Zxc200611/pocketpy
1
0
Fork 0
mirror of https://github.com/pocketpy/pocketpy synced 2025-10-20 11:30:18 +00:00
Code Issues Packages Projects Releases Wiki Activity

...

Browse Source
This commit is contained in:
blueloveTH 2023-05-16 13:19:34 +08:00
parent eb6d3ed2ae
commit fae084ed44
6 changed files with 52 additions and 48 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

8
docs/quick-start/wrap.md
View File

@ -26,8 +26,8 @@ struct Vector2 {
static void _register(VM* vm, PyObject* mod, PyObject* type){
vm->bind_constructor<3>(type, [](VM* vm, ArgsView args){
float x = vm->num_to_float(args[1]);
float y = vm->num_to_float(args[2]);
float x = VAR_F(args[1]);
float y = VAR_F(args[2]);
return VAR_T(Vector2, x, y);
});
@ -52,13 +52,13 @@ struct Vector2 {
vm->bind_method<1>(type, "__mul__", [](VM* vm, ArgsView args){
Vector2& self = CAST(Vector2&, args[0]);
f64 other = vm->num_to_float(args[1]);
f64 other = VAR_F(args[1]);
return VAR_T(Vector2, self.x * other, self.y * other);
});
vm->bind_method<1>(type, "__truediv__", [](VM* vm, ArgsView args){
Vector2& self = CAST(Vector2&, args[0]);
f64 other = vm->num_to_float(args[1]);
f64 other = VAR_F(args[1]);
return VAR_T(Vector2, self.x / other, self.y / other);
});

6
src/base64.h
View File

@ -7,9 +7,9 @@ namespace pkpy {
// https://github.com/zhicheng/base64/blob/master/base64.c
#define BASE64_PAD '='
#define BASE64DE_FIRST '+'
#define BASE64DE_LAST 'z'
inline static const char BASE64_PAD = '=';
inline static const char BASE64DE_FIRST = '+';
inline static const char BASE64DE_LAST = 'z';
/* BASE 64 encode table */
static const char base64en[] = {

4
src/ceval.h
View File

@ -607,4 +607,8 @@ __NEXT_STEP:;
#undef POPX
#undef STACK_VIEW
#undef DISPATCH
#undef TARGET
#undef DISPATCH_OP_CALL
} // namespace pkpy

24
src/linalg.h
View File

@ -344,8 +344,8 @@ struct PyVec2: Vec2 {
static void _register(VM* vm, PyObject* mod, PyObject* type){
vm->bind_constructor<3>(type, [](VM* vm, ArgsView args){
float x = vm->num_to_float(args[1]);
float y = vm->num_to_float(args[2]);
float x = VAR_F(args[1]);
float y = VAR_F(args[2]);
return VAR(Vec2(x, y));
});
@ -387,9 +387,9 @@ struct PyVec3: Vec3 {
static void _register(VM* vm, PyObject* mod, PyObject* type){
vm->bind_constructor<4>(type, [](VM* vm, ArgsView args){
float x = vm->num_to_float(args[1]);
float y = vm->num_to_float(args[2]);
float z = vm->num_to_float(args[3]);
float x = VAR_F(args[1]);
float y = VAR_F(args[2]);
float z = VAR_F(args[3]);
return VAR(Vec3(x, y, z));
});
@ -435,7 +435,7 @@ struct PyMat3x3: Mat3x3{
if(args.size() == 1+0) return VAR_T(PyMat3x3, Mat3x3::zeros());
if(args.size() == 1+9){
Mat3x3 mat;
for(int i=0; i<9; i++) mat.v[i] = vm->num_to_float(args[1+i]);
for(int i=0; i<9; i++) mat.v[i] = VAR_F(args[1+i]);
return VAR_T(PyMat3x3, mat);
}
if(args.size() == 1+1){
@ -446,7 +446,7 @@ struct PyMat3x3: Mat3x3{
List& b = CAST(List&, a[i]);
if(b.size() != 3) vm->ValueError("Mat3x3.__new__ takes 3x3 list");
for(int j=0; j<3; j++){
mat.m[i][j] = vm->num_to_float(b[j]);
mat.m[i][j] = VAR_F(b[j]);
}
}
return VAR_T(PyMat3x3, mat);
@ -512,7 +512,7 @@ struct PyMat3x3: Mat3x3{
vm->IndexError("index out of range");
return vm->None;
}
self.m[i][j] = vm->num_to_float(args[2]);
self.m[i][j] = VAR_F(args[2]);
return vm->None;
});
@ -552,13 +552,13 @@ struct PyMat3x3: Mat3x3{
vm->bind_method<1>(type, "__mul__", [](VM* vm, ArgsView args){
PyMat3x3& self = _CAST(PyMat3x3&, args[0]);
f64 other = vm->num_to_float(args[1]);
f64 other = VAR_F(args[1]);
return VAR_T(PyMat3x3, self * other);
});
vm->bind_method<1>(type, "__truediv__", [](VM* vm, ArgsView args){
PyMat3x3& self = _CAST(PyMat3x3&, args[0]);
f64 other = vm->num_to_float(args[1]);
f64 other = VAR_F(args[1]);
return VAR_T(PyMat3x3, self / other);
});
@ -628,7 +628,7 @@ struct PyMat3x3: Mat3x3{
});
vm->bind_func<1>(type, "rotate", [](VM* vm, ArgsView args){
f64 angle = vm->num_to_float(args[0]);
f64 angle = VAR_F(args[0]);
return VAR_T(PyMat3x3, Mat3x3::rotate(angle));
});
@ -639,7 +639,7 @@ struct PyMat3x3: Mat3x3{
vm->bind_func<3>(type, "trs", [](VM* vm, ArgsView args){
PyVec2& t = CAST(PyVec2&, args[0]);
f64 r = vm->num_to_float(args[1]);
f64 r = VAR_F(args[1]);
PyVec2& s = CAST(PyVec2&, args[2]);
return VAR_T(PyMat3x3, Mat3x3::trs(t, r, s));
});

