我正在构建一个包含两个组件的应用程序 - 用 Haskell 编写的服务器和用 Qt (C++) 编写的客户端。我正在使用 Thrift 与他们交流,我想知道它为什么工作这么慢。
我做了一个性能测试,这是我机器上的结果
结果
C++ server and C++ client:
Sending 100 pings - 13.37 ms
Transfering 1000000 size vector - 433.58 ms
Recieved: 3906.25 kB
Transfering 100000 items from server - 1090.19 ms
Transfering 100000 items to server - 631.98 ms
Haskell server and C++ client:
Sending 100 pings 3959.97 ms
Transfering 1000000 size vector - 12481.40 ms
Recieved: 3906.25 kB
Transfering 100000 items from server - 26066.80 ms
Transfering 100000 items to server - 1805.44 ms
为什么 Haskell 在这个测试中这么慢?如何提高它的性能?
这里是文件:
文件
性能.thrift
namespace hs test
namespace cpp test
struct Item {
1: optional string name
2: optional list<i32> coordinates
}
struct ItemPack {
1: optional list<Item> items
2: optional map<i32, Item> mappers
}
service ItemStore {
void ping()
ItemPack getItems(1:string name, 2: i32 count)
bool setItems(1: ItemPack items)
list<i32> getVector(1: i32 count)
}
Main.hs
{-# LANGUAGE ScopedTypeVariables #-}
module Main where
import Data.Int
import Data.Maybe (fromJust)
import qualified Data.Vector as Vector
import qualified Data.HashMap.Strict as HashMap
import Network
-- Thrift libraries
import Thrift.Server
-- Generated Thrift modules
import Performance_Types
import ItemStore_Iface
import ItemStore
i32toi :: Int32 -> Int
i32toi = fromIntegral
itoi32 :: Int -> Int32
itoi32 = fromIntegral
port :: PortNumber
port = 9090
data ItemHandler = ItemHandler
instance ItemStore_Iface ItemHandler where
ping _ = return () --putStrLn "ping"
getItems _ mtname mtsize = do
let size = i32toi $ fromJust mtsize
item i = Item mtname (Just $ Vector.fromList $ map itoi32 [i..100])
items = map item [0..(size-1)]
itemsv = Vector.fromList items
mappers = zip (map itoi32 [0..(size-1)]) items
mappersh = HashMap.fromList mappers
itemPack = ItemPack (Just itemsv) (Just mappersh)
putStrLn "getItems"
return itemPack
setItems _ _ = do putStrLn "setItems"
return True
getVector _ mtsize = do putStrLn "getVector"
let size = i32toi $ fromJust mtsize
return $ Vector.generate size itoi32
main :: IO ()
main = do
_ <- runBasicServer ItemHandler process port
putStrLn "Server stopped"
ItemStore_client.cpp
#include <iostream>
#include <chrono>
#include "gen-cpp/ItemStore.h"
#include <transport/TSocket.h>
#include <transport/TBufferTransports.h>
#include <protocol/TBinaryProtocol.h>
using namespace apache::thrift;
using namespace apache::thrift::protocol;
using namespace apache::thrift::transport;
using namespace test;
using namespace std;
#define TIME_INIT std::chrono::_V2::steady_clock::time_point start, stop; \
std::chrono::duration<long long int, std::ratio<1ll, 1000000000ll> > duration;
#define TIME_START start = std::chrono::steady_clock::now();
#define TIME_END duration = std::chrono::steady_clock::now() - start; \
std::cout << chrono::duration <double, std::milli> (duration).count() << " ms" << std::endl;
int main(int argc, char **argv) {
boost::shared_ptr<TSocket> socket(new TSocket("localhost", 9090));
boost::shared_ptr<TTransport> transport(new TBufferedTransport(socket));
boost::shared_ptr<TProtocol> protocol(new TBinaryProtocol(transport));
ItemStoreClient server(protocol);
transport->open();
TIME_INIT
long pings = 100;
