


 last updated a few seconds ago
Tuesday 13 Aug
Adjust multiline strings to work with both Groovy and JDK13 stripIndent methods


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Wednesday 19 Jun
Revert new exclude rule merging This is a temporary revert to allow ironing out some issues with the newer implementation.


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Revert new exclude rule merging This is a temporary revert to allow ironing out some more issues with the newer implementation.


… 38 more files in
changeset.
Revert new exclude rule merging This is a temporary revert to allow ironing out some issues with the newer implementation.


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Wednesday 15 May
Recognize AdoptOpenJDK vendor (#9406) Currently our internal JDK probe can't recognize AdoptOpenJDK. Oracle OpenJDK's `java.vendor` is `Oracle Coorpration` but AdoptOpenJDK's vendor is `AdoptOpenJDK`. This PR adds support for `AdoptOpenJDK` so we can recognize it in the future builds.


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Recognize AdoptOpenJDK vendor (#9406) Currently our internal JDK probe can't recognize AdoptOpenJDK. Oracle OpenJDK's `java.vendor` is `Oracle Coorpration` but AdoptOpenJDK's vendor is `AdoptOpenJDK`. This PR adds support for `AdoptOpenJDK` so we can recognize it in the future builds.


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Recognize AdoptOpenJDK vendor


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Saturday 27 Apr


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Rework exclude rule merging As a followup to #9197, this commit properly fixes the exclude rule merging algorithm, by completely rewriting it. The new merging algorithm works by implementing the minimal set of algebra operations that make sense to minimize computation durations. In order to do this, this commit introduces a number of exclude specs (found in their own package) and factories to create actual implementation of those specs. Specs represent the different kind of excludes we can find:  excluding a group  excluding a module (no group defined)  excluding a group+module  excluding an artifact of a group+module  patternmatching excludes  unions of excludes  intersections of excludes With all those minimal bricks, factories are responsible of generating consistent specs. The dumbest factory will just generate new instances for everything. This is the default factory. Minimally, this factory has to be backed by an optimizing factory, which will take care of handling special cases:  union or intersection of a single spec  union or intersection of 2 specs  when one of them is null  when both are equal Then we have a factory which performs the minimal algebra to minimize specs:  unions of unions  intersections of intersections  union of a union and individual specs  insection of an intersection and individual spec  ... This factory can be as smart as it can, but one must be careful that it's worth it: some previously implemented optimizations (like (A+B).A = A turned out to be costly to detect, and didn't make it the final cut. Yet another factory is there to reduce the memory footprint and, as a side effect, make things faster by interning the specs: equivalent specs are interned and indexed, which allows us to optimize unions and intersections of specs. Last but not least, a caching factory is there to avoid recomputing the same intersections and unions of specs when we have already done the job. This is efficient if the underlying (delegate) specs are easily compared, which is the case thanks to the interning factory. All in all, the delegation chain allows us to make the algorithm fast and hopefully reliable, while making it easier to debug.


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changeset.
Rework exclude rule merging As a followup to #9197, this commit properly fixes the exclude rule merging algorithm, by completely rewriting it. The new merging algorithm works by implementing the minimal set of algebra operations that make sense to minimize computation durations. In order to do this, this commit introduces a number of exclude specs (found in their own package) and factories to create actual implementation of those specs. Specs represent the different kind of excludes we can find:  excluding a group  excluding a module (no group defined)  excluding a group+module  excluding an artifact of a group+module  patternmatching excludes  unions of excludes  intersections of excludes With all those minimal bricks, factories are responsible of generating consistent specs. The dumbest factory will just generate new instances for everything. This is the default factory. Minimally, this factory has to be backed by an optimizing factory, which will take care of handling special cases:  union or intersection of a single spec  union or intersection of 2 specs  when one of them is null  when both are equal Then we have a factory which performs the minimal algebra to minimize specs:  unions of unions  intersections of intersections  union of a union and individual specs  insection of an intersection and individual spec  ... This factory can be as smart as it can, but one must be careful that it's worth it: some previously implemented optimizations (like (A+B).A = A turned out to be costly to detect, and didn't make it the final cut. Last but not least, a caching factory is there to avoid recomputing the same intersections and unions of specs when we have already done the job. This is efficient if the underlying (delegate) specs are easily compared, which is the case thanks to the interning factory. All in all, the delegation chain allows us to make the algorithm fast and hopefully reliable, while making it easier to debug.


