ stack_frame.operator_ptr,24  000030 3-15 equ stack_frame.lp_ptr,24  000032 3-16 equ stack_frame.arg_ptr,26 000034 3-17 equ stack_frame.static_ptr,28  000035 3-18 equ stack_frame.support_ptr,29 " only used by fortran I/O  000036 3-19 equ stack_frame.on_unit_rel_ptrs,30  000037 3-20 equ stack_frame.operator_ret_ptr,31  000037 3-21 equ stack_frame.translator_id,31  000040 3-22 equ stack_frame.regs,32  000060 3-23 equ stack_frame.min_length,48  000020 3-24 equ stack_frame.flag_word,16  020000 3-25 bool stack_frame.main_proc_bit,020000 (DL) 010000 3-26 bool stack_frame.run_unit_manager,010000 (DL)  004000 3-27 bool stack_frame.signal_bit,004000 (DL)  002000 3-28 bool stack_frame.crawl_out_bit,002000 (DL) 001000 3-29 bool stack_frame.signaller_bit,001000 (DL) 000400 3-30 bool stack_frame.link_trap_bit,000400 (DL) 000200 3-31 bool stack_frame.support_bit,000200 (DL)  000100 3-32 bool stack_frame.condition_bit,000100 (DL) 3-33  3-34 "  3-35 " END INCLUDE FILE ... stack_frame.incl.alm  3-36 "  20 "  21 gate_info  use transfer_vector  000000 0a 000022 7100 00 tra .actor  use tv_end entrybound  use main  join /text/transfer_vector,tv_end,main    000022 aa 7 00046 2721 20 .actor: getlp  000023 aa 0 00002 3521 20 eppbp ap|2,*  000024 aa 2 77777 2351 00 lda bp|-1 get length of string  000025 0a 000041 6000 00 tze .return_name zero length => get name   000026 aa 000001 0350 07 adla 1,dl include length of acc  000027 aa 0 00004 4501 20 stz ap|4,* 000030 0a 000054 7000 00 tsx0 .search_defs   000031 aa 0 00140 1065 40 cmpc (pr,rl),(pr,rl) compare name  000032 aa 277777 600005 desc9a bp|-1(3),al 000033 aa 300000 000005 desc9a bb|0,al 000034 0a 000064 6010 00 tnz .next_def   000035 aa 1 00001 2351 12 lda ab|1,2 return location  000036 aa 000022 7710 00 arl 18 000037 aa 0 00004 7551 20 sta ap|4,*  000040 aa 7 00044 7101 20 short_return   000041 .return_name:  000041 aa 0 00004 7231 20 lxl3 ap|4,* get location  000042 0a 000054 7000 00 tsx0 .search_defs   000043 aa 1 00001 1031 12 cmpx3 ab|1,2 compare location 000044 0a 000064 6010 00 tnz .next_def   000045 aa 3 00000 2351 00 lda bb|0 get length of name  000046 aa 000033 7710 00 arl 27 000047 aa 2 77777 7551 00 sta bp|-1 set length of varying string  000050 aa 0 00140 1005 40 mlr (pr,rl),(pr,rl) return string  000051 aa 300000 200005 desc9a bb|0(1),al  000052 aa 200000 000005 desc9a bp|0,al  000053 aa 7 00044 7101 20 short_return   000054 .search_defs:  000054 aa 000000 6220 00 eax2 0 000055 aa 4 00000 3515 20 eppab lp|0,* ab -> defs  000056 .defs_loop: 000056 aa 1 00001 7211 12 lxl1 ab|1,2 get class and flags  000057 aa 400000 1010 03 cmpx1 =o400000,du must be class 0  000060 0a 000064 6010 00 tnz .next_def   000061 aa 1 00002 2271 12 ldx7 ab|2,2  000062 aa 1 00000 3535 17 eppbb ab|0,7 bb -> name  000063 aa 000000 7100 10 tra 0,0 test definition  000064 .next_def:  000064 aa 1 00000 2221 12 ldx2 ab|0,2 chain to next def 000065 0a 000056 6010 00 tnz .defs_loop  000066 aa 7 00044 7101 20 short_return      000067 aa 000060 6270 00 .setup: push  000070 aa 7 00040 2721 20 000071 aa 7 00046 2721 20 getlp  000072 aa 777776 2210 12 ldx1 -2,2 get number of args expected 000073 0a 000120 6000 00 tze .no_gate_error if zero, none or doesn't matter 000074 aa 0 00000 1011 00 cmpx1 ap|0 compare against number given  000075 0a 000120 6000 00 tze .no_gate_error args match, call procedure   000076 aa 6 00000 2541 00 call signal_$signal_(signal_arglist)  000077 0a 000106 3500 00 000100 4a 4 00010 3521 20 000101 aa 6 00040 7531 00 000102 aa 7 00036 6701 20 000103 