cout << "Sending " << pings << " pings" << endl;
TIME_START
for(auto i = 0 ; i< pings ; ++i)
server.ping();
TIME_END
long vectorSize = 1000000;
cout << "Transfering " << vectorSize << " size vector" << endl;
std::vector<int> v;
TIME_START
server.getVector(v, vectorSize);
TIME_END
cout << "Recieved: " << v.size()*sizeof(int) / 1024.0 << " kB" << endl;
long itemsSize = 100000;
cout << "Transfering " << itemsSize << " items from server" << endl;
ItemPack items;
TIME_START
server.getItems(items, "test", itemsSize);
TIME_END
cout << "Transfering " << itemsSize << " items to server" << endl;
TIME_START
server.setItems(items);
TIME_END
transport->close();
return 0;
}
ItemStore_server.cpp
#include "gen-cpp/ItemStore.h"
#include <thrift/protocol/TBinaryProtocol.h>
#include <thrift/server/TSimpleServer.h>
#include <thrift/transport/TServerSocket.h>
#include <thrift/transport/TBufferTransports.h>
#include <map>
#include <vector>
using namespace ::apache::thrift;
using namespace ::apache::thrift::protocol;
using namespace ::apache::thrift::transport;
using namespace ::apache::thrift::server;
using namespace test;
using boost::shared_ptr;
class ItemStoreHandler : virtual public ItemStoreIf {
public:
ItemStoreHandler() {
}
void ping() {
// printf("ping\n");
}
void getItems(ItemPack& _return, const std::string& name, const int32_t count) {
std::vector <Item> items;
std::map<int, Item> mappers;
for(auto i = 0 ; i < count ; ++i){
std::vector<int> coordinates;
for(auto c = i ; c< 100 ; ++c)
coordinates.push_back(c);
Item item;
item.__set_name(name);
item.__set_coordinates(coordinates);
items.push_back(item);
mappers[i] = item;
}
_return.__set_items(items);
_return.__set_mappers(mappers);
printf("getItems\n");
}
bool setItems(const ItemPack& items) {
printf("setItems\n");
return true;
}
void getVector(std::vector<int32_t> & _return, const int32_t count) {
for(auto i = 0 ; i < count ; ++i)
_return.push_back(i);
printf("getVector\n");
}
};
int main(int argc, char **argv) {
int port = 9090;
shared_ptr<ItemStoreHandler> handler(new ItemStoreHandler());
shared_ptr<TProcessor> processor(new ItemStoreProcessor(handler));
shared_ptr<TServerTransport> serverTransport(new TServerSocket(port));
shared_ptr<TTransportFactory> transportFactory(new TBufferedTransportFactory());
shared_ptr<TProtocolFactory> protocolFactory(new TBinaryProtocolFactory());
TSimpleServer server(processor, serverTransport, transportFactory, protocolFactory);
server.serve();
return 0;
}
生成文件
GEN_SRC := gen-cpp/ItemStore.cpp gen-cpp/performance_constants.cpp gen-cpp/performance_types.cpp
GEN_OBJ := $(patsubst %.cpp,%.o, $(GEN_SRC))
THRIFT_DIR := /usr/local/include/thrift
BOOST_DIR := /usr/local/include
INC := -I$(THRIFT_DIR) -I$(BOOST_DIR)
.PHONY: all clean
all: ItemStore_server ItemStore_client
%.o: %.cpp
$(CXX) --std=c++11 -Wall -DHAVE_INTTYPES_H -DHAVE_NETINET_IN_H $(INC) -c $< -o $@
ItemStore_server: ItemStore_server.o $(GEN_OBJ)
$(CXX) $^ -o $@ -L/usr/local/lib -lthrift -DHAVE_INTTYPES_H -DHAVE_NETINET_IN_H
ItemStore_client: ItemStore_client.o $(GEN_OBJ)
$(CXX) $^ -o $@ -L/usr/local/lib -lthrift -DHAVE_INTTYPES_H -DHAVE_NETINET_IN_H
clean:
$(RM) *.o ItemStore_server ItemStore_client
编译运行
我通过以下方式生成文件(使用 thrift 0.9 可用的 here ):
