UnigineScript Containers
You can work with UnigineScript containers from C++ side via Unigine API, that is, with:
See also
An example can be found in <UnigineSDK>/source/samples/Api/Scripts/Arrays/ directory.
Container Export Example
Unigine vectors and maps can be accessed via:
- ArrayVector class and the ArrayVector::get() function for vectors.
- ArrayMap and the ArrayMap::get() function for maps.
To enumerate all of the ArrayMap elements, use the special ArrayMap::Iterator class.
C++ Side
Create setter and getter functions that receive Unigine containers and handle their elements. Then, export the created functions in order to use them in the script.
You should specify the array declaration as the last argument of the MakeExternFunction() if your array functions receive an array as an argument.
MakeExternFunction(&my_array_vector_set,"[]")
#include <string>
#include <UnigineInterpreter.h>
#include <Unigine.h>
/*
*/
using namespace Unigine;
/******************************************************************************\
*
* User defined array functions
*
\******************************************************************************/
/*
*/
void my_array_vector_set(const Variable &id,int index,const Variable &v) {
ArrayVector vector = ArrayVector::get(Interpreter::get(),id);
vector.set(index,v);
}
Variable my_array_vector_get(const Variable &id,int index) {
ArrayVector vector = ArrayVector::get(Interpreter::get(),id);
return vector.get(index);
}
/*
*/
void my_array_map_set(const Variable &id,const Variable &key,const Variable &v) {
ArrayMap map = ArrayMap::get(Interpreter::get(),id);
map.set(key,v);
}
Variable my_array_map_get(const Variable &id,const Variable &key) {
ArrayMap map = ArrayMap::get(Interpreter::get(),id);
return map.get(key);
}
/*
*/
void my_array_vector_generate(const Variable &id) {
ArrayVector vector = ArrayVector::get(Interpreter::get(),id);
vector.clear();
for(int i = 0; i < 4; i++) {
vector.append(Variable(i * i));
}
vector.remove(0);
vector.append(Variable("128"));
}
void my_array_map_generate(const Variable &id) {
ArrayMap map = ArrayMap::get(Interpreter::get(),id);
map.clear();
for(int i = 0; i < 4; i++) {
map.append(Variable(i * i),Variable(i * i));
}
map.remove(Variable(0));
map.append(Variable(128),Variable("128"));
}
/*
*/
void my_array_vector_enumerate(const Variable &id) {
ArrayVector vector = ArrayVector::get(Interpreter::get(),id);
for(int i = 0; i < vector.size(); i++) {
Log::message("%d: %s\n",i,vector.get(i).getTypeInfo().get());
}
}
void my_array_map_enumerate_forward(const Variable &id) {
ArrayMap map = ArrayMap::get(Interpreter::get(),id);
ArrayMap::Iterator end = map.end();
for(ArrayMap::Iterator it = map.begin(); it != end; ++it) {
Log::message("%d: %s\n",it.key().getInt(),it.get().getTypeInfo().get());
}
}
void my_array_map_enumerate_backward(const Variable &sid) {
ArrayMap map = ArrayMap::get(Interpreter::get(),id);
ArrayMap::Iterator end = map.end();
for(ArrayMap::Iterator it = map.back(); it != end; --it) {
Log::message("%d: %s\n",it.key().getInt(),it.get().getTypeInfo().get());
}
}
/******************************************************************************\
*
* Main
*
\******************************************************************************/
/*
*/
int main(int argc,char **argv) {
// export functions
Interpreter::addExternFunction("my_array_vector_set",MakeExternFunction(&my_array_vector_set,"[]"));
Interpreter::addExternFunction("my_array_vector_get",MakeExternFunction(&my_array_vector_get,"[]"));
Interpreter::addExternFunction("my_array_map_set",MakeExternFunction(&my_array_map_set,"[]"));
Interpreter::addExternFunction("my_array_map_get",MakeExternFunction(&my_array_map_get,"[]"));
Interpreter::addExternFunction("my_array_vector_generate",MakeExternFunction(&my_array_vector_generate,"[]"));
Interpreter::addExternFunction("my_array_map_generate",MakeExternFunction(&my_array_map_generate,"[]"));
Interpreter::addExternFunction("my_array_vector_enumerate",MakeExternFunction(&my_array_vector_enumerate,"[]"));
Interpreter::addExternFunction("my_array_map_enumerate_forward",MakeExternFunction(&my_array_map_enumerate_forward,"[]"));
Interpreter::addExternFunction("my_array_map_enumerate_backward",MakeExternFunction(&my_array_map_enumerate_backward,"[]"));
// init engine
Engine *engine = Engine::init(UNIGINE_VERSION,argc,argv);
// enter main loop
engine->main();
// shutdown engine
Engine::shutdown();
return 0;
}
Access from Script
And here is how the exported custom functions can be used back in UnigineScript:
// my_world.cpp
/*
*/
int init() {
/////////////////////////////////
log.warning("\naccess to vector\n\n");
int vector[] = ( 0, 1 );
for(int i = 0; i < 2; i++) {
log.message("vector %d: %s\n",i,typeinfo(my_array_vector_get(vector,i)));
my_array_vector_set(vector,i,string(i));
log.message("vector %d: %s\n",i,typeinfo(my_array_vector_get(vector,i)));
}
/////////////////////////////////
log.warning("\naccess to map\n\n");
int map[] = ( 0 : 0, 1 : 1 );
for(int i = 0; i < 2; i++) {
log.message("map %d: %s\n",i,typeinfo(my_array_map_get(map,i)));
my_array_map_set(map,i,string(i));
log.message("map %d: %s\n",i,typeinfo(my_array_map_get(map,i)));
}
/////////////////////////////////
log.warning("\nvector generation\n\n");
my_array_vector_generate(vector);
foreachkey(int i; vector) {
log.message("vector %d: %s\n",i,typeinfo(vector[i]));
}
/////////////////////////////////
log.warning("\nmap generation\n\n");
my_array_map_generate(map);
foreachkey(int i; map) {
log.message("map %d: %s\n",i,typeinfo(map[i]));
}
/////////////////////////////////
log.warning("\nvector enumeration\n\n");
my_array_vector_enumerate(vector);
/////////////////////////////////
log.warning("\nmap forward enumeration\n\n");
my_array_map_enumerate_forward(map);
/////////////////////////////////
log.warning("\nmap backward enumeration\n\n");
my_array_map_enumerate_backward(map);
/////////////////////////////////
// show console
engine.console.setActivity(1);
return 1;
}
Output
The following result will be printed into the console:
access to vector
vector 0: int: 0
vector 0: string: "0"
vector 1: int: 1
vector 1: string: "1"
access to map
map 0: int: 0
map 0: string: "0"
map 1: int: 1
map 1: string: "1"
vector generation
vector 0: int: 1
vector 1: int: 4
vector 2: int: 9
vector 3: string: "128"
map generation
map 1: int: 1
map 4: int: 4
map 9: int: 9
map 128: string: "128"
vector enumeration
0: int: 1
1: int: 4
2: int: 9
3: string: "128"
map forward enumeration
1: int: 1
4: int: 4
9: int: 9
128: string: "128"
map backward enumeration
128: string: "128"
9: int: 9
4: int: 4
1: int: 1
Last update: 2017-07-03
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