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| 1 #pragma once |
| 2 |
| 3 #include <cstdint> |
| 4 #include <cstdio> |
| 5 #include <cstdlib> |
| 6 #include <exception> |
| 7 #include <map> |
| 8 #include <string> |
| 9 #include <type_traits> |
| 10 #include <utility> |
| 11 #include <vector> |
| 12 |
| 13 #include <emscripten.h> |
| 14 |
| 15 #include "String.h" |
| 16 #include "intrusive_ptr.h" |
| 17 |
| 18 namespace bindings_internal |
| 19 { |
| 20 typedef void* TYPEID; |
| 21 |
| 22 enum class TypeCategory |
| 23 { |
| 24 UNKNOWN, |
| 25 VOID, |
| 26 INT, |
| 27 DEPENDENT_STRING, |
| 28 OWNED_STRING, |
| 29 STRING_REF, |
| 30 CLASS_PTR |
| 31 }; |
| 32 |
| 33 template<typename T> |
| 34 struct TypeInfo |
| 35 { |
| 36 /* |
| 37 * Since TypeInfo is a templated type, in practice the compiler will define |
| 38 * a new type for each possible template parameter value. We use that fact |
| 39 * to generate type identifiers: each of these TypeInfo types has a |
| 40 * different s_typeIDHelper member, so we use a pointer to that static |
| 41 * variable as a type identifier - it will be different for each template |
| 42 * parameter. |
| 43 */ |
| 44 static char s_typeIDHelper; |
| 45 constexpr operator TYPEID() const |
| 46 { |
| 47 return &s_typeIDHelper; |
| 48 } |
| 49 |
| 50 constexpr operator TypeCategory() const |
| 51 { |
| 52 if (std::is_void<T>()) |
| 53 return TypeCategory::VOID; |
| 54 |
| 55 if (std::is_integral<T>() || std::is_enum<T>()) |
| 56 return TypeCategory::INT; |
| 57 |
| 58 if (std::is_same<DependentString, T>() || std::is_same<const DependentStri
ng, T>()) |
| 59 return TypeCategory::DEPENDENT_STRING; |
| 60 |
| 61 if (std::is_same<OwnedString, T>() || std::is_same<const OwnedString, T>()
) |
| 62 return TypeCategory::OWNED_STRING; |
| 63 |
| 64 if (std::is_same<String&, T>() || std::is_same<const String&, T>() || |
| 65 std::is_same<DependentString&, T>()) |
| 66 { |
| 67 return TypeCategory::STRING_REF; |
| 68 } |
| 69 |
| 70 if (std::is_pointer<T>() && std::is_class<typename std::remove_pointer<T>:
:type>()) |
| 71 return TypeCategory::CLASS_PTR; |
| 72 |
| 73 return TypeCategory::UNKNOWN; |
| 74 } |
| 75 |
| 76 constexpr TYPEID pointer_type() const |
| 77 { |
| 78 if (std::is_pointer<T>()) |
| 79 return TypeInfo<typename std::remove_pointer<T>::type>(); |
| 80 else |
| 81 return nullptr; |
| 82 } |
| 83 }; |
| 84 |
| 85 template<typename T> |
| 86 char TypeInfo<T>::s_typeIDHelper; |
| 87 |
| 88 struct FunctionInfo |
| 89 { |
| 90 TypeCategory returnType; |
| 91 TYPEID pointerType; |
| 92 std::vector<TypeCategory> args; |
| 93 bool instance_function; |
| 94 int effectiveArgs; |
| 95 TypeCategory effectiveReturnType; |
| 96 char name[1024]; |
| 97 |
| 98 FunctionInfo() |
| 99 { |
| 100 name[0] = '\0'; |
| 101 } |
| 102 |
| 103 FunctionInfo(TypeCategory returnType, TYPEID pointerType, |
| 104 std::initializer_list<TypeCategory> argTypes, bool instance_function, |
| 105 void* function) |
| 106 : returnType(returnType), pointerType(pointerType), |
| 107 instance_function(instance_function) |
| 108 { |
| 109 name[0] = '\0'; |
| 110 |
| 111 // The function parameter is a pointer to the function pointer. |
| 112 // Emscripten's "function pointers" are actually integers indicating the |
| 113 // position in the call table. 0 represents nullptr. |
| 114 if (!*reinterpret_cast<int*>(function)) |
| 115 return; |
| 116 |
| 117 for (const auto& item : argTypes) |
| 118 { |
