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onChanged();
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/**
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com.google.protobuf.DescriptorProtos.FieldDescriptorProtoOrBuilder getFieldOrBuilder(
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/**
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/**
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/**
* <code>optional string java_package = 1;</code>
*
* <pre>
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* <pre>
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/**
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*
* <pre>
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if (bs.isValidUtf8()) {
javaOuterClassname_ = s;
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return s;
}
}
/**
* <code>optional string java_outer_classname = 8;</code>
*
* <pre>
* If set, all the classes from the .proto file are wrapped in a single
* outer class with the given name. This applies to both Proto1
* (equivalent to the old "--one_java_file" option) and Proto2 (where
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com.google.protobuf.ByteString b =
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public static final int JAVA_MULTIPLE_FILES_FIELD_NUMBER = 10;
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/**
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* <pre>
* If set true, then the Java code generator will generate a separate .java
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* file. Thus, these types will *not* be nested inside the outer class
* named by java_outer_classname. However, the outer class will still be
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*/
public boolean hasJavaMultipleFiles() {
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}
/**
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*
* <pre>
* If set true, then the Java code generator will generate a separate .java
* file for each top-level message, enum, and service defined in the .proto
* file. Thus, these types will *not* be nested inside the outer class
* named by java_outer_classname. However, the outer class will still be
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public boolean getJavaMultipleFiles() {
return javaMultipleFiles_;
}
public static final int JAVA_GENERATE_EQUALS_AND_HASH_FIELD_NUMBER = 20;
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/**
* <code>optional bool java_generate_equals_and_hash = 20 [default = false];</code>
*
* <pre>
* If set true, then the Java code generator will generate equals() and
* hashCode() methods for all messages defined in the .proto file.
* - In the full runtime, this is purely a speed optimization, as the
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*- In the lite runtime, setting this option changes the semantics of
* equals() and hashCode() to more closely match those of the full runtime;
* the generated methods compute their results based on field values rather
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* </pre>
*/
public boolean hasJavaGenerateEqualsAndHash() {
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}
/**
* <code>optional bool java_generate_equals_and_hash = 20 [default = false];</code>
*
* <pre>
* If set true, then the Java code generator will generate equals() and
* hashCode() methods for all messages defined in the .proto file.
* - In the full runtime, this is purely a speed optimization, as the
* AbstractMessage base class includes reflection-based implementations of
* these methods.
*- In the lite runtime, setting this option changes the semantics of
* equals() and hashCode() to more closely match those of the full runtime;
* the generated methods compute their results based on field values rather
* than object identity. (Implementations should not assume that hashcodes
* will be consistent across runtimes or versions of the protocol compiler.)
* </pre>
*/
public boolean getJavaGenerateEqualsAndHash() {
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}
public static final int JAVA_STRING_CHECK_UTF8_FIELD_NUMBER = 27;
private boolean javaStringCheckUtf8_;
/**
* <code>optional bool java_string_check_utf8 = 27 [default = false];</code>
*
* <pre>
* If set true, then the Java2 code generator will generate code that
* throws an exception whenever an attempt is made to assign a non-UTF-8
* byte sequence to a string field.
* Message reflection will do the same.
* However, an extension field still accepts non-UTF-8 byte sequences.
* This option has no effect on when used with the lite runtime.
* </pre>
*/
public boolean hasJavaStringCheckUtf8() {
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/**
* <code>optional bool java_string_check_utf8 = 27 [default = false];</code>
*
* <pre>
* If set true, then the Java2 code generator will generate code that
* throws an exception whenever an attempt is made to assign a non-UTF-8
* byte sequence to a string field.
* Message reflection will do the same.
* However, an extension field still accepts non-UTF-8 byte sequences.
* This option has no effect on when used with the lite runtime.
* </pre>
*/
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public static final int OPTIMIZE_FOR_FIELD_NUMBER = 9;
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*
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/**
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java.lang.Object ref = goPackage_;
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private boolean ccGenericServices_;
/**
* <code>optional bool cc_generic_services = 16 [default = false];</code>
*
* <pre>
* Should generic services be generated in each language? "Generic" services
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* main code generators in each language (without additional plugins).
* Generic services were the only kind of service generation supported by
* early versions of proto2.
* Generic services are now considered deprecated in favor of using plugins
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* <pre>
* Should generic services be generated in each language? "Generic" services
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* main code generators in each language (without additional plugins).
* Generic services were the only kind of service generation supported by
* early versions of proto2.
* Generic services are now considered deprecated in favor of using plugins
* that generate code specific to your particular RPC system. Therefore,
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*
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bitField0_ = (bitField0_ & ~0x00000002);
javaOuterClassname_ = getDefaultInstance().getJavaOuterClassname();
onChanged();
return this;
}
/**
* <code>optional string java_outer_classname = 8;</code>
*
* <pre>
* If set, all the classes from the .proto file are wrapped in a single
* outer class with the given name. This applies to both Proto1
* (equivalent to the old "--one_java_file" option) and Proto2 (where
* a .proto always translates to a single class, but you may want to
* explicitly choose the class name).
* </pre>
*/
public Builder setJavaOuterClassnameBytes(
com.google.protobuf.ByteString value) {
if (value == null) {
throw new NullPointerException();
}
bitField0_ |= 0x00000002;
javaOuterClassname_ = value;
onChanged();
return this;
}
private boolean javaMultipleFiles_ ;
/**
* <code>optional bool java_multiple_files = 10 [default = false];</code>
*
* <pre>
* If set true, then the Java code generator will generate a separate .java
* file for each top-level message, enum, and service defined in the .proto
* file. Thus, these types will *not* be nested inside the outer class
* named by java_outer_classname. However, the outer class will still be
* generated to contain the file's getDescriptor() method as well as any
* top-level extensions defined in the file.
* </pre>
*/
public boolean hasJavaMultipleFiles() {
return ((bitField0_ & 0x00000004) == 0x00000004);
}
/**
* <code>optional bool java_multiple_files = 10 [default = false];</code>
*
* <pre>
* If set true, then the Java code generator will generate a separate .java
* file for each top-level message, enum, and service defined in the .proto
* file. Thus, these types will *not* be nested inside the outer class
* named by java_outer_classname. However, the outer class will still be
* generated to contain the file's getDescriptor() method as well as any
* top-level extensions defined in the file.
* </pre>
*/
public boolean getJavaMultipleFiles() {
return javaMultipleFiles_;
}
/**
* <code>optional bool java_multiple_files = 10 [default = false];</code>
*
* <pre>
* If set true, then the Java code generator will generate a separate .java
* file for each top-level message, enum, and service defined in the .proto
* file. Thus, these types will *not* be nested inside the outer class
* named by java_outer_classname. However, the outer class will still be
* generated to contain the file's getDescriptor() method as well as any
* top-level extensions defined in the file.
* </pre>
*/
public Builder setJavaMultipleFiles(boolean value) {
bitField0_ |= 0x00000004;
javaMultipleFiles_ = value;
onChanged();
return this;
}
/**
* <code>optional bool java_multiple_files = 10 [default = false];</code>
*
* <pre>
* If set true, then the Java code generator will generate a separate .java
* file for each top-level message, enum, and service defined in the .proto
* file. Thus, these types will *not* be nested inside the outer class
* named by java_outer_classname. However, the outer class will still be
* generated to contain the file's getDescriptor() method as well as any
* top-level extensions defined in the file.
