mirror of
https://github.com/pocketpy/pocketpy
synced 2025-10-21 12:00:18 +00:00
797 lines
30 KiB
C++
797 lines
30 KiB
C++
#pragma once
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#include "vm.h"
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#include "compiler.h"
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#include "repl.h"
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_Code VM::compile(_Str source, _Str filename, CompileMode mode) {
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Compiler compiler(this, source.c_str(), filename, mode);
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try{
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return compiler.__fillCode();
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}catch(_Exception& e){
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_error(e);
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return nullptr;
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}
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}
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#define BIND_NUM_ARITH_OPT(name, op) \
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_vm->bindMethodMulti<1>({"int","float"}, #name, [](VM* vm, const pkpy::Args& args){ \
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if(args[0]->is_type(vm->_tp_int) && args[1]->is_type(vm->_tp_int)){ \
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return vm->PyInt(vm->PyInt_AS_C(args[0]) op vm->PyInt_AS_C(args[1])); \
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}else{ \
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return vm->PyFloat(vm->num_to_float(args[0]) op vm->num_to_float(args[1])); \
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} \
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});
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#define BIND_NUM_LOGICAL_OPT(name, op, is_eq) \
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_vm->bindMethodMulti<1>({"int","float"}, #name, [](VM* vm, const pkpy::Args& args){ \
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bool _0 = args[0]->is_type(vm->_tp_int) || args[0]->is_type(vm->_tp_float); \
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bool _1 = args[1]->is_type(vm->_tp_int) || args[1]->is_type(vm->_tp_float); \
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if(!_0 || !_1){ \
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if constexpr(is_eq) return vm->PyBool(args[0].get() op args[1].get()); \
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vm->typeError("unsupported operand type(s) for " #op ); \
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} \
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return vm->PyBool(vm->num_to_float(args[0]) op vm->num_to_float(args[1])); \
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});
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void __initializeBuiltinFunctions(VM* _vm) {
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BIND_NUM_ARITH_OPT(__add__, +)
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BIND_NUM_ARITH_OPT(__sub__, -)
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BIND_NUM_ARITH_OPT(__mul__, *)
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BIND_NUM_LOGICAL_OPT(__lt__, <, false)
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BIND_NUM_LOGICAL_OPT(__le__, <=, false)
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BIND_NUM_LOGICAL_OPT(__gt__, >, false)
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BIND_NUM_LOGICAL_OPT(__ge__, >=, false)
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BIND_NUM_LOGICAL_OPT(__eq__, ==, true)
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BIND_NUM_LOGICAL_OPT(__ne__, !=, true)
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#undef BIND_NUM_ARITH_OPT
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#undef BIND_NUM_LOGICAL_OPT
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_vm->bindBuiltinFunc<1>("__sys_stdout_write", [](VM* vm, const pkpy::Args& args) {
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(*vm->_stdout) << vm->PyStr_AS_C(args[0]);
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return vm->None;
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});
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_vm->bindBuiltinFunc<0>("super", [](VM* vm, const pkpy::Args& args) {
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auto it = vm->top_frame()->f_locals().find(m_self);
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if(it == vm->top_frame()->f_locals().end()) vm->typeError("super() can only be called in a class method");
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return vm->new_object(vm->_tp_super, it->second);
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});
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_vm->bindBuiltinFunc<1>("eval", [](VM* vm, const pkpy::Args& args) {
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_Code code = vm->compile(vm->PyStr_AS_C(args[0]), "<eval>", EVAL_MODE);
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return vm->_exec(code, vm->top_frame()->_module, vm->top_frame()->_locals);
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});
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_vm->bindBuiltinFunc<1>("exec", [](VM* vm, const pkpy::Args& args) {
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_Code code = vm->compile(vm->PyStr_AS_C(args[0]), "<exec>", EXEC_MODE);
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vm->_exec(code, vm->top_frame()->_module, vm->top_frame()->_locals);
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return vm->None;
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});
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_vm->bindBuiltinFunc<-1>("exit", [](VM* vm, const pkpy::Args& args) {
