#pragma once #include "Common.h" #include "Python.h" #include "structmember.h" #include "IndexTexture.h" enum PyObjectsEnum { UIFRAME = 1, UICAPTION, UISPRITE, UIGRID }; class UIDrawable { public: UIDrawable* parent; void render(); virtual void render(sf::Vector2f) = 0; //virtual sf::Rect aabb(); // not sure I care about this yet //virtual sf::Vector2i position(); bool handle_event(/* ??? click, scroll, keystroke*/); std::string action; virtual PyObjectsEnum derived_type() = 0; }; //Python object types & forward declarations /* typedef struct { PyObject_HEAD sf::Color color; } PyColorObject; */ typedef struct { PyObject_HEAD std::shared_ptr data; } PyColorObject; class UIFrame: public UIDrawable { public: UIFrame(float, float, float, float); UIFrame(); ~UIFrame(); sf::RectangleShape box; //Simulate RectangleShape float x, y, w, h, outline; std::shared_ptr>> children; void render(sf::Vector2f) override final; void move(sf::Vector2f); PyObjectsEnum derived_type() override final; // { return PyObjectsEnum::UIFrame; }; /* sf::Color fillColor(); // getter void fillColor(sf::Color c); // C++ setter void fillColor(PyColorObject* pyColor); // Python setter sf::Color outlineColor(); // getter void outlineColor(sf::Color c); // C++ setter void outlineColor(PyColorObject* pyColor); // Python setter */ private: //std::shared_ptr fillColor, outlineColor; /* sf::Color *_fillColor, *_outlineColor; PyColorObject *pyFillColor, *pyOutlineColor; */ }; class UICaption: public UIDrawable { public: sf::Text text; void render(sf::Vector2f) override final; PyObjectsEnum derived_type() override final; // { return PyObjectsEnum::UICaption; }; }; class UISprite: public UIDrawable { public: UISprite(); UISprite(IndexTexture*, int, float, float, float); UISprite(IndexTexture*, int, sf::Vector2f, float); void update(); void render(sf::Vector2f) override final; int /*texture_index,*/ sprite_index; IndexTexture* itex; //float x, y, scale; sf::Sprite sprite; void setPosition(float, float); void setPosition(sf::Vector2f); void setScale(float); PyObjectsEnum derived_type() override final; // { return PyObjectsEnum::UISprite; }; }; /* template struct CPythonSharedObject { PyObject_HEAD std::shared_ptr data; }; typedef CPythonSharedObject PyUIFrameObject; */ typedef struct { PyObject_HEAD std::shared_ptr data; } PyUIFrameObject; typedef struct { PyObject_HEAD std::shared_ptr data; PyObject* font; } PyUICaptionObject; typedef struct { PyObject_HEAD std::shared_ptr data; PyObject* texture; } PyUISpriteObject; namespace mcrfpydef { //PyObject* py_instance(std::shared_ptr source); // This function segfaults on tp_alloc for an unknown reason, but works inline with mcrfpydef:: methods. #define RET_PY_INSTANCE(target) { \ switch (target->derived_type()) \ { \ case PyObjectsEnum::UIFRAME: \ { \ PyUIFrameObject* o = (PyUIFrameObject*)((&PyUIFrameType)->tp_alloc(&PyUIFrameType, 0)); \ if (o) \ { \ auto p = std::static_pointer_cast(target); \ o->data = p; \ auto utarget = o->data; \ } \ return (PyObject*)o; \ } \ case PyObjectsEnum::UICAPTION: \ { \ PyUICaptionObject* o = (PyUICaptionObject*)((&PyUICaptionType)->tp_alloc(&PyUICaptionType, 0)); \ if (o) \ { \ auto p = std::static_pointer_cast(target); \ o->data = p; \ auto utarget = o->data; \ } \ return (PyObject*)o; \ } \ case PyObjectsEnum::UISPRITE: \ { \ PyUISpriteObject* o = (PyUISpriteObject*)((&PyUISpriteType)->tp_alloc(&PyUISpriteType, 0)); \ if (o) \ { \ auto p = std::static_pointer_cast(target); \ o->data = p; \ auto utarget = o->data; \ } \ return (PyObject*)o; \ } \ case PyObjectsEnum::UIGRID: \ { \ PyUIFrameObject* o = (PyUIFrameObject*)((&PyUIFrameType)->tp_alloc(&PyUIFrameType, 0)); \ if (o) \ { \ auto p = std::static_pointer_cast(target); \ o->data = p; \ auto utarget = o->data; \ } \ return (PyObject*)o; \ } \ } \ } // end macro definition // Color Definitions // struct, members, new, set_member, PyTypeObject /* for reference: the structs to implement typedef struct { PyObject_HEAD std::shared_ptr data; } PyColorObject; typedef struct { PyObject_HEAD std::shared_ptr data; } PyUIFrameObject; typedef struct { PyObject_HEAD std::shared_ptr data; } PyUICaptionObject; typedef struct { PyObject_HEAD std::shared_ptr data; } PyUISpriteObject; */ /* * * Begin PyFontType defs * */ typedef struct { PyObject_HEAD std::shared_ptr data; } PyFontObject; static int PyFont_init(PyFontObject* self, PyObject* args, PyObject* kwds) { //std::cout << "Init called\n"; static const char* keywords[] = { "filename", nullptr }; char* filename; if (!PyArg_ParseTupleAndKeywords(args, kwds, "s", const_cast(keywords), &filename)) { return -1; } self->data->loadFromFile((std::string)filename); return 0; } static PyTypeObject PyFontType = { //PyVarObject_HEAD_INIT(NULL, 0) .tp_name = "mcrfpy.Font", .tp_basicsize = sizeof(PyFontObject), .tp_itemsize = 0, .tp_flags = Py_TPFLAGS_DEFAULT, .tp_doc = PyDoc_STR("SFML Font Object"), .tp_init = (initproc)PyFont_init, .tp_new = [](PyTypeObject* type, PyObject* args, PyObject* kwds) -> PyObject* { PyFontObject* self = (PyFontObject*)type->tp_alloc(type, 0); self->data = std::make_shared(); return (PyObject*)self; } }; /* * * End PyFontType defs * */ static PyObject* PyColor_get_member(PyColorObject* self, void* closure) { auto member_ptr = reinterpret_cast(closure); if (member_ptr == 0) return PyLong_FromLong(self->data->r); else if (member_ptr == 1) return PyLong_FromLong(self->data->g); else if (member_ptr == 2) return PyLong_FromLong(self->data->b); else if (member_ptr == 3) return PyLong_FromLong(self->data->a); else { PyErr_SetString(PyExc_AttributeError, "Invalid attribute"); return nullptr; } } static int PyColor_set_member(PyColorObject* self, PyObject* value, void* closure) { if (PyLong_Check(value)) { long int_val = PyLong_AsLong(value); if (int_val < 0) int_val = 0; else if (int_val > 255) int_val = 255; auto member_ptr = reinterpret_cast(closure); if (member_ptr == 0) self->data->r = static_cast(int_val); else if (member_ptr == 1) self->data->g = static_cast(int_val); else if (member_ptr == 2) self->data->b = static_cast(int_val); else if (member_ptr == 3) self->data->a = static_cast(int_val); } else { PyErr_SetString(PyExc_TypeError, "Value must be an integer."); return -1; } return 0; } static PyGetSetDef PyColor_getsetters[] = { {"r", (getter)PyColor_get_member, (setter)PyColor_set_member, "Red component", (void*)0}, {"g", (getter)PyColor_get_member, (setter)PyColor_set_member, "Green component", (void*)1}, {"b", (getter)PyColor_get_member, (setter)PyColor_set_member, "Blue component", (void*)2}, {"a", (getter)PyColor_get_member, (setter)PyColor_set_member, "Alpha component", (void*)3}, {NULL} }; static PyTypeObject PyColorType = { //PyVarObject_HEAD_INIT(NULL, 0) .tp_name = "mcrfpy.Color", .tp_basicsize = sizeof(PyColorObject), .tp_itemsize = 0, .tp_dealloc = (destructor)[](PyObject* self) { PyColorObject* obj = (PyColorObject*)self; obj->data.reset(); Py_TYPE(self)->tp_free(self); }, //.tp_repr = (reprfunc)PyUIFrame_repr, //.tp_hash = NULL, //.tp_iter //.tp_iternext .tp_flags = Py_TPFLAGS_DEFAULT, .tp_doc = PyDoc_STR("SFML Color object (RGBA)"), //.tp_methods = PyUIFrame_methods, //.tp_members = PyColor_members, .tp_getset = PyColor_getsetters, //.tp_base = NULL, //.tp_init = (initproc)PyUIFrame_init, .tp_new = [](PyTypeObject* type, PyObject* args, PyObject* kwds) -> PyObject* { PyColorObject* self = (PyColorObject*)type->tp_alloc(type, 0); if (self) self->data = std::make_shared(); return (PyObject*)self; } }; /* * * Begin template generation for PyUICaptionType * */ static PyObject* PyUICaption_get_float_member(PyUICaptionObject* self, void* closure) { auto member_ptr = reinterpret_cast(closure); if (member_ptr == 0) return PyFloat_FromDouble(self->data->text.getPosition().x); else if (member_ptr == 1) return PyFloat_FromDouble(self->data->text.getPosition().y); else if (member_ptr == 4) return PyFloat_FromDouble(self->data->text.getOutlineThickness()); else if (member_ptr == 5) return PyLong_FromLong(self->data->text.getCharacterSize()); else { PyErr_SetString(PyExc_AttributeError, "Invalid attribute"); return nullptr; } } static int PyUICaption_set_float_member(PyUICaptionObject* self, PyObject* value, void* closure) { float val; auto member_ptr = reinterpret_cast(closure); if (PyFloat_Check(value)) { val = PyFloat_AsDouble(value); } else if (PyLong_Check(value)) { val = PyLong_AsLong(value); } else { PyErr_SetString(PyExc_TypeError, "Value must be an integer."); return -1; } if (member_ptr == 0) //x self->data->text.setPosition(val, self->data->text.getPosition().y); else if (member_ptr == 1) //y self->data->text.setPosition(self->data->text.getPosition().x, val); else if (member_ptr == 4) //outline self->data->text.setOutlineThickness(val); else if (member_ptr == 5) // character size self->data->text.setCharacterSize(val); return 0; } static PyObject* PyUICaption_get_color_member(PyUICaptionObject* self, void* closure) { // validate closure (should be impossible to be wrong, but it's thorough) auto member_ptr = reinterpret_cast(closure); if (member_ptr != 0 && member_ptr != 1) { PyErr_SetString(PyExc_AttributeError, "Invalid attribute"); return nullptr; } PyTypeObject* colorType = &PyColorType; PyObject* pyColor = colorType->tp_alloc(colorType, 0); if (pyColor == NULL) { std::cout << "failure to allocate mcrfpy.Color / PyColorType" << std::endl; return NULL; } PyColorObject* pyColorObj = reinterpret_cast(pyColor); // fetch correct member data sf::Color color; if (member_ptr == 0) { color = self->data->text.getFillColor(); //return Py_BuildValue("(iii)", color.r, color.g, color.b); } else if (member_ptr == 1) { color = self->data->text.getOutlineColor(); //return Py_BuildValue("(iii)", color.r, color.g, color.b); } // initialize new mcrfpy.Color instance pyColorObj->data = std::make_shared(color); return pyColor; } static int PyUICaption_set_color_member(PyUICaptionObject* self, PyObject* value, void* closure) { auto member_ptr = reinterpret_cast(closure); int r, g, b, a; if (PyObject_IsInstance(value, (PyObject*)&PyColorType)) { // get value from mcrfpy.Color instance PyColorObject* color = reinterpret_cast(value); r = color->data->r; g = color->data->g; b = color->data->b; a = color->data->a; } else if (!PyTuple_Check(value) || PyTuple_Size(value) < 3 || PyTuple_Size(value) > 4) { // reject non-Color, non-tuple value PyErr_SetString(PyExc_TypeError, "Value must be a tuple of 3 or 4 integers or an mcrfpy.Color object."); return -1; } else // get value from tuples { r = PyLong_AsLong(PyTuple_GetItem(value, 0)); g = PyLong_AsLong(PyTuple_GetItem(value, 1)); b = PyLong_AsLong(PyTuple_GetItem(value, 2)); a = 255; if (PyTuple_Size(value) == 4) { a = PyLong_AsLong(PyTuple_GetItem(value, 3)); } } if (r < 0 || r > 255 || g < 0 || g > 255 || b < 0 || b > 255 || a < 0 || a > 255) { PyErr_SetString(PyExc_ValueError, "Color values must be between 0 and 255."); return -1; } if (member_ptr == 0) { self->data->text.setFillColor(sf::Color(r, g, b, a)); } else if (member_ptr == 1) { self->data->text.setOutlineColor(sf::Color(r, g, b, a)); } else { PyErr_SetString(PyExc_AttributeError, "Invalid attribute"); return -1; } return 0; } static PyObject* PyUICaption_get_text(PyUICaptionObject* self, void* closure) { return PyUnicode_FromString("Test String, Please Ignore"); } static int PyUICaption_set_text(PyUICaptionObject* self, PyObject* value, void* closure) { // asdf return 0; } static PyGetSetDef PyUICaption_getsetters[] = { {"x", (getter)PyUICaption_get_float_member, (setter)PyUICaption_set_float_member, "X coordinate of top-left corner", (void*)0}, {"y", (getter)PyUICaption_get_float_member, (setter)PyUICaption_set_float_member, "Y coordinate of top-left corner", (void*)1}, //{"w", (getter)PyUIFrame_get_float_member, (setter)PyUIFrame_set_float_member, "width of the rectangle", (void*)2}, //{"h", (getter)PyUIFrame_get_float_member, (setter)PyUIFrame_set_float_member, "height of the rectangle", (void*)3}, {"outline", (getter)PyUICaption_get_float_member, (setter)PyUICaption_set_float_member, "Thickness of the border", (void*)4}, {"fill_color", (getter)PyUICaption_get_color_member, (setter)PyUICaption_set_color_member, "Fill color of the text", (void*)0}, {"outline_color", (getter)PyUICaption_get_color_member, (setter)PyUICaption_set_color_member, "Outline color of the text", (void*)1}, //{"children", (getter)PyUIFrame_get_children, NULL, "UICollection of objects on top of this one", NULL}, {"text", (getter)PyUICaption_get_text, (setter)PyUICaption_set_text, "The text displayed", NULL}, {"size", (getter)PyUICaption_get_float_member, (setter)PyUICaption_set_float_member, "Text size (integer) in points", (void*)5}, {NULL} }; static PyObject* PyUICaption_repr(PyUICaptionObject* self) { std::ostringstream ss; if (!self->data) ss << ""; else { auto text = self->data->text; auto fc = text.getFillColor(); auto oc = text.getOutlineColor(); ss << ""; } std::string repr_str = ss.str(); return PyUnicode_DecodeUTF8(repr_str.c_str(), repr_str.size(), "replace"); } static int PyUICaption_init(PyUICaptionObject* self, PyObject* args, PyObject* kwds) { //std::cout << "Init called\n"; static const char* keywords[] = { "x", "y", "text", "font", "fill_color", "outline_color", nullptr }; float x = 0.0f, y = 0.0f; char* text; PyObject* font, fill_color, outline_color; if (!PyArg_ParseTupleAndKeywords(args, kwds, "|ffzOOO", const_cast(keywords), &x, &y, &text, &font, &fill_color, &outline_color)) { return -1; } // check types for font, fill_color, outline_color // // Set Font // if (font != NULL && !PyObject_IsInstance(font, (PyObject*)&PyFontType)){ PyErr_SetString(PyExc_TypeError, "font must be a mcrfpy.Font instance"); return -1; } else if (font != NULL) { auto font_obj = (PyFontObject*)font; self->data->text.setFont(*font_obj->data); self->font = font; Py_INCREF(font); } else { // default font //self->data->text.setFont(Resources::game->getFont()); } // // Set Color // self->data->text.setPosition(sf::Vector2f(x, y)); self->data->text.setString((std::string)text); self->data->text.setFillColor(sf::Color(0,0,0,255)); self->data->text.setOutlineColor(sf::Color(128,128,128,255)); return 0; } static PyTypeObject PyUICaptionType = { //PyVarObject_HEAD_INIT(NULL, 0) .tp_name = "mcrfpy.Caption", .tp_basicsize = sizeof(PyUICaptionObject), .tp_itemsize = 0, .tp_dealloc = (destructor)[](PyObject* self) { PyUICaptionObject* obj = (PyUICaptionObject*)self; // release reference to font object if (obj->font) Py_DECREF(obj->font); obj->data.reset(); Py_TYPE(self)->tp_free(self); }, .tp_repr = (reprfunc)PyUICaption_repr, //.tp_hash = NULL, //.tp_iter //.tp_iternext .tp_flags = Py_TPFLAGS_DEFAULT, .tp_doc = PyDoc_STR("docstring"), //.tp_methods = PyUIFrame_methods, //.tp_members = PyUIFrame_members, .tp_getset = PyUICaption_getsetters, //.tp_base = NULL, .tp_init = (initproc)PyUICaption_init, .tp_new = [](PyTypeObject* type, PyObject* args, PyObject* kwds) -> PyObject* { PyUICaptionObject* self = (PyUICaptionObject*)type->tp_alloc(type, 0); if (self) self->data = std::make_shared(); return (PyObject*)self; } }; /* * * End PyUICaptionType generation * */ /* * * Begin template generation for PyUIFrameType * */ static PyObject* PyUIFrame_get_float_member(PyUIFrameObject* self, void* closure) { auto member_ptr = reinterpret_cast(closure); if (member_ptr == 0) return PyFloat_FromDouble(self->data->box.getPosition().x); else if (member_ptr == 1) return PyFloat_FromDouble(self->data->box.getPosition().y); else if (member_ptr == 2) return PyFloat_FromDouble(self->data->box.getSize().x); else if (member_ptr == 3) return PyFloat_FromDouble(self->data->box.getSize().y); else if (member_ptr == 4) return PyFloat_FromDouble(self->data->box.getOutlineThickness()); else { PyErr_SetString(PyExc_AttributeError, "Invalid attribute"); return nullptr; } } static int PyUIFrame_set_float_member(PyUIFrameObject* self, PyObject* value, void* closure) { float val; auto member_ptr = reinterpret_cast(closure); if (PyFloat_Check(value)) { val = PyFloat_AsDouble(value); } else if (PyLong_Check(value)) { val = PyLong_AsLong(value); } else { PyErr_SetString(PyExc_TypeError, "Value must be an integer."); return -1; } if (member_ptr == 0) //x self->data->box.setPosition(val, self->data->box.getPosition().y); else if (member_ptr == 1) //y self->data->box.setPosition(self->data->box.getPosition().x, val); else if (member_ptr == 2) //w self->data->box.setSize(sf::Vector2f(val, self->data->box.getSize().y)); else if (member_ptr == 3) //h self->data->box.setSize(sf::Vector2f(self->data->box.getSize().x, val)); else if (member_ptr == 4) //outline self->data->box.setOutlineThickness(val); return 0; } static PyObject* PyUIFrame_get_color_member(PyUIFrameObject* self, void* closure) { // validate closure (should be impossible to be wrong, but it's thorough) auto member_ptr = reinterpret_cast(closure); if (member_ptr != 0 && member_ptr != 1) { PyErr_SetString(PyExc_AttributeError, "Invalid attribute"); return nullptr; } PyTypeObject* colorType = &PyColorType; PyObject* pyColor = colorType->tp_alloc(colorType, 0); if (pyColor == NULL) { std::cout << "failure to allocate mcrfpy.Color / PyColorType" << std::endl; return NULL; } PyColorObject* pyColorObj = reinterpret_cast(pyColor); // fetch correct member data sf::Color color; if (member_ptr == 0) { color = self->data->box.getFillColor(); //return Py_BuildValue("(iii)", color.r, color.g, color.b); } else if (member_ptr == 1) { color = self->data->box.getOutlineColor(); //return Py_BuildValue("(iii)", color.r, color.g, color.b); } // initialize new mcrfpy.Color instance pyColorObj->data = std::make_shared(color); return pyColor; } static int PyUIFrame_set_color_member(PyUIFrameObject* self, PyObject* value, void* closure) { auto member_ptr = reinterpret_cast(closure); int r, g, b, a; if (PyObject_IsInstance(value, (PyObject*)&PyColorType)) { // get value from mcrfpy.Color instance PyColorObject* color = reinterpret_cast(value); r = color->data->r; g = color->data->g; b = color->data->b; a = color->data->a; std::cout << "using color: " << r << " " << g << " " << b << " " << a << std::endl; } else if (!PyTuple_Check(value) || PyTuple_Size(value) < 3 || PyTuple_Size(value) > 4) { // reject non-Color, non-tuple value PyErr_SetString(PyExc_TypeError, "Value must be a tuple of 3 or 4 integers or an mcrfpy.Color object."); return -1; } else // get value from tuples { r = PyLong_AsLong(PyTuple_GetItem(value, 0)); g = PyLong_AsLong(PyTuple_GetItem(value, 