| 119 if (item != TypeCategory::INT && item != TypeCategory::STRING_REF && |
| 120 item != TypeCategory::CLASS_PTR) |
| 121 { |
| 122 throw std::runtime_error("Unexpected function argument type"); |
| 123 } |
| 124 args.push_back(item); |
| 125 } |
| 126 |
| 127 if (returnType != TypeCategory::VOID && returnType != TypeCategory::INT && |
| 128 returnType != TypeCategory::DEPENDENT_STRING && |
| 129 returnType != TypeCategory::OWNED_STRING && |
| 130 returnType != TypeCategory::STRING_REF && |
| 131 returnType != TypeCategory::CLASS_PTR) |
| 132 { |
| 133 throw std::runtime_error("Unexpected function return type"); |
| 134 } |
| 135 |
| 136 effectiveArgs = args.size(); |
| 137 effectiveReturnType = returnType; |
| 138 if (instance_function) |
| 139 effectiveArgs++; |
| 140 |
| 141 if (returnType == TypeCategory::DEPENDENT_STRING || |
| 142 returnType == TypeCategory::OWNED_STRING) |
| 143 { |
| 144 effectiveArgs++; |
| 145 effectiveReturnType = TypeCategory::VOID; |
| 146 } |
| 147 |
| 148 get_function_name(function, effectiveArgs, |
| 149 effectiveReturnType == TypeCategory::VOID); |
| 150 } |
| 151 |
| 152 template<typename ReturnType, typename... Args> |
| 153 FunctionInfo(ReturnType (*function)(Args...)) |
| 154 : FunctionInfo(TypeInfo<ReturnType>(), |
| 155 TypeInfo<ReturnType>().pointer_type(), { TypeInfo<Args>()... }, false, |
| 156 &function) |
| 157 { |
| 158 } |
| 159 |
| 160 template<typename ClassType, typename ReturnType, typename... Args> |
| 161 FunctionInfo(ReturnType (ClassType::*function)(Args...)) |
| 162 : FunctionInfo(TypeInfo<ReturnType>(), |
| 163 TypeInfo<ReturnType>().pointer_type(), { TypeInfo<Args>()... }, true, |
| 164 &function) |
| 165 { |
| 166 } |
| 167 |
| 168 template<typename ClassType, typename ReturnType, typename... Args> |
| 169 FunctionInfo(ReturnType (ClassType::*function)(Args...) const) |
| 170 : FunctionInfo(TypeInfo<ReturnType>(), |
| 171 TypeInfo<ReturnType>().pointer_type(), { TypeInfo<Args>()... }, true, |
| 172 &function) |
| 173 { |
| 174 } |
| 175 |
| 176 bool empty() const |
| 177 { |
| 178 return name[0] == '\0'; |
| 179 } |
| 180 |
| 181 void get_function_name(void* ptr, int numArgs, bool voidResult) |
| 182 { |
| 183 // This is a hack, C++ won't let us get the mangled function name. |
| 184 // JavaScript is more dynamic so we pass the pointer to our function |
| 185 // there. With that and the function signature we can call the function - |
| 186 // with a full stack so that we will cause it to abort. Sometimes the |
| 187 // function we are calling will also be missing from the build. The result |
| 188 // is the same: abort() is called which in turn calls stackTrace(). By |
| 189 // replacing stackTrace() we get access to the call stack and search it |
| 190 // for the name of our function. |
| 191 |
| 192 EM_ASM_ARGS({ |
| 193 var signature = $3 ? "v" : "i"; |
| 194 var args = []; |
| 195 for (var i = 0; i < $2; i++) |
| 196 { |
| 197 signature += "i"; |
| 198 args.push(0); |
| 199 } |
| 200 |
| 201 var oldPrint = Module.print; |
| 202 var oldPrintErr = Module.printErr; |
| 203 var oldStackTrace = stackTrace; |
| 204 var sp = Runtime.stackSave(); |
| 205 Module.print = function(){}; |
| 206 Module.printErr = function(){}; |
| 207 stackTrace = function() |
| 208 { |
| 209 var stack = []; |
| 210 for (var f = arguments.callee.caller; f; f = f.caller) |
| 211 { |
| 212 if (f.name) |
| 213 { |
| 214 if (f.name.indexOf("dynCall") == 0) |
| 215 break; |
| 216 else |
