#!/usr/bin/python3 # # Copyright (c) 2018-2019 Collabora, Ltd. # # SPDX-License-Identifier: Apache-2.0 # # Author(s): Ryan Pavlik # # Purpose: This file contains tests for check_spec_links.py import pytest from check_spec_links import MessageId, makeMacroChecker from spec_tools.console_printer import ConsolePrinter from spec_tools.macro_checker_file import shouldEntityBeText # API-specific constants PROTO = 'vkCreateInstance' STRUCT = 'VkInstanceCreateInfo' EXT = 'VK_KHR_display' class CheckerWrapper(object): """Little wrapper object for a MacroChecker. Intended for use in making test assertions shorter and easier to read.""" def __init__(self, capsys): self.ckr = makeMacroChecker(set()) self.capsys = capsys def enabled(self, enabled_messages): """Updates the checker's enable message type set, from an iterable.""" self.ckr.enabled_messages = set(enabled_messages) return self def check(self, string): """Checks a string (as if it were a file), outputs the results to the console, then returns the MacroCheckerFile.""" # Flush the captured output. _ = self.capsys.readouterr() # Process f = self.ckr.processString(string + '\n') # Dump messages ConsolePrinter().output(f) return f @pytest.fixture def ckr(capsys): """Fixture - add an arg named ckr to your test function to automatically get one passed to you.""" return CheckerWrapper(capsys) def msgReplacement(file_checker, which=0): """Return the replacement text associated with the specified message.""" assert(len(file_checker.messages) > which) msg = file_checker.messages[which] from pprint import pprint pprint(msg.script_location) pprint(msg.replacement) pprint(msg.fix) return msg.replacement def loneMsgReplacement(file_checker): """Assert there's only one message in a file checker, and return the replacement text associated with it.""" assert(len(file_checker.messages) == 1) return msgReplacement(file_checker) def message(file_checker, which=0): """Return a string of the message lines associated with the message of a file checker.""" assert(len(file_checker.messages) > which) return "\n".join(file_checker.messages[which].message) def allMessages(file_checker): """Return a list of strings, each being the combination of the message lines of a message from a file checker.""" return ['\n'.join(msg.message) for msg in file_checker.messages] def test_missing_macro(ckr): """Verify correct functioning of MessageId.MISSING_MACRO.""" ckr.enabled([MessageId.MISSING_MACRO]) # This should have a missing macro warning assert(ckr.check('with %s by' % PROTO).numDiagnostics() == 1) # These 3 should not have a missing macro warning because of their context # (in a link) assert(not ckr.check('<<%s' % PROTO).messages) # These 2 are simulating links that broke over lines assert(not ckr.check('%s>>' % PROTO).messages) assert(not ckr.check( '%s asdf>> table' % PROTO).messages) def test_entity_detection(ckr): ckr.enabled([MessageId.BAD_ENTITY]) # Should complain about BAD_ENTITY assert(ckr.check('flink:abcd').numDiagnostics() == 1) # Should just give BAD_ENTITY (an error), not MISSING_TEXT (a warning). # Verifying that wrapping in asterisks (for formatting) doesn't get picked up as # an asterisk in the entity name (a placeholder). ckr.enabled( [MessageId.MISSING_TEXT, MessageId.BAD_ENTITY]) assert(ckr.check('*flink:abcd*').numErrors() == 1) def test_wrong_macro(ckr): ckr.enabled([MessageId.WRONG_MACRO]) # Should error - this ought to be code:uint32_t assert(ckr.check('basetype:uint32_t').numErrors() == 1) # This shouldn't error assert(ckr.check('code:uint32_t').numErrors() == 0) def test_should_entity_be_text(): # These 5 are all examples of