#include #include #include
#include "NasalSys.hxx" // Implementation of a Nasal wrapper for the SGPropertyNode class, // using the Nasal "ghost" (er... Garbage collection Handle for // OutSide Thingy) facility. // // Note that these functions appear in Nasal with prepended // underscores. They work on the low-level "ghost" objects and aren't // intended for use from user code, but from Nasal code you will find // in props.nas. That is where the Nasal props.Node class is defined, // which provides a saner interface along the lines of SGPropertyNode. static void propNodeGhostDestroy(void* ghost) { SGPropertyNode_ptr* prop = (SGPropertyNode_ptr*)ghost; delete prop; } naGhostType PropNodeGhostType = { propNodeGhostDestroy }; static naRef propNodeGhostCreate(naContext c, SGPropertyNode* n) { SGPropertyNode_ptr* ghost = new SGPropertyNode_ptr(n); return naNewGhost(c, &PropNodeGhostType, ghost); } naRef FGNasalSys::propNodeGhost(SGPropertyNode* handle) { return propNodeGhostCreate(_context, handle); } #define NASTR(s) s ? naStr_fromdata(naNewString(c),(char*)(s),strlen(s)) : naNil() // // Standard header for the extension functions. It turns the "ghost" // found in arg[0] into a SGPropertyNode_ptr*, and then "unwraps" the // vector found in the second argument into a normal-looking args // array. This allows the Nasal handlers to do things like: // Node.getChild = func { _getChild(me.ghost, arg) } // #define NODEARG() \ naRef ghost = naVec_get(args, 0); \ SGPropertyNode_ptr* node = (SGPropertyNode_ptr*)naGhost_ptr(ghost); \ if(!node || naGhost_type(ghost) != &PropNodeGhostType) \ return naNil(); \ if(naVec_size(args) > 1) { \ args = naVec_get(args, 1); \ if(!naIsVector(args)) return naNil(); \ } else { args = naNil(); } static naRef f_getType(naContext c, naRef args) { NODEARG(); char* t = "unknown"; switch((*node)->getType()) { case SGPropertyNode::NONE: t = "NONE"; break; case SGPropertyNode::ALIAS: t = "ALIAS"; break; case SGPropertyNode::BOOL: t = "BOOL"; break; case SGPropertyNode::INT: t = "INT"; break; case SGPropertyNode::LONG: t = "LONG"; break; case SGPropertyNode::FLOAT: t = "FLOAT"; break; case SGPropertyNode::DOUBLE: t = "DOUBLE"; break; case SGPropertyNode::STRING: t = "STRING"; break; case SGPropertyNode::UNSPECIFIED: t = "UNSPECIFIED"; break; } return NASTR(t); } static naRef f_getName(naContext c, naRef args) { NODEARG(); return NASTR((*node)->getName()); } static naRef f_getIndex(naContext c, naRef args) { NODEARG(); return naNum((*node)->getIndex()); } static naRef f_getValue(naContext c, naRef args) { NODEARG(); switch((*node)->getType()) { case SGPropertyNode::BOOL: case SGPropertyNode::INT: case SGPropertyNode::LONG: case SGPropertyNode::FLOAT: case SGPropertyNode::DOUBLE: return naNum((*node)->getDoubleValue()); case SGPropertyNode::STRING: case SGPropertyNode::UNSPECIFIED: return NASTR((*node)->getStringValue()); } return naNil(); } static naRef f_setValue(naContext c, naRef args) { NODEARG(); naRef val = naVec_get(args, 0); if(naIsString(val)) (*node)->setStringValue(naStr_data(val)); else (*node)->setDoubleValue(naNumValue(val).num); return naNil(); } static naRef f_setIntValue(naContext c, naRef args) { NODEARG(); int iv = (int)naNumValue(naVec_get(args, 0)).num; (*node)->setIntValue(iv); return naNil(); } static naRef f_setBoolValue(naContext c, naRef args) { NODEARG(); naRef val = naVec_get(args, 0); (*node)->setBoolValue(naTrue(val) ? true : false); return naNil(); } static naRef f_setDoubleValue(naContext c, naRef args) { NODEARG(); (*node)->setDoubleValue(naNumValue(naVec_get(args, 0)).num); return naNil(); } static naRef f_getParent(naContext c, naRef args) { NODEARG(); SGPropertyNode* n = (*node)->getParent(); if(!n) return naNil(); return propNodeGhostCreate(c, n); } static naRef f_getChild(naContext c, naRef args) { NODEARG(); naRef child = naVec_get(args, 0); if(!naIsString(child)) return naNil(); SGPropertyNode* n = (*node)->getChild(naStr_data(child)); if(!n) return naNil(); return propNodeGhostCreate(c, n); } static naRef f_getChildren(naContext c, naRef args) { NODEARG(); naRef result = naNewVector(c); if(naIsNil(args) || naVec_size(args) == 0) { // Get all children for(int i=0; i<(*node)->nChildren(); i++) naVec_append(result, propNodeGhostCreate(c, (*node)->getChild(i))); } else { // Get all children of a specified name naRef name = naVec_get(args, 0); if(!naIsString(name)) return naNil(); vector children = (*node)->getChildren(naStr_data(name)); for(int i=0; iremoveChild(naStr_data(child), (int)index.num); return naNil(); } static naRef f_getNode(naContext c, naRef args) { NODEARG(); naRef path = naVec_get(args, 0); bool create = naTrue(naVec_get(args, 1)); if(!naIsString(path)) return naNil(); SGPropertyNode* n = (*node)->getNode(naStr_data(path), create); return propNodeGhostCreate(c, n); } static naRef f_new(naContext c, naRef args) { return propNodeGhostCreate(c, new SGPropertyNode()); } static naRef f_globals(naContext c, naRef args) { return propNodeGhostCreate(c, globals->get_props()); } struct { naCFunction func; char* name; } propfuncs[] = { { f_getType, "_getType" }, { f_getName, "_getName" }, { f_getIndex, "_getIndex" }, { f_getValue, "_getValue" }, { f_setValue, "_setValue" }, { f_setIntValue, "_setIntValue" }, { f_setBoolValue, "_setBoolValue" }, { f_setDoubleValue, "_setDoubleValue" }, { f_getParent, "_getParent" }, { f_getChild, "_getChild" }, { f_getChildren, "_getChildren" }, { f_removeChild, "_removeChild" }, { f_getNode, "_getNode" }, { f_new, "_new" }, { f_globals, "_globals" }, { 0, 0 } }; naRef FGNasalSys::genPropsModule() { naRef namespc = naNewHash(_context); for(int i=0; propfuncs[i].name; i++) hashset(namespc, propfuncs[i].name, naNewFunc(_context, naNewCCode(_context, propfuncs[i].func))); return namespc; }