aa 6 00000 1731 00 000104 aa 6 00040 0731 00 000105 aa 000000 000000 oct 0   even  000106 signal_arglist: 000106 aa 000002 000004 zero 2,4  000107 aa 000002 000000 zero 2,0  000110 0a 000114 0000 00 arg .gate_errorname  000111 aa 000000 0000 00 arg  000112 0a 000117 0000 00 arg .gate_errordesc  000113 aa 000000 0000 00 arg   string gate_error  000114 .gate_errorname:  000114 aa 147 141 164 145 aci "gate_error"  000115 aa 137 145 162 162 000116 aa 157 162 000 000 000117 .gate_errordesc:  000117 aa 525000 000010 vfd o9/525,o27/10     000120 .no_gate_error: 000120 aa 000000 7100 12 tra 0,2     22  23 gate find_attachment,cross_ring_io_,find_attachment,3  000001 segdef find_attachment 000001 find_attachment:  000001 0a 000122 7100 00 tra find_attachment.e  000121 aa 000006 000000 zero 3*2,0 000122 find_attachment.e:  000122 0a 000067 7020 00 tsx2 .setup  000123 aa 000000 6340 07 ldi =0,dl  000124 4a 4 00012 3521 20 short_call cross_ring_io_$find_attachment(ap|0)  000125 aa 7 00036 6701 20 000126 aa 6 00030 3701 20 000127 aa 7 00042 7101 20 return  24 gate release_attachment,cross_ring_io_,release_attachment,2  000002 segdef release_attachment  000002 release_attachment: 000002 0a 000131 7100 00 tra release_attachment.e  000130 aa 000004 000000 zero 2*2,0 000131 release_attachment.e:  000131 0a 000067 7020 00 tsx2 .setup  000132 aa 000000 6340 07 ldi =0,dl  000133 4a 4 00014 3521 20 short_call cross_ring_io_$release_attachment(ap|0) 000134 aa 7 00036 6701 20 000135 aa 6 00030 3701 20 000136 aa 7 00042 7101 20 return  25 gate open,cross_ring_io_,open,4  000003 segdef open  000003 open:  000003 0a 000140 7100 00 tra open.e 000137 aa 000010 000000 zero 4*2,0 000140 open.e: 000140 0a 000067 7020 00 tsx2 .setup  000141 aa 000000 6340 07 ldi =0,dl  000142 4a 4 00016 3521 20 short_call cross_ring_io_$open(ap|0)  000143 aa 7 00036 6701 20 000144 aa 6 00030 3701 20 000145 aa 7 00042 7101 20 return  26 gate close,cross_ring_io_,close,2  000004 segdef close  000004 close:  000004 0a 000147 7100 00 tra close.e  000146 aa 000004 000000 zero 2*2,0 000147 close.e:  000147 0a 000067 7020 00 tsx2 .setup  000150 aa 000000 6340 07 ldi =0,dl  000151 4a 4 00020 3521 20 short_call cross_ring_io_$close(ap|0)  000152 aa 7 00036 6701 20 000153 aa 6 00030 3701 20 000154 aa 7 00042 7101 20 return  27 gate modes,cross_ring_io_,modes,4  000005 segdef modes  000005 modes:  000005 0a 000156 7100 00 tra modes.e  000155 aa 000010 000000 zero 4*2,0 000156 modes.e:  000156 0a 000067 7020 00 tsx2 .setup  000157 aa 000000 6340 07 ldi =0,dl  000160 4a 4 00022 3521 20 short_call cross_ring_io_$modes(ap|0)  000161 aa 7 00036 6701 20 000162 aa 6 00030 3701 20 000163 aa 7 00042 7101 20 return  28 gate control,cross_ring_io_,control,4  000006 segdef control 000006 control:  000006 0a 000165 7100 00 tra control.e  000164 aa 000010 000000 zero 4*2,0 000165 control.e:  000165 0a 000067 7020 00 tsx2 .setup  000166 aa 000000 6340 07 ldi =0,dl  000167 4a 4 00024 3521 20 short_call cross_ring_io_$control(ap|0)  000170 aa 7 00036 6701 20 000171 aa 6 00030 3701 20 000172 aa 7 00042 7101 20 return  29 gate position,cross_ring_io_,position,4  000007 segdef position  000007 position:  000007 0a 000174 7100 00 tra position.e 000173 aa 000010 000000 zero 4*2,0 000174 position.e: 000174 0a 000067 7020 00 tsx2 .setup  000175 aa 000000 6340 07 ldi =0,dl  000176 4a 4 00026 3521 20 short_call cross_ring_io_$position(ap|0)  000177 aa 7 00036 6701 20 000200 aa 6 00030 3701 20 000201 aa 7 00042 7101 20 return  30 gate put_chars,cross_ring_io_,put_chars,4  