| 217 stack.push(f.name); |
| 218 } |
| 219 } |
| 220 |
| 221 result = stack[stack.length - 1]; |
| 222 if (result && result.indexOf("__wrapper") >= 0) |
| 223 result = stack[stack.length - 2]; |
| 224 throw result; |
| 225 }; |
| 226 |
| 227 Runtime.stackRestore(STACK_MAX); |
| 228 |
| 229 try |
| 230 { |
| 231 Runtime.dynCall(signature, HEAP32[$1 >> 2], args); |
| 232 } |
| 233 catch(e) |
| 234 { |
| 235 Module.stringToAscii(e, $0); |
| 236 } |
| 237 finally |
| 238 { |
| 239 Runtime.stackRestore(sp); |
| 240 Module.print = oldPrint; |
| 241 Module.printErr = oldPrintErr; |
| 242 stackTrace = oldStackTrace; |
| 243 } |
| 244 }, name, ptr, numArgs, voidResult); |
| 245 } |
| 246 }; |
| 247 |
| 248 class NoBaseClass |
| 249 { |
| 250 }; |
| 251 |
| 252 struct PropertyInfo |
| 253 { |
| 254 std::string name; |
| 255 FunctionInfo getter; |
| 256 FunctionInfo setter; |
| 257 std::string jsValue; |
| 258 }; |
| 259 |
| 260 struct MethodInfo |
| 261 { |
| 262 std::string name; |
| 263 FunctionInfo call; |
| 264 }; |
| 265 |
| 266 struct DifferentiatorInfo |
| 267 { |
| 268 size_t offset; |
| 269 std::vector<std::pair<int, std::string>> mapping; |
| 270 }; |
| 271 |
| 272 struct ClassInfo |
| 273 { |
| 274 ClassInfo* baseClass; |
| 275 std::string name; |
| 276 std::vector<PropertyInfo> properties; |
| 277 std::vector<MethodInfo> methods; |
| 278 std::vector<FunctionInfo> initializers; |
| 279 DifferentiatorInfo subclass_differentiator; |
| 280 }; |
| 281 |
| 282 std::map<TYPEID, ClassInfo> classes; |
| 283 |
| 284 void register_class(const char* name, TYPEID classID, TYPEID baseClassID) |
| 285 { |
| 286 auto it = classes.find(classID); |
| 287 if (it != classes.end()) |
| 288 throw std::runtime_error(std::string("Duplicate definition for class ") +
name); |
| 289 |
| 290 ClassInfo* baseClass = nullptr; |
| 291 if (baseClassID != TypeInfo<NoBaseClass>()) |
| 292 { |
| 293 it = classes.find(baseClassID); |
| 294 if (it == classes.end()) |
| 295 throw std::runtime_error(std::string("Unknown base class defined for cla
ss ") + name); |
| 296 baseClass = &(it->second); |
| 297 } |
| 298 |
| 299 ClassInfo classInfo; |
| 300 classInfo.baseClass = baseClass; |
| 301 classInfo.name = name; |
| 302 classInfo.subclass_differentiator.offset = SIZE_MAX; |
| 303 classes[classID] = classInfo; |
| 304 } |
| 305 |
| 306 void register_property(TYPEID classID, const char* name, |
| 307 const FunctionInfo& getter, const FunctionInfo& setter, |
| 308 const char* jsValue = "") |
| 309 { |
| 310 auto it = classes.find(classID); |
| 311 if (it == classes.end()) |
| 312 throw std::runtime_error(std::string("Property defined on unknown class: "
) + name); |
| 313 |
| 314 PropertyInfo propertyInfo; |
| 315 propertyInfo.name = name; |
| 316 propertyInfo.getter = getter; |
| 317 propertyInfo.setter = setter; |
| 318 propertyInfo.jsValue = jsValue; |
| 319 it->second.properties.push_back(propertyInfo); |
| 320 } |
| 321 |
| 322 void register_method(TYPEID classID, const char* name, |
| 323 const FunctionInfo& call) |
| 324 { |
| 325 auto it = classes.find(classID); |
| 326 if (it == classes.end()) |
| 327 throw std::runtime_error(std::string("Method defined on unknown class: ")
+ name); |
| 328 |
| 329 MethodInfo methodInfo; |
| 330 methodInfo.name = name; |
| 331 methodInfo.call = call; |
| 332 it->second.methods.push_back(methodInfo); |
| 333 } |
| 334 |
| 335 void register_initializer(TYPEID classID, const FunctionInfo& call) |
| 336 { |