* </pre>
*/
public Builder clearJavaMultipleFiles() {
bitField0_ = (bitField0_ & ~0x00000004);
javaMultipleFiles_ = false;
onChanged();
return this;
}
private boolean javaGenerateEqualsAndHash_ ;
/**
* <code>optional bool java_generate_equals_and_hash = 20 [default = false];</code>
*
* <pre>
* If set true, then the Java code generator will generate equals() and
* hashCode() methods for all messages defined in the .proto file.
* - In the full runtime, this is purely a speed optimization, as the
* AbstractMessage base class includes reflection-based implementations of
* these methods.
*- In the lite runtime, setting this option changes the semantics of
* equals() and hashCode() to more closely match those of the full runtime;
* the generated methods compute their results based on field values rather
* than object identity. (Implementations should not assume that hashcodes
* will be consistent across runtimes or versions of the protocol compiler.)
* </pre>
*/
public boolean hasJavaGenerateEqualsAndHash() {
return ((bitField0_ & 0x00000008) == 0x00000008);
}
/**
* <code>optional bool java_generate_equals_and_hash = 20 [default = false];</code>
*
* <pre>
* If set true, then the Java code generator will generate equals() and
* hashCode() methods for all messages defined in the .proto file.
* - In the full runtime, this is purely a speed optimization, as the
* AbstractMessage base class includes reflection-based implementations of
* these methods.
*- In the lite runtime, setting this option changes the semantics of
* equals() and hashCode() to more closely match those of the full runtime;
* the generated methods compute their results based on field values rather
* than object identity. (Implementations should not assume that hashcodes
* will be consistent across runtimes or versions of the protocol compiler.)
* </pre>
*/
public boolean getJavaGenerateEqualsAndHash() {
return javaGenerateEqualsAndHash_;
}
/**
* <code>optional bool java_generate_equals_and_hash = 20 [default = false];</code>
*
* <pre>
* If set true, then the Java code generator will generate equals() and
* hashCode() methods for all messages defined in the .proto file.
* - In the full runtime, this is purely a speed optimization, as the
* AbstractMessage base class includes reflection-based implementations of
* these methods.
*- In the lite runtime, setting this option changes the semantics of
* equals() and hashCode() to more closely match those of the full runtime;
* the generated methods compute their results based on field values rather
* than object identity. (Implementations should not assume that hashcodes
* will be consistent across runtimes or versions of the protocol compiler.)
* </pre>
*/
public Builder setJavaGenerateEqualsAndHash(boolean value) {
bitField0_ |= 0x00000008;
javaGenerateEqualsAndHash_ = value;
onChanged();
return this;
}
/**
* <code>optional bool java_generate_equals_and_hash = 20 [default = false];</code>
*
* <pre>
* If set true, then the Java code generator will generate equals() and
* hashCode() methods for all messages defined in the .proto file.
* - In the full runtime, this is purely a speed optimization, as the
* AbstractMessage base class includes reflection-based implementations of
* these methods.
*- In the lite runtime, setting this option changes the semantics of
* equals() and hashCode() to more closely match those of the full runtime;
* the generated methods compute their results based on field values rather
* than object identity. (Implementations should not assume that hashcodes
* will be consistent across runtimes or versions of the protocol compiler.)
* </pre>
*/
public Builder clearJavaGenerateEqualsAndHash() {
bitField0_ = (bitField0_ & ~0x00000008);
javaGenerateEqualsAndHash_ = false;
onChanged();
return this;
}
private boolean javaStringCheckUtf8_ ;
/**
* <code>optional bool java_string_check_utf8 = 27 [default = false];</code>
*
* <pre>
* If set true, then the Java2 code generator will generate code that
* throws an exception whenever an attempt is made to assign a non-UTF-8
* byte sequence to a string field.
* Message reflection will do the same.
* However, an extension field still accepts non-UTF-8 byte sequences.
* This option has no effect on when used with the lite runtime.
* </pre>
*/
public boolean hasJavaStringCheckUtf8() {
return ((bitField0_ & 0x00000010) == 0x00000010);
}
/**
* <code>optional bool java_string_check_utf8 = 27 [default = false];</code>
*
* <pre>
* If set true, then the Java2 code generator will generate code that
* throws an exception whenever an attempt is made to assign a non-UTF-8
* byte sequence to a string field.
* Message reflection will do the same.
* However, an extension field still accepts non-UTF-8 byte sequences.
* This option has no effect on when used with the lite runtime.
* </pre>
*/
public boolean getJavaStringCheckUtf8() {
return javaStringCheckUtf8_;
}
/**
* <code>optional bool java_string_check_utf8 = 27 [default = false];</code>
*
* <pre>
* If set true, then the Java2 code generator will generate code that
* throws an exception whenever an attempt is made to assign a non-UTF-8
* byte sequence to a string field.
* Message reflection will do the same.
* However, an extension field still accepts non-UTF-8 byte sequences.
* This option has no effect on when used with the lite runtime.
* </pre>
*/
public Builder setJavaStringCheckUtf8(boolean value) {
bitField0_ |= 0x00000010;
javaStringCheckUtf8_ = value;
onChanged();
return this;
}
/**
* <code>optional bool java_string_check_utf8 = 27 [default = false];</code>
*
* <pre>
* If set true, then the Java2 code generator will generate code that
* throws an exception whenever an attempt is made to assign a non-UTF-8
* byte sequence to a string field.
* Message reflection will do the same.
* However, an extension field still accepts non-UTF-8 byte sequences.
* This option has no effect on when used with the lite runtime.
* </pre>
*/
public Builder clearJavaStringCheckUtf8() {
bitField0_ = (bitField0_ & ~0x00000010);
javaStringCheckUtf8_ = false;
onChanged();
return this;
}
private com.google.protobuf.DescriptorProtos.FileOptions.OptimizeMode optimizeFor_ = com.google.protobuf.DescriptorProtos.FileOptions.OptimizeMode.SPEED;
/**
* <code>optional .google.protobuf.FileOptions.OptimizeMode optimize_for = 9 [default = SPEED];</code>
*/
public boolean hasOptimizeFor() {
return ((bitField0_ & 0x00000020) == 0x00000020);
}
/**
* <code>optional .google.protobuf.FileOptions.OptimizeMode optimize_for = 9 [default = SPEED];</code>
*/
public com.google.protobuf.DescriptorProtos.FileOptions.OptimizeMode getOptimizeFor() {
return optimizeFor_;
}
/**
* <code>optional .google.protobuf.FileOptions.OptimizeMode optimize_for = 9 [default = SPEED];</code>
*/
public Builder setOptimizeFor(com.google.protobuf.DescriptorProtos.FileOptions.OptimizeMode value) {
if (value == null) {
throw new NullPointerException();
}
bitField0_ |= 0x00000020;
optimizeFor_ = value;
onChanged();
return this;
}
/**
* <code>optional .google.protobuf.FileOptions.OptimizeMode optimize_for = 9 [default = SPEED];</code>
*/
public Builder clearOptimizeFor() {
bitField0_ = (bitField0_ & ~0x00000020);
optimizeFor_ = com.google.protobuf.DescriptorProtos.FileOptions.OptimizeMode.SPEED;
onChanged();
return this;
}
private java.lang.Object goPackage_ = "";
/**
* <code>optional string go_package = 11;</code>
*
* <pre>
* Sets the Go package where structs generated from this .proto will be
* placed. There is no default.
