registry/vulkan/scripts/reflib.py - third_party/platform/external/gfxstream-protocols - Git at Google

 #!/usr/bin/python3
 #
 # Copyright 2016-2021 The Khronos Group Inc.
 #
 # SPDX-License-Identifier: Apache-2.0

 # Utility functions for automatic ref page generation and other script stuff

 import io
 import re
 import sys
 import subprocess

 # global errFile, warnFile, diagFile

 errFile = sys.stderr
 warnFile = sys.stdout
 diagFile = None
 logSourcefile = None
 logProcname = None
 logLine = None

 def unescapeQuotes(s):
     """Remove \' escape sequences in a string (refpage description)"""
     return s.replace('\\\'', '\'')

 def write(*args, **kwargs ):
     file = kwargs.pop('file',sys.stdout)
     end = kwargs.pop('end','\n')
     file.write(' '.join(str(arg) for arg in args))
     file.write(end)

 def setLogSourcefile(filename):
     """Metadata which may be printed (if not None) for diagnostic messages"""
     global logSourcefile
     logSourcefile = filename

 def setLogProcname(procname):
     global logProcname
     logProcname = procname

 def setLogLine(line):
     global logLine
     logLine = line

 def logHeader(severity):
     """Generate prefix for a diagnostic line using metadata and severity"""
     global logSourcefile, logProcname, logLine

     msg = severity + ': '
     if logProcname:
         msg = msg + ' in ' + logProcname
     if logSourcefile:
         msg = msg + ' for ' + logSourcefile
     if logLine:
         msg = msg + ' line ' + str(logLine)
     return msg + ' '

 def setLogFile(setDiag, setWarn, filename):
     """Set the file handle to log either or both warnings and diagnostics to.

     - setDiag and setWarn are True if the corresponding handle is to be set.
     - filename is None for no logging, '-' for stdout, or a pathname."""
     global diagFile, warnFile

     if filename is None:
         return

     if filename == '-':
         fp = sys.stdout
     else:
         fp = open(filename, 'w', encoding='utf-8')

     if setDiag:
         diagFile = fp
     if setWarn:
         warnFile = fp

 def logDiag(*args, **kwargs):
     file = kwargs.pop('file', diagFile)
     end = kwargs.pop('end','\n')
     if file is not None:
         file.write(logHeader('DIAG') + ' '.join(str(arg) for arg in args))
         file.write(end)

 def logWarn(*args, **kwargs):
     file = kwargs.pop('file', warnFile)
     end = kwargs.pop('end','\n')
     if file is not None:
         file.write(logHeader('WARN') + ' '.join(str(arg) for arg in args))
         file.write(end)

 def logErr(*args, **kwargs):
     file = kwargs.pop('file', errFile)
     end = kwargs.pop('end','\n')

     strfile = io.StringIO()
     strfile.write(logHeader('ERROR') + ' '.join(str(arg) for arg in args))
     strfile.write(end)

     if file is not None:
         file.write(strfile.getvalue())
     sys.exit(1)

 def isempty(s):
     """Return True if s is nothing but white space, False otherwise"""
     return len(''.join(s.split())) == 0

 class pageInfo:
     """Information about a ref page relative to the file it's extracted from."""
     def __init__(self):
         self.extractPage = True
         """True if page should be extracted"""

         self.Warning  = None
         """string warning if page is suboptimal or can't be generated"""

         self.embed    = False
         """False or the name of the ref page this include is embedded within"""

         self.type     = None
         """refpage type attribute - 'structs', 'protos', 'freeform', etc."""

         self.name     = None
         """struct/proto/enumerant/etc. name"""

         self.desc     = None
         """short description of ref page"""

         self.begin    = None
         """index of first line of the page (heuristic or // refBegin)"""

         self.include  = None
         """index of include:: line defining the page"""

         self.param    = None
         """index of first line of parameter/member definitions"""

         self.body     = None
         """index of first line of body text"""

         self.validity = None
         """index of validity include"""

         self.end      = None
         """index of last line of the page (heuristic validity include, or // refEnd)"""

         self.alias    = ''
         """aliases of this name, if supplied, or ''"""

         self.refs     = ''
         """cross-references on // refEnd line, if supplied"""

         self.spec     = None
         """'spec' attribute in refpage open block, if supplied, or None for the default ('api') type"""

         self.anchor   = None
         """'anchor' attribute in refpage open block, if supplied, or inferred to be the same as the 'name'"""

 def printPageInfoField(desc, line, file):
     """Print a single field of a pageInfo struct, possibly None.

     - desc - string description of field
     - line - field value or None
     - file - indexed by line"""
     if line is not None:
         logDiag(desc + ':', line + 1, '\t-> ', file[line], end='')
     else:
         logDiag(desc + ':', line)

 def printPageInfo(pi, file):
     """Print out fields of a pageInfo struct

     - pi - pageInfo
     - file - indexed by pageInfo"""
     logDiag('TYPE:   ', pi.type)
     logDiag('NAME:   ', pi.name)
     logDiag('WARNING:', pi.Warning)
     logDiag('EXTRACT:', pi.extractPage)
     logDiag('EMBED:  ', pi.embed)
     logDiag('DESC:   ', pi.desc)
     printPageInfoField('BEGIN   ', pi.begin,    file)
     printPageInfoField('INCLUDE ', pi.include,  file)
     printPageInfoField('PARAM   ', pi.param,    file)
     printPageInfoField('BODY    ', pi.body,     file)
     printPageInfoField('VALIDITY', pi.validity, file)
     printPageInfoField('END     ', pi.end,      file)
     logDiag('REFS: "' + pi.refs + '"')

 def prevPara(file, line):
     """Go back one paragraph from the specified line and return the line number
     of the first line of that paragraph.