| 337 auto it = classes.find(classID); |
| 338 if (it == classes.end()) |
| 339 throw std::runtime_error("Initializer defined on unknown class"); |
| 340 |
| 341 it->second.initializers.push_back(call); |
| 342 } |
| 343 |
| 344 void register_differentiator(TYPEID classID, size_t offset, |
| 345 std::vector<std::pair<int, std::string>>& mapping) |
| 346 { |
| 347 auto it = classes.find(classID); |
| 348 if (it == classes.end()) |
| 349 throw std::runtime_error("Subclass differentiator defined on unknown class
"); |
| 350 |
| 351 if (it->second.subclass_differentiator.offset != SIZE_MAX) |
| 352 throw std::runtime_error("More than one subclass differentiator defined fo
r class " + it->second.name); |
| 353 |
| 354 DifferentiatorInfo differentiatorInfo; |
| 355 differentiatorInfo.offset = offset; |
| 356 differentiatorInfo.mapping = mapping; |
| 357 it->second.subclass_differentiator = differentiatorInfo; |
| 358 } |
| 359 |
| 360 const std::string generateCall(const FunctionInfo& call, |
| 361 std::vector<std::string>& params) |
| 362 { |
| 363 if (call.returnType == TypeCategory::DEPENDENT_STRING || |
| 364 call.returnType == TypeCategory::OWNED_STRING) |
| 365 { |
| 366 params.insert(params.begin(), "string"); |
| 367 } |
| 368 |
| 369 std::string call_str(call.name); |
| 370 call_str += "("; |
| 371 for (int i = 0; i < params.size(); i++) |
| 372 { |
| 373 if (i > 0) |
| 374 call_str += ", "; |
| 375 call_str += params[i]; |
| 376 } |
| 377 call_str += ")"; |
| 378 |
| 379 if (call.returnType == TypeCategory::VOID) |
| 380 return " " + call_str + ";\n"; |
| 381 else if (call.returnType == TypeCategory::INT) |
| 382 return " var result = " + call_str + ";\n"; |
| 383 else if (call.returnType == TypeCategory::DEPENDENT_STRING || |
| 384 call.returnType == TypeCategory::OWNED_STRING) |
| 385 { |
| 386 std::string result; |
| 387 result += " var string = createString();\n"; |
| 388 result += " " + call_str + ";\n"; |
| 389 result += " var result = readString(string);\n"; |
| 390 if (call.returnType == TypeCategory::OWNED_STRING) |
| 391 result += " Module._DestroyString(string);\n"; |
| 392 return result; |
| 393 } |
| 394 else if (call.returnType == TypeCategory::STRING_REF) |
| 395 { |
| 396 return " var result = readString(" + call_str + ");\n"; |
| 397 } |
| 398 else if (call.returnType == TypeCategory::CLASS_PTR) |
| 399 { |
| 400 std::string result; |
| 401 result += " var result = " + call_str + ";\n"; |
| 402 result += " if (result)\n"; |
| 403 result += " {\n"; |
| 404 |
| 405 auto it = classes.find(call.pointerType); |
| 406 if (it == classes.end()) |
| 407 throw std::runtime_error("Function " + std::string(call.name) + " return
s pointer to unknown class"); |
| 408 |
| 409 const ClassInfo& cls = it->second; |
| 410 auto offset = cls.subclass_differentiator.offset; |
| 411 if (offset == SIZE_MAX) |
| 412 result += " result = " + cls.name + "(result);\n"; |
| 413 else |
| 414 { |
| 415 result += " var type = HEAP32[result + " + std::to_string(offset)+ "
>> 2];\n"; |
| 416 result += " if (type in " + cls.name + "_mapping)\n"; |
| 417 result += " result = new (exports[" + cls.name + "_mapping[type]])(
result);\n"; |
| 418 result += " else\n"; |
| 419 result += " throw new Error('Unexpected " + cls.name + " type: ' +
type);\n"; |
| 420 } |
| 421 |
| 422 result += " }\n"; |
| 423 return result; |
| 424 } |
| 425 else |
| 426 throw std::runtime_error("Unexpected return type for " + std::string(call.