* </pre>
*/
public boolean hasGoPackage() {
return ((bitField0_ & 0x00000040) == 0x00000040);
}
/**
* <code>optional string go_package = 11;</code>
*
* <pre>
* Sets the Go package where structs generated from this .proto will be
* placed. There is no default.
* </pre>
*/
public java.lang.String getGoPackage() {
java.lang.Object ref = goPackage_;
if (!(ref instanceof java.lang.String)) {
com.google.protobuf.ByteString bs =
(com.google.protobuf.ByteString) ref;
java.lang.String s = bs.toStringUtf8();
if (bs.isValidUtf8()) {
goPackage_ = s;
}
return s;
} else {
return (java.lang.String) ref;
}
}
/**
* <code>optional string go_package = 11;</code>
*
* <pre>
* Sets the Go package where structs generated from this .proto will be
* placed. There is no default.
* </pre>
*/
public com.google.protobuf.ByteString
getGoPackageBytes() {
java.lang.Object ref = goPackage_;
if (ref instanceof String) {
com.google.protobuf.ByteString b =
com.google.protobuf.ByteString.copyFromUtf8(
(java.lang.String) ref);
goPackage_ = b;
return b;
} else {
return (com.google.protobuf.ByteString) ref;
}
}
/**
* <code>optional string go_package = 11;</code>
*
* <pre>
* Sets the Go package where structs generated from this .proto will be
* placed. There is no default.
* </pre>
*/
public Builder setGoPackage(
java.lang.String value) {
if (value == null) {
throw new NullPointerException();
}
bitField0_ |= 0x00000040;
goPackage_ = value;
onChanged();
return this;
}
/**
* <code>optional string go_package = 11;</code>
*
* <pre>
* Sets the Go package where structs generated from this .proto will be
* placed. There is no default.
* </pre>
*/
public Builder clearGoPackage() {
bitField0_ = (bitField0_ & ~0x00000040);
goPackage_ = getDefaultInstance().getGoPackage();
onChanged();
return this;
}
/**
* <code>optional string go_package = 11;</code>
*
* <pre>
* Sets the Go package where structs generated from this .proto will be
* placed. There is no default.
* </pre>
*/
public Builder setGoPackageBytes(
com.google.protobuf.ByteString value) {
if (value == null) {
throw new NullPointerException();
}
bitField0_ |= 0x00000040;
goPackage_ = value;
onChanged();
return this;
}
private boolean ccGenericServices_ ;
/**
* <code>optional bool cc_generic_services = 16 [default = false];</code>
*
* <pre>
* Should generic services be generated in each language? "Generic" services
* are not specific to any particular RPC system. They are generated by the
* main code generators in each language (without additional plugins).
* Generic services were the only kind of service generation supported by
* early versions of proto2.
* Generic services are now considered deprecated in favor of using plugins
* that generate code specific to your particular RPC system. Therefore,
* these default to false. Old code which depends on generic services should
* explicitly set them to true.
* </pre>
*/
public boolean hasCcGenericServices() {
return ((bitField0_ & 0x00000080) == 0x00000080);
}
/**
* <code>optional bool cc_generic_services = 16 [default = false];</code>
*
* <pre>
* Should generic services be generated in each language? "Generic" services
* are not specific to any particular RPC system. They are generated by the
* main code generators in each language (without additional plugins).
* Generic services were the only kind of service generation supported by
* early versions of proto2.
* Generic services are now considered deprecated in favor of using plugins
* that generate code specific to your particular RPC system. Therefore,
* these default to false. Old code which depends on generic services should
* explicitly set them to true.
* </pre>
*/
public boolean getCcGenericServices() {
return ccGenericServices_;
}
/**
* <code>optional bool cc_generic_services = 16 [default = false];</code>
*
* <pre>
* Should generic services be generated in each language? "Generic" services
* are not specific to any particular RPC system. They are generated by the
* main code generators in each language (without additional plugins).
* Generic services were the only kind of service generation supported by
* early versions of proto2.
* Generic services are now considered deprecated in favor of using plugins
* that generate code specific to your particular RPC system. Therefore,
* these default to false. Old code which depends on generic services should
* explicitly set them to true.
* </pre>
*/
public Builder setCcGenericServices(boolean value) {
bitField0_ |= 0x00000080;
ccGenericServices_ = value;
onChanged();
return this;
}
/**
* <code>optional bool cc_generic_services = 16 [default = false];</code>
*
* <pre>
* Should generic services be generated in each language? "Generic" services
* are not specific to any particular RPC system. They are generated by the
* main code generators in each language (without additional plugins).
* Generic services were the only kind of service generation supported by
* early versions of proto2.
* Generic services are now considered deprecated in favor of using plugins
* that generate code specific to your particular RPC system. Therefore,
* these default to false. Old code which depends on generic services should
* explicitly set them to true.
* </pre>
*/
public Builder clearCcGenericServices() {
bitField0_ = (bitField0_ & ~0x00000080);
ccGenericServices_ = false;
onChanged();
return this;
}
private boolean javaGenericServices_ ;
/**
* <code>optional bool java_generic_services = 17 [default = false];</code>
*/
public boolean hasJavaGenericServices() {
return ((bitField0_ & 0x00000100) == 0x00000100);
}
/**
* <code>optional bool java_generic_services = 17 [default = false];</code>
*/
public boolean getJavaGenericServices() {
return javaGenericServices_;
}
/**
* <code>optional bool java_generic_services = 17 [default = false];</code>
*/
public Builder setJavaGenericServices(boolean value) {
bitField0_ |= 0x00000100;
javaGenericServices_ = value;
onChanged();
return this;
}
/**
* <code>optional bool java_generic_services = 17 [default = false];</code>
*/
public Builder clearJavaGenericServices() {
bitField0_ = (bitField0_ & ~0x00000100);
javaGenericServices_ = false;
onChanged();
return this;
}
private boolean pyGenericServices_ ;
/**
* <code>optional bool py_generic_services = 18 [default = false];</code>
*/
public boolean hasPyGenericServices() {
return ((bitField0_ & 0x00000200) == 0x00000200);
}
/**
* <code>optional bool py_generic_services = 18 [default = false];</code>
*/
public boolean getPyGenericServices() {
return pyGenericServices_;
}
/**
* <code>optional bool py_generic_services = 18 [default = false];</code>
*/
public Builder setPyGenericServices(boolean value) {
bitField0_ |= 0x00000200;
pyGenericServices_ = value;
onChanged();
return this;
}
/**
* <code>optional bool py_generic_services = 18 [default = false];</code>
*/
public Builder clearPyGenericServices() {
bitField0_ = (bitField0_ & ~0x00000200);
pyGenericServices_ = false;
onChanged();
return this;
}
private boolean deprecated_ ;
/**
* <code>optional bool deprecated = 23 [default = false];</code>
*
* <pre>
* Is this file deprecated?
