Files
dimgigov aaeb01e518 feat(nexus): production modular HTTP/1.1 server + compiler fixes
- Rewrite apps/nexus with modular architecture:
  Config, Http, Errors, Parser, Router, Handlers, Server, Main
- Use algebraic enums for ParseResult/FileResult/HttpError
- Thread-pool server via Channel<ConnectionTask> and spawn
- Fix C backend type ordering for generic struct instances
  (Array_T, Iter_T) and algebraic enum struct payloads
- Collect Slice_T types from struct fields and enum payloads
- Fix match lowering for simple enums (direct value compare)
- Resolve match expression return type from first arm
- Infer element type for for-in over Array<UserStruct>
- Preserve generic type args in field access resolution
- Add fflush to PrintLine/Print for immediate server logs
- Add modern_features golden regression test
- Regenerate golden expected.c files
2026-06-15 00:54:03 +03:00

140 lines
4.5 KiB
Nim

import std/[unittest, strutils]
import ../bootstrap/[lexer, parser, sema]
proc checkSource(source: string): SemaResult =
let lexRes = tokenize(source, "<test>")
check not lexRes.hasErrors
let parseRes = parse(lexRes.tokens, "<test>")
check parseRes.diagnostics.len == 0
result = analyze(parseRes.module)
suite "Sema":
test "valid function with correct types":
let res = checkSource("func Main() -> int { return 0; }")
check not res.hasErrors
test "undeclared identifier":
let res = checkSource("func Main() -> int { return x; }")
check res.hasErrors
check "undeclared" in res.diagnostics[0].message
test "duplicate function":
let res = checkSource("func Main() -> int { return 0; } func Main() -> int { return 1; }")
check res.hasErrors
check "duplicate" in res.diagnostics[0].message
test "type mismatch in assignment":
let res = checkSource("func Main() -> int { let x: int32 = c8\"hello\"; return 0; }")
check res.hasErrors
check "cannot assign" in res.diagnostics[0].message
test "valid arithmetic":
let res = checkSource("func Main() -> int { return 1 + 2 * 3; }")
check not res.hasErrors
test "arithmetic on strings fails":
let res = checkSource("func Main() -> int { return c8\"a\" + c8\"b\"; }")
check res.hasErrors
test "valid function call":
let res = checkSource("func Add(a: int, b: int) -> int { return a + b; } func Main() -> int { return Add(1, 2); }")
check not res.hasErrors
test "wrong number of arguments":
let res = checkSource("func Add(a: int32, b: int32) -> int32 { return a + b; } func Main() -> int { return Add(1); }")
check res.hasErrors
check "missing argument for parameter 'b'" in res.diagnostics[0].message
test "wrong argument type":
let res = checkSource("func Add(a: int32, b: int32) -> int32 { return a + b; } func Main() -> int { return Add(c8\"a\", 2); }")
check res.hasErrors
check "argument 1" in res.diagnostics[0].message
test "if condition must be bool":
let res = checkSource("func Main() -> int { if 1 { return 0; } return 0; }")
check res.hasErrors
check "bool" in res.diagnostics[0].message
test "valid if with bool":
let res = checkSource("func Main() -> int { if true { return 0; } return 0; }")
check not res.hasErrors
test "pointer dereference":
let res = checkSource("func Main() -> int32 { let p: *int32 = null; return *p; }")
check not res.hasErrors
test "struct field access":
let res = checkSource("struct Point { x: float64; y: float64; } func Main() -> int32 { let p = Point { x: 1.0, y: 2.0 }; return 0; }")
check not res.hasErrors
test "unknown struct field":
let res = checkSource("struct Point { x: float64; y: float64; } func Main() -> int32 { let p = Point { x: 1.0, y: 2.0 }; return p.z; }")
check res.hasErrors
check "no field" in res.diagnostics[0].message
test "valid comparison":
let res = checkSource("func Main() -> int { return 1 == 2; }")
check not res.hasErrors
test "valid slice literal":
let res = checkSource("func Main() -> int { let arr = [1, 2, 3]; return 0; }")
check not res.hasErrors
test "slice element type mismatch":
let res = checkSource("func Main() -> int { let arr = [1, c8\"a\"]; return 0; }")
check res.hasErrors
test "method call with extend":
let src = """
struct Point { x: float64; y: float64; }
extend Point {
func Distance(self: Point) -> float64 { return 0.0; }
}
func Main() -> int {
let p = Point { x: 1.0, y: 2.0 };
let d = p.Distance();
return 0;
}
"""
let res = checkSource(src)
check not res.hasErrors
test "method call with wrong arguments":
let src = """
struct Point { x: float64; y: float64; }
extend Point {
func Add(self: Point, other: Point) -> Point { return self; }
}
func Main() -> int {
let p = Point { x: 1.0, y: 2.0 };
let q = p.Add();
return 0;
}
"""
let res = checkSource(src)
check res.hasErrors
check "too few arguments" in res.diagnostics[0].message
test "interface declaration":
let src = """
interface Display {
func ToString(self: Self) -> String;
}
"""
let res = checkSource(src)
check not res.hasErrors
test "extend for interface":
let src = """
struct Point { x: float64; y: float64; }
interface Display {
func ToString(self: Self) -> String;
}
extend Point for Display {
func ToString(self: Point) -> String { return c8"Point"; }
}
func Main() -> int { return 0; }
"""
let res = checkSource(src)
check not res.hasErrors