1mod binary;
3mod memory;
4mod native;
5pub use native::{ANY, STD, ZustCallback};
6
7mod fns;
8use anyhow::{Result, anyhow};
9pub use fns::{FnInfo, FnVariant};
10mod context;
11pub use context::BuildContext;
12
13mod rt;
14use cranelift::prelude::types;
15use dynamic::{Dynamic, Type};
16pub use rt::{BuiltinFn, BuiltinFnRegistry, JITRunTime};
17#[cfg(feature = "candle")]
18mod candle_module;
19#[cfg(feature = "db")]
20mod db_module;
21mod gpu_layout;
22#[cfg(feature = "gpu")]
23mod gpu_module;
24#[cfg(feature = "http")]
25mod http_module;
26#[cfg(feature = "llm")]
27mod llm_module;
28#[cfg(feature = "llm")]
29mod oss_module;
30mod root_module;
31mod time_module;
32pub use gpu_layout::{GpuFieldLayout, GpuStructLayout};
33pub use parking_lot::RwLock;
34
35use std::sync::{OnceLock, Weak};
36static PTR_TYPE: OnceLock<types::Type> = OnceLock::new();
37pub fn ptr_type() -> types::Type {
38 PTR_TYPE.get().cloned().unwrap()
39}
40
41pub fn get_type(ty: &Type) -> Result<types::Type> {
42 if ty.is_f64() {
43 Ok(types::F64)
44 } else if ty.is_f32() {
45 Ok(types::F32)
46 } else if ty.is_int() | ty.is_uint() {
47 match ty.width() {
48 1 => Ok(types::I8),
49 2 => Ok(types::I16),
50 4 => Ok(types::I32),
51 8 => Ok(types::I64),
52 _ => Err(anyhow!("非法类型 {:?}", ty)),
53 }
54 } else if let Type::Bool = ty {
55 Ok(types::I8)
56 } else {
57 Ok(ptr_type())
58 }
59}
60
61use compiler::Symbol;
62use cranelift::prelude::*;
63use cranelift_module::Module;
64
65pub fn init_jit(mut jit: JITRunTime) -> Result<JITRunTime> {
66 jit.add_all()?;
67 Ok(jit)
68}
69
70use std::sync::Arc;
71unsafe impl Send for JITRunTime {}
72unsafe impl Sync for JITRunTime {}
73
74pub type NativeContext = *const Weak<RwLock<JITRunTime>>;
75
76pub fn with_native_context<T>(context: NativeContext, f: impl FnOnce(&Vm) -> Result<T>) -> Result<T> {
77 if context.is_null() {
78 return Err(anyhow!("VM context is null"));
79 }
80 let jit = unsafe { &*context }.upgrade().ok_or_else(|| anyhow!("VM context has expired"))?;
81 let vm = Vm { jit };
82 f(&vm)
83}
84
85fn add_method_field(jit: &mut JITRunTime, def: &str, method: &str, id: u32) -> Result<()> {
86 let def_id = jit.get_id(def)?;
87 if let Some((_, define)) = jit.compiler.sym_tab.symbols.get_symbol_mut(def_id) {
88 if let Symbol::Struct(Type::Struct { params, fields }, _) = define {
89 fields.push((method.into(), Type::Symbol { id, params: params.clone() }));
90 }
91 }
92 Ok(())
93}
94
95fn add_native_module_fns(jit: &mut JITRunTime, module: &str, fns: &[(&str, &[Type], Type, *const u8)]) -> Result<()> {
96 jit.add_module(module);
97 for (name, arg_tys, ret_ty, fn_ptr) in fns {
98 let full_name = format!("{}::{}", module, name);
99 jit.add_native_ptr(&full_name, name, arg_tys, ret_ty.clone(), *fn_ptr)?;
100 }
101 jit.pop_module();
102 Ok(())
103}
104
105impl JITRunTime {
106 fn add_memory_runtime(&mut self) -> Result<()> {
107 self.native_symbols.write().insert("__vm_scope_enter".to_string(), memory::scope_enter as *const () as usize);
108 self.native_symbols.write().insert("__vm_scope_exit_void".to_string(), memory::scope_exit_void as *const () as usize);
109 self.native_symbols.write().insert("__vm_scope_exit_dynamic".to_string(), memory::scope_exit_dynamic as *const () as usize);
110 self.native_symbols.write().insert("__vm_scope_exit_bytes".to_string(), memory::scope_exit_bytes as *const () as usize);
111 self.native_symbols.write().insert("__vm_struct_alloc".to_string(), native::struct_alloc as *const () as usize);
112 self.native_symbols.write().insert("__vm_repeat_fill".to_string(), native::repeat_fill as *const () as usize);
113 self.native_symbols.write().insert("__vm_strcat".to_string(), native::strcat as *const () as usize);
114 self.native_symbols.write().insert("__vm_strcat_i64".to_string(), native::strcat_i64 as *const () as usize);
115 self.native_symbols.write().insert("__vm_strcat_assign".to_string(), native::strcat_assign as *const () as usize);
116 self.native_symbols.write().insert("__vm_callback_new".to_string(), native::callback_new as *const () as usize);
117 self.native_symbols.write().insert("__vm_spawn_ptr".to_string(), native::spawn_ptr as *const () as usize);
118 self.native_symbols.write().insert("__vm_struct_from_ptr".to_string(), native::struct_from_ptr as *const () as usize);
119 self.native_symbols.write().insert("__vm_array_from_ptr".to_string(), native::array_from_ptr as *const () as usize);
120 self.native_symbols.write().insert("__vm_array_to_ptr".to_string(), native::array_to_ptr as *const () as usize);
121 self.native_symbols.write().insert("__vm_arith_fault".to_string(), memory::arith_fault as *const () as usize);
122
123 let void_sig = self.get_sig(&[], Type::Void)?;
124 self.builtin_fns.register(BuiltinFn::ScopeEnter, self.module.declare_function("__vm_scope_enter", cranelift_module::Linkage::Import, &void_sig)?);
125 self.builtin_fns.register(BuiltinFn::ScopeExitVoid, self.module.declare_function("__vm_scope_exit_void", cranelift_module::Linkage::Import, &void_sig)?);
126
127 let dynamic_sig = self.get_sig(&[Type::Any], Type::Any)?;
128 self.builtin_fns.register(BuiltinFn::ScopeExitDynamic, self.module.declare_function("__vm_scope_exit_dynamic", cranelift_module::Linkage::Import, &dynamic_sig)?);
129
130 let bytes_sig = self.get_sig(&[Type::Any, Type::I64, Type::I64], Type::Any)?;
131 self.builtin_fns.register(BuiltinFn::ScopeExitBytes, self.module.declare_function("__vm_scope_exit_bytes", cranelift_module::Linkage::Import, &bytes_sig)?);
132
133 let struct_alloc_sig = self.get_sig(&[Type::I64], Type::Any)?;
134 self.builtin_fns.register(BuiltinFn::StructAlloc, self.module.declare_function("__vm_struct_alloc", cranelift_module::Linkage::Import, &struct_alloc_sig)?);
135
136 let repeat_fill_sig = self.get_sig(&[Type::Any, Type::I64, Type::I64, Type::I64], Type::Void)?;
137 self.builtin_fns.register(BuiltinFn::RepeatFill, self.module.declare_function("__vm_repeat_fill", cranelift_module::Linkage::Import, &repeat_fill_sig)?);
138
139 let strcat_sig = self.get_sig(&[Type::Str, Type::Str], Type::Str)?;
140 self.builtin_fns.register(BuiltinFn::Strcat, self.module.declare_function("__vm_strcat", cranelift_module::Linkage::Import, &strcat_sig)?);
141
142 let strcat_i64_sig = self.get_sig(&[Type::Str, Type::I64], Type::Str)?;
143 self.builtin_fns.register(BuiltinFn::StrcatI64, self.module.declare_function("__vm_strcat_i64", cranelift_module::Linkage::Import, &strcat_i64_sig)?);
144
145 let strcat_assign_sig = self.get_sig(&[Type::Any, Type::Any], Type::Any)?;
146 self.builtin_fns.register(BuiltinFn::StrcatAssign, self.module.declare_function("__vm_strcat_assign", cranelift_module::Linkage::Import, &strcat_assign_sig)?);
147
148 let callback_new_sig = self.get_sig(&[Type::I64, Type::I64, Type::I64, Type::Any], Type::Any)?;
149 self.builtin_fns.register(BuiltinFn::CallbackNew, self.module.declare_function("__vm_callback_new", cranelift_module::Linkage::Import, &callback_new_sig)?);
150
151 let spawn_ptr_sig = self.get_sig(&[Type::I64, Type::I64, Type::Any], Type::Bool)?;
152 self.builtin_fns.register(BuiltinFn::SpawnPtr, self.module.declare_function("__vm_spawn_ptr", cranelift_module::Linkage::Import, &spawn_ptr_sig)?);
153
154 let struct_from_ptr_sig = self.get_sig(&[Type::I64, Type::I64], Type::Any)?;
155 self.builtin_fns.register(BuiltinFn::StructFromPtr, self.module.declare_function("__vm_struct_from_ptr", cranelift_module::Linkage::Import, &struct_from_ptr_sig)?);
156 self.builtin_fns.register(BuiltinFn::ArrayFromPtr, self.module.declare_function("__vm_array_from_ptr", cranelift_module::Linkage::Import, &struct_from_ptr_sig)?);
157 let array_to_ptr_sig = self.get_sig(&[Type::Any, Type::Any, Type::I64], Type::Void)?;
158 self.builtin_fns.register(BuiltinFn::ArrayToPtr, self.module.declare_function("__vm_array_to_ptr", cranelift_module::Linkage::Import, &array_to_ptr_sig)?);
159
160 self.builtin_fns.register(BuiltinFn::ArithFault, self.module.declare_function("__vm_arith_fault", cranelift_module::Linkage::Import, &void_sig)?);
161 Ok(())
162 }
163
164 pub fn add_module(&mut self, name: &str) {
165 self.compiler.sym_tab.symbols.add_module(name.into());
166 }
167
168 pub fn pop_module(&mut self) {
169 self.compiler.sym_tab.symbols.pop_module();
170 }
171
172 pub fn add_native_const(&mut self, name: &str, value: impl Into<Dynamic>, ty: Type) -> u32 {
173 self.compiler.add_symbol(name, Symbol::Const { value: value.into(), ty, is_pub: true })
174 }
175
176 pub fn add_type(&mut self, name: &str, ty: Type, is_pub: bool) -> u32 {
177 self.compiler.add_symbol(name, Symbol::Struct(ty, is_pub))
178 }
179
180 pub fn add_empty_type(&mut self, name: &str) -> Result<u32> {
181 match self.get_id(name) {
182 Ok(id) => Ok(id),
183 Err(_) => Ok(self.add_type(name, Type::Struct { params: Vec::new(), fields: Vec::new() }, true)),
184 }
185 }
186
187 pub fn add_native_module_ptr(&mut self, module: &str, name: &str, arg_tys: &[Type], ret_ty: Type, fn_ptr: *const u8) -> Result<u32> {
188 self.add_module(module);
189 let full_name = format!("{}::{}", module, name);
190 let result = self.add_native_ptr(&full_name, name, arg_tys, ret_ty, fn_ptr);
191 self.pop_module();
192 result
193 }
194
195 pub fn add_native_module_context_ptr(&mut self, module: &str, name: &str, arg_tys: &[Type], ret_ty: Type, fn_ptr: *const u8) -> Result<u32> {
196 self.add_module(module);
197 let full_name = format!("{}::{}", module, name);
198 let result = self.add_context_native_ptr(&full_name, name, arg_tys, ret_ty, fn_ptr);
199 self.pop_module();
200 result
201 }
202
203 pub fn add_native_method_ptr(&mut self, def: &str, method: &str, arg_tys: &[Type], ret_ty: Type, fn_ptr: *const u8) -> Result<u32> {
204 self.add_empty_type(def)?;
205 let full_name = format!("{}::{}", def, method);
206 let id = self.add_native_ptr(&full_name, &full_name, arg_tys, ret_ty, fn_ptr)?;
207 add_method_field(self, def, method, id)?;
208 Ok(id)
209 }
210
211 pub fn add_std(&mut self) -> Result<()> {
212 if self.compiler.sym_tab.symbols.get_id("std::print").is_ok() {
213 return Ok(());
214 }
215 self.add_module("std");
216 for (name, arg_tys, ret_ty, fn_ptr) in STD {
217 self.add_native_ptr(name, name, arg_tys, ret_ty, fn_ptr)?;
218 }
219 self.add_context_native_ptr("import", "import", &[Type::Any, Type::Any], Type::Bool, native::import_with_vm as *const u8)?;
220 self.add_context_native_ptr("spawn", "spawn", &[Type::Any, Type::Any], Type::Bool, native::spawn_with_vm as *const u8)?;
221 Ok(())
222 }
223
224 pub fn add_any(&mut self) -> Result<()> {
225 if self.compiler.sym_tab.symbols.get_id("Any").is_ok() && self.compiler.sym_tab.symbols.get_id("Any::is_map").is_ok() {
226 return Ok(());
227 }
228 for (name, arg_tys, ret_ty, fn_ptr) in ANY {
229 let (_, method) = name.split_once("::").ok_or_else(|| anyhow!("非法 Any 方法名 {}", name))?;
230 self.add_native_method_ptr("Any", method, arg_tys, ret_ty, fn_ptr)?;
231 }
232 Ok(())
233 }
234
235 pub fn add_vec(&mut self) -> Result<()> {
236 if self.compiler.sym_tab.symbols.get_id("Vec::get_idx").is_ok() {
237 return Ok(());
238 }
239 self.add_empty_type("Vec")?;
240 let vec_def = Type::Symbol { id: self.get_id("Vec")?, params: Vec::new() };
241 self.add_inline("Vec::swap", vec![vec_def.clone(), Type::I64, Type::I64], Type::Void, |ctx: Option<&mut BuildContext>, args: Vec<Value>| {
242 if let Some(ctx) = ctx {
243 let width = ctx.builder.ins().iconst(types::I64, 4);
244 let offset_val = ctx.builder.ins().imul(args[1], width); let final_addr = ctx.builder.ins().iadd(args[0], offset_val); let dest = ctx.builder.ins().imul(args[2], width);
247 let dest_addr = ctx.builder.ins().iadd(args[0], dest); let dest_val = ctx.builder.ins().load(types::I32, MemFlags::trusted(), dest_addr, 0);
249 let v = ctx.builder.ins().load(types::I32, MemFlags::trusted(), final_addr, 0);
250 ctx.builder.ins().store(MemFlags::trusted(), v, dest_addr, 0);
251 ctx.builder.ins().store(MemFlags::trusted(), dest_val, final_addr, 0);
252 }
253 Err(anyhow!("无返回值"))
254 })?;
255
256 self.add_inline("Vec::get_idx", vec![vec_def.clone(), Type::I64], Type::I32, |ctx: Option<&mut BuildContext>, args: Vec<Value>| {
257 if let Some(ctx) = ctx {
258 let width = ctx.builder.ins().iconst(types::I64, 4);
259 let offset_val = ctx.builder.ins().imul(args[1], width); let final_addr = ctx.builder.ins().iadd(args[0], offset_val);
261 Ok((Some(ctx.builder.ins().load(types::I32, MemFlags::trusted(), final_addr, 0)), Type::I32))
262 } else {
263 Ok((None, Type::I32))
264 }
265 })?;
266 Ok(())
267 }
268
269 #[cfg(feature = "llm")]
270 pub fn add_llm(&mut self) -> Result<()> {
271 if self.compiler.sym_tab.symbols.get_id("llm::complete").is_ok() {
272 return Ok(());
273 }
274 add_native_module_fns(self, "llm", &llm_module::LLM_NATIVE)?;
275 add_native_module_fns(self, "oss", &oss_module::OSS_NATIVE)
276 }
277
278 #[cfg(feature = "candle")]
279 pub fn add_candle(&mut self) -> Result<()> {
280 if self.compiler.sym_tab.symbols.get_id("candle::embed").is_ok() {
281 return Ok(());
282 }
283 add_native_module_fns(self, "candle", &candle_module::CANDLE_NATIVE)
284 }
285
286 pub fn add_root(&mut self) -> Result<()> {
287 if self.compiler.sym_tab.symbols.get_id("root::get").is_ok() {
288 return Ok(());
289 }
290 add_native_module_fns(self, "root", &root_module::ROOT_NATIVE)?;
291 self.add_native_module_context_ptr("root", "add_fn", &[Type::Any, Type::Any], Type::Bool, root_module::root_add_fn_with_vm as *const u8)?;
292 Ok(())
293 }
294
295 pub fn add_time(&mut self) -> Result<()> {
296 if self.compiler.sym_tab.symbols.get_id("time::now").is_ok() {
297 return Ok(());
298 }
299 add_native_module_fns(self, "time", &time_module::TIME_NATIVE)
300 }
301
302 #[cfg(feature = "http")]
303 pub fn add_http(&mut self) -> Result<()> {
304 if self.compiler.sym_tab.symbols.get_id("http::request").is_ok() {
305 return Ok(());
306 }
307 add_native_module_fns(self, "http", &http_module::HTTP_NATIVE)?;
308 http_module::add_root_handlers()
309 }
310
311 #[cfg(feature = "db")]
312 pub fn add_db(&mut self) -> Result<()> {
313 if self.compiler.sym_tab.symbols.get_id("db::select").is_ok() {
314 return Ok(());
315 }
316 add_native_module_fns(self, "db", &db_module::DB_NATIVE)
317 }
318
319 #[cfg(feature = "gpu")]
320 pub fn add_gpu(&mut self) -> Result<()> {
321 if self.compiler.sym_tab.symbols.get_id("gpu::spirv_check").is_ok() {
322 return Ok(());
323 }
324 add_native_module_fns(self, "gpu", &gpu_module::GPU_NATIVE)
325 }
326
327 pub fn add_all(&mut self) -> Result<()> {
328 self.add_std()?;
329 self.add_any()?;
330 self.add_vec()?;
331 self.add_root()?;
332 self.add_time()?;
333 #[cfg(feature = "llm")]
334 self.add_llm()?;
335 #[cfg(feature = "candle")]
336 self.add_candle()?;
337 #[cfg(feature = "http")]
338 self.add_http()?;
339 #[cfg(feature = "db")]
340 self.add_db()?;
341 #[cfg(feature = "gpu")]
342 self.add_gpu()?;
343 Ok(())
344 }
345}
346
347#[derive(Clone)]
348pub struct Vm {
349 pub jit: Arc<parking_lot::RwLock<JITRunTime>>,
350}
351
352impl Vm {
353 pub fn new() -> Self {
354 dynamic::set_dynamic_return_handler(memory::take_dynamic_return);
355 let jit = Arc::new(RwLock::new(JITRunTime::new(|_| {})));
356 {
357 let mut guard = jit.write();
358 guard.set_owner(Arc::downgrade(&jit));
359 guard.add_memory_runtime().expect("register VM memory runtime");
360 guard.add_std().expect("register VM std runtime");
361 guard.add_any().expect("register VM Any runtime");
362 guard.add_vec().expect("register VM Vec runtime");
363 guard.add_root().expect("register VM root runtime");
364 }
365 Self { jit }
366 }
367
368 pub fn with_all() -> Result<Self> {
369 let vm = Self::new();
370 vm.jit.write().add_all()?;
371 Ok(vm)
372 }
373
374 pub fn import(&self, name: &str, path: &str) -> Result<()> {
375 if let Ok(code) = root::get(path) {
378 if code.is_str() {
379 self.jit.write().import_code(name, code.as_str().as_bytes().to_vec())?;
380 } else {
381 self.jit.write().import_code(name, code.get_dynamic("code").ok_or_else(|| anyhow!("{:?} 没有 code 成员", code))?.as_str().as_bytes().to_vec())?;
382 }
383 Ok(())
384 } else {
385 self.jit.write().compiler.import_file(name, path)?;
386 Ok(())
387 }
388 }
389
390 pub fn import_source(&self, name: &str, source: &str) -> Result<()> {
391 self.jit.write().import_source(name, source)
392 }
393
394 pub fn add_native_module_context_ptr(&self, module: &str, name: &str, arg_tys: &[Type], ret_ty: Type, fn_ptr: *const u8) -> Result<u32> {
395 self.jit.write().add_native_module_context_ptr(module, name, arg_tys, ret_ty, fn_ptr)
396 }
397}
398
399impl Default for Vm {
400 fn default() -> Self {
401 Self::new()
402 }
403}
404
405#[cfg(test)]
406mod tests {
407 use super::{GpuStructLayout, NativeContext, Vm, ZustCallback, with_native_context};
408 use dynamic::{CustomProperty, Dynamic, ToJson, Type};
409 use std::collections::BTreeMap;
410
411 struct TestFn {
413 ptr: *const u8,
414 ret: Type,
415 }
416
417 impl TestFn {
418 fn ptr(&self) -> *const u8 {
419 self.ptr
420 }
421 fn ret_ty(&self) -> &Type {
422 &self.ret
423 }
424 }
425
426 fn call_i64_0(compiled: &TestFn) -> i64 {
427 match compiled.ret_ty() {
428 Type::I64 => {
429 let f: extern "C" fn() -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
430 f()
431 }
432 Type::I32 => {
433 let f: extern "C" fn() -> i32 = unsafe { std::mem::transmute(compiled.ptr()) };
434 f() as i64
435 }
436 Type::Any => {
437 let f: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
438 unsafe { &*f() }.as_int().expect("integer Dynamic return")
439 }
440 other => panic!("expected integer-like return, got {other:?}"),
441 }
442 }
443
444 fn call_i64_1(compiled: &TestFn, arg: i64) -> i64 {
445 match compiled.ret_ty() {
446 Type::I64 => {
447 let f: extern "C" fn(i64) -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
448 f(arg)
449 }
450 Type::I32 => {
451 let f: extern "C" fn(i64) -> i32 = unsafe { std::mem::transmute(compiled.ptr()) };
452 f(arg) as i64
453 }
454 Type::Any => {
455 let f: extern "C" fn(i64) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
456 unsafe { &*f(arg) }.as_int().expect("integer Dynamic return")
457 }
458 other => panic!("expected integer-like return, got {other:?}"),
459 }
460 }
461
462 trait VmTestExt {
464 fn import_code(&self, name: &str, code: Vec<u8>) -> anyhow::Result<()>;
465 fn get_fn(&self, name: &str, arg_tys: &[Type]) -> anyhow::Result<TestFn>;
466 fn get_fn_with_params(&self, name: &str, arg_tys: &[Type], generic_args: &[Type]) -> anyhow::Result<TestFn>;
467 fn get_fn_ptr(&self, name: &str, arg_tys: &[Type]) -> anyhow::Result<(*const u8, Type)>;
468 fn infer(&self, name: &str, arg_tys: &[Type]) -> anyhow::Result<Type>;
469 fn add_native_module_ptr(&self, module: &str, name: &str, arg_tys: &[Type], ret_ty: Type, ptr: *const u8) -> anyhow::Result<u32>;
470 fn add_native_method_ptr(&self, def: &str, method: &str, arg_tys: &[Type], ret_ty: Type, ptr: *const u8) -> anyhow::Result<u32>;
471 fn add_empty_type(&self, name: &str) -> anyhow::Result<u32>;
472 fn add_std(&self) -> anyhow::Result<()>;
473 fn add_any(&self) -> anyhow::Result<()>;
474 fn get_symbol(&self, name: &str, params: Vec<Type>) -> anyhow::Result<Type>;
475 fn gpu_struct_layout(&self, name: &str, params: &[Type]) -> anyhow::Result<GpuStructLayout>;
476 fn load(&self, code: Vec<u8>, arg_name: smol_str::SmolStr) -> anyhow::Result<(i64, Type)>;
477 }
478
479 impl VmTestExt for Vm {
480 fn import_code(&self, name: &str, code: Vec<u8>) -> anyhow::Result<()> {
481 self.jit.write().import_code(name, code)
482 }
483 fn get_fn(&self, name: &str, arg_tys: &[Type]) -> anyhow::Result<TestFn> {
484 let (ptr, ret) = self.jit.write().get_fn_ptr(name, arg_tys)?;
485 Ok(TestFn { ptr, ret })
486 }
487 fn get_fn_with_params(&self, name: &str, arg_tys: &[Type], generic_args: &[Type]) -> anyhow::Result<TestFn> {
488 let (ptr, ret) = self.jit.write().get_fn_ptr_with_params(name, arg_tys, generic_args)?;
489 Ok(TestFn { ptr, ret })
490 }
491 fn get_fn_ptr(&self, name: &str, arg_tys: &[Type]) -> anyhow::Result<(*const u8, Type)> {
492 self.jit.write().get_fn_ptr(name, arg_tys)
493 }
494 fn infer(&self, name: &str, arg_tys: &[Type]) -> anyhow::Result<Type> {
495 self.jit.write().get_type(name, arg_tys)
496 }
497 fn add_native_module_ptr(&self, module: &str, name: &str, arg_tys: &[Type], ret_ty: Type, ptr: *const u8) -> anyhow::Result<u32> {
498 self.jit.write().add_native_module_ptr(module, name, arg_tys, ret_ty, ptr)
499 }
500 fn add_native_method_ptr(&self, def: &str, method: &str, arg_tys: &[Type], ret_ty: Type, ptr: *const u8) -> anyhow::Result<u32> {
501 self.jit.write().add_native_method_ptr(def, method, arg_tys, ret_ty, ptr)
502 }
503 fn add_empty_type(&self, name: &str) -> anyhow::Result<u32> {
504 self.jit.write().add_empty_type(name)
505 }
506 fn add_std(&self) -> anyhow::Result<()> {
507 self.jit.write().add_std()
508 }
509 fn add_any(&self) -> anyhow::Result<()> {
510 self.jit.write().add_any()
511 }
512 fn get_symbol(&self, name: &str, params: Vec<Type>) -> anyhow::Result<Type> {
513 Ok(Type::Symbol { id: self.jit.write().get_id(name)?, params })
514 }
515 fn gpu_struct_layout(&self, name: &str, params: &[Type]) -> anyhow::Result<GpuStructLayout> {
516 let jit = self.jit.write();
517 GpuStructLayout::from_symbol_table(&jit.compiler.sym_tab.symbols, name, params)
518 }
519 fn load(&self, code: Vec<u8>, arg_name: smol_str::SmolStr) -> anyhow::Result<(i64, Type)> {
520 self.jit.write().load(code, arg_name)
521 }
522 }
523
524 extern "C" fn math_double(value: i64) -> i64 {
525 value * 2
526 }
527
528 extern "C" fn context_has_symbol(context: NativeContext, name: *const Dynamic) -> bool {
529 if name.is_null() {
530 return false;
531 }
532 let name = unsafe { (&*name).as_str().to_string() };
533 with_native_context(context, |vm| Ok(vm.jit.write().get_id(&name).is_ok())).unwrap_or(false)
534 }
535
536 #[test]
537 fn vm_import_source_accepts_inline_utf8_zust_code() -> anyhow::Result<()> {
538 let vm = Vm::new();
539 vm.import_source(
540 "vm_utf8_source",
541 r#"
542 pub fn run() {
543 "扩展 Chunk".len()
544 }
545 "#,
546 )?;
547
548 let compiled = vm.get_fn("vm_utf8_source::run", &[])?;
549 assert_eq!(compiled.ret_ty(), &Type::I32);
550 let run: extern "C" fn() -> i32 = unsafe { std::mem::transmute(compiled.ptr()) };
551 assert_eq!(run(), 12);
552 Ok(())
553 }
554
555 #[test]
556 fn build_context_set_var_fills_sparse_none_slots() -> anyhow::Result<()> {
