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https://github.com/pocketpy/pocketpy
synced 2025-10-26 22:40:17 +00:00
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This commit is contained in:
blueloveTH
parent
fa22cdb3b2
commit
595188496d
@ -143,8 +143,8 @@ struct Pointer{
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switch(ctype.index){
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case C_TYPE("char_"): return py_object(vm, ref<char>());
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case C_TYPE("int_"): return py_object(vm, ref<int>());
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case C_TYPE("float_"): return vm->PyFloat(ref<float>());
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case C_TYPE("double_"): return vm->PyFloat(ref<double>());
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case C_TYPE("float_"): return py_object(vm, ref<float>());
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case C_TYPE("double_"): return py_object(vm, ref<double>());
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case C_TYPE("bool_"): return vm->PyBool(ref<bool>());
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case C_TYPE("void_"): vm->ValueError("cannot get void*"); break;
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case C_TYPE("int8_"): return py_object(vm, ref<int8_t>());
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@ -166,8 +166,8 @@ struct Pointer{
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switch(ctype.index){
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case C_TYPE("char_"): ref<char>() = py_cast_v<i64>(vm, val); break;
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case C_TYPE("int_"): ref<int>() = py_cast_v<i64>(vm, val); break;
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case C_TYPE("float_"): ref<float>() = vm->PyFloat_AS_C(val); break;
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case C_TYPE("double_"): ref<double>() = vm->PyFloat_AS_C(val); break;
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case C_TYPE("float_"): ref<float>() = py_cast_v<f64>(vm, val); break;
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case C_TYPE("double_"): ref<double>() = py_cast_v<f64>(vm, val); break;
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case C_TYPE("bool_"): ref<bool>() = vm->PyBool_AS_C(val); break;
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case C_TYPE("void_"): vm->ValueError("cannot set void*"); break;
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case C_TYPE("int8_"): ref<int8_t>() = py_cast_v<i64>(vm, val); break;
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@ -171,7 +171,7 @@ private:
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if (m[1].matched) base = 16;
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if (m[2].matched) {
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if(base == 16) SyntaxError("hex literal should not contain a dot");
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parser->set_next_token(TK("@num"), vm->PyFloat(S_TO_FLOAT(m[0], &size)));
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parser->set_next_token(TK("@num"), py_object(vm, S_TO_FLOAT(m[0], &size)));
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} else {
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parser->set_next_token(TK("@num"), py_object(vm, S_TO_INT(m[0], &size, base)));
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}
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@ -22,9 +22,9 @@ CodeObject_ VM::compile(Str source, Str filename, CompileMode mode) {
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#define BIND_NUM_ARITH_OPT(name, op) \
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_vm->_bind_methods<1>({"int","float"}, #name, [](VM* vm, Args& args){ \
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if(is_both_int(args[0], args[1])){ \
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return py_object(vm, vm->_PyInt_AS_C(args[0]) op vm->_PyInt_AS_C(args[1])); \
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return py_object(vm, _py_cast_v<i64>(vm, args[0]) op _py_cast_v<i64>(vm, 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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return py_object(vm, 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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@ -35,7 +35,7 @@ CodeObject_ VM::compile(Str source, Str filename, CompileMode mode) {
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vm->TypeError("unsupported operand type(s) for " #op ); \
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} \
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if(is_both_int(args[0], args[1])) \
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return vm->PyBool(vm->_PyInt_AS_C(args[0]) op vm->_PyInt_AS_C(args[1])); \
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return vm->PyBool(_py_cast_v<i64>(vm, args[0]) op _py_cast_v<i64>(vm, args[1])); \
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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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@ -185,13 +185,13 @@ void init_builtins(VM* _vm) {
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_vm->_bind_methods<1>({"int", "float"}, "__truediv__", [](VM* vm, 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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return py_object(vm, vm->num_to_float(args[0]) / rhs);
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});
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_vm->_bind_methods<1>({"int", "float"}, "__pow__", [](VM* vm, Args& args) {
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if(is_both_int(args[0], args[1])){
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i64 lhs = vm->_PyInt_AS_C(args[0]);
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i64 rhs = vm->_PyInt_AS_C(args[1]);
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i64 lhs = _py_cast_v<i64>(vm, args[0]);
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i64 rhs = _py_cast_v<i64>(vm, args[1]);
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bool flag = false;
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if(rhs < 0) {flag = true; rhs = -rhs;}
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i64 ret = 1;
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@ -200,17 +200,17 @@ void init_builtins(VM* _vm) {
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lhs *= lhs;
