搭建PVB架构，实现前端的基础布局、菜单、表格、图示等功能

libs/pvb/include/rllib/rlstate.h

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+/***************************************************************************
+                          rlstate.h  -  description
+                             -------------------
+    begin                : Sat Dec 29 2012
+    copyright            : (C) 2012 by R. Lehrig
+    email                : lehrig@t-online.de
+ ***************************************************************************/
+
+/***************************************************************************
+ *                                                                         *
+ *   This library is free software; you can redistribute it and/or modify  *
+ *   it under the terms of the GNU LESSER GENERAL PUBLIC LICENSE as        *
+ *   published by the Free Software Foundation                             *
+ *                                                                         *
+ ***************************************************************************/
+#ifndef _RL_STATE_H
+#define _RL_STATE_H
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+#include <ctype.h>
+#include "rlthread.h"
+
+/*! <pre>
+This class is used to implement a statemachine.
+
+Under pvbaddon/templates/statemachine/plc you find the statemachine consisting of several threads.
+The main thread will read/write a Modbus PLC.
+The statemachine stm2 will handle a small demo statemachine.
+The statemachine stm1 will start stm2 if the user selects this function.
+
+The data will be stored in a shared memory.
+The shared memory contains a complex datastructure (typedef struct {...} USER_DEFINED_STRUCTURE;) which can be used to exchange values between several processes.
+
+The pvbrowser visualization server is located under pvbaddon/templates/statemachine/pvs
+There we use a SVG graphic (stm2.svg) showing the statemachine.
+This graphic is generated by graphviz from stm2.dot
+pvs and plc exchange data only via shared memory.
+
+Please start both (plc and pvs) in a separate terminal and then start the pvbrowser client
+
+Here is some sourcecode from the template:
+// ***************************************************************************
+//                          main.cpp  -  description
+//                             -------------------
+//  begin            : Sa. Mai 4 09:29:07 2013
+//  generated by     : pvdevelop (C) Lehrig Software Engineering
+//  email            : lehrig@t-online.de
+// ***************************************************************************
+#include "plcapp.h"
+
+SHM_DATA      *shm_data;
+rlSharedMemory shm("/srv/automation/shm/plc.shm", sizeof(SHM_DATA));
+rlSerial       tty;
+rlModbus       mb;
+rlMutex        mb_mutex;
+rlState        sm1, sm2;
+
+//// helper functions
+int printBinByte(unsigned char val)
+{
+  if(val & BIT7) printf("1");
+  else           printf("0");
+  if(val & BIT6) printf("1");
+  else           printf("0");
+  if(val & BIT5) printf("1");
+  else           printf("0");
+  if(val & BIT4) printf("1");
+  else           printf("0");
+  printf(":");
+  if(val & BIT3) printf("1");
+  else           printf("0");
+  if(val & BIT2) printf("1");
+  else           printf("0");
+  if(val & BIT1) printf("1");
+  else           printf("0");
+  if(val & BIT0) printf("1");
+  else           printf("0");
+  return 0;
+}
+
+int printBin(unsigned char *data)
+{
+  printf("BinData: ");
+  printBinByte(data[0]);
+  printf(" - ");
+  printBinByte(data[1]);
+  return 0;
+}
+
+//// Schneider PLC: first 4 bits are outputs then 6 bits input follow
+static int readIO() 
+{
+  unsigned char data[256];
+  int ret;
+  
+  MB_readInputStatus(1,0,10,data);          // read all IO values from modbus
+  shm_data->plc.in.in1 = mb.data2int(data); // store data in shared memory
+
+  if(trace)
+  {
+    printf("readIO:: ret=%d ", ret); 
+    printBin(data);
+    printf(" in1=%x\n", shm_data->plc.in.in1);
+  }  
+  return 0;
+}
+
+static int writeIO()
+{
+  unsigned char coils[8];
+  int ret;
+
+  coils[0] = shm_data->plc.out.out1 & 0x0ff;
+  MB_forceMultipleCoils(1,0,4,coils);       // write the 4 output bits to modbus
+
+  return 0;
+}
+
+int main()
+{
+  if(trace) printf("plc starting ...\n");
+  if(trace) printf("shm.status=%d\n", shm.status);
+  if(shm.status != rlSharedMemory::OK)
+  {
+    printf("ERROR: shared memory status is not ok\n");
+    return -1;
+  }
+  shm_data = (SHM_DATA *) shm.getUserAdr();
+  memset(shm_data,0,sizeof(SHM_DATA));
+  if(tty.openDevice("/dev/ttyUSB0",B9600,1,1,8,1,rlSerial::NONE) < 0)
+  {
+    printf("ERROR: openDevice(\"/dev/tty/USB0\")\n");
+  }
+  mb.registerSerial(&tty);
+
+  startStepsStm1(&sm1, 100); // start statemachine 1
+  startStepsStm2(&sm2, 100); // start statemachine 2
+  printf("going to IO loop\n");