… 75 more files in
changeset.
Rework exclude rule merging As a followup to #9197, this commit properly fixes the exclude rule merging algorithm, by completely rewriting it. The new merging algorithm works by implementing the minimal set of algebra operations that make sense to minimize computation durations. In order to do this, this commit introduces a number of exclude specs (found in their own package) and factories to create actual implementation of those specs. Specs represent the different kind of excludes we can find:  excluding a group  excluding a module (no group defined)  excluding a group+module  excluding an artifact of a group+module  patternmatching excludes  unions of excludes  intersections of excludes With all those minimal bricks, factories are responsible of generating consistent specs. The dumbest factory will just generate new instances for everything. This is the default factory. Minimally, this factory has to be backed by an optimizing factory, which will take care of handling special cases:  union or intersection of a single spec  union or intersection of 2 specs  when one of them is null  when both are equal Then we have a factory which performs the minimal algebra to minimize specs:  unions of unions  intersections of intersections  union of a union and individual specs  insection of an intersection and individual spec  ... This factory can be as smart as it can, but one must be careful that it's worth it: some previously implemented optimizations (like (A+B).A = A turned out to be costly to detect, and didn't make it the final cut. Yet another factory is there to reduce the memory footprint and, as a side effect, make things faster by interning the specs: equivalent specs are interned and indexed, which allows us to optimize unions and intersections of specs. Last but not least, a caching factory is there to avoid recomputing the same intersections and unions of specs when we have already done the job. This is efficient if the underlying (delegate) specs are easily compared, which is the case thanks to the interning factory. All in all, the delegation chain allows us to make the algorithm fast and hopefully reliable, while making it easier to debug.


… 91 more files in
changeset.
Rework exclude rule merging As a followup to #9197, this commit properly fixes the exclude rule merging algorithm, by completely rewriting it. The new merging algorithm works by implementing the minimal set of algebra operations that make sense to minimize computation durations. In order to do this, this commit introduces a number of exclude specs (found in their own package) and factories to create actual implementation of those specs. Specs represent the different kind of excludes we can find:  excluding a group  excluding a module (no group defined)  excluding a group+module  excluding an artifact of a group+module  patternmatching excludes  unions of excludes  intersections of excludes With all those minimal bricks, factories are responsible of generating consistent specs. The dumbest factory will just generate new instances for everything. This is the default factory. Minimally, this factory has to be backed by an optimizing factory, which will take care of handling special cases:  union or intersection of a single spec  union or intersection of 2 specs  when one of them is null  when both are equal Then we have a factory which performs the minimal algebra to minimize specs:  unions of unions  intersections of intersections  union of a union and individual specs  insection of an intersection and individual spec  ... This factory can be as smart as it can, but one must be careful that it's worth it: some previously implemented optimizations (like (A+B).A = A turned out to be costly to detect, and didn't make it the final cut. Yet another factory is there to reduce the memory footprint and, as a side effect, make things faster by interning the specs: equivalent specs are interned and indexed, which allows us to optimize unions and intersections of specs. Last but not least, a caching factory is there to avoid recomputing the same intersections and unions of specs when we have already done the job. This is efficient if the underlying (delegate) specs are easily compared, which is the case thanks to the interning factory. All in all, the delegation chain allows us to make the algorithm fast and hopefully reliable, while making it easier to debug.


… 90 more files in
changeset.
Rework exclude rule merging As a followup to #9197, this commit properly fixes the exclude rule merging algorithm, by completely rewriting it. The new merging algorithm works by implementing the minimal set of algebra operations that make sense to minimize computation durations. In order to do this, this commit introduces a number of exclude specs (found in their own package) and factories to create actual implementation of those specs. Specs represent the different kind of excludes we can find:  excluding a group  excluding a module (no group defined)  excluding a group+module  excluding an artifact of a group+module  patternmatching excludes  unions of excludes  intersections of excludes With all those minimal bricks, factories are responsible of generating consistent specs. The dumbest factory will just generate new instances for everything. This is the default factory. Minimally, this factory has to be backed by an optimizing factory, which will take care of handling special cases:  union or intersection of a single spec  union or intersection of 2 specs  when one of them is null  when both are equal Then we have a factory which performs the minimal algebra to minimize specs:  unions of unions  intersections of intersections  union of a union and individual specs  insection of an intersection and individual spec  ... This factory can be as smart as it can, but one must be careful that it's worth it: some previously implemented optimizations (like (A+B).A = A turned out to be costly to detect, and didn't make it the final cut. Last but not least, a caching factory is there to avoid recomputing the same intersections and unions of specs when we have already done the job. This is efficient if the underlying (delegate) specs are easily compared, which is the case thanks to the interning factory. All in all, the delegation chain allows us to make the algorithm fast and hopefully reliable, while making it easier to debug.


