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[/] [lxp32/] [trunk/] [tools/] [src/] [wigen/] [generator.cpp] - Rev 2

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/*
 * Copyright (c) 2016 by Alex I. Kuznetsov.
 *
 * Part of the LXP32 CPU IP core.
 *
 * This module implements members of the Generator class.
 */
 
#ifdef _MSC_VER
	#define _CRT_SECURE_NO_WARNINGS
#endif
 
#include "generator.h"
 
#include <iostream>
#include <fstream>
#include <sstream>
#include <stdexcept>
#include <cctype>
#include <ctime>
 
Generator::Generator():
	_masters(1),
	_slaves(1),
	_addrWidth(32),
	_portSize(32),
	_portGranularity(32),
	_entityName("intercon"),
	_pipelinedArbiter(false),
	_registeredFeedback(false),
	_unsafeDecoder(false) {}
 
void Generator::setMasters(int i) {
	if(i<1) throw std::runtime_error("Invalid number of masters");
	_masters=i;
}
 
void Generator::setSlaves(int i) {
	if(i<1) throw std::runtime_error("Invalid number of slaves");
	_slaves=i;
}
 
void Generator::setAddrWidth(int i) {
	if(i<1) throw std::runtime_error("Invalid address width");
	_addrWidth=i;
}
 
void Generator::setSlaveAddrWidth(int i) {
	if(i<1) throw std::runtime_error("Invalid slave address width");
	_slaveAddrWidth=i;
}
 
void Generator::setPortSize(int i) {
	if(i!=8&&i!=16&&i!=32&&i!=64)
		throw std::runtime_error("Invalid port size: 8, 16, 32 or 64 expected");
	_portSize=i;
}
 
void Generator::setPortGranularity(int i) {
	if(i!=8&&i!=16&&i!=32&&i!=64)
		throw std::runtime_error("Invalid port granularity: 8, 16, 32 or 64 expected");
	_portGranularity=i;
}
 
void Generator::setEntityName(const std::string &str) try {
	if(str.empty()) throw std::exception();
// First character must be a letter
	if(!std::isalpha(str[0])) throw std::exception();
// Subsequent characters can be letters, digits or underscores
	for(std::size_t i=1;i<str.size();i++)
		if(!std::isalnum(str[i])&&str[i]!='_') throw std::exception();
 
	_entityName=str;
}
catch(std::exception &) {
	throw std::runtime_error("Invalid entity name");
}
 
void Generator::setPipelinedArbiter(bool b) {
	_pipelinedArbiter=b;
}
 
void Generator::setRegisteredFeedback(bool b) {
	_registeredFeedback=b;
}
 
void Generator::setUnsafeDecoder(bool b) {
	_unsafeDecoder=b;
}
 
int Generator::masters() const {
	return _masters;
}
 
int Generator::slaves() const {
	return _slaves;
}
 
int Generator::addrWidth() const {
	return _addrWidth;
}
 
int Generator::slaveAddrWidth() const {
	return _slaveAddrWidth;
}
 
int Generator::portSize() const {
	return _portSize;
}
 
int Generator::portGranularity() const {
	return _portGranularity;
}
 
std::string Generator::entityName() const {
	return _entityName;
}
 
bool Generator::pipelinedArbiter() const {
	return _pipelinedArbiter;
}
 
bool Generator::registeredFeedback() const {
	return _registeredFeedback;
}
 
bool Generator::unsafeDecoder() const {
	return _unsafeDecoder;
}
 
void Generator::generate(const std::string &filename) {
	prepare();
 
	std::ofstream out(filename,std::ios_base::out);
	if(!out) throw std::runtime_error("Cannot open \""+filename+"\"");
 
	writeBanner(out);
	writePreamble(out);
	writeEntity(out);
	writeArchitecture(out);
}
 
/*
 * Private members
 */
 
void Generator::prepare() {
	_fallbackSlave=false;
	if(slaves()<(1<<(addrWidth()-slaveAddrWidth()))&&!unsafeDecoder())
		_fallbackSlave=true;
 