$ thrift --gen cpp performance.thrift
$ thrift --gen hs performance.thrift
编译
$ make
$ ghc Main.hs gen-hs/ItemStore_Client.hs gen-hs/ItemStore.hs gen-hs/ItemStore_Iface.hs gen-hs/Performance_Consts.hs gen-hs/Performance_Types.hs -Wall -O2
运行 Haskell 测试:
$ ./Main&
$ ./ItemStore_client
运行 C++ 测试:
$ ./ItemStore_server&
$ ./ItemStore_client
记得在每次测试后杀死服务器
更新
编辑了 getVector 方法以使用 Vector.generate 而不是 Vector.fromList,但仍然没有效果
更新 2
由于@MdxBhmt 的建议,我测试了 getItems 函数如下:
getItems _ mtname mtsize = do let size = i32toi $! fromJust mtsize
item i = Item mtname (Just $! Vector.enumFromN (i::Int32) (100- (fromIntegral i)))
itemsv = Vector.map item $ Vector.enumFromN 0 (size-1)
itemPack = ItemPack (Just itemsv) Nothing
putStrLn "getItems"
return itemPack
这是严格的,并且与基于我的原始实现的替代方案相比,它改进了 vector 生成:
getItems _ mtname mtsize = do let size = i32toi $ fromJust mtsize
item i = Item mtname (Just $ Vector.fromList $ map itoi32 [i..100])
items = map item [0..(size-1)]
itemsv = Vector.fromList items
itemPack = ItemPack (Just itemsv) Nothing
putStrLn "getItems"
return itemPack
请注意,没有发送 HashMap。第一个版本的时间是 12338.2 ms,第二个是 11698.7 ms,没有加速:(
更新 3
我向 Thrift Jira 报告了一个问题
abhinav 更新 4
这完全不科学,但是使用 GHC 7.8.3 与 Thrift 0.9.2 和 @MdxBhmt 的 getItems 版本,差异显着减少。
C++ server and C++ client:
Sending 100 pings: 8.56 ms
Transferring 1000000 size vector: 137.97 ms
Recieved: 3906.25 kB
Transferring 100000 items from server: 467.78 ms
Transferring 100000 items to server: 207.59 ms
Haskell server and C++ client:
Sending 100 pings: 24.95 ms
Recieved: 3906.25 kB
Transferring 1000000 size vector: 378.60 ms
Transferring 100000 items from server: 233.74 ms
Transferring 100000 items to server: 913.07 ms
执行了多次,每次都重新启动服务器。结果是可重复的。
请注意,原始问题的源代码(使用@MdxBhmt 的 getItems 实现)不会按原样编译。必须进行以下更改:
getItems _ mtname mtsize = do let size = i32toi $! fromJust mtsize
item i = Item mtname (Just $! Vector.enumFromN (i::Int32) (100- (fromIntegral i)))
itemsv = Vector.map item $ Vector.enumFromN 0 (size-1)
itemPack = ItemPack (Just itemsv) Nothing
putStrLn "getItems"
return itemPack
getVector _ mtsize = do putStrLn "getVector"
let size = i32toi $ fromJust mtsize
return $ Vector.generate size itoi32
最佳答案
每个人都指出罪魁祸首是 Thrift 库,但我将专注于您的代码(以及我可以帮助提高速度的地方)
使用简化版本的代码,计算 itemsv:
testfunc mtsize = itemsv
where size = i32toi $ fromJust mtsize
item i = Item (Just $ Vector.fromList $ map itoi32 [i..100])
items = map item [0..(size-1)]
itemsv = Vector.fromList items
首先,您在item i 中创建了许多中间数据。由于懒惰,那些小而快的计算 vector 变成了延迟的数据,而我们可以马上得到它们。
有 2 个精心放置的 $!,代表严格的评估:
item i = Item (Just $! Vector.fromList $! map itoi32 [i..100])
将使您的运行时间减少 25%(对于尺寸 1e5 和 1e6)。
但这里有一个更成问题的模式:您生成一个列表以将其转换为 vector ,而不是直接构建 vector 。
看看最后两行,你创建了一个列表 -> 映射一个函数 -> 转换为一个 vector 。
好吧,vector 和 list 非常相似,你可以做类似的事情! 所以你必须在它上面生成一个vector -> vector.map 并完成。不再需要将列表转换为 vector ,并且在 vector 上映射通常比列表更快!
这样你就可以去掉items,重写下面的itemsv:
itemsv = Vector.map item $ Vector.enumFromN 0 (size-1)
将相同的逻辑重新应用到 item i,我们消除了所有列表。
testfunc3 mtsize = itemsv
where
size = i32toi $! fromJust mtsize
item i = Item (Just $! Vector.enumFromN (i::Int32) (100- (fromIntegral i)))
itemsv = Vector.map item $ Vector.enumFromN 0 (size-1)
这比初始运行时间减少了 50%。
关于c++ - Haskell Thrift 库在性能测试中比 C++ 慢 300 倍,我们在Stack Overflow上找到一个类似的问题: https://stackoverflow.com/questions/19512952/