2017-12-06 09:56:49 -05:00
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package(default_visibility = ["//visibility:public"])
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2018-10-04 16:14:14 -04:00
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load("//tools:defaults.bzl", "npm_package", "ts_library")
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load("@build_bazel_rules_typescript//:defs.bzl", "ts_config")
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2017-09-25 15:40:22 -04:00
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ts_config(
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name = "tsconfig",
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src = "tsconfig-build.json",
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2017-12-06 09:56:49 -05:00
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deps = ["//packages:tsconfig-build.json"],
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2017-09-25 15:40:22 -04:00
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)
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2017-07-21 17:20:34 -04:00
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ts_library(
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name = "compiler-cli",
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2017-12-06 09:56:49 -05:00
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srcs = glob(
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[
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"*.ts",
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"src/**/*.ts",
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],
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2017-12-18 00:36:21 -05:00
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exclude = [
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"src/integrationtest/**/*.ts",
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],
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2017-12-06 09:56:49 -05:00
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),
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tsconfig = ":tsconfig",
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2017-07-21 17:20:34 -04:00
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deps = [
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2017-12-06 09:56:49 -05:00
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"//packages/compiler",
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2018-05-31 18:50:02 -04:00
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"//packages/compiler-cli/src/ngtsc/annotations",
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feat(ivy): detect cycles and use remote scoping of components if needed (#28169)
By its nature, Ivy alters the import graph of a TS program, adding imports
where template dependencies exist. For example, if ComponentA uses PipeB
in its template, Ivy will insert an import of PipeB into the file in which
ComponentA is declared.
Any insertion of an import into a program has the potential to introduce a
cycle into the import graph. If for some reason the file in which PipeB is
declared imports the file in which ComponentA is declared (maybe it makes
use of a service or utility function that happens to be in the same file as
ComponentA) then this could create an import cycle. This turns out to
happen quite regularly in larger Angular codebases.
TypeScript and the Ivy runtime have no issues with such cycles. However,
other tools are not so accepting. In particular the Closure Compiler is
very anti-cycle.
To mitigate this problem, it's necessary to detect when the insertion of
an import would create a cycle. ngtsc can then use a different strategy,
known as "remote scoping", instead of directly writing a reference from
one component to another. Under remote scoping, a function
'setComponentScope' is called after the declaration of the component's
module, which does not require the addition of new imports.
FW-647 #resolve
PR Close #28169
2019-01-15 15:32:10 -05:00
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"//packages/compiler-cli/src/ngtsc/cycles",
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2018-08-23 17:33:38 -04:00
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"//packages/compiler-cli/src/ngtsc/diagnostics",
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2018-12-07 17:37:32 -05:00
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"//packages/compiler-cli/src/ngtsc/entry_point",
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2018-12-13 14:52:20 -05:00
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"//packages/compiler-cli/src/ngtsc/imports",
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2018-12-18 12:48:15 -05:00
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"//packages/compiler-cli/src/ngtsc/partial_evaluator",
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feat(ivy): use fileNameToModuleName to emit imports when it's available (#28523)
The ultimate goal of this commit is to make use of fileNameToModuleName to
get the module specifier to use when generating an import, when that API is
available in the CompilerHost that ngtsc is created with.
As part of getting there, the way in which ngtsc tracks references and
generates import module specifiers is refactored considerably. References
are tracked with the Reference class, and previously ngtsc had several
different kinds of Reference. An AbsoluteReference represented a declaration
which needed to be imported via an absolute module specifier tracked in the
AbsoluteReference, and a RelativeReference represented a declaration from
the local program, imported via relative path or referred to directly by
identifier if possible. Thus, how to refer to a particular declaration was
encoded into the Reference type _at the time of creation of the Reference_.
This commit refactors that logic and reduces Reference to a single class
with no subclasses. A Reference represents a node being referenced, plus
context about how the node was located. This context includes a
"bestGuessOwningModule", the compiler's best guess at which absolute
module specifier has defined this reference. For example, if the compiler
arrives at the declaration of CommonModule via an import to @angular/common,
then any references obtained from CommonModule (e.g. NgIf) will also be
considered to be owned by @angular/common.
