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path: root/libbuild2/operation.hxx
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2024-10-08Add context-wide pre/post operation callbacksBoris Kolpackov1-1/+11
2023-03-01Add support for installation manifestBoris Kolpackov1-6/+26
2022-12-13Fix linking failure on WindowsKaren Arutyunov1-1/+1
2022-12-12Add no_subprojects parameter to info meta-operationBoris Kolpackov1-0/+5
2022-10-19Add support for post hoc prerequisitesBoris Kolpackov1-17/+17
Unlike normal and ad hoc prerequisites, a post hoc prerequisite is built after the target, not before. It may also form a dependency cycle together with normal/ad hoc prerequisites. In other words, all this form of dependency guarantees is that a post hoc prerequisite will be built if its dependent target is built. See the NEWS file for details and an example.
2022-10-13Switch to public/private variables modelBoris Kolpackov1-13/+33
Now unqualified variables are project-private and can be typified.
2022-03-02Add update operation-specific variable with unmatch|match additional valuesBoris Kolpackov1-6/+9
Note that the unmatch (match but do not update) and match (update during match) values are only supported by certain rules (and potentially only for certain prerequisite types). Additionally: - All operation-specific variables are now checked for false as an override for the prerequisite-specific include value. In particular, this can now be used to disable a prerequisite for update, for example: ./: exe{test}: update = false - The cc::link_rule now supports the update=match value for headers and ad hoc prerequisites. In particular, this can be used to make sure all the library headers are updated before matching any of its (or dependent's) object files.
2021-12-16Pass context to (meta-)operation hooksBoris Kolpackov1-6/+9
2021-09-28Adapt to libbutl headers extension change from .mxx to .hxxKaren Arutyunov1-1/+1
2021-09-20Add support for disabling clean through target-prerequisite relationshipBoris Kolpackov1-2/+2
Our current semantics is to clean any prerequisites that are in the same project (root scope) as the target and it may seem more natural to rather only clean prerequisites that are in the same base scope. While it's often true for simple projects, in more complex cases it's not unusual to have common intermediate build results (object files, utility libraries, etc) reside in the parent and/or sibling directories. With such arrangements, cleaning only in base (even from the project root) may leave such intermediate build results laying around (since there is no reason to list them as prerequisites of any directory aliases). So we clean in the root scope by default but now any target-prerequisite relationship can be marked not to trigger a clean with the clean=false prerequisite-specific value.
2021-06-08Redo fallback reverse operation machinery in ad hoc recipesBoris Kolpackov1-2/+1
2020-10-20Add operation callback for adhoc rule match and applyBoris Kolpackov1-2/+13
2020-02-07Drop copyright notice from source codeKaren Arutyunov1-1/+0
2019-11-04Add support for configuration exporting and importingBoris Kolpackov1-4/+3
The new config.export variable specifies the alternative file to write the configuration to as part of the configure meta-operation. For example: $ b configure: proj/ config.export=proj-config.build The config.export value "applies" only to the projects on whose root scope it is specified or if it is a global override (the latter is a bit iffy but we allow it, for example, to dump everything to stdout). This means that in order to save a subproject's configuration we will have to use a scope-specific override (since the default will apply to the outermost amalgamation). For example: $ b configure: subproj/ subproj/config.export=.../subproj-config.build This could be somewhat unnatural but then it will be the amalgamation whose configuration we normally want to export. The new config.import variable specifies additional configuration files to be loaded after the project's default config.build, if any. For example: $ b create: cfg/,cc config.import=my-config.build Similar to config.export, the config.import value "applies" only to the project on whose root scope it is specified or if it is a global override. This allows the use of the standard override "positioning" machinery (i.e., where the override applies) to decide where the extra configuration files are loaded. The resulting semantics is quite natural and consistent with command line variable overrides, for example: $ b config.import=.../config.build # outermost amalgamation $ b ./config.import=.../config.build # this project $ b !config.import=.../config.build # every project Both config.export and config.import recognize the special `-` file name as an instruction to write/read to/from stdout/stdin, respectively. For example: $ b configure: src-prj/ config.export=- | b configure: dst-prj/ config.import=-
2019-10-29Add forward declaration header for build state typesBoris Kolpackov1-13/+1
2019-10-23Un-tune scheduler when building build system modulesBoris Kolpackov1-2/+5
2019-08-23Introduce notion of build contextBoris Kolpackov1-8/+10
All non-const global state is now in class context and we can now have multiple independent builds going on at the same time.
2019-07-01Split build system into library and driverBoris Kolpackov1-0/+361