000010 segdef put_chars  000010 put_chars:  000010 0a 000203 7100 00 tra put_chars.e  000202 aa 000010 000000 zero 4*2,0 000203 put_chars.e:  000203 0a 000067 7020 00 tsx2 .setup  000204 aa 000000 6340 07 ldi =0,dl  000205 4a 4 00030 3521 20 short_call cross_ring_io_$put_chars(ap|0)  000206 aa 7 00036 6701 20 000207 aa 6 00030 3701 20 000210 aa 7 00042 7101 20 return  31 gate get_line,cross_ring_io_,get_line,5  000011 segdef get_line  000011 get_line:  000011 0a 000212 7100 00 tra get_line.e 000211 aa 000012 000000 zero 5*2,0 000212 get_line.e: 000212 0a 000067 7020 00 tsx2 .setup  000213 aa 000000 6340 07 ldi =0,dl  000214 4a 4 00032 3521 20 short_call cross_ring_io_$get_line(ap|0)  000215 aa 7 00036 6701 20 000216 aa 6 00030 3701 20 000217 aa 7 00042 7101 20 return  32 gate get_chars,cross_ring_io_,get_chars,5  000012 segdef get_chars  000012 get_chars:  000012 0a 000221 7100 00 tra get_chars.e  000220 aa 000012 000000 zero 5*2,0 000221 get_chars.e:  000221 0a 000067 7020 00 tsx2 .setup  000222 aa 000000 6340 07 ldi =0,dl  000223 4a 4 00034 3521 20 short_call cross_ring_io_$get_chars(ap|0)  000224 aa 7 00036 6701 20 000225 aa 6 00030 3701 20 000226 aa 7 00042 7101 20 return  33 gate read_length,cross_ring_io_,read_length,3  000013 segdef read_length 000013 read_length:  000013 0a 000230 7100 00 tra read_length.e  000227 aa 000006 000000 zero 3*2,0 000230 read_length.e:  000230 0a 000067 7020 00 tsx2 .setup  000231 aa 000000 6340 07 ldi =0,dl  000232 4a 4 00036 3521 20 short_call cross_ring_io_$read_length(ap|0)  000233 aa 7 00036 6701 20 000234 aa 6 00030 3701 20 000235 aa 7 00042 7101 20 return  34 gate seek_key,cross_ring_io_,seek_key,4  000014 segdef seek_key  000014 seek_key:  000014 0a 000237 7100 00 tra seek_key.e 000236 aa 000010 000000 zero 4*2,0 000237 seek_key.e: 000237 0a 000067 7020 00 tsx2 .setup  000240 aa 000000 6340 07 ldi =0,dl  000241 4a 4 00040 3521 20 short_call cross_ring_io_$seek_key(ap|0)  000242 aa 7 00036 6701 20 000243 aa 6 00030 3701 20 000244 aa 7 00042 7101 20 return  35 gate read_key,cross_ring_io_,read_key,4  000015 segdef read_key  000015 read_key:  000015 0a 000246 7100 00 tra read_key.e 000245 aa 000010 000000 zero 4*2,0 000246 read_key.e: 000246 0a 000067 7020 00 tsx2 .setup  000247 aa 000000 6340 07 ldi =0,dl  000250 4a 4 00042 3521 20 short_call cross_ring_io_$read_key(ap|0)  000251 aa 7 00036 6701 20 000252 aa 6 00030 3701 20 000253 aa 7 00042 7101 20 return  36 gate write_record,cross_ring_io_,write_record,4  000016 segdef write_record  000016 write_record:  000016 0a 000255 7100 00 tra write_record.e 000254 aa 000010 000000 zero 4*2,0 000255 write_record.e: 000255 0a 000067 7020 00 tsx2 .setup  000256 aa 000000 6340 07 ldi =0,dl  000257 4a 4 00044 3521 20 short_call cross_ring_io_$write_record(ap|0)  000260 aa 7 00036 6701 20 000261 aa 6 00030 3701 20 000262 aa 7 00042 7101 20 return  37 gate read_record,cross_ring_io_,read_record,5  000017 segdef read_record 000017 read_record:  000017 0a 000264 7100 00 tra read_record.e  000263 aa 000012 000000 zero 5*2,0 000264 read_record.e:  000264 0a 000067 7020 00 tsx2 .setup  000265 aa 000000 6340 07 ldi =0,dl  000266 4a 4 00046 3521 20 short_call cross_ring_io_$read_record(ap|0)  000267 aa 7 00036 6701 20 000270 aa 6 00030 3701 20 000271 aa 7 00042 7101 20 return  38 gate rewrite_record,cross_ring_io_,rewrite_record,4  000020 segdef rewrite_record  000020 rewrite_record: 000020 0a 000273 7100 00 tra rewrite_record.e  000272 aa 000010 000000 zero 4*2,0 000273 rewrite_record.e:  