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JA-DCPU

Toolchain for DCPU-16 processor used in 0x10c game (http://0x10c.com/).

Written in Java.

As of 06.04.2012, contains:

  • Emulator
  • Can trace execution (prints instructions, register, stack, memory)
  • Assembler
  • Can print maps: label to value, source line to address, code/data layout
  • Disassembler
  • Peripherals framework
  • Peripherals can intercept reads/writes to specific memory regions

Implementation specifics

  1. Reserved instructions halt the cpu.

Using IDE

Some unobvious notes:

  • Breakpoints are marked with ! sign in the line number and toggled by Breakpoint button.
  • You should manually click Asm after modifying or opening source file. If not, previous binary will be executed
  • You should manually click Reset or Hard Reset to re-run program from start.
  • Hard Reset clears memory and reuploads assembled binary. Reset just clears registers (and global variables might be modified!)
  • As of IDE 0.1, breakpoints are not shifted when you insert/delete source lines. Sorry.

Using console toolchain

To play with DCPU, take ja-dcpu-demo.jar from Downloads section, and run it from console

java -jar ja-dcpu-demo.jar

Assembly and emulation

Pass source filename as an argument. It will be assembled and executed.

java -jar ja-dcpu-demo.jar yoursourcefile

Binary files

You can save assembled binary image by -O binaryoutput parameter, and load it with -I binaryinput parameter. (-I is capital i, not lower L)

java -jar ja-dcpu-demo.jar yoursourcefile -O yourbinary

java -jar ja-dcpu-demo.jar -I yourbinary

Disassembly

java -jar ja-dcpu-demo.jar -I binary -D disassembled

Tracing

You can enable tracing with -T and flags. Flags are:

  • r --- trace registers
  • m --- trace memory where registers point
  • s --- trace stack (8 words deep)

Example output:

0000: SET A, 8000
  R:  A=0000 B=0000 C=0000 X=0000 Y=0000 Z=0000 I=0000 J=0000  SP=ffff O=0000
  M:  A*7c01 B*7c01 C*7c01 X*7c01 Y*7c01 Z*7c01 I*7c01 J*7c01  SP*0000 O*7c01
  S:  0000 0000 0000 0000 0000 0000 0000 0000
0002: SET B, 9000
  R:  A=8000 B=0000 C=0000 X=0000 Y=0000 Z=0000 I=0000 J=0000  SP=ffff O=0000
  M:  A*0000 B*7c01 C*7c01 X*7c01 Y*7c01 Z*7c01 I*7c01 J*7c01  SP*0000 O*7c01
  S:  0000 0000 0000 0000 0000 0000 0000 0000
0004: SET I, 002b
  R:  A=8000 B=9000 C=0000 X=0000 Y=0000 Z=0000 I=0000 J=0000  SP=ffff O=0000
  M:  A*0000 B*0000 C*7c01 X*7c01 Y*7c01 Z*7c01 I*7c01 J*7c01  SP*0000 O*7c01
  S:  0000 0000 0000 0000 0000 0000 0000 0000
0006: JSR 001b
  R:  A=8000 B=9000 C=0000 X=0000 Y=0000 Z=0000 I=002b J=0000  SP=ffff O=0000
  M:  A*0000 B*0000 C*7c01 X*7c01 Y*7c01 Z*7c01 I*0048 J*7c01  SP*0000 O*7c01
  S:  0000 0000 0000 0000 0000 0000 0000 0000

First line is address: instruction

Second line contains register values.

Third line contains [A], [B] etc.

Fourth line contains [SP], [SP+1], [SP+2], and so on.

All values are given before instruction evaluation;

Mapping

If you assemble source, you can create map-file with information about labels, source lines, and code/data sectors.

Example map file:

;;;;MAPSTART
;;;;SYMBOLS
; Format: "label"=address
;; "end"=0x0052
...
;; "println"=0x001b
;; "readln"=0x0021
;;;;SRCMAP
; Format: source line=address
;; 2=0x0000
;; 3=0x0001
;; 5=0x0003
;; 6=0x0005
...
;; 60=0x0045
;; 61=0x0046
;; 62=0x004d
;; 63=0x004e
;; 64=0x0051
;; 66=0x0052
;;;;CODE
; Format: code_start-code_end
;; code 0x0000-0x002a
;;;;MAPEND

Flags

  • -x prevents code from execution. By default, even if you specify -O or -D flags, code will be executed. If you want just create or disassemble binary file, add -x.

Peripherals

Framework supports flexible peripherals. ja-dcpu-demo uses two hard-coded peripherals:

  1. 0x8000-0x8fff Stdout. Anything written comes to stdout
  2. 0x9000-0x9fff Stdin. Reading returns character typed, or 0xffff if no input yet (this-is a non-blocking operation).

Example code

See downloads section

TO-DO

  1. Utilize mapfiles in tracing
  2. Configurable peripherals
  3. Proper instruction cost in cycles
  4. More peripherals
  5. Network access
  6. Display
  7. Sound
  8. Clock
  9. IDE
  10. Syntax highlighting
  11. Hotkeys
  12. Debugger: 2. Show source 3. Monitor/modify registers and memory
  13. Peripheral constructor

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0x10c DCPU implementation in Java (assembler, disassembler, CPU and peripherals emulator)

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