name)); |
| 427 } |
| 428 |
| 429 const std::string wrapCall(const FunctionInfo& call) |
| 430 { |
| 431 char buffer[20]; |
| 432 bool hasStringArgs = false; |
| 433 std::vector<std::string> params; |
| 434 std::string prefix = "function("; |
| 435 for (int i = 0; i < call.args.size(); i++) |
| 436 { |
| 437 sprintf(buffer, "arg%i", i); |
| 438 if (i > 0) |
| 439 prefix += ", "; |
| 440 prefix += buffer; |
| 441 |
| 442 if (call.args[i] == TypeCategory::STRING_REF) |
| 443 { |
| 444 hasStringArgs = true; |
| 445 params.push_back(std::string("createString(") + buffer + ")"); |
| 446 } |
| 447 else |
| 448 params.push_back(buffer); |
| 449 } |
| 450 prefix += ")\n{\n"; |
| 451 |
| 452 std::string suffix = "}"; |
| 453 if (call.returnType != TypeCategory::VOID) |
| 454 suffix = " return result;\n" + suffix; |
| 455 |
| 456 if (call.returnType == TypeCategory::DEPENDENT_STRING || |
| 457 call.returnType == TypeCategory::OWNED_STRING || hasStringArgs) |
| 458 { |
| 459 prefix += " var sp = Runtime.stackSave();\n"; |
| 460 suffix = " Runtime.stackRestore(sp);\n" + suffix; |
| 461 } |
| 462 |
| 463 if (call.instance_function) |
| 464 params.insert(params.begin(), "this._pointer"); |
| 465 |
| 466 return prefix + generateCall(call, params) + suffix; |
| 467 } |
| 468 |
| 469 std::string generatePropertyDescriptor(const PropertyInfo& property) |
| 470 { |
| 471 if (!property.jsValue.empty()) |
| 472 return "value: " + property.jsValue; |
| 473 |
| 474 std::string result("get: " + wrapCall(property.getter)); |
| 475 if (!property.setter.empty()) |
| 476 result += ", set: " + wrapCall(property.setter); |
| 477 return result; |
| 478 } |
| 479 |
| 480 void printHelpers() |
| 481 { |
| 482 printf("var sizeofString = %i;\n", sizeof(String)); |
| 483 |
| 484 puts(R"( |
| 485 function copyString(str, buffer) |
| 486 { |
| 487 var length = str.length; |
| 488 for (var i = 0, pointer = (buffer >> 1); i < length; i++, pointer++) |
| 489 HEAP16[pointer] = str.charCodeAt(i); |
| 490 return length; |
| 491 } |
| 492 |
| 493 function createString(str) |
| 494 { |
| 495 var length = 0; |
| 496 var buffer = 0; |
| 497 if (str) |
| 498 { |
| 499 buffer = Runtime.stackAlloc(str.length * 2); |
| 500 length = copyString(str, buffer); |
| 501 } |
| 502 |
| 503 var result = Module.Runtime.stackAlloc(sizeofString); |
| 504 Module._InitString(result, buffer, length); |
| 505 return result; |
| 506 } |
| 507 |
| 508 function readString(str) |
| 509 { |
| 510 var length = Module._GetStringLength(str); |
| 511 var pointer = Module._GetStringData(str) >> 1; |
| 512 return String.fromCharCode.apply(String, HEAP16.slice(pointer, pointer + len
gth)); |
| 513 } |
| 514 |
| 515 function createClass(superclass) |
| 516 { |
| 517 var result = function(pointer) |
| 518 { |
| 519 this._pointer = pointer; |
| 520 }; |
| 521 if (superclass) |
| 522 result.prototype = Object.create(superclass.prototype); |
| 523 result.prototype.delete = function() |
| 524 { |
| 525 Module._ReleaseRef(this._pointer); |
| 526 }; |
| 527 return result; |
| 528 })"); |
| 529 } |
| 530 |
| 531 void printClass(const ClassInfo& cls) |
| 532 { |
| 533 DifferentiatorInfo differentiator = cls.subclass_differentiator; |