1)); b = PyLong_AsLong(PyTuple_GetItem(value, 2)); a = 255; if (PyTuple_Size(value) == 4) { a = PyLong_AsLong(PyTuple_GetItem(value, 3)); } } if (r < 0 || r > 255 || g < 0 || g > 255 || b < 0 || b > 255 || a < 0 || a > 255) { PyErr_SetString(PyExc_ValueError, "Color values must be between 0 and 255."); return -1; } if (member_ptr == 0) { self->data->box.setFillColor(sf::Color(r, g, b, a)); } else if (member_ptr == 1) { self->data->box.setOutlineColor(sf::Color(r, g, b, a)); } else { PyErr_SetString(PyExc_AttributeError, "Invalid attribute"); return -1; } return 0; } static PyObject* PyUIFrame_get_children(PyUIFrameObject*, void*); // implementation after the PyUICollectionType definition static PyGetSetDef PyUIFrame_getsetters[] = { {"x", (getter)PyUIFrame_get_float_member, (setter)PyUIFrame_set_float_member, "X coordinate of top-left corner", (void*)0}, {"y", (getter)PyUIFrame_get_float_member, (setter)PyUIFrame_set_float_member, "Y coordinate of top-left corner", (void*)1}, {"w", (getter)PyUIFrame_get_float_member, (setter)PyUIFrame_set_float_member, "width of the rectangle", (void*)2}, {"h", (getter)PyUIFrame_get_float_member, (setter)PyUIFrame_set_float_member, "height of the rectangle", (void*)3}, {"outline", (getter)PyUIFrame_get_float_member, (setter)PyUIFrame_set_float_member, "Thickness of the border", (void*)4}, {"fill_color", (getter)PyUIFrame_get_color_member, (setter)PyUIFrame_set_color_member, "Fill color of the rectangle", (void*)0}, {"outline_color", (getter)PyUIFrame_get_color_member, (setter)PyUIFrame_set_color_member, "Outline color of the rectangle", (void*)1}, {"children", (getter)PyUIFrame_get_children, NULL, "UICollection of objects on top of this one", NULL}, {NULL} }; static PyObject* PyUIFrame_repr(PyUIFrameObject* self) { std::ostringstream ss; if (!self->data) ss << ""; else { auto box = self->data->box; auto fc = box.getFillColor(); auto oc = box.getOutlineColor(); ss << "data->children->size() << " child objects" << ")>"; } std::string repr_str = ss.str(); return PyUnicode_DecodeUTF8(repr_str.c_str(), repr_str.size(), "replace"); } static int PyUIFrame_init(PyUIFrameObject* self, PyObject* args, PyObject* kwds) { //std::cout << "Init called\n"; static const char* keywords[] = { "x", "y", nullptr }; float x = 0.0f, y = 0.0f; if (!PyArg_ParseTupleAndKeywords(args, kwds, "|ff", const_cast(keywords), &x, &y)) { return -1; } //self->data->x = x; //self->data->y = y; self->data->box.setFillColor(sf::Color(0,0,0,255)); self->data->box.setOutlineColor(sf::Color(128,128,128,255)); return 0; } static PyTypeObject PyUIFrameType = { //PyVarObject_HEAD_INIT(NULL, 0) .tp_name = "mcrfpy.Frame", .tp_basicsize = sizeof(PyUIFrameObject), .tp_itemsize = 0, .tp_dealloc = (destructor)[](PyObject* self) { PyUIFrameObject* obj = (PyUIFrameObject*)self; obj->data.reset(); Py_TYPE(self)->tp_free(self); }, .tp_repr = (reprfunc)PyUIFrame_repr, //.tp_hash = NULL, //.tp_iter //.tp_iternext .tp_flags = Py_TPFLAGS_DEFAULT, .tp_doc = PyDoc_STR("docstring"), //.tp_methods = PyUIFrame_methods, //.tp_members = PyUIFrame_members, .tp_getset = PyUIFrame_getsetters, //.tp_base = NULL, .tp_init = (initproc)PyUIFrame_init, .tp_new = [](PyTypeObject* type, PyObject* args, PyObject* kwds) -> PyObject* { PyUIFrameObject* self = (PyUIFrameObject*)type->tp_alloc(type, 0); if (self) self->data = std::make_shared(); return (PyObject*)self; } }; /* * * End auto-generated PyUIFrameType generation * */ /* * * Begin Python Class Instantiator (iterator helper) * */ /* // definition can't go in the header file PyObject* py_instance(UIDrawable* obj) { } */ /* * * End Python Class Instantitator (iterator helper) * */ /* * * Begin PyTextureType defs * */ typedef struct { PyObject_HEAD std::shared_ptr data; } PyTextureObject; static int PyTexture_init(PyTextureObject* self, PyObject* args, PyObject* kwds) { //std::cout << "Init called\n"; static const char* keywords[] = { "filename", "grid_size", "grid_width", "grid_height", nullptr }; char* filename; int grid_size, grid_width, grid_height; if (!PyArg_ParseTupleAndKeywords(args, kwds, "siii", const_cast(keywords), &filename, &grid_size, &grid_width, &grid_height)) { return -1; } sf::Texture t = sf::Texture(); t.loadFromFile((std::string)filename); self->data = std::make_shared(t, grid_size, grid_width, grid_height); return 0; } static PyTypeObject PyTextureType = { //PyVarObject_HEAD_INIT(NULL, 0) .tp_name = "mcrfpy.Texture", .tp_basicsize = sizeof(PyTextureObject), .tp_itemsize = 0, .tp_flags = Py_TPFLAGS_DEFAULT, .tp_doc = PyDoc_STR("SFML Texture Object"), .tp_init = (initproc)PyTexture_init, .tp_new = [](PyTypeObject* type, PyObject* args, PyObject* kwds) -> PyObject* { PyTextureObject* self = (PyTextureObject*)type->tp_alloc(type, 0); return (PyObject*)self; } }; /* * * End PyTextureType defs * */ /* * * Begin template generation for PyUISpriteType * */ static PyObject* PyUISprite_get_float_member(PyUISpriteObject* self, void* closure) { auto member_ptr = reinterpret_cast(closure); if (member_ptr == 0) return PyFloat_FromDouble(self->data->sprite.getPosition().x); else if (member_ptr == 1) return PyFloat_FromDouble(self->data->sprite.getPosition().y); else if (member_ptr == 2) return PyFloat_FromDouble(self->data->sprite.getScale().x); // scale X and Y are identical, presently else { PyErr_SetString(PyExc_AttributeError, "Invalid attribute"); return nullptr; } } static int PyUISprite_set_float_member(PyUISpriteObject* self, PyObject* value, void* closure) { float val; auto member_ptr = reinterpret_cast(closure); if (PyFloat_Check(value)) { val = PyFloat_AsDouble(value); } else if (PyLong_Check(value)) { val = PyLong_AsLong(value); } else { PyErr_SetString(PyExc_TypeError, "Value must be a floating point number."); return -1; } if (member_ptr == 0) //x self->data->sprite.setPosition(val, self->data->sprite.getPosition().y); else if (member_ptr == 1) //y self->data->sprite.setPosition(self->data->sprite.getPosition().x, val); else if (member_ptr == 2) // scale self->data->sprite.setScale(sf::Vector2f(val, val)); return 0; } static PyObject* PyUISprite_get_int_member(PyUISpriteObject* self, void* closure) { auto member_ptr = reinterpret_cast(closure); if (true) {} else { PyErr_SetString(PyExc_AttributeError, "Invalid attribute"); return nullptr; } return PyLong_FromDouble(self->data->sprite_index); } static int PyUISprite_set_int_member(PyUISpriteObject* self, PyObject* value, void* closure) { int val; auto member_ptr = reinterpret_cast(closure); if (PyLong_Check(value)) { val = PyLong_AsLong(value); } else { PyErr_SetString(PyExc_TypeError, "Value must be an integer."); return -1; } self->data->sprite_index = val; self->data->sprite.setTextureRect(self->data->itex->spriteCoordinates(val)); return 0; } static PyObject* PyUISprite_get_texture(PyUISpriteObject* self, void* closure) { return NULL; } static int PyUISprite_set_texture(PyUISpriteObject* self, PyObject* value, void* closure) { return -1; } static PyGetSetDef PyUISprite_getsetters[] = { {"x", (getter)PyUISprite_get_float_member, (setter)PyUISprite_set_float_member, "X coordinate of top-left corner", (void*)0}, {"y", (getter)PyUISprite_get_float_member, (setter)PyUISprite_set_float_member, "Y coordinate of top-left corner", (void*)1}, {"scale", (getter)PyUISprite_get_float_member, (setter)PyUISprite_set_float_member, "Size factor", (void*)2}, {"sprite_number", (getter)PyUISprite_get_int_member, (setter)PyUISprite_set_int_member, "Which sprite on the texture is shown", NULL}, {"texture", (getter)PyUISprite_get_texture, (setter)PyUISprite_set_texture, "Texture object", NULL}, {NULL} }; static PyObject* PyUISprite_repr(PyUISpriteObject* self) { std::ostringstream ss; if (!self->data) ss << ""; else { auto sprite = self->data->sprite; ss << ""; } std::string repr_str = ss.str(); return PyUnicode_DecodeUTF8(repr_str.c_str(), repr_str.size(), "replace"); } static int PyUISprite_init(PyUISpriteObject* self, PyObject* args, PyObject* kwds) { //std::cout << "Init called\n"; static const char* keywords[] = { "x", "y", "texture", "sprite_index", "scale", nullptr }; float x = 0.0f, y = 0.0f, scale = 1.0f; int sprite_index; PyObject* texture; if (!PyArg_ParseTupleAndKeywords(args, kwds, "|ffOif", const_cast(keywords), &x, &y, &texture, &sprite_index, &scale)) { return -1; } // check types for texture // // Set Texture // if (texture != NULL && !PyObject_IsInstance(texture, (PyObject*)&PyTextureType)){ PyErr_SetString(PyExc_TypeError, "texture must be a mcrfpy.Texture instance"); return -1; } else if (texture != NULL) { self->texture = texture; Py_INCREF(texture); } else { // default tex? } auto pytexture = (PyTextureObject*)texture; self->data = std::make_shared(pytexture->data.get(), sprite_index, sf::Vector2f(x, y), scale); self->data->sprite.setPosition(sf::Vector2f(x, y)); return 0; } static PyTypeObject PyUISpriteType = { //PyVarObject_HEAD_INIT(NULL, 0) .tp_name = "mcrfpy.Sprite", .tp_basicsize = sizeof(PyUISpriteObject), .tp_itemsize = 0, .tp_dealloc = (destructor)[](PyObject* self) { PyUISpriteObject* obj = (PyUISpriteObject*)self; // release reference to font object if (obj->texture) Py_DECREF(obj->texture); obj->data.reset(); Py_TYPE(self)->tp_free(self); }, .tp_repr = (reprfunc)PyUISprite_repr, //.tp_hash = NULL, //.tp_iter //.tp_iternext .tp_flags = Py_TPFLAGS_DEFAULT, .tp_doc = PyDoc_STR("docstring"), //.tp_methods = PyUIFrame_methods, //.tp_members = PyUIFrame_members, .tp_getset = PyUISprite_getsetters, //.tp_base = NULL, .tp_init = (initproc)PyUISprite_init, .tp_new = [](PyTypeObject* type, PyObject* args, PyObject* kwds) -> PyObject* { PyUISpriteObject* self = (PyUISpriteObject*)type->tp_alloc(type, 0); //if (self) self->data = std::make_shared(); return (PyObject*)self; } }; /* * * End template for PyUISpriteType * */ /* * * Begin PyUICollectionIter defs * */ typedef struct { PyObject_HEAD std::shared_ptr>> data; int index; int start_size; } PyUICollectionIterObject; static int PyUICollectionIter_init(PyUICollectionIterObject* self, PyObject* args, PyObject* kwds) { PyErr_SetString(PyExc_TypeError, "UICollection cannot be instantiated: a C++ data source is required."); return -1; } static PyObject* PyUICollectionIter_next(PyUICollectionIterObject* self) { if (self->data->size() != self->start_size) { PyErr_SetString(PyExc_RuntimeError, "collection changed size during iteration"); return NULL; } if (self->index > self->start_size - 1) { PyErr_SetNone(PyExc_StopIteration); return NULL; } self->index++; auto vec = self->data.get(); if (!vec) { PyErr_SetString(PyExc_RuntimeError, "the collection store returned a null pointer"); return NULL; } auto target = (*vec)[self->index-1]; // TODO build PyObject* of the correct UIDrawable subclass to return //return py_instance(target); return NULL; } static PyObject* PyUICollectionIter_repr(PyUICollectionIterObject* self) { std::ostringstream ss; if (!self->data) ss << ""; else { ss << "data->size() << " child objects, @ index " << self->index << ")>"; } std::string repr_str = ss.str(); return PyUnicode_DecodeUTF8(repr_str.c_str(), repr_str.size(), "replace"); } static PyTypeObject PyUICollectionIterType = { //PyVarObject_HEAD_INIT(NULL, 0) .tp_name = "mcrfpy.UICollectionIter", .tp_basicsize = sizeof(PyUICollectionIterObject), .tp_itemsize = 0, .tp_dealloc = (destructor)[](PyObject* self) { PyUICollectionIterObject* obj = (PyUICollectionIterObject*)self; obj->data.reset(); Py_TYPE(self)->tp_free(self); }, .tp_repr = (reprfunc)PyUICollectionIter_repr, .tp_flags = Py_TPFLAGS_DEFAULT, .tp_doc = PyDoc_STR("Iterator for a collection of UI objects"), .tp_iternext = (iternextfunc)PyUICollectionIter_next, //.tp_getset = PyUICollection_getset, .tp_init = (initproc)PyUICollectionIter_init, // just raise an exception .tp_new = [](PyTypeObject* type, PyObject* args, PyObject* kwds) -> PyObject* { PyErr_SetString(PyExc_TypeError, "UICollection cannot be instantiated: a C++ data source is required."); return NULL; } }; /* * * End PyUICollectionIter defs * */ /* * * Begin PyUICollection defs * */ typedef struct { PyObject_HEAD std::shared_ptr>> data; } PyUICollectionObject; static Py_ssize_t PyUICollection_len(PyUICollectionObject* self) { return self->data->size(); } static PyObject* PyUICollection_getitem(PyUICollectionObject* self, Py_ssize_t index) { // build a Python version of item at self->data[index] // Copy pasted:: auto vec = self->data.get(); if (!vec) { PyErr_SetString(PyExc_RuntimeError, "the collection store returned a null pointer"); return NULL; } while (index < 0) index += self->data->size(); if (index > self->data->size() - 1) { PyErr_SetString(PyExc_IndexError, "UICollection index out of range"); return NULL; } auto target = (*vec)[index]; RET_PY_INSTANCE(target); // copy-pasted object determination & instantiation /* PyObject* newobj = NULL; std::cout << "Instantiating object\n"; switch (target->derived_type()) { case PyObjectsEnum::UIFRAME: { std::cout << "UIFRAME case\n" << std::flush; PyUIFrameObject* o = (PyUIFrameObject*)((&PyUIFrameType)->tp_alloc(&PyUIFrameType, 0)); if (o) { std::cout << "Casting data...\n" << std::flush; auto p = std::static_pointer_cast(target); std::cout << "casted. Assigning...\n" << std::flush; //o->data = std::make_shared(); o->data = p; //std::cout << "assigned.\n" << std::flush; auto utarget = o->data; //(UIFrame*)target.get(); std::cout << "Loaded data into object. " << utarget->box.getPosition().x << " " << utarget->box.getPosition().y << " " << utarget->box.getSize().x << " " << utarget->box.getSize().y << std::endl; } else { std::cout << "Allocation failed.