Difference between revisions of "Calico LC3"

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Calico LC3 is an assembly language based on the Little Computer by Patt and Patel.
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Calico LC3 is an assembly language based on the Little Computer by Patt and Patel. Calico LC3 is a language in the [http://calicoproject.org Calico Project].
  
 
= Overview =
 
= Overview =

Revision as of 21:18, 10 December 2013

Calico LC3 is an assembly language based on the Little Computer by Patt and Patel. Calico LC3 is a language in the Calico Project.

Overview

Calico LC3 is an implementation of Patt and Patel's LC3 assembly language. The language is written in Calico Python, but appears as a full language in Calico.

In Calico, you need to first enable the LC3 language before using it:

  1. start Calico
  2. under menu -> Calico -> Languages
  3. make sure that "LC3" is checked
  4. Create a new LC3 script, or examine one of the Examples
  5. (Enable "Spreadsheet", too if you want to use it to display memory)

Special features:

  • Tracing, breakpoints, integrated IDE
  • syntax color highlighting
  • Right-click on errors takes you to line of code
  • Assembler and interpreter
  • Counts instructions executed
  • Counts machine cycles executed, estimates milliseconds to run
  • Error checking and useful error messages
  • menu -> View -> Tabs -> Locals - shows registers
  1. Shows memory as Calico Spreadsheet

Source Materials:

Special Interactive Directives

Enter these commands in the Calico Shell entry area:

Interactive Directives: 
 .help                           - shows this info
 .show memory                    - display memory as a Spreadsheet
 .assemble                       - assemble the first .asm file in Calico
 .step                           - execute the next instruction, increment PC
 .reset                          - reset LC3 to start state") 
 .raw [start [stop]]             - list meory in hex
 .list                           - list program from memory
 .dump [start [stop]]            - dump memory as program
 .regs                           - show registers
 .set pc HEXVALUE                - set PC
 .set memory HEXLOCATION HEXVALUE- set memory
 .set reg VALUE HEXVALUE         - set register
 .get pc                         - get PC
 .get memory HEXLOCATION         - get memory
 .get reg VALUE                  - get register

Instructions

ADD DR, SR1, SR2       ; Addition
ADD DR, SR1, imm5      ; Addition with Immediate
AND DR, SR1, SR2       ; Bit-wise AND
AND DR, SR1, imm5      ; Bit-wise AND with Immediate
BRx, label (where x = {n,z,p,zp,np,nz,nzp}) ; Branch
JMP BaseR              ; Jump
JSR label              ; Jump to Subroutine
JSRR BaseR             ; Jump to Subroutine in Register
LD DR, label           ; Load PC-Relative
LDI DR, label          ; Load Indirect
LDR DR, BaseR, offset6 ; Load Base+Offset
LEA, DR, label         ; Load Effective Address
NOT DR, SR             ; Bit-wise Complement
RET                    ; Return from Subroutine
RTI                    ; Return from Interrupt
ST SR, label           ; Store PC-Relative
STI, SR, label         ; Store Indirect
STR SR, BaseR, offset6 ; Store Base+Offset
TRAP immediate-vector  ; System Call

Also added experimental SHIFT:

SHIFT DestR, SR, immed6 ; shift source register (SR) by immed6 
                        ; (positive, left; negative right) and 
                        ; store in destination register (DestR)

Examples

Here is a basic Hello World assembly program.

;; helloworld.asm
.ORIG x3000
    LEA R0, HELLO
    PUTS
    HALT
HELLO .STRINGZ "Hello, World!\n"
.END

There are more examples in menu -> File -> Examples -> LC3.

Future Possibilities

  1. integrate with other languages
  2. create real code that could be executed on computer (maybe .NET/Mono VM code?)
  3. load/run binary-text files and obj files
  4. show dissassembled code