000273 0a 000067 7020 00 tsx2 .setup  000274 aa 000000 6340 07 ldi =0,dl  000275 4a 4 00050 3521 20 short_call cross_ring_io_$rewrite_record(ap|0) 000276 aa 7 00036 6701 20 000277 aa 6 00030 3701 20 000300 aa 7 00042 7101 20 return  39 gate delete_record,cross_ring_io_,delete_record,2  000021 segdef delete_record  000021 delete_record:  000021 0a 000302 7100 00 tra delete_record.e  000301 aa 000004 000000 zero 2*2,0 000302 delete_record.e:  000302 0a 000067 7020 00 tsx2 .setup  000303 aa 000000 6340 07 ldi =0,dl  000304 4a 4 00052 3521 20 short_call cross_ring_io_$delete_record(ap|0)  000305 aa 7 00036 6701 20 000306 aa 6 00030 3701 20 000307 aa 7 00042 7101 20 return  40  41 end  NO LITERALS  NAME DEFINITIONS FOR ENTRY POINTS AND SEGDEFS 000310 5a 000003 000000 000311 5a 000167 600000 000312 aa 000000 000000 000313 55 000010 000002 000314 5a 000002 400003 000315 55 000006 000010 000316 aa 006 162 064 137 000317 aa 151 157 137 000 000320 55 000017 000003 000321 0a 000021 400000 000322 55 000013 000003 000323 aa 015 144 145 154 delete_record  000324 aa 145 164 145 137 000325 aa 162 145 143 157 000326 aa 162 144 000 000 000327 55 000026 000010 000330 0a 000020 400000 000331 55 000022 000003 000332 aa 016 162 145 167 rewrite_record  000333 aa 162 151 164 145 000334 aa 137 162 145 143 000335 aa 157 162 144 000 000336 55 000034 000017 000337 0a 000017 400000 000340 55 000031 000003 000341 aa 013 162 145 141 read_record 000342 aa 144 137 162 145 000343 aa 143 157 162 144 000344 55 000043 000026 000345 0a 000016 400000 000346 55 000037 000003 000347 aa 014 167 162 151 write_record  000350 aa 164 145 137 162 000351 aa 145 143 157 162 000352 aa 144 000 000 000 000353 55 000051 000034 000354 0a 000015 400000 000355 55 000046 000003 000356 aa 010 162 145 141 read_key  000357 aa 144 137 153 145 000360 aa 171 000 000 000 000361 55 000057 000043 000362 0a 000014 400000 000363 55 000054 000003 000364 aa 010 163 145 145 seek_key  000365 aa 153 137 153 145 000366 aa 171 000 000 000 000367 55 000065 000051 000370 0a 000013 400000 000371 55 000062 000003 000372 aa 013 162 145 141 read_length 000373 aa 144 137 154 145 000374 aa 156 147 164 150 000375 55 000073 000057 000376 0a 000012 400000 000377 55 000070 000003 000400 aa 011 147 145 164 get_chars  000401 aa 137 143 150 141 000402 aa 162 163 000 000 000403 55 000101 000065 000404 0a 000011 400000 000405 55 000076 000003 000406 aa 010 147 145 164 get_line  000407 aa 137 154 151 156 000410 aa 145 000 000 000 000411 55 000107 000073 000412 0a 000010 400000 000413 55 000104 000003 000414 aa 011 160 165 164 put_chars  000415 aa 137 143 150 141 000416 aa 162 163 000 000 000417 55 000115 000101 000420 0a 000007 400000 000421 55 000112 000003 000422 aa 010 160 157 163 position  000423 aa 151 164 151 157 000424 aa 156 000 000 000 000425 55 000122 000107 000426 0a 000006 400000 000427 55 000120 000003 000430 aa 007 143 157 156 control 000431 aa 164 162 157 154 000432 55 000127 000115 000433 0a 000005 400000 000434 55 000125 000003 000435 aa 005 155 157 144 modes  000436 aa 145 163 000 000 000437 55 000134 000122 000440 0a 000004 400000 000441 55 000132 000003 000442 aa 005 143 154 157 close  000443 aa 163 145 000 000 000444 55 000141 000127 000445 0a 000003 400000 000446 55 000137 000003 000447 aa 004 157 160 145 open  000450 aa 156 000 000 000 000451 55 000151 000134 000452 0a 000002 400000 000453 55 000144 000003 000454 aa 022 162 145 154 release_attachment  000455 aa 145 141 163 145 000456 aa 137 141 164 164 000457 aa 141 143 150 155 000460 