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rhs >>= 1;
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}
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if(flag) return vm->PyFloat((f64)(1.0 / ret));
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if(flag) return py_object(vm, (f64)(1.0 / ret));
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return py_object(vm, ret);
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}else{
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return vm->PyFloat((f64)std::pow(vm->num_to_float(args[0]), vm->num_to_float(args[1])));
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return py_object(vm, (f64)std::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->bind_static_method<1>("int", "__new__", [](VM* vm, Args& args) {
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if (is_type(args[0], vm->tp_int)) return args[0];
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if (is_type(args[0], vm->tp_float)) return py_object(vm, (i64)vm->PyFloat_AS_C(args[0]));
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if (is_type(args[0], vm->tp_float)) return py_object(vm, (i64)py_cast_v<f64>(vm, args[0]));
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if (is_type(args[0], vm->tp_bool)) return py_object(vm, vm->_PyBool_AS_C(args[0]) ? 1 : 0);
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if (is_type(args[0], vm->tp_str)) {
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const Str& s = vm->PyStr_AS_C(args[0]);
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@ -255,16 +255,16 @@ void init_builtins(VM* _vm) {
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/************ PyFloat ************/
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_vm->bind_static_method<1>("float", "__new__", [](VM* vm, Args& args) {
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if (is_type(args[0], vm->tp_int)) return vm->PyFloat((f64)py_cast_v<i64>(vm, args[0]));
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if (is_type(args[0], vm->tp_int)) return py_object(vm, (f64)py_cast_v<i64>(vm, args[0]));
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if (is_type(args[0], vm->tp_float)) return args[0];
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if (is_type(args[0], vm->tp_bool)) return vm->PyFloat(vm->_PyBool_AS_C(args[0]) ? 1.0 : 0.0);
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if (is_type(args[0], vm->tp_bool)) return py_object(vm, vm->_PyBool_AS_C(args[0]) ? 1.0 : 0.0);
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if (is_type(args[0], 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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if(s == "inf") return py_object(vm, INFINITY);
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if(s == "-inf") return py_object(vm, -INFINITY);
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try{
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f64 val = S_TO_FLOAT(s);
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return vm->PyFloat(val);
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return py_object(vm, 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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@ -274,7 +274,7 @@ void init_builtins(VM* _vm) {
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});
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_vm->bind_method<0>("float", "__repr__", [](VM* vm, Args& args) {
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f64 val = vm->PyFloat_AS_C(args[0]);
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f64 val = py_cast_v<f64>(vm, 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_digits10-1-2) << val;
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@ -284,7 +284,7 @@ void init_builtins(VM* _vm) {
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});
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_vm->bind_method<0>("float", "__json__", [](VM* vm, Args& args) {
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f64 val = vm->PyFloat_AS_C(args[0]);
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f64 val = py_cast_v<f64>(vm, 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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@ -557,7 +557,7 @@ void add_module_time(VM* vm){
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PyVar mod = vm->new_module("time");
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vm->bind_func<0>(mod, "time", [](VM* vm, Args& args) {
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auto now = std::chrono::high_resolution_clock::now();
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return vm->PyFloat(std::chrono::duration_cast<std::chrono::microseconds>(now.time_since_epoch()).count() / 1000000.0);
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return py_object(vm, std::chrono::duration_cast<std::chrono::microseconds>(now.time_since_epoch()).count() / 1000000.0);
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});
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}
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@ -587,21 +587,21 @@ void add_module_json(VM* vm){
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void add_module_math(VM* vm){
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PyVar mod = vm->new_module("math");
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vm->setattr(mod, "pi", vm->PyFloat(3.1415926535897932384));
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vm->setattr(mod, "e" , vm->PyFloat(2.7182818284590452354));
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vm->setattr(mod, "pi", py_object(vm, 3.1415926535897932384));
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vm->setattr(mod, "e" , py_object(vm, 2.7182818284590452354));
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vm->bind_func<1>(mod, "log", CPP_LAMBDA(vm->PyFloat(std::log(vm->num_to_float(args[0])))));
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vm->bind_func<1>(mod, "log10", CPP_LAMBDA(vm->PyFloat(std::log10(vm->num_to_float(args[0])))));
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vm->bind_func<1>(mod, "log2", CPP_LAMBDA(vm->PyFloat(std::log2(vm->num_to_float(args[0])))));
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vm->bind_func<1>(mod, "sin", CPP_LAMBDA(vm->PyFloat(std::sin(vm->num_to_float(args[0])))));
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vm->bind_func<1>(mod, "cos", CPP_LAMBDA(vm->PyFloat(std::cos(vm->num_to_float(args[0])))));