… 75 more files in
changeset.
Rework exclude rule merging As a followup to #9197, this commit properly fixes the exclude rule merging algorithm, by completely rewriting it. The new merging algorithm works by implementing the minimal set of algebra operations that make sense to minimize computation durations. In order to do this, this commit introduces a number of exclude specs (found in their own package) and factories to create actual implementation of those specs. Specs represent the different kind of excludes we can find:  excluding a group  excluding a module (no group defined)  excluding a group+module  excluding an artifact of a group+module  patternmatching excludes  unions of excludes  intersections of excludes With all those minimal bricks, factories are responsible of generating consistent specs. The dumbest factory will just generate new instances for everything. This is the default factory. Minimally, this factory has to be backed by an optimizing factory, which will take care of handling special cases:  union or intersection of a single spec  union or intersection of 2 specs  when one of them is null  when both are equal Then we have a factory which performs the minimal algebra to minimize specs:  unions of unions  intersections of intersections  union of a union and individual specs  insection of an intersection and individual spec  ... This factory can be as smart as it can, but one must be careful that it's worth it: some previously implemented optimizations (like (A+B).A = A turned out to be costly to detect, and didn't make it the final cut. Last but not least, a caching factory is there to avoid recomputing the same intersections and unions of specs when we have already done the job. This is efficient if the underlying (delegate) specs are easily compared, which is the case thanks to the interning factory. All in all, the delegation chain allows us to make the algorithm fast and hopefully reliable, while making it easier to debug.


… 75 more files in
changeset.
Rework exclude rule merging As a followup to #9197, this commit properly fixes the exclude rule merging algorithm, by completely rewriting it. The new merging algorithm works by implementing the minimal set of algebra operations that make sense to minimize computation durations. In order to do this, this commit introduces a number of exclude specs (found in their own package) and factories to create actual implementation of those specs. Specs represent the different kind of excludes we can find:  excluding a group  excluding a module (no group defined)  excluding a group+module  excluding an artifact of a group+module  patternmatching excludes  unions of excludes  intersections of excludes With all those minimal bricks, factories are responsible of generating consistent specs. The dumbest factory will just generate new instances for everything. This is the default factory. Minimally, this factory has to be backed by an optimizing factory, which will take care of handling special cases:  union or intersection of a single spec  union or intersection of 2 specs  when one of them is null  when both are equal Then we have a factory which performs the minimal algebra to minimize specs:  unions of unions  intersections of intersections  union of a union and individual specs  insection of an intersection and individual spec  ... This factory can be as smart as it can, but one must be careful that it's worth it: some previously implemented optimizations (like (A+B).A = A turned out to be costly to detect, and didn't make it the final cut. Yet another factory is there to reduce the memory footprint and, as a side effect, make things faster by interning the specs: equivalent specs are interned and indexed, which allows us to optimize unions and intersections of specs. Last but not least, a caching factory is there to avoid recomputing the same intersections and unions of specs when we have already done the job. This is efficient if the underlying (delegate) specs are easily compared, which is the case thanks to the interning factory. All in all, the delegation chain allows us to make the algorithm fast and hopefully reliable, while making it easier to debug.


… 90 more files in
changeset.
Rework exclude rule merging As a followup to #9197, this commit properly fixes the exclude rule merging algorithm, by completely rewriting it. The new merging algorithm works by implementing the minimal set of algebra operations that make sense to minimize computation durations. In order to do this, this commit introduces a number of exclude specs (found in their own package) and factories to create actual implementation of those specs. Specs represent the different kind of excludes we can find:  excluding a group  excluding a module (no group defined)  excluding a group+module  excluding an artifact of a group+module  patternmatching excludes  unions of excludes  intersections of excludes With all those minimal bricks, factories are responsible of generating consistent specs. The dumbest factory will just generate new instances for everything. This is the default factory. Minimally, this factory has to be backed by an optimizing factory, which will take care of handling special cases:  union or intersection of a single spec  union or intersection of 2 specs  when one of them is null  when both are equal Then we have a factory which performs the minimal algebra to minimize specs:  unions of unions  intersections of intersections  union of a union and individual specs  insection of an intersection and individual spec  ... This factory can be as smart as it can, but one must be careful that it's worth it: some previously implemented optimizations (like (A+B).A = A turned out to be costly to detect, and didn't make it the final cut. Yet another factory is there to reduce the memory footprint and, as a side effect, make things faster by interning the specs: equivalent specs are interned and indexed, which allows us to optimize unions and intersections of specs. Last but not least, a caching factory is there to avoid recomputing the same intersections and unions of specs when we have already done the job. This is efficient if the underlying (delegate) specs are easily compared, which is the case thanks to the interning factory. All in all, the delegation chain allows us to make the algorithm fast and hopefully reliable, while making it easier to debug.