	_mastersRange.assign(masters()-1,0);
	if(_fallbackSlave) _slavesRange.assign(slaves(),0);
	else _slavesRange.assign(slaves()-1,0);
 
	int q=portSize()/portGranularity();
 
	switch(q) {
	case 1:
		_addrRange.assign(addrWidth()-1,0);
		break;
	case 2:
		if(addrWidth()<=1) throw std::runtime_error("Invalid master address width");
		_addrRange.assign(addrWidth()-1,1);
		_selRange.assign(1,0);
		break;
	case 4:
		if(addrWidth()<=2) throw std::runtime_error("Invalid master address width");
		_addrRange.assign(addrWidth()-1,2);
		_selRange.assign(3,0);
		break;
	case 8:
		if(addrWidth()<=3) throw std::runtime_error("Invalid master address width");
		_addrRange.assign(addrWidth()-1,3);
		_selRange.assign(7,0);
		break;
	default:
		throw std::runtime_error("Invalid port size/granularity combination");
	}
 
	if(slaveAddrWidth()>addrWidth()) throw std::runtime_error("Invalid slave address width");
	if(slaves()>(1<<(addrWidth()-slaveAddrWidth()))) throw std::runtime_error("Invalid slave address width");
	if(slaveAddrWidth()<=_addrRange.low()) throw std::runtime_error("Invalid slave address width");
 
	_slaveAddrRange.assign(slaveAddrWidth()-1,_addrRange.low());
 
	if(slaves()>1) {
		_slaveDecoderRange.assign(_addrRange.high(),slaveAddrWidth());
		if(unsafeDecoder()) {
			int requiredSize=0;
			while((1<<requiredSize)<slaves()) requiredSize++;
			_slaveDecoderRange.assign(_slaveDecoderRange.low()+requiredSize-1,
				_slaveDecoderRange.low());
		}
	}
	_dataRange.assign(portSize()-1,0);
}
 
void Generator::writeBanner(std::ostream &os) {
	auto t=std::time(NULL);
	char szTime[256];
	auto r=std::strftime(szTime,256,"%c",std::localtime(&t));
	if(r==0) szTime[0]='\0';
 
	os<<"---------------------------------------------------------------------"<<std::endl;
	os<<"-- Simple WISHBONE interconnect"<<std::endl;
	os<<"--"<<std::endl;
	os<<"-- Generated by wigen at "<<szTime<<std::endl;
	os<<"--"<<std::endl;
	os<<"-- Configuration:"<<std::endl;
	os<<"--     Number of masters:     "<<masters()<<std::endl;
	os<<"--     Number of slaves:      "<<slaves()<<std::endl;
	os<<"--     Master address width:  "<<addrWidth()<<std::endl;
	os<<"--     Slave address width:   "<<slaveAddrWidth()<<std::endl;
	os<<"--     Port size:             "<<portSize()<<std::endl;
	os<<"--     Port granularity:      "<<portGranularity()<<std::endl;
	os<<"--     Entity name:           "<<entityName()<<std::endl;
	os<<"--     Pipelined arbiter:     "<<(pipelinedArbiter()?"yes":"no")<<std::endl;
	os<<"--     Registered feedback:   "<<(registeredFeedback()?"yes":"no")<<std::endl;
	os<<"--     Unsafe slave decoder:  "<<(unsafeDecoder()?"yes":"no")<<std::endl;
	os<<"--"<<std::endl;
	os<<"-- Command line:"<<std::endl;
	os<<"--     wigen -e "<<entityName();
	if(pipelinedArbiter()) os<<" -p";
	if(registeredFeedback()) os<<" -r";
	if(unsafeDecoder()) os<<" -u";
	os<<" "<<masters()<<" "<<slaves()<<" "<<addrWidth()<<" "<<slaveAddrWidth();
	os<<" "<<portSize()<<" "<<portGranularity()<<std::endl;
	os<<"---------------------------------------------------------------------"<<std::endl;
	os<<std::endl;
}
 
void Generator::writePreamble(std::ostream &os) {
	os<<"library ieee;"<<std::endl;
	os<<"use ieee.std_logic_1164.all;"<<std::endl;
	os<<std::endl;
}
 
void Generator::writeEntity(std::ostream &os) {
	os<<"entity "<<entityName()<<" is"<<std::endl;
	os<<"\tport("<<std::endl;
	os<<"\t\tclk_i: in std_logic;"<<std::endl;
	os<<"\t\trst_i: in std_logic;"<<std::endl;
	os<<std::endl;
 