557 use crate::context::{BuildContext, LocalVar};
558 use cranelift::codegen::ir::{Function, Signature, UserFuncName};
559 use cranelift::codegen::isa::CallConv;
560 use cranelift::prelude::{FunctionBuilder, FunctionBuilderContext};
561
562 let mut function = Function::with_name_signature(UserFuncName::user(0, 0), Signature::new(CallConv::Fast));
563 let mut function_ctx = FunctionBuilderContext::new();
564 let builder = FunctionBuilder::new(&mut function, &mut function_ctx);
565 let mut ctx = BuildContext::new(builder, &[], Type::Void)?;
566
567 ctx.set_var(33, LocalVar::None)?;
568
569 assert!(matches!(ctx.get_var(32)?, LocalVar::None));
570 assert!(matches!(ctx.get_var(33)?, LocalVar::None));
571 assert!(ctx.get_var(34).is_err());
572 Ok(())
573 }
574
575 #[test]
576 fn vm_can_add_native_after_jit_creation() -> anyhow::Result<()> {
577 let vm = Vm::new();
578 vm.add_native_module_ptr("math", "double", &[Type::I64], Type::I64, math_double as *const u8)?;
579 vm.import_code(
580 "vm_dynamic_native",
581 br#"
582 pub fn run(value: i64) {
583 math::double(value)
584 }
585 "#
586 .to_vec(),
587 )?;
588
589 let compiled = vm.get_fn("vm_dynamic_native::run", &[Type::I64])?;
590 assert_eq!(compiled.ret_ty(), &Type::I64);
591 let run: extern "C" fn(i64) -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
592 assert_eq!(run(21), 42);
593 Ok(())
594 }
595
596 #[test]
597 fn vm_can_add_context_native_after_jit_creation() -> anyhow::Result<()> {
598 let vm = Vm::with_all()?;
599 vm.add_native_module_context_ptr("ctx", "has_symbol", &[Type::Any], Type::Bool, context_has_symbol as *const u8)?;
600 vm.import_code(
601 "vm_dynamic_context_native",
602 br#"
603 pub struct Marker { value: i32 }
604 pub fn run() {
605 ctx::has_symbol("vm_dynamic_context_native::Marker")
606 }
607 "#
608 .to_vec(),
609 )?;
610
611 let compiled = vm.get_fn("vm_dynamic_context_native::run", &[])?;
612 assert_eq!(compiled.ret_ty(), &Type::Bool);
613 let run: extern "C" fn() -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
614 assert!(run());
615 Ok(())
616 }
617
618 #[test]
619 fn vm_new_registers_std_and_any() -> anyhow::Result<()> {
620 let vm = Vm::new();
621 vm.add_std()?;
622 vm.add_any()?;
623 assert_eq!(vm.infer("std::print", &[Type::Any])?, Type::Void);
624 assert_eq!(vm.infer("std::sqrt", &[Type::F64])?, Type::F64);
625 assert_eq!(vm.infer("std::sleep", &[Type::I64])?, Type::Void);
626
627 vm.import_code(
628 "vm_new_default_any",
629 br#"
630 pub fn has_items(content) {
631 if content.is_map() {
632 if content.contains("items") {
633 return content.items.len() > 0;
634 }
635 }
636 false
637 }
638 "#
639 .to_vec(),
640 )?;
641
642 assert_eq!(vm.infer("vm_new_default_any::has_items", &[Type::Any])?, Type::Bool);
643 let compiled = vm.get_fn("vm_new_default_any::has_items", &[Type::Any])?;
644 assert_eq!(compiled.ret_ty(), &Type::Bool);
645 Ok(())
646 }
647
648 #[test]
649 fn std_sqrt_is_available_as_top_level_function() -> anyhow::Result<()> {
650 let vm = Vm::with_all()?;
651 vm.import_code(
652 "vm_std_sqrt",
653 br#"
654 pub fn run() {
655 sqrt(9.0f64)
656 }
657 "#
658 .to_vec(),
659 )?;
660
661 let compiled = vm.get_fn("vm_std_sqrt::run", &[])?;
662 assert_eq!(compiled.ret_ty(), &Type::F64);
663 let run: extern "C" fn() -> f64 = unsafe { std::mem::transmute(compiled.ptr()) };
664 assert_eq!(run(), 3.0);
665 Ok(())
666 }
667
668 #[test]
669 fn std_sleep_is_available_as_top_level_function() -> anyhow::Result<()> {
670 let vm = Vm::with_all()?;
671 vm.import_code(
672 "vm_std_sleep",
673 br#"
674 pub fn run() {
675 sleep(0)
676 }
677 "#
678 .to_vec(),
679 )?;
680
681 let compiled = vm.get_fn("vm_std_sleep::run", &[])?;
682 assert_eq!(compiled.ret_ty(), &Type::Void);
683 let run: extern "C" fn() = unsafe { std::mem::transmute(compiled.ptr()) };
684 run();
685 Ok(())
686 }
687
688 #[cfg(feature = "candle")]
689 #[test]
690 fn candle_module_registers_embed() -> anyhow::Result<()> {
691 let vm = Vm::with_all()?;
692 assert_eq!(vm.infer("candle::embed", &[Type::Any, Type::Any])?, Type::Any);
693 assert_eq!(vm.infer("candle::load_embedder", &[Type::Any])?, Type::Any);
694 Ok(())
695 }
696
697 #[test]
698 fn time_now_returns_current_unix_millis() -> anyhow::Result<()> {
699 let vm = Vm::with_all()?;
700 vm.import_code(
701 "vm_time_now",
702 br#"
703 pub fn run() {
704 time::now()
705 }
706 "#
707 .to_vec(),
708 )?;
709
710 let compiled = vm.get_fn("vm_time_now::run", &[])?;
711 assert_eq!(compiled.ret_ty(), &Type::I64);
712 let run: extern "C" fn() -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
713 let before = std::time::SystemTime::now().duration_since(std::time::UNIX_EPOCH)?.as_millis() as i64;
714 let now = run();
715 let after = std::time::SystemTime::now().duration_since(std::time::UNIX_EPOCH)?.as_millis() as i64;
716 assert!(now >= before && now <= after, "time::now() = {now} not in [{before}, {after}]");
717 Ok(())
718 }
719
720 #[test]
721 fn time_format_and_parse_round_trip() -> anyhow::Result<()> {
722 let vm = Vm::with_all()?;
723 vm.import_code(
724 "vm_time_format",
725 br#"
726 // strftime-style format spec
727 pub fn fmt(tick: i64) {
728 time::format("%Y-%m-%d %H:%M:%S", tick)
729 }
730
731 pub fn parse(text) {
732 time::parse("%Y-%m-%d %H:%M:%S", text)
733 }
734 "#
735 .to_vec(),
736 )?;
737
738 let known_tick: i64 = 1_577_934_245_000;
740 let fmt = vm.get_fn("vm_time_format::fmt", &[Type::I64])?;
741 let f: extern "C" fn(i64) -> *const Dynamic = unsafe { std::mem::transmute(fmt.ptr()) };
742 let formatted = unsafe { (*f(known_tick)).clone() };
743 assert_eq!(formatted.as_str().to_string(), "2020-01-02 03:04:05");
744
745 let parse = vm.get_fn("vm_time_format::parse", &[Type::Any])?;
747 let p: extern "C" fn(*const Dynamic) -> i64 = unsafe { std::mem::transmute(parse.ptr()) };
748 let text = Dynamic::from("2020-01-02 03:04:05");
749 let parsed = p(&text as *const _);
750 assert_eq!(parsed, known_tick);
751
752 let bad = Dynamic::from("not a date");
754 assert_eq!(p(&bad as *const _), -1);
755 Ok(())
756 }
757
758 #[test]
759 fn tuple_assignment_uses_simultaneous_scalar_temps() -> anyhow::Result<()> {
760 let vm = Vm::with_all()?;
761 vm.import_code(
762 "vm_tuple_assignment",
763 br#"
764 pub fn swap() {
765 let a = 1i64;
766 let b = 2i64;
767 (a, b) = (b, a);
768 a * 10i64 + b
769 }
770
771 pub fn fib(n: i64) {
772 let a = 0i64;
773 let b = 1i64;
774 for _ in 0..n {
775 (a, b) = (b, (a + b) % 1000000007i64);
776 }
777 a
778 }
779 "#
780 .to_vec(),
781 )?;
782
783 let swap = vm.get_fn("vm_tuple_assignment::swap", &[])?;
784 let swap: extern "C" fn() -> i64 = unsafe { std::mem::transmute(swap.ptr()) };
785 assert_eq!(swap(), 21);
786
787 let fib = vm.get_fn("vm_tuple_assignment::fib", &[Type::I64])?;
788 let fib: extern "C" fn(i64) -> i64 = unsafe { std::mem::transmute(fib.ptr()) };
789 assert_eq!(fib(10), 55);
790 Ok(())
791 }
792
793 #[test]
794 fn nested_struct_arg_return_struct_field_is_static_field_access() -> anyhow::Result<()> {
795 let vm = Vm::with_all()?;
796 vm.import_code(
797 "vm_nested_struct_return_field",
798 br#"
799 pub struct Inner {
800 value: i64,
801 }
802
803 pub struct RoleMini {
804 inner: Inner,
805 hp: i64,
806 }
807
808 pub struct TeamMini {
809 role: RoleMini,
810 }
811
812 pub struct BigSummary {
813 winner: i64,
814 loser: i64,
815 }
816
817 pub fn make_big_with_team(team: TeamMini) {
818 let score = team.role.inner.value;
819 BigSummary{winner: score, loser: 0}
820 }
821
822 pub fn read_team_winner_direct() {
823 let team = TeamMini{role: RoleMini{inner: Inner{value: 9}, hp: 1}};
824 make_big_with_team(team).winner
825 }
826
827 pub fn read_team_winner_bound() {
828 let team = TeamMini{role: RoleMini{inner: Inner{value: 9}, hp: 1}};
829 let summary = make_big_with_team(team);
830 summary.winner
831 }
832 "#
833 .to_vec(),
834 )?;
835
836 let compiled = vm.get_fn("vm_nested_struct_return_field::read_team_winner_direct", &[])?;
837 assert_eq!(compiled.ret_ty(), &Type::I64);
838 let direct: extern "C" fn() -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
839 assert_eq!(direct(), 9);
840
841 let compiled = vm.get_fn("vm_nested_struct_return_field::read_team_winner_bound", &[])?;
842 assert_eq!(compiled.ret_ty(), &Type::I64);
843 let bound: extern "C" fn() -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
844 assert_eq!(bound(), 9);
845 Ok(())
846 }
847
848 #[test]
849 fn returned_nested_struct_dynamic_fields_are_read_inline() -> anyhow::Result<()> {
850 let vm = Vm::with_all()?;
851 vm.import_code(
852 "vm_returned_nested_struct_dynamic",
853 br#"
854 pub struct Inner {
855 value: i64,
856 }
857
858 pub struct Outer {
859 inner: Inner,
860 tag: i64,
861 }
862
863 pub fn make() {
864 Outer{inner: Inner{value: 17}, tag: 3}
865 }
866 "#
867 .to_vec(),
868 )?;
869
870 let compiled = vm.get_fn("vm_returned_nested_struct_dynamic::make", &[])?;
871 let make: extern "C" fn() -> *const u8 = unsafe { std::mem::transmute(compiled.ptr()) };
872 let ty = compiled.ret_ty().clone();
873 let value = Dynamic::struct_view(make() as usize, ty);
874 let inner = value.get_dynamic("inner").expect("inner field");
875 assert_eq!(inner.get_dynamic("value").and_then(|value| value.as_int()), Some(17));
876 assert_eq!(value.get_dynamic("tag").and_then(|value| value.as_int()), Some(3));
877 Ok(())
878 }
879
880 #[test]
881 fn returned_struct_with_dynamic_field_survives_scope_exit() -> anyhow::Result<()> {
882 let vm = Vm::with_all()?;
883 vm.import_code(
884 "vm_returned_struct_dynamic_field",
885 br#"
886 pub struct Bag {
887 name: string,
888 value: string,
889 }
890
891 pub fn make() {
892 Bag{name: "alpha", value: "omega"}
893 }
894 "#
895 .to_vec(),
896 )?;
897
898 let compiled = vm.get_fn("vm_returned_struct_dynamic_field::make", &[])?;
899 let make: extern "C" fn() -> *const u8 = unsafe { std::mem::transmute(compiled.ptr()) };
900 let value = Dynamic::struct_view(make() as usize, compiled.ret_ty().clone());
901 assert_eq!(value.get_dynamic("name").map(|value| value.as_str().to_string()), Some("alpha".to_string()));
902 assert_eq!(value.get_dynamic("value").map(|value| value.as_str().to_string()), Some("omega".to_string()));
903 Ok(())
904 }
905
906 #[test]
907 fn any_push_does_not_consume_reused_value() -> anyhow::Result<()> {
908 let vm = Vm::with_all()?;
909 vm.import_code(
910 "vm_any_push_reused_value",
911 br#"
912 pub fn run() {
913 let role_id = "acct_role_2";
914 let updated = [];
915 updated.push(role_id);
916 {
917 ok: true,
918 user_id: role_id,
919 first: updated.get_idx(0)
920 }
921 }
922 "#
923 .to_vec(),
924 )?;
925
926 let compiled = vm.get_fn("vm_any_push_reused_value::run", &[])?;
927 assert_eq!(compiled.ret_ty(), &Type::Any);
928 let run: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
929 let result = unsafe { &*run() };
930 assert_eq!(result.get_dynamic("ok").and_then(|value| value.as_bool()), Some(true));
931 assert_eq!(result.get_dynamic("user_id").map(|value| value.as_str().to_string()), Some("acct_role_2".to_string()));
932 assert_eq!(result.get_dynamic("first").map(|value| value.as_str().to_string()), Some("acct_role_2".to_string()));
933 Ok(())
934 }
935
936 #[test]
937 fn inlined_function_returning_dynamic_list_keeps_list_value() -> anyhow::Result<()> {
938 let vm = Vm::with_all()?;
939 vm.import_code(
940 "vm_inline_return_list",
941 br#"
942 fn make(value) {
943 [value]
944 }
945
946 pub fn run() {
947 let tup = make("node");
948 tup[0i64]
949 }
950 "#
951 .to_vec(),
952 )?;
953
954 let compiled = vm.get_fn("vm_inline_return_list::run", &[])?;
955 assert_eq!(compiled.ret_ty(), &Type::Any);
956 let run: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
957 let result = unsafe { &*run() };
958 assert_eq!(result.as_str(), "node");
959 Ok(())
960 }
961
962 #[test]
963 fn tuple_destructure_evaluates_rhs_once() -> anyhow::Result<()> {
964 let vm = Vm::with_all()?;
965 vm.import_code(
966 "vm_tuple_destructure_once",
967 br#"
968 fn make_pair() {
969 let n = root::get("local/vm_tuple_destructure_once/calls") + 1i64;
970 root::add("local/vm_tuple_destructure_once/calls", n);
971 (n, n + 10i64)
972 }
973
974 pub fn run() {
975 root::add("local/vm_tuple_destructure_once/calls", 0i64);
976 let (a, b) = make_pair();
977 a * 100i64 + b * 10i64 + root::get("local/vm_tuple_destructure_once/calls")
978 }
979 "#
980 .to_vec(),
981 )?;
982
983 let compiled = vm.get_fn("vm_tuple_destructure_once::run", &[])?;
984 assert_eq!(compiled.ret_ty(), &Type::Any);
985 let run: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
986 let result = unsafe { &*run() };
987 assert_eq!(result.as_int(), Some(211));
988 Ok(())
989 }
990
991 #[test]
992 fn list_destructure_does_not_pop_rhs() -> anyhow::Result<()> {
993 let vm = Vm::with_all()?;
994 vm.import_code(
995 "vm_list_destructure_no_pop",
996 br#"
997 pub fn run() {
998 let values = [1i64, 2i64];
999 let [x, y] = values;
1000 x * 100i64 + y * 10i64 + values.len()
1001 }
1002 "#
1003 .to_vec(),
1004 )?;
1005
1006 let compiled = vm.get_fn("vm_list_destructure_no_pop::run", &[])?;
1007 assert_eq!(compiled.ret_ty(), &Type::Any);
1008 let run: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
1009 let result = unsafe { &*run() };
1010 assert_eq!(result.as_int(), Some(122));
1011 Ok(())
1012 }
1013
1014 #[test]
1015 fn tuple_and_list_patterns_reject_each_other() -> anyhow::Result<()> {
1016 let vm = Vm::with_all()?;
1017 let tuple_from_list = vm
1018 .import_code(
1019 "vm_tuple_pattern_rejects_list",
1020 br#"
1021 pub fn run() {
1022 let (x, y) = [1i64, 2i64];
1023 x + y
1024 }
1025 "#
1026 .to_vec(),
1027 )
1028 .expect_err("tuple pattern should reject list RHS");
1029 assert!(tuple_from_list.to_string().contains("元组模式"));
1030
1031 let list_from_tuple = vm
1032 .import_code(
1033 "vm_list_pattern_rejects_tuple",
1034 br#"
1035 pub fn run() {
1036 let [x, y] = (1i64, 2i64);
1037 x + y
1038 }
1039 "#
1040 .to_vec(),
1041 )
1042 .expect_err("list pattern should reject tuple RHS");
1043 assert!(list_from_tuple.to_string().contains("列表模式"));
1044
1045 let empty_list_from_unit = vm
1046 .import_code(
1047 "vm_empty_list_pattern_rejects_unit",
1048 br#"
1049 pub fn run() {
1050 let [] = ();
1051 1i64
1052 }
1053 "#
1054 .to_vec(),
1055 )
1056 .expect_err("list pattern should reject unit tuple RHS");
1057 assert!(empty_list_from_unit.to_string().contains("列表模式"));
1058 Ok(())
1059 }
1060
1061 #[test]
1062 fn negate_narrow_integers() -> anyhow::Result<()> {
1063 let vm = Vm::with_all()?;
1064 vm.import_code(
1065 "vm_neg_narrow",
1066 br#"
1067 pub fn neg_i8(a: i8) { -a }
1068 pub fn neg_i16(a: i16) { -a }
1069 "#
1070 .to_vec(),
1071 )?;
1072
1073 let neg_i8 = vm.get_fn("vm_neg_narrow::neg_i8", &[Type::I8])?;
1074 assert_eq!(neg_i8.ret_ty(), &Type::I8);
1075 let neg_i8: extern "C" fn(i8) -> i8 = unsafe { std::mem::transmute(neg_i8.ptr()) };
1076 assert_eq!(neg_i8(5), -5);
1077 assert_eq!(neg_i8(-7), 7);
1078
1079 let neg_i16 = vm.get_fn("vm_neg_narrow::neg_i16", &[Type::I16])?;
1080 assert_eq!(neg_i16.ret_ty(), &Type::I16);
1081 let neg_i16: extern "C" fn(i16) -> i16 = unsafe { std::mem::transmute(neg_i16.ptr()) };
1082 assert_eq!(neg_i16(5), -5);
1083 assert_eq!(neg_i16(-300), 300);
1084 Ok(())
1085 }
1086
1087 #[test]
1088 fn integer_divide_by_zero_does_not_crash() -> anyhow::Result<()> {
1089 let vm = Vm::with_all()?;
1090 vm.import_code(
1091 "vm_div_by_zero",
1092 br#"
1093 pub fn divz(a: i64, b: i64) { a / b }
1094 pub fn modz(a: i64, b: i64) { a % b }
1095 pub fn overflow(a: i64, b: i64) { a / b }
1096 "#
1097 .to_vec(),
1098 )?;
1099
1100 let divz = vm.get_fn("vm_div_by_zero::divz", &[Type::I64, Type::I64])?;
1101 let modz = vm.get_fn("vm_div_by_zero::modz", &[Type::I64, Type::I64])?;
1102 let overflow = vm.get_fn("vm_div_by_zero::overflow", &[Type::I64, Type::I64])?;
1103 let divz: extern "C" fn(i64, i64) -> i64 = unsafe { std::mem::transmute(divz.ptr()) };
1104 let modz: extern "C" fn(i64, i64) -> i64 = unsafe { std::mem::transmute(modz.ptr()) };
1105 let overflow: extern "C" fn(i64, i64) -> i64 = unsafe { std::mem::transmute(overflow.ptr()) };
1106
1107 let _ = dynamic::take_fault();
1109 assert_eq!(divz(7, 2), 3);
1110 assert_eq!(modz(7, 2), 1);
1111 assert!(dynamic::take_fault().is_none());
1112
1113 assert_eq!(divz(7, 0), 0);
1115 assert!(dynamic::take_fault().is_some());
1116 assert_eq!(modz(7, 0), 0);
1117 assert!(dynamic::take_fault().is_some());
1118
1119 assert_eq!(overflow(i64::MIN, -1), 0);
1121 assert!(dynamic::take_fault().is_some());
1122 Ok(())
1123 }
1124
1125 #[test]
1126 fn constant_divide_by_zero_does_not_crash() -> anyhow::Result<()> {
1127 let vm = Vm::with_all()?;
1128 vm.import_code(
1129 "vm_const_div_zero",
1130 br#"
1131 pub fn divz(a: i64) { a / 0 }
1132 pub fn modz(a: i64) { a % 0 }
1133 pub fn divc(a: i64) { a / 7 }
1134 "#
1135 .to_vec(),
1136 )?;
1137 let divz: extern "C" fn(i64) -> i64 = unsafe { std::mem::transmute(vm.get_fn("vm_const_div_zero::divz", &[Type::I64])?.ptr()) };
1138 let modz: extern "C" fn(i64) -> i64 = unsafe { std::mem::transmute(vm.get_fn("vm_const_div_zero::modz", &[Type::I64])?.ptr()) };
1139 let divc: extern "C" fn(i64) -> i64 = unsafe { std::mem::transmute(vm.get_fn("vm_const_div_zero::divc", &[Type::I64])?.ptr()) };
1140
1141 let _ = dynamic::take_fault();
1142 assert_eq!(divz(42), 0);
1144 assert!(dynamic::take_fault().is_some());
1145 assert_eq!(modz(42), 0);
1146 assert!(dynamic::take_fault().is_some());
1147 assert_eq!(divc(42), 6);
1149 assert!(dynamic::take_fault().is_none());
1150 Ok(())
1151 }
1152
1153 #[test]
1154 fn dynamic_divide_by_zero_returns_null() -> anyhow::Result<()> {
1155 let vm = Vm::with_all()?;
1156 vm.import_code(
1157 "vm_any_div_by_zero",
1158 br#"
1159 pub fn divz(a, b) { a / b }
1160 "#
1161 .to_vec(),
1162 )?;
1163
1164 let divz = vm.get_fn("vm_any_div_by_zero::divz", &[Type::Any, Type::Any])?;
1165 let divz: extern "C" fn(*const Dynamic, *const Dynamic) -> *const Dynamic = unsafe { std::mem::transmute(divz.ptr()) };
1166 let a = Dynamic::from(7i64);
1167 let zero = Dynamic::from(0i64);
1168 let _ = dynamic::take_fault();
1169 let result = unsafe { &*divz(&a, &zero) };
1170 assert!(result.is_null());
1171 assert!(dynamic::take_fault().is_some());
1172 Ok(())
1173 }
1174
1175 #[test]
1176 fn compares_any_with_string_literal_as_string() -> anyhow::Result<()> {
1177 let vm = Vm::with_all()?;
1178 vm.import_code(
1179 "vm_string_compare_any",
1180 br#"
1181 pub fn any_ne_empty(chat_path) {
1182 chat_path != ""
1183 }
1184 "#
1185 .to_vec(),
1186 )?;
1187
1188 let compiled = vm.get_fn("vm_string_compare_any::any_ne_empty", &[Type::Any])?;
1189 assert_eq!(compiled.ret_ty(), &Type::Bool);
1190
1191 let any_ne_empty: extern "C" fn(*const Dynamic) -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
1192 let empty = Dynamic::from("");
1193 let non_empty = Dynamic::from("chat");
1194
1195 assert!(!any_ne_empty(&empty));
1196 assert!(any_ne_empty(&non_empty));
1197 Ok(())
1198 }
1199
1200 #[test]
1201 fn compares_bool_values_and_bool_literals() -> anyhow::Result<()> {
1202 let vm = Vm::with_all()?;
1203 vm.import_code(
1204 "vm_bool_compare",
1205 br#"
1206 pub fn eq_true(value: bool) {
1207 value == true
1208 }
1209
1210 pub fn ne_false(value: bool) {
1211 value != false
1212 }
1213
1214 pub fn literal_left(value: bool) {
1215 true == value
1216 }
1217
1218 pub fn eq_pair(left: bool, right: bool) {
1219 left == right
1220 }
1221
1222 pub fn logic_pair(left: bool, right: bool) {
1223 (left && right) || (left == true && right != false)
1224 }
1225 "#
1226 .to_vec(),
1227 )?;
1228
1229 let compiled = vm.get_fn("vm_bool_compare::eq_true", &[Type::Bool])?;
1230 assert_eq!(compiled.ret_ty(), &Type::Bool);
1231 let eq_true: extern "C" fn(bool) -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
1232 assert!(eq_true(true));
1233 assert!(!eq_true(false));
1234
1235 let compiled = vm.get_fn("vm_bool_compare::ne_false", &[Type::Bool])?;
1236 assert_eq!(compiled.ret_ty(), &Type::Bool);
1237 let ne_false: extern "C" fn(bool) -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
1238 assert!(ne_false(true));
1239 assert!(!ne_false(false));
1240
1241 let compiled = vm.get_fn("vm_bool_compare::literal_left", &[Type::Bool])?;
1242 assert_eq!(compiled.ret_ty(), &Type::Bool);
1243 let literal_left: extern "C" fn(bool) -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
1244 assert!(literal_left(true));
1245 assert!(!literal_left(false));
1246
1247 let compiled = vm.get_fn("vm_bool_compare::eq_pair", &[Type::Bool, Type::Bool])?;
1248 assert_eq!(compiled.ret_ty(), &Type::Bool);
1249 let eq_pair: extern "C" fn(bool, bool) -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
1250 assert!(eq_pair(true, true));
1251 assert!(eq_pair(false, false));
1252 assert!(!eq_pair(true, false));
1253 assert!(!eq_pair(false, true));
1254
1255 let compiled = vm.get_fn("vm_bool_compare::logic_pair", &[Type::Bool, Type::Bool])?;
1256 assert_eq!(compiled.ret_ty(), &Type::Bool);
1257 let logic_pair: extern "C" fn(bool, bool) -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
1258 assert!(logic_pair(true, true));
1259 assert!(!logic_pair(true, false));
1260 assert!(!logic_pair(false, true));
1261 assert!(!logic_pair(false, false));
1262 Ok(())
1263 }
1264
1265 #[test]
1266 fn parenthesized_expression_can_call_any_method() -> anyhow::Result<()> {
1267 let vm = Vm::with_all()?;
1268 vm.import_code(
1269 "vm_parenthesized_method_call",
1270 br#"
1271 pub fn run(value) {
1272 (value + 2).to_i64()
1273 }
1274 "#
1275 .to_vec(),
1276 )?;
1277
1278 let compiled = vm.get_fn("vm_parenthesized_method_call::run", &[Type::Any])?;
1279 assert_eq!(compiled.ret_ty(), &Type::I64);
1280 let run: extern "C" fn(*const Dynamic) -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
1281 let value = Dynamic::from(40i64);
1282
1283 assert_eq!(run(&value), 42);
1284 Ok(())
1285 }
1286
1287 #[test]
1288 fn casts_any_float_to_i32_without_zeroing() -> anyhow::Result<()> {
1289 let vm = Vm::with_all()?;
1290 vm.import_code(
1291 "vm_any_float_to_i32",
1292 br#"
1293 pub fn direct(value) {
1294 value as i32
1295 }
1296
1297 pub fn map_field(value) {
1298 let field = value.v;
1299 field as i32
1300 }
1301
1302 pub fn damage(attacker, def_rate) {
1303 let x = attacker.atk * (1.0 - def_rate);
1304 x as i32
1305 }
1306 "#
1307 .to_vec(),
1308 )?;
1309
1310 let compiled = vm.get_fn("vm_any_float_to_i32::direct", &[Type::Any])?;