     Paragraphs are delimited by blank lines. It is assumed that the
     current line is the first line of a paragraph.

     - file is an array of strings
     - line is the starting point (zero-based)"""
     # Skip over current paragraph
     while (line >= 0 and not isempty(file[line])):
         line = line - 1
     # Skip over white space
     while (line >= 0 and isempty(file[line])):
         line = line - 1
     # Skip to first line of previous paragraph
     while (line >= 1 and not isempty(file[line-1])):
         line = line - 1
     return line

 def nextPara(file, line):
     """Go forward one paragraph from the specified line and return the line
     number of the first line of that paragraph.

     Paragraphs are delimited by blank lines. It is assumed that the
     current line is standalone (which is bogus).

     - file is an array of strings
     - line is the starting point (zero-based)"""
     maxLine = len(file) - 1
     # Skip over current paragraph
     while (line != maxLine and not isempty(file[line])):
         line = line + 1
     # Skip over white space
     while (line != maxLine and isempty(file[line])):
         line = line + 1
     return line

 def lookupPage(pageMap, name):
     """Return (creating if needed) the pageInfo entry in pageMap for name"""
     if name not in pageMap:
         pi = pageInfo()
         pi.name = name
         pageMap[name] = pi
     else:
         pi = pageMap[name]
     return pi

 def loadFile(filename):
     """Load a file into a list of strings. Return the list or None on failure"""
     try:
         fp = open(filename, 'r', encoding='utf-8')
     except:
         logWarn('Cannot open file', filename, ':', sys.exc_info()[0])
         return None

     file = fp.readlines()
     fp.close()

     return file

 def clampToBlock(line, minline, maxline):
     """Clamp a line number to be in the range [minline,maxline].

     If the line number is None, just return it.
     If minline is None, don't clamp to that value."""
     if line is None:
         return line
     if minline and line < minline:
         return minline
     if line > maxline:
         return maxline

     return line

 def fixupRefs(pageMap, specFile, file):
     """Fill in missing fields in pageInfo structures, to the extent they can be
     inferred.

     - pageMap - dictionary of pageInfo structures
     - specFile - filename
     - file - list of strings making up the file, indexed by pageInfo"""
     # All potential ref pages are now in pageMap. Process them to
     # identify actual page start/end/description boundaries, if
     # not already determined from the text.
     for name in sorted(pageMap.keys()):
         pi = pageMap[name]

         # # If nothing is found but an include line with no begin, validity,
         # # or end, this is not intended as a ref page (yet). Set the begin
         # # line to the include line, so autogeneration can at least
         # # pull the include out, but mark it not to be extracted.
         # # Examples include the host sync table includes in
         # # chapters/fundamentals.txt and the table of Vk*Flag types in
         # # appendices/boilerplate.txt.
         # if pi.begin is None and pi.validity is None and pi.end is None:
         #     pi.begin = pi.include
         #     pi.extractPage = False
         #     pi.Warning = 'No begin, validity, or end lines identified'
         #     continue

         # Using open block delimiters, ref pages must *always* have a
         # defined begin and end. If either is undefined, that's fatal.
         if pi.begin is None:
             pi.extractPage = False
             pi.Warning = 'Can\'t identify begin of ref page open block'
             continue

         if pi.end is None:
             pi.extractPage = False
             pi.Warning = 'Can\'t identify end of ref page open block'
             continue

         # If there's no description of the page, infer one from the type
         if pi.desc is None:
             if pi.type is not None:
                 # pi.desc = pi.type[0:len(pi.type)-1] + ' (no short description available)'
                 pi.Warning = 'No short description available; could infer from the type and name'
             else:
                 pi.extractPage = False
                 pi.Warning = 'No short description available, cannot infer from the type'
                 continue

         # Try to determine where the parameter and body sections of the page
         # begin. funcpointer, proto, and struct pages infer the location of
         # the parameter and body sections. Other pages infer the location of
         # the body, but have no parameter sections.
         #
         #@ Probably some other types infer this as well - refer to list of
         #@ all page types in genRef.py:emitPage()
         if pi.include is not None:
             if pi.type in ['funcpointers', 'protos', 'structs']:
                 pi.param = nextPara(file, pi.include)
                 if pi.body is None:
                     pi.body = nextPara(file, pi.param)
             else:
                 if pi.body is None:
                     pi.body = nextPara(file, pi.include)
         else:
             pi.Warning = 'Page does not have an API definition include::'

         # It's possible for the inferred param and body lines to run past
         # the end of block, if, for example, there is no parameter section.
         pi.param = clampToBlock(pi.param, pi.include, pi.end)
         pi.body = clampToBlock(pi.body, pi.param, pi.end)

         # We can get to this point with .include, .param, and .validity
         # all being None, indicating those sections weren't found.

         logDiag('fixupRefs: after processing,', pi.name, 'looks like:')
         printPageInfo(pi, file)