* Depending on the target platform, this can emit Deprecated annotations
* for everything in the file, or it will be completely ignored; in the very
* least, this is a formalization for deprecating files.
* </pre>
*/
public boolean hasDeprecated() {
return ((bitField0_ & 0x00000400) == 0x00000400);
}
/**
* <code>optional bool deprecated = 23 [default = false];</code>
*
* <pre>
* Is this file deprecated?
* Depending on the target platform, this can emit Deprecated annotations
* for everything in the file, or it will be completely ignored; in the very
* least, this is a formalization for deprecating files.
* </pre>
*/
public boolean getDeprecated() {
return deprecated_;
}
/**
* <code>optional bool deprecated = 23 [default = false];</code>
*
* <pre>
* Is this file deprecated?
* Depending on the target platform, this can emit Deprecated annotations
* for everything in the file, or it will be completely ignored; in the very
* least, this is a formalization for deprecating files.
* </pre>
*/
public Builder setDeprecated(boolean value) {
bitField0_ |= 0x00000400;
deprecated_ = value;
onChanged();
return this;
}
/**
* <code>optional bool deprecated = 23 [default = false];</code>
*
* <pre>
* Is this file deprecated?
* Depending on the target platform, this can emit Deprecated annotations
* for everything in the file, or it will be completely ignored; in the very
* least, this is a formalization for deprecating files.
* </pre>
*/
public Builder clearDeprecated() {
bitField0_ = (bitField0_ & ~0x00000400);
deprecated_ = false;
onChanged();
return this;
}
private java.util.List<com.google.protobuf.DescriptorProtos.UninterpretedOption> uninterpretedOption_ =
java.util.Collections.emptyList();
private void ensureUninterpretedOptionIsMutable() {
if (!((bitField0_ & 0x00000800) == 0x00000800)) {
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private com.google.protobuf.RepeatedFieldBuilder<
com.google.protobuf.DescriptorProtos.UninterpretedOption, com.google.protobuf.DescriptorProtos.UninterpretedOption.Builder, com.google.protobuf.DescriptorProtos.UninterpretedOptionOrBuilder> uninterpretedOptionBuilder_;
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* <code>repeated .google.protobuf.UninterpretedOption uninterpreted_option = 999;</code>
*
* <pre>
* The parser stores options it doesn't recognize here. See above.
* </pre>
*/
public java.util.List<com.google.protobuf.DescriptorProtos.UninterpretedOption> getUninterpretedOptionList() {
if (uninterpretedOptionBuilder_ == null) {
return java.util.Collections.unmodifiableList(uninterpretedOption_);
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/**
* <code>repeated .google.protobuf.UninterpretedOption uninterpreted_option = 999;</code>
*
* <pre>
* The parser stores options it doesn't recognize here. See above.
* </pre>
*/
public int getUninterpretedOptionCount() {
if (uninterpretedOptionBuilder_ == null) {
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} else {
return uninterpretedOptionBuilder_.getCount();
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/**
* <code>repeated .google.protobuf.UninterpretedOption uninterpreted_option = 999;</code>
*
* <pre>
* The parser stores options it doesn't recognize here. See above.
* </pre>
*/
public com.google.protobuf.DescriptorProtos.UninterpretedOption getUninterpretedOption(int index) {
if (uninterpretedOptionBuilder_ == null) {
return uninterpretedOption_.get(index);
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return uninterpretedOptionBuilder_.getMessage(index);
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/**
* <code>repeated .google.protobuf.UninterpretedOption uninterpreted_option = 999;</code>
*
* <pre>
* The parser stores options it doesn't recognize here. See above.
* </pre>
*/
public Builder setUninterpretedOption(
int index, com.google.protobuf.DescriptorProtos.UninterpretedOption value) {
if (uninterpretedOptionBuilder_ == null) {
if (value == null) {
throw new NullPointerException();
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ensureUninterpretedOptionIsMutable();
uninterpretedOption_.set(index, value);
onChanged();
} else {
uninterpretedOptionBuilder_.setMessage(index, value);
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return this;
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/**
* <code>repeated .google.protobuf.UninterpretedOption uninterpreted_option = 999;</code>
*
* <pre>
* The parser stores options it doesn't recognize here. See above.
* </pre>
*/
public Builder setUninterpretedOption(
int index, com.google.protobuf.DescriptorProtos.UninterpretedOption.Builder builderForValue) {
if (uninterpretedOptionBuilder_ == null) {
ensureUninterpretedOptionIsMutable();
uninterpretedOption_.set(index, builderForValue.build());
onChanged();
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uninterpretedOptionBuilder_.setMessage(index, builderForValue.build());
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return this;
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/**
* <code>repeated .google.protobuf.UninterpretedOption uninterpreted_option = 999;</code>
*
* <pre>
* The parser stores options it doesn't recognize here. See above.
* </pre>
*/
public Builder addUninterpretedOption(com.google.protobuf.DescriptorProtos.UninterpretedOption value) {
if (uninterpretedOptionBuilder_ == null) {
if (value == null) {
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ensureUninterpretedOptionIsMutable();
uninterpretedOption_.add(value);
onChanged();
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uninterpretedOptionBuilder_.addMessage(value);
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return this;
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/**
* <code>repeated .google.protobuf.UninterpretedOption uninterpreted_option = 999;</code>
*
* <pre>
* The parser stores options it doesn't recognize here. See above.
* </pre>
*/
public Builder addUninterpretedOption(
int index, com.google.protobuf.DescriptorProtos.UninterpretedOption value) {
if (uninterpretedOptionBuilder_ == null) {
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throw new NullPointerException();
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ensureUninterpretedOptionIsMutable();
uninterpretedOption_.add(index, value);
onChanged();
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uninterpretedOptionBuilder_.addMessage(index, value);
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/**
* <code>repeated .google.protobuf.UninterpretedOption uninterpreted_option = 999;</code>
*
* <pre>
* The parser stores options it doesn't recognize here. See above.
* </pre>
*/
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com.google.protobuf.DescriptorProtos.UninterpretedOption.Builder builderForValue) {
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ensureUninterpretedOptionIsMutable();
uninterpretedOption_.add(builderForValue.build());
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return this;
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* <code>repeated .google.protobuf.UninterpretedOption uninterpreted_option = 999;</code>
*
* <pre>
* The parser stores options it doesn't recognize here. See above.
* </pre>
*/
public Builder addUninterpretedOption(
int index, com.google.protobuf.DescriptorProtos.UninterpretedOption.Builder builderForValue) {
if (uninterpretedOptionBuilder_ == null) {
ensureUninterpretedOptionIsMutable();
uninterpretedOption_.add(index, builderForValue.build());
onChanged();
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uninterpretedOptionBuilder_.addMessage(index, builderForValue.build());
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return this;
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/**
* <code>repeated .google.protobuf.UninterpretedOption uninterpreted_option = 999;</code>
*
* <pre>
* The parser stores options it doesn't recognize here. See above.
* </pre>
*/
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java.lang.Iterable<? extends com.google.protobuf.DescriptorProtos.UninterpretedOption> values) {
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onChanged();
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/**
* <code>repeated .google.protobuf.UninterpretedOption uninterpreted_option = 999;</code>
*
* <pre>
* The parser stores options it doesn't recognize here. See above.