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if(args.size() == 0) std::exit(0);
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else if(args.size() == 1) std::exit(vm->PyInt_AS_C(args[0]));
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else vm->typeError("exit() takes at most 1 argument");
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return vm->None;
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});
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_vm->bindBuiltinFunc<1>("repr", CPP_LAMBDA(vm->asRepr(args[0])));
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_vm->bindBuiltinFunc<1>("hash", CPP_LAMBDA(vm->PyInt(vm->hash(args[0]))));
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_vm->bindBuiltinFunc<1>("len", CPP_LAMBDA(vm->call(args[0], __len__, pkpy::noArg())));
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_vm->bindBuiltinFunc<1>("chr", [](VM* vm, const pkpy::Args& args) {
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i64 i = vm->PyInt_AS_C(args[0]);
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if (i < 0 || i > 128) vm->valueError("chr() arg not in range(128)");
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return vm->PyStr(std::string(1, (char)i));
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});
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_vm->bindBuiltinFunc<1>("ord", [](VM* vm, const pkpy::Args& args) {
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_Str s = vm->PyStr_AS_C(args[0]);
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if (s.size() != 1) vm->typeError("ord() expected an ASCII character");
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return vm->PyInt((i64)(s.c_str()[0]));
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});
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_vm->bindBuiltinFunc<2>("hasattr", [](VM* vm, const pkpy::Args& args) {
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return vm->PyBool(vm->getattr(args[0], vm->PyStr_AS_C(args[1]), false) != nullptr);
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});
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_vm->bindBuiltinFunc<3>("setattr", [](VM* vm, const pkpy::Args& args) {
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PyVar obj = args[0];
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vm->setattr(obj, vm->PyStr_AS_C(args[1]), args[2]);
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return vm->None;
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});
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_vm->bindBuiltinFunc<2>("getattr", [](VM* vm, const pkpy::Args& args) {
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_Str name = vm->PyStr_AS_C(args[1]);
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return vm->getattr(args[0], name);
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});
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_vm->bindBuiltinFunc<1>("hex", [](VM* vm, const pkpy::Args& args) {
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std::stringstream ss;
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ss << std::hex << vm->PyInt_AS_C(args[0]);
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return vm->PyStr("0x" + ss.str());
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});
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_vm->bindBuiltinFunc<1>("dir", [](VM* vm, const pkpy::Args& args) {
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std::vector<_Str> names;
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for (auto& [k, _] : args[0]->attribs) names.push_back(k);
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for (auto& [k, _] : args[0]->type->attribs) {
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if (k.find("__") == 0) continue;
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if (std::find(names.begin(), names.end(), k) == names.end()) names.push_back(k);
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}
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PyVarList ret;
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for (const auto& name : names) ret.push_back(vm->PyStr(name));
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std::sort(ret.begin(), ret.end(), [vm](const PyVar& a, const PyVar& b) {
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return vm->PyStr_AS_C(a) < vm->PyStr_AS_C(b);
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});
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return vm->PyList(ret);
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});
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_vm->bindMethod<0>("object", "__repr__", [](VM* vm, const pkpy::Args& args) {
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PyVar _self = args[0];
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std::stringstream ss;
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ss << std::hex << (uintptr_t)_self.get();
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_Str s = "<" + OBJ_TP_NAME(_self) + " object at 0x" + ss.str() + ">";
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return vm->PyStr(s);
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});
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_vm->bindMethod<1>("object", "__eq__", CPP_LAMBDA(vm->PyBool(args[0] == args[1])));
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_vm->bindMethod<1>("object", "__ne__", CPP_LAMBDA(vm->PyBool(args[0] != args[1])));
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_vm->bindStaticMethod<1>("type", "__new__", CPP_LAMBDA(args[0]->type));
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_vm->bindStaticMethod<-1>("range", "__new__", [](VM* vm, const pkpy::Args& args) {