     # Now that all the valid pages have been found, try to make some
     # inferences about invalid pages.
     #
     # If a reference without a .end is entirely inside a valid reference,
     # then it's intentionally embedded - may want to create an indirect
     # page that links into the embedding page. This is done by a very
     # inefficient double loop, but the loop depth is small.
     for name in sorted(pageMap.keys()):
         pi = pageMap[name]

         if pi.end is None:
             for embedName in sorted(pageMap.keys()):
                 logDiag('fixupRefs: comparing', pi.name, 'to', embedName)
                 embed = pageMap[embedName]
                 # Don't check embeddings which are themselves invalid
                 if not embed.extractPage:
                     logDiag('Skipping check for embedding in:', embed.name)
                     continue
                 if embed.begin is None or embed.end is None:
                     logDiag('fixupRefs:', name + ':',
                             'can\'t compare to unanchored ref:', embed.name,
                             'in', specFile, 'at line', pi.include )
                     printPageInfo(pi, file)
                     printPageInfo(embed, file)
                 # If an embed is found, change the error to a warning
                 elif (pi.include is not None and pi.include >= embed.begin and
                       pi.include <= embed.end):
                     logDiag('fixupRefs: Found embed for:', name,
                             'inside:', embedName,
                             'in', specFile, 'at line', pi.include )
                     pi.embed = embed.name
                     pi.Warning = 'Embedded in definition for ' + embed.name
                     break
                 else:
                     logDiag('fixupRefs: No embed match for:', name,
                             'inside:', embedName, 'in', specFile,
                             'at line', pi.include)


 # Patterns used to recognize interesting lines in an asciidoc source file.
 # These patterns are only compiled once.
 INCSVAR_DEF = re.compile(r':INCS-VAR: (?P<value>.*)')
 endifPat   = re.compile(r'^endif::(?P<condition>[\w_+,]+)\[\]')
 beginPat   = re.compile(r'^\[open,(?P<attribs>refpage=.*)\]')
 # attribute key/value pairs of an open block
 attribStr  = r"([a-z]+)='([^'\\]*(?:\\.[^'\\]*)*)'"
 attribPat  = re.compile(attribStr)
 bodyPat    = re.compile(r'^// *refBody')
 errorPat   = re.compile(r'^// *refError')

 # This regex transplanted from check_spec_links
 # It looks for either OpenXR or Vulkan generated file conventions, and for
 # the api/validity include (generated_type), protos/struct/etc path
 # (category), and API name (entity_name). It could be put into the API
 # conventions object.
 INCLUDE = re.compile(
         r'include::(?P<directory_traverse>((../){1,4}|\{INCS-VAR\}/|\{generated\}/)(generated/)?)(?P<generated_type>[\w]+)/(?P<category>\w+)/(?P<entity_name>[^./]+).txt[\[][\]]')


 def findRefs(file, filename):
     """Identify reference pages in a list of strings, returning a dictionary of
     pageInfo entries for each one found, or None on failure."""
     setLogSourcefile(filename)
     setLogProcname('findRefs')

     # To reliably detect the open blocks around reference pages, we must
     # first detect the '[open,refpage=...]' markup delimiting the block;
     # skip past the '--' block delimiter on the next line; and identify the
     # '--' block delimiter closing the page.
     # This can't be done solely with pattern matching, and requires state to
     # track 'inside/outside block'.
     # When looking for open blocks, possible states are:
     #   'outside' - outside a block
     #   'start' - have found the '[open...]' line
     #   'inside' - have found the following '--' line
     openBlockState = 'outside'

     # Dictionary of interesting line numbers and strings related to an API
     # name
     pageMap = {}

     numLines = len(file)
     line = 0

     # Track the pageInfo object corresponding to the current open block
     pi = None
     incsvar = None

     while (line < numLines):
         setLogLine(line)

         # Look for a file-wide definition
         matches = INCSVAR_DEF.match(file[line])
         if matches:
             incsvar = matches.group('value')
             logDiag('Matched INCS-VAR definition:', incsvar)

             line = line + 1
             continue

         # Perform INCS-VAR substitution immediately.
         if incsvar and '{INCS-VAR}' in file[line]:
             newLine = file[line].replace('{INCS-VAR}', incsvar)
             logDiag('PERFORMING SUBSTITUTION', file[line], '->', newLine)
             file[line] = newLine

         # Only one of the patterns can possibly match. Add it to
         # the dictionary for that name.

         # [open,refpage=...] starting a refpage block
         matches = beginPat.search(file[line])
         if matches is not None:
             logDiag('Matched open block pattern')
             attribs = matches.group('attribs')

             # If the previous open block wasn't closed, raise an error
             if openBlockState != 'outside':
                 logErr('Nested open block starting at line', line, 'of',
                        filename)

             openBlockState = 'start'