patterns that would merit usage of a ptext/etext/etc # macro, for various reasons: # has variable in subscript assert(shouldEntityBeText('pBuffers[i]', '[i]')) assert(shouldEntityBeText('API_ENUM_[X]', '[X]')) # has asterisk assert(shouldEntityBeText('maxPerStage*', None)) # double-underscores make italicized placeholders # (triple are double-underscores delimited by underscores...) assert(shouldEntityBeText('API_ENUM[__x__]', '[__x__]')) assert(shouldEntityBeText('API_ENUM___i___EXT', None)) # This shouldn't be a *text: macro because it only has single underscores assert(False == shouldEntityBeText('API_ENUM_i_EXT', None)) def test_misused_text(ckr): # Tests the same patterns as test_should_entity_be_text(), # but in a whole checker ckr.enabled([MessageId.MISUSED_TEXT]) assert(ckr.check('etext:API_ENUM_').numDiagnostics() == 0) assert(ckr.check('etext:API_ENUM_[X]').numDiagnostics() == 0) assert(ckr.check('etext:API_ENUM[i]').numDiagnostics() == 0) assert(ckr.check('etext:API_ENUM[__x__]').numDiagnostics() == 0) # Should be OK, since __i__ is a placeholder here assert(ckr.check('etext:API_ENUM___i___EXT').numDiagnostics() == 0) # This shouldn't be a *text: macro because it only has single underscores assert(ckr.check('API_ENUM_i_EXT').numDiagnostics() == 0) def test_extension(ckr): ckr.enabled(set(MessageId)) # Check formatting of extension names: # the following is the canonical way to refer to an extension # (link wrapped in backticks) expected_replacement = '`<<%s>>`' % EXT # Extension name mentioned without any markup, should be added assert(loneMsgReplacement(ckr.check('asdf %s asdf' % EXT)) == expected_replacement) # Extension name mentioned without any markup and wrong case, # should be added and have case fixed assert(loneMsgReplacement(ckr.check('asdf %s asdf' % EXT.upper())) == expected_replacement) # Extension name using wrong/old macro: ename isn't for extensions. assert(loneMsgReplacement(ckr.check('asdf ename:%s asdf' % EXT)) == expected_replacement) # Extension name using wrong macro: elink isn't for extensions. assert(loneMsgReplacement(ckr.check('asdf elink:%s asdf' % EXT)) == expected_replacement) # Extension name using wrong macro and wrong case: should have markup and # case fixed assert(loneMsgReplacement(ckr.check('asdf elink:%s asdf' % EXT.upper())) == expected_replacement) # This shouldn't cause errors because this is how we want it to look. assert(not ckr.check('asdf `<<%s>>` asdf' % EXT).messages) # This doesn't (shouldn't?) cause errors because just backticks on their own # "escape" names from the "missing markup" tests. assert(not ckr.check('asdf `%s` asdf' % EXT).messages) # TODO can we auto-correct this to add the backticks? # Doesn't error now, but would be nice if it did... assert(not ckr.check('asdf <<%s>> asdf' % EXT).messages) def test_refpage_tag(ckr): ckr.enabled([MessageId.REFPAGE_TAG]) # Should error: missing refpage='' field assert(ckr.check("[open,desc='',type='',xrefs='']").numErrors() == 1) # Should error: missing desc='' field assert(ckr.check("[open,refpage='',type='',xrefs='']").numErrors() == 1) # Should error: missing type='' field assert(ckr.check("[open,refpage='',desc='',xrefs='']").numErrors() == 1) # Should not error: missing xrefs field is optional assert(not ckr.check("[open,refpage='',desc='',type='']").messages) # Should error, due to missing refpage, but not crash due to message printing (note the unicode smart quote) assert(ckr.check("[open,desc='',type='',xrefs=’']").numDiagnostics() == 1) def test_refpage_name(ckr): ckr.enabled([MessageId.REFPAGE_NAME]) # Should not error: actually