| 534 if (differentiator.offset != SIZE_MAX) |
| 535 { |
| 536 printf("var %s_mapping = \n", cls.name.c_str()); |
| 537 puts("{"); |
| 538 for (const auto& item : differentiator.mapping) |
| 539 printf(" %i: '%s',\n", item.first, item.second.c_str()); |
| 540 puts("};"); |
| 541 } |
| 542 |
| 543 printf("exports.%s = createClass(%s);\n", cls.name.c_str(), |
| 544 (cls.baseClass ? ("exports." + cls.baseClass->name).c_str() : "")); |
| 545 |
| 546 for (const auto& item : cls.properties) |
| 547 { |
| 548 printf("Object.defineProperty(exports.%s.prototype, '%s', {%s});\n", |
| 549 cls.name.c_str(), item.name.c_str(), |
| 550 generatePropertyDescriptor(item).c_str()); |
| 551 } |
| 552 |
| 553 for (const auto& item : cls.methods) |
| 554 { |
| 555 std::string obj("exports." + cls.name); |
| 556 if (item.call.instance_function) |
| 557 obj += ".prototype"; |
| 558 printf("%s.%s = %s;\n", obj.c_str(), item.name.c_str(), |
| 559 wrapCall(item.call).c_str()); |
| 560 } |
| 561 |
| 562 for (const auto& item : cls.initializers) |
| 563 printf("%s()\n", item.name); |
| 564 } |
| 565 |
| 566 void printBindings() |
| 567 { |
| 568 printHelpers(); |
| 569 |
| 570 for (const auto& item : classes) |
| 571 printClass(item.second); |
| 572 } |
| 573 } |
| 574 |
| 575 #if defined(PRINT_BINDINGS) |
| 576 // Bindings generation step: collect bindings information and print |
| 577 // corresponding JS code. |
| 578 #define EMSCRIPTEN_BINDINGS \ |
| 579 struct BindingsInitializer {\ |
| 580 BindingsInitializer();\ |
| 581 BindingsInitializer(bool dummy)\ |
| 582 {\ |
| 583 try\ |
| 584 {\ |
| 585 BindingsInitializer();\ |
| 586 bindings_internal::printBindings();\ |
| 587 }\ |
| 588 catch (const std::exception& e)\ |
| 589 {\ |
| 590 EM_ASM_ARGS(\ |
| 591 console.error("Error occurred generating JavaScript bindings: "
+\ |
| 592 Module.AsciiToString($0)), e.what()\ |
| 593 );\ |
| 594 abort();\ |
| 595 }\ |
| 596 }\ |
| 597 } BindingsInitializer_instance(true);\ |
| 598 BindingsInitializer::BindingsInitializer() |
| 599 #else |
| 600 // Actual compilation step: ignore bindings information but define some |
| 601 // exported helper functions necessary for the bindings. |
| 602 #define EMSCRIPTEN_BINDINGS \ |
| 603 extern "C"\ |
| 604 {\ |
| 605 void EMSCRIPTEN_KEEPALIVE InitString(DependentString* str,\ |
| 606 String::value_type* data, String::size_type len)\ |
| 607 {\ |
| 608 /* String is already allocated on stack, we merely need to call*/\ |
| 609 /* constructor.*/\ |
| 610 new (str) DependentString(data, len);\ |
| 611 }\ |
| 612 void EMSCRIPTEN_KEEPALIVE DestroyString(OwnedString* str)\ |
| 613 {\ |
| 614 /* Stack memory will be freed automatically, we need to call*/\ |
| 615 /* destructor explicitly however.*/\ |
| 616 str->~OwnedString();\ |
| 617 }\ |
| 618 String::size_type EMSCRIPTEN_KEEPALIVE GetStringLength(\ |
| 619 const String& str)\ |
| 620 {\ |
| 621 return str.length();\ |
| 622 }\ |
| 623 const String::value_type* EMSCRIPTEN_KEEPALIVE GetStringData(\ |
| 624 const String& str)\ |
| 625 {\ |
| 626 return str.data();\ |
| 627 }\ |
| 628 void EMSCRIPTEN_KEEPALIVE AddRef(ref_counted* ptr)\ |
| 629 {\ |
| 630 ptr->AddRef();\ |
| 631 }\ |
| 632 void EMSCRIPTEN_KEEPALIVE ReleaseRef(ref_counted* ptr)\ |