1311 assert_eq!(compiled.ret_ty(), &Type::I32);
1312 let direct: extern "C" fn(*const Dynamic) -> i32 = unsafe { std::mem::transmute(compiled.ptr()) };
1313 let value = Dynamic::from(9.5f64);
1314 assert_eq!(direct(&value), 9);
1315
1316 let compiled = vm.get_fn("vm_any_float_to_i32::map_field", &[Type::Any])?;
1317 assert_eq!(compiled.ret_ty(), &Type::I32);
1318 let map_field: extern "C" fn(*const Dynamic) -> i32 = unsafe { std::mem::transmute(compiled.ptr()) };
1319 let value = dynamic::map!("v"=> 9.5f64);
1320 assert_eq!(map_field(&value), 9);
1321
1322 let compiled = vm.get_fn("vm_any_float_to_i32::damage", &[Type::Any, Type::Any])?;
1323 assert_eq!(compiled.ret_ty(), &Type::I32);
1324 let damage: extern "C" fn(*const Dynamic, *const Dynamic) -> i32 = unsafe { std::mem::transmute(compiled.ptr()) };
1325 let attacker = dynamic::map!("atk"=> 64i64);
1326 let def_rate = Dynamic::from(0.17f64);
1327 assert_eq!(damage(&attacker, &def_rate), 53);
1328 Ok(())
1329 }
1330
1331 #[test]
1332 fn binary_imm_promotes_integer_literals_for_float_left_values() -> anyhow::Result<()> {
1333 let vm = Vm::with_all()?;
1334 vm.import_code(
1335 "vm_float_binary_imm",
1336 br#"
1337 pub fn add_f32(value: f32) {
1338 value + 1i32
1339 }
1340
1341 pub fn sub_f32(value: f32) {
1342 value - 1i32
1343 }
1344
1345 pub fn mul_f32(value: f32) {
1346 value * 2i32
1347 }
1348
1349 pub fn div_f32(value: f32) {
1350 value / 2i32
1351 }
1352
1353 pub fn gt_f32(value: f32) {
1354 value > 2i32
1355 }
1356 "#
1357 .to_vec(),
1358 )?;
1359
1360 let compiled = vm.get_fn("vm_float_binary_imm::add_f32", &[Type::F32])?;
1361 assert_eq!(compiled.ret_ty(), &Type::F32);
1362 let add_f32: extern "C" fn(f32) -> f32 = unsafe { std::mem::transmute(compiled.ptr()) };
1363 assert_eq!(add_f32(2.5), 3.5);
1364
1365 let compiled = vm.get_fn("vm_float_binary_imm::sub_f32", &[Type::F32])?;
1366 assert_eq!(compiled.ret_ty(), &Type::F32);
1367 let sub_f32: extern "C" fn(f32) -> f32 = unsafe { std::mem::transmute(compiled.ptr()) };
1368 assert_eq!(sub_f32(2.5), 1.5);
1369
1370 let compiled = vm.get_fn("vm_float_binary_imm::mul_f32", &[Type::F32])?;
1371 assert_eq!(compiled.ret_ty(), &Type::F32);
1372 let mul_f32: extern "C" fn(f32) -> f32 = unsafe { std::mem::transmute(compiled.ptr()) };
1373 assert_eq!(mul_f32(2.5), 5.0);
1374
1375 let compiled = vm.get_fn("vm_float_binary_imm::div_f32", &[Type::F32])?;
1376 assert_eq!(compiled.ret_ty(), &Type::F32);
1377 let div_f32: extern "C" fn(f32) -> f32 = unsafe { std::mem::transmute(compiled.ptr()) };
1378 assert_eq!(div_f32(5.0), 2.5);
1379
1380 let compiled = vm.get_fn("vm_float_binary_imm::gt_f32", &[Type::F32])?;
1381 assert_eq!(compiled.ret_ty(), &Type::Bool);
1382 let gt_f32: extern "C" fn(f32) -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
1383 assert!(gt_f32(2.5));
1384 assert!(!gt_f32(1.5));
1385 Ok(())
1386 }
1387
1388 #[test]
1389 fn any_keys_returns_map_keys_and_empty_list_for_other_values() -> anyhow::Result<()> {
1390 let vm = Vm::with_all()?;
1391 vm.import_code(
1392 "vm_any_keys",
1393 br#"
1394 pub fn map_keys(value) {
1395 let keys = value.keys();
1396 keys.len() == 2 && keys.contains("alpha") && keys.contains("beta")
1397 }
1398
1399 pub fn non_map_keys(value) {
1400 value.keys().len() == 0
1401 }
1402 "#
1403 .to_vec(),
1404 )?;
1405
1406 let compiled = vm.get_fn("vm_any_keys::map_keys", &[Type::Any])?;
1407 assert_eq!(compiled.ret_ty(), &Type::Bool);
1408 let map_keys: extern "C" fn(*const Dynamic) -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
1409 let value = dynamic::map!("alpha"=> 1i64, "beta"=> 2i64);
1410 assert!(map_keys(&value));
1411
1412 let compiled = vm.get_fn("vm_any_keys::non_map_keys", &[Type::Any])?;
1413 assert_eq!(compiled.ret_ty(), &Type::Bool);
1414 let non_map_keys: extern "C" fn(*const Dynamic) -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
1415 let value = Dynamic::from("alpha");
1416 assert!(non_map_keys(&value));
1417 Ok(())
1418 }
1419
1420 #[test]
1421 fn const_list_contains_uses_any_list_method() -> anyhow::Result<()> {
1422 let vm = Vm::with_all()?;
1423 vm.import_code(
1424 "vm_const_list_contains",
1425 br#"
1426 const IMAGE_EXTS = ["png", "jpg", "webp"];
1427
1428 pub fn is_supported(ext: string) {
1429 IMAGE_EXTS.contains(ext)
1430 }
1431 "#
1432 .to_vec(),
1433 )?;
1434
1435 let compiled = vm.get_fn("vm_const_list_contains::is_supported", &[Type::Str])?;
1436 assert_eq!(compiled.ret_ty(), &Type::Bool);
1437 let is_supported: extern "C" fn(*const Dynamic) -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
1438 assert!(is_supported(&Dynamic::from("png")));
1439 assert!(is_supported(&Dynamic::from("webp")));
1440 assert!(!is_supported(&Dynamic::from("gif")));
1441 Ok(())
1442 }
1443
1444 #[test]
1445 fn any_logic_comparisons_use_bool_abi() -> anyhow::Result<()> {
1446 let vm = Vm::with_all()?;
1447 vm.import_code(
1448 "vm_any_logic_abi",
1449 br#"
1450 pub fn ne_empty(value) {
1451 value != ""
1452 }
1453
1454 pub fn eq_empty(value) {
1455 value == ""
1456 }
1457
1458 pub fn less_than_ten(value) {
1459 value < 10
1460 }
1461
1462 pub fn contains_key(value) {
1463 value.contains("alpha") == true
1464 }
1465 "#
1466 .to_vec(),
1467 )?;
1468
1469 let compiled = vm.get_fn("vm_any_logic_abi::ne_empty", &[Type::Any])?;
1470 assert_eq!(compiled.ret_ty(), &Type::Bool);
1471 let ne_empty: extern "C" fn(*const Dynamic) -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
1472 assert!(ne_empty(&Dynamic::from("x")));
1473 assert!(!ne_empty(&Dynamic::from("")));
1474
1475 let compiled = vm.get_fn("vm_any_logic_abi::eq_empty", &[Type::Any])?;
1476 assert_eq!(compiled.ret_ty(), &Type::Bool);
1477 let eq_empty: extern "C" fn(*const Dynamic) -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
1478 assert!(eq_empty(&Dynamic::from("")));
1479 assert!(!eq_empty(&Dynamic::from("x")));
1480
1481 let compiled = vm.get_fn("vm_any_logic_abi::less_than_ten", &[Type::Any])?;
1482 assert_eq!(compiled.ret_ty(), &Type::Bool);
1483 let less_than_ten: extern "C" fn(*const Dynamic) -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
1484 assert!(less_than_ten(&Dynamic::from(4i64)));
1485 assert!(!less_than_ten(&Dynamic::from(14i64)));
1486
1487 let compiled = vm.get_fn("vm_any_logic_abi::contains_key", &[Type::Any])?;
1488 assert_eq!(compiled.ret_ty(), &Type::Bool);
1489 let contains_key: extern "C" fn(*const Dynamic) -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
1490 assert!(contains_key(&dynamic::map!("alpha"=> 1i64)));
1491 assert!(!contains_key(&dynamic::map!("beta"=> 1i64)));
1492 Ok(())
1493 }
1494
1495 #[test]
1496 fn string_methods_work_on_static_string_and_any_string_values() -> anyhow::Result<()> {
1497 let vm = Vm::with_all()?;
1498 vm.import_code(
1499 "vm_string_methods",
1500 br#"
1501 pub fn static_string_methods(text: string) {
1502 let parts = text.split(",");
1503 text.starts_with("alpha")
1504 && text.is_string()
1505 && !text.is_null()
1506 && parts.len() == 2
1507 && parts.get_idx(0) == "alpha"
1508 && parts.get_idx(1) == "beta"
1509 }
1510
1511 pub fn any_string_methods(value) {
1512 let parts = value.split(",");
1513 value.starts_with("alpha")
1514 && value.is_string()
1515 && !value.is_null()
1516 && parts.len() == 2
1517 && parts.get_idx(0) == "alpha"
1518 && parts.get_idx(1) == "beta"
1519 }
1520
1521 pub fn any_null_methods(value) {
1522 value.is_null() && !value.is_string()
1523 }
1524 "#
1525 .to_vec(),
1526 )?;
1527
1528 let compiled = vm.get_fn("vm_string_methods::static_string_methods", &[Type::Str])?;
1529 assert_eq!(compiled.ret_ty(), &Type::Bool);
1530 let static_string_methods: extern "C" fn(*const Dynamic) -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
1531 let text = Dynamic::from("alpha,beta");
1532 assert!(static_string_methods(&text));
1533
1534 let compiled = vm.get_fn("vm_string_methods::any_string_methods", &[Type::Any])?;
1535 assert_eq!(compiled.ret_ty(), &Type::Bool);
1536 let any_string_methods: extern "C" fn(*const Dynamic) -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
1537 assert!(any_string_methods(&text));
1538
1539 let compiled = vm.get_fn("vm_string_methods::any_null_methods", &[Type::Any])?;
1540 assert_eq!(compiled.ret_ty(), &Type::Bool);
1541 let any_null_methods: extern "C" fn(*const Dynamic) -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
1542 let value = Dynamic::Null;
1543 assert!(any_null_methods(&value));
1544 Ok(())
1545 }
1546
1547 #[test]
1548 fn static_string_add_uses_direct_strcat() -> anyhow::Result<()> {
1549 let vm = Vm::with_all()?;
1550 vm.import_code(
1551 "vm_static_strcat",
1552 br#"
1553 pub fn join(left: string, right: string) {
1554 left + right
1555 }
1556
1557 pub fn suffix(left: string) {
1558 left + "-tail"
1559 }
1560
1561 pub fn append_local() {
1562 let text: string = "alpha";
1563 text += "-beta";
1564 text += "-tail";
1565 text
1566 }
1567
1568 pub fn append_local_assign() {
1569 let text: string = "alpha";
1570 text = text + "-beta";
1571 text = text + "-tail";
1572 text
1573 }
1574
1575 pub fn append_arg(text: string) {
1576 text += "-tail";
1577 text
1578 }
1579
1580 pub fn append_arg_assign(text: string) {
1581 text = text + "-tail";
1582 text
1583 }
1584
1585 pub fn append_any(value) {
1586 value += "-tail";
1587 value
1588 }
1589
1590 pub fn add_sub_assign_form() {
1591 let x = 10i64;
1592 x = x + 1i64;
1593 x = x - 2i64;
1594 x
1595 }
1596 "#
1597 .to_vec(),
1598 )?;
1599
1600 let compiled = vm.get_fn("vm_static_strcat::join", &[Type::Str, Type::Str])?;
1601 assert_eq!(compiled.ret_ty(), &Type::Str);
1602 let join: extern "C" fn(*const Dynamic, *const Dynamic) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
1603 let left = Dynamic::from("alpha");
1604 let right = Dynamic::from("-beta");
1605 let result = unsafe { &*join(&left, &right) };
1606 assert!(matches!(result, Dynamic::StringBuf(_)));
1607 assert_eq!(result.as_str(), "alpha-beta");
1608
1609 let compiled = vm.get_fn("vm_static_strcat::suffix", &[Type::Str])?;
1610 assert_eq!(compiled.ret_ty(), &Type::Str);
1611 let suffix: extern "C" fn(*const Dynamic) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
1612 let result = unsafe { &*suffix(&left) };
1613 assert!(matches!(result, Dynamic::StringBuf(_)));
1614 assert_eq!(result.as_str(), "alpha-tail");
1615
1616 let compiled = vm.get_fn("vm_static_strcat::append_local", &[])?;
1617 assert_eq!(compiled.ret_ty(), &Type::Str);
1618 let append_local: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
1619 let result = unsafe { &*append_local() };
1620 assert!(matches!(result, Dynamic::StringBuf(_)));
1621 assert_eq!(result.as_str(), "alpha-beta-tail");
1622
1623 let compiled = vm.get_fn("vm_static_strcat::append_local_assign", &[])?;
1624 assert_eq!(compiled.ret_ty(), &Type::Str);
1625 let append_local_assign: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
1626 let result = unsafe { &*append_local_assign() };
1627 assert!(matches!(result, Dynamic::StringBuf(_)));
1628 assert_eq!(result.as_str(), "alpha-beta-tail");
1629
1630 let compiled = vm.get_fn("vm_static_strcat::append_arg", &[Type::Str])?;
1631 assert_eq!(compiled.ret_ty(), &Type::Str);
1632 let append_arg: extern "C" fn(*const Dynamic) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
1633 let input = Dynamic::from("alpha");
1634 let result = unsafe { &*append_arg(&input) };
1635 assert_eq!(result.as_str(), "alpha-tail");
1636 assert_eq!(input.as_str(), "alpha");
1637
1638 let compiled = vm.get_fn("vm_static_strcat::append_arg_assign", &[Type::Str])?;
1639 assert_eq!(compiled.ret_ty(), &Type::Str);
1640 let append_arg_assign: extern "C" fn(*const Dynamic) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
1641 let input = Dynamic::from("alpha");
1642 let result = unsafe { &*append_arg_assign(&input) };
1643 assert_eq!(result.as_str(), "alpha-tail");
1644 assert_eq!(input.as_str(), "alpha");
1645
1646 let compiled = vm.get_fn("vm_static_strcat::append_any", &[Type::Any])?;
1647 assert_eq!(compiled.ret_ty(), &Type::Str);
1648 let append_any: extern "C" fn(*const Dynamic) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
1649 let input = Dynamic::from("alpha");
1650 let result = unsafe { &*append_any(&input) };
1651 assert_eq!(result.as_str(), "alpha-tail");
1652 assert_eq!(input.as_str(), "alpha");
1653
1654 let compiled = vm.get_fn("vm_static_strcat::add_sub_assign_form", &[])?;
1655 assert_eq!(compiled.ret_ty(), &Type::I64);
1656 let add_sub_assign_form: extern "C" fn() -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
1657 assert_eq!(add_sub_assign_form(), 9);
1658 Ok(())
1659 }
1660
1661 #[test]
1662 fn primitive_type_check_methods_call_any_runtime() -> anyhow::Result<()> {
1663 let vm = Vm::with_all()?;
1664 vm.import_code(
1665 "vm_primitive_type_check_methods",
1666 br#"
1667 pub fn int_checks() {
1668 !42i64.is_list()
1669 && !42i64.is_map()
1670 && !42i64.is_string()
1671 && !42i64.is_null()
1672 }
1673
1674 pub fn bool_checks() {
1675 !true.is_list() && !true.is_map() && !true.is_null()
1676 }
1677 "#
1678 .to_vec(),
1679 )?;
1680
1681 let compiled = vm.get_fn("vm_primitive_type_check_methods::int_checks", &[])?;
1682 assert_eq!(compiled.ret_ty(), &Type::Bool);
1683 let int_checks: extern "C" fn() -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
1684 assert!(int_checks());
1685
1686 let compiled = vm.get_fn("vm_primitive_type_check_methods::bool_checks", &[])?;
1687 assert_eq!(compiled.ret_ty(), &Type::Bool);
1688 let bool_checks: extern "C" fn() -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
1689 assert!(bool_checks());
1690 Ok(())
1691 }
1692
1693 #[test]
1694 fn for_loop_iterates_any_list_and_map_values() -> anyhow::Result<()> {
1695 let vm = Vm::with_all()?;
1696 vm.import_code(
1697 "vm_for_any_collections",
1698 br#"
1699 pub fn list_sum(items) {
1700 let total = 0i64;
1701 for item in items {
1702 total += item;
1703 }
1704 total
1705 }
1706
1707 pub fn map_sum(data) {
1708 let total = 0i64;
1709 for (key, value) in data {
1710 total += value;
1711 }
1712 total
1713 }
1714 "#
1715 .to_vec(),
1716 )?;
1717
1718 let compiled = vm.get_fn("vm_for_any_collections::list_sum", &[Type::Any])?;
1719 assert_eq!(compiled.ret_ty(), &Type::I64);
1720 let list_sum: extern "C" fn(*const Dynamic) -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
1721 let items = Dynamic::list(vec![1i64.into(), 2i64.into(), 3i64.into()]);
1722 assert_eq!(list_sum(&items), 6);
1723
1724 let compiled = vm.get_fn("vm_for_any_collections::map_sum", &[Type::Any])?;
1725 assert_eq!(compiled.ret_ty(), &Type::I64);
1726 let map_sum: extern "C" fn(*const Dynamic) -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
1727 let data = dynamic::map!("a"=> 4i64, "b"=> 5i64);
1728 assert_eq!(map_sum(&data), 9);
1729 Ok(())
1730 }
1731
1732 #[test]
1733 fn compares_concrete_value_with_string_literal_as_string() -> anyhow::Result<()> {
1734 let vm = Vm::with_all()?;
1735 vm.import_code(
1736 "vm_string_compare_imm",
1737 br#"
1738 pub fn int_eq_str(value: i64) {
1739 value == "42"
1740 }
1741
1742 pub fn int_to_str(value: i64) {
1743 value + ""
1744 }
1745 "#
1746 .to_vec(),
1747 )?;
1748
1749 let compiled = vm.get_fn("vm_string_compare_imm::int_eq_str", &[Type::I64])?;
1750 assert_eq!(compiled.ret_ty(), &Type::Bool);
1751
1752 let int_eq_str: extern "C" fn(i64) -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
1753
1754 let compiled = vm.get_fn("vm_string_compare_imm::int_to_str", &[Type::I64])?;
1755 assert_eq!(compiled.ret_ty(), &Type::Str);
1756 let int_to_str: extern "C" fn(i64) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
1757 let text = int_to_str(42);
1758 assert_eq!(unsafe { &*text }.as_str(), "42");
1759
1760 assert!(int_eq_str(42));
1761 assert!(!int_eq_str(7));
1762 Ok(())
1763 }
1764
1765 #[test]
1766 fn concatenates_string_with_integer_values() -> anyhow::Result<()> {
1767 let vm = Vm::with_all()?;
1768 vm.import_code(
1769 "vm_string_concat_integer",
1770 br#"
1771 pub fn idx_key(idx: i64) {
1772 "" + idx
1773 }
1774
1775 pub fn level_text(level: i64) {
1776 "" + level + " level"
1777 }
1778
1779 pub fn gold_text(currency) {
1780 "" + currency.gold
1781 }
1782 "#
1783 .to_vec(),
1784 )?;
1785
1786 let compiled = vm.get_fn("vm_string_concat_integer::idx_key", &[Type::I64])?;
1787 let idx_key: extern "C" fn(i64) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
1788 let result = unsafe { &*idx_key(7) };
1789 assert!(matches!(result, Dynamic::StringBuf(_)));
1790 assert_eq!(result.as_str(), "7");
1791
1792 let compiled = vm.get_fn("vm_string_concat_integer::level_text", &[Type::I64])?;
1793 let level_text: extern "C" fn(i64) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
1794 let result = unsafe { &*level_text(12) };
1795 assert_eq!(result.as_str(), "12 level");
1796
1797 let compiled = vm.get_fn("vm_string_concat_integer::gold_text", &[Type::Any])?;
1798 let gold_text: extern "C" fn(*const Dynamic) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
1799 let currency = dynamic::map!("gold"=> 345i64);
1800 let result = unsafe { &*gold_text(¤cy) };
1801 assert_eq!(result.as_str(), "345");
1802 Ok(())
1803 }
1804
1805 #[test]
1806 fn coerces_string_concat_to_i64_without_unimplemented_log() -> anyhow::Result<()> {
1807 let vm = Vm::with_all()?;
1808 vm.import_code(
1809 "vm_string_concat_to_i64",
1810 br#"
1811 pub fn run(idx: i64) {
1812 ("" + idx) as i64
1813 }
1814 "#
1815 .to_vec(),
1816 )?;
1817
1818 let compiled = vm.get_fn("vm_string_concat_to_i64::run", &[Type::I64])?;
1819 assert_eq!(compiled.ret_ty(), &Type::I64);
1820 let run: extern "C" fn(i64) -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
1821 assert_eq!(run(7), 7);
1822 Ok(())
1823 }
1824
1825 #[test]
1826 fn casts_dynamic_string_numbers_to_ints_and_floats() -> anyhow::Result<()> {
1827 let vm = Vm::with_all()?;
1828 vm.import_code(
1829 "vm_string_number_casts",
1830 br#"
1831 pub fn limit_i64(req) {
1832 req["@query"].limit as i64
1833 }
1834
1835 pub fn limit_i32(req) {
1836 req["@query"].limit as i32
1837 }
1838
1839 pub fn price_f64(req) {
1840 req["@query"].price as f64
1841 }
1842
1843 pub fn price_f32(req) {
1844 req["@query"].price as f32
1845 }
1846
1847 pub fn literal_i64() {
1848 "42" as i64
1849 }
1850
1851 pub fn literal_f64() {
1852 "3.5" as f64
1853 }
1854
1855 pub fn bad_number(req) {
1856 req["@query"].bad as i64
1857 }
1858 "#
1859 .to_vec(),
1860 )?;
1861
1862 let req = dynamic::map!("@query"=> dynamic::map!("limit"=> "50", "price"=> "3.5", "bad"=> "nope"));
1863
1864 let limit_i64 = vm.get_fn("vm_string_number_casts::limit_i64", &[Type::Any])?;
1865 assert_eq!(limit_i64.ret_ty(), &Type::I64);
1866 let limit_i64: extern "C" fn(*const Dynamic) -> i64 = unsafe { std::mem::transmute(limit_i64.ptr()) };
1867 assert_eq!(limit_i64(&req), 50);
1868
1869 let limit_i32 = vm.get_fn("vm_string_number_casts::limit_i32", &[Type::Any])?;
1870 assert_eq!(limit_i32.ret_ty(), &Type::I32);
1871 let limit_i32: extern "C" fn(*const Dynamic) -> i32 = unsafe { std::mem::transmute(limit_i32.ptr()) };
1872 assert_eq!(limit_i32(&req), 50);
1873
1874 let price_f64 = vm.get_fn("vm_string_number_casts::price_f64", &[Type::Any])?;
1875 assert_eq!(price_f64.ret_ty(), &Type::F64);
1876 let price_f64: extern "C" fn(*const Dynamic) -> f64 = unsafe { std::mem::transmute(price_f64.ptr()) };
1877 assert_eq!(price_f64(&req), 3.5);
1878
1879 let price_f32 = vm.get_fn("vm_string_number_casts::price_f32", &[Type::Any])?;
1880 assert_eq!(price_f32.ret_ty(), &Type::F32);
1881 let price_f32: extern "C" fn(*const Dynamic) -> f32 = unsafe { std::mem::transmute(price_f32.ptr()) };
1882 assert_eq!(price_f32(&req), 3.5);
1883
1884 let literal_i64 = vm.get_fn("vm_string_number_casts::literal_i64", &[])?;
1885 assert_eq!(literal_i64.ret_ty(), &Type::I64);
1886 let literal_i64: extern "C" fn() -> i64 = unsafe { std::mem::transmute(literal_i64.ptr()) };
1887 assert_eq!(literal_i64(), 42);
1888
1889 let literal_f64 = vm.get_fn("vm_string_number_casts::literal_f64", &[])?;
1890 assert_eq!(literal_f64.ret_ty(), &Type::F64);
1891 let literal_f64: extern "C" fn() -> f64 = unsafe { std::mem::transmute(literal_f64.ptr()) };
1892 assert_eq!(literal_f64(), 3.5);
1893
1894 let bad_number = vm.get_fn("vm_string_number_casts::bad_number", &[Type::Any])?;
1895 assert_eq!(bad_number.ret_ty(), &Type::I64);
1896 let bad_number: extern "C" fn(*const Dynamic) -> i64 = unsafe { std::mem::transmute(bad_number.ptr()) };
1897 assert_eq!(bad_number(&req), 0);
1898 Ok(())
1899 }
1900
1901 #[test]
1902 fn unifies_explicit_return_and_tail_integer_widths() -> anyhow::Result<()> {
1903 let vm = Vm::with_all()?;
1904 vm.import_code(
1905 "vm_return_integer_widths",
1906 br#"
1907 pub fn selected(flag, slot) {
1908 if flag {
1909 return slot;
1910 }
1911 0
1912 }
1913 "#
1914 .to_vec(),
1915 )?;
1916
1917 let compiled = vm.get_fn("vm_return_integer_widths::selected", &[Type::Bool, Type::I64])?;
1918 assert_eq!(compiled.ret_ty(), &Type::I64);
1919 let selected: extern "C" fn(bool, i64) -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
1920
1921 assert_eq!(selected(true, 7), 7);
1922 assert_eq!(selected(false, 7), 0);
1923 Ok(())
1924 }
1925
1926 #[test]
1927 fn root_contains_string_concat_is_bool_condition() -> anyhow::Result<()> {
1928 let vm = Vm::with_all()?;
1929 vm.import_code(
1930 "vm_root_contains_condition",
1931 br#"
1932 pub fn exists(user_id) {
1933 if root::contains("redis/user/" + user_id) {
1934 return 1;
1935 }
1936 0
1937 }
1938 "#
1939 .to_vec(),
1940 )?;
1941
1942 assert_eq!(vm.infer("root::contains", &[Type::Any])?, Type::Bool);
1943 let compiled = vm.get_fn("vm_root_contains_condition::exists", &[Type::Any])?;
1944 assert_eq!(compiled.ret_ty(), &Type::I64);
1945 Ok(())
1946 }
1947
1948 #[test]
1949 fn root_add_map_can_be_printed() -> anyhow::Result<()> {
1950 let vm = Vm::with_all()?;
1951 assert_eq!(vm.infer("root::add_map", &[Type::Any])?, Type::Bool);
1952 vm.import_code(
1953 "vm_root_add_map_print",
1954 br#"
1955 pub fn run() {
1956 print(root::add_map("local/world_handlers/til_map_novicevillage"));
1957 }
1958 "#
1959 .to_vec(),
1960 )?;
1961
1962 let compiled = vm.get_fn("vm_root_add_map_print::run", &[])?;
1963 assert!(compiled.ret_ty().is_void());
1964 Ok(())
1965 }
1966
1967 #[test]
1968 fn root_keys_returns_map_key_list() -> anyhow::Result<()> {
1969 let vm = Vm::with_all()?;