             # Parse the block attributes
             matches = attribPat.findall(attribs)

             # Extract each attribute
             name = None
             desc = None
             refpage_type = None
             spec_type = None
             anchor = None
             alias = None
             xrefs = None

             for (key,value) in matches:
                 logDiag('got attribute', key, '=', value)
                 if key == 'refpage':
                     name = value
                 elif key == 'desc':
                     desc = unescapeQuotes(value)
                 elif key == 'type':
                     refpage_type = value
                 elif key == 'spec':
                     spec_type = value
                 elif key == 'anchor':
                     anchor = value
                 elif key == 'alias':
                     alias = value
                 elif key == 'xrefs':
                     xrefs = value
                 else:
                     logWarn('unknown open block attribute:', key)

             if name is None or desc is None or refpage_type is None:
                 logWarn('missing one or more required open block attributes:'
                         'refpage, desc, or type')
                 # Leave pi is None so open block delimiters are ignored
             else:
                 pi = lookupPage(pageMap, name)
                 pi.desc = desc
                 # Must match later type definitions in interface/validity includes
                 pi.type = refpage_type
                 pi.spec = spec_type
                 pi.anchor = anchor
                 if alias:
                     pi.alias = alias
                 if xrefs:
                     pi.refs = xrefs
                 logDiag('open block for', name, 'added DESC =', desc,
                         'TYPE =', refpage_type, 'ALIAS =', alias,
                         'XREFS =', xrefs, 'SPEC =', spec_type,
                         'ANCHOR =', anchor)

             line = line + 1
             continue

         # '--' starting or ending and open block
         if file[line].rstrip() == '--':
             if openBlockState == 'outside':
                 # Only refpage open blocks should use -- delimiters
                 logWarn('Unexpected double-dash block delimiters')
             elif openBlockState == 'start':
                 # -- delimiter following [open,refpage=...]
                 openBlockState = 'inside'

                 if pi is None:
                     logWarn('no pageInfo available for opening -- delimiter')
                 else:
                     pi.begin = line + 1
                     logDiag('opening -- delimiter: added BEGIN =', pi.begin)
             elif openBlockState == 'inside':
                 # -- delimiter ending an open block
                 if pi is None:
                     logWarn('no pageInfo available for closing -- delimiter')
                 else:
                     pi.end = line - 1
                     logDiag('closing -- delimiter: added END =', pi.end)

                 openBlockState = 'outside'
                 pi = None
             else:
                 logWarn('unknown openBlockState:', openBlockState)

             line = line + 1
             continue

         matches = INCLUDE.search(file[line])
         if matches is not None:
             # Something got included, not sure what yet.
             gen_type = matches.group('generated_type')
             refpage_type = matches.group('category')
             name = matches.group('entity_name')

             # This will never match in OpenCL
             if gen_type == 'validity':
                 logDiag('Matched validity pattern')
                 if pi is not None:
                     if pi.type and refpage_type != pi.type:
                         logWarn('ERROR: pageMap[' + name + '] type:',
                                 pi.type, 'does not match type:', refpage_type)
                     pi.type = refpage_type
                     pi.validity = line
                     logDiag('added TYPE =', pi.type, 'VALIDITY =', pi.validity)
                 else:
                     logWarn('validity include:: line NOT inside block')

                 line = line + 1
                 continue

             if gen_type == 'api':
                 logDiag('Matched include pattern')
                 if pi is not None:
                     if pi.include is not None:
                         logDiag('found multiple includes for this block')
                     if pi.type and refpage_type != pi.type:
                         logWarn('ERROR: pageMap[' + name + '] type:',
                                 pi.type, 'does not match type:', refpage_type)
                     pi.type = refpage_type
                     pi.include = line
                     logDiag('added TYPE =', pi.type, 'INCLUDE =', pi.include)
                 else:
                     logWarn('interface include:: line NOT inside block')

                 line = line + 1
                 continue

             logDiag('ignoring unrecognized include line ', matches.group())

         # Vulkan 1.1 markup allows the last API include construct to be
         # followed by an asciidoctor endif:: construct (and also preceded,
         # at some distance).
         # This looks for endif:: immediately following an include:: line
         # and, if found, moves the include boundary to this line.
         matches = endifPat.search(file[line])
         if matches is not None and pi is not None:
             if pi.include == line - 1:
                 logDiag('Matched endif pattern following include; moving include')
                 pi.include = line
             else:
                 logDiag('Matched endif pattern (not following include)')

             line = line + 1
             continue

         matches = bodyPat.search(file[line])
         if matches is not None:
             logDiag('Matched // refBody pattern')
             if pi is not None:
                 pi.body = line
                 logDiag('added BODY =', pi.body)
             else:
                 logWarn('// refBody line NOT inside block')

             line = line + 1
             continue

         # OpenCL spec uses // refError to tag "validity" (Errors) language,
         # instead of /validity/ includes.
         matches = errorPat.search(file[line])
         if matches is not None:
             logDiag('Matched // refError pattern')
             if pi is not None:
                 pi.validity = line
                 logDiag('added VALIDITY (refError) =', pi.validity)
             else:
                 logWarn('// refError line NOT inside block')

             line = line + 1
             continue

         line = line + 1
         continue

     if pi is not None:
         logErr('Unclosed open block at EOF!')

     setLogSourcefile(None)
     setLogProcname(None)
     setLogLine(None)

     return pageMap


 def getBranch():
     """Determine current git branch

     Returns (branch name, ''), or (None, stderr output) if the branch name
     can't be determined"""

     command = [ 'git', 'symbolic-ref', '--short', 'HEAD' ]
     results = subprocess.run(command,
                              stdout=subprocess.PIPE,
                              stderr=subprocess.PIPE)

