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Maxc OperationsAltIO
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AltIOMaxc Operations
9. ALTIO

Maxc2 only. AltIO serves the same purpose running on the Maxc2 Alto as NVIO does on the Maxc1 Nova, though it has a much smaller complement of devices to service (just the Alto monitor, the Diablo printer and the Ethernet).
9.1. Calling AltIO
AltIO may be called either from Midas or directly from the Alto Executive. In Midas, selecting "AltIO" with the mouse causes a menu of AltIO subcommands to appear. Selecting "Do-It" causes AltIO to be started with no options selected; in this case, AltIO performs no initialization but simply resumes the microprocessor at its current location. If other subcommands are selected before "Do-It", they modify the initial actions of AltIO in various ways.
When AltIO is called directly from the Alto Executive, the same options may be specified by switches. The general form of the AltIO command line is:
AltIO/switches parameter/switch parameter/switch ...
The switches immediately following "AltIO" correspond to Midas "AltIO" menu items in the following way:
SwitchMenu ItemDescription
/BBoot-MExecBoot Micro-Exec into Maxc memory and start it.
/HDont-GoLeave Maxc halted rather than resuming it.
/PProtectEnter "protected" mode in AltIO. This means that AltIO will
allow only those commands that examine (but do not write into)
memory and that do not change machine state.
/RReset-MemoryReset the memory system.
/SStart-TenexStart Tenex, first booting Micro-Exec from disk as for /B and then
executing an automatic "Go" command.
The optional additional parameters may be specified only in the Executive command line; there is no way to invoke them from Midas.
filename/LLoad a PDP-10 "save"-format file into Maxc memory (default extension .SAV).
Used for loading PDP-10 diagnostics when Micro-Exec won’t work.
n/UUse disk unit n rather than unit 0 in Boot-MExec and Start-Tenex commands,
where 0 corresponds to unit A and 7 to H.
9.2. AltIO Commands
When AltIO is running, the Alto monitor is divided by black lines into three windows. If Tenex is running, the top window continuously displays the addresses and contents of five interesting Maxc main memory variables. The middle window belongs to a command processor for controlling AltIO itself. The bottom window implements the Maxc controlling terminal used by Tenex and by stand-alone programs such as Micro-Exec and PDP-10 diagnostics.
Keyboard input is directed to whichever window currently contains the blinking cursor. The middle and bottom unmarked keys on the right side of the keyboard may be used to direct input to the middle and bottom windows respectively. Keyboard input is automatically switched to the bottom window when Maxc is started by commands such as "Boot" or "Go", and to the middle window when Maxc stops for any reason.
The AltIO command processor has two heralds, a number sign (#) which indicates that only commands that examine memory are legal, and a colon (:) which indicates all commands are legal.
AltIO commands consist of a single letter or other special character, optionally preceded by a numeric argument. The argument is an octal number of up to 40 bits, depending on the command. While typing an argument, one may use the editing characters control-A, control-W, and Delete to erase, respectively, a single character, a word, or the entire command.
Many AltIO commands request confirmation with "[confirm]". The confirming character is a Return or period. Most of AltIO’s commands are intentionally the same as in NVIO; the ones for which this is true are marked with a superscript "1".
n/1Change the current Maxc memory location to n; and print out the contents of that
location in the form:
aa bbbbbb cccccc
where:
aa (0 to 17) is the last 4 bits (i.e., the "tag" bits) of the 40-bit Maxc memory word,
it is not printed out if zero;
and
bbbbbb and cccccc are the left and right half 18 bits of the PDP-10 (Maxc) word.
/Print out the current location.
n<cr>1Put the 40-bit number n into the current location. The first 4 bits input are the last 4
bits of the memory. Thus one can think of Maxc as a 36-bit machine (like the PDP-
10), right adjusted in a 40-bit field, rather than a 36-bit machine left adjusted in a 40-
bit word as is actually the case.
This command is only legal after a command which prints out a Maxc memory
location.
<lf>1(lf means linefeed). Change the current location to the current location plus 1, and
print out the (new) current location.
n<lf>1Equivalent to n, <carriage return>, <linefeed>.
1Change the current location to the current location minus 1, and print out the
(new) current location.
n↑1Equivalent to n, <carriage return>, <up arrow>.
<tab>1Change the current location to the location pointed to by the current location. Print
out its contents.
B1Boot Micro-Exec from Save Area 1 of physical disk unit A.
nB1Boot Micro-Exec from Save Area 1 of physical disk unit n (0=A, 1=B, etc.) The
parameter n is remembered for subsequent "B" commands without arguments.
DToggle on or off a switch causing typeout on the Maxc controlling terminal (the
bottom display window) to be copied to the Diablo printer. This switch is normally
off, but turning it on is useful when debugging Tenex or doing memory maintenance.
EPrint out the current state of Maxc’s PDP-10 emulator. This includes the program
counter and all the accumulators. This command may be issued only when Maxc is
stopped.
nG1Go to Maxc location n. Precisely: stop the Maxc microprocessor (cleanly if possible),
then tell it to begin executing PDP-10 instructions at Maxc main memory location n.
GGo to the starting address of the currently loaded Maxc program, which is pointed to
by Maxc memory location 7.
H1Halt Maxc (cleanly if possible).
LPrompt for a filename (default extension .SAV), then interpret that file as a PDP-10
"save"-format (not "ssave") file and load it into Maxc memory. The program’s
starting address is stored in location 7 so that a "Go" command without arguments
will start the program. The file is expected to be in the 36-bit binary format defined
by FTP. Retrieving a PDP-10 "save"-format file using the FTP program will cause
such a file to be created.
M1Halt Maxc (cleanly if possible) and return control to Midas. Midas is resumed in
whatever state it was in when control was last transferred to AltIO from Midas. This
is true even if AltIO has been exited and other Alto programs run in the meantime.
nM1Go to Microprocessor location n. (If you use this command, you had better know
what you are doing.)
P1Protect NVIO. The herald becomes a number sign (#); only those commands that
examine memory (and other state varibles) are legal.
nP1If the number typed is the Pass(word) number: AltIO becomes unprotected; the herald
becomes a colon (:) and all commands are legal. Currently the pass(word) number is
3301; this should be easy to remember as it is the smallest number which is the sum
of two different cubes in two different ways. (143 +13 =113 +123; octal of course.)
QQuit: return control to the Alto Executive, after first stopping Maxc if it is running.
R1Resume Maxc (the microprocessor is told to proceed). If a reset was previously done
("21M" to ODT or "21;G" to Midas), PDP-10 interpretation will begin at the starting
address pointed to by main memory location 7; otherwise, Maxc will resume from
where it was halted.
S1Startup Tenex, booting Micro-Exec from disk unit A.
nS1Startup Tenex, booting Micro-Exec from disk unit n (0=A, 1=B, etc.)
WPrint out the current state of Maxc (running, stopped, or at a micro breakpoint).
ZZap Maxc memory: reset and reconfigure the entire memory system. Useful when
the memory has become hung up. This command may be issued only while Maxc is
stopped.