	for(int i=0;i<masters();i++) {
		os<<"\t\ts"<<i<<"_cyc_i: in std_logic;"<<std::endl;
		os<<"\t\ts"<<i<<"_stb_i: in std_logic;"<<std::endl;
		os<<"\t\ts"<<i<<"_we_i: in std_logic;"<<std::endl;
		if(_selRange.valid())
			os<<"\t\ts"<<i<<"_sel_i: in std_logic_vector("<<_selRange.toString()<<");"<<std::endl;
		if(registeredFeedback()) {
			os<<"\t\ts"<<i<<"_cti_i: in std_logic_vector(2 downto 0);"<<std::endl;
			os<<"\t\ts"<<i<<"_bte_i: in std_logic_vector(1 downto 0);"<<std::endl;
		}
		os<<"\t\ts"<<i<<"_ack_o: out std_logic;"<<std::endl;
		os<<"\t\ts"<<i<<"_adr_i: in std_logic_vector("<<_addrRange.toString()<<");"<<std::endl;
		os<<"\t\ts"<<i<<"_dat_i: in std_logic_vector("<<_dataRange.toString()<<");"<<std::endl;
		os<<"\t\ts"<<i<<"_dat_o: out std_logic_vector("<<_dataRange.toString()<<");"<<std::endl;
		os<<std::endl;
	}
 
	for(int i=0;i<slaves();i++) {
		os<<"\t\tm"<<i<<"_cyc_o: out std_logic;"<<std::endl;
		os<<"\t\tm"<<i<<"_stb_o: out std_logic;"<<std::endl;
		os<<"\t\tm"<<i<<"_we_o: out std_logic;"<<std::endl;
		if(_selRange.valid())
			os<<"\t\tm"<<i<<"_sel_o: out std_logic_vector("<<_selRange.toString()<<");"<<std::endl;
		if(registeredFeedback()) {
			os<<"\t\tm"<<i<<"_cti_o: out std_logic_vector(2 downto 0);"<<std::endl;
			os<<"\t\tm"<<i<<"_bte_o: out std_logic_vector(1 downto 0);"<<std::endl;
		}
		os<<"\t\tm"<<i<<"_ack_i: in std_logic;"<<std::endl;
		os<<"\t\tm"<<i<<"_adr_o: out std_logic_vector("<<_slaveAddrRange.toString()<<");"<<std::endl;
		os<<"\t\tm"<<i<<"_dat_o: out std_logic_vector("<<_dataRange.toString()<<");"<<std::endl;
		os<<"\t\tm"<<i<<"_dat_i: in std_logic_vector("<<_dataRange.toString()<<")";
		if(i!=slaves()-1) os<<";"<<std::endl<<std::endl;
		else os<<std::endl;
	}
 
	os<<"\t);"<<std::endl;
	os<<"end entity;"<<std::endl;
	os<<std::endl;
}
 
void Generator::writeArchitecture(std::ostream &os) {
	os<<"architecture rtl of "<<entityName()<<" is"<<std::endl;
	os<<std::endl;
 
	if(masters()>1) {
		os<<"signal request: std_logic_vector("<<
			_mastersRange.toString()<<");"<<std::endl;
		os<<"signal grant_next: std_logic_vector("<<
			_mastersRange.toString()<<");"<<std::endl;
		os<<"signal grant: std_logic_vector("<<
			_mastersRange.toString()<<");"<<std::endl;
 
		if(!pipelinedArbiter()) {
			os<<"signal grant_reg: std_logic_vector("<<
				_mastersRange.toString()<<"):=(others=>\'0\');"<<std::endl;
		}
 
		os<<std::endl;
	}
 
	if(slaves()>1) {
		os<<"signal select_slave: std_logic_vector("<<
			_slavesRange.toString()<<");"<<std::endl;
		os<<std::endl;
	}
 
	os<<"signal cyc_mux: std_logic;"<<std::endl;
	os<<"signal stb_mux: std_logic;"<<std::endl;
	os<<"signal we_mux: std_logic;"<<std::endl;
	if(_selRange.valid())
		os<<"signal sel_mux: std_logic_vector("<<_selRange.toString()<<");"<<std::endl;
	if(registeredFeedback()) {
		os<<"signal cti_mux: std_logic_vector(2 downto 0);"<<std::endl;
		os<<"signal bte_mux: std_logic_vector(1 downto 0);"<<std::endl;
	}
	os<<"signal adr_mux: std_logic_vector("<<_addrRange.toString()<<");"<<std::endl;
	os<<"signal wdata_mux: std_logic_vector("<<_dataRange.toString()<<");"<<std::endl;
	os<<std::endl;
 
