src/v8/third_party/wasm-api/example/memory.cc - cobalt - Git at Google

 #include <iostream>
 #include <fstream>
 #include <cstdlib>
 #include <string>
 #include <cinttypes>

 #include "wasm.hh"


 auto get_export_memory(wasm::vec<wasm::Extern*>& exports, size_t i) -> wasm::Memory* {
   if (exports.size() <= i || !exports[i]->memory()) {
     std::cout << "> Error accessing memory export " << i << "!" << std::endl;
     exit(1);
   }
   return exports[i]->memory();
 }

 auto get_export_func(const wasm::vec<wasm::Extern*>& exports, size_t i) -> const wasm::Func* {
   if (exports.size() <= i || !exports[i]->func()) {
     std::cout << "> Error accessing function export " << i << "!" << std::endl;
     exit(1);
   }
   return exports[i]->func();
 }

 template<class T, class U>
 void check(T actual, U expected) {
   if (actual != expected) {
     std::cout << "> Error on result, expected " << expected << ", got " << actual << std::endl;
     exit(1);
   }
 }

 template<class... Args>
 void check_ok(const wasm::Func* func, Args... xs) {
   wasm::Val args[] = {wasm::Val::i32(xs)...};
   if (func->call(args)) {
     std::cout << "> Error on result, expected return" << std::endl;
     exit(1);
   }
 }

 template<class... Args>
 void check_trap(const wasm::Func* func, Args... xs) {
   wasm::Val args[] = {wasm::Val::i32(xs)...};
   if (! func->call(args)) {
     std::cout << "> Error on result, expected trap" << std::endl;
     exit(1);
   }
 }

 template<class... Args>
 auto call(const wasm::Func* func, Args... xs) -> int32_t {
   wasm::Val args[] = {wasm::Val::i32(xs)...};
   wasm::Val results[1];
   if (func->call(args, results)) {
     std::cout << "> Error on result, expected return" << std::endl;
     exit(1);
   }
   return results[0].i32();
 }


 void run() {
   // Initialize.
   std::cout << "Initializing..." << std::endl;
   auto engine = wasm::Engine::make();
   auto store_ = wasm::Store::make(engine.get());
   auto store = store_.get();

   // Load binary.
   std::cout << "Loading binary..." << std::endl;
   std::ifstream file("memory.wasm");
   file.seekg(0, std::ios_base::end);
   auto file_size = file.tellg();
   file.seekg(0);
   auto binary = wasm::vec<byte_t>::make_uninitialized(file_size);
   file.read(binary.get(), file_size);
   file.close();
   if (file.fail()) {
     std::cout << "> Error loading module!" << std::endl;
     return;
   }

   // Compile.
   std::cout << "Compiling module..." << std::endl;
   auto module = wasm::Module::make(store, binary);
   if (!module) {
     std::cout << "> Error compiling module!" << std::endl;
     return;
   }

   // Instantiate.
   std::cout << "Instantiating module..." << std::endl;
   auto instance = wasm::Instance::make(store, module.get(), nullptr);
   if (!instance) {
     std::cout << "> Error instantiating module!" << std::endl;
     return;
   }

   // Extract export.
   std::cout << "Extracting exports..." << std::endl;
   auto exports = instance->exports();
   size_t i = 0;
   auto memory = get_export_memory(exports, i++);
   auto size_func = get_export_func(exports, i++);
   auto load_func = get_export_func(exports, i++);
   auto store_func = get_export_func(exports, i++);

   // Check initial memory.
   std::cout << "Checking memory..." << std::endl;
   check(memory->size(), 2u);
   check(memory->data_size(), 0x20000u);
   check(memory->data()[0], 0);
   check(memory->data()[0x1000], 1);
   check(memory->data()[0x1003], 4);

   check(call(size_func), 2);
   check(call(load_func, 0), 0);
   check(call(load_func, 0x1000), 1);
   check(call(load_func, 0x1003), 4);
   check(call(load_func, 0x1ffff), 0);
   check_trap(load_func, 0x20000);

   // Mutate memory.
   std::cout << "Mutating memory..." << std::endl;
   memory->data()[0x1003] = 5;
   check_ok(store_func, 0x1002, 6);
   check_trap(store_func, 0x20000, 0);

   check(memory->data()[0x1002], 6);
   check(memory->data()[0x1003], 5);
   check(call(load_func, 0x1002), 6);
   check(call(load_func, 0x1003), 5);

   // Grow memory.
   std::cout << "Growing memory..." << std::endl;
   check(memory->grow(1), true);
   check(memory->size(), 3u);
   check(memory->data_size(), 0x30000u);

   check(call(load_func, 0x20000), 0);
   check_ok(store_func, 0x20000, 0);
   check_trap(load_func, 0x30000);
   check_trap(store_func, 0x30000, 0);

   check(memory->grow(1), false);
   check(memory->grow(0), true);

   // Create stand-alone memory.
   // TODO(wasm+): Once Wasm allows multiple memories, turn this into import.
   std::cout << "Creating stand-alone memory..." << std::endl;
   auto memorytype = wasm::MemoryType::make(wasm::Limits(5, 5));
   auto memory2 = wasm::Memory::make(store, memorytype.get());
   check(memory2->size(), 5u);
   check(memory2->grow(1), false);
   check(memory2->grow(0), true);

