Lichen

encoders.py

848:6c46f552abec
2018-07-11 Paul Boddie Made use of all the native comparison functions.
     1 #!/usr/bin/env python     2      3 """     4 Encoder functions, producing representations of program objects.     5      6 Copyright (C) 2016, 2017, 2018 Paul Boddie <paul@boddie.org.uk>     7      8 This program is free software; you can redistribute it and/or modify it under     9 the terms of the GNU General Public License as published by the Free Software    10 Foundation; either version 3 of the License, or (at your option) any later    11 version.    12     13 This program is distributed in the hope that it will be useful, but WITHOUT    14 ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS    15 FOR A PARTICULAR PURPOSE.  See the GNU General Public License for more    16 details.    17     18 You should have received a copy of the GNU General Public License along with    19 this program.  If not, see <http://www.gnu.org/licenses/>.    20 """    21     22 from common import first, InstructionSequence    23     24     25     26 # Value digest computation.    27     28 from base64 import b64encode    29 from hashlib import sha1    30     31 def digest(values):    32     m = sha1()    33     for value in values:    34         m.update(str(value))    35     return b64encode(m.digest()).replace("+", "__").replace("/", "_").rstrip("=")    36     37     38     39 # Output encoding and decoding for the summary files.    40     41 def encode_attrnames(attrnames):    42     43     "Encode the 'attrnames' representing usage."    44     45     return ", ".join(attrnames) or "{}"    46     47 def encode_constrained(constrained):    48     49     "Encode the 'constrained' status for program summaries."    50     51     return constrained and "constrained" or "deduced"    52     53 def encode_usage(usage):    54     55     "Encode attribute details from 'usage'."    56     57     all_attrnames = []    58     for t in usage:    59         attrname, invocation, assignment = t    60         all_attrnames.append("%s%s" % (attrname, invocation and "!" or assignment and "=" or ""))    61     return ", ".join(all_attrnames) or "{}"    62     63 def decode_usage(s):    64     65     "Decode attribute details from 's'."    66     67     all_attrnames = set()    68     for attrname_str in s.split(", "):    69         all_attrnames.add((attrname_str.rstrip("!="), attrname_str.endswith("!"), attrname_str.endswith("=")))    70     71     all_attrnames = list(all_attrnames)    72     all_attrnames.sort()    73     return tuple(all_attrnames)    74     75 def encode_access_location(t):    76     77     "Encode the access location 't'."    78     79     return "%s:%s:%s:%d" % (t.path, t.name or "{}", t.attrnames or "{}", t.access_number)    80     81 def decode_access_location(s):    82     83     "Decode the access location 's'."    84     85     path, name, attrnames, access_number = s.split(":")    86     return path, name, attrnames, access_number    87     88 def encode_alias_location(t, invocation=False):    89     90     "Encode the alias location 't'."    91     92     return "%s:%s:%s%s%s%s" % (t.path, t.name or "{}", t.attrnames or "{}",    93         t.version is not None and ":=%d" % t.version or "",    94         t.access_number is not None and ":#%d" % t.access_number or "",    95         invocation and "!" or "")    96     97 def decode_alias_location(s):    98     99     "Decode the alias location 's'."   100    101     path, name, rest = s.split(":", 2)   102     attrnames = version = access_number = None   103     invocation = rest.endswith("!")   104    105     t = rest.rstrip("!").split(":#")   106     if len(t) > 1:   107         rest = t[0]; access_number = int(t[1])   108    109     t = rest.split(":=")   110     if len(t) > 1:   111         attrnames = t[0]; version = int(t[1])   112     else:   113         attrnames = rest   114    115     return path, name, attrnames, version, access_number, invocation   116    117 def encode_location(t):   118    119     "Encode the general location 't' in a concise form."   120    121     if t.name is not None and t.version is not None:   122         return "%s:%s:%d" % (t.path, t.name, t.version)   123     elif t.name is not None:   124         return "%s:%s" % (t.path, t.name)   125     else:   126         return "%s::%s" % (t.path, t.attrnames)   127    128 def encode_modifiers(modifiers):   129    130     "Encode assignment and invocation details from 'modifiers'."   131    132     all_modifiers = []   133     for t in modifiers:   134         all_modifiers.append(encode_modifier_term(t))   135     return "".join(all_modifiers)   136    137 def encode_modifier_term(t):   138    139     "Encode modifier 't' representing an assignment or an invocation."   140    141     assignment, invocation = t   142     if assignment:   143         return "="   144     elif invocation is not None:   145         arguments, keywords = invocation   146         return "(%d;%s)" % (arguments, ",".join(keywords))   147     else:   148         return "_"   149    150 def decode_modifiers(s):   151    152     "Decode 's' containing modifiers."   