harn-vm 0.7.52

Async bytecode virtual machine for the Harn programming language
Documentation 
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use super::*;
use crate::chunk::{Chunk, Constant};
use harn_lexer::Lexer;
use harn_parser::Parser;

fn compile_source(source: &str) -> Chunk {
    let mut lexer = Lexer::new(source);
    let tokens = lexer.tokenize().unwrap();
    let mut parser = Parser::new(tokens);
    let program = parser.parse().unwrap();
    Compiler::new().compile(&program).unwrap()
}

#[test]
fn test_compile_arithmetic() {
    let chunk = compile_source("pipeline test(task) { let x = 2 + 3 }");
    assert!(!chunk.code.is_empty());
    assert!(chunk.constants.contains(&Constant::Int(2)));
    assert!(chunk.constants.contains(&Constant::Int(3)));
}

#[test]
fn test_compile_typed_int_loop_ops() {
    let chunk = compile_source(
        "pipeline test(task) {
  var i = 0
  var total = 0
  while i < 10 {
    total = total + (i + 3) * 2 - 1
    i = i + 1
  }
}",
    );
    let disasm = chunk.disassemble("test");
    assert!(disasm.contains("LESS_INT"));
    assert!(disasm.contains("ADD_INT"));
    assert!(disasm.contains("MUL_INT"));
    assert!(disasm.contains("SUB_INT"));
}

#[test]
fn test_compile_typed_float_ops() {
    let chunk = compile_source(
        "pipeline test(task) {
  let a = 1.0
  let b = 2.0
  let c = a + b
  log(c < 4.0)
}",
    );
    let disasm = chunk.disassemble("test");
    assert!(disasm.contains("ADD_FLOAT"));
    assert!(disasm.contains("LESS_FLOAT"));
}

#[test]
fn test_compile_typed_equality_ops() {
    let chunk = compile_source(
        r#"pipeline test(task) {
  log(true == false)
  log("a" != "b")
}"#,
    );
    let disasm = chunk.disassemble("test");
    assert!(disasm.contains("EQUAL_BOOL"));
    assert!(disasm.contains("NOT_EQUAL_STRING"));
}

#[test]
fn test_compile_generic_ops_for_overloaded_or_mixed_cases() {
    let chunk = compile_source(
        r#"pipeline test(task) {
  log("a" + "b")
  log(1 + 2.0)
  log([1] + [2])
}"#,
    );
    let disasm = chunk.disassemble("test");
    assert!(disasm.contains("ADD"));
    assert!(!disasm.contains("ADD_INT"));
    assert!(!disasm.contains("ADD_FLOAT"));
}

#[test]
fn test_compile_function_call() {
    let chunk = compile_source("pipeline test(task) { log(42) }");
    let disasm = chunk.disassemble("test");
    assert!(disasm.contains("CALL_BUILTIN"));
    assert!(disasm.contains("\"log\""));
}

#[test]
fn test_compile_if_else() {
    let chunk =
        compile_source(r#"pipeline test(task) { if true { log("yes") } else { log("no") } }"#);
    let disasm = chunk.disassemble("test");
    assert!(disasm.contains("JUMP_IF_FALSE"));
    assert!(disasm.contains("JUMP"));
}

#[test]
fn test_compile_while() {
    let chunk = compile_source("pipeline test(task) { var i = 0\n while i < 5 { i = i + 1 } }");
    let disasm = chunk.disassemble("test");
    assert!(disasm.contains("JUMP_IF_FALSE"));
    assert!(disasm.contains("JUMP"));
}

#[test]
fn test_compile_locals_to_slots() {
    let chunk = compile_source(
        "pipeline test(task) {
  let a = 1
  var i = 0
  while i < 3 {
    i = i + a
  }
}",
    );
    let disasm = chunk.disassemble("test");
    assert!(disasm.contains("DEF_LOCAL_SLOT"));
    assert!(disasm.contains("GET_LOCAL_SLOT"));
    assert!(disasm.contains("SET_LOCAL_SLOT"));
    assert!(!disasm.contains("GET_VAR"));
    assert!(!disasm.contains("SET_VAR"));
}

#[test]
fn test_compile_function_params_to_slots() {
    let chunk = compile_source(
        "pipeline test(task) {
  fn add(a, b = 1) {
    return a + b
  }
  log(add(2))
}",
    );
    let disasm = chunk.functions[0].chunk.disassemble("add");
    assert!(disasm.contains("GET_LOCAL_SLOT"));
    assert!(disasm.contains("DEF_LOCAL_SLOT"));
    assert!(!disasm.contains("GET_VAR"));
}

#[test]
fn test_compile_closure() {
    let chunk = compile_source("pipeline test(task) { let f = { x -> x * 2 } }");
    assert!(!chunk.functions.is_empty());
    assert_eq!(chunk.functions[0].params, vec!["x"]);
}

#[test]
fn test_compile_list() {
    let chunk = compile_source("pipeline test(task) { let a = [1, 2, 3] }");
    let disasm = chunk.disassemble("test");
    assert!(disasm.contains("BUILD_LIST"));
}

#[test]
fn test_compile_dict() {
    let chunk = compile_source(r#"pipeline test(task) { let d = {name: "test"} }"#);
    let disasm = chunk.disassemble("test");
    assert!(disasm.contains("BUILD_DICT"));
}

#[test]
fn test_disassemble() {
    let chunk = compile_source("pipeline test(task) { log(2 + 3) }");
    let disasm = chunk.disassemble("test");
    assert!(disasm.contains("CONSTANT"));
    assert!(disasm.contains("ADD"));
    assert!(disasm.contains("CALL"));
}

#[test]
fn test_compile_discard_bindings_do_not_define_underscore() {
    let chunk = compile_source(
        r#"
pipeline test(task) {
  let _ = 1
  let [_, keep, _] = [10, 20, 30]
  let {drop: _, keep_dict} = {drop: 1, keep_dict: 2}
  for (_, value) in [pair("left", "right")] {
    log(value)
  }
  log(keep)
  log(keep_dict)
}
"#,
    );

    assert!(
        !chunk.constants.contains(&Constant::String("_".to_string())),
        "discard bindings should not emit a named `_` slot: {:?}",
        chunk.constants
    );
}