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bd6d09fc98
The log file generated by latex can contain strings encoded in whatever supported encoding. Instead of guessing the encoding, it is better to open it in binary mode and then performing the necessary comparisons as "bytes". In order to do this, the strings are encoded in utf8, so that, for example, b"pythön" is encoded as "pyth\xc3\xb6n" (7 bytes). Of course, this means that we can only successfully perform comparisons with ascii strings. However, this is what we actually do, as we only search for ascii strings in the log file.
359 lines
11 KiB
Python
359 lines
11 KiB
Python
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# file lyxpreview_tools.py
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# This file is part of LyX, the document processor.
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# Licence details can be found in the file COPYING.
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# author Angus Leeming
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# Full author contact details are available in file CREDITS
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# and with much help testing the code under Windows from
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# Paul A. Rubin, rubin@msu.edu.
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# A repository of the following functions, used by the lyxpreview2xyz scripts.
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# copyfileobj, error, find_exe, find_exe_or_terminate, make_texcolor,
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# progress, run_command, run_latex, warning
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# Requires python 2.4 or later (subprocess module).
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import os, re, subprocess, sys, tempfile
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# Control the output to stdout
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debug = False
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verbose = False
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# Known flavors of latex and bibtex
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bibtex_commands = ("bibtex", "bibtex8", "biber")
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latex_commands = ("latex", "pplatex", "platex", "latex2e")
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pdflatex_commands = ("pdflatex", "xelatex", "lualatex")
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# Pre-compiled regular expressions
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latex_file_re = re.compile(r"\.tex$")
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# PATH and PATHEXT environment variables
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path = os.environ["PATH"].split(os.pathsep)
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extlist = ['']
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if "PATHEXT" in os.environ:
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extlist += os.environ["PATHEXT"].split(os.pathsep)
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extlist.append('.py')
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use_win32_modules = 0
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if os.name == "nt":
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use_win32_modules = 1
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try:
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import pywintypes
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import win32con
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import win32event
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import win32file
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import win32pipe
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import win32process
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import win32security
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import winerror
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except:
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sys.stderr.write("Consider installing the PyWin extension modules " \
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"if you're irritated by windows appearing briefly.\n")
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use_win32_modules = 0
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def progress(message):
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global verbose
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if verbose:
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sys.stdout.write("Progress: %s\n" % message)
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def warning(message):
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sys.stderr.write("Warning: %s\n" % message)
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def error(message):
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sys.stderr.write("Error: %s\n" % message)
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sys.exit(1)
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def make_texcolor(hexcolor, graphics):
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# Test that the input string contains 6 hexadecimal chars.
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hexcolor_re = re.compile(b"^[0-9a-fA-F]{6}$")
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if not hexcolor_re.match(hexcolor):
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error("Cannot convert color '%s'" % hexcolor)
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red = float(int(hexcolor[0:2], 16)) / 255.0
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green = float(int(hexcolor[2:4], 16)) / 255.0
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blue = float(int(hexcolor[4:6], 16)) / 255.0
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if graphics:
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return b"%f,%f,%f" % (red, green, blue)
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else:
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return b"rgb %f %f %f" % (red, green, blue)
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def find_exe(candidates):
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global extlist, path
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for command in candidates:
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prog = command.split()[0]
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for directory in path:
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for ext in extlist:
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full_path = os.path.join(directory, prog + ext)
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if os.access(full_path, os.X_OK):
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# The thing is in the PATH already (or we wouldn't
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# have found it). Return just the basename to avoid
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# problems when the path to the executable contains
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# spaces.