1970 assert_eq!(vm.infer("root::keys", &[Type::Any])?, Type::Any);
1971 vm.import_code(
1972 "vm_root_keys",
1973 br#"
1974 pub fn run() {
1975 root::add_map("local/test/vm_root_keys");
1976 root::insert("local/test/vm_root_keys", "0", "zero");
1977 root::insert("local/test/vm_root_keys", "1", "one");
1978 root::keys("local/test/vm_root_keys").len()
1979 }
1980 "#
1981 .to_vec(),
1982 )?;
1983
1984 let compiled = vm.get_fn("vm_root_keys::run", &[])?;
1985 assert_eq!(compiled.ret_ty(), &Type::I32);
1986 let run: extern "C" fn() -> i32 = unsafe { std::mem::transmute(compiled.ptr()) };
1987 assert_eq!(run(), 2);
1988 Ok(())
1989 }
1990
1991 #[test]
1992 fn std_log_accepts_any_and_returns_void() -> anyhow::Result<()> {
1993 let vm = Vm::with_all()?;
1994 vm.import_code(
1995 "vm_std_log",
1996 br#"
1997 pub fn run(value) {
1998 log({ ok: true, value: value });
1999 }
2000 "#
2001 .to_vec(),
2002 )?;
2003
2004 let compiled = vm.get_fn("vm_std_log::run", &[Type::Any])?;
2005 assert!(compiled.ret_ty().is_void());
2006 let run: extern "C" fn(*const Dynamic) = unsafe { std::mem::transmute(compiled.ptr()) };
2007 let value = Dynamic::from(7i64);
2008 run(&value);
2009 Ok(())
2010 }
2011
2012 #[test]
2013 fn unary_not_any_loop_var_is_bool_condition() -> anyhow::Result<()> {
2014 let vm = Vm::with_all()?;
2015 vm.import_code(
2016 "vm_unary_not_any_loop_var",
2017 br#"
2018 pub fn count_missing(flags) {
2019 let missing = 0;
2020 for exists in flags {
2021 if !exists {
2022 missing = missing + 1;
2023 }
2024 }
2025 missing
2026 }
2027 "#
2028 .to_vec(),
2029 )?;
2030
2031 let compiled = vm.get_fn("vm_unary_not_any_loop_var::count_missing", &[Type::Any])?;
2032 assert_eq!(compiled.ret_ty(), &Type::I64);
2033 Ok(())
2034 }
2035
2036 #[test]
2037 fn closure_literal_can_be_called_immediately() -> anyhow::Result<()> {
2038 let vm = Vm::with_all()?;
2039 vm.import_code(
2040 "vm_closure_immediate_call",
2041 br#"
2042 pub fn no_args() {
2043 let r = || { 1i32 }();
2044 r
2045 }
2046
2047 pub fn with_arg() {
2048 |value: i32| { value + 1i32 }(2i32)
2049 }
2050 "#
2051 .to_vec(),
2052 )?;
2053
2054 let compiled = vm.get_fn("vm_closure_immediate_call::no_args", &[])?;
2055 assert_eq!(compiled.ret_ty(), &Type::I32);
2056 let no_args: extern "C" fn() -> i32 = unsafe { std::mem::transmute(compiled.ptr()) };
2057 assert_eq!(no_args(), 1);
2058
2059 let compiled = vm.get_fn("vm_closure_immediate_call::with_arg", &[])?;
2060 assert_eq!(compiled.ret_ty(), &Type::I32);
2061 let with_arg: extern "C" fn() -> i32 = unsafe { std::mem::transmute(compiled.ptr()) };
2062 assert_eq!(with_arg(), 3);
2063 Ok(())
2064 }
2065
2066 #[test]
2067 fn small_expression_calls_keep_direct_semantics() -> anyhow::Result<()> {
2068 let vm = Vm::with_all()?;
2069 vm.import_code(
2070 "vm_small_expression_inline",
2071 br#"
2072 pub fn add_i64(left: i64, right: i64) {
2073 left + right
2074 }
2075
2076 pub fn normal_caller() {
2077 add_i64(1i64, 2i64)
2078 }
2079
2080 pub fn closure_caller() {
2081 let add = |left: i64, right: i64| { left + right };
2082 add(add_i64(1i64, 2i64), 4i64)
2083 }
2084
2085 pub fn closure_assignment() {
2086 let acc = 0i64;
2087 let add = |left: i64, right: i64| { left + right };
2088 acc = add(acc, 4i64);
2089 acc
2090 }
2091 "#
2092 .to_vec(),
2093 )?;
2094
2095 let compiled = vm.get_fn("vm_small_expression_inline::normal_caller", &[])?;
2096 assert_eq!(compiled.ret_ty(), &Type::I64);
2097 let normal_caller: extern "C" fn() -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
2098 assert_eq!(normal_caller(), 3);
2099
2100 let compiled = vm.get_fn("vm_small_expression_inline::closure_caller", &[])?;
2101 assert_eq!(compiled.ret_ty(), &Type::Any);
2102 let closure_caller: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
2103 let result = unsafe { &*closure_caller() };
2104 assert_eq!(result.as_int(), Some(7));
2105
2106 let compiled = vm.get_fn("vm_small_expression_inline::closure_assignment", &[])?;
2107 assert_eq!(compiled.ret_ty(), &Type::I64);
2108 let closure_assignment: extern "C" fn() -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
2109 assert_eq!(closure_assignment(), 4);
2110 Ok(())
2111 }
2112
2113 #[test]
2114 fn nested_closure_captures_outer_closure_arg() -> anyhow::Result<()> {
2115 let vm = Vm::with_all()?;
2116 vm.import_code(
2117 "vm_nested_closure_capture",
2118 br#"
2119 pub fn run() {
2120 let reference_label = "reference";
2121 |path: string| {
2122 let upload_done = |uploaded: bool| {
2123 if uploaded {
2124 reference_label + ":" + path
2125 } else {
2126 "missing"
2127 }
2128 };
2129 upload_done(true)
2130 }("reference.png")
2131 }
2132 "#
2133 .to_vec(),
2134 )?;
2135
2136 let compiled = vm.get_fn("vm_nested_closure_capture::run", &[])?;
2137 assert_eq!(compiled.ret_ty(), &Type::Any);
2138 let run: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
2139 let result = unsafe { &*run() };
2140 assert_eq!(result.as_str(), "reference:reference.png");
2141 Ok(())
2142 }
2143
2144 #[test]
2145 fn semicolon_tail_call_makes_function_void() -> anyhow::Result<()> {
2146 let vm = Vm::with_all()?;
2147 vm.import_code(
2148 "vm_semicolon_tail_void",
2149 br#"
2150 pub fn send_role_select(idx, account_id, selected_slot) {
2151 root::send("local/ui/send_dialog", {
2152 idx: idx,
2153 account_id: account_id,
2154 selected_slot: selected_slot
2155 });
2156 }
2157 "#
2158 .to_vec(),
2159 )?;
2160
2161 let compiled = vm.get_fn("vm_semicolon_tail_void::send_role_select", &[Type::Any, Type::Any, Type::Any])?;
2162 assert_eq!(compiled.ret_ty(), &Type::Void);
2163 Ok(())
2164 }
2165
2166 #[test]
2167 fn bare_return_conflicts_with_non_void_return() -> anyhow::Result<()> {
2168 let vm = Vm::with_all()?;
2169 vm.import_code(
2170 "vm_bare_return_conflict",
2171 br#"
2172 pub fn run(flag) {
2173 if flag {
2174 return;
2175 }
2176 1
2177 }
2178 "#
2179 .to_vec(),
2180 )?;
2181
2182 let err = match vm.get_fn("vm_bare_return_conflict::run", &[Type::Bool]) {
2183 Ok(_) => panic!("expected mismatched return types to fail"),
2184 Err(err) => err,
2185 };
2186 assert!(format!("{err:#}").contains("返回类型不一致"));
2187 Ok(())
2188 }
2189
2190 #[test]
2191 fn root_get_accepts_string_concat_with_dynamic_field() -> anyhow::Result<()> {
2192 let vm = Vm::with_all()?;
2193 vm.import_code(
2194 "vm_root_get_dynamic_concat",
2195 br#"
2196 pub fn get_action(req) {
2197 root::get("local/game/panel_actions/" + req.idx)
2198 }
2199 "#
2200 .to_vec(),
2201 )?;
2202
2203 root::add("local/game/panel_actions/7", dynamic::map!("id"=> "action-7").into())?;
2204 let compiled = vm.get_fn("vm_root_get_dynamic_concat::get_action", &[Type::Any])?;
2205 assert_eq!(compiled.ret_ty(), &Type::Any);
2206 let get_action: extern "C" fn(*const Dynamic) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
2207 let req = dynamic::map!("idx"=> 7i64);
2208 let result = unsafe { &*get_action(&req) };
2209
2210 assert_eq!(result.get_dynamic("id").map(|value| value.as_str().to_string()), Some("action-7".to_string()));
2211 Ok(())
2212 }
2213
2214 #[test]
2215 fn root_add_fn_registers_handler_with_dynamic_field_path_concat() -> anyhow::Result<()> {
2216 let vm = Vm::with_all()?;
2217 vm.import_code(
2218 "vm_registered_panel_action",
2219 br#"
2220 pub fn panel_action(req) {
2221 root::get("local/game/panel_actions/" + req.idx)
2222 }
2223
2224 pub fn register() {
2225 root::add_fn("local/ui/panel_action", "vm_registered_panel_action::panel_action")
2226 }
2227 "#
2228 .to_vec(),
2229 )?;
2230
2231 let compiled = vm.get_fn("vm_registered_panel_action::register", &[])?;
2232 assert_eq!(compiled.ret_ty(), &Type::Bool);
2233 let register: extern "C" fn() -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
2234 assert!(register());
2235 Ok(())
2236 }
2237
2238 #[test]
2239 fn std_spawn_runs_named_function_with_tuple_args() -> anyhow::Result<()> {
2240 let zero_path = "local/vm_std_spawn/zero";
2241 let sum_path = "local/vm_std_spawn/sum";
2242 let closure_path = "local/vm_std_spawn/closure";
2243 let closure_vars_path = "local/vm_std_spawn/closure_vars";
2244 let _ = root::remove(zero_path);
2245 let _ = root::remove(sum_path);
2246 let _ = root::remove(closure_path);
2247 let _ = root::remove(closure_vars_path);
2248 let vm = Vm::with_all()?;
2249 vm.import_code(
2250 "vm_std_spawn",
2251 br#"
2252 pub fn zero() {
2253 root::add("local/vm_std_spawn/zero", 1);
2254 }
2255
2256 pub fn job(left, right) {
2257 root::add("local/vm_std_spawn/sum", left + right);
2258 }
2259
2260 pub fn start_zero() {
2261 spawn("vm_std_spawn::zero", ())
2262 }
2263
2264 pub fn start_sum() {
2265 spawn("vm_std_spawn::job", (10, 20))
2266 }
2267
2268 pub fn start_closure() {
2269 spawn(|x, y| {
2270 root::add("local/vm_std_spawn/closure", x + y);
2271 }, (3, 4))
2272 }
2273
2274 pub fn start_closure_vars() {
2275 let x = 5;
2276 let y = 6;
2277 spawn(|left, right| {
2278 root::add("local/vm_std_spawn/closure_vars", left + right);
2279 }, (x, y))
2280 }
2281 "#
2282 .to_vec(),
2283 )?;
2284
2285 let compiled = vm.get_fn("vm_std_spawn::start_zero", &[])?;
2286 assert_eq!(compiled.ret_ty(), &Type::Bool);
2287 let start_zero: extern "C" fn() -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
2288 assert!(start_zero());
2289
2290 let compiled = vm.get_fn("vm_std_spawn::start_sum", &[])?;
2291 assert_eq!(compiled.ret_ty(), &Type::Bool);
2292 let start_sum: extern "C" fn() -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
2293 assert!(start_sum());
2294
2295 let compiled = vm.get_fn("vm_std_spawn::start_closure", &[])?;
2296 assert_eq!(compiled.ret_ty(), &Type::Bool);
2297 let start_closure: extern "C" fn() -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
2298 assert!(start_closure());
2299
2300 let compiled = vm.get_fn("vm_std_spawn::start_closure_vars", &[])?;
2301 assert_eq!(compiled.ret_ty(), &Type::Bool);
2302 let start_closure_vars: extern "C" fn() -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
2303 assert!(start_closure_vars());
2304
2305 for _ in 0..50 {
2306 let zero_done = root::get(zero_path).ok().and_then(|value| value.as_int()) == Some(1);
2307 let sum_done = root::get(sum_path).ok().and_then(|value| value.as_int()) == Some(30);
2308 let closure_done = root::get(closure_path).ok().and_then(|value| value.as_int()) == Some(7);
2309 let closure_vars_done = root::get(closure_vars_path).ok().and_then(|value| value.as_int()) == Some(11);
2310 if zero_done && sum_done && closure_done && closure_vars_done {
2311 return Ok(());
2312 }
2313 std::thread::sleep(std::time::Duration::from_millis(10));
2314 }
2315
2316 anyhow::bail!("spawned jobs did not write expected results");
2317 }
2318
2319 #[test]
2320 fn native_can_save_and_later_call_closure_callback() -> anyhow::Result<()> {
2321 static SAVED_CALLBACK: parking_lot::Mutex<Option<ZustCallback>> = parking_lot::Mutex::new(None);
2322
2323 extern "C" fn save_callback(callback: *const Dynamic) -> bool {
2324 if callback.is_null() {
2325 return false;
2326 }
2327 let Some(callback) = (unsafe { &*callback }).as_custom::<ZustCallback>().cloned() else {
2328 return false;
2329 };
2330 *SAVED_CALLBACK.lock() = Some(callback);
2331 true
2332 }
2333
2334 let path = "local/vm_callback/result";
2335 let _ = root::remove(path);
2336 *SAVED_CALLBACK.lock() = None;
2337
2338 let vm = Vm::with_all()?;
2339 vm.add_native_module_ptr("callback_test", "save", &[Type::Any], Type::Bool, save_callback as *const u8)?;
2340 vm.import_code(
2341 "vm_callback",
2342 br#"
2343 pub fn register() {
2344 let n = 41;
2345 callback_test::save(|| {
2346 root::add("local/vm_callback/result", n + 1);
2347 true
2348 })
2349 }
2350 "#
2351 .to_vec(),
2352 )?;
2353
2354 let compiled = vm.get_fn("vm_callback::register", &[])?;
2355 assert_eq!(compiled.ret_ty(), &Type::Bool);
2356 let register: extern "C" fn() -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
2357 assert!(register());
2358 assert!(root::get(path).is_err());
2359
2360 let callback = SAVED_CALLBACK.lock().clone().expect("callback should be saved");
2361 let result = callback.call0()?;
2362 assert_eq!(result.as_bool(), Some(true));
2363 assert_eq!(root::get(path)?.as_int(), Some(42));
2364 Ok(())
2365 }
2366
2367 #[test]
2368 fn closure_captures_share_state_between_callbacks() -> anyhow::Result<()> {
2369 static SAVED_CALLBACKS: parking_lot::Mutex<Vec<ZustCallback>> = parking_lot::Mutex::new(Vec::new());
2370
2371 extern "C" fn save_callback(callback: *const Dynamic) -> bool {
2372 if callback.is_null() {
2373 return false;
2374 }
2375 let Some(callback) = (unsafe { &*callback }).as_custom::<ZustCallback>().cloned() else {
2376 return false;
2377 };
2378 SAVED_CALLBACKS.lock().push(callback);
2379 true
2380 }
2381
2382 SAVED_CALLBACKS.lock().clear();
2383
2384 let vm = Vm::with_all()?;
2385 vm.add_native_module_ptr("capture_test", "save", &[Type::Any], Type::Bool, save_callback as *const u8)?;
2386 vm.import_code(
2387 "vm_shared_capture",
2388 br#"
2389 pub fn register() {
2390 let state = {};
2391 state.drag_kind = 0;
2392 capture_test::save(|| {
2393 state.drag_kind = 2;
2394 true
2395 });
2396 capture_test::save(|| {
2397 state.drag_kind
2398 })
2399 }
2400 "#
2401 .to_vec(),
2402 )?;
2403
2404 let register = vm.get_fn("vm_shared_capture::register", &[])?;
2405 let register: extern "C" fn() -> bool = unsafe { std::mem::transmute(register.ptr()) };
2406 assert!(register());
2407
2408 let (writer, reader) = {
2409 let saved = SAVED_CALLBACKS.lock();
2410 assert_eq!(saved.len(), 2);
2411 (saved[0].clone(), saved[1].clone())
2412 };
2413 assert_eq!(reader.call0()?.as_int(), Some(0));
2414 assert_eq!(writer.call0()?.as_bool(), Some(true));
2415 assert_eq!(reader.call0()?.as_int(), Some(2));
2416 Ok(())
2417 }
2418
2419 #[test]
2420 fn native_can_save_and_later_call_named_function_callback() -> anyhow::Result<()> {
2421 static SAVED_CALLBACK: parking_lot::Mutex<Option<ZustCallback>> = parking_lot::Mutex::new(None);
2422
2423 extern "C" fn save_callback(callback: *const Dynamic) -> bool {
2424 if callback.is_null() {
2425 return false;
2426 }
2427 let Some(callback) = (unsafe { &*callback }).as_custom::<ZustCallback>().cloned() else {
2428 return false;
2429 };
2430 *SAVED_CALLBACK.lock() = Some(callback);
2431 true
2432 }
2433
2434 let path = "local/vm_named_callback/result";
2435 let _ = root::remove(path);
2436 *SAVED_CALLBACK.lock() = None;
2437
2438 let vm = Vm::with_all()?;
2439 vm.add_native_module_ptr("callback_test", "save", &[Type::Any], Type::Bool, save_callback as *const u8)?;
2440 vm.import_code(
2441 "vm_named_callback",
2442 br#"
2443 pub fn on_result() {
2444 root::add("local/vm_named_callback/result", "done");
2445 true
2446 }
2447
2448 pub fn register() {
2449 callback_test::save(on_result)
2450 }
2451 "#
2452 .to_vec(),
2453 )?;
2454
2455 let register = vm.get_fn("vm_named_callback::register", &[])?;
2456 let register: extern "C" fn() -> bool = unsafe { std::mem::transmute(register.ptr()) };
2457 assert!(register());
2458 assert!(root::get(path).is_err());
2459
2460 let callback = SAVED_CALLBACK.lock().clone().expect("callback should be saved");
2461 assert_eq!(callback.call1(dynamic::map!("text"=> "done"))?.as_bool(), Some(true));
2462 assert_eq!(root::get(path)?.as_str(), "done");
2463 Ok(())
2464 }
2465
2466 #[test]
2467 fn native_callback_can_receive_later_dynamic_args() -> anyhow::Result<()> {
2468 static SAVED_PATH_CALLBACK: parking_lot::Mutex<Option<ZustCallback>> = parking_lot::Mutex::new(None);
2469 static SAVED_SUM_CALLBACK: parking_lot::Mutex<Option<ZustCallback>> = parking_lot::Mutex::new(None);
2470
2471 extern "C" fn save_path_callback(callback: *const Dynamic) -> bool {
2472 if callback.is_null() {
2473 return false;
2474 }
2475 let Some(callback) = (unsafe { &*callback }).as_custom::<ZustCallback>().cloned() else {
2476 return false;
2477 };
2478 *SAVED_PATH_CALLBACK.lock() = Some(callback);
2479 true
2480 }
2481
2482 extern "C" fn save_sum_callback(callback: *const Dynamic) -> bool {
2483 if callback.is_null() {
2484 return false;
2485 }
2486 let Some(callback) = (unsafe { &*callback }).as_custom::<ZustCallback>().cloned() else {
2487 return false;
2488 };
2489 *SAVED_SUM_CALLBACK.lock() = Some(callback);
2490 true
2491 }
2492
2493 let path_result = "local/vm_callback/path";
2494 let sum_result = "local/vm_callback/sum8";
2495 let _ = root::remove(path_result);
2496 let _ = root::remove(sum_result);
2497 *SAVED_PATH_CALLBACK.lock() = None;
2498 *SAVED_SUM_CALLBACK.lock() = None;
2499
2500 let vm = Vm::with_all()?;
2501 vm.add_native_module_ptr("callback_test", "save_path", &[Type::Any], Type::Bool, save_path_callback as *const u8)?;
2502 vm.add_native_module_ptr("callback_test", "save_sum", &[Type::Any], Type::Bool, save_sum_callback as *const u8)?;
2503 vm.import_code(
2504 "vm_callback_args",
2505 br#"
2506 pub fn register_path() {
2507 let key = "local/vm_callback/path";
2508 callback_test::save_path(|path| {
2509 root::add(key, path);
2510 true
2511 })
2512 }
2513
2514 pub fn register_sum() {
2515 callback_test::save_sum(|a, b, c, d, e, f, g, h| {
2516 root::add("local/vm_callback/sum8", a + b + c + d + e + f + g + h);
2517 true
2518 })
2519 }
2520 "#
2521 .to_vec(),
2522 )?;
2523
2524 let register_path = vm.get_fn("vm_callback_args::register_path", &[])?;
2525 let register_path: extern "C" fn() -> bool = unsafe { std::mem::transmute(register_path.ptr()) };
2526 assert!(register_path());
2527
2528 let register_sum = vm.get_fn("vm_callback_args::register_sum", &[])?;
2529 let register_sum: extern "C" fn() -> bool = unsafe { std::mem::transmute(register_sum.ptr()) };
2530 assert!(register_sum());
2531
2532 let path_callback = SAVED_PATH_CALLBACK.lock().clone().expect("path callback should be saved");
2533 assert_eq!(path_callback.call1(Dynamic::from("picked.txt"))?.as_bool(), Some(true));
2534 assert_eq!(root::get(path_result)?.as_str(), "picked.txt");
2535
2536 let sum_callback = SAVED_SUM_CALLBACK.lock().clone().expect("sum callback should be saved");
2537 let sum_args = (1i64..=8).map(Dynamic::from).collect();
2538 assert_eq!(sum_callback.call(sum_args)?.as_bool(), Some(true));
2539 assert_eq!(root::get(sum_result)?.as_int(), Some(36));
2540 Ok(())
2541 }
2542
2543 #[test]
2544 fn callback_with_16_explicit_args_and_captures() -> anyhow::Result<()> {
2545 static SAVED_SUM16: parking_lot::Mutex<Option<ZustCallback>> = parking_lot::Mutex::new(None);
2546
2547 extern "C" fn save_sum16(callback: *const Dynamic) -> bool {
2548 if callback.is_null() {
2549 return false;
2550 }
2551 let Some(callback) = (unsafe { &*callback }).as_custom::<ZustCallback>().cloned() else {
2552 return false;
2553 };
2554 *SAVED_SUM16.lock() = Some(callback);
2555 true
2556 }
2557
2558 let sum16_path = "local/vm_callback/sum16";
2559 let _ = root::remove(sum16_path);
2560 *SAVED_SUM16.lock() = None;
2561
2562 let vm = Vm::with_all()?;
2563 vm.add_native_module_ptr("callback_test", "save_sum16", &[Type::Any], Type::Bool, save_sum16 as *const u8)?;
2564 vm.import_code(
2565 "vm_callback_16_args",
2566 br#"
2567 pub fn register_sum16() {
2568 let prefix = "sum=";
2569 callback_test::save_sum16(|a, b, c, d, e, f, g, h, i, j, k, l, m, n, o, p| {
2570 let total = a + b + c + d + e + f + g + h + i + j + k + l + m + n + o + p;
2571 root::add("local/vm_callback/sum16", prefix + total);
2572 true
2573 })
2574 }
2575 "#
2576 .to_vec(),
2577 )?;
2578
2579 let register = vm.get_fn("vm_callback_16_args::register_sum16", &[])?;
2580 let register: extern "C" fn() -> bool = unsafe { std::mem::transmute(register.ptr()) };
2581 assert!(register());
2582
2583 let callback = SAVED_SUM16.lock().clone().expect("sum16 callback saved");
2584 let args: Vec<Dynamic> = (1i64..=16).map(Dynamic::from).collect();
2585 assert_eq!(callback.call(args)?.as_bool(), Some(true));
2586 assert_eq!(root::get(sum16_path)?.as_str(), "sum=136");
2587 Ok(())
2588 }
2589
2590 #[test]
2591 fn spawn_closure_with_16_args() -> anyhow::Result<()> {
2592 let spawn16_path = "local/vm_spawn/spawn16";
2593 let _ = root::remove(spawn16_path);
2594
2595 let vm = Vm::with_all()?;
2596 vm.import_code(
2597 "vm_spawn_16_args",
2598 br#"
2599 pub fn start_spawn16() {
2600 spawn(|a, b, c, d, e, f, g, h, i, j, k, l, m, n, o, p| {
2601 root::add("local/vm_spawn/spawn16", a + b + c + d + e + f + g + h + i + j + k + l + m + n + o + p);
2602 }, (1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16))
2603 }
2604 "#
2605 .to_vec(),
2606 )?;
2607
2608 let compiled = vm.get_fn("vm_spawn_16_args::start_spawn16", &[])?;
2609 assert_eq!(compiled.ret_ty(), &Type::Bool);
2610 let start: extern "C" fn() -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
2611 assert!(start());
2612
2613 for _ in 0..50 {
2614 if root::get(spawn16_path).ok().and_then(|v| v.as_int()) == Some(136) {
2615 return Ok(());
2616 }
2617 std::thread::sleep(std::time::Duration::from_millis(10));
2618 }
2619 anyhow::bail!("spawned job did not write expected result");
2620 }
2621
2622 #[test]
2623 fn spawn_native_closure_avoids_any_boxing() -> anyhow::Result<()> {
2624 let nat_path = "local/vm_spawn_native/result";
2625 let _ = root::remove(nat_path);
2626 let vm = Vm::with_all()?;
2627 vm.import_code(
2628 "vm_spawn_native",
2629 br#"
2630 pub fn start() {
2631 spawn(|x: i64, y: i64| {
2632 root::add("local/vm_spawn_native/result", x + y);
2633 }, (10i64, 20i64))
2634 }
2635 "#
2636 .to_vec(),
2637 )?;
2638 let compiled = vm.get_fn("vm_spawn_native::start", &[])?;
2639 assert_eq!(compiled.ret_ty(), &Type::Bool);
2640 let start: extern "C" fn() -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
2641 assert!(start());
2642 for _ in 0..50 {
2643 if root::get(nat_path).ok().and_then(|v| v.as_int()) == Some(30) {
2644 return Ok(());
2645 }
2646 std::thread::sleep(std::time::Duration::from_millis(10));
2647 }
2648 anyhow::bail!("spawned native closure did not write expected result");
2649 }
2650
2651 #[test]
2652 fn multi_level_nested_closure_captures() -> anyhow::Result<()> {
2653 let vm = Vm::with_all()?;
2654 vm.import_code(
2655 "vm_multi_level_captures",
2656 br#"
2657 pub fn run() {
2658 let level1 = "L1";
2659 let level2 = "L2";
2660 |path: string| {
2661 let level3 = "L3";
2662 let inner = |suffix: string| {
2663 let level4 = "L4";
2664 |flag: bool| {
2665 if flag {
2666 level1 + "." + level2 + "." + level3 + "." + level4 + "." + path + suffix
2667 } else {
2668 "off"
2669 }
2670 }(true)
