* update macOS autobuild yaml
* updates */CMakeLists* for macOS autobuild compatibility
* "" a dir for cmake
* Un empty an empty EXTRA_INCDIR
* use a cmake operator
* Use the . dir to un-empty a string
* fix minutes timer in macos yaml
* test & skip instead of load & include
* disregard fractional part of minutes in mac yaml
* add another cmake test
* fix typo in mac yaml
* fix other part of same typo
* correct a filename in mac yaml
* test all include dirs
* fix of mac yaml
* mac:fix a path in yaml
* mac:and its antecedent
* options.h include a dir
* test __has_include (gcc 5.* & up & clang)
* remove a printf() in mac yaml
* mac:change a "" and an elseif() to else()
* fix a whitespace error
* fix 2 whitespace errors
* ZULU>UTC
* add a "UTC
* on the other side of the "
* mac:properly set default LOCAL_PREFIX in CACHE
* use of zsh subshells in macos yaml
* mac:remove some &&
* mac:remove some "
* mac:floating point divisors
* mac:use double paren (())
* mac:add a dir
* mac:floatize with decimal point
* mac:zsh -c certain lines
* remove a marker
Scaling is applied at the end of all geometric transformations, so it
would be more appropriate outside of the perspective correction tool.
Such an implementation would also work better with the auto-fit feature.
If the focal length and/or crop factor for the camera-based perspective
correction tool are not edited, they will be set using the focal length
information found in the image metadata. This only applies to the editor
(batch editor and CLI still default to 24 for the focal length and 1 for
the crop factor).
I had to remove the `isVisible` check in `MyExpander::set_expanded()`
because it would trigger in Wavelet and Retinex for unknown reasons.
One inner expander in CIECAM isn't covered by the tool states, and the
way they are distributed to Wavelet and Retinex won't allow for further
tool states in those tools. We should consider to move the tool states
for sub-tools (like Wavelet, Retinex, and CIECAM) to seperate keys in
the `options` file.
