コード例 #1
0
def create_change_info_sheet(excelwriter, model1, model2, name='', message=''):

    ix =  ['Date', 'BaselineModel', 'TargetModel', 'Commit', 'Name', 'Comment']
    vals =  [
            datetime.now().strftime("%y-%m-%d %H:%M"),
            model1.inp.path,
            model2.inp.path,
            functions.random_alphanumeric(12),
            name,
            message
            ]
    df = pd.DataFrame(data=vals, index=ix,columns=['FileInfo'])
    df.to_excel(excelwriter, 'FileInfo')
コード例 #2
0
ファイル: utils.py プロジェクト: aerispaha/swmmio
def create_change_info_sheet(excelwriter, model1, model2, name='', message=''):

    ix =  ['Date', 'BaselineModel', 'TargetModel', 'Commit', 'Name', 'Comment']
    vals =  [
            datetime.now().strftime("%y-%m-%d %H:%M"),
            model1.inp.path,
            model2.inp.path,
            functions.random_alphanumeric(12),
            name,
            message
            ]
    df = pd.DataFrame(data=vals, index=ix,columns=['FileInfo'])
    df.to_excel(excelwriter, 'FileInfo')
コード例 #3
0
ファイル: text.py プロジェクト: timebridge/swmmio
def extract_section_from_inp(filepath,
                             sectionheader,
                             cleanheaders=True,
                             startfile=False,
                             headerdefs=None,
                             ignore_comments=False,
                             return_string=False,
                             skiprows=0,
                             skipheaders=False):
    """
    INPUT path to text file (inp, rpt, etc) and a text string
    matchig the section header of the to be extracted

    creates a new text file in the same directory as the filepath
    and returns the path to the new file.

    optionally inserts row at begining of file with one-line headers that are
    defined in swmmio.defs.sectionheaders (useful for creating dataframes)
    """

    #headers = she.complete_inp_headers(inp)['headers']
    if not headerdefs:
        allheaders = complete_inp_headers(filepath)['headers']
    else:
        allheaders = headerdefs['headers']

    with open(filepath) as f:
        startfound = False
        endfound = False
        #outFilePath = inp.dir + "\\" + inp.name + "_" + section + ".txt"
        wd = os.path.dirname(filepath)
        newfname = sectionheader + '_' + random_alphanumeric(6)
        outfilepath = os.path.join(wd, newfname + txt)
        out_string = ''  #populate if we only want a string returned
        line_count = 0
        with open(outfilepath, 'w') as newf:

            for line in f:

                if startfound and line.strip() in allheaders:
                    endfound = True
                    #print 'end found: {}'.format(line.strip())
                    break
                elif not startfound and sectionheader in line:
                    startfound = True
                    #replace line with usable headers
                    if cleanheaders:
                        if allheaders[sectionheader] != 'blob':
                            line = allheaders[sectionheader] + '\n'
                        else:
                            line = sectionheader + '\n'

                if startfound:
                    if ignore_comments:
                        #ignore anything after a comment
                        #THIS IS HACK GARBAGE
                        if ';' in line:
                            s = line.split(';')[0] + '\n'
                            out_string += s  #build the overall out string (optional use)
                            newf.write(s)
                        else:
                            newf.write(line)
                            out_string += line
                    elif skipheaders:
                        #check if we're at a inp header row with ';;' or the section
                        #header e.g. [XSECTIONS]. If so, skip the row bc skipheader = True
                        if line.strip()[:2] != ";;" and line.strip(
                        ) != sectionheader:
                            newf.write(line)
                            out_string += line
                    elif line_count >= skiprows:
                        newf.write(line)
                        out_string += line

                    line_count += 1

    if not startfound:
        #input section header was not found in the file
        os.remove(outfilepath)
        return None
    if return_string:
        #return a string rep of the extracted section
        os.remove(
            outfilepath
        )  #not needed so delete (maybe wasteful to make in 1st place)
        return out_string

    if startfile:
        os.startfile(outfilepath)

    return outfilepath
コード例 #4
0
ファイル: text.py プロジェクト: timebridge/swmmio
def extract_section_from_rpt(filepath,
                             sectionheader,
                             element_id=None,
                             cleanheaders=True,
                             startfile=False,
                             headerdefs=None):
    """
    INPUT path to rpt file and a text string
    matchig the section header of the to be extracted

    creates a new text file in the same directory as the filepath
    and returns the path to the new file.