	os<<"signal ack_mux: std_logic;"<<std::endl;
	os<<"signal rdata_mux: std_logic_vector("<<_dataRange.toString()<<");"<<std::endl;
	os<<std::endl;
 
	os<<"begin"<<std::endl;
	os<<std::endl;
 
	if(masters()>1) writeArbiter(os);
	writeMasterMux(os);
	writeMasterDemux(os);
	writeSlaveMux(os);
	writeSlaveDemux(os);
 
	os<<"end architecture;"<<std::endl;
}
 
void Generator::writeArbiter(std::ostream &os) {
	os<<"-- ARBITER"<<std::endl;
	os<<"-- Selects the active master. Masters with lower port numbers"<<std::endl;
	os<<"-- have higher priority. Ongoing cycles are not interrupted."<<std::endl;
	os<<std::endl;
 
	os<<"request<=";
	for(int i=_mastersRange.high();i>=_mastersRange.low();i--) {
		os<<"s"<<i<<"_cyc_i";
		if(i>0) os<<'&';
	}
	os<<';'<<std::endl<<std::endl;
 
	os<<"grant_next<=";
	for(int i=0;i<masters();i++) {
		if(i>0) os<<'\t';
		os<<decodedLiteral(i,masters());
		os<<" when request("<<i<<")=\'1\' else"<<std::endl;
	}
	os<<"\t(others=>\'0\');"<<std::endl;
	os<<std::endl;
 
	if(!pipelinedArbiter()) {
		os<<"grant<=grant_reg when (request and grant_reg)/=";
		os<<binaryLiteral(0,masters());
		os<<" else grant_next;"<<std::endl;
		os<<std::endl;
 
		os<<"process (clk_i) is"<<std::endl;
		os<<"begin"<<std::endl;
		os<<"\tif rising_edge(clk_i) then"<<std::endl;
		os<<"\t\tif rst_i=\'1\' then"<<std::endl;
		os<<"\t\t\tgrant_reg<=(others=>\'0\');"<<std::endl;
		os<<"\t\telse"<<std::endl;
		os<<"\t\t\tgrant_reg<=grant;"<<std::endl;
		os<<"\t\tend if;"<<std::endl;
		os<<"\tend if;"<<std::endl;
		os<<"end process;"<<std::endl;
		os<<std::endl;
	}
	else {
		os<<"process (clk_i) is"<<std::endl;
		os<<"begin"<<std::endl;
		os<<"\tif rising_edge(clk_i) then"<<std::endl;
		os<<"\t\tif rst_i=\'1\' then"<<std::endl;
		os<<"\t\t\tgrant<=(others=>\'0\');"<<std::endl;
		os<<"\t\telsif (request and grant)="<<binaryLiteral(0,masters())<<" then"<<std::endl;
		os<<"\t\t\tgrant<=grant_next;"<<std::endl;
		os<<"\t\tend if;"<<std::endl;
		os<<"\tend if;"<<std::endl;
		os<<"end process;"<<std::endl;
		os<<std::endl;
	}
}
 
void Generator::writeMasterMux(std::ostream &os) {
	os<<"-- MASTER->SLAVE MUX"<<std::endl;
	os<<std::endl;
 
	if(masters()>1) {
		os<<"cyc_mux<=";
		for(int i=0;i<masters();i++) {
			if(i>0) os<<'\t';
			os<<"(s"<<i<<"_cyc_i and grant("<<i<<"))";
			if(i<masters()-1) os<<" or"<<std::endl;
			else os<<";"<<std::endl;
		}
		os<<std::endl;
 
		os<<"stb_mux<=";
		for(int i=0;i<masters();i++) {
			if(i>0) os<<'\t';
			os<<"(s"<<i<<"_stb_i and grant("<<i<<"))";
			if(i<masters()-1) os<<" or"<<std::endl;
			else os<<";"<<std::endl;
		}
		os<<std::endl;
 
		os<<"we_mux<=";
		for(int i=0;i<masters();i++) {
			if(i>0) os<<'\t';
			os<<"(s"<<i<<"_we_i and grant("<<i<<"))";
			if(i<masters()-1) os<<" or"<<std::endl;
			else os<<";"<<std::endl;
		}
		os<<std::endl;
 
