FrelonSerialLine.sip 3.32 KB
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//###########################################################################
// This file is part of LImA, a Library for Image Acquisition
//
// Copyright (C) : 2009-2011
// European Synchrotron Radiation Facility
// BP 220, Grenoble 38043
// FRANCE
//
// This is free software; you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation; either version 3 of the License, or
// (at your option) any later version.
//
// This software is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program; if not, see <http://www.gnu.org/licenses/>.
//###########################################################################
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namespace Frelon
{

class SerialLine : HwSerialLine
{

%TypeHeaderCode
#include "FrelonSerialLine.h"
%End

 public:
	enum MsgPart {
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		MsgSync, MsgCmd, MsgVal, MsgDec, MsgReq, MsgTerm, 
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	};
	
	enum AnsPart {
		AnsResp, AnsWarn, AnsErr,
	};
	
	enum {
		MaxReadLen = 10000,
	};

//	typedef std::map<MsgPart, std::string> MsgPartStrMapType;
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//	typedef std::vector<std::string> StrList;
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//	static const double TimeoutSingle, TimeoutNormal, TimeoutMultiLine, 
//			    TimeoutReset;
	
	SerialLine(Espia::SerialLine& espia_ser_line);
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	virtual ~SerialLine();
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	Espia::SerialLine& getEspiaSerialLine();

	virtual void write(const std::string& buffer, 
			   bool no_wait = false);
	virtual void read(std::string& buffer /Out/, 
			  int max_len = MaxReadLen, 
			  double timeout = HwSerialLine::TimeoutDefault);
	virtual void readStr(std::string& buffer /Out/, int max_len, 
			     const std::string& term, 
			     double timeout = HwSerialLine::TimeoutDefault);
	virtual void readLine(std::string& buffer /Out/, 
			      int max_len = MaxReadLen, 
			      double timeout = HwSerialLine::TimeoutDefault);
	virtual void readSingleLine(std::string& buffer /Out/, 
				    int max_len = MaxReadLen, 
				 double timeout = HwSerialLine::TimeoutDefault);
	virtual void readMultiLine(std::string& buffer /Out/, 
				   int max_len = MaxReadLen);
	
	virtual void flush();

	virtual void getNbAvailBytes(int &avail /Out/);
	
	virtual void setTimeout(double timeout);
	virtual void getTimeout(double& timeout /Out/) const;

//	void splitMsg(const std::string& msg, 
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//		      MsgPartStrMapType& msg_parts /Out/) const;
	void splitMsg(const std::string& msg, 
		      std::map<int, std::string>& msg_parts /Out/) const;
%MethodCode
        Frelon::SerialLine::MsgPartStrMapType m;
	sipCpp->splitMsg(*a0, m);
        a1->insert(m.begin(), m.end());
%End

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	void decodeFmtResp(const std::string& ans, std::string& fmt_resp /Out/);

	void sendFmtCmd(const std::string& cmd, std::string& resp /Out/);

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	void writeRegister(Frelon::Reg reg, int  val);
	void readRegister (Frelon::Reg reg, int& val /Out/);
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	void readFloatRegister(Frelon::Reg reg, double& val /Out/);
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	int getLastWarning();

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	void clearCache();
	void setCacheActive(bool  cache_act);
	void getCacheActive(bool& cache_act /Out/);

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	void getResetTraceLog(std::vector<std::string>& reset_trace_log /Out/);
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 private:
	SerialLine(const Frelon::SerialLine&);
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};


}; // namespace Frelon