aa 145 156 164 000 000461 55 000160 000141 000462 0a 000001 400000 000463 55 000154 000003 000464 aa 017 146 151 156 find_attachment 000465 aa 144 137 141 164 000466 aa 164 141 143 150 000467 aa 155 145 156 164 000470 55 000002 000151 000471 6a 000000 400002 000472 55 000163 000003 000473 aa 014 163 171 155 symbol_table  000474 aa 142 157 154 137 000475 aa 164 141 142 154 000476 aa 145 000 000 000 DEFINITIONS HASH TABLE  000477 aa 000000 000033 000500 5a 000107 000000 000501 5a 000065 000000 000502 5a 000073 000000 000503 aa 000000 000000 000504 aa 000000 000000 000505 aa 000000 000000 000506 aa 000000 000000 000507 aa 000000 000000 000510 aa 000000 000000 000511 aa 000000 000000 000512 5a 000017 000000 000513 5a 000115 000000 000514 5a 000122 000000 000515 5a 000010 000000 000516 5a 000151 000000 000517 5a 000134 000000 000520 5a 000127 000000 000521 5a 000034 000000 000522 5a 000026 000000 000523 5a 000057 000000 000524 5a 000160 000000 000525 5a 000043 000000 000526 5a 000101 000000 000527 5a 000141 000000 000530 aa 000000 000000 000531 aa 000000 000000 000532 5a 000051 000000 EXTERNAL NAMES  000533 aa 016 143 162 157 cross_ring_io_  000534 aa 163 163 137 162 000535 aa 151 156 147 137 000536 aa 151 157 137 000 000537 aa 007 163 151 147 signal_ 000540 aa 156 141 154 137 NO TRAP POINTER WORDS  TYPE PAIR BLOCKS  000541 aa 000004 000000 000542 55 000223 000013 000543 aa 000004 000000 000544 55 000223 000022 000545 aa 000004 000000 000546 55 000223 000031 000547 aa 000004 000000 000550 55 000223 000037 000551 aa 000004 000000 000552 55 000223 000046 000553 aa 000004 000000 000554 55 000223 000054 000555 aa 000004 000000 000556 55 000223 000062 000557 aa 000004 000000 000560 55 000223 000070 000561 aa 000004 000000 000562 55 000223 000076 000563 aa 000004 000000 000564 55 000223 000104 000565 aa 000004 000000 000566 55 000223 000112 000567 aa 000004 000000 000570 55 000223 000120 000571 aa 000004 000000 000572 55 000223 000125 000573 aa 000004 000000 000574 55 000223 000132 000575 aa 000004 000000 000576 55 000223 000137 000577 aa 000004 000000 000600 55 000223 000144 000601 aa 000004 000000 000602 55 000223 000154 000603 aa 000004 000000 000604 55 000227 000227 000605 aa 000001 000000 000606 aa 000000 000000 INTERNAL EXPRESSION WORDS 000607 5a 000231 000000 000610 5a 000233 000000 000611 5a 000235 000000 000612 5a 000237 000000 000613 5a 000241 000000 000614 5a 000243 000000 000615 5a 000245 000000 000616 5a 000247 000000 000617 5a 000251 000000 000620 5a 000253 000000 000621 5a 000255 000000 000622 5a 000257 000000 000623 5a 000261 000000 000624 5a 000263 000000 000625 5a 000265 000000 000626 5a 000267 000000 000627 5a 000271 000000 000630 5a 000273 000000 000631 aa 000000 000000 LINKAGE INFORMATION 000000 aa 000000 000000 000001 0a 000310 000000 000002 aa 000000 000000 000003 aa 000000 000000 000004 aa 000000 000000 000005 aa 000000 000000 000006 22 000010 000054 000007 a2 000000 000000 000010 9a 777770 0000 46 signal_|signal_ 000011 5a 000320 0000 00 000012 9a 777766 0000 46 cross_ring_io_|find_attachment  000013 5a 000317 0000 00 000014 9a 777764 0000 46 cross_ring_io_|release_attachment  000015 5a 000316 0000 00 000016 9a 777762 0000 46 cross_ring_io_|open 000017 5a 000315 0000 00 000020 9a 777760 0000 46 cross_ring_io_|close  000021 5a 000314 0000 00 000022 9a 777756 0000 46 cross_ring_io_|modes  000023 5a 000313 0000 00 000024 9a 777754 0000 46 cross_ring_io_|control  000025 5a 000312 0000 00 000026 9a 777752 0000 46 cross_ring_io_|position 000027 5a 000311 0000 00 