* </pre>
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public Builder clearUninterpretedOption() {
if (uninterpretedOptionBuilder_ == null) {
uninterpretedOption_ = java.util.Collections.emptyList();
bitField0_ = (bitField0_ & ~0x00000800);
onChanged();
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/**
* <code>repeated .google.protobuf.UninterpretedOption uninterpreted_option = 999;</code>
*
* <pre>
* The parser stores options it doesn't recognize here. See above.
* </pre>
*/
public Builder removeUninterpretedOption(int index) {
if (uninterpretedOptionBuilder_ == null) {
ensureUninterpretedOptionIsMutable();
uninterpretedOption_.remove(index);
onChanged();
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uninterpretedOptionBuilder_.remove(index);
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/**
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* <pre>
* The ctype option instructs the C++ code generator to use a different
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* options below. This option is not yet implemented in the open source
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/**
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/**
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* form. The inner message will actually be parsed when it is first accessed.
* This is only a hint. Implementations are free to choose whether to use
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* overhead typically needed to implement it.
* This option does not affect the public interface of any generated code;
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* may return true even if the inner message has missing required fields.
* This is necessary because otherwise the inner message would have to be
* parsed in order to perform the check, defeating the purpose of lazy
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* check its required fields, regardless of whether or not the message has
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* </pre>
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/**
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* <pre>
* Should this field be parsed lazily? Lazy applies only to message-type
* fields. It means that when the outer message is initially parsed, the
* inner message's contents will not be parsed but instead stored in encoded
* form. The inner message will actually be parsed when it is first accessed.
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* setting this option true suggests that the protocol author believes that
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* parsing. An implementation which chooses not to check required fields
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* check its required fields, regardless of whether or not the message has
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public boolean getLazy() {
return lazy_;
}
/**
* <code>optional bool lazy = 5 [default = false];</code>
*
* <pre>
* Should this field be parsed lazily? Lazy applies only to message-type
* fields. It means that when the outer message is initially parsed, the
* inner message's contents will not be parsed but instead stored in encoded
* form. The inner message will actually be parsed when it is first accessed.
* This is only a hint. Implementations are free to choose whether to use
* eager or lazy parsing regardless of the value of this option. However,
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onChanged();
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}
/**
* <code>optional bool lazy = 5 [default = false];</code>
*
* <pre>
* Should this field be parsed lazily? Lazy applies only to message-type
* fields. It means that when the outer message is initially parsed, the
* inner message's contents will not be parsed but instead stored in encoded
* form. The inner message will actually be parsed when it is first accessed.
* This is only a hint. Implementations are free to choose whether to use
* eager or lazy parsing regardless of the value of this option. However,
* setting this option true suggests that the protocol author believes that
* using lazy parsing on this field is worth the additional bookkeeping
* overhead typically needed to implement it.
* This option does not affect the public interface of any generated code;
* all method signatures remain the same. Furthermore, thread-safety of the
* interface is not affected by this option; const methods remain safe to
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* This is necessary because otherwise the inner message would have to be
* parsed in order to perform the check, defeating the purpose of lazy
* parsing. An implementation which chooses not to check required fields
* must be consistent about it. That is, for any particular sub-message, the
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public Builder clearLazy() {
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onChanged();
return this;
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private boolean deprecated_ ;
/**
* <code>optional bool deprecated = 3 [default = false];</code>
*
* <pre>
* Is this field deprecated?
* Depending on the target platform, this can emit Deprecated annotations
* for accessors, or it will be completely ignored; in the very least, this
* is a formalization for deprecating fields.
* </pre>
*/
public boolean hasDeprecated() {
return ((bitField0_ & 0x00000008) == 0x00000008);
}
/**
* <code>optional bool deprecated = 3 [default = false];</code>
*
* <pre>
* Is this field deprecated?
* Depending on the target platform, this can emit Deprecated annotations
* for accessors, or it will be completely ignored; in the very least, this
* is a formalization for deprecating fields.
* </pre>
*/
public boolean getDeprecated() {
return deprecated_;
}
/**
* <code>optional bool deprecated = 3 [default = false];</code>
*
* <pre>
* Is this field deprecated?
* Depending on the target platform, this can emit Deprecated annotations
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* is a formalization for deprecating fields.
* </pre>
*/
public Builder setDeprecated(boolean value) {
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deprecated_ = value;
onChanged();
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}
/**
* <code>optional bool deprecated = 3 [default = false];</code>
*
* <pre>
* Is this field deprecated?
* Depending on the target platform, this can emit Deprecated annotations
* for accessors, or it will be completely ignored; in the very least, this
* is a formalization for deprecating fields.
* </pre>
*/
public Builder clearDeprecated() {
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onChanged();
return this;
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private java.lang.Object experimentalMapKey_ = "";
/**
* <code>optional string experimental_map_key = 9;</code>
*
* <pre>
* EXPERIMENTAL. DO NOT USE.
* For "map" fields, the name of the field in the enclosed type that
* is the key for this map. For example, suppose we have:
* message Item {
* required string name = 1;
* required string value = 2;
* }
* message Config {
* repeated Item items = 1 [experimental_map_key="name"];
* }
* In this situation, the map key for Item will be set to "name".
* TODO: Fully-implement this, then remove the "experimental_" prefix.
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/**
* <code>optional string experimental_map_key = 9;</code>
*
* <pre>
* EXPERIMENTAL. DO NOT USE.
* For "map" fields, the name of the field in the enclosed type that
* is the key for this map. For example, suppose we have:
* message Item {
* required string name = 1;
* required string value = 2;
* }
* message Config {
* repeated Item items = 1 [experimental_map_key="name"];
* }
* In this situation, the map key for Item will be set to "name".
* TODO: Fully-implement this, then remove the "experimental_" prefix.
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/**
* <code>optional string experimental_map_key = 9;</code>
*
* <pre>
* EXPERIMENTAL. DO NOT USE.
* For "map" fields, the name of the field in the enclosed type that
* is the key for this map. For example, suppose we have:
* message Item {
* required string name = 1;
* required string value = 2;
* }
* message Config {
* repeated Item items = 1 [experimental_map_key="name"];
* }
* In this situation, the map key for Item will be set to "name".
* TODO: Fully-implement this, then remove the "experimental_" prefix.
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java.lang.Object ref = experimentalMapKey_;
if (ref instanceof String) {
com.google.protobuf.ByteString b =
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experimentalMapKey_ = b;
return b;
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/**
* <code>optional string experimental_map_key = 9;</code>
*
* <pre>
* EXPERIMENTAL. DO NOT USE.
* For "map" fields, the name of the field in the enclosed type that
* is the key for this map. For example, suppose we have:
* message Item {
* required string name = 1;
* required string value = 2;
* }
* message Config {
* repeated Item items = 1 [experimental_map_key="name"];
* }
* In this situation, the map key for Item will be set to "name".
* TODO: Fully-implement this, then remove the "experimental_" prefix.
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*/
public Builder setExperimentalMapKey(
java.lang.String value) {
if (value == null) {
throw new NullPointerException();
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bitField0_ |= 0x00000010;
experimentalMapKey_ = value;
onChanged();
return this;
}
/**
* <code>optional string experimental_map_key = 9;</code>
*
* <pre>
* EXPERIMENTAL. DO NOT USE.