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if full_path.lower().endswith('.py'):
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return command.replace(prog, '"%s" "%s"'
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% (sys.executable, full_path))
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return command
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return None
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def find_exe_or_terminate(candidates):
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exe = find_exe(candidates)
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if exe == None:
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error("Unable to find executable from '%s'" % " ".join(candidates))
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return exe
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def run_command_popen(cmd, stderr2stdout):
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if os.name == 'nt':
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unix = False
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else:
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unix = True
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if stderr2stdout:
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pipe = subprocess.Popen(cmd, shell=unix, close_fds=unix, stdin=subprocess.PIPE, \
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stdout=subprocess.PIPE, stderr=subprocess.STDOUT, universal_newlines=True)
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cmd_stdout = pipe.communicate()[0]
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else:
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pipe = subprocess.Popen(cmd, shell=unix, close_fds=unix, stdin=subprocess.PIPE, \
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stdout=subprocess.PIPE, universal_newlines=True)
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(cmd_stdout, cmd_stderr) = pipe.communicate()
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if cmd_stderr:
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sys.stderr.write(cmd_stderr)
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cmd_status = pipe.returncode
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global debug
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if debug:
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sys.stdout.write(cmd_stdout)
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return cmd_status, cmd_stdout
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def run_command_win32(cmd):
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sa = win32security.SECURITY_ATTRIBUTES()
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sa.bInheritHandle = True
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stdout_r, stdout_w = win32pipe.CreatePipe(sa, 0)
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si = win32process.STARTUPINFO()
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si.dwFlags = (win32process.STARTF_USESTDHANDLES
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| win32process.STARTF_USESHOWWINDOW)
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si.wShowWindow = win32con.SW_HIDE
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si.hStdOutput = stdout_w
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process, thread, pid, tid = \
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win32process.CreateProcess(None, cmd, None, None, True,
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0, None, None, si)
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if process == None:
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return -1, ""
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# Must close the write handle in this process, or ReadFile will hang.
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stdout_w.Close()
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# Read the pipe until we get an error (including ERROR_BROKEN_PIPE,
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# which is okay because it happens when child process ends).
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data = ""
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error = 0
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while 1:
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try:
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hr, buffer = win32file.ReadFile(stdout_r, 4096)
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if hr != winerror.ERROR_IO_PENDING:
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data = data + buffer
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except pywintypes.error as e:
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if e.args[0] != winerror.ERROR_BROKEN_PIPE:
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error = 1
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break
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if error:
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return -2, ""
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# Everything is okay --- the called process has closed the pipe.
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# For safety, check that the process ended, then pick up its exit code.
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win32event.WaitForSingleObject(process, win32event.INFINITE)
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if win32process.GetExitCodeProcess(process):
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return -3, ""
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global debug
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if debug:
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sys.stdout.write(data)
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return 0, data
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def run_command(cmd, stderr2stdout = True):
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progress("Running %s" % cmd)
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if use_win32_modules:
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return run_command_win32(cmd)
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else:
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return run_command_popen(cmd, stderr2stdout)
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def copyfileobj(fsrc, fdst, rewind=0, length=16*1024):
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"""copy data from file-like object fsrc to file-like object fdst"""
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if rewind:
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fsrc.flush()
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fsrc.seek(0)
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while 1:
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buf = fsrc.read(length)
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if not buf:
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break
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fdst.write(buf)
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def write_metrics_info(metrics_info, metrics_file):
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metrics = open(metrics_file, 'w')
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for metric in metrics_info:
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metrics.write("Snippet %s %f\n" % metric)
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metrics.close()
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# Reads a .tex files and create an identical file but only with
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# pages whose index is in pages_to_keep
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def filter_pages(source_path, destination_path, pages_to_keep):
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def_re = re.compile(b"(\\\\newcommandx|\\\\renewcommandx|\\\\global\\\\long\\\\def)(\\[a-zA-Z]+)(.+)")
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source_file = open(source_path, "rb")
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destination_file = open(destination_path, "wb")
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page_index = 0
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skip_page = False
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macros = []
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for line in source_file:
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# We found a new page
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if line.startswith(b"\\begin{preview}"):
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page_index += 1
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# If the page index isn't in pages_to_keep we don't copy it
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skip_page = page_index not in pages_to_keep