    optionally inserts row at begining of file with one-line headers that are
    defined in swmmio.defs.sectionheaders (useful for creating dataframes)
    dede
    """
    if not headerdefs:
        allheaders = complete_rpt_headers(filepath)['headers']
    else:
        allheaders = headerdefs['headers']

    with open(filepath) as f:

        wd = os.path.dirname(filepath)
        newfname = sectionheader + '_' + random_alphanumeric(6)
        outfilepath = os.path.join(wd, newfname + txt)

        sectionstartfound = False  #where we see the section header name
        elementstartfound = False  #where we see the element time series
        datastartfound = False  #where we see actual data after the header text
        endfound = False
        hyphencount = 0  #count how many hyphen rows we pass after sectionstartfound

        with open(outfilepath, 'w') as newf:

            for line in f:

                if sectionstartfound and line.strip() in allheaders:
                    #if we've found the begining of the section and we run
                    #into another known header, we're at the end
                    endfound = True
                    break

                elif not sectionstartfound and sectionheader in line:
                    #if we haven't found the start of the section yet, the
                    #sectionheader is in the current line,
                    #then we've found the begining of the section of interest
                    #print '{} section found'.format(sectionheader)
                    sectionstartfound = True

                    #replace line with usable headers
                    if cleanheaders and [sectionheader] != 'blob':
                        headerrow = allheaders[sectionheader] + '\n'
                        newf.write(headerrow)

                if sectionstartfound and element_id:
                    #keep searching for the start of actual good data
                    #string starting an element time series e.g. <<< Node D68_1_4 >>>
                    elem_start_string = ' '.join(
                        ["<<<",
                         sectionheader.split()[0], element_id, ">>>"])

                    if element_id and elem_start_string in line:
                        print 'element_id found: {}'.format(line)
                        #if we should look for an element_id and it
                        #is in the current line
                        elementstartfound = True
                        #datastartfound = True
                    if elementstartfound:
                        if hyphencount == 2:
                            datastartfound = True
                            newf.write(line)  #write the first line
                            if len(line.strip()) == 0:
                                #if line is blank after we've found the data,
                                #we can be confident that we've found the end
                                break
                        if '------------' in line:
                            #track how many rows with hyphens are passed
                            #two rows should occur before actual data is written
                            hyphencount += 1
                elif sectionstartfound and not element_id:

                    if hyphencount == 2:
                        datastartfound = True
                        newf.write(line)  #write the first line
                        if len(line.strip()) == 0:
                            #if line is blank after we've found the data,
                            #we can be confident that we've found the end
                            break
                    if '------------' in line:
                        #track how many rows with hyphens are passed
                        #two rows should occur before actual data is written
                        hyphencount += 1

    if not sectionstartfound:
        #input section header was not found in the file
        return None
    if startfile:
        os.startfile(outfilepath)

    return outfilepath
コード例 #5
0
ファイル: text.py プロジェクト: aerispaha/swmmio
def extract_section_from_inp(filepath, sectionheader, cleanheaders=True,
                            startfile=False, headerdefs=None, ignore_comments=False,
                            return_string=False, skiprows=0, skipheaders=False):
    """
    INPUT path to text file (inp, rpt, etc) and a text string
    matchig the section header of the to be extracted

    creates a new text file in the same directory as the filepath
    and returns the path to the new file.

    optionally inserts row at begining of file with one-line headers that are
    defined in swmmio.defs.sectionheaders (useful for creating dataframes)
    """

    #headers = she.complete_inp_headers(inp)['headers']
    if not headerdefs:
        allheaders = complete_inp_headers(filepath)['headers']
    else:
        allheaders = headerdefs['headers']

    with open(filepath) as f:
        startfound = False
        endfound = False
        #outFilePath = inp.dir + "\\" + inp.name + "_" + section + ".txt"
        wd = os.path.dirname(filepath)
        newfname = sectionheader + '_' + random_alphanumeric(6)
        outfilepath = os.path.join(wd, newfname + txt)
        out_string = '' #populate if we only want a string returned
        line_count = 0
        with open(outfilepath, 'w') as newf:

            for line in f:

                if startfound and line.strip() in allheaders:
                    endfound = True
                    #print 'end found: {}'.format(line.strip())
                    break
                elif not startfound and sectionheader in line:
                    startfound = True
                    #replace line with usable headers
                    if cleanheaders:
                        if allheaders[sectionheader] != 'blob':
                            line = allheaders[sectionheader] + '\n'
                        else:
                            line = sectionheader + '\n'