     # git command failed
     if len(results.stderr) > 0:
         return (None, results.stderr)

     # Remove newline from output and convert to a string
     branch = results.stdout.rstrip().decode()
     if len(branch) > 0:
         # Strip trailing newline
         branch = results.stdout.decode()[0:-1]

     return (branch, '')
	#!/usr/bin/python3
	#
	# Copyright 2016-2021 The Khronos Group Inc.
	#
	# SPDX-License-Identifier: Apache-2.0

	# Utility functions for automatic ref page generation and other script stuff

	import io
	import re
	import sys
	import subprocess

	# global errFile, warnFile, diagFile

	errFile = sys.stderr
	warnFile = sys.stdout
	diagFile = None
	logSourcefile = None
	logProcname = None
	logLine = None

	def unescapeQuotes(s):
	"""Remove \' escape sequences in a string (refpage description)"""
	return s.replace('\\\'', '\'')

	def write(args, *kwargs ):
	file = kwargs.pop('file',sys.stdout)
	end = kwargs.pop('end','\n')
	file.write(' '.join(str(arg) for arg in args))
	file.write(end)

	def setLogSourcefile(filename):
	"""Metadata which may be printed (if not None) for diagnostic messages"""
	global logSourcefile
	logSourcefile = filename

	def setLogProcname(procname):
	global logProcname
	logProcname = procname

	def setLogLine(line):
	global logLine
	logLine = line

	def logHeader(severity):
	"""Generate prefix for a diagnostic line using metadata and severity"""
	global logSourcefile, logProcname, logLine

	msg = severity + ': '
	if logProcname:
	msg = msg + ' in ' + logProcname
	if logSourcefile:
	msg = msg + ' for ' + logSourcefile
	if logLine:
	msg = msg + ' line ' + str(logLine)
	return msg + ' '

	def setLogFile(setDiag, setWarn, filename):
	"""Set the file handle to log either or both warnings and diagnostics to.

	- setDiag and setWarn are True if the corresponding handle is to be set.
	- filename is None for no logging, '-' for stdout, or a pathname."""
	global diagFile, warnFile

	if filename is None:
	return

	if filename == '-':
	fp = sys.stdout
	else:
	fp = open(filename, 'w', encoding='utf-8')

	if setDiag:
	diagFile = fp
	if setWarn:
	warnFile = fp

	def logDiag(args, *kwargs):
	file = kwargs.pop('file', diagFile)
	end = kwargs.pop('end','\n')
	if file is not None:
	file.write(logHeader('DIAG') + ' '.join(str(arg) for arg in args))
	file.write(end)

	def logWarn(args, *kwargs):
	file = kwargs.pop('file', warnFile)
	end = kwargs.pop('end','\n')
	if file is not None:
	file.write(logHeader('WARN') + ' '.join(str(arg) for arg in args))
	file.write(end)

	def logErr(args, *kwargs):
	file = kwargs.pop('file', errFile)
	end = kwargs.pop('end','\n')

	strfile = io.StringIO()
	strfile.write(logHeader('ERROR') + ' '.join(str(arg) for arg in args))
	strfile.write(end)

	if file is not None:
	file.write(strfile.getvalue())
	sys.exit(1)

	def isempty(s):
	"""Return True if s is nothing but white space, False otherwise"""
	return len(''.join(s.split())) == 0

	class pageInfo:
	"""Information about a ref page relative to the file it's extracted from."""
	def __init__(self):
	self.extractPage = True
	"""True if page should be extracted"""

	self.Warning = None
	"""string warning if page is suboptimal or can't be generated"""

	self.embed = False
	"""False or the name of the ref page this include is embedded within"""

	self.type = None
	"""refpage type attribute - 'structs', 'protos', 'freeform', etc."""

	self.name = None
	"""struct/proto/enumerant/etc. name"""

	self.desc = None
	"""short description of ref page"""

	self.begin = None
	"""index of first line of the page (heuristic or // refBegin)"""

	self.include = None
	"""index of include:: line defining the page"""

	self.param = None
	"""index of first line of parameter/member definitions"""

	self.body = None
	"""index of first line of body text"""

	self.validity = None
	"""index of validity include"""

	self.end = None
	"""index of last line of the page (heuristic validity include, or // refEnd)"""

	self.alias = ''
	"""aliases of this name, if supplied, or ''"""

	self.refs = ''
	"""cross-references on // refEnd line, if supplied"""

	self.spec = None
	"""'spec' attribute in refpage open block, if supplied, or None for the default ('api') type"""

	self.anchor = None
	"""'anchor' attribute in refpage open block, if supplied, or inferred to be the same as the 'name'"""

	def printPageInfoField(desc, line, file):
	"""Print a single field of a pageInfo struct, possibly None.

	- desc - string description of field
	- line - field value or None
	- file - indexed by line"""
	if line is not None:
	logDiag(desc + ':', line + 1, '\t-> ', file[line], end='')
	else:
	logDiag(desc + ':', line)

	def printPageInfo(pi, file):
	"""Print out fields of a pageInfo struct

	- pi - pageInfo
	- file - indexed by pageInfo"""
	logDiag('TYPE: ', pi.type)
	logDiag('NAME: ', pi.name)
	logDiag('WARNING:', pi.Warning)
	logDiag('EXTRACT:', pi.extractPage)
	logDiag('EMBED: ', pi.embed)
	logDiag('DESC: ', pi.desc)
	printPageInfoField('BEGIN ', pi.begin, file)
	printPageInfoField('INCLUDE ', pi.include, file)
	printPageInfoField('PARAM ', pi.param, file)
	printPageInfoField('BODY ', pi.body, file)
	printPageInfoField('VALIDITY', pi.validity, file)
	printPageInfoField('END ', pi.end, file)
	logDiag('REFS: "' + pi.refs + '"')

	def prevPara(file, line):
	"""Go back one paragraph from the specified line and return the line number
	of the first line of that paragraph.