2671 };
2672 inner(".ext")
2673 }("file.txt")
2674 }
2675 "#
2676 .to_vec(),
2677 )?;
2678
2679 let compiled = vm.get_fn("vm_multi_level_captures::run", &[])?;
2680 assert_eq!(compiled.ret_ty(), &Type::Any);
2681 let run: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
2682 let result = unsafe { &*run() };
2683 assert_eq!(result.as_str(), "L1.L2.L3.L4.file.txt.ext");
2684 Ok(())
2685 }
2686
2687 #[test]
2688 fn root_add_fn_accepts_string_concat_in_registered_handler() -> anyhow::Result<()> {
2689 let vm = Vm::with_all()?;
2690 vm.import_code(
2691 "vm_registered_string_concat",
2692 br#"
2693 pub fn send_panel(idx: i64) {
2694 let idx_key = "" + idx;
2695 idx_key
2696 }
2697 "#
2698 .to_vec(),
2699 )?;
2700
2701 assert!(vm.get_fn_ptr("vm_registered_string_concat::send_panel", &[Type::Any]).is_ok());
2702 Ok(())
2703 }
2704
2705 #[test]
2706 fn dynamic_method_error_reports_source_location() -> anyhow::Result<()> {
2707 let vm = Vm::with_all()?;
2708 vm.import_code(
2709 "vm_bad_dynamic_method",
2710 br#"
2711 pub fn main(value) {
2712 let out = "";
2713 out = out + value.fetch("name");
2714 }
2715 "#
2716 .to_vec(),
2717 )?;
2718
2719 let err = vm.get_fn_ptr("vm_bad_dynamic_method::main", &[Type::Any]).expect_err("bad dynamic method should fail to compile");
2720 let msg = format!("{err:#}");
2721 assert!(msg.contains("vm_bad_dynamic_method:4:"), "{msg}");
2722 assert!(msg.contains("`Any.fetch` 不是成员函数"), "{msg}");
2723 assert!(msg.contains(r#"out = out + value.fetch("name");"#), "{msg}");
2724 Ok(())
2725 }
2726
2727 #[test]
2728 fn root_send_idx_returns_handler_value() -> anyhow::Result<()> {
2729 fn echo_handler(msg: Dynamic) -> Dynamic {
2730 dynamic::map!("type"=> "echo", "id"=> msg.get_dynamic("id").unwrap_or(Dynamic::Null))
2731 }
2732
2733 let vm = Vm::with_all()?;
2734 vm.import_code(
2735 "vm_root_send_idx_return",
2736 br#"
2737 pub fn call(req) {
2738 root::send_idx("local/send_idx_return_handlers", 0, req)
2739 }
2740 "#
2741 .to_vec(),
2742 )?;
2743
2744 root::add_list("local/send_idx_return_handlers")?;
2745 let (mount, name) = root::get_mount("local/send_idx_return_handlers")?;
2746 mount.push(name, root::Object::Native(echo_handler))?;
2747
2748 assert_eq!(vm.infer("root::send_idx", &[Type::Any, Type::I64, Type::Any])?, Type::Any);
2749 let compiled = vm.get_fn("vm_root_send_idx_return::call", &[Type::Any])?;
2750 assert_eq!(compiled.ret_ty(), &Type::Any);
2751 let call: extern "C" fn(*const Dynamic) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
2752 let req = dynamic::map!("id"=> 42i64);
2753 let result = unsafe { &*call(&req) };
2754
2755 assert_eq!(result.get_dynamic("type").map(|value| value.as_str().to_string()), Some("echo".to_string()));
2756 assert_eq!(result.get_dynamic("id").and_then(|value| value.as_int()), Some(42));
2757 Ok(())
2758 }
2759
2760 #[test]
2761 fn compiles_public_hotspots_with_string_paths_and_keys() -> anyhow::Result<()> {
2762 let vm = Vm::with_all()?;
2763 vm.import_code(
2764 "vm_public_hotspots",
2765 br#"
2766 pub fn public_hotspot(action_map_path, panel_id, action_id, hotspot) {
2767 {
2768 path: action_map_path,
2769 panel_id: panel_id,
2770 action_id: action_id,
2771 id: hotspot.id
2772 }
2773 }
2774
2775 pub fn public_hotspots(idx, panel_id, hotspots) {
2776 let idx_key = "" + idx;
2777 let action_map_path = "local/game/panel_actions/" + idx_key;
2778
2779 let existing_action_map = root::get(action_map_path);
2780 if !existing_action_map.is_map() {
2781 root::add_map(action_map_path);
2782 }
2783
2784 if hotspots.is_map() {
2785 let public_items = {};
2786 for action_id in hotspots.keys() {
2787 public_items[action_id] = public_hotspot(action_map_path, panel_id, action_id, hotspots[action_id]);
2788 }
2789 return public_items;
2790 }
2791
2792 let public_items = [];
2793 let i = 0;
2794 while i < hotspots.len() {
2795 let hotspot = hotspots.get_idx(i);
2796 let item = public_hotspot(action_map_path, panel_id, hotspot.id, hotspot);
2797 public_items.push(item);
2798 i = i + 1;
2799 }
2800
2801 public_items
2802 }
2803 "#
2804 .to_vec(),
2805 )?;
2806
2807 assert!(vm.get_fn("vm_public_hotspots::public_hotspots", &[Type::I64, Type::Any, Type::Any]).is_ok());
2808 assert!(vm.get_fn("vm_public_hotspots::public_hotspots", &[Type::Any, Type::Any, Type::Any]).is_ok());
2809 Ok(())
2810 }
2811
2812 #[test]
2813 fn send_panel_calls_public_hotspots_with_dynamic_request() -> anyhow::Result<()> {
2814 let vm = Vm::with_all()?;
2815 vm.import_code(
2816 "vm_send_panel_public_hotspots",
2817 br#"
2818 pub fn ok(value) {
2819 value
2820 }
2821
2822 pub fn panel_from_node(req) {
2823 {
2824 panel_id: req.panel_id,
2825 hotspots: req.hotspots
2826 }
2827 }
2828
2829 pub fn public_hotspot(action_map_path, panel_id, action_id, hotspot) {
2830 {
2831 path: action_map_path,
2832 panel_id: panel_id,
2833 action_id: action_id,
2834 id: hotspot.id
2835 }
2836 }
2837
2838 pub fn public_hotspots(idx, panel_id, hotspots) {
2839 let idx_key = "" + idx;
2840 let action_map_path = "local/game/panel_actions/" + idx_key;
2841
2842 let existing_action_map = root::get(action_map_path);
2843 if !existing_action_map.is_map() {
2844 root::add_map(action_map_path);
2845 }
2846
2847 if hotspots.is_map() {
2848 let public_items = {};
2849 for action_id in hotspots.keys() {
2850 public_items[action_id] = public_hotspot(action_map_path, panel_id, action_id, hotspots[action_id]);
2851 }
2852 return public_items;
2853 }
2854
2855 let public_items = [];
2856 let i = 0;
2857 while i < hotspots.len() {
2858 let hotspot = hotspots.get_idx(i);
2859 let item = public_hotspot(action_map_path, panel_id, hotspot.id, hotspot);
2860 public_items.push(item);
2861 i = i + 1;
2862 }
2863
2864 public_items
2865 }
2866
2867 pub fn send_panel(req) {
2868 let panel = req.panel;
2869 if !panel.is_map() {
2870 panel = panel_from_node(req);
2871 }
2872 if !panel.is_map() {
2873 return ok({
2874 id: 4,
2875 type: "panel_rejected",
2876 reason: "invalid panel"
2877 });
2878 }
2879 panel.id = 4;
2880 panel.idx = req.idx;
2881 if !panel.contains("type") {
2882 panel.type = "panel";
2883 }
2884 if panel.contains("hotspots") {
2885 panel.hotspots = public_hotspots(req.idx, panel.panel_id, panel.hotspots);
2886 }
2887 root::send_idx("local/ws", req.idx, panel);
2888 ok({
2889 id: 4,
2890 type: "panel",
2891 panel_id: panel.panel_id
2892 })
2893 }
2894 "#
2895 .to_vec(),
2896 )?;
2897
2898 let compiled = vm.get_fn("vm_send_panel_public_hotspots::send_panel", &[Type::Any])?;
2899 assert_eq!(compiled.ret_ty(), &Type::Any);
2900 let send_panel: extern "C" fn(*const Dynamic) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
2901 let req = dynamic::map!(
2902 "idx"=> 7i64,
2903 "panel"=> dynamic::map!(
2904 "panel_id"=> "main",
2905 "hotspots"=> dynamic::map!(
2906 "open"=> dynamic::map!("id"=> "open")
2907 )
2908 )
2909 );
2910 let result = unsafe { &*send_panel(&req) };
2911
2912 assert_eq!(result.get_dynamic("type").map(|value| value.as_str().to_string()), Some("panel".to_string()));
2913 assert_eq!(result.get_dynamic("panel_id").map(|value| value.as_str().to_string()), Some("main".to_string()));
2914 Ok(())
2915 }
2916
2917 #[test]
2918 fn map_assignment_accepts_string_concat_key() -> anyhow::Result<()> {
2919 let vm = Vm::with_all()?;
2920 vm.import_code(
2921 "vm_string_concat_map_key",
2922 br##"
2923 pub fn write_action(action_map, panel_id, action_id, action) {
2924 action_map[panel_id + "#" + action_id] = action;
2925 action_map[panel_id + "#" + action_id]
2926 }
2927 "##
2928 .to_vec(),
2929 )?;
2930
2931 let compiled = vm.get_fn("vm_string_concat_map_key::write_action", &[Type::Any, Type::Any, Type::Any, Type::Any])?;
2932 let write_action: extern "C" fn(*const Dynamic, *const Dynamic, *const Dynamic, *const Dynamic) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
2933 let action_map = dynamic::map!();
2934 let panel_id: Dynamic = "panel".into();
2935 let action_id: Dynamic = "open".into();
2936 let action = dynamic::map!("id"=> "open");
2937
2938 let result = unsafe { &*write_action(&action_map, &panel_id, &action_id, &action) };
2939
2940 assert_eq!(result.get_dynamic("id").map(|value| value.as_str().to_string()), Some("open".to_string()));
2941 assert_eq!(action_map.get_dynamic("panel#open").and_then(|value| value.get_dynamic("id")).map(|value| value.as_str().to_string()), Some("open".to_string()));
2942 Ok(())
2943 }
2944
2945 #[test]
2946 fn map_get_key_accepts_string_concat_key_variable() -> anyhow::Result<()> {
2947 let vm = Vm::with_all()?;
2948 vm.import_code(
2949 "vm_get_key_string_concat_key",
2950 br##"
2951 pub fn read_action(action_map, panel_id, action_id) {
2952 let action_key = panel_id + "#" + action_id;
2953 action_map.get_key(action_key)
2954 }
2955 "##
2956 .to_vec(),
2957 )?;
2958
2959 let compiled = vm.get_fn("vm_get_key_string_concat_key::read_action", &[Type::Any, Type::Any, Type::Any])?;
2960 let read_action: extern "C" fn(*const Dynamic, *const Dynamic, *const Dynamic) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
2961 let action_map = dynamic::map!("panel#open"=> dynamic::map!("id"=> "open"));
2962 let panel_id: Dynamic = "panel".into();
2963 let action_id: Dynamic = "open".into();
2964
2965 let result = unsafe { &*read_action(&action_map, &panel_id, &action_id) };
2966
2967 assert_eq!(result.get_dynamic("id").map(|value| value.as_str().to_string()), Some("open".to_string()));
2968 Ok(())
2969 }
2970
2971 #[test]
2972 fn const_map_bracket_accepts_dynamic_string_key() -> anyhow::Result<()> {
2973 let vm = Vm::with_all()?;
2974 vm.import_code(
2975 "vm_const_map_dynamic_key",
2976 r#"
2977 const DIRECTION_LABELS = {left: "左", right: "右", up: "上", down: "下"};
2978
2979 pub fn label(direction) {
2980 DIRECTION_LABELS[direction]
2981 }
2982 "#
2983 .as_bytes()
2984 .to_vec(),
2985 )?;
2986
2987 let compiled = vm.get_fn("vm_const_map_dynamic_key::label", &[Type::Any])?;
2988 assert_eq!(compiled.ret_ty(), &Type::Any);
2989 let label: extern "C" fn(*const Dynamic) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
2990 let direction: Dynamic = "left".into();
2991 let result = unsafe { &*label(&direction) };
2992 assert_eq!(result.as_str(), "左");
2993 Ok(())
2994 }
2995
2996 #[test]
2997 fn map_get_alias_matches_get_key() -> anyhow::Result<()> {
2998 let vm = Vm::with_all()?;
2999 vm.import_code(
3000 "vm_map_get_alias",
3001 br#"
3002 pub fn read_name(data) {
3003 data.get("name")
3004 }
3005
3006 pub fn read_missing(data) {
3007 data.get("missing")
3008 }
3009 "#
3010 .to_vec(),
3011 )?;
3012
3013 let data = dynamic::map!("name"=> "zust");
3014
3015 let compiled = vm.get_fn("vm_map_get_alias::read_name", &[Type::Any])?;
3016 assert_eq!(compiled.ret_ty(), &Type::Any);
3017 let read_name: extern "C" fn(*const Dynamic) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
3018 let result = unsafe { &*read_name(&data) };
3019 assert_eq!(result.as_str(), "zust");
3020
3021 let compiled = vm.get_fn("vm_map_get_alias::read_missing", &[Type::Any])?;
3022 assert_eq!(compiled.ret_ty(), &Type::Any);
3023 let read_missing: extern "C" fn(*const Dynamic) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
3024 let result = unsafe { &*read_missing(&data) };
3025 assert!(result.is_null());
3026 Ok(())
3027 }
3028
3029 #[test]
3030 fn map_get_key_accepts_helper_string_key() -> anyhow::Result<()> {
3031 let vm = Vm::with_all()?;
3032 vm.import_code(
3033 "vm_get_key_helper_string_key",
3034 br##"
3035 pub fn make_action_key(panel_id, action_id) {
3036 panel_id + "#" + action_id
3037 }
3038
3039 pub fn read_action(action_map, panel_id, action_id) {
3040 let action_key = make_action_key(panel_id, action_id);
3041 let action = action_map.get_key(action_key);
3042 action
3043 }
3044 "##
3045 .to_vec(),
3046 )?;
3047
3048 let compiled = vm.get_fn("vm_get_key_helper_string_key::read_action", &[Type::Any, Type::Any, Type::Any])?;
3049 let read_action: extern "C" fn(*const Dynamic, *const Dynamic, *const Dynamic) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
3050 let action_map = dynamic::map!("panel#open"=> dynamic::map!("id"=> "open"));
3051 let panel_id: Dynamic = "panel".into();
3052 let action_id: Dynamic = "open".into();
3053
3054 let result = unsafe { &*read_action(&action_map, &panel_id, &action_id) };
3055
3056 assert_eq!(result.get_dynamic("id").map(|value| value.as_str().to_string()), Some("open".to_string()));
3057 Ok(())
3058 }
3059
3060 #[test]
3061 fn map_del_key_removes_string_key_and_returns_removed_value() -> anyhow::Result<()> {
3062 let vm = Vm::with_all()?;
3063 vm.import_code(
3064 "vm_del_key_string_key",
3065 br##"
3066 pub fn remove_action(action_map, panel_id, action_id) {
3067 let action_key = panel_id + "#" + action_id;
3068 let removed = action_map.del_key(action_key);
3069 [removed, action_map.get_key(action_key)]
3070 }
3071 "##
3072 .to_vec(),
3073 )?;
3074
3075 let compiled = vm.get_fn("vm_del_key_string_key::remove_action", &[Type::Any, Type::Any, Type::Any])?;
3076 let remove_action: extern "C" fn(*const Dynamic, *const Dynamic, *const Dynamic) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
3077 let action_map = dynamic::map!("panel#open"=> dynamic::map!("id"=> "open"));
3078 let panel_id: Dynamic = "panel".into();
3079 let action_id: Dynamic = "open".into();
3080
3081 let result = unsafe { &*remove_action(&action_map, &panel_id, &action_id) };
3082
3083 assert_eq!(result.get_idx(0).and_then(|value| value.get_dynamic("id")).map(|value| value.as_str().to_string()), Some("open".to_string()));
3084 assert!(result.get_idx(1).is_some_and(|value| value.is_null()));
3085 assert!(action_map.get_dynamic("panel#open").is_none());
3086 Ok(())
3087 }
3088
3089 #[test]
3090 fn dynamic_field_value_participates_in_or_expression() -> anyhow::Result<()> {
3091 let vm = Vm::with_all()?;
3092 vm.import_code(
3093 "vm_dynamic_field_or",
3094 r#"
3095 pub fn direct_next() {
3096 let choice = {
3097 label: "颜色",
3098 next: "color"
3099 };
3100 choice.next
3101 }
3102
3103 pub fn bracket_next() {
3104 let choice = {
3105 label: "颜色",
3106 next: "color"
3107 };
3108 choice["next"]
3109 }
3110 "#
3111 .as_bytes()
3112 .to_vec(),
3113 )?;
3114
3115 let compiled = vm.get_fn("vm_dynamic_field_or::direct_next", &[])?;
3116 assert_eq!(compiled.ret_ty(), &Type::Any);
3117 let direct_next: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
3118 assert_eq!(unsafe { &*direct_next() }.as_str(), "color");
3119
3120 let compiled = vm.get_fn("vm_dynamic_field_or::bracket_next", &[])?;
3121 assert_eq!(compiled.ret_ty(), &Type::Any);
3122 let bracket_next: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
3123 assert_eq!(unsafe { &*bracket_next() }.as_str(), "color");
3124 Ok(())
3125 }
3126
3127 #[test]
3128 fn empty_object_literal_in_if_branch_stays_dynamic() -> anyhow::Result<()> {
3129 let vm = Vm::with_all()?;
3130 vm.import_code(
3131 "vm_if_empty_object_branch",
3132 r#"
3133 pub fn first_note(steps) {
3134 let first = if steps.len() > 0 { steps[0] } else { {} };
3135 let first_note = if first.contains("note") { first.note } else { "fallback" };
3136 first_note
3137 }
3138
3139 pub fn first_ja(steps) {
3140 let first = if steps.len() > 0 { steps[0] } else { {} };
3141 if first.contains("ja") { first.ja } else { "すみません" }
3142 }
3143
3144 pub fn assign_first_note(steps) {
3145 let first = {};
3146 first = if steps.len() > 0 { steps[0] } else { {} };
3147 if first.contains("note") { first.note } else { "fallback" }
3148 }
3149 "#
3150 .as_bytes()
3151 .to_vec(),
3152 )?;
3153
3154 let compiled = vm.get_fn("vm_if_empty_object_branch::first_note", &[Type::Any])?;
3155 assert_eq!(compiled.ret_ty(), &Type::Str);
3156 let first_note: extern "C" fn(*const Dynamic) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
3157
3158 let empty_steps = Dynamic::list(Vec::new());
3159 assert_eq!(unsafe { &*first_note(&empty_steps) }.as_str(), "fallback");
3160
3161 let mut step = std::collections::BTreeMap::new();
3162 step.insert("note".into(), "hello".into());
3163 let steps = Dynamic::list(vec![Dynamic::map(step)]);
3164 assert_eq!(unsafe { &*first_note(&steps) }.as_str(), "hello");
3165
3166 let compiled = vm.get_fn("vm_if_empty_object_branch::first_ja", &[Type::Any])?;
3167 assert_eq!(compiled.ret_ty(), &Type::Any);
3168 let first_ja: extern "C" fn(*const Dynamic) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
3169 assert_eq!(unsafe { &*first_ja(&empty_steps) }.as_str(), "すみません");
3170
3171 let compiled = vm.get_fn("vm_if_empty_object_branch::assign_first_note", &[Type::Any])?;
3172 assert_eq!(compiled.ret_ty(), &Type::Any);
3173 let assign_first_note: extern "C" fn(*const Dynamic) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
3174 assert_eq!(unsafe { &*assign_first_note(&empty_steps) }.as_str(), "fallback");
3175 assert_eq!(unsafe { &*assign_first_note(&steps) }.as_str(), "hello");
3176 Ok(())
3177 }
3178
3179 #[test]
3180 fn list_literal_can_be_function_tail_expression() -> anyhow::Result<()> {
3181 let vm = Vm::with_all()?;
3182 vm.import_code(
3183 "vm_tail_list_literal",
3184 r#"
3185 pub fn numbers() {
3186 [1, 2, 3]
3187 }
3188
3189 pub fn maps() {
3190 [
3191 {note: "first"},
3192 {note: "second"}
3193 ]
3194 }
3195
3196 pub fn object_with_maps() {
3197 {
3198 steps: [
3199 {note: "first"},
3200 {note: "second"}
3201 ]
3202 }
3203 }
3204
3205 pub fn return_maps() {
3206 return [
3207 {note: "first"},
3208 {note: "second"}
3209 ];
3210 }
3211
3212 pub fn return_maps_without_semicolon() {
3213 return [
3214 {note: "first"},
3215 {note: "second"}
3216 ]
3217 }
3218
3219 pub fn tail_bare_variable() {
3220 let value = [
3221 {note: "first"},
3222 {note: "second"}
3223 ];
3224 value
3225 }
3226
3227 pub fn return_bare_variable_without_semicolon() {
3228 let value = [
3229 {note: "first"},
3230 {note: "second"}
3231 ];
3232 return value
3233 }
3234
3235 pub fn tail_object_variable() {
3236 let result = {
3237 steps: [
3238 {note: "first"},
3239 {note: "second"}
3240 ]
3241 };
3242 result
3243 }
3244 "#
3245 .as_bytes()
3246 .to_vec(),
3247 )?;
3248
3249 let compiled = vm.get_fn("vm_tail_list_literal::numbers", &[])?;
3250 assert_eq!(compiled.ret_ty(), &Type::Any);
3251 let numbers: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
3252 let result = unsafe { &*numbers() };
3253 assert_eq!(result.len(), 3);
3254 assert_eq!(result.get_idx(1).and_then(|value| value.as_int()), Some(2));
3255
3256 let compiled = vm.get_fn("vm_tail_list_literal::maps", &[])?;
3257 assert_eq!(compiled.ret_ty(), &Type::Any);
3258 let maps: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
3259 let result = unsafe { &*maps() };
3260 assert_eq!(result.len(), 2);
3261 assert_eq!(result.get_idx(1).and_then(|value| value.get_dynamic("note")).map(|value| value.as_str().to_string()), Some("second".to_string()));
3262
3263 let compiled = vm.get_fn("vm_tail_list_literal::object_with_maps", &[])?;
3264 assert_eq!(compiled.ret_ty(), &Type::Any);
3265 let object_with_maps: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
3266 let result = unsafe { &*object_with_maps() };
3267 let steps = result.get_dynamic("steps").expect("steps");
3268 assert_eq!(steps.len(), 2);
3269 assert_eq!(steps.get_idx(0).and_then(|value| value.get_dynamic("note")).map(|value| value.as_str().to_string()), Some("first".to_string()));
3270
3271 let compiled = vm.get_fn("vm_tail_list_literal::return_maps", &[])?;
3272 assert_eq!(compiled.ret_ty(), &Type::Any);
3273 let return_maps: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
3274 let result = unsafe { &*return_maps() };
3275 assert_eq!(result.len(), 2);
3276 assert_eq!(result.get_idx(1).and_then(|value| value.get_dynamic("note")).map(|value| value.as_str().to_string()), Some("second".to_string()));
3277
3278 let compiled = vm.get_fn("vm_tail_list_literal::return_maps_without_semicolon", &[])?;
3279 assert_eq!(compiled.ret_ty(), &Type::Any);
3280 let return_maps_without_semicolon: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
3281 let result = unsafe { &*return_maps_without_semicolon() };
3282 assert_eq!(result.len(), 2);
3283 assert_eq!(result.get_idx(0).and_then(|value| value.get_dynamic("note")).map(|value| value.as_str().to_string()), Some("first".to_string()));
3284
3285 let compiled = vm.get_fn("vm_tail_list_literal::tail_bare_variable", &[])?;
3286 assert_eq!(compiled.ret_ty(), &Type::Any);
3287 let tail_bare_variable: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
3288 let result = unsafe { &*tail_bare_variable() };
3289 assert_eq!(result.len(), 2);
3290 assert_eq!(result.get_idx(1).and_then(|value| value.get_dynamic("note")).map(|value| value.as_str().to_string()), Some("second".to_string()));
3291
3292 let compiled = vm.get_fn("vm_tail_list_literal::return_bare_variable_without_semicolon", &[])?;
3293 assert_eq!(compiled.ret_ty(), &Type::Any);
3294 let return_bare_variable_without_semicolon: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
3295 let result = unsafe { &*return_bare_variable_without_semicolon() };
3296 assert_eq!(result.len(), 2);
3297 assert_eq!(result.get_idx(0).and_then(|value| value.get_dynamic("note")).map(|value| value.as_str().to_string()), Some("first".to_string()));
3298
3299 let compiled = vm.get_fn("vm_tail_list_literal::tail_object_variable", &[])?;
3300 assert_eq!(compiled.ret_ty(), &Type::Any);
3301 let tail_object_variable: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
3302 let result = unsafe { &*tail_object_variable() };
3303 let steps = result.get_dynamic("steps").expect("steps");
3304 assert_eq!(steps.len(), 2);
3305 assert_eq!(steps.get_idx(1).and_then(|value| value.get_dynamic("note")).map(|value| value.as_str().to_string()), Some("second".to_string()));
3306 Ok(())
3307 }
3308
3309 #[test]
3310 fn match_literals_or_guard_order_and_block_body() -> anyhow::Result<()> {
3311 let vm = Vm::with_all()?;
3312 vm.import_code(
3313 "vm_match_scalar",
3314 r#"
3315 pub fn classify(value: i64) {
3316 match value {
3317 0i64 => 10i64,
3318 1i64 | 2i64 => 20i64,
3319 x if x > 10i64 => x + 100i64,
3320 _ => -1i64,
3321 }
3322 }
3323
3324 pub fn first_arm_wins() {
3325 match 1i64 {
3326 _ => 7i64,
3327 1i64 => 9i64,
3328 }
3329 }
3330
3331 pub fn block_body(value: i64) {
3332 match value {
3333 3i64 => {
3334 let base = 4i64;
3335 base + 5i64
3336 },
3337 _ => 1i64,
3338 }
3339 }
3340 "#
3341 .as_bytes()
3342 .to_vec(),
3343 )?;