153    154     i = 0   155     end = len(s)   156    157     modifiers = []   158    159     while i < end:   160         if s[i] == "=":   161             modifiers.append((True, None))   162             i += 1   163         elif s[i] == "(":   164             j = s.index(";", i)   165             arguments = int(s[i+1:j])   166             i = j   167             j = s.index(")", i)   168             keywords = s[i+1:j]   169             keywords = keywords and keywords.split(",") or []   170             modifiers.append((False, (arguments, keywords)))   171             i = j + 1   172         else:   173             modifiers.append((False, None))   174             i += 1   175    176     return modifiers   177    178    179    180 # Test generation functions.   181    182 def get_kinds(all_types):   183    184     """    185     Return object kind details for 'all_types', being a collection of   186     references for program types.   187     """   188    189     return map(lambda ref: ref.get_kind(), all_types)   190    191 def test_label_for_kind(kind):   192    193     "Return the label used for 'kind' in test details."   194    195     return kind == "<instance>" and "instance" or "type"   196    197 def test_label_for_type(ref):   198    199     "Return the label used for 'ref' in test details."   200    201     return test_label_for_kind(ref.get_kind())   202    203    204    205 # Instruction representation encoding.   206    207 def encode_instruction(instruction):   208    209     """   210     Encode the 'instruction' - a sequence starting with an operation and   211     followed by arguments, each of which may be an instruction sequence or a   212     plain value - to produce a function call string representation.   213     """   214    215     op = instruction[0]   216     args = instruction[1:]   217    218     if args:   219         a = []   220         for arg in args:   221             if isinstance(arg, tuple):   222                 a.append(encode_instruction(arg))   223             else:   224                 a.append(arg or "{}")   225         argstr = "(%s)" % ", ".join(a)   226         return "%s%s" % (op, argstr)   227     else:   228         return op   229    230    231    232 # Output program encoding.   233    234 attribute_loading_ops = (   235     "__load_via_class", "__load_via_object", "__get_class_and_load",   236     )   237    238 attribute_ops = attribute_loading_ops + (   239     "__store_via_class", "__store_via_object",   240     )   241    242 checked_loading_ops = (   243     "__check_and_load_via_class", "__check_and_load_via_object", "__check_and_load_via_any",   244     )   245    246 checked_ops = checked_loading_ops + (   247     "__check_and_store_via_class", "__check_and_store_via_object", "__check_and_store_via_any",   248     )   249    250 typename_ops = (   251     "__test_common_instance", "__test_common_object", "__test_common_type",   252     )   253    254 type_ops = (   255     "__test_specific_instance", "__test_specific_object", "__test_specific_type",   256     )   257    258 static_ops = (   259     "__load_static_ignore", "__load_static_replace", "__load_static_test", "<test_context_static>",   260     )   261    262 context_values = (   263     "<context>",   264     )   265    266 context_ops = (   267     "<context>", "<set_context>", "<test_context_revert>", "<test_context_static>",   268     )   269    270 context_op_functions = (   271     "<test_context_revert>", "<test_context_static>",   272     )   273    274 reference_acting_ops = attribute_ops + checked_ops + type_ops + typename_ops   275 attribute_producing_ops = attribute_loading_ops + checked_loading_ops   276    277 attribute_producing_variables = (   278     "<accessor>", "<context>", "<name>", "<private_context>", "<target_accessor>"   279     )   280    281 def encode_access_instruction(instruction, subs, context_index):   282    283     """   284     Encode the 'instruction' - a sequence starting with an operation and   285     followed by arguments, each of which may be an instruction sequence or a   286     plain value - to produce a function call string representation.   287    288     The 'subs' parameter defines a mapping of substitutions for special values   289     used in instructions.   290    291     The 'context_index' parameter defines the position in local context storage   292     for the referenced context or affected by a context operation.   293    294     Return both the encoded instruction and a collection of substituted names.   295     """   296    297     op = instruction[0]   298     args = instruction[1:]   299     substituted = set()   300    301     # Encode the arguments.   302    303     a = []   304     if args:   305         converting_op = op   306         for arg in args:   307             s, _substituted = encode_access_instruction_arg(arg, subs, converting_op, context_index)   308             substituted.update(_substituted)   309             a.append(s)   310             converting_op = None   311    312     # Modify certain arguments.   313    314     # Convert type name arguments.   315    316     if op in typename_ops:   317         a[1] = encode_path(encode_type_attribute(args[1]))   318    319     # Obtain addresses of type arguments.   