E D R , A S I H C RSS

CSP

~cpp 
#csp.py 
#Copyright 2003 June Kim <juneaftn at hanmail dot net> 

from Queue import Queue 
import threading, thread 
import netstring, socket
from cPickle import dumps,loads

class Process: 
    def __init__(self): 
        pass 
    def run(self): 
        pass 
 
class ParProcess(Process): 
    def __init__(self,processes): 
        Process.__init__(self) 
        self.ps=processes 
    def run(self): 
        threads=[] 
        for each in self.ps: 
            threads.append(threading.Thread(target=each.run)) 
        for each in threads: 
            each.setDaemon(True) 
            each.start() 
        for each in threads: 
            each.join() 

class SeqProcess(Process):
    def __init__(self,processes): 
        Process.__init__(self) 
        self.ps=processes 
    def run(self):
        for each in self.ps:
            each.run()
    
class Channel: 
    def __init__(self,buffer=1): 
        self.q=Queue(buffer) 
    def get(self): 
        if self.q.get()!=None: #for block 
            raise "None expected" 
        return self.q.get() 
    def put(self,v): 
        self.q.put(None) #for block 
        return self.q.put(v) 
 
class NetChannel: 
    def __init__(self,socket): 
        self.s=socket 
    def get(self): 
        v=loads(netstring.readns(self.s)) #block 
        netstring.writens(self.s,"ACK") 
        return v 
    def put(self,v): 
        netstring.writens(self.s,dumps(v)) 
        ack=netstring.readns(self.s) #block 
        if ack!='ACK': 
            raise IOError, "ACK expected but got %s"%ack 
 
class Client(Process): 
    def __init__(self,addr,outstream): 
        self.addr=addr 
        self.out_=outstream 
    def run(self): 
        s=socket.socket(socket.AF_INET,socket.SOCK_STREAM)
        while 1:
            try:
                s.connect(self.addr)
            except socket.error:
                continue
            else:
                break
        self.out_.put(s) 
         
class Server(Process): 
    def __init__(self,addr,outstream): 
        self.addr=addr 
        self.out_=outstream 
    def run(self): 
        s=socket.socket(socket.AF_INET,socket.SOCK_STREAM) 
        s.bind(self.addr) 
        s.listen(1) 
        s2,addr=s.accept() 
        self.out_.put(s2) 
 
class ViaNet: 
    def __init__(self,addr): 
        self.outc=Channel() 
        background(self._Process(addr,self.outc)) 
        self.netc=None 
    def get(self): 
        nc=self.getNetChannel() 
        return nc.get()                 
    def put(self,v): 
        nc=self.getNetChannel() 
        return nc.put(v) 
    def getNetChannel(self): 
        if self.netc: 
            return self.netc 
        s=self.outc.get() 
        self.netc=NetChannel(s) 
        return self.netc 
     
class OneToNet(ViaNet): 
    _Process=Client 
 
class NetToOne(ViaNet): 
    _Process=Server 
 
def background(aProcess,args=()): 
    thread.start_new_thread(aProcess.run,args) 

~cpp 
#remoteprocess.py 
#Copyright 2003 June Kim <juneaftn at hanmail dot net> 

from csp import * 
 
PORT=8881 
 
 
class MyP1(Process): 
    def __init__(self,outstream): 
        Process.__init__(self) 
        self.out_=outstream 
    def run(self): 
        print "putting..." 
        self.out_.put(3.14159) 
         
class MyP2(Process): 
    def __init__(self,instream): 
        Process.__init__(self) 
        self.in_=instream 
    def run(self): 
        print "getting..." 
        v=self.in_.get() 
        print "got",v
 
if __name__=='__main__': 
    cout=OneToNet(('localhost',PORT)) 
    cin=NetToOne(('localhost',PORT)) 
    ParProcess([MyP1(cout),MyP2(cin)]).run() 