* For "map" fields, the name of the field in the enclosed type that
* is the key for this map. For example, suppose we have:
* message Item {
* required string name = 1;
* required string value = 2;
* }
* message Config {
* repeated Item items = 1 [experimental_map_key="name"];
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* In this situation, the map key for Item will be set to "name".
* TODO: Fully-implement this, then remove the "experimental_" prefix.
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*/
public Builder clearExperimentalMapKey() {
bitField0_ = (bitField0_ & ~0x00000010);
experimentalMapKey_ = getDefaultInstance().getExperimentalMapKey();
onChanged();
return this;
}
/**
* <code>optional string experimental_map_key = 9;</code>
*
* <pre>
* EXPERIMENTAL. DO NOT USE.
* For "map" fields, the name of the field in the enclosed type that
* is the key for this map. For example, suppose we have:
* message Item {
* required string name = 1;
* required string value = 2;
* }
* message Config {
* repeated Item items = 1 [experimental_map_key="name"];
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* In this situation, the map key for Item will be set to "name".
* TODO: Fully-implement this, then remove the "experimental_" prefix.
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*/
public Builder setExperimentalMapKeyBytes(
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if (value == null) {
throw new NullPointerException();
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bitField0_ |= 0x00000010;
experimentalMapKey_ = value;
onChanged();
return this;
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private boolean weak_ ;
/**
* <code>optional bool weak = 10 [default = false];</code>
*
* <pre>
* For Google-internal migration only. Do not use.
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*/
public boolean hasWeak() {
return ((bitField0_ & 0x00000020) == 0x00000020);
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/**
* <code>optional bool weak = 10 [default = false];</code>
*
* <pre>
* For Google-internal migration only. Do not use.
* </pre>
*/
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/**
* <code>optional bool weak = 10 [default = false];</code>
*
* <pre>
* For Google-internal migration only. Do not use.
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*/
public Builder setWeak(boolean value) {
bitField0_ |= 0x00000020;
weak_ = value;
onChanged();
return this;
}
/**
* <code>optional bool weak = 10 [default = false];</code>
*
* <pre>
* For Google-internal migration only. Do not use.
* </pre>
*/
public Builder clearWeak() {
bitField0_ = (bitField0_ & ~0x00000020);
weak_ = false;
onChanged();
return this;
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* <pre>
* The parser stores options it doesn't recognize here. See above.
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/**
* <code>optional bool deprecated = 3 [default = false];</code>
*
* <pre>
* Is this enum deprecated?
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* <code>optional bool deprecated = 3 [default = false];</code>
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com.google.protobuf.DescriptorProtos.MethodOptionsOrBuilder {
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ensureNameIsMutable();
name_.set(index, builderForValue.build());
onChanged();
} else {
nameBuilder_.setMessage(index, builderForValue.build());
}
return this;
}
/**
* <code>repeated .google.protobuf.UninterpretedOption.NamePart name = 2;</code>
*/
public Builder addName(com.google.protobuf.DescriptorProtos.UninterpretedOption.NamePart value) {
if (nameBuilder_ == null) {
if (value == null) {
throw new NullPointerException();
}
ensureNameIsMutable();
name_.add(value);
onChanged();
} else {
nameBuilder_.addMessage(value);
}
return this;
}
/**
* <code>repeated .google.protobuf.UninterpretedOption.NamePart name = 2;</code>
*/
public Builder addName(
int index, com.google.protobuf.DescriptorProtos.UninterpretedOption.NamePart value) {
if (nameBuilder_ == null) {
if (value == null) {
throw new NullPointerException();
}
ensureNameIsMutable();
name_.add(index, value);
onChanged();
} else {
nameBuilder_.addMessage(index, value);
}
return this;
}
/**
* <code>repeated .google.protobuf.UninterpretedOption.NamePart name = 2;</code>
*/
public Builder addName(
com.google.protobuf.DescriptorProtos.UninterpretedOption.NamePart.Builder builderForValue) {
if (nameBuilder_ == null) {
ensureNameIsMutable();
name_.add(builderForValue.build());
onChanged();
} else {
nameBuilder_.addMessage(builderForValue.build());
}
return this;
}
/**
* <code>repeated .google.protobuf.UninterpretedOption.NamePart name = 2;</code>
*/
public Builder addName(
int index, com.google.protobuf.DescriptorProtos.UninterpretedOption.NamePart.Builder builderForValue) {
if (nameBuilder_ == null) {
ensureNameIsMutable();
name_.add(index, builderForValue.build());
onChanged();
} else {
nameBuilder_.addMessage(index, builderForValue.build());
}
return this;
}
/**
* <code>repeated .google.protobuf.UninterpretedOption.NamePart name = 2;</code>
*/
public Builder addAllName(
java.lang.Iterable<? extends com.google.protobuf.DescriptorProtos.UninterpretedOption.NamePart> values) {
if (nameBuilder_ == null) {
ensureNameIsMutable();
com.google.protobuf.AbstractMessageLite.Builder.addAll(
values, name_);
onChanged();
} else {
nameBuilder_.addAllMessages(values);
}
return this;
}
/**
* <code>repeated .google.protobuf.UninterpretedOption.NamePart name = 2;</code>
*/
public Builder clearName() {
if (nameBuilder_ == null) {
name_ = java.util.Collections.emptyList();
bitField0_ = (bitField0_ & ~0x00000001);
onChanged();
} else {
nameBuilder_.clear();
}
return this;
}
/**
* <code>repeated .google.protobuf.UninterpretedOption.NamePart name = 2;</code>
*/
public Builder removeName(int index) {
if (nameBuilder_ == null) {
ensureNameIsMutable();
name_.remove(index);
onChanged();
} else {
nameBuilder_.remove(index);
}
return this;
}
/**
* <code>repeated .google.protobuf.UninterpretedOption.NamePart name = 2;</code>
*/
public com.google.protobuf.DescriptorProtos.UninterpretedOption.NamePart.Builder getNameBuilder(
int index) {
return getNameFieldBuilder().getBuilder(index);
}
/**
* <code>repeated .google.protobuf.UninterpretedOption.NamePart name = 2;</code>
*/
public com.google.protobuf.DescriptorProtos.UninterpretedOption.NamePartOrBuilder getNameOrBuilder(
int index) {
if (nameBuilder_ == null) {
return name_.get(index); } else {
return nameBuilder_.getMessageOrBuilder(index);
}
}
/**
* <code>repeated .google.protobuf.UninterpretedOption.NamePart name = 2;</code>
*/
public java.util.List<? extends com.google.protobuf.DescriptorProtos.UninterpretedOption.NamePartOrBuilder>
getNameOrBuilderList() {
if (nameBuilder_ != null) {
return nameBuilder_.getMessageOrBuilderList();
} else {
return java.util.Collections.unmodifiableList(name_);
}
}
/**
* <code>repeated .google.protobuf.UninterpretedOption.NamePart name = 2;</code>
*/
public com.google.protobuf.DescriptorProtos.UninterpretedOption.NamePart.Builder addNameBuilder() {
return getNameFieldBuilder().addBuilder(
com.google.protobuf.DescriptorProtos.UninterpretedOption.NamePart.getDefaultInstance());
}
/**
* <code>repeated .google.protobuf.UninterpretedOption.NamePart name = 2;</code>
*/
public com.google.protobuf.DescriptorProtos.UninterpretedOption.NamePart.Builder addNameBuilder(
int index) {
return getNameFieldBuilder().addBuilder(
index, com.google.protobuf.DescriptorProtos.UninterpretedOption.NamePart.getDefaultInstance());
}
/**
* <code>repeated .google.protobuf.UninterpretedOption.NamePart name = 2;</code>
*/
public java.util.List<com.google.protobuf.DescriptorProtos.UninterpretedOption.NamePart.Builder>
getNameBuilderList() {
return getNameFieldBuilder().getBuilderList();
}
private com.google.protobuf.RepeatedFieldBuilder<
com.google.protobuf.DescriptorProtos.UninterpretedOption.NamePart, com.google.protobuf.DescriptorProtos.UninterpretedOption.NamePart.Builder, com.google.protobuf.DescriptorProtos.UninterpretedOption.NamePartOrBuilder>
getNameFieldBuilder() {
if (nameBuilder_ == null) {
nameBuilder_ = new com.google.protobuf.RepeatedFieldBuilder<
com.google.protobuf.DescriptorProtos.UninterpretedOption.NamePart, com.google.protobuf.DescriptorProtos.UninterpretedOption.NamePart.Builder, com.google.protobuf.DescriptorProtos.UninterpretedOption.NamePartOrBuilder>(
name_,
((bitField0_ & 0x00000001) == 0x00000001),
getParentForChildren(),
isClean());
name_ = null;
}
return nameBuilder_;
}
private java.lang.Object identifierValue_ = "";
/**
* <code>optional string identifier_value = 3;</code>
*
* <pre>
* The value of the uninterpreted option, in whatever type the tokenizer
* identified it as during parsing. Exactly one of these should be set.