\n" << std::flush; } return (PyObject*)o; } } */ return NULL; } static PySequenceMethods PyUICollection_sqmethods = { .sq_length = (lenfunc)PyUICollection_len, .sq_item = (ssizeargfunc)PyUICollection_getitem, //.sq_item_by_index = PyUICollection_getitem //.sq_slice - return a subset of the iterable //.sq_ass_item - called when `o[x] = y` is executed (x is any object type) //.sq_ass_slice - cool; no thanks, for now //.sq_contains - called when `x in o` is executed //.sq_ass_item_by_index - called when `o[x] = y` is executed (x is explictly an integer) }; static PyObject* PyUICollection_append(PyUICollectionObject* self, PyObject* o) { // if not UIDrawable subclass, reject it // self->data->push_back( c++ object inside o ); // this would be a great use case for .tp_base if (!PyObject_IsInstance(o, (PyObject*)&PyUIFrameType) && !PyObject_IsInstance(o, (PyObject*)&PyUISpriteType) && !PyObject_IsInstance(o, (PyObject*)&PyUICaptionType) // && //!PyObject_IsInstance(o, (PyObject*)&PyUIGridType) ) { PyErr_SetString(PyExc_TypeError, "Only Frame, Caption, Sprite, and Grid objects can be added to UICollection"); return NULL; } if (PyObject_IsInstance(o, (PyObject*)&PyUIFrameType)) { PyUIFrameObject* frame = (PyUIFrameObject*)o; self->data->push_back(frame->data); } if (PyObject_IsInstance(o, (PyObject*)&PyUICaptionType)) { PyUICaptionObject* caption = (PyUICaptionObject*)o; self->data->push_back(caption->data); } if (PyObject_IsInstance(o, (PyObject*)&PyUISpriteType)) { PyUISpriteObject* sprite = (PyUISpriteObject*)o; self->data->push_back(sprite->data); } Py_INCREF(Py_None); return Py_None; } static PyObject* PyUICollection_remove(PyUICollectionObject* self, PyObject* o) { if (!PyLong_Check(o)) { PyErr_SetString(PyExc_TypeError, "UICollection.remove requires an integer index to remove"); return NULL; } long index = PyLong_AsLong(o); if (index >= self->data->size()) { PyErr_SetString(PyExc_ValueError, "Index out of range"); return NULL; } else if (index < 0) { PyErr_SetString(PyExc_NotImplementedError, "reverse indexing is not implemented."); return NULL; } // release the shared pointer at self->data[index]; self->data->erase(self->data->begin() + index); Py_INCREF(Py_None); return Py_None; } static PyMethodDef PyUICollection_methods[] = { {"append", (PyCFunction)PyUICollection_append, METH_O}, //{"extend", (PyCFunction)PyUICollection_extend, METH_O}, // TODO {"remove", (PyCFunction)PyUICollection_remove, METH_O}, {NULL, NULL, 0, NULL} }; static PyObject* PyUICollection_repr(PyUICollectionObject* self) { std::ostringstream ss; if (!self->data) ss << ""; else { ss << "data->size() << " child objects)>"; } std::string repr_str = ss.str(); return PyUnicode_DecodeUTF8(repr_str.c_str(), repr_str.size(), "replace"); } static int PyUICollection_init(PyUICollectionObject* self, PyObject* args, PyObject* kwds) { PyErr_SetString(PyExc_TypeError, "UICollection cannot be instantiated: a C++ data source is required."); return -1; } static PyObject* PyUICollection_iter(PyUICollectionObject* self) { PyUICollectionIterObject* iterObj; iterObj = (PyUICollectionIterObject*)PyUICollectionIterType.tp_alloc(&PyUICollectionIterType, 0); if (iterObj == NULL) { return NULL; // Failed to allocate memory for the iterator object } iterObj->data = self->data; iterObj->index = 0; iterObj->start_size = self->data->size(); return (PyObject*)iterObj; } /* static PyGetSetDef PyUICollection_getsetters[] = { {NULL} }; */ static PyTypeObject PyUICollectionType = { //PyVarObject_HEAD_INIT(NULL, 0) .tp_name = "mcrfpy.UICollection", .tp_basicsize = sizeof(PyUICollectionObject), .tp_itemsize = 0, .tp_dealloc = (destructor)[](PyObject* self) { PyUICollectionObject* obj = (PyUICollectionObject*)self; obj->data.reset(); Py_TYPE(self)->tp_free(self); }, .tp_repr = (reprfunc)PyUICollection_repr, .tp_as_sequence = &PyUICollection_sqmethods, .tp_flags = Py_TPFLAGS_DEFAULT, .tp_doc = PyDoc_STR("Iterable, indexable collection of UI objects"), .tp_iter = (getiterfunc)PyUICollection_iter, .tp_methods = PyUICollection_methods, // append, remove //.tp_getset = PyUICollection_getset, .tp_init = (initproc)PyUICollection_init, // just raise an exception .tp_new = [](PyTypeObject* type, PyObject* args, PyObject* kwds) -> PyObject* { // Does PyUICollectionType need __new__ if it's not supposed to be instantiable by the user? // Should I just raise an exception? Or is the uninitialized shared_ptr enough of a blocker? PyErr_SetString(PyExc_TypeError, "UICollection cannot be instantiated: a C++ data source is required."); return NULL; } }; /* * * End PyUICollection defs * */ static PyObject* PyUIFrame_get_children(PyUIFrameObject* self, void* closure) { // create PyUICollection instance pointing to self->data->children PyUICollectionObject* o = (PyUICollectionObject*)PyUICollectionType.tp_alloc(&PyUICollectionType, 0); if (o) o->data = self->data->children; return (PyObject*)o; } } // namespace mcrfpydef