A ReferenceEmitter class and accompanying ReferenceEmitStrategy interface
are introduced. To produce an Expression referring to a given Reference'd
node, the ReferenceEmitter consults a sequence of ReferenceEmitStrategy
implementations.
Several different strategies are defined:
- LocalIdentifierStrategy: use local ts.Identifiers if available.
- AbsoluteModuleStrategy: if the Reference has a bestGuessOwningModule,
import the node via an absolute import from that module specifier.
- LogicalProjectStrategy: if the Reference is in the logical project
(is under the project rootDirs), import the node via a relative import.
- FileToModuleStrategy: use a FileToModuleHost to generate the module
specifier by which to import the node.
Depending on the availability of fileNameToModuleName in the CompilerHost,
then, a different collection of these strategies is used for compilation.
PR Close #28523
2019-02-01 20:24:21 -05:00
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"//packages/compiler-cli/src/ngtsc/path",
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2018-12-18 12:48:15 -05:00
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"//packages/compiler-cli/src/ngtsc/reflection",
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2018-11-16 11:56:18 -05:00
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"//packages/compiler-cli/src/ngtsc/routing",
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2018-10-16 14:33:47 -04:00
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"//packages/compiler-cli/src/ngtsc/shims",
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refactor(ivy): obviate the Bazel component of the ivy_switch (#26550)
Originally, the ivy_switch mechanism used Bazel genrules to conditionally
compile one TS file or another depending on whether ngc or ngtsc was the
selected compiler. This was done because we wanted to avoid importing
certain modules (and thus pulling them into the build) if Ivy was on or
off. This mechanism had a major drawback: ivy_switch became a bottleneck
in the import graph, as it both imports from many places in the codebase
and is imported by many modules in the codebase. This frequently resulted
in cyclic imports which caused issues both with TS and Closure compilation.
It turns out ngcc needs both code paths in the bundle to perform the switch
during its operation anyway, so import switching was later abandoned. This
means that there's no real reason why the ivy_switch mechanism needed to
operate at the Bazel level, and for the ivy_switch file to be a bottleneck.
This commit removes the Bazel-level ivy_switch mechanism, and introduces
an additional TypeScript transform in ngtsc (and the pass-through tsc
compiler used for testing JIT) to perform the same operation that ngcc
does, and flip the switch during ngtsc compilation. This allows the
ivy_switch file to be removed, and the individual switches to be located
directly next to their consumers in the codebase, greatly mitigating the
circular import issues and making the mechanism much easier to use.
As part of this commit, the tag for marking switched variables was changed
from __PRE_NGCC__ to __PRE_R3__, since it's no longer just ngcc which
flips these tags. Most variables were renamed from R3_* to SWITCH_* as well,
since they're referenced mostly in render2 code.
Test strategy: existing test coverage is more than sufficient - if this
didn't work correctly it would break the hello world and todo apps.
PR Close #26550
2018-10-17 18:44:44 -04:00
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"//packages/compiler-cli/src/ngtsc/switch",
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2018-04-06 12:53:10 -04:00
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"//packages/compiler-cli/src/ngtsc/transform",
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2018-09-21 17:03:55 -04:00
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"//packages/compiler-cli/src/ngtsc/typecheck",
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2018-12-13 14:52:20 -05:00
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"//packages/compiler-cli/src/ngtsc/util",
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2018-10-04 16:14:14 -04:00
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"@ngdeps//@bazel/typescript",
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"@ngdeps//@types",
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"@ngdeps//tsickle",
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"@ngdeps//typescript",
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2017-07-21 17:20:34 -04:00
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],
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)
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2018-03-13 14:00:53 -04:00
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npm_package(
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name = "npm_package",
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srcs = [
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"package.json",
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],
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2018-06-05 14:38:46 -04:00
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tags = [
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"release-with-framework",
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],
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2018-12-11 19:53:42 -05:00
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# Do not add more to this list.
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# Dependencies on the full npm_package cause long re-builds.
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2019-01-22 12:46:51 -05:00
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visibility = [
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"//packages/compiler-cli/integrationtest:__pkg__",
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],
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2018-07-16 03:49:56 -04:00
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deps = [
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":compiler-cli",
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"//packages/compiler-cli/src/ngcc",
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],
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2018-03-13 14:00:53 -04:00
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)
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