6e897b7f74
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| notes | ||
| sketches | ||
| test-programs | ||
| assembler.js | ||
| cpu.js | ||
| display.js | ||
| jsconfig.json | ||
| logging.js | ||
| machine.config.js | ||
| package-lock.json | ||
| package.json | ||
| readme.md | ||
| run-assembler.js | ||
| run-cpu.js | ||
readme.md
Cardiograph Mark I — simulator for a paper computer
Dependencies
Node.js
Run
Assemble
Hex output:
./run-assembler run source_code.asm
Binary output:
./run-assembler runbin source_code.asm
Verbose debugging output (hex):
./run-assembler debug source_code.asm
Assemble and run
With animated display of screen memory:
./run-cpu run source_code.asm
With verbose debugging output:
./run-cpu debug source_code.asm
With single stepping + pretty-printed display:
./run-cpu step source_code.asm
With single stepping + verbose debugging output:
./run-cpu stepdebug source_code.asm
Instruction set
00 END
01 STO lit# ; store ... mem[lit#] <- A
02 STO addr ; store ... mem[mem[addr]] <- A
03 LDA lit# ; load ... A <- lit#
04 LDA addr ; load ... A <- mem[addr]
05 ADD lit# ; add ... A <- A + lit# ... and un/set carry flag
06 ADD addr ; add ... A <- A + mem[addr] ... and un/set carry flag
07 SUB lit# ; sub ... A <- A - lit# ... and un/set carry flag
08 SUB addr ; sub ... A <- A - mem[addr] ... and un/set carry flag
09 HOP lit# ; hop ... skip next instruction if A == lit# ... when true: IP <- PC + 4
0A HOP addr ; hop ... skip next instruction if A == addr ... when true: IP <- PC + 4
0B JMP lit# ; jump ... IP <- lit#
0C JMP addr ; jump ... IP <- addr
0D FTG lit# ; toggle flag by number (see details below)
0E FHP lit# ; flag hop ... skip next instruction if flag is set ... when true: IP <- PC + 4
0F NOP ———— ; no operation
- Instructions are two bytes long: one byte for the opcode, one for the operand
Registers and Flags
A- accumulatorIP- instruction pointer (aka program counter)FLAGS- flags: Negative, Zero, Overflow, Carry- in machine language, each flag is given a number:
- N = 3
Z = 2
O = 1
C = 0
- N = 3
- (bitwise,
0000 = NZOC)
- in machine language, each flag is given a number:
Memory map / Peripherals
00-0F- display (4x4)10-1F- keypad? (details TBD)20- pointer to display memory21- pointer to keypad memory22-2F- reserved for future use / variable storage30- initial value for IP30-FF- free
Assembly language
ADD $01 ; comments follow a `;`
ADD $FF ; this is direct addressing
ADD ($CC) ; this is indirect addressing
END ; END and NOP don't require operands
; (the assembler will fill in a default value of 0)
@subroutine ; create a label
ADD $01 ; (it must be on the line before the code it names)
ADD $02
JMP @subroutine ; use a label as operand
; the label will be replaced with
; the address of the label
#foo $FF ; define a constant
; (must be defined before it is referenced)
ADD #foo ; use a constant as an operand
LDA *ADDR ; `*ADDR` is a magic value referencing the memory address
; that the current line will store at after assembly
- Hexadecimal numbers are preceded by a
$ - Whitespace is ignored