3344
3345 let classify = vm.get_fn("vm_match_scalar::classify", &[Type::I64])?;
3346 assert_eq!(call_i64_1(&classify, 0), 10);
3347 assert_eq!(call_i64_1(&classify, 1), 20);
3348 assert_eq!(call_i64_1(&classify, 2), 20);
3349 assert_eq!(call_i64_1(&classify, 12), 112);
3350 assert_eq!(call_i64_1(&classify, 5), -1);
3351
3352 let first_arm_wins = vm.get_fn("vm_match_scalar::first_arm_wins", &[])?;
3353 assert_eq!(call_i64_0(&first_arm_wins), 7);
3354
3355 let block_body = vm.get_fn("vm_match_scalar::block_body", &[Type::I64])?;
3356 assert_eq!(call_i64_1(&block_body, 3), 9);
3357 assert_eq!(call_i64_1(&block_body, 4), 1);
3358 Ok(())
3359 }
3360
3361 #[test]
3362 fn match_binds_tuple_list_rest_and_struct_fields() -> anyhow::Result<()> {
3363 let vm = Vm::with_all()?;
3364 vm.import_code(
3365 "vm_match_bindings",
3366 r#"
3367 pub fn tuple_sum() {
3368 match (3i64, 4i64) {
3369 (a, b) => a + b,
3370 _ => 0i64,
3371 }
3372 }
3373
3374 pub fn list_rest_score() {
3375 let items = [1i64, 2i64, 3i64, 4i64];
3376 match items {
3377 [head, second, ..tail] if tail.len() == 2 => head * 100i64 + second * 10i64 + tail[1],
3378 _ => -1i64,
3379 }
3380 }
3381
3382 pub fn struct_field_score() {
3383 let data = {
3384 id: 7i64,
3385 tags: ["a", "b", "c"],
3386 nested: { value: 5i64 }
3387 };
3388 match data {
3389 Data { id, tags: ["a", second, ..rest], nested: Data { value } } => {
3390 id * 100i64 + value * 10i64 + rest.len()
3391 },
3392 _ => -1i64,
3393 }
3394 }
3395 "#
3396 .as_bytes()
3397 .to_vec(),
3398 )?;
3399
3400 let tuple_sum = vm.get_fn("vm_match_bindings::tuple_sum", &[])?;
3401 assert_eq!(call_i64_0(&tuple_sum), 7);
3402
3403 let list_rest_score = vm.get_fn("vm_match_bindings::list_rest_score", &[])?;
3404 assert_eq!(call_i64_0(&list_rest_score), 124);
3405
3406 let struct_field_score = vm.get_fn("vm_match_bindings::struct_field_score", &[])?;
3407 assert_eq!(call_i64_0(&struct_field_score), 751);
3408 Ok(())
3409 }
3410
3411 #[test]
3412 fn match_supports_nested_expressions_and_null_miss() -> anyhow::Result<()> {
3413 let vm = Vm::with_all()?;
3414 vm.import_code(
3415 "vm_match_nested",
3416 r#"
3417 pub fn nested(value: i64) {
3418 match value {
3419 1i64 => match "a" {
3420 "a" => 11i64,
3421 _ => 12i64,
3422 },
3423 2i64 => match [1i64, 2i64] {
3424 [_, tail] => tail + 20i64,
3425 _ => 0i64,
3426 },
3427 _ => 0i64,
3428 }
3429 }
3430
3431 pub fn no_arm(value: i64) {
3432 match value {
3433 1i64 => 10i64,
3434 }
3435 }
3436 "#
3437 .as_bytes()
3438 .to_vec(),
3439 )?;
3440
3441 let nested = vm.get_fn("vm_match_nested::nested", &[Type::I64])?;
3442 assert_eq!(call_i64_1(&nested, 1), 11);
3443 assert_eq!(call_i64_1(&nested, 2), 22);
3444 assert_eq!(call_i64_1(&nested, 3), 0);
3445
3446 let no_arm = vm.get_fn("vm_match_nested::no_arm", &[Type::I64])?;
3447 assert_eq!(no_arm.ret_ty(), &Type::Any);
3448 let no_arm: extern "C" fn(i64) -> *const Dynamic = unsafe { std::mem::transmute(no_arm.ptr()) };
3449 assert_eq!(unsafe { &*no_arm(1) }.as_int(), Some(10));
3450 assert!(unsafe { &*no_arm(2) }.is_null());
3451 Ok(())
3452 }
3453
3454 #[test]
3455 fn match_rejects_binding_after_first_or_pattern() -> anyhow::Result<()> {
3456 let vm = Vm::with_all()?;
3457 let err = vm
3458 .import_code(
3459 "vm_match_bad_or",
3460 r#"
3461 pub fn bad(value: i64) {
3462 match value {
3463 a | b => 1i64,
3464 }
3465 }
3466 "#
3467 .as_bytes()
3468 .to_vec(),
3469 )
3470 .expect_err("non-first or-pattern alternatives cannot bind");
3471 assert!(err.to_string().contains("or-pattern"));
3472 Ok(())
3473 }
3474
3475 #[test]
3476 fn list_return_value_supports_get_idx_method_call() -> anyhow::Result<()> {
3477 let vm = Vm::with_all()?;
3478 vm.import_code(
3479 "vm_returned_list_get_idx",
3480 r#"
3481 pub fn ids() {
3482 [
3483 "base",
3484 "2",
3485 "3"
3486 ]
3487 }
3488
3489 pub fn combinations() {
3490 let result = [];
3491 let values = ids();
3492 let idx = 0;
3493 while idx < values.len() {
3494 result.push(values.get_idx(idx));
3495 idx = idx + 1;
3496 }
3497 result
3498 }
3499 "#
3500 .as_bytes()
3501 .to_vec(),
3502 )?;
3503
3504 let compiled = vm.get_fn("vm_returned_list_get_idx::combinations", &[])?;
3505 assert_eq!(compiled.ret_ty(), &Type::Any);
3506 let combinations: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
3507 let result = unsafe { &*combinations() };
3508
3509 assert_eq!(result.len(), 3);
3510 assert_eq!(result.get_idx(0).map(|value| value.as_str().to_string()), Some("base".to_string()));
3511 assert_eq!(result.get_idx(2).map(|value| value.as_str().to_string()), Some("3".to_string()));
3512 Ok(())
3513 }
3514
3515 #[test]
3516 fn repeated_deep_step_literals_import_successfully() -> anyhow::Result<()> {
3517 fn extra_page_literal(depth: usize) -> String {
3518 let mut value = "{leaf: \"done\"}".to_string();
3519 for idx in 0..depth {
3520 value = format!("{{kind: \"page\", idx: {idx}, children: [{value}], meta: {{title: \"extra\", visible: true}}}}");
3521 }
3522 value
3523 }
3524
3525 let extra = extra_page_literal(48);
3526 let code = format!(
3527 r#"
3528 pub fn script() {{
3529 return [
3530 {{ja: "一つ目", note: "first", extra: {extra}}},
3531 {{ja: "二つ目", note: "second", extra: {extra}}},
3532 {{ja: "三つ目", note: "third", extra: {extra}}}
3533 ]
3534 }}
3535 "#
3536 );
3537
3538 let vm = Vm::with_all()?;
3539 vm.import_code("vm_repeated_deep_step_literals", code.into_bytes())?;
3540 let compiled = vm.get_fn("vm_repeated_deep_step_literals::script", &[])?;
3541 assert_eq!(compiled.ret_ty(), &Type::Any);
3542 let script: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
3543 let result = unsafe { &*script() };
3544 assert_eq!(result.len(), 3);
3545 assert_eq!(result.get_idx(2).and_then(|value| value.get_dynamic("note")).map(|value| value.as_str().to_string()), Some("third".to_string()));
3546 Ok(())
3547 }
3548
3549 #[test]
3550 fn native_import_uses_owning_vm() -> anyhow::Result<()> {
3551 let module_path = std::env::temp_dir().join(format!("zust_vm_import_owner_{}.zs", std::process::id()));
3552 std::fs::write(&module_path, "pub fn value() { 41 }")?;
3553 let module_path = module_path.to_string_lossy().replace('\\', "\\\\").replace('"', "\\\"");
3554
3555 let vm1 = Vm::with_all()?;
3556 vm1.import_code(
3557 "vm_import_owner",
3558 format!(
3559 r#"
3560 pub fn run() {{
3561 import("vm_imported_owner", "{module_path}");
3562 }}
3563 "#
3564 )
3565 .into_bytes(),
3566 )?;
3567 let compiled = vm1.get_fn("vm_import_owner::run", &[])?;
3568
3569 let vm2 = Vm::with_all()?;
3570 vm2.import_code("vm_import_other", b"pub fn run() { 0 }".to_vec())?;
3571 let _ = vm2.get_fn("vm_import_other::run", &[])?;
3572
3573 let run: extern "C" fn() = unsafe { std::mem::transmute(compiled.ptr()) };
3574 run();
3575
3576 assert!(vm1.get_fn("vm_imported_owner::value", &[]).is_ok());
3577 assert!(vm2.get_fn("vm_imported_owner::value", &[]).is_err());
3578 Ok(())
3579 }
3580
3581 #[test]
3582 fn object_last_field_call_does_not_need_trailing_comma() -> anyhow::Result<()> {
3583 let vm = Vm::with_all()?;
3584 vm.import_code(
3585 "vm_object_last_call_field",
3586 r#"
3587 pub fn extra_page() {
3588 {
3589 title: "extra",
3590 pages: [
3591 {note: "nested"}
3592 ]
3593 }
3594 }
3595
3596 pub fn data() {
3597 return [
3598 {
3599 note: "first",
3600 choices: ["a", "b"],
3601 extras: extra_page()
3602 },
3603 {
3604 note: "second",
3605 choices: ["c"],
3606 extras: extra_page()
3607 }
3608 ]
3609 }
3610 "#
3611 .as_bytes()
3612 .to_vec(),
3613 )?;
3614
3615 let compiled = vm.get_fn("vm_object_last_call_field::data", &[])?;
3616 assert_eq!(compiled.ret_ty(), &Type::Any);
3617 let data: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
3618 let result = unsafe { &*data() };
3619 assert_eq!(result.len(), 2);
3620 let first = result.get_idx(0).expect("first step");
3621 assert_eq!(first.get_dynamic("extras").and_then(|extras| extras.get_dynamic("title")).map(|title| title.as_str().to_string()), Some("extra".to_string()));
3622 Ok(())
3623 }
3624
3625 #[test]
3626 fn string_return_survives_scope_exit() -> anyhow::Result<()> {
3627 let vm = Vm::with_all()?;
3628 vm.import_code(
3629 "vm_string_return_scope",
3630 r#"
3631 pub fn source_root() {
3632 "../assets/character/男主角换装"
3633 }
3634
3635 pub fn binary_root() {
3636 "character_binary/男主角换装"
3637 }
3638
3639 pub fn runtime_binary_url() {
3640 "/" + binary_root()
3641 }
3642
3643 pub fn action_groups() {
3644 let root = source_root();
3645 let binary_url = runtime_binary_url();
3646 let binary_root = binary_root();
3647 [
3648 {
3649 id: "field_bottom",
3650 source_spine: root + "/战斗外/boy_b.spine",
3651 skeleton: binary_url + "/战斗外/boy_b/boy_b.skel.bytes",
3652 export_skeleton: binary_root + "/战斗外/boy_b/boy_b.skel.bytes"
3653 }
3654 ]
3655 }
3656 "#
3657 .as_bytes()
3658 .to_vec(),
3659 )?;
3660
3661 let compiled = vm.get_fn("vm_string_return_scope::source_root", &[])?;
3662 assert_eq!(compiled.ret_ty(), &Type::Str);
3663 let source_root: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
3664 let source_root = unsafe { &*source_root() };
3665 assert_eq!(source_root.as_str(), "../assets/character/男主角换装");
3666
3667 let compiled = vm.get_fn("vm_string_return_scope::action_groups", &[])?;
3668 assert_eq!(compiled.ret_ty(), &Type::Any);
3669 let action_groups: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
3670 let groups = unsafe { &*action_groups() };
3671 let first = groups.get_idx(0).expect("first action group");
3672 assert_eq!(first.get_dynamic("source_spine").map(|value| value.as_str().to_string()), Some("../assets/character/男主角换装/战斗外/boy_b.spine".to_string()));
3673 assert_eq!(first.get_dynamic("skeleton").map(|value| value.as_str().to_string()), Some("/character_binary/男主角换装/战斗外/boy_b/boy_b.skel.bytes".to_string()));
3674 Ok(())
3675 }
3676
3677 #[test]
3678 fn dynamic_string_add_uses_any_binary_fast_path() -> anyhow::Result<()> {
3679 let vm = Vm::with_all()?;
3680 vm.import_code(
3681 "vm_dynamic_string_add",
3682 br#"
3683 pub fn concat(left, right) {
3684 left + right
3685 }
3686 "#
3687 .to_vec(),
3688 )?;
3689
3690 let compiled = vm.get_fn("vm_dynamic_string_add::concat", &[Type::Any, Type::Any])?;
3691 assert_eq!(compiled.ret_ty(), &Type::Any);
3692 let concat: extern "C" fn(*const Dynamic, *const Dynamic) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
3693 let left = Dynamic::from("hello");
3694 let right = Dynamic::from(" world");
3695 let result = unsafe { &*concat(&left, &right) };
3696 assert_eq!(result.as_str(), "hello world");
3697 Ok(())
3698 }
3699
3700 #[test]
3701 fn large_dynamic_object_accepts_inline_call_fields() -> anyhow::Result<()> {
3702 let vm = Vm::with_all()?;
3703 let model_count = 180;
3704 let combination_count = 90;
3705 let models = (0..model_count)
3706 .map(|idx| {
3707 format!(
3708 r#"{{id: "model_{idx}", name: "模型_{idx}", source: "/美术资源/角色/少年/套装_{idx}/模型_{idx}.model.json", parts: [
3709 {{slot: "hair", path: "/模型/头发/颜色_{idx}/默认.png", z: 10}},
3710 {{slot: "body", path: "/模型/身体/套装_{idx}/默认.png", z: 1}},
3711 {{slot: "face", path: "/模型/表情/表情_{idx}/默认.png", z: 20}}
3712 ]}}"#
3713 )
3714 })
3715 .collect::<Vec<_>>()
3716 .join(",\n");
3717 let combinations = (0..combination_count).map(|idx| format!(r#"{{hair: "color_{idx}", body: "set_{idx}", face: "face_{idx}"}}"#)).collect::<Vec<_>>().join(",\n");
3718 let code = format!(
3719 r#"
3720 pub fn source_root() {{
3721 "/美术资源/角色/少年/默认"
3722 }}
3723
3724 pub fn runtime_boy_url() {{
3725 "/cdn/runtime/角色/少年/少年.model.json"
3726 }}
3727
3728 pub fn parts() {{
3729 [
3730 {{id: "hair", path: "/模型/头发/黑色/默认.png", z: 10}},
3731 {{id: "body", path: "/模型/身体/校服/默认.png", z: 1}},
3732 {{id: "face", path: "/模型/表情/微笑/默认.png", z: 20}}
3733 ]
3734 }}
3735
3736 pub fn action_groups() {{
3737 {{
3738 idle: [
3739 {{id: "stand", name: "站立", frames: ["待机/0001.png", "待机/0002.png"]}},
3740 {{id: "blink", name: "眨眼", frames: ["表情/眨眼/0001.png", "表情/眨眼/0002.png"]}}
3741 ],
3742 move: [
3743 {{id: "walk", name: "行走", frames: ["行走/0001.png", "行走/0002.png"]}},
3744 {{id: "run", name: "奔跑", frames: ["奔跑/0001.png", "奔跑/0002.png"]}}
3745 ]
3746 }}
3747 }}
3748
3749 pub fn default_model() {{
3750 {{
3751 id: "runtime_boy",
3752 name: "运行时少年",
3753 skins: [
3754 {{id: "school", title: "校服", source: "/套装/校服/model.json"}},
3755 {{id: "casual", title: "便服", source: "/套装/便服/model.json"}}
3756 ],
3757 models: [
3758 {models}
3759 ]
3760 }}
3761 }}
3762
3763 pub fn first_nine_combinations() {{
3764 [
3765 {combinations}
3766 ]
3767 }}
3768
3769 pub fn config() {{
3770 {{
3771 source_root: source_root(),
3772 runtime_boy_url: runtime_boy_url(),
3773 parts: parts(),
3774 action_groups: action_groups(),
3775 default_model: default_model(),
3776 first_nine_combinations: first_nine_combinations()
3777 }}
3778 }}
3779
3780 pub fn start() {{
3781 root::add("local/vm_large_inline_call_object/config", {{
3782 source_root: source_root(),
3783 runtime_boy_url: runtime_boy_url(),
3784 parts: parts(),
3785 action_groups: action_groups(),
3786 default_model: default_model(),
3787 first_nine_combinations: first_nine_combinations()
3788 }})
3789 }}
3790 "#
3791 );
3792 vm.import_code("vm_large_inline_call_object", code.into_bytes())?;
3793
3794 let compiled = vm.get_fn("vm_large_inline_call_object::config", &[])?;
3795 assert_eq!(compiled.ret_ty(), &Type::Any);
3796 let config: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
3797 let result = unsafe { &*config() };
3798 assert_eq!(result.get_dynamic("source_root").map(|value| value.as_str().to_string()), Some("/美术资源/角色/少年/默认".to_string()));
3799 assert_eq!(result.get_dynamic("first_nine_combinations").map(|value| value.len()), Some(combination_count));
3800
3801 let compiled = vm.get_fn("vm_large_inline_call_object::start", &[])?;
3802 assert_eq!(compiled.ret_ty(), &Type::Bool);
3803 let start: extern "C" fn() -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
3804 assert!(start());
3805 let saved = root::get("local/vm_large_inline_call_object/config")?;
3806 assert_eq!(saved.get_dynamic("first_nine_combinations").map(|value| value.len()), Some(combination_count));
3807 Ok(())
3808 }
3809
3810 #[cfg(feature = "http")]
3811 #[test]
3812 fn http_serve_accepts_inline_config_map() -> anyhow::Result<()> {
3813 let vm = Vm::with_all()?;
3814 vm.import_code(
3815 "vm_http_serve_inline_config",
3816 br#"
3817 pub fn start() {
3818 let server = http::serve({host: "127.0.0.1:5192"});
3819 server
3820 }
3821 "#
3822 .to_vec(),
3823 )?;
3824
3825 let compiled = vm.get_fn("vm_http_serve_inline_config::start", &[])?;
3826 assert_eq!(compiled.ret_ty(), &Type::Any);
3827 Ok(())
3828 }
3829
3830 #[cfg(feature = "http")]
3831 #[test]
3832 fn http_serve_accepts_variable_and_quoted_static_key() -> anyhow::Result<()> {
3833 let vm = Vm::with_all()?;
3834 vm.import_code(
3835 "vm_http_serve_quoted_static",
3836 br#"
3837 pub fn start(server_addr) {
3838 let http_server = http::serve({
3839 host: server_addr,
3840 ws: true,
3841 upload: "upload",
3842 "static": {
3843 path: "/",
3844 dir: "public/local"
3845 }
3846 });
3847 http_server
3848 }
3849 "#
3850 .to_vec(),
3851 )?;
3852
3853 let compiled = vm.get_fn("vm_http_serve_quoted_static::start", &[Type::Any])?;
3854 assert_eq!(compiled.ret_ty(), &Type::Any);
3855 Ok(())
3856 }
3857
3858 #[cfg(all(feature = "http", feature = "llm"))]
3859 #[test]
3860 fn oss_helpers_accept_explicit_config() -> anyhow::Result<()> {
3861 let vm = Vm::with_all()?;
3862 vm.import_code(
3863 "vm_oss_explicit_config",
3864 br#"
3865 pub fn upload(oss, bytes) {
3866 oss::upload(oss, "llm/input/audio.wav", bytes)
3867 }
3868
3869 pub fn http_upload(oss, bytes) {
3870 http::upload(oss, "uploads/input.bin", bytes)
3871 }
3872
3873 pub fn link(oss, uploaded) {
3874 oss::signed_url(oss, {oss_url: uploaded, expires: 3600})
3875 }
3876 "#
3877 .to_vec(),
3878 )?;
3879
3880 assert_eq!(vm.get_fn("vm_oss_explicit_config::upload", &[Type::Any, Type::Any])?.ret_ty(), &Type::Any);
3881 assert_eq!(vm.get_fn("vm_oss_explicit_config::http_upload", &[Type::Any, Type::Any])?.ret_ty(), &Type::Any);
3882 assert_eq!(vm.get_fn("vm_oss_explicit_config::link", &[Type::Any, Type::Any])?.ret_ty(), &Type::Any);
3883 Ok(())
3884 }
3885
3886 #[cfg(feature = "http")]
3887 #[test]
3888 fn load_script_accepts_http_serve_inline_config() -> anyhow::Result<()> {
3889 let vm = Vm::with_all()?;
3890 let (_fn_ptr, ty) = vm.load(
3891 br#"
3892 let server_addr = "127.0.0.1:5192";
3893 let http_server = http::serve({
3894 host: server_addr,
3895 ws: true,
3896 upload: "upload",
3897 "static": {
3898 path: "/",
3899 dir: "public/local"
3900 }
3901 });
3902 http_server
3903 "#
3904 .to_vec(),
3905 "arg".into(),
3906 )?;
3907
3908 assert_eq!(ty, Type::Any);
3909 Ok(())
3910 }
3911
3912 #[test]
3913 fn load_script_resolves_import_before_compile() -> anyhow::Result<()> {
3914 let module_path = std::env::temp_dir().join(format!("zust_vm_load_import_{}.zs", std::process::id()));
3915 std::fs::write(&module_path, "pub fn init() { return {ok: true}; }")?;
3916 let module_path = module_path.to_string_lossy().replace('\\', "\\\\").replace('"', "\\\"");
3917
3918 let vm = Vm::with_all()?;
3919 let (_fn_ptr, ty) = vm.load(
3920 format!(
3921 r#"
3922 import("create_scene", "{module_path}");
3923 create_scene::init();
3924 "#
3925 )
3926 .into_bytes(),
3927 "req".into(),
3928 )?;
3929
3930 assert_eq!(ty, Type::Void);
3931 Ok(())
3932 }
3933
3934 #[test]
3935 fn gpu_struct_layout_packs_and_unpacks_dynamic_maps() -> anyhow::Result<()> {
3936 let vm = Vm::with_all()?;
3937 vm.import_code(
3938 "vm_gpu_layout",
3939 br#"
3940 pub struct Params {
3941 a: u32,
3942 b: u32,
3943 c: u32,
3944 }
3945 "#
3946 .to_vec(),
3947 )?;
3948
3949 let layout = vm.gpu_struct_layout("vm_gpu_layout::Params", &[])?;
3950 assert_eq!(layout.size, 16);
3951 assert_eq!(layout.fields.iter().map(|field| (field.name.as_str(), field.offset)).collect::<Vec<_>>(), vec![("a", 0), ("b", 4), ("c", 8)]);
3952
3953 let value = dynamic::map!("a"=> 1u32, "b"=> 2u32, "c"=> 3u32);
3954 let bytes = layout.pack_map(&value)?;
3955 assert_eq!(bytes.len(), 16);
3956 assert_eq!(&bytes[0..4], &1u32.to_ne_bytes());
3957 assert_eq!(&bytes[4..8], &2u32.to_ne_bytes());
3958 assert_eq!(&bytes[8..12], &3u32.to_ne_bytes());
3959
3960 let read = layout.unpack_map(&bytes)?;
3961 assert_eq!(read.get_dynamic("a").and_then(|value| value.as_uint()), Some(1));
3962 assert_eq!(read.get_dynamic("b").and_then(|value| value.as_uint()), Some(2));
3963 assert_eq!(read.get_dynamic("c").and_then(|value| value.as_uint()), Some(3));
3964 Ok(())
3965 }
3966
3967 #[test]
3968 fn root_native_calls_do_not_take_ownership_of_dynamic_args() -> anyhow::Result<()> {
3969 let vm = Vm::with_all()?;
3970 vm.import_code(
3971 "vm_root_clone_bridge",
3972 br#"
3973 pub fn add_then_reuse(arg) {
3974 let user = {
3975 address: "test-wallet",
3976 points: 20
3977 };
3978 root::add("local/root-clone-bridge-user", user);
3979 user.points = user.points - 7;
3980 root::add("local/root-clone-bridge-user", user);
3981 {
3982 user: user,
3983 points: user.points
3984 }
3985 }
3986
3987 pub fn clone_then_mutate(arg) {
3988 let user = {
3989 profile: {
3990 points: 20
3991 }
3992 };
3993 let copied = user.clone();
3994 copied.profile.points = 13;
3995 user
3996 }
3997 "#
3998 .to_vec(),
3999 )?;
4000
4001 let compiled = vm.get_fn("vm_root_clone_bridge::add_then_reuse", &[Type::Any])?;
4002 assert_eq!(compiled.ret_ty(), &Type::Any);
4003 let add_then_reuse: extern "C" fn(*const Dynamic) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
4004 let arg = Dynamic::Null;
4005 let result = add_then_reuse(&arg);
4006 let result = unsafe { &*result };
4007
4008 assert_eq!(result.get_dynamic("points").and_then(|value| value.as_int()), Some(13));
4009 let mut json = String::new();
4010 result.to_json(&mut json);
4011 assert!(json.contains("\"points\": 13"));
4012
4013 let clone_then_mutate = vm.get_fn("vm_root_clone_bridge::clone_then_mutate", &[Type::Any])?;
4014 let clone_then_mutate: extern "C" fn(*const Dynamic) -> *const Dynamic = unsafe { std::mem::transmute(clone_then_mutate.ptr()) };
4015 let result = clone_then_mutate(&arg);
4016 let result = unsafe { &*result };
4017 assert_eq!(result.get_dynamic("profile").unwrap().get_dynamic("points").and_then(|value| value.as_int()), Some(20));
4018 Ok(())
4019 }
4020
4021 struct CounterForTypedReceiver {
4022 value: i64,
4023 }
4024
4025 extern "C" fn counter_for_typed_receiver_get(value: *const Dynamic) -> i64 {
4026 unsafe { &*value }.as_custom::<CounterForTypedReceiver>().map(|counter| counter.value).unwrap_or(-1)
4027 }
4028
4029 struct NavMapForFunctionArg;
4030
4031 extern "C" fn nav_map_for_function_arg_new() -> *const Dynamic {
4032 Box::into_raw(Box::new(Dynamic::custom(NavMapForFunctionArg)))
4033 }
4034
4035 #[derive(Debug, Default)]
4036 struct PropertyForwardingObject {
4037 values: parking_lot::RwLock<BTreeMap<String, Dynamic>>,
4038 }
4039
4040 impl CustomProperty for PropertyForwardingObject {
4041 fn get_key(&self, key: &str) -> Option<Dynamic> {
4042 self.values.read().get(key).cloned()
4043 }
4044
4045 fn set_key(&self, key: &str, value: Dynamic) -> bool {
4046 self.values.write().insert(key.to_string(), value);
4047 true
4048 }
4049 }
4050
4051 extern "C" fn property_forwarding_object_new() -> *const Dynamic {
4052 Box::into_raw(Box::new(Dynamic::custom_with_properties(PropertyForwardingObject::default())))
4053 }
4054
4055 #[test]
4056 fn typed_receiver_method_call_dispatches_with_type_hint() -> anyhow::Result<()> {
4057 let vm = Vm::with_all()?;
4058 vm.add_empty_type("Counter")?;
4059 let counter_ty = vm.get_symbol("Counter", Vec::new())?;
4060 vm.add_native_method_ptr("Counter", "get", &[counter_ty], Type::I64, counter_for_typed_receiver_get as *const u8)?;
4061 vm.import_code(
4062 "vm_typed_receiver_method",
4063 br#"
4064 pub fn run(value) {
4065 value::<Counter>::get()
4066 }
4067 "#
4068 .to_vec(),
4069 )?;
4070
4071 let compiled = vm.get_fn("vm_typed_receiver_method::run", &[Type::Any])?;
4072 assert_eq!(compiled.ret_ty(), &Type::I64);
4073 let run: extern "C" fn(*const Dynamic) -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
4074 let value = Dynamic::custom(CounterForTypedReceiver { value: 42 });
4075
4076 assert_eq!(run(&value), 42);
4077 Ok(())
4078 }
4079
4080 #[test]
4081 fn native_custom_object_can_be_passed_to_zs_function() -> anyhow::Result<()> {
