src/main/java/com/google/devtools/build/lib/packages/BuiltinsInternalModule.java - bazel - Git at Google

 // Copyright 2020 The Bazel Authors. All rights reserved.
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //    http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 package com.google.devtools.build.lib.packages;

 import com.google.devtools.build.docgen.annot.DocCategory;
 import net.starlark.java.annot.Param;
 import net.starlark.java.annot.StarlarkBuiltin;
 import net.starlark.java.annot.StarlarkMethod;
 import net.starlark.java.eval.Printer;
 import net.starlark.java.eval.Starlark;
 import net.starlark.java.eval.StarlarkThread;
 import net.starlark.java.eval.StarlarkValue;

 // TODO(#11437): Note that if Stardoc's current design were to be long-lived, we'd want to factor
 // out an API into starlarkbuildapi. As it is that almost certainly won't be necessary.
 /**
  * The {@code _builtins} Starlark object, visible only to {@code @_builtins} .bzl files, supporting
  * access to internal APIs.
  */
 @StarlarkBuiltin(
     name = "_builtins",
     category = DocCategory.BUILTIN,
     documented = false,
     doc =
         "A module accessible only to @_builtins .bzls, that permits access to the original "
             + "(uninjected) native builtins, as well as internal-only symbols not accessible to "
             + "users.")
 public class BuiltinsInternalModule implements StarlarkValue {

   // _builtins.native
   private final Object uninjectedNativeObject;
   // _builtins.toplevel
   private final Object uninjectedToplevelObject;
   // _builtins.internal
   private final Object internalObject;

   public BuiltinsInternalModule(
       Object uninjectedNativeObject, Object uninjectedToplevelObject, Object internalObject) {
     this.uninjectedNativeObject = uninjectedNativeObject;
     this.uninjectedToplevelObject = uninjectedToplevelObject;
     this.internalObject = internalObject;
   }

   @Override
   public void repr(Printer printer) {
     printer.append("<_builtins module>");
   }

   @Override
   public boolean isImmutable() {
     return true;
   }

   @StarlarkMethod(
       name = "native",
       doc =
           "A view of the <code>native</code> object as it would exist if builtins injection were"
               + " disabled. For example, if builtins injection provides a Starlark definition for"
               + " <code>cc_library</code> in <code>exported_rules</code>, then"
               + " <code>native.cc_library</code> in a user .bzl file would refer to that"
               + " definition, but <code>_builtins.native.cc_library</code> in a"
               + " <code>@_builtins</code> .bzl file would still be the one defined in Java code."
               + " (Note that for clarity and to avoid a conceptual cycle, the regular top-level"
               + " <code>native</code> object is not defined for <code>@_builtins</code> .bzl"
               + " files.)",
       documented = false,
       structField = true)
   public Object getUninjectedNativeObject() {
     return uninjectedNativeObject;
   }

   @StarlarkMethod(
       name = "toplevel",
       doc =
           "A view of the top-level .bzl symbols that would exist if builtins injection were"
               + " disabled; analogous to <code>_builtins.native</code>. For example, if builtins"
               + " injection provides a Starlark definition for <code>CcInfo</code> in"
               + " <code>exported_toplevels</code>, then <code>_builtins.toplevel.CcInfo</code>"
               + " refers to the original Java definition, not the Starlark one. (Just as for"
               + " <code>_builtins.native</code>, the top-level <code>CcInfo</code> symbol is not"
               + " available to <code>@_builtins</code> .bzl files.)",
       documented = false,
       structField = true)
   public Object getUninjectedToplevelObject() {
     return uninjectedToplevelObject;
   }

   @StarlarkMethod(
       name = "internal",
       doc =
           "A view of symbols that were registered (via the Java method"
               + "<code>ConfiguredRuleClassProvider#addStarlarkBuiltinsInternal</code>) to be made"
               + " available to <code>@_builtins</code> code but not necessarily user code.",
       documented = false,
       structField = true)
   public Object getInternalObject() {
     return internalObject;
   }

   @StarlarkMethod(
       name = "get_flag",
       doc =
           "Returns the value of a <code>StarlarkSemantics</code> flag, or a default value if it"
               + " could not be retrieved (either because the flag does not exist or because it was"
               + " not assigned an explicit value). Fails if the flag value exists but is not a"
               + " Starlark value.",
       documented = false,
       parameters = {
         @Param(name = "name", doc = "Name of the flag, without the leading dashes"),
         /*
          * Because of the way flag values are stored in StarlarkSemantics, we cannot retrieve a flag
          * whose value was not explicitly set, nor can we programmatically determine its default
          * value. This parameter is essentially a hack to avoid a slightly costlier refactoring of
          * StarlarkSemantics and BuildLanguageOptions. If the value passed in here by the caller
          * differs from the true default value of the flag, you could end up in a situation where
          * the semantics of some @_builtins code varies depending on whether a flag was set to its
          * default value implicitly or explicitly.
          */
         @Param(
             name = "default",
             doc =
                 "Value to return if flag was not set or does not exist. This should always be set"
                     + " to the same value as the flag's default value.")
       },
       useStarlarkThread = true)
   public Object getFlag(String name, Object defaultValue, StarlarkThread thread) {
     Object value = thread.getSemantics().getGeneric(name, defaultValue);
     return Starlark.fromJava(value, thread.mutability());
   }
 }
	// Copyright 2020 The Bazel Authors. All rights reserved.
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	package com.google.devtools.build.lib.packages;

	import com.google.devtools.build.docgen.annot.DocCategory;
	import net.starlark.java.annot.Param;
	import net.starlark.java.annot.StarlarkBuiltin;
	import net.starlark.java.annot.StarlarkMethod;
	import net.starlark.java.eval.Printer;
	import net.starlark.java.eval.Starlark;
	import net.starlark.java.eval.StarlarkThread;
	import net.starlark.java.eval.StarlarkValue;