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_Range r;
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switch (args.size()) {
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case 1: r.stop = vm->PyInt_AS_C(args[0]); break;
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case 2: r.start = vm->PyInt_AS_C(args[0]); r.stop = vm->PyInt_AS_C(args[1]); break;
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case 3: r.start = vm->PyInt_AS_C(args[0]); r.stop = vm->PyInt_AS_C(args[1]); r.step = vm->PyInt_AS_C(args[2]); break;
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default: vm->typeError("expected 1-3 arguments, but got " + std::to_string(args.size()));
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}
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return vm->PyRange(r);
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});
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_vm->bindMethod<0>("range", "__iter__", CPP_LAMBDA(
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vm->PyIter(pkpy::make_shared<BaseIterator, RangeIterator>(vm, args[0]))
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));
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_vm->bindMethod<0>("NoneType", "__repr__", CPP_LAMBDA(vm->PyStr("None")));
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_vm->bindMethod<0>("NoneType", "__json__", CPP_LAMBDA(vm->PyStr("null")));
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_vm->bindMethodMulti<1>({"int", "float"}, "__truediv__", [](VM* vm, const pkpy::Args& args) {
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f64 rhs = vm->num_to_float(args[1]);
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if (rhs == 0) vm->zeroDivisionError();
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return vm->PyFloat(vm->num_to_float(args[0]) / rhs);
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});
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_vm->bindMethodMulti<1>({"int", "float"}, "__pow__", [](VM* vm, const pkpy::Args& args) {
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if(args[0]->is_type(vm->_tp_int) && args[1]->is_type(vm->_tp_int)){
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return vm->PyInt((i64)round(pow(vm->PyInt_AS_C(args[0]), vm->PyInt_AS_C(args[1]))));
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}else{
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return vm->PyFloat((f64)pow(vm->num_to_float(args[0]), vm->num_to_float(args[1])));
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}
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});
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/************ PyInt ************/
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_vm->bindStaticMethod<1>("int", "__new__", [](VM* vm, const pkpy::Args& args) {
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if (args[0]->is_type(vm->_tp_int)) return args[0];
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if (args[0]->is_type(vm->_tp_float)) return vm->PyInt((i64)vm->PyFloat_AS_C(args[0]));
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if (args[0]->is_type(vm->_tp_bool)) return vm->PyInt(vm->PyBool_AS_C(args[0]) ? 1 : 0);
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if (args[0]->is_type(vm->_tp_str)) {
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const _Str& s = vm->PyStr_AS_C(args[0]);
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try{
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size_t parsed = 0;
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i64 val = std::stoll(s, &parsed, 10);
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if(parsed != s.size()) throw std::invalid_argument("");
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return vm->PyInt(val);
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}catch(std::invalid_argument&){
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vm->valueError("invalid literal for int(): '" + s + "'");
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}
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}
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vm->typeError("int() argument must be a int, float, bool or str");
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return vm->None;
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});
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_vm->bindMethod<1>("int", "__floordiv__", [](VM* vm, const pkpy::Args& args) {
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i64 rhs = vm->PyInt_AS_C(args[1]);
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if(rhs == 0) vm->zeroDivisionError();
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return vm->PyInt(vm->PyInt_AS_C(args[0]) / rhs);
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});
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_vm->bindMethod<1>("int", "__mod__", [](VM* vm, const pkpy::Args& args) {
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i64 rhs = vm->PyInt_AS_C(args[1]);
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if(rhs == 0) vm->zeroDivisionError();
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return vm->PyInt(vm->PyInt_AS_C(args[0]) % rhs);
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});
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_vm->bindMethod<0>("int", "__repr__", [](VM* vm, const pkpy::Args& args) {
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return vm->PyStr(std::to_string(vm->PyInt_AS_C(args[0])));
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});
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_vm->bindMethod<0>("int", "__json__", [](VM* vm, const pkpy::Args& args) {
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return vm->PyStr(std::to_string((int)vm->PyInt_AS_C(args[0])));
