The purpose of this assignment is to increase the complexity of your C programming, and give you experience with the architecture of a computer system.
Write a program to simulate a PDP-8 computer system. See pdp8.html for a description of the machine. You need to support the memory reference instructions, the operate instruction (both group 1 and group 2), and the IOT instruction.
Execute instructions until you get the HLT instruction.
Treat the OSR instruction as a NOP.
The IOT instruction is handled specially. Ignore the function code. If the device is 3, do a getchar() to read a character from standard input and put that character in the A register. If the device is 4, take the low-order 8 bits from the A register and output it as an ASCII character to standard output (putchar()). Assume these IOT instructions take 1 cycle.
Your program should either work silently -- with only the output from an IOT to device 4 on standard output, or in verbose mode. Verbose mode is selected by a "-v" option on the command line:
pdp8 -v test.obj.In verbose mode, print one line for each instruction executed. That line should have
Time 1: PC=0x003 instruction = 0xE81 (CLA IAC), rA = 0x001, rL = 0 Time 3: PC=0x004 instruction = 0x600 (DCA), rA = 0x000, rL = 0 Time 4: PC=0x005 instruction = 0xE80 (CLA), rA = 0x000, rL = 0 Time 6: PC=0x006 instruction = 0x200 (TAD), rA = 0x001, rL = 0 Time 8: PC=0x007 instruction = 0x849 (JMS), rA = 0x001, rL = 0 Time 9: PC=0x04A instruction = 0xE08 (RAR), rA = 0x000, rL = 1 ...This comes from the following format:
"Time %lld: PC=0x%03X instruction = 0x%03X (%s), rA = 0x%03X, rL = %d\n"
Your input will be a PDP-8 object file. A PDP-8 object file is a number of lines. Each line has two fields, separated by a colon (and a blank). The first field is normally a hex representation of an memory address, and the second field is the hex representation of the contents of that location. There should be one line with a first field of "EP" to define the starting PC value for the program (the entry point). The second field for this line is the hex respresentation of the intial PC value.
The PDP-8 object file is given by a file name on the command line.
For example, assume the PDP-8 object file was test.obj:
EP: 067 064: 000 065: 000 066: F02 067: 664 068: 275 069: E21 ...Then running this in normal mode would be just:
pdp8 test.objand there would be no output (there are no IOT instructions to device 4, so no output).
In verbose mode,
pdp8 -v test.objOutput would be
Time 2: PC=0x067 instruction = 0x664 (DCA), rA = 0x000, rL = 0 Time 4: PC=0x068 instruction = 0x275 (TAD), rA = 0x011, rL = 0 Time 5: PC=0x069 instruction = 0xE21 (CMA IAC), rA = 0xFEF, rL = 1 ...See how the entry point in the object file (EP:067) is the first instruction to be executed in the verbose output, and the instructions in the verbose output match the values defined for those locations in the object file.
If you have an error in the object file, you can just issue an appropriate error message and stop.
If you have an IOT to a device other than 3 or 4, halt.
If you get an illegal instruction, treat it as a Halt instruction or a NOP. The only illegal instructions I can think of is if the low-order bit of a Group 2 operate instruction was "1", or both RAR and RAL for Group 1 were set.
Provided test case is test.obj which produces verbose output of test.out .
turnin --submit bb26332 program4 *.h *.c [Mm]akefile
Turn in enough that we can say "make pdp8" to build an executable for testing. This can be a single C file (pdp8.c) or it can be multiple C files and header files, with a Makefile that knows how to "make pdp8".
Extensions to consider:
Due Date: 27 October 2013