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if not skip_page:
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match = def_re.match(line)
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if match != None:
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definecmd = match.group(1)
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macroname = match.group(2)
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if not macroname in macros:
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macros.append(macroname)
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if definecmd == b"\\renewcommandx":
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line = line.replace(definecmd, b"\\newcommandx")
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destination_file.write(line)
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# End of a page, we reset the skip_page bool
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if line.startswith(b"\\end{preview}"):
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skip_page = False
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destination_file.close()
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source_file.close()
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# Joins two metrics list, that is a list of tuple (page_index, metric)
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# new_page_indexes contains the original page number of the pages in new_metrics
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# e.g. new_page_indexes[3] == 14 means that the 4th item in new_metrics is the 15th in the original counting
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# original_bitmap and destination_bitmap are file name models used to rename the new files
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# e.g. image_new%d.png and image_%d.png
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def join_metrics_and_rename(original_metrics, new_metrics, new_page_indexes, original_bitmap, destination_bitmap):
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legacy_index = 0
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for (index, metric) in new_metrics:
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# If the file exists we rename it
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if os.path.isfile(original_bitmap % (index)):
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os.rename(original_bitmap % (index), destination_bitmap % new_page_indexes[index-1])
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# Extract the original page index
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index = new_page_indexes[index-1]
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# Goes through the array until the end is reached or the correct index is found
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while legacy_index < len(original_metrics) and original_metrics[legacy_index][0] < index:
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legacy_index += 1
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# Add or update the metric for this page
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if legacy_index < len(original_metrics) and original_metrics[legacy_index][0] == index:
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original_metrics[legacy_index] = (index, metric)
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else:
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original_metrics.insert(legacy_index, (index, metric))
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def run_latex(latex, latex_file, bibtex = None):
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# Run latex
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latex_status, latex_stdout = run_tex(latex, latex_file)
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if bibtex is None:
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return latex_status, latex_stdout
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# The aux and log output file names
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aux_file = latex_file_re.sub(".aux", latex_file)
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log_file = latex_file_re.sub(".log", latex_file)
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# Run bibtex/latex if necessary
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progress("Checking if a bibtex run is necessary")
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if string_in_file(r"\bibdata", aux_file):
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bibtex_status, bibtex_stdout = run_tex(bibtex, aux_file)
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latex_status, latex_stdout = run_tex(latex, latex_file)
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# Rerun latex if necessary
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progress("Checking if a latex rerun is necessary")
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if string_in_file("Warning: Citation", log_file):
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latex_status, latex_stdout = run_tex(latex, latex_file)
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return latex_status, latex_stdout
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def run_tex(tex, tex_file):
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tex_call = '%s "%s"' % (tex, tex_file)
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tex_status, tex_stdout = run_command(tex_call)
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if tex_status:
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progress("Warning: %s had problems compiling %s" \
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% (os.path.basename(tex), tex_file))
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return tex_status, tex_stdout
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def string_in_file(string, infile):
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if not os.path.isfile(infile):
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return False
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f = open(infile, 'rb')
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for line in f.readlines():
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if string.encode() in line:
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f.close()
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return True
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f.close()
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return False
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# Returns a list of indexes of pages giving errors extracted from the latex log
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def check_latex_log(log_file):
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error_re = re.compile(b"^! ")
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snippet_re = re.compile(b"^Preview: Snippet ")
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data_re = re.compile(b"([0-9]+) ([0-9]+) ([0-9]+) ([0-9]+)")
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found_error = False
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error_pages = []
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try:
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for line in open(log_file, 'rb').readlines():
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if not found_error:
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match = error_re.match(line)
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if match != None:
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found_error = True
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continue
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else:
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match = snippet_re.match(line)
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if match == None:
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continue
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found_error = False
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match = data_re.search(line)
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if match == None:
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error("Unexpected data in %s\n%s" % (log_file, line))
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error_pages.append(int(match.group(1)))
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except:
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warning('check_latex_log: Unable to open "%s"' % log_file)
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warning(repr(sys.exc_info()[0]) + ',' + repr(sys.exc_info()[1]))
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return error_pages
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