My algorithm to convert a Regular Expression to a Regular Grammar is based on mostly two online resources.
Other similar online resources on the same topic may be found at:
FROM golang:alpine as golang | |
# Create appuser (only for scratch) | |
ENV USER=appuser | |
ENV UID=10001 | |
RUN adduser \ | |
--disabled-password \ | |
--gecos "" \ | |
--home "/nonexistent" \ | |
--shell "/sbin/nologin" \ |
#include <boost/asio/io_service.hpp> | |
#include <boost/bind.hpp> | |
#include <boost/thread/thread.hpp> | |
#include <boost/make_shared.hpp> | |
#include <iostream> | |
class Bla{ | |
public: | |
void callback(std::string msg){ |
""" | |
BAW.PY | |
Implements the Barone-Adesi And Whaley model for the valuation of American options and their greeks. | |
""" | |
import numpy as _np | |
import cmath as _cm | |
# Option Styles |
using System; | |
using System.Net.Http; | |
using System.Threading.Tasks; | |
using Serilog.Context; | |
namespace Serilog.RestCallMonitoring | |
{ | |
public class SerilogHttpClientWrapper : HttpClient | |
{ | |
private static string _templateString = |
My algorithm to convert a Regular Expression to a Regular Grammar is based on mostly two online resources.
Other similar online resources on the same topic may be found at:
## Ignore Visual Studio temporary files, build results, and | |
## files generated by popular Visual Studio add-ons. | |
# User-specific files | |
*.suo | |
*.user | |
*.sln.docstates | |
# Build results |
import os | |
from Bio.Seq import Seq | |
from Bio.SeqRecord import SeqRecord | |
from Bio.SeqFeature import SeqFeature, FeatureLocation | |
from Bio import SeqIO | |
# get all sequence records for the specified genbank file | |
recs = [rec for rec in SeqIO.parse("genbank_file.gbk", "genbank")] | |
# print the number of sequence records that were extracted |