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vm->bind_func<1>(mod, "tan", CPP_LAMBDA(vm->PyFloat(std::tan(vm->num_to_float(args[0])))));
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vm->bind_func<1>(mod, "log", CPP_LAMBDA(py_object(vm, std::log(vm->num_to_float(args[0])))));
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vm->bind_func<1>(mod, "log10", CPP_LAMBDA(py_object(vm, std::log10(vm->num_to_float(args[0])))));
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vm->bind_func<1>(mod, "log2", CPP_LAMBDA(py_object(vm, std::log2(vm->num_to_float(args[0])))));
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vm->bind_func<1>(mod, "sin", CPP_LAMBDA(py_object(vm, std::sin(vm->num_to_float(args[0])))));
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vm->bind_func<1>(mod, "cos", CPP_LAMBDA(py_object(vm, std::cos(vm->num_to_float(args[0])))));
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vm->bind_func<1>(mod, "tan", CPP_LAMBDA(py_object(vm, std::tan(vm->num_to_float(args[0])))));
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vm->bind_func<1>(mod, "isnan", CPP_LAMBDA(vm->PyBool(std::isnan(vm->num_to_float(args[0])))));
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vm->bind_func<1>(mod, "isinf", CPP_LAMBDA(vm->PyBool(std::isinf(vm->num_to_float(args[0])))));
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vm->bind_func<1>(mod, "fabs", CPP_LAMBDA(vm->PyFloat(std::fabs(vm->num_to_float(args[0])))));
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vm->bind_func<1>(mod, "fabs", CPP_LAMBDA(py_object(vm, std::fabs(vm->num_to_float(args[0])))));
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vm->bind_func<1>(mod, "floor", CPP_LAMBDA(py_object(vm, (i64)std::floor(vm->num_to_float(args[0])))));
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vm->bind_func<1>(mod, "ceil", CPP_LAMBDA(py_object(vm, (i64)std::ceil(vm->num_to_float(args[0])))));
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vm->bind_func<1>(mod, "sqrt", CPP_LAMBDA(vm->PyFloat(std::sqrt(vm->num_to_float(args[0])))));
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vm->bind_func<1>(mod, "sqrt", CPP_LAMBDA(py_object(vm, std::sqrt(vm->num_to_float(args[0])))));
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}
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void add_module_dis(VM* vm){
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@ -763,7 +763,7 @@ void add_module_random(VM* vm){
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return vm->None;
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});
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vm->bind_func<0>(mod, "random", CPP_LAMBDA(vm->PyFloat(std::rand() / (f64)RAND_MAX)));
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vm->bind_func<0>(mod, "random", CPP_LAMBDA(py_object(vm, std::rand() / (f64)RAND_MAX)));
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vm->bind_func<2>(mod, "randint", [](VM* vm, Args& args) {
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i64 a = py_cast_v<i64>(vm, args[0]);
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i64 b = py_cast_v<i64>(vm, args[1]);
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@ -772,10 +772,10 @@ void add_module_random(VM* vm){
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});
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vm->bind_func<2>(mod, "uniform", [](VM* vm, Args& args) {
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f64 a = vm->PyFloat_AS_C(args[0]);
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f64 b = vm->PyFloat_AS_C(args[1]);
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f64 a = py_cast_v<f64>(vm, args[0]);
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f64 b = py_cast_v<f64>(vm, args[1]);
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if(a > b) std::swap(a, b);
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return vm->PyFloat(a + (b - a) * std::rand() / (f64)RAND_MAX);
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return py_object(vm, a + (b - a) * std::rand() / (f64)RAND_MAX);
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});
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CodeObject_ code = vm->compile(kRandomCode, "random.py", EXEC_MODE);
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@ -976,7 +976,7 @@ extern "C" {
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char* packet = strdup(ss.str().c_str());
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switch(ret_code){
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case 'i': return py_object(vm, f_int(packet));
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case 'f': return vm->PyFloat(f_float(packet));
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case 'f': return py_object(vm, f_float(packet));
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case 'b': return vm->PyBool(f_bool(packet));
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case 's': {
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char* p = f_str(packet);
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50
src/vm.h
50
src/vm.h
@ -40,7 +40,6 @@ public:
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PyVar _py_op_call;
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PyVar _py_op_yield;
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std::vector<PyVar> _all_types;
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// PyVar _ascii_str_pool[128];
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PyVar run_frame(Frame* frame);
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@ -428,8 +427,6 @@ public:
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bind_func<ARGC>(builtins, funcName, fn);
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}
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int normalized_index(int index, int size){
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if(index < 0) index += size;
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if(index < 0 || index >= size){
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@ -526,43 +523,7 @@ public:
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return static_cast<BaseIter*>(obj->value());
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}
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inline const Str& PyStr_AS_C(const PyVar& obj) {
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check_type(obj, tp_str);