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});
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#define __INT_BITWISE_OP(name,op) \
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_vm->bindMethod<1>("int", #name, [](VM* vm, const pkpy::Args& args) { \
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return vm->PyInt(vm->PyInt_AS_C(args[0]) op vm->PyInt_AS_C(args[1])); \
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});
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__INT_BITWISE_OP(__lshift__, <<)
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__INT_BITWISE_OP(__rshift__, >>)
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__INT_BITWISE_OP(__and__, &)
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__INT_BITWISE_OP(__or__, |)
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__INT_BITWISE_OP(__xor__, ^)
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#undef __INT_BITWISE_OP
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/************ PyFloat ************/
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_vm->bindStaticMethod<1>("float", "__new__", [](VM* vm, const pkpy::Args& args) {
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if (args[0]->is_type(vm->_tp_int)) return vm->PyFloat((f64)vm->PyInt_AS_C(args[0]));
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if (args[0]->is_type(vm->_tp_float)) return args[0];
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if (args[0]->is_type(vm->_tp_bool)) return vm->PyFloat(vm->PyBool_AS_C(args[0]) ? 1.0 : 0.0);
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if (args[0]->is_type(vm->_tp_str)) {
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const _Str& s = vm->PyStr_AS_C(args[0]);
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if(s == "inf") return vm->PyFloat(INFINITY);
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if(s == "-inf") return vm->PyFloat(-INFINITY);
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try{
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f64 val = std::stod(s);
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return vm->PyFloat(val);
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}catch(std::invalid_argument&){
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vm->valueError("invalid literal for float(): '" + s + "'");
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}
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}
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vm->typeError("float() argument must be a int, float, bool or str");
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return vm->None;
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});
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_vm->bindMethod<0>("float", "__repr__", [](VM* vm, const pkpy::Args& args) {
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f64 val = vm->PyFloat_AS_C(args[0]);
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if(std::isinf(val) || std::isnan(val)) return vm->PyStr(std::to_string(val));
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_StrStream ss;
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ss << std::setprecision(std::numeric_limits<f64>::max_digits10-1) << val;
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std::string s = ss.str();
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if(std::all_of(s.begin()+1, s.end(), isdigit)) s += ".0";
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return vm->PyStr(s);
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});
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_vm->bindMethod<0>("float", "__json__", [](VM* vm, const pkpy::Args& args) {
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f64 val = vm->PyFloat_AS_C(args[0]);
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if(std::isinf(val) || std::isnan(val)) vm->valueError("cannot jsonify 'nan' or 'inf'");
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return vm->PyStr(std::to_string(val));
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});
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/************ PyString ************/
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_vm->bindStaticMethod<1>("str", "__new__", CPP_LAMBDA(vm->asStr(args[0])));
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_vm->bindMethod<1>("str", "__add__", [](VM* vm, const pkpy::Args& args) {
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const _Str& lhs = vm->PyStr_AS_C(args[0]);
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const _Str& rhs = vm->PyStr_AS_C(args[1]);
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return vm->PyStr(lhs + rhs);
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});
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_vm->bindMethod<0>("str", "__len__", [](VM* vm, const pkpy::Args& args) {
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const _Str& _self = vm->PyStr_AS_C(args[0]);
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return vm->PyInt(_self.u8_length());
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});
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_vm->bindMethod<1>("str", "__contains__", [](VM* vm, const pkpy::Args& args) {
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const _Str& _self = vm->PyStr_AS_C(args[0]);
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const _Str& _other = vm->PyStr_AS_C(args[1]);
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return vm->PyBool(_self.find(_other) != _Str::npos);
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});
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_vm->bindMethod<0>("str", "__str__", CPP_LAMBDA(args[0]));
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_vm->bindMethod<0>("str", "__iter__", CPP_LAMBDA(