exists. assert(ckr.check( "[open,refpage='%s',desc='',type='']" % PROTO).numDiagnostics() == 0) # Should error: does not exist. assert( ckr.check("[open,refpage='bogus',desc='',type='']").numDiagnostics() == 1) def test_refpage_missing_desc(ckr): ckr.enabled([MessageId.REFPAGE_MISSING_DESC]) # Should not warn: non-empty description actually exists. assert(ckr.check( "[open,refpage='',desc='non-empty description',type='']").numDiagnostics() == 0) # Should warn: desc field is empty. assert( ckr.check("[open,refpage='',desc='',type='']").numDiagnostics() == 1) def test_refpage_type(ckr): ckr.enabled([MessageId.REFPAGE_TYPE]) # Should not error: this is of type 'protos'. assert(not ckr.check( "[open,refpage='%s',desc='',type='protos']" % PROTO).messages) # Should error: this is of type 'protos', not 'structs'. assert( ckr.check("[open,refpage='%s',desc='',type='structs']" % PROTO).messages) def test_refpage_xrefs(ckr): ckr.enabled([MessageId.REFPAGE_XREFS]) # Should not error: this is a valid entity to have an xref to. assert(not ckr.check( "[open,refpage='',desc='',type='protos',xrefs='%s']" % STRUCT).messages) # case difference: # should error but offer a replacement. assert(loneMsgReplacement(ckr.check("[open,refpage='',xrefs='%s']" % STRUCT.lower())) == STRUCT) # Should error: not a valid entity. assert(ckr.check( "[open,refpage='',desc='',type='protos',xrefs='bogus']").numDiagnostics() == 1) def test_refpage_xrefs_comma(ckr): ckr.enabled([MessageId.REFPAGE_XREFS_COMMA]) # Should not error: no commas in the xrefs field assert(not ckr.check( "[open,refpage='',xrefs='abc']").messages) # Should error: commas shouldn't be there since it's space-delimited. assert(loneMsgReplacement( ckr.check("[open,refpage='',xrefs='abc,']")) == 'abc') # All should correct to the same thing. equivalent_tags_with_commas = [ "[open,refpage='',xrefs='abc, 123']", "[open,refpage='',xrefs='abc,123']", "[open,refpage='',xrefs='abc , 123']"] for has_comma in equivalent_tags_with_commas: assert(loneMsgReplacement(ckr.check(has_comma)) == 'abc 123') def test_refpage_block(ckr): """Tests of the REFPAGE_BLOCK message.""" ckr.enabled([MessageId.REFPAGE_BLOCK]) # Should not error: have the tag, an open, and a close assert(not ckr.check( """[open,] -- bla --""").messages) assert(not ckr.check( """[open,refpage='abc'] -- bla -- [open,refpage='123'] -- bla2 --""").messages) # Should have 1 error: file ends immediately after tag assert(ckr.check( "[open,]").numDiagnostics() == 1) # Should have 1 error: line after tag isn't -- assert(ckr.check( """[open,] bla --""").numDiagnostics() == 1) # Checking precedence of checks: this should have 1 error because line after tag isn't -- # (but it is something that causes a line to be handled differently) assert(ckr.check( """[open,] == Heading --""").numDiagnostics() == 1) assert(ckr.check( """[open,] ---- this is in a code block ---- --""").numDiagnostics() == 1) # Should have 1 error: tag inside refpage. tag_inside = """[open,] -- bla [open,] --""" assert(ckr.check(tag_inside).numDiagnostics() == 1) assert("already in a refpage block" in message(ckr.check(tag_inside))) def test_refpage_missing(ckr): """Test the REFPAGE_MISSING message.""" ckr.enabled([MessageId.REFPAGE_MISSING]) # Should not error: have the tag, an open, and the include assert(not ckr.check( """[open,refpage='%s'] -- include::{generated}/api/protos/%s.txt[]""" % (PROTO, PROTO)).messages) assert(not ckr.check( """[open,refpage='%s'] -- include::{generated}/validity/protos/%s.txt[]""" % (PROTO, PROTO)).messages) # Should not error: manual anchors shouldn't trigger this. assert(not ckr.check("[[%s]]" % PROTO).messages) # Should