SixtyPical ========== SixtyPical is a very low-level programming language, similar to 6502 assembly, with static analysis through type-checking and abstract interpretation. It is a **work in progress**, currently at the **proof-of-concept** stage. It is expected that a common use case for SixtyPical would be retroprogramming for the Commodore 64 and other 6502-based computers such as the VIC-20. Many SixtyPical instructions map precisely to 6502 opcodes. However, SixtyPical is not an assembly language: the programmer does not have total control over the layout of code and data in memory. Some 6502 opcodes have no SixtyPical equivalent, while some have an equivalent that acts in a slightly different (but intuitively related) way. And some commands are unique to SixtyPical. `sixtypical` is the reference implementation of SixtyPical. It is written in Haskell. It can currently parse and check a SixtyPical program, and can emit an Ophis assembler listing for it. SixtyPical itself is distributed under a BSD-style open-source license, while the example SixtyPical programs in the `eg` directory are in the public domain. See the file `LICENSE` for more information. Quick Start ----------- If you have `ghc`, Ophis, and VICE 2.4 installed, clone this repo, `cd` into it, and run ./loadngo.sh eg/demo.60p The Big Idea(s) --------------- ### Typed Addresses ### SixtyPical distinguishes several kinds of addresses: those that hold a byte, those that hold a word (in low-byte-high-byte sequence), those that are the beginning of a table of bytes, and vectors (those that hold a word pointer to a machine-language routine.) It prevents the program from accessing them in certain ways. For example, these are illegal: reserve byte lives reserve word score routine do_it { lda score ; no! can't treat word as if it were a byte lda lives, x ; no! can't treat a byte as if it were a table } ### Abstract Interpretation ### SixtyPical tries to prevent the program from using data that has no meaning. The instructions of a routine are analyzed using abstract interpretation. One thing we specifically do is determine which registers and memory locations are *not* affected by the routine. For example, the following: routine do_it { lda #0 jsr update_score sta vic_border_colour ; uh... what do we know about reg A here? } ...is illegal *unless* one of the following is true: * the A register is declared to be a meaningful output of `update_score` * `update_score` was determined to not change the value of the A register The first case must be done with an explicit declaration on `update_score`. The second case will be be inferred using abstract interpretation of the code of `update_score`. ### Structured Programming ### SixtyPical eschews labels for code and instead organizes code into _blocks_. Instead of the assembly-language subroutine, SixtyPical provides the _routine_ as the abstraction for a reusable sequence of code. A routine may be called, or may be included inline, by another routine. The body of a routine is a block. Along with routines, you get `if`, `repeat`, and `with` constructs which take blocks. The `with` construct takes an instruction like `sei` and implicitly (and unavoidably) inserts the corresponding `cli` at the end of the block. Abstract interpretation extends to `if` blocks. The two incoming contexts are merged, and any storage locations poisoned in either context are considered poisoned in the result context. (Same should apply for `repeat` and `with` and, really, many other cases which there just aren't enough test cases for yet.) Declarations can have block scope. Such declarations may only be used within the block in which they are declared. `reserve`d storage inside a block is not, however, like a local variable (or `auto` in C); rather, it is more like a `static` in C, except the value at that address is not guaranteed to be retained between invokations of the block. This is intended to be used for temporary storage. In addition, if analysis of the call graph indicates that two such temporary addresses are never used simultaneously, they may be merged to the same address. (This is, however, not yet implemented, and may not be implemented for a while.) ### "It's a Partial Solution" ### SixtyPical does not attempt to force your typed, abstractly interpreted program to be absolutely watertight. In assembly language on an 8-bit microprocessor, you will sometimes _need_ to do dangerous and tricky things, like self-modifying code and cycle-counting, in order to accomplish a sophisticated effect, like a raster interrupt trick. For that reason, `sixtypical` does not attempt to emit a fully-formed Ophis assembler source. Instead, it expects you to mix its output with some raw Ophis assembler to make a complete program. This "mixin" may contain as much unchecked assembler code as you like. An example is provided in the `lib` directory which adds a prelude that makes the resulting program runnable from Commodore BASIC 2.0 and stores uninitialized data at `$C000`. In addition, various checks are not attempted (such as tracking the usage of an indirect indexed table) and other checks may be subverted (for example by `locate`ing two variables with two different types of storage at the same address.) In summary, SixtyPical helps you write a very-nearly-assembly-level program which is a bit more "solid" than raw assembly, but it still expects you to know what you're doing down there. For More Information -------------------- For more information, see the docs (which are written in the form of Falderal literate test suites. If you have Falderal installed, you can run the tests with `./test.sh`.) Internals --------- Some (OK, a lot) of the Haskell code is kind of gross and non-idiomatic. The parser, in particular, would not be described as "elegant". There could definitely be more higher-order functions defined and used. At the same time, I'm really not a fan of pointless style — I prefer it when things are written out explicitly and pedantically. Still, there are places where an added `foldr` or two would not be unwelcome... TODO ---- * Initial values for reserved tables * Character tables ("strings" to everybody else) * Addressing modes — indexed mode on more instructions * `jsr (vector)` * `jmp routine` * `outputs` on externals * Routine is a kind of StorageLocation? (Location)? * remove DELTA -> ADD/SUB (requires carry be notated on ADD and SUB though)