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vm->PyIter(pkpy::make_shared<BaseIterator, StringIterator>(vm, args[0]))
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));
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_vm->bindMethod<0>("str", "__repr__", [](VM* vm, const pkpy::Args& args) {
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const _Str& _self = vm->PyStr_AS_C(args[0]);
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return vm->PyStr(_self.__escape(true));
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});
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_vm->bindMethod<0>("str", "__json__", [](VM* vm, const pkpy::Args& args) {
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const _Str& _self = vm->PyStr_AS_C(args[0]);
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return vm->PyStr(_self.__escape(false));
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});
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_vm->bindMethod<1>("str", "__eq__", [](VM* vm, const pkpy::Args& args) {
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if(args[0]->is_type(vm->_tp_str) && args[1]->is_type(vm->_tp_str))
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return vm->PyBool(vm->PyStr_AS_C(args[0]) == vm->PyStr_AS_C(args[1]));
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return vm->PyBool(args[0] == args[1]);
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});
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_vm->bindMethod<1>("str", "__ne__", [](VM* vm, const pkpy::Args& args) {
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if(args[0]->is_type(vm->_tp_str) && args[1]->is_type(vm->_tp_str))
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return vm->PyBool(vm->PyStr_AS_C(args[0]) != vm->PyStr_AS_C(args[1]));
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return vm->PyBool(args[0] != args[1]);
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});
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_vm->bindMethod<1>("str", "__getitem__", [](VM* vm, const pkpy::Args& args) {
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const _Str& _self (vm->PyStr_AS_C(args[0]));
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if(args[1]->is_type(vm->_tp_slice)){
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_Slice s = vm->PySlice_AS_C(args[1]);
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s.normalize(_self.u8_length());
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return vm->PyStr(_self.u8_substr(s.start, s.stop));
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}
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int _index = (int)vm->PyInt_AS_C(args[1]);
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_index = vm->normalized_index(_index, _self.u8_length());
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return vm->PyStr(_self.u8_getitem(_index));
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});
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_vm->bindMethod<1>("str", "__gt__", [](VM* vm, const pkpy::Args& args) {
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const _Str& _self (vm->PyStr_AS_C(args[0]));
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const _Str& _obj (vm->PyStr_AS_C(args[1]));
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return vm->PyBool(_self > _obj);
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});
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_vm->bindMethod<1>("str", "__lt__", [](VM* vm, const pkpy::Args& args) {
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const _Str& _self (vm->PyStr_AS_C(args[0]));
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const _Str& _obj (vm->PyStr_AS_C(args[1]));
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return vm->PyBool(_self < _obj);
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});
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_vm->bindMethod<2>("str", "replace", [](VM* vm, const pkpy::Args& args) {
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const _Str& _self = vm->PyStr_AS_C(args[0]);
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const _Str& _old = vm->PyStr_AS_C(args[1]);
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const _Str& _new = vm->PyStr_AS_C(args[2]);
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_Str _copy = _self;
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// replace all occurences of _old with _new in _copy
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size_t pos = 0;
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while ((pos = _copy.find(_old, pos)) != std::string::npos) {
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_copy.replace(pos, _old.length(), _new);
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pos += _new.length();
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}
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return vm->PyStr(_copy);
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});
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_vm->bindMethod<1>("str", "startswith", [](VM* vm, const pkpy::Args& args) {
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const _Str& _self = vm->PyStr_AS_C(args[0]);
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const _Str& _prefix = vm->PyStr_AS_C(args[1]);
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return vm->PyBool(_self.find(_prefix) == 0);
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});
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_vm->bindMethod<1>("str", "endswith", [](VM* vm, const pkpy::Args& args) {
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const _Str& _self = vm->PyStr_AS_C(args[0]);
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const _Str& _suffix = vm->PyStr_AS_C(args[1]);