320    321     elif op in type_ops:   322         a[1] = "&%s" % a[1]   323    324     # Obtain addresses of static objects.   325    326     elif op in static_ops:   327         a[-1] = "&%s" % a[-1]   328    329     # Add context storage information to certain operations.   330    331     if op in context_ops:   332         a.insert(0, context_index)   333    334     # Add the local context array to certain operations.   335    336     if op in context_op_functions:   337         a.append("__tmp_contexts")   338    339     # Define any argument string.   340    341     if a:   342         argstr = "(%s)" % ", ".join(map(str, a))   343     else:   344         argstr = ""   345    346     # Substitute the first element of the instruction, which may not be an   347     # operation at all.   348    349     if subs.has_key(op):   350         substituted.add(op)   351    352         # Break accessor initialisation into initialisation and value-yielding   353         # parts:   354    355         if op == "<set_accessor>" and isinstance(a[0], InstructionSequence):   356             ops = []   357             ops += a[0].get_init_instructions()   358             ops.append("%s(%s)" % (subs[op], a[0].get_value_instruction()))   359             return ", ".join(map(str, ops)), substituted   360    361         op = subs[op]   362    363     elif not args:   364         op = "&%s" % encode_path(op)   365    366     return "%s%s" % (op, argstr), substituted   367    368 def encode_access_instruction_arg(arg, subs, op, context_index):   369    370     """   371     Encode 'arg' using 'subs' to define substitutions, 'op' to indicate the   372     operation to which the argument belongs, and 'context_index' to indicate any   373     affected context storage.   374    375     Return a tuple containing the encoded form of 'arg' along with a collection   376     of any substituted values.   377     """   378    379     if isinstance(arg, tuple):   380         encoded, substituted = encode_access_instruction(arg, subs, context_index)   381         return attribute_to_reference(op, arg[0], encoded, substituted)   382    383     # Special values only need replacing, not encoding.   384    385     elif subs.has_key(arg):   386    387         # Handle values modified by storage details.   388    389         if arg in context_values:   390             encoded = "%s(%s)" % (subs.get(arg), context_index)   391         else:   392             encoded = subs.get(arg)   393    394         substituted = set([arg])   395         return attribute_to_reference(op, arg, encoded, substituted)   396    397     # Convert static references to the appropriate type.   398    399     elif op and op in reference_acting_ops and \   400          arg not in attribute_producing_variables:   401    402         return "&%s" % encode_path(arg), set()   403    404     # Other values may need encoding.   405    406     else:   407         return encode_path(arg), set()   408    409 def attribute_to_reference(op, arg, encoded, substituted):   410    411     # Convert attribute results to references where required.   412    413     if op and op in reference_acting_ops and (   414        arg in attribute_producing_ops or   415        arg in attribute_producing_variables):   416    417         return "__VALUE(%s)" % encoded, substituted   418     else:   419         return encoded, substituted   420    421 def encode_function_pointer(path):   422    423     "Encode 'path' as a reference to an output program function."   424    425     return "__fn_%s" % encode_path(path)   426    427 def encode_instantiator_pointer(path):   428    429     "Encode 'path' as a reference to an output program instantiator."   430    431     return "__new_%s" % encode_path(path)   432    433 def encode_instructions(instructions):   434    435     "Encode 'instructions' as a sequence."   436    437     if len(instructions) == 1:   438         return instructions[0]   439     else:   440         return "(\n%s\n)" % ",\n".join(instructions)   441    442 def encode_literal_constant(n):   443    444     "Encode a name for the literal constant with the number 'n'."   445    446     return "__const%s" % n   447    448 def encode_literal_constant_size(value):   449    450     "Encode a size for the literal constant with the given 'value'."   451    452     if isinstance(value, basestring):   453         return len(value)   454     else:   455         return 0   456    457 def encode_literal_constant_member(value):   458    459     "Encode the member name for the 'value' in the final program."   460    461     return "%svalue" % value.__class__.__name__   462    463 def encode_literal_constant_value(value):   464    465     "Encode the given 'value' in the final program."   