| 633 {\ |
| 634 ptr->ReleaseRef();\ |
| 635 }\ |
| 636 }\ |
| 637 void BindingsInitializer_dummy() |
| 638 #endif |
| 639 |
| 640 template<typename ClassType, |
| 641 typename BaseClass = bindings_internal::NoBaseClass, |
| 642 typename std::enable_if<std::is_base_of<ref_counted, ClassType>::value>::typ
e* = nullptr> |
| 643 class class_ |
| 644 { |
| 645 public: |
| 646 class_(const char* name) |
| 647 { |
| 648 bindings_internal::register_class(name, |
| 649 bindings_internal::TypeInfo<ClassType>(), |
| 650 bindings_internal::TypeInfo<BaseClass>()); |
| 651 } |
| 652 |
| 653 template<typename FieldType> |
| 654 const class_& property(const char* name, |
| 655 FieldType (ClassType::*getter)() const, |
| 656 void (ClassType::*setter)(FieldType) = nullptr) const |
| 657 { |
| 658 bindings_internal::register_property( |
| 659 bindings_internal::TypeInfo<ClassType>(), name, getter, setter); |
| 660 return *this; |
| 661 } |
| 662 |
| 663 const class_& class_property(const char* name, |
| 664 const char* jsValue) const |
| 665 { |
| 666 bindings_internal::register_property( |
| 667 bindings_internal::TypeInfo<ClassType>(), name, |
| 668 bindings_internal::FunctionInfo(), bindings_internal::FunctionInfo(), |
| 669 jsValue); |
| 670 return *this; |
| 671 } |
| 672 |
| 673 template<typename ReturnType, typename... Args> |
| 674 const class_& function(const char* name, ReturnType (ClassType::*method)(Args.
..)) const |
| 675 { |
| 676 bindings_internal::register_method( |
| 677 bindings_internal::TypeInfo<ClassType>(), name, method); |
| 678 return *this; |
| 679 } |
| 680 |
| 681 template<typename ReturnType, typename... Args> |
| 682 const class_& function(const char* name, ReturnType (ClassType::*method)(Args.
..) const) const |
| 683 { |
| 684 bindings_internal::register_method( |
| 685 bindings_internal::TypeInfo<ClassType>(), name, method); |
| 686 return *this; |
| 687 } |
| 688 |
| 689 template<typename ReturnType, typename... Args> |
| 690 const class_& class_function(const char* name, ReturnType (*method)(Args...))
const |
| 691 { |
| 692 bindings_internal::register_method( |
| 693 bindings_internal::TypeInfo<ClassType>(), name, method); |
| 694 return *this; |
| 695 } |
| 696 |
| 697 const class_& class_initializer(void (*function)()) const |
| 698 { |
| 699 bindings_internal::register_initializer( |
| 700 bindings_internal::TypeInfo<ClassType>(), function); |
| 701 return *this; |
| 702 } |
| 703 |
| 704 template<typename ReturnType, |
| 705 typename std::enable_if<std::is_convertible<ReturnType, int32_t>::value>::
type* = nullptr> |
| 706 const class_& subclass_differentiator(ReturnType ClassType::* member, |
| 707 std::initializer_list<std::pair<ReturnType, const char*>> list) const |
| 708 { |
| 709 ClassType* instance = nullptr; |
| 710 size_t offset = (char*)&(instance->*member) - (char*)instance; |
| 711 |
| 712 std::vector<std::pair<int, std::string>> mapping; |
| 713 for (const auto& item : list) |
| 714 mapping.emplace_back(item.first, item.second); |
| 715 |
| 716 bindings_internal::register_differentiator( |
| 717 bindings_internal::TypeInfo<ClassType>(), offset, mapping); |
| 718 return *this; |
| 719 } |
| 720 }; |
OLD | NEW |