have 1 error: file ends immediately after include assert(ckr.check( "include::{generated}/api/protos/%s.txt[]" % PROTO).numDiagnostics() == 1) assert(ckr.check( "include::{generated}/validity/protos/%s.txt[]" % PROTO).numDiagnostics() == 1) # Should have 1 error: include is before the refpage open assert(ckr.check( """include::{generated}/api/protos/%s.txt[] [open,refpage='%s'] --""" % (PROTO, PROTO)).numDiagnostics() == 1) assert(ckr.check( """include::{generated}/validity/protos/%s.txt[] [open,refpage='%s'] --""" % (PROTO, PROTO)).numDiagnostics() == 1) def test_refpage_mismatch(ckr): """Test the REFPAGE_MISMATCH message.""" ckr.enabled([MessageId.REFPAGE_MISMATCH]) # Should not error: have the tag, an open, and a matching include assert(not ckr.check( """[open,refpage='%s'] -- include::{generated}/api/protos/%s.txt[]""" % (PROTO, PROTO)).messages) assert(not ckr.check( """[open,refpage='%s'] -- include::{generated}/validity/protos/%s.txt[]""" % (PROTO, PROTO)).messages) # Should error: have the tag, an open, and a mis-matching include assert(ckr.check( """[open,refpage='%s'] -- include::{generated}/api/structs/%s.txt[]""" % (PROTO, STRUCT)).numDiagnostics() == 1) assert(ckr.check( """[open,refpage='%s'] -- include::{generated}/validity/structs/%s.txt[]""" % (PROTO, STRUCT)).numDiagnostics() == 1) def test_refpage_unknown_attrib(ckr): """Check the REFPAGE_UNKNOWN_ATTRIB message.""" ckr.enabled([MessageId.REFPAGE_UNKNOWN_ATTRIB]) # Should not error: these are known attribute names assert(not ckr.check( "[open,refpage='',desc='',type='',xrefs='']").messages) # Should error: xref isn't an attribute name. assert(ckr.check( "[open,xref='']").numDiagnostics() == 1) def test_refpage_self_xref(ckr): """Check the REFPAGE_SELF_XREF message.""" ckr.enabled([MessageId.REFPAGE_SELF_XREF]) # Should not error: not self-referencing assert(not ckr.check( "[open,refpage='abc',xrefs='']").messages) assert(not ckr.check( "[open,refpage='abc',xrefs='123']").messages) # Should error: self-referencing isn't an attribute name. assert(loneMsgReplacement( ckr.check("[open,refpage='abc',xrefs='abc']")) == '') assert(loneMsgReplacement( ckr.check("[open,refpage='abc',xrefs='abc 123']")) == '123') assert(loneMsgReplacement( ckr.check("[open,refpage='abc',xrefs='123 abc']")) == '123') def test_refpage_xref_dupe(ckr): """Check the REFPAGE_XREF_DUPE message.""" ckr.enabled([MessageId.REFPAGE_XREF_DUPE]) # Should not error: no dupes assert(not ckr.check("[open,xrefs='']").messages) assert(not ckr.check("[open,xrefs='123']").messages) assert(not ckr.check("[open,xrefs='abc 123']").messages) # Should error: one dupe. assert(loneMsgReplacement( ckr.check("[open,xrefs='abc abc']")) == 'abc') assert(loneMsgReplacement( ckr.check("[open,xrefs='abc abc']")) == 'abc') assert(loneMsgReplacement( ckr.check("[open,xrefs='abc abc abc']")) == 'abc') assert(loneMsgReplacement( ckr.check("[open,xrefs='abc 123 abc']")) == 'abc 123') assert(loneMsgReplacement( ckr.check("[open,xrefs='123 abc abc']")) == '123 abc') def test_REFPAGE_WHITESPACE(ckr): """Check the REFPAGE_WHITESPACE message.""" ckr.enabled([MessageId.REFPAGE_WHITESPACE]) # Should not error: no extra whitespace assert(not ckr.check("[open,xrefs='']").messages) assert(not ckr.check("[open,xrefs='123']").messages) assert(not ckr.check("[open,xrefs='abc 123']").messages) # Should error: some extraneous whitespace. assert(loneMsgReplacement( ckr.check("[open,xrefs=' \t ']")) == '') assert(loneMsgReplacement( ckr.check("[open,xrefs=' abc 123 ']")) == 'abc 123') assert(loneMsgReplacement( ckr.check("[open,xrefs=' abc\t123 xyz ']")) == 'abc 123 xyz') # Should *NOT* remove self-reference, just extra whitespace assert(loneMsgReplacement( ckr.check("[open,refpage='abc',xrefs=' abc 123 ']")) == 'abc 123') # Even if we turn on the self-reference warning ckr.enabled([MessageId.REFPAGE_WHITESPACE, MessageId.REFPAGE_SELF_XREF]) assert(msgReplacement( ckr.check("[open,refpage='abc',xrefs=' abc 123 ']"), 1) == 'abc 123') def test_REFPAGE_DUPLICATE(ckr): """Check the REFPAGE_DUPLICATE message.""" ckr.enabled([MessageId.REFPAGE_DUPLICATE]) # Should not error: no duplicate refpages. assert(not ckr.check("[open,refpage='abc']").messages) assert(not ckr.check("[open,refpage='123']").messages) # Should error: repeated refpage assert(ckr.check( """[open,refpage='abc'] [open,refpage='abc']""").messages) # Should error: repeated refpage with something intervening assert(ckr.check( """[open,refpage='abc'] [open,refpage='123'] [open,refpage='abc']""").messages) def test_UNCLOSED_BLOCK(ckr): """Check the UNCLOSED_BLOCK message.""" ckr.enabled([MessageId.UNCLOSED_BLOCK]) # These should all have 0 errors assert(not ckr.check("== Heading").messages) assert(not ckr.check( """**** == Heading ****""").messages) assert(not ckr.check( """**** contents ****""").messages) assert(not ckr.check( """**** [source,c] ---- this is code ---- ****""").messages) assert(not ckr.check( """[open,] -- 123 [source,c] ---- this is code ---- **** * this is in a box **** Now we can close the ref page. --""").messages) # These should all have 1 error because I removed a block close. # Because some of them, the missing block close is an interior one, the stack might look weird, # but it's still only 1 error - no matter how many are left unclosed. assert(ckr.check( """**** == Heading""").numDiagnostics() == 1) assert(ckr.check( """**** contents""").numDiagnostics() == 1) assert(ckr.check( """**** [source,c] ---- this is code ****""").numDiagnostics() == 1) assert(ckr.check( """**** [source,c] ---- this is code ----""").numDiagnostics() == 1) assert(ckr.check( """[open,] -- 123 [source,c] ---- this is code ---- **** * this is in a box ****""").numDiagnostics() == 1) assert(ckr.check( """[open,] -- 123 [source,c] ---- this is code ---- **** * this is in a box --""").numDiagnostics() == 1) assert(ckr.check( """[open,] -- 123 [source,c] ---- this is code **** * this is in a box **** Now we can close the ref page. --""").numDiagnostics() == 1) assert(ckr.check( """[open,] -- 123 [source,c] ---- this is code **** * this is in a box Now we can close the ref page. --""").numDiagnostics() == 1) assert(ckr.check( """[open,] -- 123 [source,c] ---- this is code **** * this is in a box""").numDiagnostics() == 1) # This should have 0 errors of UNCLOSED_BLOCK: the missing opening -- should get automatically fake-inserted, assert(not ckr.check( """[open,] == Heading --""").messages) # Should have 1 error: block left open at end of file assert(ckr.check( """[open,] -- bla""").numDiagnostics() == 1) def test_code_block_tracking(ckr): """Check to make sure that no other messages get triggered in a code block.""" ckr.enabled([MessageId.BAD_ENTITY]) # Should have 1 error: not a valid entity assert(ckr.check("slink:BogusStruct").numDiagnostics() == 1) assert(ckr.check( """**** * slink:BogusStruct ****""").numDiagnostics() == 1) # should have zero errors: the invalid entity is inside a code block, # so it shouldn't be parsed. # (In reality, it's mostly the MISSING_MACRO message that might interact with code block tracking, # but this is easier to test in an API-agnostic way.) assert(not ckr.check( """[source,c] ---- This code happens to include the characters slink:BogusStruct ----""").messages)