+  while(1)
+  {
+    readIO();
+    writeIO();
+    rlsleep(10);
+  }
+  return 0;
+}
+
+// *****************************************************************************
+//                          stm2.cpp  -  description
+//                             -------------------
+//  begin            : Sa. Mai 4 09:29:07 2013
+//  generated by     : pvdevelop (C) Lehrig Software Engineering
+//  email            : lehrig@t-online.de
+//                     A simple template for implementing your own statemachine
+//                     See: pvbaddon/templates/statemachine
+// *****************************************************************************
+#include "plcapp.h"
+
+////TODO: define our states
+////      Your states are defined by static functions which get a pointer to the statemachine
+////      The pointer sm->user might be used to transfer the address of a user defined datastructure
+////      A transition from one state to the next is done by sm->gotoState(theNextState);
+////      Your statemachine runs within a separate thread and the current state is called within "cycletime" intervals
+static void stStart(rlState *sm);
+static void stProcess(rlState *sm);
+static void stFinish(rlState *sm);
+
+////TODO: implement our states
+static void stStart(rlState *sm)
+{
+  shm_data->plc.out.out1 = 1;                        // set output 1 in shared memory
+  if(sm->stepCounter > 20) 
+  {
+    shm_data->plc.out.out1 = 2;                      // reset output 1 in shared memory
+    strcpy(shm_data->plc.state.stm2_name,"Process"); // set next state name in shared memory 
+    sm->gotoState(stProcess);                        // goto the next state
+  }  
+}
+
+static void stProcess(rlState *sm)
+{
+  shm_data->plc.out.out1 = sm->stepCounter;          // set output 1 in shared memory
+  if(sm->stepCounter > 30) 
+  {
+    strcpy(shm_data->plc.state.stm2_name,"Finish");  // set next state name in shared memory
+    sm->gotoState(stFinish);                         // goto the next state
+  }  
+}
+
+static void stFinish(rlState *sm)
+{
+  shm_data->plc.out.out1 = 1;                        // set output 1 in shared memory
+  if(sm->stepCounter > 30) 
+  {
+    shm_data->plc.out.out1 = 0;                      // reset output 1 in shared memory
+    strcpy(shm_data->plc.state.stm2_name,"NULL");    // set next state name NULL
+    shm_data->plc.state.stm2_running = 0;            // reset running in shared memory 
+    sm->gotoState(NULL);                             // goto NULL state
+  }  
+}
+
+int startStepsStm2(rlState *sm, int cycletime)       // start our statemachine
+{
+  if(trace) printf("stm2 starting\n");
+  shm_data->plc.state.stm2_running = 1;              // set running in shared memory
+  strcpy(shm_data->plc.state.stm2_name,"Start");     // set next state name in shared memory
+  sm->gotoState(stStart);                            // goto nextState
+  sm->startSteps(cycletime);                         // start a thread which handles the statemachine
+  return 0;
+}
+
+// ***************************************************************************
+//                          stm1.cpp  -  description
+//                             -------------------
+//  begin            : Sa. Mai 4 09:29:07 2013
+//  generated by     : pvdevelop (C) Lehrig Software Engineering
+//  email            : lehrig@t-online.de
+// ***************************************************************************
+#include "plcapp.h"
+extern rlState sm2;
+
+////TODO: define our states
+static void stStart(rlState *sm);
+
+////TODO: implement our states
+static void stStart(rlState *sm)
+{
+  shm_data->plc.out.out2 = sm->stepCounter;
+  if(shm_data->plc.state.stm2_running == 0)
+  {
+    if(shm_data->pvs.state.button_start_stm2 == 1)
+    {
+      startStepsStm2(&sm2, 100);               // start statemachine 2 thread
+    }
+    else if(shm_data->plc.in.in1 & BIT1)
+    {
+      startStepsStm2(&sm2, 100);               // start statemachine 2 thread
+    }
+  }  
+}
+
+int startStepsStm1(rlState *sm, int cycletime) // start our statemachine
+{
+  if(trace) printf("Start stm1\n");
+  shm_data->plc.state.stm1_running = 1;        // set running within shared memory
+  sm->gotoState(stStart);                      // goto nextState
+  sm->startSteps(cycletime);                   // start a thread that will handle our statemachine
+  return 0;
+}
+
+</pre>
+*/
+
+class rlState
+{
+  public:
+    rlState();
+    ~rlState();
+    int  startSteps(int cycletime);
+    int  runSteps(int cycletime);
+    void gotoState(void (*funcPtr)(rlState *sm));
+    void *user;
+    int  stepCounter;
+    int  cycletime;
+    static const long MAX_STEP = 1000*1000*1000;
+    void (*nextStep)(rlState *sm);
+    void (*lastState)(rlState *sm);
+    rlThread thread;
+};
+
+#endif
+