* </pre>
*/
public boolean hasIdentifierValue() {
return ((bitField0_ & 0x00000002) == 0x00000002);
}
/**
* <code>optional string identifier_value = 3;</code>
*
* <pre>
* The value of the uninterpreted option, in whatever type the tokenizer
* identified it as during parsing. Exactly one of these should be set.
* </pre>
*/
public java.lang.String getIdentifierValue() {
java.lang.Object ref = identifierValue_;
if (!(ref instanceof java.lang.String)) {
com.google.protobuf.ByteString bs =
(com.google.protobuf.ByteString) ref;
java.lang.String s = bs.toStringUtf8();
if (bs.isValidUtf8()) {
identifierValue_ = s;
}
return s;
} else {
return (java.lang.String) ref;
}
}
/**
* <code>optional string identifier_value = 3;</code>
*
* <pre>
* The value of the uninterpreted option, in whatever type the tokenizer
* identified it as during parsing. Exactly one of these should be set.
* </pre>
*/
public com.google.protobuf.ByteString
getIdentifierValueBytes() {
java.lang.Object ref = identifierValue_;
if (ref instanceof String) {
com.google.protobuf.ByteString b =
com.google.protobuf.ByteString.copyFromUtf8(
(java.lang.String) ref);
identifierValue_ = b;
return b;
} else {
return (com.google.protobuf.ByteString) ref;
}
}
/**
* <code>optional string identifier_value = 3;</code>
*
* <pre>
* The value of the uninterpreted option, in whatever type the tokenizer
* identified it as during parsing. Exactly one of these should be set.
* </pre>
*/
public Builder setIdentifierValue(
java.lang.String value) {
if (value == null) {
throw new NullPointerException();
}
bitField0_ |= 0x00000002;
identifierValue_ = value;
onChanged();
return this;
}
/**
* <code>optional string identifier_value = 3;</code>
*
* <pre>
* The value of the uninterpreted option, in whatever type the tokenizer
* identified it as during parsing. Exactly one of these should be set.
* </pre>
*/
public Builder clearIdentifierValue() {
bitField0_ = (bitField0_ & ~0x00000002);
identifierValue_ = getDefaultInstance().getIdentifierValue();
onChanged();
return this;
}
/**
* <code>optional string identifier_value = 3;</code>
*
* <pre>
* The value of the uninterpreted option, in whatever type the tokenizer
* identified it as during parsing. Exactly one of these should be set.
* </pre>
*/
public Builder setIdentifierValueBytes(
com.google.protobuf.ByteString value) {
if (value == null) {
throw new NullPointerException();
}
bitField0_ |= 0x00000002;
identifierValue_ = value;
onChanged();
return this;
}
private long positiveIntValue_ ;
/**
* <code>optional uint64 positive_int_value = 4;</code>
*/
public boolean hasPositiveIntValue() {
return ((bitField0_ & 0x00000004) == 0x00000004);
}
/**
* <code>optional uint64 positive_int_value = 4;</code>
*/
public long getPositiveIntValue() {
return positiveIntValue_;
}
/**
* <code>optional uint64 positive_int_value = 4;</code>
*/
public Builder setPositiveIntValue(long value) {
bitField0_ |= 0x00000004;
positiveIntValue_ = value;
onChanged();
return this;
}
/**
* <code>optional uint64 positive_int_value = 4;</code>
*/
public Builder clearPositiveIntValue() {
bitField0_ = (bitField0_ & ~0x00000004);
positiveIntValue_ = 0L;
onChanged();
return this;
}
private long negativeIntValue_ ;
/**
* <code>optional int64 negative_int_value = 5;</code>
*/
public boolean hasNegativeIntValue() {
return ((bitField0_ & 0x00000008) == 0x00000008);
}
/**
* <code>optional int64 negative_int_value = 5;</code>
*/
public long getNegativeIntValue() {
return negativeIntValue_;
}
/**
* <code>optional int64 negative_int_value = 5;</code>
*/
public Builder setNegativeIntValue(long value) {
bitField0_ |= 0x00000008;
negativeIntValue_ = value;
onChanged();
return this;
}
/**
* <code>optional int64 negative_int_value = 5;</code>
*/
public Builder clearNegativeIntValue() {
bitField0_ = (bitField0_ & ~0x00000008);
negativeIntValue_ = 0L;
onChanged();
return this;
}
private double doubleValue_ ;
/**
* <code>optional double double_value = 6;</code>
*/
public boolean hasDoubleValue() {
return ((bitField0_ & 0x00000010) == 0x00000010);
}
/**
* <code>optional double double_value = 6;</code>
*/
public double getDoubleValue() {
return doubleValue_;
}
/**
* <code>optional double double_value = 6;</code>
*/
public Builder setDoubleValue(double value) {
bitField0_ |= 0x00000010;
doubleValue_ = value;
onChanged();
return this;
}
/**
* <code>optional double double_value = 6;</code>
*/
public Builder clearDoubleValue() {
bitField0_ = (bitField0_ & ~0x00000010);
doubleValue_ = 0D;
onChanged();
return this;
}
private com.google.protobuf.ByteString stringValue_ = com.google.protobuf.ByteString.EMPTY;
/**
* <code>optional bytes string_value = 7;</code>
*/
public boolean hasStringValue() {
return ((bitField0_ & 0x00000020) == 0x00000020);
}
/**
* <code>optional bytes string_value = 7;</code>
*/
public com.google.protobuf.ByteString getStringValue() {
return stringValue_;
}
/**
* <code>optional bytes string_value = 7;</code>
*/
public Builder setStringValue(com.google.protobuf.ByteString value) {
if (value == null) {
throw new NullPointerException();
}
bitField0_ |= 0x00000020;
stringValue_ = value;
onChanged();
return this;
}
/**
* <code>optional bytes string_value = 7;</code>
*/
public Builder clearStringValue() {
bitField0_ = (bitField0_ & ~0x00000020);
stringValue_ = getDefaultInstance().getStringValue();
onChanged();
return this;
}
private java.lang.Object aggregateValue_ = "";
/**
* <code>optional string aggregate_value = 8;</code>
*/
public boolean hasAggregateValue() {
return ((bitField0_ & 0x00000040) == 0x00000040);
}
/**
* <code>optional string aggregate_value = 8;</code>
*/
public java.lang.String getAggregateValue() {
java.lang.Object ref = aggregateValue_;
if (!(ref instanceof java.lang.String)) {
com.google.protobuf.ByteString bs =
(com.google.protobuf.ByteString) ref;
java.lang.String s = bs.toStringUtf8();
if (bs.isValidUtf8()) {
aggregateValue_ = s;
}
return s;
} else {
return (java.lang.String) ref;
}
}
/**
* <code>optional string aggregate_value = 8;</code>
