Mercurial > MadButterfly
view nodejs/coord.cc @ 1307:cfbc0f3e54e3
Add supporting for programmer defined prefix for data_monitor
author | Thinker K.F. Li <thinker@codemud.net> |
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date | Thu, 20 Jan 2011 00:34:08 +0800 |
parents | 88bd0eee2b00 |
children | 0afd598a0b30 |
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// -*- indent-tabs-mode: t; tab-width: 8; c-basic-offset: 4; -*- // vim: sw=4:ts=8:sts=4 #include <stdio.h> #include <v8.h> extern "C" { #include "mb.h" #include "mb_X_supp.h" #include "mb_tools.h" #include "njs_mb_supp.h" } #include "mbfly_njs.h" #ifndef ASSERT #define ASSERT(x) #endif #define OK 0 /*! \page jsgc How to Manage Life-cycle of Objects for Javascript. * * The life-cycle of MadButterfly ojects are simple. A object is live * when it is created and dead when it is free. When a coord or shape * is free, it is also removed from the tree. There is not way to * remove a coord or a shape without freeing it. So, if you want to * remove a coord or a shape object from the tree, you can only free * it. * * Javascript, in conventional, does not free an object. It has GC, * the engine, being used, will free an object if it is no more * referenced. So, we had better provide a removing function, but * actually free an object. In idea situation, a new MB object would * be created for and attached on the JS object, when an object added * back to the tree. But, it means we need to keep states of an * object and create a new one with the same states later. It is * complicated. So, once an object is removed, it is invalidated. * * I hope someone would implement a higher abstract layer, in JS, to * implement the idea model that recreate a new object when an * invalidated JS object being added back. * * An invalid object is the one with NULL internal field and obj.valid * == false. The binding of MadButterfly hold a reference to every * object added to the tree of a mbrt (runtime object), and remove the * reference and invalidate it when it being removed. * * For coords, they are always attached to the tree when it is valid. * So, binding hold a persistent reference to it. The reference is * purged when a coord being removed from the tree and being * invalidated. * * For any shape, it is not attached to the tree at begining, but is * attached to a tree laterly, or is collected by GC. The binding * hold a weak reference for a new shape, and upgrade to a strong * reference when the shape being added to the tree. */ using namespace v8; /*! \defgroup xnjsmb_coord JS binding for coord objects. * \ingroup xnjsmb * * @{ */ /*! \brief Invalidate JS objects for coords and shapes in a subtree. * * \param self is the object of the root of subtree. * * \sa \ref jsgc */ static void xnjsmb_coord_invalidate_subtree(coord_t *coord) { Persistent<Object> *child_hdl; Persistent<Object> *mem_hdl; coord_t *child; shape_t *mem; Handle<Value> _false = Boolean::New(0); /* Invalidate all coords in the subtree */ FOR_COORDS_PREORDER(coord, child) { child_hdl = (Persistent<Object> *)mb_prop_get(&child->obj.props, PROP_JSOBJ); SET(*child_hdl, "valid", _false); WRAP(*child_hdl, NULL); child_hdl->Dispose(); delete child_hdl; /* Invalidate members of a coord */ FOR_COORD_SHAPES(child, mem) { mem_hdl = (Persistent<Object> *)mb_prop_get(&mem->obj.props, PROP_JSOBJ); SET(*mem_hdl, "valid", _false); WRAP(*mem_hdl, NULL); mem_hdl->Dispose(); delete mem_hdl; } } } /*! \brief Free C objects for coords and shapes in a subtree. * * \param self is the object of the root of subtree. * * \sa \ref jsgc */ static void xnjsmb_coord_free_subtree(redraw_man_t *rdman, coord_t *coord) { coord_t *child, *last_child; shape_t *mem, *last_mem; int r; rdman_coord_changed(rdman, coord); last_child = NULL; FOR_COORDS_POSTORDER(coord, child) { if(last_child != NULL) { r = rdman_coord_free(rdman, last_child); if(r != OK) THROW_noret("Unknown error"); } /* Free members of a coord */ last_mem = NULL; FOR_COORD_SHAPES(child, mem) { if(last_mem != NULL) { r = rdman_shape_free(rdman, last_mem); if(r != OK) THROW_noret("Unknown error"); } last_mem = mem; } if(last_mem != NULL) { r = rdman_shape_free(rdman, last_mem); if(r != OK) THROW_noret("Unknown error"); } last_child = child; } if(last_child != NULL) { r = rdman_coord_free(rdman, last_child); if(r != OK) THROW_noret("Unknown error"); } } static void xnjsmb_coord_mod(Handle<Object> self, coord_t *coord) { Persistent<Object> *self_hdl; subject_t *subject; Handle<Value> subject_o; /* Keep associated js object in property store for retrieving, * later, without create new js object. */ self_hdl = new Persistent<Object>(); *self_hdl = Persistent<Object>::New(self); mb_prop_set(&coord->obj.props, PROP_JSOBJ, self_hdl); subject = coord->mouse_event; subject_o = export_xnjsmb_auto_subject_new(subject); SET(self, "mouse_event", subject_o); SET(self, "valid", Boolean::New(1)); } static