		if(_selRange.valid()) {
			os<<"sel_mux_gen: for i in sel_mux'range generate"<<std::endl;
			os<<"\tsel_mux(i)<=";
			for(int i=0;i<masters();i++) {
				if(i>0) os<<"\t\t";
				os<<"(s"<<i<<"_sel_i(i) and grant("<<i<<"))";
				if(i<masters()-1) os<<" or"<<std::endl;
				else os<<";"<<std::endl;
			}
			os<<"end generate;"<<std::endl;
			os<<std::endl;
		}
 
		if(registeredFeedback()) {
			os<<"cti_mux_gen: for i in cti_mux'range generate"<<std::endl;
			os<<"\tcti_mux(i)<=";
			for(int i=0;i<masters();i++) {
				if(i>0) os<<"\t\t";
				os<<"(s"<<i<<"_cti_i(i) and grant("<<i<<"))";
				if(i<masters()-1) os<<" or"<<std::endl;
				else os<<";"<<std::endl;
			}
			os<<"end generate;"<<std::endl;
			os<<std::endl;
 
			os<<"bte_mux_gen: for i in bte_mux'range generate"<<std::endl;
			os<<"\tbte_mux(i)<=";
			for(int i=0;i<masters();i++) {
				if(i>0) os<<"\t\t";
				os<<"(s"<<i<<"_bte_i(i) and grant("<<i<<"))";
				if(i<masters()-1) os<<" or"<<std::endl;
				else os<<";"<<std::endl;
			}
			os<<"end generate;"<<std::endl;
			os<<std::endl;
		}
 
		os<<"adr_mux_gen: for i in adr_mux'range generate"<<std::endl;
		os<<"\tadr_mux(i)<=";
		for(int i=0;i<masters();i++) {
			if(i>0) os<<"\t\t";
			os<<"(s"<<i<<"_adr_i(i) and grant("<<i<<"))";
			if(i<masters()-1) os<<" or"<<std::endl;
			else os<<";"<<std::endl;
		}
		os<<"end generate;"<<std::endl;
		os<<std::endl;
 
		os<<"wdata_mux_gen: for i in wdata_mux'range generate"<<std::endl;
		os<<"\twdata_mux(i)<=";
		for(int i=0;i<masters();i++) {
			if(i>0) os<<"\t\t";
			os<<"(s"<<i<<"_dat_i(i) and grant("<<i<<"))";
			if(i<masters()-1) os<<" or"<<std::endl;
			else os<<";"<<std::endl;
		}
		os<<"end generate;"<<std::endl;
		os<<std::endl;
	}
	else { // just one master
		os<<"cyc_mux<=s0_cyc_i;"<<std::endl;
		os<<"stb_mux<=s0_stb_i;"<<std::endl;
		os<<"we_mux<=s0_we_i;"<<std::endl;
		if(_selRange.valid()) os<<"sel_mux<=s0_sel_i;"<<std::endl;
		if(registeredFeedback()) {
			os<<"cti_mux<=s0_cti_i;"<<std::endl;
			os<<"bte_mux<=s0_bte_i;"<<std::endl;
		}
		os<<"adr_mux<=s0_adr_i;"<<std::endl;
		os<<"wdata_mux<=s0_dat_i;"<<std::endl;
		os<<std::endl;
	}
}
 
void Generator::writeMasterDemux(std::ostream &os) {
	os<<"-- MASTER->SLAVE DEMUX"<<std::endl;
	os<<std::endl;
 
	if(slaves()>1) {
		os<<"select_slave<=";
		for(int i=0;i<slaves();i++) {
			if(i>0) os<<'\t';
			os<<decodedLiteral(i,_slavesRange.length());
			os<<" when adr_mux("<<_slaveDecoderRange.toString()<<")=";
			os<<binaryLiteral(i,_slaveDecoderRange.length())<<" else"<<std::endl;
		}
		if(_fallbackSlave) {
			os<<'\t'<<decodedLiteral(slaves(),_slavesRange.length())<<
				"; -- fallback slave"<<std::endl;
		}
		else os<<"\t(others=>'-');"<<std::endl;
		os<<std::endl;
 