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return OBJ_GET(Str, obj);
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}
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inline PyVar PyStr(const Str& value) {
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// some BUGs here
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// if(value.size() == 1){
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// char c = value.c_str()[0];
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// if(c >= 0) return _ascii_str_pool[(int)c];
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// }
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return new_object(tp_str, value);
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}
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inline i64 _PyInt_AS_C(const PyVar& obj){
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return obj.bits >> 2;
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}
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inline PyVar PyFloat(f64 value) {
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i64 bits = __8B(value)._int;
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bits = (bits >> 2) << 2;
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bits |= 0b10;
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return PyVar(reinterpret_cast<int*>(bits));
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}
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inline f64 PyFloat_AS_C(const PyVar& obj){
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check_type(obj, tp_float);
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i64 bits = obj.bits;
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bits = (bits >> 2) << 2;
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return __8B(bits)._float;
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}
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inline f64 _PyFloat_AS_C(const PyVar& obj){
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i64 bits = obj.bits;
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bits = (bits >> 2) << 2;
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return __8B(bits)._float;
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}
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DEF_NATIVE(Str, Str, tp_str)
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DEF_NATIVE(List, List, tp_list)
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DEF_NATIVE(Tuple, Tuple, tp_tuple)
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DEF_NATIVE(Function, Function, tp_function)
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@ -825,6 +786,7 @@ template<> bool _py_cast_v<bool>(VM* vm, const PyVar& obj){
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return obj == vm->True;
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}
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DEF_NATIVE_2(Str, tp_str)
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DEF_NATIVE_2(List, tp_list)
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DEF_NATIVE_2(Tuple, tp_tuple)
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DEF_NATIVE_2(Function, tp_function)
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@ -840,7 +802,7 @@ PyVar VM::num_negated(const PyVar& obj){
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if (is_int(obj)){
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return py_object(this, -py_cast_v<i64>(this, obj));
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}else if(is_float(obj)){
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return py_object(this, -PyFloat_AS_C(obj));
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return py_object(this, -py_cast_v<f64>(this, obj));
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}
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TypeError("expected 'int' or 'float', got " + OBJ_NAME(_t(obj)).escape(true));
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return nullptr;
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@ -848,7 +810,7 @@ PyVar VM::num_negated(const PyVar& obj){
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f64 VM::num_to_float(const PyVar& obj){
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if(is_float(obj)){
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return PyFloat_AS_C(obj);
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return py_cast_v<f64>(this, obj);
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} else if (is_int(obj)){
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return (f64)py_cast_v<i64>(this, obj);
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}
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@ -860,7 +822,7 @@ const PyVar& VM::asBool(const PyVar& obj){
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if(is_type(obj, tp_bool)) return obj;
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if(obj == None) return False;
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if(is_type(obj, tp_int)) return PyBool(py_cast_v<i64>(this, obj) != 0);
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if(is_type(obj, tp_float)) return PyBool(PyFloat_AS_C(obj) != 0.0);
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if(is_type(obj, tp_float)) return PyBool(py_cast_v<f64>(this, obj) != 0.0);
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PyVarOrNull len_fn = getattr(obj, __len__, false);
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if(len_fn != nullptr){
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PyVar ret = call(len_fn);
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@ -884,7 +846,7 @@ i64 VM::hash(const PyVar& obj){
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if (is_type(obj, tp_type)) return obj.bits;
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if (is_type(obj, tp_bool)) return _PyBool_AS_C(obj) ? 1 : 0;
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if (is_float(obj)){
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f64 val = PyFloat_AS_C(obj);
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f64 val = py_cast_v<f64>(this, obj);
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return (i64)std::hash<f64>()(val);
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}
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TypeError("unhashable type: " + OBJ_NAME(_t(obj)).escape(true));
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