… 90 more files in
changeset.
Rework exclude rule merging As a followup to #9197, this commit properly fixes the exclude rule merging algorithm, by completely rewriting it. The new merging algorithm works by implementing the minimal set of algebra operations that make sense to minimize computation durations. In order to do this, this commit introduces a number of exclude specs (found in their own package) and factories to create actual implementation of those specs. Specs represent the different kind of excludes we can find:  excluding a group  excluding a module (no group defined)  excluding a group+module  excluding an artifact of a group+module  patternmatching excludes  unions of excludes  intersections of excludes With all those minimal bricks, factories are responsible of generating consistent specs. The dumbest factory will just generate new instances for everything. This is the default factory. Minimally, this factory has to be backed by an optimizing factory, which will take care of handling special cases:  union or intersection of a single spec  union or intersection of 2 specs  when one of them is null  when both are equal Then we have a factory which performs the minimal algebra to minimize specs:  unions of unions  intersections of intersections  union of a union and individual specs  insection of an intersection and individual spec  ... This factory can be as smart as it can, but one must be careful that it's worth it: some previously implemented optimizations (like (A+B).A = A turned out to be costly to detect, and didn't make it the final cut. Yet another factory is there to reduce the memory footprint and, as a side effect, make things faster by interning the specs: equivalent specs are interned and indexed, which allows us to optimize unions and intersections of specs. Last but not least, a caching factory is there to avoid recomputing the same intersections and unions of specs when we have already done the job. This is efficient if the underlying (delegate) specs are easily compared, which is the case thanks to the interning factory. All in all, the delegation chain allows us to make the algorithm fast and hopefully reliable, while making it easier to debug.


… 90 more files in
changeset.
Rework exclude rule merging As a followup to #9197, this commit properly fixes the exclude rule merging algorithm, by completely rewriting it. The new merging algorithm works by implementing the minimal set of algebra operations that make sense to minimize computation durations. In order to do this, this commit introduces a number of exclude specs (found in their own package) and factories to create actual implementation of those specs. Specs represent the different kind of excludes we can find:  excluding a group  excluding a module (no group defined)  excluding a group+module  excluding an artifact of a group+module  patternmatching excludes  unions of excludes  intersections of excludes With all those minimal bricks, factories are responsible of generating consistent specs. The dumbest factory will just generate new instances for everything. This is the default factory. Minimally, this factory has to be backed by an optimizing factory, which will take care of handling special cases:  union or intersection of a single spec  union or intersection of 2 specs  when one of them is null  when both are equal Then we have a factory which performs the minimal algebra to minimize specs:  unions of unions  intersections of intersections  union of a union and individual specs  insection of an intersection and individual spec  ... This factory can be as smart as it can, but one must be careful that it's worth it: some previously implemented optimizations (like (A+B).A = A turned out to be costly to detect, and didn't make it the final cut. Yet another factory is there to reduce the memory footprint and, as a side effect, make things faster by interning the specs: equivalent specs are interned and indexed, which allows us to optimize unions and intersections of specs. Last but not least, a caching factory is there to avoid recomputing the same intersections and unions of specs when we have already done the job. This is efficient if the underlying (delegate) specs are easily compared, which is the case thanks to the interning factory. All in all, the delegation chain allows us to make the algorithm fast and hopefully reliable, while making it easier to debug.


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Thursday 25 Apr
Make `JvmPackageName` stateless, since it was only used for validation


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Make `JvmPackageName` stateless, since it was only used for validation


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Move all infrastructure to the new exclude merging package The old package is still here and will be removed in a subsequent commit.


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Saturday 20 Apr
Extend `JvmPackageNameTest` with package names that include `$` and `_`
Monday 11 Mar
Clean up some test constraints


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Clean up some test constraints


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Friday 08 Mar
Fix some more Java6 target compatibility instances
Fix some more Java6 target compatibility instances
Tuesday 29 Jan
Rename several classes to fix spelling Signedoffby: Bo Zhang <bo@gradle.com>







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Wednesday 02 Jan
spelling: resolver Signedoffby: Josh Soref <jsoref@users.noreply.github.com>
spelling: parameterized Signedoffby: Josh Soref <jsoref@users.noreply.github.com>





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spelling: nonexistent Signedoffby: Josh Soref <jsoref@users.noreply.github.com>


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