	Paragraphs are delimited by blank lines. It is assumed that the
	current line is the first line of a paragraph.

	- file is an array of strings
	- line is the starting point (zero-based)"""
	# Skip over current paragraph
	while (line >= 0 and not isempty(file[line])):
	line = line - 1
	# Skip over white space
	while (line >= 0 and isempty(file[line])):
	line = line - 1
	# Skip to first line of previous paragraph
	while (line >= 1 and not isempty(file[line-1])):
	line = line - 1
	return line

	def nextPara(file, line):
	"""Go forward one paragraph from the specified line and return the line
	number of the first line of that paragraph.

	Paragraphs are delimited by blank lines. It is assumed that the
	current line is standalone (which is bogus).

	- file is an array of strings
	- line is the starting point (zero-based)"""
	maxLine = len(file) - 1
	# Skip over current paragraph
	while (line != maxLine and not isempty(file[line])):
	line = line + 1
	# Skip over white space
	while (line != maxLine and isempty(file[line])):
	line = line + 1
	return line

	def lookupPage(pageMap, name):
	"""Return (creating if needed) the pageInfo entry in pageMap for name"""
	if name not in pageMap:
	pi = pageInfo()
	pi.name = name
	pageMap[name] = pi
	else:
	pi = pageMap[name]
	return pi

	def loadFile(filename):
	"""Load a file into a list of strings. Return the list or None on failure"""
	try:
	fp = open(filename, 'r', encoding='utf-8')
	except:
	logWarn('Cannot open file', filename, ':', sys.exc_info()[0])
	return None

	file = fp.readlines()
	fp.close()

	return file

	def clampToBlock(line, minline, maxline):
	"""Clamp a line number to be in the range [minline,maxline].

	If the line number is None, just return it.
	If minline is None, don't clamp to that value."""
	if line is None:
	return line
	if minline and line < minline:
	return minline
	if line > maxline:
	return maxline

	return line

	def fixupRefs(pageMap, specFile, file):
	"""Fill in missing fields in pageInfo structures, to the extent they can be
	inferred.

	- pageMap - dictionary of pageInfo structures
	- specFile - filename
	- file - list of strings making up the file, indexed by pageInfo"""
	# All potential ref pages are now in pageMap. Process them to
	# identify actual page start/end/description boundaries, if
	# not already determined from the text.
	for name in sorted(pageMap.keys()):
	pi = pageMap[name]

	# # If nothing is found but an include line with no begin, validity,
	# # or end, this is not intended as a ref page (yet). Set the begin
	# # line to the include line, so autogeneration can at least
	# # pull the include out, but mark it not to be extracted.
	# # Examples include the host sync table includes in
	# # chapters/fundamentals.txt and the table of Vk*Flag types in
	# # appendices/boilerplate.txt.
	# if pi.begin is None and pi.validity is None and pi.end is None:
	# pi.begin = pi.include
	# pi.extractPage = False
	# pi.Warning = 'No begin, validity, or end lines identified'
	# continue

	# Using open block delimiters, ref pages must always have a
	# defined begin and end. If either is undefined, that's fatal.
	if pi.begin is None:
	pi.extractPage = False
	pi.Warning = 'Can\'t identify begin of ref page open block'
	continue

	if pi.end is None:
	pi.extractPage = False
	pi.Warning = 'Can\'t identify end of ref page open block'
	continue

	# If there's no description of the page, infer one from the type
	if pi.desc is None:
	if pi.type is not None:
	# pi.desc = pi.type[0:len(pi.type)-1] + ' (no short description available)'
	pi.Warning = 'No short description available; could infer from the type and name'
	else:
	pi.extractPage = False
	pi.Warning = 'No short description available, cannot infer from the type'
	continue

	# Try to determine where the parameter and body sections of the page
	# begin. funcpointer, proto, and struct pages infer the location of
	# the parameter and body sections. Other pages infer the location of
	# the body, but have no parameter sections.
	#
	#@ Probably some other types infer this as well - refer to list of
	#@ all page types in genRef.py:emitPage()
	if pi.include is not None:
	if pi.type in ['funcpointers', 'protos', 'structs']:
	pi.param = nextPara(file, pi.include)
	if pi.body is None:
	pi.body = nextPara(file, pi.param)
	else:
	if pi.body is None:
	pi.body = nextPara(file, pi.include)
	else:
	pi.Warning = 'Page does not have an API definition include::'

	# It's possible for the inferred param and body lines to run past
	# the end of block, if, for example, there is no parameter section.
	pi.param = clampToBlock(pi.param, pi.include, pi.end)
	pi.body = clampToBlock(pi.body, pi.param, pi.end)

	# We can get to this point with .include, .param, and .validity
	# all being None, indicating those sections weren't found.