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return vm->PyBool(_self.rfind(_suffix) == _self.length() - _suffix.length());
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});
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_vm->bindMethod<1>("str", "join", [](VM* vm, const pkpy::Args& args) {
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const _Str& _self = vm->PyStr_AS_C(args[0]);
|
|
PyVarList* _list = nullptr;
|
|
if(args[1]->is_type(vm->_tp_list)){
|
|
_list = &vm->PyList_AS_C(args[1]);
|
|
}else if(args[1]->is_type(vm->_tp_tuple)){
|
|
_list = &vm->PyTuple_AS_C(args[1]);
|
|
}else{
|
|
vm->typeError("can only join a list or tuple");
|
|
}
|
|
_StrStream ss;
|
|
for(int i = 0; i < _list->size(); i++){
|
|
if(i > 0) ss << _self;
|
|
ss << vm->PyStr_AS_C(vm->asStr(_list->operator[](i)));
|
|
}
|
|
return vm->PyStr(ss.str());
|
|
});
|
|
|
|
/************ PyList ************/
|
|
_vm->bindMethod<0>("list", "__iter__", [](VM* vm, const pkpy::Args& args) {
|
|
return vm->PyIter(
|
|
pkpy::make_shared<BaseIterator, VectorIterator>(vm, args[0])
|
|
);
|
|
});
|
|
|
|
_vm->bindMethod<1>("list", "append", [](VM* vm, const pkpy::Args& args) {
|
|
PyVarList& _self = vm->PyList_AS_C(args[0]);
|
|
_self.push_back(args[1]);
|
|
return vm->None;
|
|
});
|
|
|
|
_vm->bindMethod<2>("list", "insert", [](VM* vm, const pkpy::Args& args) {
|
|
PyVarList& _self = vm->PyList_AS_C(args[0]);
|
|
int _index = (int)vm->PyInt_AS_C(args[1]);
|
|
if(_index < 0) _index += _self.size();
|
|
if(_index < 0) _index = 0;
|
|
if(_index > _self.size()) _index = _self.size();
|
|
_self.insert(_self.begin() + _index, args[2]);
|
|
return vm->None;
|
|
});
|
|
|
|
_vm->bindMethod<0>("list", "clear", [](VM* vm, const pkpy::Args& args) {
|
|
vm->PyList_AS_C(args[0]).clear();
|
|
return vm->None;
|
|
});
|
|
|
|
_vm->bindMethod<0>("list", "copy", [](VM* vm, const pkpy::Args& args) {
|
|
return vm->PyList(vm->PyList_AS_C(args[0]));
|
|
});
|
|
|
|
_vm->bindMethod<1>("list", "__add__", [](VM* vm, const pkpy::Args& args) {
|
|
const PyVarList& _self = vm->PyList_AS_C(args[0]);
|
|
const PyVarList& _obj = vm->PyList_AS_C(args[1]);
|
|
PyVarList _new_list = _self;
|
|
_new_list.insert(_new_list.end(), _obj.begin(), _obj.end());
|
|
return vm->PyList(_new_list);
|
|
});
|
|
|
|
_vm->bindMethod<0>("list", "__len__", [](VM* vm, const pkpy::Args& args) {
|
|
const PyVarList& _self = vm->PyList_AS_C(args[0]);
|
|
return vm->PyInt(_self.size());
|
|
});
|
|
|
|
_vm->bindMethodMulti<1>({"list", "tuple"}, "__getitem__", [](VM* vm, const pkpy::Args& args) {
|
|
bool list = args[0]->is_type(vm->_tp_list);
|
|
const PyVarList& _self = list ? vm->PyList_AS_C(args[0]) : vm->PyTuple_AS_C(args[0]);
|
|
|
|
if(args[1]->is_type(vm->_tp_slice)){
|
|
_Slice s = vm->PySlice_AS_C(args[1]);
|
|
s.normalize(_self.size());
|
|
PyVarList _new_list;
|
|
for(size_t i = s.start; i < s.stop; i++) _new_list.push_back(_self[i]);
|
|
return list ? vm->PyList(_new_list) : vm->PyTuple(_new_list);
|
|
}
|
|
|
|
int _index = (int)vm->PyInt_AS_C(args[1]);
|
|
_index = vm->normalized_index(_index, _self.size());
|
|
return _self[_index];
|
|
});
|
|
|
|
_vm->bindMethod<2>("list", "__setitem__", [](VM* vm, const pkpy::Args& args) {
|
|
PyVarList& _self = vm->PyList_AS_C(args[0]);
|
|
int _index = (int)vm->PyInt_AS_C(args[1]);
|
|
_index = vm->normalized_index(_index, _self.size());
|
|
_self[_index] = args[2];
|
|
return vm->None;
|
|
});
|
|
|
|
_vm->bindMethod<1>("list", "__delitem__", [](VM* vm, const pkpy::Args& args) {
|
|
PyVarList& _self = vm->PyList_AS_C(args[0]);
|
|
int _index = (int)vm->PyInt_AS_C(args[1]);
|
|
_index = vm->normalized_index(_index, _self.size());
|
|
_self.erase(_self.begin() + _index);
|
|
return vm->None;
|
|
});
|
|
|
|
/************ PyTuple ************/
|
|
_vm->bindStaticMethod<1>("tuple", "__new__", [](VM* vm, const pkpy::Args& args) {
|
|
PyVarList _list = vm->PyList_AS_C(vm->call(vm->builtins->attribs["list"], args));
|
|
return vm->PyTuple(_list);
|
|
});
|
|
|
|
_vm->bindMethod<0>("tuple", "__iter__", [](VM* vm, const pkpy::Args& args) {
|
|
return vm->PyIter(pkpy::make_shared<BaseIterator, VectorIterator>(vm, args[0]));
|
|
});
|
|
|
|
_vm->bindMethod<0>("tuple", "__len__", [](VM* vm, const pkpy::Args& args) {
|
|
const PyVarList& _self = vm->PyTuple_AS_C(args[0]);
|
|
return vm->PyInt(_self.size());
|
|
});
|
|
|
|
/************ PyBool ************/
|
|
_vm->bindStaticMethod<1>("bool", "__new__", CPP_LAMBDA(vm->asBool(args[0])));
|
|
|
|
_vm->bindMethod<0>("bool", "__repr__", [](VM* vm, const pkpy::Args& args) {
|
|
bool val = vm->PyBool_AS_C(args[0]);
|
|
return vm->PyStr(val ? "True" : "False");
|
|
});
|
|
|
|
_vm->bindMethod<0>("bool", "__json__", [](VM* vm, const pkpy::Args& args) {
|
|
bool val = vm->PyBool_AS_C(args[0]);
|
|
return vm->PyStr(val ? "true" : "false");
|
|
});
|
|
|
|
_vm->bindMethod<1>("bool", "__xor__", [](VM* vm, const pkpy::Args& args) {
|
|
bool _self = vm->PyBool_AS_C(args[0]);
|
|
bool _obj = vm->PyBool_AS_C(args[1]);
|
|
return vm->PyBool(_self ^ _obj);
|
|
});
|
|
|
|
_vm->bindMethod<0>("ellipsis", "__repr__", CPP_LAMBDA(vm->PyStr("Ellipsis")));
|
|
}
|
|
|
|
#include "builtins.h"
|
|
|
|
#ifdef _WIN32
|
|
#define __EXPORT __declspec(dllexport)
|
|
#elif __APPLE__
|
|
#define __EXPORT __attribute__((visibility("default"))) __attribute__((used))
|
|
#elif __EMSCRIPTEN__
|
|
#define __EXPORT EMSCRIPTEN_KEEPALIVE
|
|
#define __NO_MAIN
|
|
#else
|
|
#define __EXPORT
|
|
#endif
|
|
|
|
|
|
void __add_module_time(VM* vm){
|
|
PyVar mod = vm->new_module("time");
|
|
vm->bindFunc<0>(mod, "time", [](VM* vm, const pkpy::Args& args) {
|
|
auto now = std::chrono::high_resolution_clock::now();
|
|
return vm->PyFloat(std::chrono::duration_cast<std::chrono::microseconds>(now.time_since_epoch()).count() / 1000000.0);
|
|
});
|
|
}
|
|
|
|
void __add_module_sys(VM* vm){