000030 9a 777750 0000 46 cross_ring_io_|put_chars  000031 5a 000310 0000 00 000032 9a 777746 0000 46 cross_ring_io_|get_line 000033 5a 000307 0000 00 000034 9a 777744 0000 46 cross_ring_io_|get_chars  000035 5a 000306 0000 00 000036 9a 777742 0000 46 cross_ring_io_|read_length  000037 5a 000305 0000 00 000040 9a 777740 0000 46 cross_ring_io_|seek_key 000041 5a 000304 0000 00 000042 9a 777736 0000 46 cross_ring_io_|read_key 000043 5a 000303 0000 00 000044 9a 777734 0000 46 cross_ring_io_|write_record 000045 5a 000302 0000 00 000046 9a 777732 0000 46 cross_ring_io_|read_record  000047 5a 000301 0000 00 000050 9a 777730 0000 46 cross_ring_io_|rewrite_record  000051 5a 000300 0000 00 000052 9a 777726 0000 46 cross_ring_io_|delete_record  000053 5a 000277 0000 00 SYMBOL INFORMATION SYMBOL TABLE HEADER  000000 aa 000000 000001 000001 aa 163171 155142 000002 aa 164162 145145 000003 aa 000000 000004 000004 aa 000000 114732 000005 aa 732732 062314 000006 aa 000000 114775 000007 aa 666655 741471 000010 aa 141154 155040 000011 aa 040040 040040 000012 aa 000024 000040 000013 aa 000034 000040 000014 aa 000044 000100 000015 aa 000002 000002 000016 aa 000064 000000 000017 aa 000000 000230 000020 aa 000000 000161 000021 aa 000000 000206 000022 aa 000217 000161 000023 aa 000064 000000 000024 aa 101114 115040 000025 aa 126145 162163 000026 aa 151157 156040 000027 aa 040066 056067 000030 aa 040040 117143 000031 aa 164157 142145 000032 aa 162040 061071 000033 aa 070066 040040 000034 aa 107112 157150 000035 aa 156163 157156 000036 aa 056123 171163 000037 aa 115141 151156 000040 aa 164056 141040 000041 aa 040040 040040 000042 aa 040040 040040 000043 aa 040040 040040 000044 aa 154151 163164 000045 aa 040040 040040 000046 aa 040040 040040 000047 aa 040040 040040 000050 aa 040040 040040 000051 aa 040040 040040 000052 aa 040040 040040 000053 aa 040040 040040 000054 aa 040040 040040 000055 aa 040040 040040 000056 aa 040040 040040 000057 aa 040040 040040 000060 aa 040040 040040 000061 aa 040040 040040 000062 aa 040040 040040 000063 aa 040040 040040 000064 aa 000000 000001 000065 aa 000000 000004 000066 aa 000106 000053 000067 aa 147740 446164 000070 aa 000000 114774 000071 aa 460736 600000 000072 aa 000121 000041 000073 aa 134571 651553 000074 aa 000000 113462 000075 aa 317506 600000 000076 aa 000132 000066 000077 aa 147714 750316 000100 aa 000000 114774 000101 aa 453561 000000 000102 aa 000150 000041 000103 aa 052721 247134 000104 aa 000000 105272 000105 aa 317215 400000 000106 aa 076163 160145 >special_ldd>install>MR12.0-1206>r4_io_.alm 000107 aa 143151 141154 000110 aa 137154 144144 000111 aa 076151 156163 000112 aa 164141 154154 000113 aa 076115 122061 000114 aa 062056 060055 000115 aa 061062 060066 000116 aa 076162 064137 000117 aa 151157 137056 000120 aa 141154 155040 000121 aa 076154 144144 >ldd>include>gate_macros.incl.alm  000122 aa 076151 156143 000123 aa 154165 144145 000124 aa 076147 141164 000125 aa 145137 155141 000126 aa 143162 157163 000127 aa 056151 156143 000130 aa 154056 141154 000131 aa 155040 040040 000132 aa 076163 160145 >special_ldd>install>MR12.0-1206>stack_header.incl.alm  000133 aa 143151 141154 000134 aa 137154 144144 000135 aa 076151 156163 000136 aa 164141 154154 000137 aa 076115 122061 000140 aa 062056 060055 000141 aa 061062 060066 000142 aa 076163 164141 000143 aa 143153 137150 000144 aa 145141 144145 000145 aa 162056 151156 000146 aa 143154 056141 000147 aa 154155 040040 000150 aa 076154 144144 >ldd>include>stack_frame.incl.alm  000151 aa 076151 156143 000152 aa 154165 144145 000153 aa 076163 164141 000154 aa 143153 137146 000155 aa 162141 155145 000156 aa 056151 156143 000157 aa 154056 141154 000160 aa 155040 040040 MULTICS ASSEMBLY CROSS REFERENCE LISTING Value Symbol Source file Line number  22 .actor r4_io_: 21. 