diff --git a/README.md b/README.md index 80008be..84b4e4e 100644 --- a/README.md +++ b/README.md @@ -2,9 +2,18 @@ Dust is a high-level interpreted programming language with static types that focuses on ease of use, performance and correctness. The syntax, safety features and evaluation model are inspired by Rust. -Due to being interpreted, Dust's total time to execution is much lower than Rust's. Unlike other -interpreted languages, Dust is type-safe, with a simple yet powerful type system that enhances the -clarity and correctness of a program. +The instruction set, optimization strategies and virtual machine are inspired by Lua. Unlike Rust +and other compiled languages, Dust has a very low time to execution. Simple programs compile in +under a millisecond on a modern processor. Unlike Lua and most other interpreted languages, Dust is +type-safe, with a simple yet powerful type system that enhances clarity and prevent bugs. + +```dust +write_line("Enter your name...") + +let name = read_line() + +write_line("Hello " + name + "!") +``` ## Feature Progress @@ -14,6 +23,7 @@ Dust is still in development. This list may change as the language evolves. - [X] Compiler - [X] VM - [ ] Formatter +- [X] Disassembler (for chunk debugging) - CLI - [X] Run source - [X] Compile to chunk and show disassembly @@ -23,19 +33,25 @@ Dust is still in development. This list may change as the language evolves. - [ ] JSON - [ ] Postcard - Values - - [X] Basic values: booleans, bytes, characters, integers, floats, UTF-8 strings - - [X] No `null` or `undefined` - - [ ] Enums + - [X] No `null` or `undefined` values + - [X] Booleans + - [X] Bytes (unsigned 8-bit) + - [X] Characters (Unicode scalar value) + - [X] Floats (64-bit) - [X] Functions - - [X] Lists - - [ ] Maps + - [X] Integer (signed 64-bit) - [ ] Ranges + - [X] Strings (UTF-8) + - [X] Concrete lists + - [X] Abstract lists (optimization) + - [ ] Concrete maps + - [ ] Abstract maps (optimization) + - [ ] Tuples (fixed-size constant lists) - [ ] Structs - - [ ] Tuples - - [ ] Runtime-efficient abstract values for lists and maps + - [ ] Enums - Types - [X] Basic types for each kind of value - - [X] Generalized types: `num`, `any` + - [X] Generalized types: `num`, `any`, `none` - [ ] `struct` types - [ ] `enum` types - [ ] Type aliases @@ -44,7 +60,6 @@ Dust is still in development. This list may change as the language evolves. - [ ] Function returns - [X] If/Else branches - [ ] Instruction arguments - - [ ] Runtime type checking for debug compilation modes - Variables - [X] Immutable by default - [X] Block scope @@ -62,32 +77,23 @@ Dust is still in development. This list may change as the language evolves. - [ ] `loop` - [X] `while` - [ ] Match -- Instructions - - [X] Arithmetic - - [X] Boolean - - [X] Call - - [X] Constant - - [X] Control flow - - [X] Load - - [X] Store - - [X] Return - - [X] Stack - - [X] Unar ## Implementation Dust is implemented in Rust and is divided into several parts, most importantly the lexer, compiler, and virtual machine. All of Dust's components are designed with performance in mind and the codebase -uses as few dependencies as possible. +uses as few dependencies as possible. The code is tested by integration tests that compile source +code and check the compiled chunk, then run the source and check the output of the virtual machine. +It is important to maintain a high level of quality by writing meaningful tests and preferring to +compile and run programs in an optimal way before adding new features. -### Lexer +### Lexer and Tokens The lexer emits tokens from the source code. Dust makes extensive use of Rust's zero-copy capabilities to avoid unnecessary allocations when creating tokens. A token, depending on its type, may contain a reference to some data from the source code. The data is only copied in the case of an -error, because it improves the usability of the codebase for errors to own their data when possible. -In a successfully executed program, no part of the source code is copied unless it is a string -literal or identifier. +error. In a successfully executed program, no part of the source code is copied unless it is a +string literal or identifier. ### Compiler @@ -95,8 +101,6 @@ The compiler creates a chunk, which contains all of the data needed by the virtu Dust program. It does so by emitting bytecode instructions, constants and locals while parsing the tokens, which are generated one at a time by the lexer. -Types are checked during parsing and each emitted instruction is associated with a type. - #### Parsing Dust's compiler uses a custom Pratt parser, a kind of recursive descent parser, to translate a @@ -119,6 +123,16 @@ optimize the generated code by using fewer instructions or fewer registers. Whil output optimal code in the first place, it is not always possible. Dust's compiler uses simple functions that modify isolated sections of the instruction list through a mutable reference. +#### Type Checking + +Dust's compiler associates each emitted instruction with a type. This allows the compiler to enforce +compatibility when values are used in expressions. For example, the compiler will not allow a string +to be added to an integer, but it will allow either to be added to another of the same type. Aside +from instruction arguments, the compiler also checks the types of function arguments and the blocks +of `if`/`else` statements. + +The compiler always checks