|
|
PyVar mod = vm->new_module("sys");
|
|
vm->bindFunc<1>(mod, "getrefcount", [](VM* vm, const pkpy::Args& args) {
|
|
return vm->PyInt(args[0].use_count());
|
|
});
|
|
|
|
vm->bindFunc<0>(mod, "getrecursionlimit", [](VM* vm, const pkpy::Args& args) {
|
|
return vm->PyInt(vm->maxRecursionDepth);
|
|
});
|
|
|
|
vm->bindFunc<1>(mod, "setrecursionlimit", [](VM* vm, const pkpy::Args& args) {
|
|
vm->maxRecursionDepth = (int)vm->PyInt_AS_C(args[0]);
|
|
return vm->None;
|
|
});
|
|
|
|
vm->setattr(mod, "version", vm->PyStr(PK_VERSION));
|
|
}
|
|
|
|
void __add_module_json(VM* vm){
|
|
PyVar mod = vm->new_module("json");
|
|
vm->bindFunc<1>(mod, "loads", [](VM* vm, const pkpy::Args& args) {
|
|
const _Str& expr = vm->PyStr_AS_C(args[0]);
|
|
_Code code = vm->compile(expr, "<json>", JSON_MODE);
|
|
return vm->_exec(code, vm->top_frame()->_module, vm->top_frame()->_locals);
|
|
});
|
|
|
|
vm->bindFunc<1>(mod, "dumps", CPP_LAMBDA(vm->call(args[0], __json__)));
|
|
}
|
|
|
|
void __add_module_math(VM* vm){
|
|
PyVar mod = vm->new_module("math");
|
|
vm->setattr(mod, "pi", vm->PyFloat(3.1415926535897932384));
|
|
vm->setattr(mod, "e" , vm->PyFloat(2.7182818284590452354));
|
|
|
|
vm->bindFunc<1>(mod, "log", CPP_LAMBDA(vm->PyFloat(log(vm->num_to_float(args[0])))));
|
|
vm->bindFunc<1>(mod, "log10", CPP_LAMBDA(vm->PyFloat(log10(vm->num_to_float(args[0])))));
|
|
vm->bindFunc<1>(mod, "log2", CPP_LAMBDA(vm->PyFloat(log2(vm->num_to_float(args[0])))));
|
|
vm->bindFunc<1>(mod, "sin", CPP_LAMBDA(vm->PyFloat(sin(vm->num_to_float(args[0])))));
|
|
vm->bindFunc<1>(mod, "cos", CPP_LAMBDA(vm->PyFloat(cos(vm->num_to_float(args[0])))));
|
|
vm->bindFunc<1>(mod, "tan", CPP_LAMBDA(vm->PyFloat(tan(vm->num_to_float(args[0])))));
|
|
vm->bindFunc<1>(mod, "isnan", CPP_LAMBDA(vm->PyBool(std::isnan(vm->num_to_float(args[0])))));
|
|
vm->bindFunc<1>(mod, "isinf", CPP_LAMBDA(vm->PyBool(std::isinf(vm->num_to_float(args[0])))));
|
|
}
|
|
|
|
void __add_module_dis(VM* vm){
|
|
PyVar mod = vm->new_module("dis");
|
|
vm->bindFunc<1>(mod, "dis", [](VM* vm, const pkpy::Args& args) {
|
|
_Code code = vm->PyFunction_AS_C(args[0])->code;
|
|
(*vm->_stdout) << vm->disassemble(code);
|
|
return vm->None;
|
|
});
|
|
}
|
|
|
|
#define PY_CLASS(mod, name) inline static PyVar _tp(VM* vm) { return vm->_modules[#mod]->attribs[#name]; }
|
|
|
|
struct ReMatch {
|
|
PY_CLASS(re, Match)
|
|
|
|
i64 start;
|
|
i64 end;
|
|
std::smatch m;
|
|
ReMatch(i64 start, i64 end, std::smatch m) : start(start), end(end), m(m) {}
|
|
|
|
static PyVar _bind(VM* vm){
|
|
PyVar _tp_match = vm->new_user_type_object(vm->_modules["re"], "Match", vm->_tp_object);
|
|
vm->bindMethod<0>(_tp_match, "start", CPP_LAMBDA(vm->PyInt(OBJ_GET(ReMatch, args[0]).start)));
|
|
vm->bindMethod<0>(_tp_match, "end", CPP_LAMBDA(vm->PyInt(OBJ_GET(ReMatch, args[0]).end)));
|
|
|
|
vm->bindMethod<0>(_tp_match, "span", [](VM* vm, const pkpy::Args& args) {
|
|
auto& m = OBJ_GET(ReMatch, args[0]);
|
|
return vm->PyTuple({ vm->PyInt(m.start), vm->PyInt(m.end) });
|
|
});
|
|
|
|
vm->bindMethod<1>(_tp_match, "group", [](VM* vm, const pkpy::Args& args) {
|
|
auto& m = OBJ_GET(ReMatch, args[0]);
|
|
int index = (int)vm->PyInt_AS_C(args[1]);
|
|
index = vm->normalized_index(index, m.m.size());
|
|
return vm->PyStr(m.m[index].str());
|
|
});
|
|
return _tp_match;
|
|
}
|
|
};
|
|
|
|
PyVar __regex_search(const _Str& pattern, const _Str& string, bool fromStart, VM* vm){
|
|
std::regex re(pattern);
|
|
std::smatch m;
|
|
if(std::regex_search(string, m, re)){
|
|
if(fromStart && m.position() != 0) return vm->None;
|
|
i64 start = string.__to_u8_index(m.position());
|
|
i64 end = string.__to_u8_index(m.position() + m.length());
|
|
return vm->new_object_c<ReMatch>(start, end, m);
|
|
}
|
|
return vm->None;
|
|
};
|
|
|
|
void __add_module_re(VM* vm){
|
|
PyVar mod = vm->new_module("re");
|
|
ReMatch::_bind(vm);
|
|
|
|
vm->bindFunc<2>(mod, "match", [](VM* vm, const pkpy::Args& args) {
|
|
const _Str& pattern = vm->PyStr_AS_C(args[0]);
|
|
const _Str& string = vm->PyStr_AS_C(args[1]);
|
|
return __regex_search(pattern, string, true, vm);
|
|
});
|
|
|
|
vm->bindFunc<2>(mod, "search", [](VM* vm, const pkpy::Args& args) {
|
|
const _Str& pattern = vm->PyStr_AS_C(args[0]);
|
|
const _Str& string = vm->PyStr_AS_C(args[1]);
|
|
return __regex_search(pattern, string, false, vm);
|
|
});
|
|
|
|
vm->bindFunc<3>(mod, "sub", [](VM* vm, const pkpy::Args& args) {
|
|
const _Str& pattern = vm->PyStr_AS_C(args[0]);
|
|
const _Str& repl = vm->PyStr_AS_C(args[1]);
|
|
const _Str& string = vm->PyStr_AS_C(args[2]);
|
|
std::regex re(pattern);
|
|
return vm->PyStr(std::regex_replace(string, re, repl));
|
|
});
|
|
|
|
vm->bindFunc<2>(mod, "split", [](VM* vm, const pkpy::Args& args) {
|
|
const _Str& pattern = vm->PyStr_AS_C(args[0]);
|
|
const _Str& string = vm->PyStr_AS_C(args[1]);
|
|
std::regex re(pattern);
|
|
std::sregex_token_iterator it(string.begin(), string.end(), re, -1);
|
|
std::sregex_token_iterator end;
|
|
PyVarList vec;
|
|
for(; it != end; ++it){
|
|
vec.push_back(vm->PyStr(it->str()));
|
|
}
|
|
return vm->PyList(vec);
|
|
});
|
|
}
|
|
|
|
class _PkExported{
|
|
public:
|
|
virtual ~_PkExported() = default;
|
|
virtual void* get() = 0;
|
|
};
|
|
|
|
static std::vector<_PkExported*> _pkLookupTable;
|
|
|
|
template<typename T>
|
|
class PkExported : public _PkExported{
|
|
T* _ptr;
|
|
public:
|
|
template<typename... Args>
|
|
PkExported(Args&&... args) {
|
|
_ptr = new T(std::forward<Args>(args)...);
|
|
_pkLookupTable.push_back(this);
|
|
}
|
|
|
|
~PkExported() override { delete _ptr; }
|
|
void* get() override { return _ptr; }
|
|
operator T*() { return _ptr; }
|
|
};
|
|
|
|
#define pkpy_allocate(T, ...) *(new PkExported<T>(__VA_ARGS__))
|
|
|
|
|
|
extern "C" {
|
|
__EXPORT
|
|
/// Delete a pointer allocated by `pkpy_xxx_xxx`.