		for(int i=0;i<slaves();i++) {
			os<<'m'<<i<<"_cyc_o<=cyc_mux and select_slave("<<i<<");"<<std::endl;
			os<<'m'<<i<<"_stb_o<=stb_mux and select_slave("<<i<<");"<<std::endl;
			os<<'m'<<i<<"_we_o<=we_mux;"<<std::endl;
			if(_selRange.valid()) os<<'m'<<i<<"_sel_o<=sel_mux;"<<std::endl;
			if(registeredFeedback()) {
				os<<'m'<<i<<"_cti_o<=cti_mux;"<<std::endl;
				os<<'m'<<i<<"_bte_o<=bte_mux;"<<std::endl;
			}
			os<<'m'<<i<<"_adr_o<=adr_mux(m"<<i<<"_adr_o'range);"<<std::endl;
			os<<'m'<<i<<"_dat_o<=wdata_mux;"<<std::endl;
			os<<std::endl;
		}
	}
	else { // just one slave
		os<<"m0_cyc_o<=cyc_mux;"<<std::endl;
		os<<"m0_stb_o<=stb_mux;"<<std::endl;
		os<<"m0_we_o<=we_mux;"<<std::endl;
		if(_selRange.valid()) os<<"m0_sel_o<=sel_mux;"<<std::endl;
		if(registeredFeedback()) {
			os<<"m0_cti_o<=cti_mux;"<<std::endl;
			os<<"m0_bte_o<=bte_mux;"<<std::endl;
		}
		os<<"m0_adr_o<=adr_mux(m0_adr_o'range);"<<std::endl;
		os<<"m0_dat_o<=wdata_mux;"<<std::endl;
		os<<std::endl;
	}
}
 
void Generator::writeSlaveMux(std::ostream &os) {
	os<<"-- SLAVE->MASTER MUX"<<std::endl;
	os<<std::endl;
 
	if(slaves()>1) {
		os<<"ack_mux<=";
		for(int i=0;i<slaves();i++) {
			if(i>0) os<<'\t';
			os<<"(m"<<i<<"_ack_i and select_slave("<<i<<"))";
			if(i<slaves()-1||_fallbackSlave) os<<" or"<<std::endl;
			else os<<';'<<std::endl;
		}
		if(_fallbackSlave) {
			os<<"\t(cyc_mux and stb_mux and select_slave("<<slaves()<<
				")); -- fallback slave"<<std::endl;
		}
		os<<std::endl;
 
		os<<"rdata_mux_gen: for i in rdata_mux'range generate"<<std::endl;
		os<<"\trdata_mux(i)<=";
		for(int i=0;i<slaves();i++) {
			if(i>0) os<<"\t\t";
			os<<"(m"<<i<<"_dat_i(i) and select_slave("<<i<<"))";
			if(i<slaves()-1) os<<" or"<<std::endl;
			else os<<";"<<std::endl;
		}
		os<<"end generate;"<<std::endl;
		os<<std::endl;
	}
	else { // just one slave
		os<<"ack_mux<=m0_ack_i;"<<std::endl;
		os<<"rdata_mux<=m0_dat_i;"<<std::endl;
		os<<std::endl;
	}
}
 
void Generator::writeSlaveDemux(std::ostream &os) {
	os<<"-- SLAVE->MASTER DEMUX"<<std::endl;
	os<<std::endl;
 
	if(masters()>1) {
		for(int i=0;i<masters();i++) {
			os<<'s'<<i<<"_ack_o<=ack_mux and grant("<<i<<");"<<std::endl;
			os<<'s'<<i<<"_dat_o<=rdata_mux;"<<std::endl;
			os<<std::endl;
		}
	}
	else { // just one master
		os<<"s0_ack_o<=ack_mux;"<<std::endl;
		os<<"s0_dat_o<=rdata_mux;"<<std::endl;
		os<<std::endl;
	}
}
 
std::string Generator::binaryLiteral(int value,int n) {
	std::ostringstream oss;
	oss.put('\"');
	for(int i=n-1;i>=0;i--) {
		if(value>=static_cast<int>(sizeof(int)*8)) oss.put('0');
		else if((value>>i)&1) oss.put('1');
		else oss.put('0');
	}
	oss.put('\"');
	return oss.str();
}
 
std::string Generator::decodedLiteral(int value,int n) {
	std::ostringstream oss;
	oss.put('\"');
	for(int i=n-1;i>=0;i--) {
		if(value==i) oss.put('1');
		else oss.put('0');
	}
	oss.put('\"');
	return oss.str();
}
 

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