SixtyPical ========== SixtyPical is a very low-level programming language, similar to 6502 assembly, with static analysis through abstract interpretation. In practice, this means it catches things like * you forgot to clear carry before adding something to the accumulator * a subroutine that you call trashes a register you thought was preserved * you tried to write the address of something that was not a routine, to a jump vector and suchlike. It also provides some convenient operations and abstractions based on common machine-language programming idioms, such as * copying values from one register to another (via a third register when there are no underlying instructions that directly support it) * explicit tail calls * indirect subroutine calls The reference implementation can execute, analyze, and compile SixtyPical programs to 6502 machine code. It is a **work in progress**, currently at the **proof-of-concept** stage. The current development version of SixtyPical is 0.8-PRE. Documentation ------------- * Design Goals — coming soon. * [SixtyPical specification](doc/SixtyPical.md) * [SixtyPical history](HISTORY.md) * [Literate test suite for SixtyPical syntax](tests/SixtyPical%20Syntax.md) * [Literate test suite for SixtyPical execution](tests/SixtyPical%20Execution.md) * [Literate test suite for SixtyPical analysis](tests/SixtyPical%20Analysis.md) * [Literate test suite for SixtyPical compilation](tests/SixtyPical%20Compilation.md) * [6502 Opcodes used/not used in SixtyPical](doc/6502%20Opcodes.md) TODO ---- * `word table` type. * `vector table` type. * zero-page memory locations. * indirect addressing. * `low` and `high` address operators (turn `word` type into `byte`.) Possibly. * save registers on stack or in memory (this preserves them = not trashed) At some point... * initialized `byte table` memory locations * always analyze before executing or compiling, unless told not to * `trash` instruction. * `interrupt` routines. * 6502-mnemonic aliases (`sec`, `clc`) * other handy aliases (`eq` for `z`, etc.) * have `copy` instruction able to copy a constant to a user-def mem loc, etc. * add absolute addressing in shl/shr, absolute-indexed for add, sub, etc. * check and disallow recursion. * automatic tail-call optimization (could be tricky, w/constraints?) * re-order routines and optimize tail-calls to fallthroughs