2
src/obj.h
View File

@ -263,7 +263,7 @@ __T _py_cast(VM* vm, PyObject* obj) {
#define CAST(T, x) py_cast<T>(vm, x)
#define _CAST(T, x) _py_cast<T>(vm, x)
#define FLOAT(x) vm->num_to_float(x)
#define VAR_F(x) vm->num_to_float(x)
/*****************************************************************/
template<>

52
src/pocketpy.h
View File

@ -228,13 +228,13 @@ inline void init_builtins(VM* _vm) {
_vm->bind_method<0>("NoneType", "__json__", CPP_LAMBDA(VAR("null")));
_vm->bind_method<1>("int", "__truediv__", [](VM* vm, ArgsView args) {
f64 rhs = vm->num_to_float(args[1]);
f64 rhs = VAR_F(args[1]);
if (rhs == 0) vm->ZeroDivisionError();
return VAR(_CAST(i64, args[0]) / rhs);
});
_vm->bind_method<1>("float", "__truediv__", [](VM* vm, ArgsView args) {
f64 rhs = vm->num_to_float(args[1]);
f64 rhs = VAR_F(args[1]);
if (rhs == 0) vm->ZeroDivisionError();
return VAR(_CAST(f64, args[0]) / rhs);
});
@ -254,7 +254,7 @@ inline void init_builtins(VM* _vm) {
if(flag) return VAR((f64)(1.0 / ret));
return VAR(ret);
}else{
return VAR((f64)std::pow(vm->num_to_float(args[0]), vm->num_to_float(args[1])));
return VAR((f64)std::pow(VAR_F(args[0]), VAR_F(args[1])));
}
};
@ -799,7 +799,7 @@ inline void add_module_time(VM* vm){
});
vm->bind_func<1>(mod, "sleep", [](VM* vm, ArgsView args) {
f64 seconds = FLOAT(args[0]);
f64 seconds = VAR_F(args[0]);
auto begin = std::chrono::high_resolution_clock::now();
while(true){
auto now = std::chrono::high_resolution_clock::now();
@ -850,15 +850,15 @@ inline void add_module_math(VM* vm){
mod->attr().set("inf", VAR(std::numeric_limits<double>::infinity()));
mod->attr().set("nan", VAR(std::numeric_limits<double>::quiet_NaN()));
vm->bind_func<1>(mod, "ceil", CPP_LAMBDA(VAR((i64)std::ceil(vm->num_to_float(args[0])))));
vm->bind_func<1>(mod, "fabs", CPP_LAMBDA(VAR(std::fabs(vm->num_to_float(args[0])))));
vm->bind_func<1>(mod, "floor", CPP_LAMBDA(VAR((i64)std::floor(vm->num_to_float(args[0])))));
vm->bind_func<1>(mod, "ceil", CPP_LAMBDA(VAR((i64)std::ceil(VAR_F(args[0])))));
vm->bind_func<1>(mod, "fabs", CPP_LAMBDA(VAR(std::fabs(VAR_F(args[0])))));
vm->bind_func<1>(mod, "floor", CPP_LAMBDA(VAR((i64)std::floor(VAR_F(args[0])))));
vm->bind_func<1>(mod, "fsum", [](VM* vm, ArgsView args) {
List& list = CAST(List&, args[0]);
double sum = 0;
double c = 0;
for(PyObject* arg : list){
double x = vm->num_to_float(arg);
double x = VAR_F(arg);
double y = x - c;
double t = sum + y;
c = (t - sum) - y;
@ -879,29 +879,29 @@ inline void add_module_math(VM* vm){
return VAR(a);
});
vm->bind_func<1>(mod, "isfinite", CPP_LAMBDA(VAR(std::isfinite(vm->num_to_float(args[0])))));
vm->bind_func<1>(mod, "isinf", CPP_LAMBDA(VAR(std::isinf(vm->num_to_float(args[0])))));
vm->bind_func<1>(mod, "isnan", CPP_LAMBDA(VAR(std::isnan(vm->num_to_float(args[0])))));