|
|
/// It can be `VM*`, `REPL*`, `char*`, etc.
|
|
///
|
|
/// !!!
|
|
/// If the pointer is not allocated by `pkpy_xxx_xxx`, the behavior is undefined.
|
|
/// !!!
|
|
void pkpy_delete(void* p){
|
|
for(int i = 0; i < _pkLookupTable.size(); i++){
|
|
if(_pkLookupTable[i]->get() == p){
|
|
delete _pkLookupTable[i];
|
|
_pkLookupTable.erase(_pkLookupTable.begin() + i);
|
|
return;
|
|
}
|
|
}
|
|
free(p);
|
|
}
|
|
|
|
__EXPORT
|
|
/// Run a given source on a virtual machine.
|
|
void pkpy_vm_exec(VM* vm, const char* source){
|
|
vm->exec(source, "main.py", EXEC_MODE);
|
|
}
|
|
|
|
__EXPORT
|
|
/// Get a global variable of a virtual machine.
|
|
///
|
|
/// Return `__repr__` of the result.
|
|
/// If the variable is not found, return `nullptr`.
|
|
char* pkpy_vm_get_global(VM* vm, const char* name){
|
|
auto it = vm->_main->attribs.find(name);
|
|
if(it == vm->_main->attribs.end()) return nullptr;
|
|
try{
|
|
_Str _repr = vm->PyStr_AS_C(vm->asRepr(it->second));
|
|
return strdup(_repr.c_str());
|
|
}catch(...){
|
|
return nullptr;
|
|
}
|
|
}
|
|
|
|
__EXPORT
|
|
/// Evaluate an expression.
|
|
///
|
|
/// Return `__repr__` of the result.
|
|
/// If there is any error, return `nullptr`.
|
|
char* pkpy_vm_eval(VM* vm, const char* source){
|
|
PyVarOrNull ret = vm->exec(source, "<eval>", EVAL_MODE);
|
|
if(ret == nullptr) return nullptr;
|
|
try{
|
|
_Str _repr = vm->PyStr_AS_C(vm->asRepr(ret));
|
|
return strdup(_repr.c_str());
|
|
}catch(...){
|
|
return nullptr;
|
|
}
|
|
}
|
|
|
|
__EXPORT
|
|
/// Create a REPL, using the given virtual machine as the backend.
|
|
REPL* pkpy_new_repl(VM* vm){
|
|
return pkpy_allocate(REPL, vm);
|
|
}
|
|
|
|
__EXPORT
|
|
/// Input a source line to an interactive console. Return true if need more lines.
|
|
bool pkpy_repl_input(REPL* r, const char* line){
|
|
return r->input(line);
|
|
}
|
|
|
|
__EXPORT
|
|
/// Add a source module into a virtual machine.
|
|
void pkpy_vm_add_module(VM* vm, const char* name, const char* source){
|
|
vm->_lazy_modules[name] = source;
|
|
}
|
|
|
|
__EXPORT
|
|
/// Create a virtual machine.
|
|
VM* pkpy_new_vm(bool use_stdio){
|
|
VM* vm = pkpy_allocate(VM, use_stdio);
|
|
__initializeBuiltinFunctions(vm);
|
|
__add_module_sys(vm);
|
|
__add_module_time(vm);
|
|
__add_module_json(vm);
|
|
__add_module_math(vm);
|
|
__add_module_re(vm);
|
|
__add_module_dis(vm);
|
|
|
|
// add builtins | no exception handler | must succeed
|
|
_Code code = vm->compile(__BUILTINS_CODE, "<builtins>", EXEC_MODE);
|
|
vm->_exec(code, vm->builtins, pkpy::make_shared<PyVarDict>());
|
|
|
|
pkpy_vm_add_module(vm, "random", __RANDOM_CODE);
|
|
return vm;
|
|
}
|
|
|
|
__EXPORT
|
|
/// Read the standard output and standard error as string of a virtual machine.
|
|
/// The `vm->use_stdio` should be `false`.
|
|
/// After this operation, both stream will be cleared.
|
|
///
|
|
/// Return a json representing the result.
|
|
char* pkpy_vm_read_output(VM* vm){
|
|
if(vm->use_stdio) return nullptr;
|
|
_StrStream* s_out = (_StrStream*)(vm->_stdout);
|
|
_StrStream* s_err = (_StrStream*)(vm->_stderr);
|
|
_Str _stdout = s_out->str();
|
|
_Str _stderr = s_err->str();
|
|
_StrStream ss;
|
|
ss << '{' << "\"stdout\": " << _stdout.__escape(false);
|
|
ss << ", " << "\"stderr\": " << _stderr.__escape(false) << '}';
|
|
s_out->str(""); s_err->str("");
|
|
return strdup(ss.str().c_str());
|
|
}
|
|
}
|
|
|
|
#include "_bindings.h" |