466    467     if isinstance(value, (int, float)):   468         return str(value)   469     else:   470         l = []   471    472         # Encode characters including non-ASCII ones.   473    474         for c in str(value):   475             if c == '"': l.append('\\"')   476             elif c == '\n': l.append('\\n')   477             elif c == '\t': l.append('\\t')   478             elif c == '\r': l.append('\\r')   479             elif c == '\\': l.append('\\\\')   480             elif 0x20 <= ord(c) < 0x80: l.append(c)   481             else: l.append("\\x%02x" % ord(c))   482    483         return '"%s"' % "".join(l)   484    485 def encode_literal_data_initialiser(style):   486    487     """   488     Encode a reference to a function populating the data for a literal having   489     the given 'style' ("mapping" or "sequence").   490     """   491    492     return "__newdata_%s" % style   493    494 def encode_literal_instantiator(path):   495    496     """   497     Encode a reference to an instantiator for a literal having the given 'path'.   498     """   499    500     return "__newliteral_%s" % encode_path(path)   501    502 def encode_literal_reference(n):   503    504     "Encode a reference to a literal constant with the number 'n'."   505    506     return "__constvalue%s" % n   507    508    509    510 # Track all encoded paths, detecting and avoiding conflicts.   511    512 all_encoded_paths = {}   513    514 def encode_path(path):   515    516     "Encode 'path' as an output program object, translating special symbols."   517    518     if path in reserved_words:   519         return "__%s" % path   520     else:   521         part_encoded = path.replace("#", "__").replace("$", "__")   522    523         if "." not in path:   524             return part_encoded   525    526         encoded = part_encoded.replace(".", "_")   527    528         # Test for a conflict with the encoding of a different path, re-encoding   529         # if necessary.   530    531         previous = all_encoded_paths.get(encoded)   532         replacement = "_"   533    534         while previous:   535             if path == previous:   536                 return encoded   537             replacement += "_"   538             encoded = part_encoded.replace(".", replacement)   539             previous = all_encoded_paths.get(encoded)   540    541         # Store any new or re-encoded path.   542    543         all_encoded_paths[encoded] = path   544         return encoded   545    546 def encode_code(name):   547    548     "Encode 'name' as an attribute code indicator."   549    550     return "__ATTRCODE(%s)" % encode_path(name)   551    552 def encode_pcode(name):   553    554     "Encode 'name' as an parameter code indicator."   555    556     return "__PARAMCODE(%s)" % encode_path(name)   557    558 def encode_pos(name):   559    560     "Encode 'name' as an attribute position indicator."   561    562     return "__ATTRPOS(%s)" % encode_path(name)   563    564 def encode_ppos(name):   565    566     "Encode 'name' as an parameter position indicator."   567    568     return "__PARAMPOS(%s)" % encode_path(name)   569    570 def encode_predefined_reference(path):   571    572     "Encode a reference to a predefined constant value for 'path'."   573    574     return "__predefined_%s" % encode_path(path)   575    576 def encode_size(kind, path=None):   577    578     """   579     Encode a structure size reference for the given 'kind' of structure, with   580     'path' indicating a specific structure name.   581     """   582    583     return "__%ssize%s" % (structure_size_prefixes.get(kind, kind), path and "_%s" % encode_path(path) or "")   584    585 def encode_symbol(symbol_type, path=None):   586    587     "Encode a symbol with the given 'symbol_type' and optional 'path'."   588    589     return "__%s%s" % (symbol_type, path and "_%s" % encode_path(path) or "")   590    591 def encode_tablename(kind, path):   592    593     """   594     Encode a table reference for the given 'kind' of table structure, indicating   595     a 'path' for the specific object concerned.   596     """   597    598     return "__%sTable_%s" % (table_name_prefixes[kind], encode_path(path))   599    600 def encode_type_attribute(path):   601    602     "Encode the special type attribute for 'path'."   603    604     return "#%s" % path   605    606 def decode_type_attribute(s):   607    608     "Decode the special type attribute 's'."   609    610     return s[1:]   611    612 def is_type_attribute(s):   613    614     "Return whether 's' is a type attribute name."   615    616     return s.startswith("#")   617    618    619    620 # A mapping from kinds to structure size reference prefixes.   621    622 structure_size_prefixes = {   623     "<class>" : "c",   624     "<module>" : "m",   625     "<instance>" : "i"   626     }   627    628 # A mapping from kinds to table name prefixes.   629    630 table_name_prefixes = {   631     "<class>" : "Class",   632     "<function>" : "Function",   633     "<module>" : "Module",   634     "<instance>" : "Instance"   635     }   636    637    638    639 # Output language reserved words.   640    641 reserved_words = [   642     "break", "char", "const", "continue",   643     "default", "double", "else",   644     "float", "for",   645     "if", "int", "long",   646     "NULL",   647     "return", "struct",   648     "typedef",   649     "void", "while",   650     ]   651    652 # vim: tabstop=4 expandtab shiftwidth=4