	logDiag('fixupRefs: after processing,', pi.name, 'looks like:')
	printPageInfo(pi, file)

	# Now that all the valid pages have been found, try to make some
	# inferences about invalid pages.
	#
	# If a reference without a .end is entirely inside a valid reference,
	# then it's intentionally embedded - may want to create an indirect
	# page that links into the embedding page. This is done by a very
	# inefficient double loop, but the loop depth is small.
	for name in sorted(pageMap.keys()):
	pi = pageMap[name]

	if pi.end is None:
	for embedName in sorted(pageMap.keys()):
	logDiag('fixupRefs: comparing', pi.name, 'to', embedName)
	embed = pageMap[embedName]
	# Don't check embeddings which are themselves invalid
	if not embed.extractPage:
	logDiag('Skipping check for embedding in:', embed.name)
	continue
	if embed.begin is None or embed.end is None:
	logDiag('fixupRefs:', name + ':',
	'can\'t compare to unanchored ref:', embed.name,
	'in', specFile, 'at line', pi.include )
	printPageInfo(pi, file)
	printPageInfo(embed, file)
	# If an embed is found, change the error to a warning
	elif (pi.include is not None and pi.include >= embed.begin and
	pi.include <= embed.end):
	logDiag('fixupRefs: Found embed for:', name,
	'inside:', embedName,
	'in', specFile, 'at line', pi.include )
	pi.embed = embed.name
	pi.Warning = 'Embedded in definition for ' + embed.name
	break
	else:
	logDiag('fixupRefs: No embed match for:', name,
	'inside:', embedName, 'in', specFile,
	'at line', pi.include)


	# Patterns used to recognize interesting lines in an asciidoc source file.
	# These patterns are only compiled once.
	INCSVAR_DEF = re.compile(r':INCS-VAR: (?P<value>.*)')
	endifPat = re.compile(r'^endif::(?P<condition>[\w_+,]+)\[\]')
	beginPat = re.compile(r'^\[open,(?P<attribs>refpage=.*)\]')
	# attribute key/value pairs of an open block
	attribStr = r"([a-z]+)='([^'\\](?:\\.[^'\\])*)'"
	attribPat = re.compile(attribStr)
	bodyPat = re.compile(r'^// *refBody')
	errorPat = re.compile(r'^// *refError')

	# This regex transplanted from check_spec_links
	# It looks for either OpenXR or Vulkan generated file conventions, and for
	# the api/validity include (generated_type), protos/struct/etc path
	# (category), and API name (entity_name). It could be put into the API
	# conventions object.
	INCLUDE = re.compile(
	r'include::(?P<directory_traverse>((../){1,4}\|\{INCS-VAR\}/\|\{generated\}/)(generated/)?)(?P<generated_type>[\w]+)/(?P<category>\w+)/(?P<entity_name>[^./]+).txt[\[][\]]')


	def findRefs(file, filename):
	"""Identify reference pages in a list of strings, returning a dictionary of
	pageInfo entries for each one found, or None on failure."""
	setLogSourcefile(filename)
	setLogProcname('findRefs')

	# To reliably detect the open blocks around reference pages, we must
	# first detect the '[open,refpage=...]' markup delimiting the block;
	# skip past the '--' block delimiter on the next line; and identify the
	# '--' block delimiter closing the page.
	# This can't be done solely with pattern matching, and requires state to
	# track 'inside/outside block'.
	# When looking for open blocks, possible states are:
	# 'outside' - outside a block
	# 'start' - have found the '[open...]' line
	# 'inside' - have found the following '--' line
	openBlockState = 'outside'

	# Dictionary of interesting line numbers and strings related to an API
	# name
	pageMap = {}

	numLines = len(file)
	line = 0

	# Track the pageInfo object corresponding to the current open block
	pi = None
	incsvar = None

	while (line < numLines):
	setLogLine(line)

	# Look for a file-wide definition
	matches = INCSVAR_DEF.match(file[line])
	if matches:
	incsvar = matches.group('value')
	logDiag('Matched INCS-VAR definition:', incsvar)

	line = line + 1
	continue

	# Perform INCS-VAR substitution immediately.
	if incsvar and '{INCS-VAR}' in file[line]:
	newLine = file[line].replace('{INCS-VAR}', incsvar)
	logDiag('PERFORMING SUBSTITUTION', file[line], '->', newLine)
	file[line] = newLine

	# Only one of the patterns can possibly match. Add it to
	# the dictionary for that name.

	# [open,refpage=...] starting a refpage block
	matches = beginPat.search(file[line])
	if matches is not None:
	logDiag('Matched open block pattern')
	attribs = matches.group('attribs')

	# If the previous open block wasn't closed, raise an error
	if openBlockState != 'outside':
	logErr('Nested open block starting at line', line, 'of',
	filename)

	openBlockState = 'start'