56 .defs_loop r4_io_: 21. 117 .gate_errordesc r4_io_: 21. 114 .gate_errorname r4_io_: 21. 64 .next_def r4_io_: 21. 120 .no_gate_error r4_io_: 21. 41 .return_name r4_io_: 21. 54 .search_defs r4_io_: 21. 67 .setup r4_io_: 21, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33,  34, 35, 36, 37, 38, 39.  1170 call_offset stack_header: 80.  4 close r4_io_: 26. 147 close.e r4_io_: 26. 6 control r4_io_: 28. 165 control.e r4_io_: 28. cross_ring_io_ r4_io_: 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34,  35, 36, 37, 38, 39. 21 delete_record r4_io_: 39. 302 delete_record.e r4_io_: 39. 1174 entry_offset stack_header: 84.  1 find_attachment r4_io_: 23. 122 find_attachment.e r4_io_: 23. 12 get_chars r4_io_: 32. 221 get_chars.e r4_io_: 32. 11 get_line r4_io_: 31. 212 get_line.e r4_io_: 31. 22 main r4_io_: 21, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33,  34, 35, 36, 37, 38, 39.  5 modes r4_io_: 27. 156 modes.e r4_io_: 27. 3 open r4_io_: 25. 140 open.e r4_io_: 25. 7 position r4_io_: 29. 174 position.e r4_io_: 29. 1171 push_offset stack_header: 81.  10 put_chars r4_io_: 30. 203 put_chars.e r4_io_: 30. 15 read_key r4_io_: 35. 246 read_key.e r4_io_: 35. 13 read_length r4_io_: 33. 230 read_length.e r4_io_: 33. 17 read_record r4_io_: 37. 264 read_record.e r4_io_: 37. 2 release_attachment r4_io_: 24. 131 release_attachment.e r4_io_: 24. 1173 return_no_pop_offset stack_header: 83.  1172 return_offset stack_header: 82.  20 rewrite_record r4_io_: 38. 273 rewrite_record.e r4_io_: 38. 14 seek_key r4_io_: 34. 237 seek_key.e r4_io_: 34. signal_ r4_io_: 21. 106 signal_arglist r4_io_: 21. 73 stach_header.trace_top_ptr stack_header: 62. 32 stack_frame.arg_ptr stack_frame: 16. 100 stack_frame.condition_bit stack_frame: 32.  20 stack_frame.condition_word stack_frame: 9.  2000 stack_frame.crawl_out_bit stack_frame: 28.  26 stack_frame.entry_ptr stack_frame: 13. 20 stack_frame.flag_word stack_frame: 24. 400 stack_frame.link_trap_bit stack_frame: 30.  30 stack_frame.lp_ptr stack_frame: 15. 20000 stack_frame.main_proc_bit stack_frame: 25.  60 stack_frame.min_length stack_frame: 23. 22 stack_frame.next_sp stack_frame: 10. 36 stack_frame.on_unit_rel_ptrs stack_frame: 19.  30 stack_frame.operator_ptr stack_frame: 14.  37 stack_frame.operator_ret_ptr stack_frame: 20.  20 stack_frame.prev_sp stack_frame: 8. 40 stack_frame.regs stack_frame: 22. 24 stack_frame.return_ptr stack_frame: 12. 10000 stack_frame.run_unit_manager stack_frame: 26.  1000 stack_frame.signaller_bit stack_frame: 29.  22 stack_frame.signaller_word stack_frame: 11.  4000 stack_frame.signal_bit stack_frame: 27. 34 stack_frame.static_ptr stack_frame: 17. 200 stack_frame.support_bit stack_frame: 31. 35 stack_frame.support_ptr stack_frame: 18. 37 stack_frame.translator_id stack_frame: 21.  66 stack_header.assign_linkage_ptr stack_header: 59.  32 stack_header.bar_mode_sp stack_header: 42. 36 stack_header.call_op_ptr stack_header: 44. 10 stack_header.clr_ptr stack_header: 27.  6 stack_header.combined_stat_ptr stack_header: 25.  4 stack_header.cpm_data_ptr stack_header: 24. 13 stack_header.cpm_enabled stack_header: 32. 13 stack_header.cur_lot_size stack_header: 31. 64 stack_header.ect_ptr stack_header: 58.  46 stack_header.entry_op_ptr stack_header: 49. 70 stack_header.heap_header_ptr stack_header: 60. 