types on the fly, so there is no need for a separate type-checking pass. + ### Instructions Dust's virtual machine is register-based and uses 64-bit instructions, which encode nine pieces of @@ -127,24 +141,38 @@ information: Bit | Description ----- | ----------- 0-8 | The operation code. -9 | Boolean flag indicating whether the B argument is a constant. -10 | Boolean flag indicating whether the C argument is a constant. -11 | Boolean flag indicating whether the A argument is a local. -12 | Boolean flag indicating whether the B argument is a local. -13 | Boolean flag indicating whether the C argument is a local. -17-32 | The A argument, -33-48 | The B argument. -49-63 | The C argument. +9 | Boolean flag indicating whether the second argument is a constant +10 | Boolean flag indicating whether the third argument is a constant +11 | Boolean flag indicating whether the first argument is a local +12 | Boolean flag indicating whether the second argument is a local +13 | Boolean flag indicating whether the third argument is a local +17-32 | First argument, usually the destination register or local where a value is stored +33-48 | Second argument, a register, local, constant or boolean flag +49-63 | Third argument, a register, local, constant or boolean flag + +Because the instructions are 64 bits, the maximum number of registers is 2^16, which is more than +enough, even for programs that are very large. This also means that chunks can store up to 2^16 +constants and locals. ### Virtual Machine +The virtual machine is simple and efficient. It uses a stack of registers, which can hold values or +pointers. Pointers can point to values in the constant list, locals list, or the stack itself. If it +points to a local, the VM must consult its local definitions to find which register hold's the +value. Those local defintions are stored as a simple list of register indexes. + +While the compiler has multiple responsibilities that warrant more complexity, the VM is simple +enough to use a very straightforward design. The VM's `run` function uses a simple `while` loop with +a `match` statement to execute instructions. When it reaches a `Return` instruction, it breaks the +loop and optionally returns a value. + ## Previous Implementations -Dust has gone through several iterations, each with its own unique features and design choices. It -was originally implemented with a syntax tree generated by an external parser, then a parser -generator, and finally a custom parser. Eventually the language was rewritten to use bytecode -instructions and a virtual machine. The current implementation is by far the most performant and the -general design is unlikely to change. +Dust has gone through several iterations, each with its own design choices. It was originally +implemented with a syntax tree generated by an external parser, then a parser generator, and finally +a custom parser. Eventually the language was rewritten to use bytecode instructions and a virtual +machine. The current implementation is by far the most performant and the general design is unlikely +to change. Dust previously had a more complex type system with type arguments (or "generics") and a simple model for asynchronous execution of statements. Both of these features were removed to simplify the @@ -164,7 +192,7 @@ about the instruction's arguments. [The Implementation of Lua 5.0] by Roberto Ierusalimschy, Luiz Henrique de Figueiredo, and Waldemar Celes was a great resource for understanding how a compiler and VM tie together. Dust's compiler's -optimization functions were inspired by Lua optimizations covered in this paper. +optimization functions are inspired by Lua optimizations covered in this paper. [Crafting Interpreters]: https://craftinginterpreters.com/ [The Implementation of Lua 5.0]: https://www.lua.org/doc/jucs05.pdf diff --git a/dust-lang/src/instruction/mod.rs b/dust-lang/src/instruction/mod.rs index 98be10a..b9ae606 100644 --- a/dust-lang/src/instruction/mod.rs +++ b/dust-lang/src/instruction/mod.rs @@ -1,15 +1,18 @@ //! An operation and its arguments for the Dust virtual machine. //! //! Each instruction is a 64-bit unsigned integer that is divided into nine fields: -//! - Bits 0-8: The operation code. -//! - Bit 9: Boolean flag indicating whether the B argument is a constant. -//! - Bit 10: Boolean flag indicating whether the C argument is a constant. -//! - Bit 11: Boolean flag indicating whether the A argument is a local. -//! - Bit 12: Boolean flag indicating whether the B argument is a local. -//! - Bit 13: Boolean flag indicating whether the C argument is a local. -//! - Bits 17-32: The A argument, -//! - Bits 33-48: The B argument. -//! - Bits 49-63: The C argument. +//! +//! Bit | Description +//! ----- | ----------- +//! 0-8 | The operation code. +//! 9 | Boolean flag indicating whether the B argument is a constant. +//! 10 | Boolean flag indicating whether the C argument is a constant. +//! 11 | Boolean flag indicating whether the A argument is a local. +//! 12 | Boolean flag indicating whether the B argument is a local. +//! 13 | Boolean flag indicating whether the C argument is a local. +//! 17-32 | The A argument, +//! 33-48 | The B argument. +//! 49-63 | The C argument. //! //! Be careful when working with instructions directly. When modifying an instruction, be sure to //! account for the fact that setting the A, B, or C arguments to 0 will have no effect. It is