~cpp 
#fib.py 
#Copyright 2003 June Kim <juneaftn at hanmail dot net> 

from csp import Process,ParProcess,Channel, background 
         
class Cons(Process):   
    def __init__(self,n,instream,outstream):   
        Process.__init__(self)   
        self.n=n   
        self.in_=instream   
        self.out_=outstream   
    def run(self):   
        self.out_.put(self.n)   
        while True:   
            v=self.in_.get()   
            self.out_.put(v)   
                           
class Plus(Process):   
    def __init__(self,outstream,istream1,istream2):   
        Process.__init__(self)   
        self.out_=outstream   
        self.in1_=istream1   
        self.in2_=istream2   
    def run(self):     
        while 1:   
            v1=self.in1_.get()   
            v2=self.in2_.get()   
            self.out_.put(v1+v2)   
   
class Dup(Process):   
    def __init__(self,instream,ostream1,ostream2):   
        Process.__init__(self)   
        self.in_=instream   
        self.out1_=ostream1   
        self.out2_=ostream2   
    def run(self):   
        while 1:   
            v=self.in_.get()   
            self.out1_.put(v)   
            self.out2_.put(v)   
   
class Print(Process): 
    def __init__(self,instream):   
        Process.__init__(self)   
        self.in_=instream   
    def run(self):   
        while 1: 
            v=self.in_.get() 
            print v 
            time.sleep(0.5) 
     
def q():   
    return Channel()   
 
 
class Fib(Process): 
    def __init__(self,outstream): 
        Process.__init__(self) 
        c1d1=q()   
        d1c2=q()   
        c2d2=q()   
        d2p=outstream 
        d2plus=q()   
        plusc1=q()   
        d1plus=q()   
        c1=Cons(1,plusc1,c1d1)   
        d1=Dup(c1d1,d1plus,d1c2)   
        c2=Cons(1,d1c2,c2d2)   
        d2=Dup(c2d2,d2plus,d2p)   
        plus=Plus(plusc1,d1plus,d2plus) 
        self.ps=[c1,d1,c2,d2,plus] 
        self.out_=d2p 
    def run(self): 
        ParProcess(self.ps).run() 
 
 
if __name__=='__main__': 
    outq=q() 
    f=Fib(outq) 
    background(f) 
    for i in xrange(10): 
        print outq.get() 
    #ParProcess([f,Print(outq)]).run() 

~cpp 
#netstring.py 
#from Steve Holden's Python Web Programming

def readns(sock): 
    """read a netstring from a socket.""" 
    size = "" 
    while 1: 
        c = sock.recv(1) 
        if c == ":": 
            break 
        elif not c: 
            raise IOError, "short netstring read" 
        size = size + c 
    size = sz = int(size) 
    s = "" 
    while sz: 
        ss = sock.recv(sz) 
        if not ss: 
            raise IOError, "short netstring read" 
        s += ss 
        sz -= len(ss) 
    if len(s) != size: 
        raise IOError, "short netstring read" 
    if sock.recv(1) != ",": 
        raise IOError, "missing netstring terminator" 
    return s 
 
def writens(sock, s): 
    """write a netstring to a socket.""" 
    s = encode(s) 
    while len(s): 
        l = sock.send(s) 
        s = s[l:] 
 
def encode(s): 
    return "%d:%s," % (len(s), s) 
 
def decode(s): 
    try: 
        if s[-1] != ",": 
            raise ValueError 
        p = s.index(":") 
        l = int(s[0:p]) 
        if len(s) != p + l + 2: 
            raise ValueError 
        return s[p+1:-1] 
    except ValueError: 
        raise ValueError, "netstring format error: " + s 
 
def freadns(f): 
    """read a netstring from a file.""" 
    size = "" 
    while 1: 
        c = f.read(1) 
        if c == ":": 
            break 
        elif not c: 
            raise IOError, "short netstring read" 
        size = size + c 
    size = sz = int(size) 
    s = "" 
    while sz: 
        ss = f.read(sz) 
        if not ss: 
            raise IOError, "short netstring read" 
        s += ss 
        sz -= len(ss) 
    if len(s) != size: 
        raise IOError, "short netstring read" 
    if f.read(1) != ",": 
        raise IOError, "missing netstring terminator" 
    return s 
 
def fwritens(f, s): 
    """write a netstring to a file.""" 
    s = encode(s) 
    f.write(s) 