float coord_get_index(coord_t *coord, Handle<Object> self, int idx, const char **err) { if(idx < 0 || idx >= 6) { *err = "Invalid index: out of range"; return 0; } return coord_get_matrix(coord)[idx]; } static float coord_set_index(coord_t *coord, Handle<Object> self, int idx, float v, const char **err) { Handle<Object> js_rt; redraw_man_t *rdman; if(idx < 0 || idx >= 6) { *err = "Invalid index: out of range"; return 0; } coord_get_matrix(coord)[idx] = v; js_rt = GET(self, "mbrt")->ToObject(); rdman = xnjsmb_rt_rdman(js_rt); rdman_coord_changed(rdman, coord); return v; } static void xnjsmb_coord_add_shape(coord_t *coord, Handle<Object> self, shape_t *shape, const char **err) { Handle<Object> js_rt; Persistent<Object> *shape_hdl; redraw_man_t *rdman; int r; js_rt = GET(self, "mbrt")->ToObject(); rdman = xnjsmb_rt_rdman(js_rt); r = rdman_add_shape(rdman, shape, coord); if(r != 0) *err = "Unknown error"; /* see \ref jsgc */ shape_hdl = (Persistent<Object> *)mb_prop_get(&shape->obj.props, PROP_JSOBJ); shape_hdl->ClearWeak(); rdman_shape_changed(rdman, shape); } static void xnjsmb_coord_remove(coord_t *coord, Handle<Object> self) { Handle<Object> js_rt; redraw_man_t *rdman; if(!GET(self, "valid")->ToBoolean()->Value()) /* Invalidated object */ THROW_noret("Invalid object"); js_rt = GET(self, "mbrt")->ToObject(); rdman = xnjsmb_rt_rdman(js_rt); xnjsmb_coord_invalidate_subtree(coord); xnjsmb_coord_free_subtree(rdman, coord); } static void xnjsmb_coord_show(coord_t *coord, Handle<Object> self) { Handle<Object> js_rt; redraw_man_t *rdman; js_rt = GET(self, "mbrt")->ToObject(); ASSERT(js_rt != NULL); rdman = xnjsmb_rt_rdman(js_rt); coord_show(coord); rdman_coord_changed(rdman, coord); } static void xnjsmb_coord_hide(coord_t *coord, Handle<Object> self) { Handle<Object> js_rt; redraw_man_t *rdman; js_rt = GET(self, "mbrt")->ToObject(); ASSERT(js_rt != NULL); rdman = xnjsmb_rt_rdman(js_rt); coord_hide(coord); rdman_coord_changed(rdman, coord); } static void xnjsmb_coord_set_opacity(Handle<Object> self, coord_t *coord, Handle<Value> value, const char **str) { Handle<Object> js_rt; redraw_man_t *rdman; js_rt = GET(self, "mbrt")->ToObject(); ASSERT(js_rt != NULL); rdman = xnjsmb_rt_rdman(js_rt); coord_set_opacity(coord, value->NumberValue()); rdman_coord_changed(rdman, coord); } static Handle<Value> xnjsmb_coord_get_opacity(Handle<Object> self, coord_t *coord, const char **err) { float opacity; opacity = coord_get_opacity(coord); return Number::New(opacity); } #define cc(i) (coord_get_matrix(coord)[i]) static void xnjsmb_coord_set_y(Handle<Object> self, coord_t *coord, Handle<Value> value, const char **str) { Handle<Object> js_rt; redraw_man_t *rdman; co_aix y,ty; co_aix xx,yy; js_rt = GET(self, "mbrt")->ToObject(); ASSERT(js_rt != NULL); rdman = xnjsmb_rt_rdman(js_rt); ty = value->NumberValue(); xx = GET(self,"_x")->ToNumber()->NumberValue(); yy = GET(self,"_y")->ToNumber()->NumberValue(); y = ty-cc(3)*xx-cc(4)*yy; coord_get_matrix(coord)[5] = y; rdman_coord_changed(rdman, coord); } static Handle<Value> xnjsmb_coord_get_y(Handle<Object> self, coord_t *coord, const char **err) { co_aix y; co_aix xx,yy; xx = GET(self,"_x")->ToNumber()->NumberValue(); yy = GET(self,"_y")->ToNumber()->NumberValue(); y = cc(3)*xx+cc(4)*yy+cc(5); return Number::New(y); } static void xnjsmb_coord_set_x(Handle<Object> self, coord_t *coord, Handle<Value> value, const char **str) { Handle<Object> js_rt; redraw_man_t *rdman; co_aix x,tx; co_aix xx,yy; xx = GET(self,"_x")->ToNumber()->NumberValue(); yy = GET(self,"_y")->ToNumber()->NumberValue(); js_rt = GET(self, "mbrt")->ToObject(); ASSERT(js_rt != NULL); rdman = xnjsmb_rt_rdman(js_rt); tx = value->NumberValue(); x = tx-cc(0)*xx-cc(1)*yy; coord_get_matrix(coord)[2] = x; rdman_coord_changed(rdman, coord); } static Handle<Value> xnjsmb_coord_get_x(Handle<Object> self, coord_t *coord, const char **err) { co_aix x; co_aix xx,yy; xx = GET(self,"_x")->ToNumber()->NumberValue(); yy = GET(self,"_y")->ToNumber()->NumberValue(); x = cc(0)*xx+cc(1)*yy+cc(2); return Number::New(x); } #undef m #include "coord-inc.h" /*! \brief This function used by \ref xnjsmb_mb_rt to wrap coord object. */ Handle<Value> export_xnjsmb_auto_coord_new(coord_t *coord) { return xnjsmb_auto_coord_new(coord); } /*! \brief Initialize Javascript object for root coord of a runtime. * * \param js_rt is the runtime object to create the root object for. * * After the function, js_rt.root is the object for root coord in * Javascript. */ void xnjsmb_coord_mkroot(Handle<Object> js_rt) { redraw_man_t *rdman; coord_t *root; Handle<Object> obj; static int init_flag = 0; if(!init_flag) { xnjsmb_auto_coord_init(); init_flag = 1; } rdman = xnjsmb_rt_rdman(js_rt); root = rdman_get_root(rdman); obj = xnjsmb_auto_coord_new(root).As<Object>(); SET(obj, "mbrt", js_rt); SET(js_rt, "root", obj); } /* @} */