4082 let vm = Vm::with_all()?;
4083 vm.add_empty_type("NavMap")?;
4084 vm.add_native_method_ptr("NavMap", "new", &[], Type::Any, nav_map_for_function_arg_new as *const u8)?;
4085 vm.import_code(
4086 "vm_native_custom_arg",
4087 br#"
4088 pub fn add_nav_spawns(world, navmap) {
4089 navmap
4090 }
4091
4092 pub fn run(world) {
4093 let navmap = NavMap::new();
4094 let with_spawns = add_nav_spawns(world, navmap);
4095 with_spawns
4096 }
4097 "#
4098 .to_vec(),
4099 )?;
4100
4101 let compiled = vm.get_fn("vm_native_custom_arg::run", &[Type::Any])?;
4102 assert_eq!(compiled.ret_ty(), &Type::Any);
4103 let run: extern "C" fn(*const Dynamic) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
4104 let world = Dynamic::Null;
4105 let result = run(&world);
4106 let result = unsafe { &*result };
4107
4108 assert!(result.as_custom::<NavMapForFunctionArg>().is_some());
4109 Ok(())
4110 }
4111
4112 #[test]
4113 fn any_field_assignment_forwards_to_custom_properties() -> anyhow::Result<()> {
4114 let vm = Vm::with_all()?;
4115 vm.add_empty_type("Dialog")?;
4116 vm.add_native_method_ptr("Dialog", "new", &[], Type::Any, property_forwarding_object_new as *const u8)?;
4117 vm.import_code(
4118 "vm_custom_property_forwarding",
4119 br#"
4120 pub fn run() {
4121 let dialog = Dialog::new();
4122 dialog.file_mode = 3;
4123 dialog.file_mode
4124 }
4125 "#
4126 .to_vec(),
4127 )?;
4128
4129 let compiled = vm.get_fn("vm_custom_property_forwarding::run", &[])?;
4130 assert_eq!(compiled.ret_ty(), &Type::Any);
4131 let run: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
4132 let result = unsafe { &*run() };
4133
4134 assert_eq!(result.as_int(), Some(3));
4135 Ok(())
4136 }
4137
4138 #[test]
4139 fn native_custom_object_typed_local_can_be_passed_to_zs_function() -> anyhow::Result<()> {
4140 let vm = Vm::with_all()?;
4141 vm.add_empty_type("NavMap")?;
4142 let _nav_map_ty = vm.get_symbol("NavMap", Vec::new())?;
4143 vm.add_native_method_ptr("NavMap", "new", &[], Type::Any, nav_map_for_function_arg_new as *const u8)?;
4144 vm.import_code(
4145 "vm_native_custom_typed_arg",
4146 br#"
4147 pub fn add_nav_spawns(world, navmap) {
4148 navmap
4149 }
4150
4151 pub fn run(world) {
4152 let navmap: NavMap = NavMap::new();
4153 let with_spawns = add_nav_spawns(world, navmap);
4154 with_spawns
4155 }
4156 "#
4157 .to_vec(),
4158 )?;
4159
4160 let compiled = vm.get_fn("vm_native_custom_typed_arg::run", &[Type::Any])?;
4161 let run: extern "C" fn(*const Dynamic) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
4162 let world = Dynamic::Null;
4163 let result = run(&world);
4164 let result = unsafe { &*result };
4165
4166 assert!(result.as_custom::<NavMapForFunctionArg>().is_some());
4167 Ok(())
4168 }
4169
4170 #[test]
4173 fn dynamic_type_checks_on_null_and_primitive_values() -> anyhow::Result<()> {
4174 let vm = Vm::with_all()?;
4175 vm.import_code(
4176 "vm_dynamic_type_checks",
4177 br#"
4178 pub fn is_list_on_int() {
4179 let x = 42i64;
4180 x.is_list()
4181 }
4182
4183 pub fn is_map_on_int() {
4184 let x = 42i64;
4185 x.is_map()
4186 }
4187
4188 pub fn is_null_on_int() {
4189 let x = 42i64;
4190 x.is_null()
4191 }
4192 "#
4193 .to_vec(),
4194 )?;
4195
4196 let compiled = vm.get_fn("vm_dynamic_type_checks::is_list_on_int", &[])?;
4197 assert_eq!(compiled.ret_ty(), &Type::Bool);
4198 let is_list_on_int: extern "C" fn() -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
4199 assert!(!is_list_on_int());
4200
4201 let compiled = vm.get_fn("vm_dynamic_type_checks::is_map_on_int", &[])?;
4202 assert_eq!(compiled.ret_ty(), &Type::Bool);
4203 let is_map_on_int: extern "C" fn() -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
4204 assert!(!is_map_on_int());
4205
4206 let compiled = vm.get_fn("vm_dynamic_type_checks::is_null_on_int", &[])?;
4207 assert_eq!(compiled.ret_ty(), &Type::Bool);
4208 let is_null_on_int: extern "C" fn() -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
4209 assert!(!is_null_on_int());
4210 Ok(())
4211 }
4212
4213 #[test]
4214 fn void_and_null_are_false_in_boolean_context() -> anyhow::Result<()> {
4215 let vm = Vm::with_all()?;
4216 vm.import_code(
4217 "vm_void_bool_context",
4218 br#"
4219 pub fn run() {
4220 let items = [1i32, 2i32];
4221 let ok1 = !(items.push(3i32) && false);
4222 let ok2 = !(true && items.push(4i32));
4223 let ok3 = null || true;
4224 let ok4 = null || items.len() == 4;
4225 ok1 && ok2 && ok3 && ok4
4226 }
4227 "#
4228 .to_vec(),
4229 )?;
4230
4231 let compiled = vm.get_fn("vm_void_bool_context::run", &[])?;
4232 assert_eq!(compiled.ret_ty(), &Type::Bool);
4233 let run: extern "C" fn() -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
4234 assert!(run());
4235 Ok(())
4236 }
4237
4238 #[test]
4239 fn empty_for_loop_range_has_zero_iterations() -> anyhow::Result<()> {
4240 let vm = Vm::with_all()?;
4241 vm.import_code(
4242 "vm_empty_for_range",
4243 br#"
4244 pub fn empty_exclusive() {
4245 let count = 0i32;
4246 for i in 0..0 {
4247 count += i;
4248 }
4249 count
4250 }
4251
4252 pub fn single_inclusive_iteration() {
4253 let count = 0i32;
4254 for i in 5..=5 {
4255 count += i;
4256 }
4257 count
4258 }
4259 "#
4260 .to_vec(),
4261 )?;
4262
4263 let compiled = vm.get_fn("vm_empty_for_range::empty_exclusive", &[])?;
4265 assert_eq!(compiled.ret_ty(), &Type::I64);
4266 let empty_exclusive: extern "C" fn() -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
4267 assert_eq!(empty_exclusive(), 0);
4268
4269 let compiled = vm.get_fn("vm_empty_for_range::single_inclusive_iteration", &[])?;
4270 assert_eq!(compiled.ret_ty(), &Type::I64);
4271 let single_inclusive: extern "C" fn() -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
4272 assert_eq!(single_inclusive(), 5);
4273 Ok(())
4274 }
4275
4276 #[test]
4277 fn for_loop_range_accepts_dynamic_i64_bounds() -> anyhow::Result<()> {
4278 let vm = Vm::with_all()?;
4279 vm.import_code(
4280 "vm_dynamic_for_range",
4281 br#"
4282 pub fn main() {
4283 let view = {};
4284 view.grid_min_x = -2i64;
4285 view.grid_max_x = 2i64;
4286
4287 let end_x = view.grid_max_x + 1i64;
4288 let count = 0i64;
4289
4290 for x in view.grid_min_x..end_x {
4291 count += 1i64;
4292 }
4293
4294 count
4295 }
4296 "#
4297 .to_vec(),
4298 )?;
4299
4300 let compiled = vm.get_fn("vm_dynamic_for_range::main", &[])?;
4301 assert_eq!(compiled.ret_ty(), &Type::I64);
4302 let main: extern "C" fn() -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
4303 assert_eq!(main(), 5);
4304 Ok(())
4305 }
4306
4307 #[test]
4308 fn map_contains_key_on_non_existent_and_nested_keys() -> anyhow::Result<()> {
4309 let vm = Vm::with_all()?;
4310 vm.import_code(
4311 "vm_map_contains",
4312 br#"
4313 pub fn contains_existing(data) {
4314 data.contains("name")
4315 }
4316
4317 pub fn contains_missing(data) {
4318 data.contains("nothing")
4319 }
4320 "#
4321 .to_vec(),
4322 )?;
4323
4324 let compiled = vm.get_fn("vm_map_contains::contains_existing", &[Type::Any])?;
4325 assert_eq!(compiled.ret_ty(), &Type::Bool);
4326 let contains_existing: extern "C" fn(*const Dynamic) -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
4327 let data = dynamic::map!("name"=> "test");
4328 assert!(contains_existing(&data));
4329
4330 let compiled = vm.get_fn("vm_map_contains::contains_missing", &[Type::Any])?;
4331 assert_eq!(compiled.ret_ty(), &Type::Bool);
4332 let contains_missing: extern "C" fn(*const Dynamic) -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
4333 assert!(!contains_missing(&data));
4334 Ok(())
4335 }
4336
4337 #[test]
4338 fn list_pop_on_empty_list_returns_null() -> anyhow::Result<()> {
4339 let vm = Vm::with_all()?;
4340 vm.import_code(
4341 "vm_pop_empty",
4342 br#"
4343 pub fn pop_new_list() {
4344 let items = [];
4345 let value = items.pop();
4346 let still_empty = items.len() == 0;
4347 {value: value, empty: still_empty}
4348 }
4349
4350 pub fn pop_until_empty() {
4351 let items = [1i64, 2i64];
4352 items.pop();
4353 let last = items.pop();
4354 let drained = items.pop();
4355 {last: last, drained: drained}
4356 }
4357 "#
4358 .to_vec(),
4359 )?;
4360
4361 let compiled = vm.get_fn("vm_pop_empty::pop_new_list", &[])?;
4362 assert_eq!(compiled.ret_ty(), &Type::Any);
4363 let pop_new_list: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
4364 let result = unsafe { &*pop_new_list() };
4365 assert!(result.get_dynamic("value").is_some_and(|v| v.is_null()));
4366 assert_eq!(result.get_dynamic("empty").and_then(|v| v.as_bool()), Some(true));
4367
4368 let compiled = vm.get_fn("vm_pop_empty::pop_until_empty", &[])?;
4369 assert_eq!(compiled.ret_ty(), &Type::Any);
4370 let pop_until_empty: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
4371 let result = unsafe { &*pop_until_empty() };
4372 assert_eq!(result.get_dynamic("last").and_then(|v| v.as_int()), Some(1));
4373 assert!(result.get_dynamic("drained").is_some_and(|v| v.is_null()));
4374 Ok(())
4375 }
4376
4377 #[test]
4378 fn void_function_with_multiple_code_paths() -> anyhow::Result<()> {
4379 let vm = Vm::with_all()?;
4380 vm.import_code(
4381 "vm_void_multi_path",
4382 br#"
4383 pub fn log_if_positive(value: i64) {
4384 if value > 0 {
4385 print(value);
4386 return;
4387 }
4388 if value < 0 {
4389 print(-value);
4390 return;
4391 }
4392 print(0);
4393 }
4394 "#
4395 .to_vec(),
4396 )?;
4397
4398 let compiled = vm.get_fn("vm_void_multi_path::log_if_positive", &[Type::I64])?;
4399 assert!(compiled.ret_ty().is_void());
4400 Ok(())
4401 }
4402
4403 #[test]
4404 fn any_method_call_chain_on_returned_dynamic_value() -> anyhow::Result<()> {
4405 let vm = Vm::with_all()?;
4406 vm.import_code(
4407 "vm_any_method_chain",
4408 br#"
4409 pub fn get_tags(data) {
4410 let tags = data.tags;
4411 if tags.is_list() {
4412 return tags.len();
4413 }
4414 0
4415 }
4416 "#
4417 .to_vec(),
4418 )?;
4419
4420 let compiled = vm.get_fn("vm_any_method_chain::get_tags", &[Type::Any])?;
4421 assert_eq!(compiled.ret_ty(), &Type::I64);
4422 let get_tags: extern "C" fn(*const Dynamic) -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
4423 let data = dynamic::map!("tags"=> Dynamic::list(vec!["a".into(), "b".into(), "c".into()]));
4424 assert_eq!(get_tags(&data), 3);
4425
4426 let empty_data = Dynamic::Null;
4427 assert_eq!(get_tags(&empty_data), 0);
4428 Ok(())
4429 }
4430
4431 #[test]
4432 fn infers_any_arg_function_return_before_body_compile() -> anyhow::Result<()> {
4433 let vm = Vm::with_all()?;
4434 vm.import_code(
4435 "vm_infer_any_arg_return",
4436 br#"
4437 pub fn caller(candidate) {
4438 let center = polygon_center(candidate.visualPolygon);
4439 center[0]
4440 }
4441
4442 pub fn polygon_center(point_list) {
4443 let total_x = 0;
4444 let total_y = 0;
4445 let count = 0;
4446 if point_list.is_list() {
4447 for point in point_list {
4448 if point.is_list() && point.len() >= 2 {
4449 total_x += point[0];
4450 total_y += point[1];
4451 count += 1;
4452 }
4453 }
4454 }
4455 if count == 0 {
4456 return [0, 0];
4457 }
4458 [total_x / count, total_y / count]
4459 }
4460 "#
4461 .to_vec(),
4462 )?;
4463
4464 let compiled = vm.get_fn("vm_infer_any_arg_return::caller", &[Type::Any])?;
4465 assert_eq!(compiled.ret_ty(), &Type::Any);
4466 let caller: extern "C" fn(*const Dynamic) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
4467 let candidate = dynamic::map!(
4468 "visualPolygon"=> Dynamic::list(vec![
4469 Dynamic::list(vec![2i64.into(), 4i64.into()]),
4470 Dynamic::list(vec![6i64.into(), 8i64.into()]),
4471 ])
4472 );
4473 let result = unsafe { &*caller(&candidate) };
4474 assert_eq!(result.as_int(), Some(4));
4475 Ok(())
4476 }
4477
4478 #[test]
4479 fn recursive_factorial_keeps_static_return_type() -> anyhow::Result<()> {
4480 let vm = Vm::with_all()?;
4481 vm.import_code(
4482 "vm_recursive_factorial",
4483 br#"
4484 fn factorial(n: i64) {
4485 if n <= 1 {
4486 return 1;
4487 }
4488 n * factorial(n - 1)
4489 }
4490
4491 pub fn run(n: i64) {
4492 factorial(n)
4493 }
4494 "#
4495 .to_vec(),
4496 )?;
4497
4498 let compiled = vm.get_fn("vm_recursive_factorial::run", &[Type::I64])?;
4499 assert_eq!(compiled.ret_ty(), &Type::I64);
4500 let run: extern "C" fn(i64) -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
4501 assert_eq!(run(5), 120);
4502 Ok(())
4503 }
4504
4505 #[test]
4506 fn explicit_const_generic_function_calls_generate_distinct_variants() -> anyhow::Result<()> {
4507 let vm = Vm::with_all()?;
4508 vm.import_code(
4509 "vm_generic_const_variants",
4510 br#"
4511 fn value<N>() {
4512 N
4513 }
4514
4515 pub fn two() {
4516 value::<2>()
4517 }
4518
4519 pub fn three() {
4520 value::<3>()
4521 }
4522 "#
4523 .to_vec(),
4524 )?;
4525
4526 let compiled = vm.get_fn("vm_generic_const_variants::two", &[])?;
4527 assert_eq!(compiled.ret_ty(), &Type::I32);
4528 let two: extern "C" fn() -> i32 = unsafe { std::mem::transmute(compiled.ptr()) };
4529 assert_eq!(two(), 2);
4530
4531 let compiled = vm.get_fn("vm_generic_const_variants::three", &[])?;
4532 assert_eq!(compiled.ret_ty(), &Type::I32);
4533 let three: extern "C" fn() -> i32 = unsafe { std::mem::transmute(compiled.ptr()) };
4534 assert_eq!(three(), 3);
4535 Ok(())
4536 }
4537
4538 #[test]
4539 fn generic_function_body_resolves_private_generic_helper_after_import() -> anyhow::Result<()> {
4540 let vm = Vm::with_all()?;
4541 vm.import_code(
4542 "vm_generic_private_helper",
4543 br#"
4544 fn helper<N>() {
4545 N
4546 }
4547
4548 pub fn bench<N>() {
4549 helper::<N>()
4550 }
4551 "#
4552 .to_vec(),
4553 )?;
4554
4555 let compiled = vm.get_fn_with_params("vm_generic_private_helper::bench", &[], &[Type::ConstInt(7)])?;
4556 assert_eq!(compiled.ret_ty(), &Type::I32);
4557 let run: extern "C" fn() -> i32 = unsafe { std::mem::transmute(compiled.ptr()) };
4558 assert_eq!(run(), 7);
4559 Ok(())
4560 }
4561
4562 #[test]
4563 fn const_generic_repeat_array_initializes_all_items() -> anyhow::Result<()> {
4564 let vm = Vm::with_all()?;
4565 vm.import_code(
4566 "vm_generic_repeat_array",
4567 br#"
4568 fn bench<N>() {
4569 let is_prime = [true; N];
4570 is_prime[0] = false;
4571 is_prime[1] = false;
4572 let count = 0i64;
4573 for p in 2i64..N {
4574 if is_prime[p] == true {
4575 count = count + 1;
4576 let step = p;
4577 let j = p * p;
4578 while j < N {
4579 is_prime[j] = false;
4580 j = j + step;
4581 }
4582 }
4583 }
4584 count
4585 }
4586
4587 pub fn run() {
4588 bench::<10>()
4589 }
4590
4591 pub fn run_1000() {
4592 bench::<1000>()
4593 }
4594
4595 pub fn run_100000() {
4596 bench::<100000>()
4597 }
4598 "#
4599 .to_vec(),
4600 )?;
4601
4602 let compiled = vm.get_fn("vm_generic_repeat_array::run", &[])?;
4603 assert_eq!(compiled.ret_ty(), &Type::I64);
4604 let run: extern "C" fn() -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
4605 assert_eq!(run(), 4);
4606
4607 let compiled = vm.get_fn("vm_generic_repeat_array::run_1000", &[])?;
4608 assert_eq!(compiled.ret_ty(), &Type::I64);
4609 let run_1000: extern "C" fn() -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
4610 assert_eq!(run_1000(), 168);
4611
4612 let compiled = vm.get_fn("vm_generic_repeat_array::run_100000", &[])?;
4613 assert_eq!(compiled.ret_ty(), &Type::I64);
4614 let run_100000: extern "C" fn() -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
4615 assert_eq!(run_100000(), 9592);
4616 Ok(())
4617 }
4618
4619 #[test]
4620 fn repeat_array_initializes_scalar_patterns() -> anyhow::Result<()> {
4621 let vm = Vm::with_all()?;
4622 vm.import_code(
4623 "vm_repeat_scalar_patterns",
4624 br#"
4625 pub fn count_true() {
4626 let items = [true; 100000];
4627 let count = 0i64;
4628 for idx in 0i64..100000 {
4629 if items[idx] == true {
4630 count = count + 1;
4631 }
4632 }
4633 count
4634 }
4635
4636 pub fn i32_pair() {
4637 let items = [-7i32; 1000];
4638 items[0i64] + items[999i64]
4639 }
4640
4641 pub fn i64_pair() {
4642 let items = [1234567890123i64; 1000];
4643 items[0i64] + items[999i64]
4644 }
4645
4646 pub fn f64_pair() {
4647 let items = [1.5f64; 1000];
4648 items[0i64] + items[999i64]
4649 }
4650 "#
4651 .to_vec(),
4652 )?;
4653
4654 let compiled = vm.get_fn("vm_repeat_scalar_patterns::count_true", &[])?;
4655 assert_eq!(compiled.ret_ty(), &Type::I64);
4656 let count_true: extern "C" fn() -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
4657 assert_eq!(count_true(), 100000);
4658
4659 let compiled = vm.get_fn("vm_repeat_scalar_patterns::i32_pair", &[])?;
4660 assert_eq!(compiled.ret_ty(), &Type::I32);
4661 let i32_pair: extern "C" fn() -> i32 = unsafe { std::mem::transmute(compiled.ptr()) };
4662 assert_eq!(i32_pair(), -14);
4663
4664 let compiled = vm.get_fn("vm_repeat_scalar_patterns::i64_pair", &[])?;
4665 assert_eq!(compiled.ret_ty(), &Type::I64);
4666 let i64_pair: extern "C" fn() -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
4667 assert_eq!(i64_pair(), 2469135780246);
4668
4669 let compiled = vm.get_fn("vm_repeat_scalar_patterns::f64_pair", &[])?;
4670 assert_eq!(compiled.ret_ty(), &Type::F64);
4671 let f64_pair: extern "C" fn() -> f64 = unsafe { std::mem::transmute(compiled.ptr()) };
4672 assert_eq!(f64_pair(), 3.0);
4673 Ok(())
4674 }
4675
4676 #[test]
4677 fn bool_array_store_normalizes_condition_values() -> anyhow::Result<()> {
4678 let vm = Vm::with_all()?;
4679 vm.import_code(
4680 "vm_bool_array_store",
4681 br#"
4682 pub fn run() {
4683 let items = [false; 4];
4684 items[1] = 3i64 > 2i64;
4685 items[2] = 3i64 < 2i64;
4686 if items[1] == true && items[2] == false {
4687 1i64
4688 } else {
4689 0i64
4690 }
4691 }
4692 "#
4693 .to_vec(),
4694 )?;
4695
4696 let compiled = vm.get_fn("vm_bool_array_store::run", &[])?;
4697 assert_eq!(compiled.ret_ty(), &Type::I64);
4698 let run: extern "C" fn() -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
4699 assert_eq!(run(), 1);
4700 Ok(())
4701 }
4702
4703 #[test]
4704 fn bool_array_large_sequential_writes() -> anyhow::Result<()> {
4705 let vm = Vm::with_all()?;
4706 vm.import_code(
4707 "vm_bool_array_large_writes",
4708 br#"
4709 pub fn run() {
4710 let items = [true; 100000];
4711 for idx in 0i64..100000 {
4712 items[idx] = false;
4713 }
4714 let count = 0i64;
4715 for idx in 0i64..100000 {
4716 if items[idx] == false {
4717 count = count + 1;
4718 }
4719 }
4720 count
4721 }
4722 "#
4723 .to_vec(),
4724 )?;
4725
4726 let compiled = vm.get_fn("vm_bool_array_large_writes::run", &[])?;
4727 assert_eq!(compiled.ret_ty(), &Type::I64);
4728 let run: extern "C" fn() -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
4729 assert_eq!(run(), 100000);
4730 Ok(())
4731 }
4732
4733 #[test]
4734 fn bool_array_sieve_style_indices_stay_in_bounds() -> anyhow::Result<()> {
4735 let vm = Vm::with_all()?;
4736 vm.import_code(
4737 "vm_bool_array_sieve_indices",
4738 br#"
4739 pub fn run() {
4740 let items = [true; 100000];
4741 let writes = 0i64;
4742 for p in 2i64..100000 {
4743 let step = p;
4744 let j = p * p;
4745 while j < 100000 {
4746 items[j] = false;
4747 writes = writes + 1;
4748 j = j + step;
4749 }
4750 }
4751 writes
4752 }
4753 "#
4754 .to_vec(),
4755 )?;
4756
4757 let compiled = vm.get_fn("vm_bool_array_sieve_indices::run", &[])?;
4758 assert_eq!(compiled.ret_ty(), &Type::I64);
4759 let run: extern "C" fn() -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
4760 assert!(run() > 0);
4761 Ok(())
4762 }
4763
4764 #[test]
4765 fn sieve_style_indices_compute_in_bounds_without_array_write() -> anyhow::Result<()> {
4766 let vm = Vm::with_all()?;
4767 vm.import_code(
4768 "vm_sieve_indices_no_write",
4769 br#"
4770 pub fn run() {
4771 let max_j = 0i64;
4772 for p in 2i64..100000 {
4773 let step = p;
4774 let j = p * p;
4775 while j < 100000 {
4776 if j < 0i64 {
4777 return -1i64;
4778 }
4779 if j > max_j {
4780 max_j = j;
4781 }
4782 j = j + step;
4783 }
4784 }
4785 max_j
4786 }
4787 "#
4788 .to_vec(),
4789 )?;
4790
4791 let compiled = vm.get_fn("vm_sieve_indices_no_write::run", &[])?;
4792 assert_eq!(compiled.ret_ty(), &Type::I64);
4793 let run: extern "C" fn() -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
4794 assert_eq!(run(), 99999);
4795 Ok(())
4796 }
4797
4798 #[test]
4799 fn dynamic_list_index_sum_uses_static_accumulator_type() -> anyhow::Result<()> {
4800 let vm = Vm::with_all()?;
4801 vm.import_code(
4802 "vm_dynamic_index_sum",
4803 br#"
4804 pub fn sum_list(n: i64) {
4805 let l = [];
4806 for i in 0..n {
4807 l.push(i);
4808 }
4809 let sum = 0i64;
4810 for j in 0..n {
4811 sum = sum + l[j];
4812 }
4813 sum
4814 }
4815 "#
4816 .to_vec(),
4817 )?;
4818
4819 let compiled = vm.get_fn("vm_dynamic_index_sum::sum_list", &[Type::I64])?;
4820 let sum_list_id = vm.jit.write().compiler.sym_tab.symbols.get_id("vm_dynamic_index_sum::sum_list")?;
4821 let hints = vm.jit.write().compiler.inferred_local_type_hints(sum_list_id, &[], &[Type::I64]);
4822 assert!(hints.iter().any(|ty| matches!(ty, Some(Type::List(elem)) if elem.as_ref() == &Type::I64)), "local type hints: {:?}", hints);
4823 assert_eq!(compiled.ret_ty(), &Type::I64);
4824 let sum_list: extern "C" fn(i64) -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
4825 assert_eq!(sum_list(1000), 499500);
4826 Ok(())
4827 }
4828
4829 #[test]
4830 fn loop_pushed_list_is_typed_vector() -> anyhow::Result<()> {
4831 let vm = Vm::with_all()?;
4832 vm.import_code(
4833 "vm_loop_pushed_list",
4834 br#"
4835 pub fn make(n: i64) {
4836 let l = [];
4837 for i in 0..n {
4838 l.push(i);
4839 }
4840 l
4841 }
4842 "#
4843 .to_vec(),
4844 )?;
4845 let compiled = vm.get_fn("vm_loop_pushed_list::make", &[Type::I64])?;
4846 let make: extern "C" fn(i64) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
4847 let result = unsafe { &*make(3) };
4848 assert!(matches!(result, Dynamic::VecI64(v) if v == &vec![0, 1, 2]), "expected flat VecI64, got: {:?}", result);
4849 Ok(())
4850 }
4851
4852 #[test]
4853 fn inferred_empty_list_uses_typed_dynamic_vector() -> anyhow::Result<()> {
4854 let vm = Vm::with_all()?;
4855 vm.import_code(
4856 "vm_inferred_typed_list",
4857 br#"
4858 pub fn make() {
4859 let l = [];
4860 l.push(1i64);
4861 l
4862 }
4863 "#
4864 .to_vec(),
4865 )?;
4866
4867 let compiled = vm.get_fn("vm_inferred_typed_list::make", &[])?;
4868 assert_eq!(compiled.ret_ty(), &Type::Any);
4869 let make: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
4870 let result = unsafe { &*make() };
4871 assert!(matches!(result, Dynamic::VecI64(values) if values == &vec![1]), "result: {:?}", result);
4872 Ok(())
4873 }
4874
4875 #[test]
4876 fn for_in_iterates_list_filled_in_same_function() -> anyhow::Result<()> {