	# Parse the block attributes
	matches = attribPat.findall(attribs)

	# Extract each attribute
	name = None
	desc = None
	refpage_type = None
	spec_type = None
	anchor = None
	alias = None
	xrefs = None

	for (key,value) in matches:
	logDiag('got attribute', key, '=', value)
	if key == 'refpage':
	name = value
	elif key == 'desc':
	desc = unescapeQuotes(value)
	elif key == 'type':
	refpage_type = value
	elif key == 'spec':
	spec_type = value
	elif key == 'anchor':
	anchor = value
	elif key == 'alias':
	alias = value
	elif key == 'xrefs':
	xrefs = value
	else:
	logWarn('unknown open block attribute:', key)

	if name is None or desc is None or refpage_type is None:
	logWarn('missing one or more required open block attributes:'
	'refpage, desc, or type')
	# Leave pi is None so open block delimiters are ignored
	else:
	pi = lookupPage(pageMap, name)
	pi.desc = desc
	# Must match later type definitions in interface/validity includes
	pi.type = refpage_type
	pi.spec = spec_type
	pi.anchor = anchor
	if alias:
	pi.alias = alias
	if xrefs:
	pi.refs = xrefs
	logDiag('open block for', name, 'added DESC =', desc,
	'TYPE =', refpage_type, 'ALIAS =', alias,
	'XREFS =', xrefs, 'SPEC =', spec_type,
	'ANCHOR =', anchor)

	line = line + 1
	continue

	# '--' starting or ending and open block
	if file[line].rstrip() == '--':
	if openBlockState == 'outside':
	# Only refpage open blocks should use -- delimiters
	logWarn('Unexpected double-dash block delimiters')
	elif openBlockState == 'start':
	# -- delimiter following [open,refpage=...]
	openBlockState = 'inside'

	if pi is None:
	logWarn('no pageInfo available for opening -- delimiter')
	else:
	pi.begin = line + 1
	logDiag('opening -- delimiter: added BEGIN =', pi.begin)
	elif openBlockState == 'inside':
	# -- delimiter ending an open block
	if pi is None:
	logWarn('no pageInfo available for closing -- delimiter')
	else:
	pi.end = line - 1
	logDiag('closing -- delimiter: added END =', pi.end)

	openBlockState = 'outside'
	pi = None
	else:
	logWarn('unknown openBlockState:', openBlockState)

	line = line + 1
	continue

	matches = INCLUDE.search(file[line])
	if matches is not None:
	# Something got included, not sure what yet.
	gen_type = matches.group('generated_type')
	refpage_type = matches.group('category')
	name = matches.group('entity_name')

	# This will never match in OpenCL
	if gen_type == 'validity':
	logDiag('Matched validity pattern')
	if pi is not None:
	if pi.type and refpage_type != pi.type:
	logWarn('ERROR: pageMap[' + name + '] type:',
	pi.type, 'does not match type:', refpage_type)
	pi.type = refpage_type
	pi.validity = line
	logDiag('added TYPE =', pi.type, 'VALIDITY =', pi.validity)
	else:
	logWarn('validity include:: line NOT inside block')

	line = line + 1
	continue

	if gen_type == 'api':
	logDiag('Matched include pattern')
	if pi is not None:
	if pi.include is not None:
	logDiag('found multiple includes for this block')
	if pi.type and refpage_type != pi.type:
	logWarn('ERROR: pageMap[' + name + '] type:',
	pi.type, 'does not match type:', refpage_type)
	pi.type = refpage_type
	pi.include = line
	logDiag('added TYPE =', pi.type, 'INCLUDE =', pi.include)
	else:
	logWarn('interface include:: line NOT inside block')

	line = line + 1
	continue

	logDiag('ignoring unrecognized include line ', matches.group())

	# Vulkan 1.1 markup allows the last API include construct to be
	# followed by an asciidoctor endif:: construct (and also preceded,
	# at some distance).
	# This looks for endif:: immediately following an include:: line
	# and, if found, moves the include boundary to this line.
	matches = endifPat.search(file[line])
	if matches is not None and pi is not None:
	if pi.include == line - 1:
	logDiag('Matched endif pattern following include; moving include')
	pi.include = line
	else:
	logDiag('Matched endif pattern (not following include)')

	line = line + 1
	continue

	matches = bodyPat.search(file[line])
	if matches is not None:
	logDiag('Matched // refBody pattern')
	if pi is not None:
	pi.body = line
	logDiag('added BODY =', pi.body)
	else:
	logWarn('// refBody line NOT inside block')

	line = line + 1
	continue

	# OpenCL spec uses // refError to tag "validity" (Errors) language,
	# instead of /validity/ includes.
	matches = errorPat.search(file[line])
	if matches is not None:
	logDiag('Matched // refError pattern')
	if pi is not None:
	pi.validity = line
	logDiag('added VALIDITY (refError) =', pi.validity)
	else:
	logWarn('// refError line NOT inside block')

	line = line + 1
	continue

	line = line + 1
	continue

	if pi is not None:
	logErr('Unclosed open block at EOF!')

	setLogSourcefile(None)
	setLogProcname(None)
	setLogLine(None)

	return pageMap


	def getBranch():
	"""Determine current git branch

	Returns (branch name, ''), or (None, stderr output) if the branch name
	can't be determined"""

	command = [ 'git', 'symbolic-ref', '--short', 'HEAD' ]
	results = subprocess.run(command,
	stdout=subprocess.PIPE,
	stderr=subprocess.PIPE)

	# git command failed
	if len(results.stderr) > 0:
	return (None, results.stderr)

	# Remove newline from output and convert to a string
	branch = results.stdout.rstrip().decode()
	if len(branch) > 0:
	# Strip trailing newline
	branch = results.stdout.decode()[0:-1]

	return (branch, '')