vm->bind_func<1>(mod, "isfinite", CPP_LAMBDA(VAR(std::isfinite(VAR_F(args[0])))));
vm->bind_func<1>(mod, "isinf", CPP_LAMBDA(VAR(std::isinf(VAR_F(args[0])))));
vm->bind_func<1>(mod, "isnan", CPP_LAMBDA(VAR(std::isnan(VAR_F(args[0])))));
vm->bind_func<1>(mod, "exp", CPP_LAMBDA(VAR(std::exp(vm->num_to_float(args[0])))));
vm->bind_func<1>(mod, "log", CPP_LAMBDA(VAR(std::log(vm->num_to_float(args[0])))));
vm->bind_func<1>(mod, "log2", CPP_LAMBDA(VAR(std::log2(vm->num_to_float(args[0])))));
vm->bind_func<1>(mod, "log10", CPP_LAMBDA(VAR(std::log10(vm->num_to_float(args[0])))));
vm->bind_func<1>(mod, "exp", CPP_LAMBDA(VAR(std::exp(VAR_F(args[0])))));
vm->bind_func<1>(mod, "log", CPP_LAMBDA(VAR(std::log(VAR_F(args[0])))));
vm->bind_func<1>(mod, "log2", CPP_LAMBDA(VAR(std::log2(VAR_F(args[0])))));
vm->bind_func<1>(mod, "log10", CPP_LAMBDA(VAR(std::log10(VAR_F(args[0])))));
vm->bind_func<2>(mod, "pow", CPP_LAMBDA(VAR(std::pow(vm->num_to_float(args[0]), vm->num_to_float(args[1])))));
vm->bind_func<1>(mod, "sqrt", CPP_LAMBDA(VAR(std::sqrt(vm->num_to_float(args[0])))));
vm->bind_func<2>(mod, "pow", CPP_LAMBDA(VAR(std::pow(VAR_F(args[0]), VAR_F(args[1])))));
vm->bind_func<1>(mod, "sqrt", CPP_LAMBDA(VAR(std::sqrt(VAR_F(args[0])))));
vm->bind_func<1>(mod, "acos", CPP_LAMBDA(VAR(std::acos(vm->num_to_float(args[0])))));
vm->bind_func<1>(mod, "asin", CPP_LAMBDA(VAR(std::asin(vm->num_to_float(args[0])))));
vm->bind_func<1>(mod, "atan", CPP_LAMBDA(VAR(std::atan(vm->num_to_float(args[0])))));
vm->bind_func<2>(mod, "atan2", CPP_LAMBDA(VAR(std::atan2(vm->num_to_float(args[0]), vm->num_to_float(args[1])))));
vm->bind_func<1>(mod, "acos", CPP_LAMBDA(VAR(std::acos(VAR_F(args[0])))));
vm->bind_func<1>(mod, "asin", CPP_LAMBDA(VAR(std::asin(VAR_F(args[0])))));
vm->bind_func<1>(mod, "atan", CPP_LAMBDA(VAR(std::atan(VAR_F(args[0])))));
vm->bind_func<2>(mod, "atan2", CPP_LAMBDA(VAR(std::atan2(VAR_F(args[0]), VAR_F(args[1])))));
vm->bind_func<1>(mod, "cos", CPP_LAMBDA(VAR(std::cos(vm->num_to_float(args[0])))));
vm->bind_func<1>(mod, "sin", CPP_LAMBDA(VAR(std::sin(vm->num_to_float(args[0])))));
vm->bind_func<1>(mod, "tan", CPP_LAMBDA(VAR(std::tan(vm->num_to_float(args[0])))));
vm->bind_func<1>(mod, "cos", CPP_LAMBDA(VAR(std::cos(VAR_F(args[0])))));
vm->bind_func<1>(mod, "sin", CPP_LAMBDA(VAR(std::sin(VAR_F(args[0])))));
vm->bind_func<1>(mod, "tan", CPP_LAMBDA(VAR(std::tan(VAR_F(args[0])))));
vm->bind_func<1>(mod, "degrees", CPP_LAMBDA(VAR(vm->num_to_float(args[0]) * 180 / 3.1415926535897932384)));
vm->bind_func<1>(mod, "radians", CPP_LAMBDA(VAR(vm->num_to_float(args[0]) * 3.1415926535897932384 / 180)));
vm->bind_func<1>(mod, "degrees", CPP_LAMBDA(VAR(VAR_F(args[0]) * 180 / 3.1415926535897932384)));
vm->bind_func<1>(mod, "radians", CPP_LAMBDA(VAR(VAR_F(args[0]) * 3.1415926535897932384 / 180)));
}
inline void add_module_dis(VM* vm){