74 stack_header.in_trace stack_header: 63.  52 stack_header.isot_ptr stack_header: 52.  26 stack_header.lot_ptr stack_header: 39.  12 stack_header.main_proc_invoked stack_header: 29.  12 stack_header.max_lot_size stack_header: 28. 20 stack_header.parent_ptr stack_header: 36.  34 stack_header.pl1_operators_ptr stack_header: 43.  40 stack_header.push_op_ptr stack_header: 46. 42 stack_header.return_op_ptr stack_header: 47. 44 stack_header.ret_no_pop_op_ptr stack_header: 48.  62 stack_header.rnt_ptr stack_header: 57.  12 stack_header.run_unit_depth stack_header: 30. 54 stack_header.sct_ptr stack_header: 53.  30 stack_header.signal_ptr stack_header: 41.  22 stack_header.stack_begin_ptr stack_header: 37. 24 stack_header.stack_end_ptr stack_header: 38. 14 stack_header.system_free_ptr stack_header: 33. 60 stack_header.sys_link_info_ptr stack_header: 56.  72 stack_header.trace_frames stack_header: 61. 50 stack_header.trans_op_tv_ptr stack_header: 51. 56 stack_header.unwinder_ptr stack_header: 54. 16 stack_header.user_free_ptr stack_header: 34. 100 stack_header_end stack_header: 64.  0 trace_frames.count stack_header: 69.  1 trace_frames.top_ptr stack_header: 70.  0 transfer_vector r4_io_: 21, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33,  34, 35, 36, 37, 38, 39.  22 tv_end r4_io_: 21. 551 tv_offset stack_header: 75, 80, 81, 82, 83, 84. 16 write_record r4_io_: 36. 255 write_record.e r4_io_: 36. NO FATAL ERRORS  ----------------------------------------------------------- Historical Background This edition of the Multics software materials and documentation is provided and donated to Massachusetts Institute of Technology by Group BULL including BULL HN Information Systems Inc. as a contribution to computer science knowledge. This donation is made also to give evidence of the common contributions of Massachusetts Institute of Technology, Bell Laboratories, General Electric, Honeywell Information Systems Inc., Honeywell BULL Inc., Groupe BULL and BULL HN Information Systems Inc. to the development of this operating system. Multics development was initiated by Massachusetts Institute of Technology Project MAC (1963-1970), renamed the MIT Laboratory for Computer Science and Artificial Intelligence in the mid 1970s, under the leadership of Professor Fernando Jose Corbato. Users consider that Multics provided the best software architecture for managing computer hardware properly and for executing programs. Many subsequent operating systems incorporated Multics principles. Multics was distributed in 1975 to 2000 by Group Bull in Europe , and in the U.S. by Bull HN Information Systems Inc., as successor in interest by change in name only to Honeywell Bull Inc. and Honeywell Information Systems Inc. . ----------------------------------------------------------- Permission to use, copy, modify, and distribute these programs and their documentation for any purpose and without fee is hereby granted,provided that the below copyright notice and historical background appear in all copies and that both the copyright notice and historical background and this permission notice appear in supporting documentation, and that the names of MIT, HIS, BULL or BULL HN not be used in advertising or publicity pertaining to distribution of the programs without specific prior written permission. Copyright 1972 by Massachusetts Institute of Technology and Honeywell Information Systems Inc. Copyright 2006 by BULL HN Information Systems Inc. Copyright 2006 by Bull SAS All Rights Reserved