use { crate::{ lexer::TokenKind, parser, son::{hbvm::HbvmBackend, Codegen, CodegenCtx}, ty::Module, }, alloc::string::String, core::{fmt::Write, hash::BuildHasher, ops::Range}, }; #[derive(Default)] struct Rand(pub u64); impl Rand { pub fn next(&mut self) -> u64 { self.0 = crate::FnvBuildHasher::default().hash_one(self.0); self.0 } pub fn range(&mut self, min: u64, max: u64) -> u64 { self.next() % (max - min) + min } fn bool(&mut self) -> bool { self.next() % 2 == 0 } } #[derive(Default)] struct FuncGen { rand: Rand, buf: String, vars: u64, } impl FuncGen { fn gen(&mut self, seed: u64) -> &str { self.rand = Rand(seed); self.buf.clear(); self.buf.push_str("main := fn(): void "); self.block().unwrap(); &self.buf } fn block(&mut self) -> core::fmt::Result { let prev_vars = self.vars; self.buf.push('{'); for _ in 0..self.rand.range(1, 10) { self.stmt()?; } self.buf.push('}'); self.vars = prev_vars; Ok(()) } fn stmt(&mut self) -> core::fmt::Result { match self.rand.range(0, 100) { 0..4 => _ = self.block(), 4..10 => { write!(self.buf, "var{} := ", self.vars)?; self.expr()?; self.vars += 1; } 10..20 if self.vars != 0 => { write!(self.buf, "var{} = ", self.rand.range(0, self.vars))?; self.expr()?; } 20..23 => { self.buf.push_str("if "); self.expr()?; self.block()?; if self.rand.bool() { self.buf.push_str(" else "); self.block()?; } } _ => { self.buf.push_str("return "); self.expr()?; } } self.buf.push(';'); Ok(()) } fn expr(&mut self) -> core::fmt::Result { match self.rand.range(0, 100) { 0..80 => { write!(self.buf, "{}", self.rand.next()) } 80..90 if self.vars != 0 => { write!(self.buf, "var{}", self.rand.range(0, self.vars)) } 80..100 => { self.expr()?; let ops = [ TokenKind::Add, TokenKind::Sub, TokenKind::Mul, TokenKind::Div, TokenKind::Shl, TokenKind::Eq, TokenKind::Ne, TokenKind::Lt, TokenKind::Gt, TokenKind::Le, TokenKind::Ge, TokenKind::Band, TokenKind::Bor, TokenKind::Xor, TokenKind::Mod, TokenKind::Shr, ]; let op = ops[self.rand.range(0, ops.len() as u64) as usize]; write!(self.buf, " {op} ")?; self.expr() } _ => unreachable!(), } } } pub fn fuzz(seed_range: Range) { let mut gen = FuncGen::default(); let mut ctx = CodegenCtx::default(); for i in seed_range { ctx.clear(); let src = gen.gen(i); let parsed = parser::Ast::new("fuzz", src, &mut ctx.parser, &mut parser::no_loader); assert!(ctx.parser.errors.get_mut().is_empty()); let mut backend = HbvmBackend::default(); let mut cdg = Codegen::new(&mut backend, core::slice::from_ref(&parsed), &mut ctx); cdg.generate(Module::MAIN); } }