~cpp 
#rfib2.py 
#Copyright 2003 June Kim <juneaftn at hanmail dot net> 

from csp import * 
import time

MYADDR=('localhost',8121)
YOURADDR=('localhost',8142)
         
class Cons(Process):   
    def __init__(self,n,instream,outstream):   
        Process.__init__(self)   
        self.n=n   
        self.in_=instream   
        self.out_=outstream   
    def run(self):   
        self.out_.put(self.n)   
        while True:   
            v=self.in_.get()   
            self.out_.put(v)   
                           
class Plus(Process):   
    def __init__(self,outstream,istream1,istream2):   
        Process.__init__(self)   
        self.out_=outstream   
        self.in1_=istream1   
        self.in2_=istream2   
    def run(self):     
        while 1:   
            v1=self.in1_.get()   
            v2=self.in2_.get()   
            self.out_.put(v1+v2)   
   
class Dup(Process):   
    def __init__(self,instream,ostream1,ostream2):   
        Process.__init__(self)   
        self.in_=instream   
        self.out1_=ostream1   
        self.out2_=ostream2   
    def run(self):   
        while 1:   
            v=self.in_.get()   
            self.out1_.put(v)   
            self.out2_.put(v)   
   
class Print(Process): 
    def __init__(self,instream):   
        Process.__init__(self)   
        self.in_=instream   
    def run(self):   
        while 1: 
            v=self.in_.get() 
            print v 
            time.sleep(0.5) 
     
def q():   
    return Channel()   
 
 
class Fib2(Process): 
    def __init__(self,instream,outstream,printstream): 
        Process.__init__(self) 
        d1c2=instream
        c2d2=q()   
        d2p=printstream 
        d2plus=outstream
        c2=Cons(1,d1c2,c2d2)   
        d2=Dup(c2d2,d2plus,d2p)   
        self.ps=[c2,d2] 
        self.out_=d2p 
    def run(self): 
        ParProcess(self.ps).run() 
 
 
if __name__=='__main__':
    d1c2=NetToOne(MYADDR)
    d2plus=OneToNet(YOURADDR)
    outq=q() 
    f=Fib2(d1c2,d2plus,outq) 
    ParProcess([f,Print(outq)]).run() 

~cpp 
#rfib1.py
#Copyright 2003 June Kim <juneaftn at hanmail dot net> 

from csp import *

YOURADDR=('localhost',8121)
MYADDR=('localhost',8142)
       
class Cons(Process):   
    def __init__(self,n,instream,outstream):   
        Process.__init__(self)   
        self.n=n   
        self.in_=instream   
        self.out_=outstream   
    def run(self):   
        self.out_.put(self.n)   
        while True:   
            v=self.in_.get()   
            self.out_.put(v)   
                           
class Plus(Process):   
    def __init__(self,outstream,istream1,istream2):   
        Process.__init__(self)   
        self.out_=outstream   
        self.in1_=istream1   
        self.in2_=istream2   
    def run(self):     
        while 1:   
            v1=self.in1_.get()   
            v2=self.in2_.get()   
            self.out_.put(v1+v2)   
   
class Dup(Process):   
    def __init__(self,instream,ostream1,ostream2):   
        Process.__init__(self)   
        self.in_=instream   
        self.out1_=ostream1   
        self.out2_=ostream2   
    def run(self):   
        while 1:   
            v=self.in_.get()   
            self.out1_.put(v)   
            self.out2_.put(v)   
   
class Print(Process): 
    def __init__(self,instream):   
        Process.__init__(self)   
        self.in_=instream   
    def run(self):   
        while 1: 
            v=self.in_.get() 
            print v 
            time.sleep(0.5) 
     
def q():   
    return Channel()   
 
class Fib1(Process): 
    def __init__(self,instream,outstream): 
        Process.__init__(self) 
        c1d1=q()
        d1c2=outstream
        d2plus=instream
        plusc1=q()   
        d1plus=q()   
        c1=Cons(1,plusc1,c1d1)   
        d1=Dup(c1d1,d1plus,d1c2)   
        plus=Plus(plusc1,d1plus,d2plus) 
        self.ps=[c1,d1,plus] 
    def run(self): 
        ParProcess(self.ps).run() 
 
 
if __name__=='__main__':
    d1c2=OneToNet(YOURADDR)
    d2plus=NetToOne(MYADDR)
    f=Fib1(d2plus,d1c2)
    f.run()

ToyProblems 때 잠깐 들어본 적이 있는데.. 한번 돌려봐야겠다 - 임인택

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