   // Shut down.
   std::cout << "Shutting down..." << std::endl;
 }


 int main(int argc, const char* argv[]) {
   run();
   std::cout << "Done." << std::endl;
   return 0;
 }
	#include <iostream>
	#include <fstream>
	#include <cstdlib>
	#include <string>
	#include <cinttypes>

	#include "wasm.hh"


	auto get_export_memory(wasm::vec<wasm::Extern>& exports, size_t i) -> wasm::Memory {
	if (exports.size() <= i \|\| !exports[i]->memory()) {
	std::cout << "> Error accessing memory export " << i << "!" << std::endl;
	exit(1);
	}
	return exports[i]->memory();
	}

	auto get_export_func(const wasm::vec<wasm::Extern>& exports, size_t i) -> const wasm::Func {
	if (exports.size() <= i \|\| !exports[i]->func()) {
	std::cout << "> Error accessing function export " << i << "!" << std::endl;
	exit(1);
	}
	return exports[i]->func();
	}

	template<class T, class U>
	void check(T actual, U expected) {
	if (actual != expected) {
	std::cout << "> Error on result, expected " << expected << ", got " << actual << std::endl;
	exit(1);
	}
	}

	template<class... Args>
	void check_ok(const wasm::Func* func, Args... xs) {
	wasm::Val args[] = {wasm::Val::i32(xs)...};
	if (func->call(args)) {
	std::cout << "> Error on result, expected return" << std::endl;
	exit(1);
	}
	}

	template<class... Args>
	void check_trap(const wasm::Func* func, Args... xs) {
	wasm::Val args[] = {wasm::Val::i32(xs)...};
	if (! func->call(args)) {
	std::cout << "> Error on result, expected trap" << std::endl;
	exit(1);
	}
	}

	template<class... Args>
	auto call(const wasm::Func* func, Args... xs) -> int32_t {
	wasm::Val args[] = {wasm::Val::i32(xs)...};
	wasm::Val results[1];
	if (func->call(args, results)) {
	std::cout << "> Error on result, expected return" << std::endl;
	exit(1);
	}
	return results[0].i32();
	}


	void run() {
	// Initialize.
	std::cout << "Initializing..." << std::endl;
	auto engine = wasm::Engine::make();
	auto store_ = wasm::Store::make(engine.get());
	auto store = store_.get();

	// Load binary.
	std::cout << "Loading binary..." << std::endl;
	std::ifstream file("memory.wasm");
	file.seekg(0, std::ios_base::end);
	auto file_size = file.tellg();
	file.seekg(0);
	auto binary = wasm::vec<byte_t>::make_uninitialized(file_size);
	file.read(binary.get(), file_size);
	file.close();
	if (file.fail()) {
	std::cout << "> Error loading module!" << std::endl;
	return;
	}

	// Compile.
	std::cout << "Compiling module..." << std::endl;
	auto module = wasm::Module::make(store, binary);
	if (!module) {
	std::cout << "> Error compiling module!" << std::endl;
	return;
	}

	// Instantiate.
	std::cout << "Instantiating module..." << std::endl;
	auto instance = wasm::Instance::make(store, module.get(), nullptr);
	if (!instance) {
	std::cout << "> Error instantiating module!" << std::endl;
	return;
	}

	// Extract export.
	std::cout << "Extracting exports..." << std::endl;
	auto exports = instance->exports();
	size_t i = 0;
	auto memory = get_export_memory(exports, i++);
	auto size_func = get_export_func(exports, i++);
	auto load_func = get_export_func(exports, i++);
	auto store_func = get_export_func(exports, i++);

	// Check initial memory.
	std::cout << "Checking memory..." << std::endl;
	check(memory->size(), 2u);
	check(memory->data_size(), 0x20000u);
	check(memory->data()[0], 0);
	check(memory->data()[0x1000], 1);
	check(memory->data()[0x1003], 4);

	check(call(size_func), 2);
	check(call(load_func, 0), 0);
	check(call(load_func, 0x1000), 1);
	check(call(load_func, 0x1003), 4);
	check(call(load_func, 0x1ffff), 0);
	check_trap(load_func, 0x20000);

	// Mutate memory.
	std::cout << "Mutating memory..." << std::endl;
	memory->data()[0x1003] = 5;
	check_ok(store_func, 0x1002, 6);
	check_trap(store_func, 0x20000, 0);

	check(memory->data()[0x1002], 6);
	check(memory->data()[0x1003], 5);
	check(call(load_func, 0x1002), 6);
	check(call(load_func, 0x1003), 5);

	// Grow memory.
	std::cout << "Growing memory..." << std::endl;
	check(memory->grow(1), true);
	check(memory->size(), 3u);
	check(memory->data_size(), 0x30000u);

	check(call(load_func, 0x20000), 0);
	check_ok(store_func, 0x20000, 0);
	check_trap(load_func, 0x30000);
	check_trap(store_func, 0x30000, 0);

	check(memory->grow(1), false);
	check(memory->grow(0), true);

	// Create stand-alone memory.
	// TODO(wasm+): Once Wasm allows multiple memories, turn this into import.
	std::cout << "Creating stand-alone memory..." << std::endl;
	auto memorytype = wasm::MemoryType::make(wasm::Limits(5, 5));
	auto memory2 = wasm::Memory::make(store, memorytype.get());
	check(memory2->size(), 5u);
	check(memory2->grow(1), false);
	check(memory2->grow(0), true);

	// Shut down.
	std::cout << "Shutting down..." << std::endl;
	}


	int main(int argc, const char* argv[]) {
	run();
	std::cout << "Done." << std::endl;
	return 0;
	}