                if startfound:
                    if ignore_comments:
                        #ignore anything after a comment
                        #THIS IS HACK GARBAGE
                        if ';' in line:
                            s = line.split(';')[0] + '\n'
                            out_string += s #build the overall out string (optional use)
                            newf.write(s)
                        else:
                            newf.write(line)
                            out_string += line
                    elif skipheaders:
                        #check if we're at a inp header row with ';;' or the section
                        #header e.g. [XSECTIONS]. If so, skip the row bc skipheader = True
                        if line.strip()[:2] != ";;" and line.strip() != sectionheader:
                            newf.write(line)
                            out_string += line
                    elif line_count >= skiprows:
                        newf.write(line)
                        out_string += line

                    line_count += 1

    if not startfound:
        #input section header was not found in the file
        os.remove(outfilepath)
        return None
    if return_string:
        #return a string rep of the extracted section
        os.remove(outfilepath) #not needed so delete (maybe wasteful to make in 1st place)
        return out_string

    if startfile:
        os.startfile(outfilepath)

    return outfilepath
コード例 #6
0
ファイル: text.py プロジェクト: aerispaha/swmmio
def extract_section_from_rpt(filepath, sectionheader, element_id=None, cleanheaders=True, startfile=False, headerdefs=None):
    """
    INPUT path to rpt file and a text string
    matchig the section header of the to be extracted

    creates a new text file in the same directory as the filepath
    and returns the path to the new file.

    optionally inserts row at begining of file with one-line headers that are
    defined in swmmio.defs.sectionheaders (useful for creating dataframes)
    dede
    """
    if not headerdefs:
        allheaders = complete_rpt_headers(filepath)['headers']
    else:
        allheaders = headerdefs['headers']

    with open(filepath) as f:


        wd = os.path.dirname(filepath)
        newfname = sectionheader + '_' + random_alphanumeric(6)
        outfilepath = os.path.join(wd, newfname + txt)

        sectionstartfound = False #where we see the section header name
        elementstartfound = False #where we see the element time series
        datastartfound = False #where we see actual data after the header text
        endfound = False
        hyphencount = 0 #count how many hyphen rows we pass after sectionstartfound

        with open(outfilepath, 'w') as newf:

            for line in f:

                if sectionstartfound and line.strip() in allheaders:
                    #if we've found the begining of the section and we run
                    #into another known header, we're at the end
                    endfound = True
                    break

                elif not sectionstartfound and sectionheader in line:
                    #if we haven't found the start of the section yet, the
                    #sectionheader is in the current line,
                    #then we've found the begining of the section of interest
                    #print '{} section found'.format(sectionheader)
                    sectionstartfound = True

                    #replace line with usable headers
                    if cleanheaders and [sectionheader] != 'blob':
                        headerrow = allheaders[sectionheader] + '\n'
                        newf.write(headerrow)

                if sectionstartfound and element_id:
                    #keep searching for the start of actual good data
                    #string starting an element time series e.g. <<< Node D68_1_4 >>>
                    elem_start_string = ' '.join(["<<<", sectionheader.split()[0], element_id, ">>>"])

                    if element_id and elem_start_string in line:
                        print('element_id found: {}'.format(line))
                        #if we should look for an element_id and it
                        #is in the current line
                        elementstartfound = True
                        #datastartfound = True
                    if elementstartfound:
                        if hyphencount == 2:
                            datastartfound = True
                            newf.write(line) #write the first line
                            if len(line.strip()) == 0:
                                #if line is blank after we've found the data,
                                #we can be confident that we've found the end
                                break
                        if '------------' in line:
                            #track how many rows with hyphens are passed
                            #two rows should occur before actual data is written
                            hyphencount += 1
                elif sectionstartfound and not element_id:

                    if hyphencount == 2:
                        datastartfound = True
                        newf.write(line) #write the first line
                        if len(line.strip()) == 0:
                            #if line is blank after we've found the data,
                            #we can be confident that we've found the end
                            break
                    if '------------' in line:
                        #track how many rows with hyphens are passed
                        #two rows should occur before actual data is written
                        hyphencount += 1

    if not sectionstartfound:
        #input section header was not found in the file
        return None
    if startfile:
        os.startfile(outfilepath)

    return outfilepath