That way we do not match the whole table but only the cell contents.
The problem I had was
1.) Document language Spanish
2.) Table (copied from English doc) => language English
3.) All cell contents Spanish
Now search for English text led to a selection of the whole
table, although there was no English content in any cell.
The problem was, that the different list ennvironments
did not look different in tha latex output used for
search.
So the input of "\item ..." did not give information
if it is description, lyxlist, enumeration or labeling.
In search modus we use now "\item{enumeration}" etc.
Exception: findadv-21, but it is not a regression,
because this one never passed.
The problem here is, that we cannot differentiate
between enumeration, itemize, description and labeling
environment here.
Now tests findadv-01 ... findadv-20 pass too.
keytest.py: Expanded time for controll keys (like \[Return])
findadv*: expanded time for normal keys
lyxfind.cpp: Handle math equations
As it is now, searching with format needs ALL the features set
in order to match the pattern.
What needs to be done is a GUI specifying which of the features are
important.
1.) language
2.) font (series, shape)
3.) markup, underline, strikeout
4.) color
Having this info, the implementation is easy. Set
some variables and be done
Further normalize the latex input in case of enabled format search.
It was not enough to split the latex input on \foreignlanguage and \textcolor
macros only.
Instead also macros like \textt, or \noun etc had to be accounted for.
This patch uses therefore a different algorithm.
In the latexified text:
* Check and handle contained regex properly
* Discard superfluos '{' preventing our search engine
to match with the search pattern
Our findadv expects something like
prefix + 'search'
so that the regex (which is latexified too)
can work on 'search'
(In the source, the prefix is denoted by lead_as_string)
The latex output contains structs like
\foreignlaguage(abc}{xx\textbf{boldxx\textcolor{blue}{blue 1 blue 2} XX}}
which would never match the simple prefix.
Now the above is converted to
\foreignlaguage(abc}{xx}\\
\foreignlaguage(abc}{\textbf{boldxx}}
\foreignlaguage(abc}{\textbf{\textcolor{blue}{blue 1 blue 2}}}\\
\foreignlaguage(abc}{\textbf{ XX}}
Of course, more than one language or color in an inset can be searched for now.
Modified language handling
Still, there are problems, because sometimes the search pattern
does not contain the the requested info. So the 'find' often fails
for strings inside a list environment.
The change is significant if the search format is not disabled.
We try to analyze the pattern string first to get needed features
for the search.
We try to analyse the searched string and if it does not
contain all expected featers (color, language, char style, char decoration)
Still some problems though
* Added textsl, texttt, uline, uuline, sout, xout to the list of possible
leading strings.
* Account for correct number of open braces in regex.
Now the search works for enbled format too.
This is hopefully the last amend
Adapt the positional references in regex supplied by user
so that for instance '([a-z]+)\s\1' to find identical words in sequence
is changed to '([a-z]+)\s\2'.
This is slightly better, but still not satisfying.
Enable format search
Given the latexified string
\emph{Fox jUMps}
and using emphasized regex '\w*', we find 'Fox'. That is OK.
But the next find finds ' ', which is not OK.
In contrast, searching with '\w+', we find the correct string 'jUMps'.
If searching for instance '.+' , the found string expanded
to the end of search buffer. So we have to replace
'.' with '[^\}]'.
Also all constructs like '[^abc]' had to be changed to '[^abc\}]'
to not go behind the actual format.
There is still problem using '*', but constructs usin '+' seem to work now.
('.*' finds everything from first char in correct format
to (including) end of next format change
while '.+' find _only_ characters in correct format)
The part of code that removed space at start of paragraph have been
there forever, but its intent is unclear. For example, cutting text at
the end of a paragraph will lead to remove space at the start of this
same paragraph.
The removal of this functionality is offset by a rewrite of DEPM that
makes it more thorough.
Fixes bug #10503.
This commit does a bulk fix of incorrect annotations (comments) at the
end of namespaces.
The commit was generated by initially running clang-format, and then
from the diff of the result extracting the hunks corresponding to
fixes of namespace comments. The changes being applied and all the
results have been manually reviewed. The source code successfully
builds on macOS.
Further details on the steps below, in case they're of interest to
someone else in the future.
1. Checkout a fresh and up to date version of src/
git pull && git checkout -- src && git status src
2. Ensure there's a suitable .clang-format in place, i.e. with options
to fix the comment at the end of namespaces, including:
FixNamespaceComments: true
SpacesBeforeTrailingComments: 1
and that clang-format is >= 5.0.0, by doing e.g.:
clang-format -dump-config | grep Comments:
clang-format --version
3. Apply clang-format to the source:
clang-format -i $(find src -name "*.cpp" -or -name "*.h")
4. Create and filter out hunks related to fixing the namespace
git diff -U0 src > tmp.patch
grepdiff '^} // namespace' --output-matching=hunk tmp.patch > fix_namespace.patch
5. Filter out hunks corresponding to simple fixes into to a separate patch:
pcregrep -M -e '^diff[^\n]+\nindex[^\n]+\n--- [^\n]+\n\+\+\+ [^\n]+\n' \
-e '^@@ -[0-9]+ \+[0-9]+ @@[^\n]*\n-\}[^\n]*\n\+\}[^\n]*\n' \
fix_namespace.patch > fix_namespace_simple.patch
6. Manually review the simple patch and then apply it, after first
restoring the source.
git checkout -- src
patch -p1 < fix_namespace_simple.path
7. Manually review the (simple) changes and then stage the changes
git diff src
git add src
8. Again apply clang-format and filter out hunks related to any
remaining fixes to the namespace, this time filter with more
context. There will be fewer hunks as all the simple cases have
already been handled:
clang-format -i $(find src -name "*.cpp" -or -name "*.h")
git diff src > tmp.patch
grepdiff '^} // namespace' --output-matching=hunk tmp.patch > fix_namespace2.patch
9. Manually review/edit the resulting patch file to remove hunks for files
which need to be dealt with manually, noting the file names and
line numbers. Then restore files to as before applying clang-format
and apply the patch:
git checkout src
patch -p1 < fix_namespace2.patch
10. Manually fix the files noted in the previous step. Stage files,
review changes and commit.
