#include "pocketpy.h" #include "pocketpy_c.h" using namespace pkpy; #define ERRHANDLER_OPEN try { \ try { \ if (vm->c_data.top() == nullptr) \ return false; \ #define ERRHANDLER_CLOSE \ } catch( Exception e ) { \ vm->c_data.clear(); \ vm->c_data.push(VAR(e.summary())); \ vm->c_data.push(NULL); \ return false; \ } \ } catch(...) { \ std::cerr << "ERROR: a non pocketpy exeception was thrown " \ << "this probably means pocketpy itself has a bug!\n"; \ exit(2); \ } bool pkpy_clear_error(pkpy_vm vm_handle, const char** message) { VM* vm = (VM*) vm_handle; try { if (vm->c_data.top() != nullptr) return false; vm->c_data.pop(); Str wrapped_message = CAST(Str&, vm->c_data.top()); if (message != nullptr) *message = wrapped_message.c_str_dup(); else std::cerr << "ERROR: " << wrapped_message << "\n"; vm->c_data.pop(); //at this point the stack is clear return true; } catch(...) { std::cerr << "ERROR: a non pocketpy exeception was thrown " << "this probably means pocketpy itself has a bug!\n"; exit(2); } } pkpy_vm pkpy_vm_create(bool use_stdio, bool enable_os) { VM* vm = new VM(use_stdio, enable_os); return (pkpy_vm) vm; } bool pkpy_vm_exec(pkpy_vm vm_handle, const char* source) { VM* vm = (VM*) vm_handle; ERRHANDLER_OPEN vm->exec(source, "main.py", EXEC_MODE); return true; ERRHANDLER_CLOSE } void pkpy_vm_destroy(pkpy_vm vm_handle) { VM* vm = (VM*) vm_handle; delete vm; } bool pkpy_push_function(pkpy_vm vm_handle, pkpy_function f) { return true; } bool pkpy_push_int(pkpy_vm vm_handle, int value) { VM* vm = (VM*) vm_handle; ERRHANDLER_OPEN vm->c_data.push(VAR(value)); return true; ERRHANDLER_CLOSE } bool pkpy_push_float(pkpy_vm vm_handle, double value) { VM* vm = (VM*) vm_handle; ERRHANDLER_OPEN vm->c_data.push(VAR(value)); return true; ERRHANDLER_CLOSE } bool pkpy_set_global(pkpy_vm vm_handle, const char* name) { VM* vm = (VM*) vm_handle; ERRHANDLER_OPEN vm->_main->attr().set(name, vm->c_data.top()); vm->c_data.pop(); return true; ERRHANDLER_CLOSE } bool pkpy_get_global(pkpy_vm vm_handle, const char* name) { VM* vm = (VM*) vm_handle; ERRHANDLER_OPEN PyObject* o = vm->_main->attr().try_get(name); vm->c_data.push(o); return true; ERRHANDLER_CLOSE } static void call_wrapper(VM* vm, int argc, bool method_call) { int callable_index = vm->c_data.size() - argc - 1; PyObject* callable = vm->c_data.get(callable_index); vm->s_data.push(callable); if (method_call) vm->s_data.push(vm->c_data.get(callable_index - 1)); else vm->s_data.push(PY_NULL); for (int i = 0; i < argc; i++) vm->s_data.push(vm->c_data.get(callable_index + i + 1)); PyObject* o = vm->vectorcall(argc); vm->c_data.shrink(argc + 1 + (int) method_call); //TODO unpack tuple? vm->c_data.push(o); } bool pkpy_call(pkpy_vm vm_handle, int argc) { VM* vm = (VM*) vm_handle; ERRHANDLER_OPEN call_wrapper(vm, argc, false); return true; ERRHANDLER_CLOSE } bool pkpy_call_method(pkpy_vm vm_handle, int argc) { VM* vm = (VM*) vm_handle; ERRHANDLER_OPEN call_wrapper(vm, argc, true); return true; ERRHANDLER_CLOSE } static int lua_to_cstack_index(int index, int size) { if (index < 0) index = size + index; return index; } bool pkpy_to_int(pkpy_vm vm_handle, int index, int* ret) { VM* vm = (VM*) vm_handle; ERRHANDLER_OPEN index = lua_to_cstack_index(index, vm->c_data.size()); PyObject* o = vm->c_data.get(index); if (ret != nullptr) *ret = py_cast(vm, o); return true; ERRHANDLER_CLOSE }