4877 let vm = Vm::with_all()?;
4878 vm.import_code(
4879 "vm_for_in_local_pushed_list",
4880 br#"
4881 pub fn sum_i32_items() {
4882 let items = [];
4883 items.push(6000i32);
4884 items.push(4000i32);
4885 let total = 0i32;
4886 for item in items {
4887 total += item;
4888 }
4889 total
4890 }
4891
4892 pub fn sum_split_bps() {
4893 let splits = [];
4894 splits.push({ bps: "6000" });
4895 splits.push({ bps: 4000 });
4896 let total = 0i32;
4897 let count = 0i32;
4898 for split in splits {
4899 total += split.bps as i32;
4900 count += 1i32;
4901 }
4902 total + count
4903 }
4904 "#
4905 .to_vec(),
4906 )?;
4907
4908 let compiled = vm.get_fn("vm_for_in_local_pushed_list::sum_i32_items", &[])?;
4909 assert_eq!(compiled.ret_ty(), &Type::I32);
4910 let sum_i32_items: extern "C" fn() -> i32 = unsafe { std::mem::transmute(compiled.ptr()) };
4911 assert_eq!(sum_i32_items(), 10000);
4912
4913 let compiled = vm.get_fn("vm_for_in_local_pushed_list::sum_split_bps", &[])?;
4914 assert_eq!(compiled.ret_ty(), &Type::I32);
4915 let sum_split_bps: extern "C" fn() -> i32 = unsafe { std::mem::transmute(compiled.ptr()) };
4916 assert_eq!(sum_split_bps(), 10002);
4917 Ok(())
4918 }
4919
4920 #[test]
4921 fn inferred_list_shortcuts_cover_scalar_types() -> anyhow::Result<()> {
4922 let vm = Vm::with_all()?;
4923 vm.import_code(
4924 "vm_inferred_list_shortcuts",
4925 br#"
4926 pub fn second_bool() {
4927 let l = [];
4928 l.push(true);
4929 l.push(false);
4930 l[1]
4931 }
4932
4933 pub fn first_u8() {
4934 let l = [];
4935 l.push(7u8);
4936 l[0]
4937 }
4938
4939 pub fn sum_u8_for_in() {
4940 let l = [];
4941 l.push(7u8);
4942 l.push(8u8);
4943 let sum = 0i64;
4944 for item in l {
4945 sum = sum + item as i64;
4946 }
4947 sum
4948 }
4949
4950 pub fn count_bool_for_in() {
4951 let l = [];
4952 l.push(true);
4953 l.push(false);
4954 l.push(true);
4955 let count = 0i64;
4956 for item in l {
4957 if item {
4958 count += 1i64;
4959 }
4960 }
4961 count
4962 }
4963
4964 pub fn sum_i32(n: i64) {
4965 let l = [];
4966 for i in 0..n {
4967 l.push(i as i32);
4968 }
4969 let sum = 0i32;
4970 for j in 0..n {
4971 sum = sum + l[j];
4972 }
4973 sum
4974 }
4975
4976 pub fn sum_f32(n: i64) {
4977 let l = [];
4978 for i in 0..n {
4979 l.push(i as f32);
4980 }
4981 let sum = 0f32;
4982 for j in 0..n {
4983 sum = sum + l[j];
4984 }
4985 sum
4986 }
4987
4988 pub fn second_str() {
4989 let l = [];
4990 l.push("first");
4991 l.push("second");
4992 l[1]
4993 }
4994 "#
4995 .to_vec(),
4996 )?;
4997
4998 let compiled = vm.get_fn("vm_inferred_list_shortcuts::second_bool", &[])?;
4999 let second_bool_id = vm.jit.write().compiler.sym_tab.symbols.get_id("vm_inferred_list_shortcuts::second_bool")?;
5000 let hints = vm.jit.write().compiler.inferred_local_type_hints(second_bool_id, &[], &[]);
5001 assert!(hints.iter().any(|ty| matches!(ty, Some(Type::List(elem)) if elem.as_ref() == &Type::Bool)), "bool local type hints: {:?}", hints);
5002 assert_eq!(compiled.ret_ty(), &Type::Bool);
5003 let second_bool: extern "C" fn() -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
5004 assert!(!second_bool());
5005
5006 let compiled = vm.get_fn("vm_inferred_list_shortcuts::first_u8", &[])?;
5007 let first_u8_id = vm.jit.write().compiler.sym_tab.symbols.get_id("vm_inferred_list_shortcuts::first_u8")?;
5008 let hints = vm.jit.write().compiler.inferred_local_type_hints(first_u8_id, &[], &[]);
5009 assert!(hints.iter().any(|ty| matches!(ty, Some(Type::List(elem)) if elem.as_ref() == &Type::U8)), "u8 local type hints: {:?}", hints);
5010 assert_eq!(compiled.ret_ty(), &Type::U8);
5011 let first_u8: extern "C" fn() -> u8 = unsafe { std::mem::transmute(compiled.ptr()) };
5012 assert_eq!(first_u8(), 7);
5013
5014 let compiled = vm.get_fn("vm_inferred_list_shortcuts::sum_u8_for_in", &[])?;
5015 assert_eq!(compiled.ret_ty(), &Type::I64);
5016 let sum_u8_for_in: extern "C" fn() -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
5017 assert_eq!(sum_u8_for_in(), 15);
5018
5019 let compiled = vm.get_fn("vm_inferred_list_shortcuts::count_bool_for_in", &[])?;
5020 assert_eq!(compiled.ret_ty(), &Type::I64);
5021 let count_bool_for_in: extern "C" fn() -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
5022 assert_eq!(count_bool_for_in(), 2);
5023
5024 let compiled = vm.get_fn("vm_inferred_list_shortcuts::sum_i32", &[Type::I64])?;
5025 let sum_i32_id = vm.jit.write().compiler.sym_tab.symbols.get_id("vm_inferred_list_shortcuts::sum_i32")?;
5026 let hints = vm.jit.write().compiler.inferred_local_type_hints(sum_i32_id, &[], &[Type::I64]);
5027 assert!(hints.iter().any(|ty| matches!(ty, Some(Type::List(elem)) if elem.as_ref() == &Type::I32)), "i32 local type hints: {:?}", hints);
5028 assert_eq!(compiled.ret_ty(), &Type::I32);
5029 let sum_i32: extern "C" fn(i64) -> i32 = unsafe { std::mem::transmute(compiled.ptr()) };
5030 assert_eq!(sum_i32(100), 4950);
5031
5032 let compiled = vm.get_fn("vm_inferred_list_shortcuts::sum_f32", &[Type::I64])?;
5033 let sum_f32_id = vm.jit.write().compiler.sym_tab.symbols.get_id("vm_inferred_list_shortcuts::sum_f32")?;
5034 let hints = vm.jit.write().compiler.inferred_local_type_hints(sum_f32_id, &[], &[Type::I64]);
5035 assert!(hints.iter().any(|ty| matches!(ty, Some(Type::List(elem)) if elem.as_ref() == &Type::F32)), "f32 local type hints: {:?}", hints);
5036 assert_eq!(compiled.ret_ty(), &Type::F32);
5037 let sum_f32: extern "C" fn(i64) -> f32 = unsafe { std::mem::transmute(compiled.ptr()) };
5038 assert_eq!(sum_f32(10), 45.0);
5039
5040 let compiled = vm.get_fn("vm_inferred_list_shortcuts::second_str", &[])?;
5041 let second_str_id = vm.jit.write().compiler.sym_tab.symbols.get_id("vm_inferred_list_shortcuts::second_str")?;
5042 let hints = vm.jit.write().compiler.inferred_local_type_hints(second_str_id, &[], &[]);
5043 assert!(hints.iter().any(|ty| matches!(ty, Some(Type::List(elem)) if elem.as_ref() == &Type::Str)), "str local type hints: {:?}", hints);
5044 assert_eq!(compiled.ret_ty(), &Type::Str);
5045 let second_str: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
5046 let result = unsafe { &*second_str() };
5047 assert_eq!(result.as_str(), "second");
5048 Ok(())
5049 }
5050
5051 #[test]
5052 fn inferred_list_supports_bracket_set_idx() -> anyhow::Result<()> {
5053 let vm = Vm::with_all()?;
5054 vm.import_code(
5055 "vm_inferred_list_set_idx",
5056 br#"
5057 pub fn swap_first_two() {
5058 let items = [];
5059 items.push(1i64);
5060 items.push(2i64);
5061 let j = 0i64;
5062 let a = items[j];
5063 let b = items[j + 1];
5064 items[j] = b;
5065 items[j + 1] = a;
5066 items[0] * 10i64 + items[1]
5067 }
5068
5069 pub fn replace_string() {
5070 let items = [];
5071 items.push("old");
5072 items[0] = "new";
5073 items[0]
5074 }
5075 "#
5076 .to_vec(),
5077 )?;
5078
5079 let compiled = vm.get_fn("vm_inferred_list_set_idx::swap_first_two", &[])?;
5080 assert_eq!(compiled.ret_ty(), &Type::I64);
5081 let swap_first_two: extern "C" fn() -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
5082 assert_eq!(swap_first_two(), 21);
5083
5084 let compiled = vm.get_fn("vm_inferred_list_set_idx::replace_string", &[])?;
5085 assert_eq!(compiled.ret_ty(), &Type::Str);
5086 let replace_string: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
5087 let result = unsafe { &*replace_string() };
5088 assert_eq!(result.as_str(), "new");
5089 Ok(())
5090 }
5091
5092 #[test]
5093 fn root_get_returns_null_for_missing_key_which_compares_correctly() -> anyhow::Result<()> {
5094 let vm = Vm::with_all()?;
5095 vm.import_code(
5096 "vm_root_get_missing",
5097 br#"
5098 pub fn check_missing() {
5099 let existing = root::get("local/vm_root_get_missing_test");
5100 if existing.is_map() {
5101 return false;
5102 }
5103 true
5104 }
5105 "#
5106 .to_vec(),
5107 )?;
5108
5109 let compiled = vm.get_fn("vm_root_get_missing::check_missing", &[])?;
5110 assert_eq!(compiled.ret_ty(), &Type::Bool);
5111 let check_missing: extern "C" fn() -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
5112 assert!(check_missing());
5113 Ok(())
5114 }
5115
5116 #[test]
5117 fn map_get_key_on_null_map_returns_null() -> anyhow::Result<()> {
5118 let vm = Vm::with_all()?;
5119 vm.import_code(
5120 "vm_get_key_null_map",
5121 br#"
5122 pub fn get_key_null(data) {
5123 data.get_key("missing")
5124 }
5125 "#
5126 .to_vec(),
5127 )?;
5128
5129 let compiled = vm.get_fn("vm_get_key_null_map::get_key_null", &[Type::Any])?;
5130 assert_eq!(compiled.ret_ty(), &Type::Any);
5131 let get_key_null: extern "C" fn(*const Dynamic) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
5132
5133 let data_map = dynamic::map!("exists"=> 1i64);
5134 let missing = unsafe { &*get_key_null(&data_map) };
5135 assert!(missing.is_null());
5136
5137 let null = Dynamic::Null;
5138 let result = unsafe { &*get_key_null(&null) };
5139 assert!(result.is_null());
5140 Ok(())
5141 }
5142
5143 #[test]
5144 fn keys_on_empty_map_returns_empty_list() -> anyhow::Result<()> {
5145 let vm = Vm::with_all()?;
5146 vm.import_code(
5147 "vm_keys_empty_map",
5148 br#"
5149 pub fn empty_map_keys() {
5150 let data = {};
5151 data.keys().len()
5152 }
5153 "#
5154 .to_vec(),
5155 )?;
5156
5157 let compiled = vm.get_fn("vm_keys_empty_map::empty_map_keys", &[])?;
5158 assert_eq!(compiled.ret_ty(), &Type::I32);
5159 let empty_map_keys: extern "C" fn() -> i32 = unsafe { std::mem::transmute(compiled.ptr()) };
5160 assert_eq!(empty_map_keys(), 0);
5161 Ok(())
5162 }
5163
5164 #[test]
5165 fn cast_between_all_integer_widths() -> anyhow::Result<()> {
5166 let vm = Vm::with_all()?;
5167 vm.import_code(
5168 "vm_cast_integer_widths",
5169 br#"
5170 pub fn i64_to_i32(value: i64) {
5171 value as i32
5172 }
5173
5174 pub fn i32_to_i64(value: i32) {
5175 value as i64
5176 }
5177
5178 pub fn u32_to_i64(value: u32) {
5179 value as i64
5180 }
5181 "#
5182 .to_vec(),
5183 )?;
5184
5185 let compiled = vm.get_fn("vm_cast_integer_widths::i64_to_i32", &[Type::I64])?;
5186 assert_eq!(compiled.ret_ty(), &Type::I32);
5187 let i64_to_i32: extern "C" fn(i64) -> i32 = unsafe { std::mem::transmute(compiled.ptr()) };
5188 assert_eq!(i64_to_i32(42), 42);
5189
5190 let compiled = vm.get_fn("vm_cast_integer_widths::i32_to_i64", &[Type::I32])?;
5191 assert_eq!(compiled.ret_ty(), &Type::I64);
5192 let i32_to_i64: extern "C" fn(i32) -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
5193 assert_eq!(i32_to_i64(-1), -1);
5194
5195 let compiled = vm.get_fn("vm_cast_integer_widths::u32_to_i64", &[Type::U32])?;
5196 assert_eq!(compiled.ret_ty(), &Type::I64);
5197 let u32_to_i64: extern "C" fn(u32) -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
5198 assert_eq!(u32_to_i64(42), 42);
5199 Ok(())
5200 }
5201
5202 #[test]
5203 fn boolean_literals_in_complex_expression_trees() -> anyhow::Result<()> {
5204 let vm = Vm::with_all()?;
5205 vm.import_code(
5206 "vm_complex_boolean",
5207 br#"
5208 pub fn exclusive_or(a: bool, b: bool) {
5209 (a && !b) || (!a && b)
5210 }
5211
5212 pub fn implies(a: bool, b: bool) {
5213 !a || b
5214 }
5215 "#
5216 .to_vec(),
5217 )?;
5218
5219 let compiled = vm.get_fn("vm_complex_boolean::exclusive_or", &[Type::Bool, Type::Bool])?;
5220 assert_eq!(compiled.ret_ty(), &Type::Bool);
5221 let exclusive_or: extern "C" fn(bool, bool) -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
5222 assert!(exclusive_or(true, false));
5223 assert!(exclusive_or(false, true));
5224 assert!(!exclusive_or(true, true));
5225 assert!(!exclusive_or(false, false));
5226
5227 let compiled = vm.get_fn("vm_complex_boolean::implies", &[Type::Bool, Type::Bool])?;
5228 assert_eq!(compiled.ret_ty(), &Type::Bool);
5229 let implies: extern "C" fn(bool, bool) -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
5230 assert!(implies(false, true));
5231 assert!(implies(false, false));
5232 assert!(implies(true, true));
5233 assert!(!implies(true, false));
5234 Ok(())
5235 }
5236
5237 #[test]
5238 fn concrete_struct_method_returning_self_type() -> anyhow::Result<()> {
5239 let vm = Vm::with_all()?;
5240 vm.import_code(
5241 "vm_struct_method_self",
5242 br#"
5243 pub struct Vec3 {
5244 x: f64,
5245 y: f64,
5246 z: f64,
5247 }
5248
5249 impl Vec3 {
5250 pub fn add(self: Vec3, other: Vec3) {
5251 Vec3{x: self.x + other.x, y: self.y + other.y, z: self.z + other.z}
5252 }
5253 }
5254
5255 pub fn run() {
5256 let v1 = Vec3{x: 1.0f64, y: 2.0f64, z: 3.0f64};
5257 let v2 = Vec3{x: 4.0f64, y: 5.0f64, z: 6.0f64};
5258 let sum = v1.add(v2);
5259 sum.x + sum.y + sum.z
5260 }
5261 "#
5262 .to_vec(),
5263 )?;
5264
5265 let compiled = vm.get_fn("vm_struct_method_self::run", &[])?;
5266 assert_eq!(compiled.ret_ty(), &Type::F64);
5267 let run: extern "C" fn() -> f64 = unsafe { std::mem::transmute(compiled.ptr()) };
5268 assert_eq!(run(), 21.0);
5269 Ok(())
5270 }
5271
5272 #[test]
5273 fn deep_nested_struct_access_with_multiple_field_levels() -> anyhow::Result<()> {
5274 let vm = Vm::with_all()?;
5275 vm.import_code(
5276 "vm_deep_nested_struct",
5277 br#"
5278 pub struct A {
5279 value: i64,
5280 }
5281
5282 pub struct B {
5283 a: A,
5284 }
5285
5286 pub struct C {
5287 b: B,
5288 }
5289
5290 pub fn direct_access() {
5291 let c = C{b: B{a: A{value: 99}}};
5292 c.b.a.value
5293 }
5294
5295 pub fn via_variable() {
5296 let c = C{b: B{a: A{value: 77}}};
5297 let b = c.b;
5298 let a = b.a;
5299 a.value
5300 }
5301 "#
5302 .to_vec(),
5303 )?;
5304
5305 let compiled = vm.get_fn("vm_deep_nested_struct::direct_access", &[])?;
5306 assert_eq!(compiled.ret_ty(), &Type::I64);
5307 let direct_access: extern "C" fn() -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
5308 assert_eq!(direct_access(), 99);
5309
5310 let compiled = vm.get_fn("vm_deep_nested_struct::via_variable", &[])?;
5311 assert_eq!(compiled.ret_ty(), &Type::I64);
5312 let via_variable: extern "C" fn() -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
5313 assert_eq!(via_variable(), 77);
5314 Ok(())
5315 }
5316
5317 #[test]
5318 fn array_index_with_dynamic_value_via_method() -> anyhow::Result<()> {
5319 let vm = Vm::with_all()?;
5320 vm.import_code(
5321 "vm_array_idx_dynamic",
5322 br#"
5323 pub fn get_by_idx(list, idx) {
5324 list.get_idx(idx)
5325 }
5326 "#
5327 .to_vec(),
5328 )?;
5329
5330 let compiled = vm.get_fn("vm_array_idx_dynamic::get_by_idx", &[Type::Any, Type::I64])?;
5331 assert_eq!(compiled.ret_ty(), &Type::Any);
5332 let get_by_idx: extern "C" fn(*const Dynamic, i64) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
5333
5334 let list = Dynamic::list(vec!["a".into(), "b".into()]);
5335 let first = unsafe { &*get_by_idx(&list, 0) };
5336 assert_eq!(first.as_str(), "a");
5337
5338 let out = unsafe { &*get_by_idx(&list, 10) };
5339 assert!(out.is_null());
5340 Ok(())
5341 }
5342
5343 #[test]
5344 fn dynamic_field_access_with_optional_or_fallback() -> anyhow::Result<()> {
5345 let vm = Vm::with_all()?;
5346 vm.import_code(
5347 "vm_dynamic_or_fallback",
5348 br#"
5349 pub fn with_fallback(data) {
5350 if data.contains("name") { data.name } else { "unknown" }
5351 }
5352
5353 pub fn with_fallback_missing(data) {
5354 if data.contains("nickname") { data.nickname } else { "unnamed" }
5355 }
5356 "#
5357 .to_vec(),
5358 )?;
5359
5360 let compiled = vm.get_fn("vm_dynamic_or_fallback::with_fallback", &[Type::Any])?;
5361 assert_eq!(compiled.ret_ty(), &Type::Any);
5362 let with_fallback: extern "C" fn(*const Dynamic) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
5363 let data = dynamic::map!("name"=> "Alice");
5364 let result = unsafe { &*with_fallback(&data) };
5365 assert_eq!(result.as_str(), "Alice");
5366
5367 let compiled = vm.get_fn("vm_dynamic_or_fallback::with_fallback_missing", &[Type::Any])?;
5368 let with_fallback_missing: extern "C" fn(*const Dynamic) -> *const Dynamic = unsafe { std::mem::transmute(compiled.ptr()) };
5369 let result = unsafe { &*with_fallback_missing(&data) };
5370 assert_eq!(result.as_str(), "unnamed");
5371 Ok(())
5372 }
5373
5374 #[test]
5375 fn for_in_loop_iterates_over_list_and_map_directly() -> anyhow::Result<()> {
5376 let vm = Vm::with_all()?;
5377 vm.import_code(
5378 "vm_for_in_collection",
5379 br#"
5380 pub fn sum_list(items) {
5381 let total = 0i64;
5382 for item in items {
5383 total = total + 1;
5384 }
5385 total
5386 }
5387
5388 pub fn count_map_keys(data) {
5389 let count = 0i64;
5390 for key in data.keys() {
5391 count = count + 1;
5392 }
5393 count
5394 }
5395
5396 pub fn for_in_list_works(items) {
5397 let exists = false;
5398 for item in items {
5399 exists = true;
5400 }
5401 exists
5402 }
5403
5404 pub fn for_in_map_values_works(data) {
5405 let exists = false;
5406 for value in data {
5407 exists = true;
5408 }
5409 exists
5410 }
5411 "#
5412 .to_vec(),
5413 )?;
5414
5415 let compiled = vm.get_fn("vm_for_in_collection::sum_list", &[Type::Any])?;
5416 assert_eq!(compiled.ret_ty(), &Type::I64);
5417 let sum_list: extern "C" fn(*const Dynamic) -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
5418 let items = Dynamic::list(vec![Dynamic::from(1i64), Dynamic::from(2i64), Dynamic::from(3i64)]);
5419 assert_eq!(sum_list(&items), 3);
5420
5421 let data = dynamic::map!("x"=> 1i64, "y"=> 2i64);
5422 let compiled = vm.get_fn("vm_for_in_collection::count_map_keys", &[Type::Any])?;
5423 assert_eq!(compiled.ret_ty(), &Type::I64);
5424 let count_map_keys: extern "C" fn(*const Dynamic) -> i64 = unsafe { std::mem::transmute(compiled.ptr()) };
5425 assert_eq!(count_map_keys(&data), 2);
5426
5427 let compiled = vm.get_fn("vm_for_in_collection::for_in_list_works", &[Type::Any])?;
5428 assert_eq!(compiled.ret_ty(), &Type::Bool);
5429 let for_in_list_works: extern "C" fn(*const Dynamic) -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
5430 let empty = Dynamic::list(Vec::new());
5431 assert!(!for_in_list_works(&empty));
5432 assert!(for_in_list_works(&items));
5433
5434 let compiled = vm.get_fn("vm_for_in_collection::for_in_map_values_works", &[Type::Any])?;
5435 assert_eq!(compiled.ret_ty(), &Type::Bool);
5436 let for_in_map_values_works: extern "C" fn(*const Dynamic) -> bool = unsafe { std::mem::transmute(compiled.ptr()) };
5437 let empty_map = dynamic::map!();
5438 assert!(!for_in_map_values_works(&empty_map));
5439 assert!(for_in_map_values_works(&data));
5440
5441 Ok(())
5442 }
5443
5444 #[test]
5445 fn concurrent_100_threads_no_memory_leak() -> anyhow::Result<()> {
5446 let vm = Vm::with_all()?;
5447 vm.import_code(
5448 "vm_stress",
5449 br#"
5450 pub fn heavy_alloc(idx: i64) {
5451 let items = [];
5452 let i = 0;
5453 while i < 50 {
5454 items.push({
5455 id: i + idx,
5456 name: "item-" + i,
5457 tags: ["tag-a", "tag-b", "tag-c"],
5458 meta: {
5459 created: 1234567890i64,
5460 score: (i * 3.14f64) as i64,
5461 extra: "prefix/" + i + "/" + idx
5462 }
5463 });
5464 i = i + 1;
5465 }
5466 items
5467 }
5468
5469 pub fn string_concat_stress() {
5470 let i = 0;
5471 let result = "";
5472 while i < 200 {
5473 result = result + "data-" + i + ",";
5474 i = i + 1;
5475 }
5476 result
5477 }
5478 "#
5479 .to_vec(),
5480 )?;
5481
5482 let (heavy_ptr, _) = vm.get_fn_ptr("vm_stress::heavy_alloc", &[Type::I64])?;
5483 let (concat_ptr, _) = vm.get_fn_ptr("vm_stress::string_concat_stress", &[])?;
5484
5485 let threads: usize = std::thread::available_parallelism().map(|n| n.get()).unwrap_or(4).max(100);
5486 let iters_per_thread = 200;
5487 let total_calls = threads * iters_per_thread * 2;
5488
5489 let before = current_rss_kb();
5490 eprintln!("threads={threads} iters_per_thread={iters_per_thread} total_calls={total_calls} rss_before={before}KB");
5491
5492 run_stress_round(threads, iters_per_thread, heavy_ptr as usize, concat_ptr as usize);
5494 let r1 = current_rss_kb();
5495 eprintln!("rss_after_round1={r1}KB");
5496
5497 run_stress_round(threads, iters_per_thread, heavy_ptr as usize, concat_ptr as usize);
5499 let r2 = current_rss_kb();
5500 eprintln!("rss_after_round2={r2}KB");
5501
5502 run_stress_round(threads, iters_per_thread, heavy_ptr as usize, concat_ptr as usize);
5504 let r3 = current_rss_kb();
5505 eprintln!("rss_after_round3={r3}KB");
5506
5507 run_stress_round(threads, iters_per_thread, heavy_ptr as usize, concat_ptr as usize);
5509 let r4 = current_rss_kb();
5510 eprintln!("rss_after_round4={r4}KB");
5511
5512 let d12 = r2.saturating_sub(r1);
5514 let d23 = r3.saturating_sub(r2);
5515 let d34 = r4.saturating_sub(r3);
5516 eprintln!("delta_r1→r2={d12}KB delta_r2→r3={d23}KB delta_r3→r4={d34}KB");
5517
5518 let max_growth_kb = 20 * 1024;
5520 assert!(d34 < max_growth_kb, "memory keeps growing after allocator warm-up: round1={r1} round2={r2} round3={r3} round4={r4} delta12={d12}KB delta23={d23}KB delta34={d34}KB (max stable growth={max_growth_kb}KB)");
5521
5522 Ok(())
5523 }
5524
5525 fn run_stress_round(threads: usize, iters: usize, heavy_ptr: usize, concat_ptr: usize) {
5526 std::thread::scope(|scope| {
5527 let mut handles = Vec::with_capacity(threads);
5528 for t in 0..threads {
5529 let heavy_ptr = heavy_ptr;
5530 let concat_ptr = concat_ptr;
5531 handles.push(scope.spawn(move || {
5532 let heavy_fn: extern "C" fn(i64) -> *const Dynamic = unsafe { std::mem::transmute(heavy_ptr as *const u8) };
5533 let concat_fn: extern "C" fn() -> *const Dynamic = unsafe { std::mem::transmute(concat_ptr as *const u8) };
5534 for i in 0..iters {
5535 let r_ptr = heavy_fn((t * iters + i) as i64);
5537 assert!(!r_ptr.is_null());
5538 unsafe {
5539 let r = &*r_ptr;
5540 assert!(r.len() > 0, "heavy_alloc returned empty list");
5541 drop(Box::from_raw(r_ptr as *mut Dynamic));
5542 }
5543
5544 let s_ptr = concat_fn();
5546 assert!(!s_ptr.is_null());
5547 unsafe {
5548 let s = &*s_ptr;
5549 assert!(s.len() > 0, "string_concat_stress returned empty");
5550 drop(Box::from_raw(s_ptr as *mut Dynamic));
5551 }
5552 }
5553 }));
5554 }
5555 for h in handles {
5556 h.join().unwrap();
5557 }
5558 });
5559 }
5560
5561 fn current_rss_kb() -> u64 {
5562 let pid = std::process::id();
5564 if let Ok(output) = std::process::Command::new("ps").args(["-p", &pid.to_string(), "-o", "rss="]).output() {
5565 if let Ok(s) = String::from_utf8(output.stdout) {
5566 if let Some(kb) = s.trim().parse::<u64>().ok() {
5567 return kb;
5568 }
5569 }
5570 }
5571 if let Ok(statm) = std::fs::read_to_string("/proc/self/statm") {
5573 let parts: Vec<&str> = statm.split_whitespace().collect();
5574 if let Some(rss_pages) = parts.get(1).and_then(|s| s.parse::<u64>().ok()) {
5575 return rss_pages * 4; }
5577 }
5578 0
5579 }
5580}