	// TODO(#11437): Note that if Stardoc's current design were to be long-lived, we'd want to factor
	// out an API into starlarkbuildapi. As it is that almost certainly won't be necessary.
	/**
	* The {@code _builtins} Starlark object, visible only to {@code @_builtins} .bzl files, supporting
	* access to internal APIs.
	*/
	@StarlarkBuiltin(
	name = "_builtins",
	category = DocCategory.BUILTIN,
	documented = false,
	doc =
	"A module accessible only to @_builtins .bzls, that permits access to the original "
	+ "(uninjected) native builtins, as well as internal-only symbols not accessible to "
	+ "users.")
	public class BuiltinsInternalModule implements StarlarkValue {

	// _builtins.native
	private final Object uninjectedNativeObject;
	// _builtins.toplevel
	private final Object uninjectedToplevelObject;
	// _builtins.internal
	private final Object internalObject;

	public BuiltinsInternalModule(
	Object uninjectedNativeObject, Object uninjectedToplevelObject, Object internalObject) {
	this.uninjectedNativeObject = uninjectedNativeObject;
	this.uninjectedToplevelObject = uninjectedToplevelObject;
	this.internalObject = internalObject;
	}

	@Override
	public void repr(Printer printer) {
	printer.append("<_builtins module>");
	}

	@Override
	public boolean isImmutable() {
	return true;
	}

	@StarlarkMethod(
	name = "native",
	doc =
	"A view of the <code>native</code> object as it would exist if builtins injection were"
	+ " disabled. For example, if builtins injection provides a Starlark definition for"
	+ " <code>cc_library</code> in <code>exported_rules</code>, then"
	+ " <code>native.cc_library</code> in a user .bzl file would refer to that"
	+ " definition, but <code>_builtins.native.cc_library</code> in a"
	+ " <code>@_builtins</code> .bzl file would still be the one defined in Java code."
	+ " (Note that for clarity and to avoid a conceptual cycle, the regular top-level"
	+ " <code>native</code> object is not defined for <code>@_builtins</code> .bzl"
	+ " files.)",
	documented = false,
	structField = true)
	public Object getUninjectedNativeObject() {
	return uninjectedNativeObject;
	}

	@StarlarkMethod(
	name = "toplevel",
	doc =
	"A view of the top-level .bzl symbols that would exist if builtins injection were"
	+ " disabled; analogous to <code>_builtins.native</code>. For example, if builtins"
	+ " injection provides a Starlark definition for <code>CcInfo</code> in"
	+ " <code>exported_toplevels</code>, then <code>_builtins.toplevel.CcInfo</code>"
	+ " refers to the original Java definition, not the Starlark one. (Just as for"
	+ " <code>_builtins.native</code>, the top-level <code>CcInfo</code> symbol is not"
	+ " available to <code>@_builtins</code> .bzl files.)",
	documented = false,
	structField = true)
	public Object getUninjectedToplevelObject() {
	return uninjectedToplevelObject;
	}

	@StarlarkMethod(
	name = "internal",
	doc =
	"A view of symbols that were registered (via the Java method"
	+ "<code>ConfiguredRuleClassProvider#addStarlarkBuiltinsInternal</code>) to be made"
	+ " available to <code>@_builtins</code> code but not necessarily user code.",
	documented = false,
	structField = true)
	public Object getInternalObject() {
	return internalObject;
	}

	@StarlarkMethod(
	name = "get_flag",
	doc =
	"Returns the value of a <code>StarlarkSemantics</code> flag, or a default value if it"
	+ " could not be retrieved (either because the flag does not exist or because it was"
	+ " not assigned an explicit value). Fails if the flag value exists but is not a"
	+ " Starlark value.",
	documented = false,
	parameters = {
	@Param(name = "name", doc = "Name of the flag, without the leading dashes"),
	/*
	* Because of the way flag values are stored in StarlarkSemantics, we cannot retrieve a flag
	* whose value was not explicitly set, nor can we programmatically determine its default
	* value. This parameter is essentially a hack to avoid a slightly costlier refactoring of
	* StarlarkSemantics and BuildLanguageOptions. If the value passed in here by the caller
	* differs from the true default value of the flag, you could end up in a situation where
	* the semantics of some @_builtins code varies depending on whether a flag was set to its
	* default value implicitly or explicitly.
	*/
	@Param(
	name = "default",
	doc =
	"Value to return if flag was not set or does not exist. This should always be set"
	+ " to the same value as the flag's default value.")
	},
	useStarlarkThread = true)
	public Object getFlag(String name, Object defaultValue, StarlarkThread thread) {
	Object value = thread.getSemantics().getGeneric(name, defaultValue);
	return Starlark.fromJava(value, thread.mutability());
	}
	}