*/
public com.google.protobuf.ByteString
getAggregateValueBytes() {
java.lang.Object ref = aggregateValue_;
if (ref instanceof String) {
com.google.protobuf.ByteString b =
com.google.protobuf.ByteString.copyFromUtf8(
(java.lang.String) ref);
aggregateValue_ = b;
return b;
} else {
return (com.google.protobuf.ByteString) ref;
}
}
/**
* <code>optional string aggregate_value = 8;</code>
*/
public Builder setAggregateValue(
java.lang.String value) {
if (value == null) {
throw new NullPointerException();
}
bitField0_ |= 0x00000040;
aggregateValue_ = value;
onChanged();
return this;
}
/**
* <code>optional string aggregate_value = 8;</code>
*/
public Builder clearAggregateValue() {
bitField0_ = (bitField0_ & ~0x00000040);
aggregateValue_ = getDefaultInstance().getAggregateValue();
onChanged();
return this;
}
/**
* <code>optional string aggregate_value = 8;</code>
*/
public Builder setAggregateValueBytes(
com.google.protobuf.ByteString value) {
if (value == null) {
throw new NullPointerException();
}
bitField0_ |= 0x00000040;
aggregateValue_ = value;
onChanged();
return this;
}
// @@protoc_insertion_point(builder_scope:google.protobuf.UninterpretedOption)
}
static {
defaultInstance = new UninterpretedOption(true);
defaultInstance.initFields();
}
// @@protoc_insertion_point(class_scope:google.protobuf.UninterpretedOption)
}
public interface SourceCodeInfoOrBuilder extends
// @@protoc_insertion_point(interface_extends:google.protobuf.SourceCodeInfo)
com.google.protobuf.MessageOrBuilder {
/**
* <code>repeated .google.protobuf.SourceCodeInfo.Location location = 1;</code>
*
* <pre>
* A Location identifies a piece of source code in a .proto file which
* corresponds to a particular definition. This information is intended
* to be useful to IDEs, code indexers, documentation generators, and similar
* tools.
* For example, say we have a file like:
* message Foo {
* optional string foo = 1;
* }
* Let's look at just the field definition:
* optional string foo = 1;
* ^ ^^ ^^ ^ ^^^
* a bc de f ghi
* We have the following locations:
* span path represents
* [a,i) [ 4, 0, 2, 0 ] The whole field definition.
* [a,b) [ 4, 0, 2, 0, 4 ] The label (optional).
* [c,d) [ 4, 0, 2, 0, 5 ] The type (string).
* [e,f) [ 4, 0, 2, 0, 1 ] The name (foo).
* [g,h) [ 4, 0, 2, 0, 3 ] The number (1).
* Notes:
* - A location may refer to a repeated field itself (i.e. not to any
* particular index within it). This is used whenever a set of elements are
* logically enclosed in a single code segment. For example, an entire
* extend block (possibly containing multiple extension definitions) will
* have an outer location whose path refers to the "extensions" repeated
* field without an index.
* - Multiple locations may have the same path. This happens when a single
* logical declaration is spread out across multiple places. The most
* obvious example is the "extend" block again -- there may be multiple
* extend blocks in the same scope, each of which will have the same path.
* - A location's span is not always a subset of its parent's span. For
* example, the "extendee" of an extension declaration appears at the
* beginning of the "extend" block and is shared by all extensions within
* the block.
* - Just because a location's span is a subset of some other location's span
* does not mean that it is a descendent. For example, a "group" defines
* both a type and a field in a single declaration. Thus, the locations
* corresponding to the type and field and their components will overlap.
* - Code which tries to interpret locations should probably be designed to
* ignore those that it doesn't understand, as more types of locations could
* be recorded in the future.
* </pre>
*/
java.util.List<com.google.protobuf.DescriptorProtos.SourceCodeInfo.Location>
getLocationList();
/**
* <code>repeated .google.protobuf.SourceCodeInfo.Location location = 1;</code>
*
* <pre>
* A Location identifies a piece of source code in a .proto file which
* corresponds to a particular definition. This information is intended
* to be useful to IDEs, code indexers, documentation generators, and similar
* tools.
* For example, say we have a file like:
* message Foo {
* optional string foo = 1;
* }
* Let's look at just the field definition:
* optional string foo = 1;
* ^ ^^ ^^ ^ ^^^
* a bc de f ghi
* We have the following locations:
* span path represents
* [a,i) [ 4, 0, 2, 0 ] The whole field definition.
* [a,b) [ 4, 0, 2, 0, 4 ] The label (optional).
* [c,d) [ 4, 0, 2, 0, 5 ] The type (string).
* [e,f) [ 4, 0, 2, 0, 1 ] The name (foo).
* [g,h) [ 4, 0, 2, 0, 3 ] The number (1).
* Notes:
* - A location may refer to a repeated field itself (i.e. not to any
* particular index within it). This is used whenever a set of elements are
* logically enclosed in a single code segment. For example, an entire
* extend block (possibly containing multiple extension definitions) will
* have an outer location whose path refers to the "extensions" repeated
* field without an index.
* - Multiple locations may have the same path. This happens when a single
* logical declaration is spread out across multiple places. The most
* obvious example is the "extend" block again -- there may be multiple
* extend blocks in the same scope, each of which will have the same path.
* - A location's span is not always a subset of its parent's span. For
* example, the "extendee" of an extension declaration appears at the
* beginning of the "extend" block and is shared by all extensions within
* the block.
* - Just because a location's span is a subset of some other location's span
* does not mean that it is a descendent. For example, a "group" defines
* both a type and a field in a single declaration. Thus, the locations
* corresponding to the type and field and their components will overlap.
* - Code which tries to interpret locations should probably be designed to
* ignore those that it doesn't understand, as more types of locations could
* be recorded in the future.
* </pre>
*/
com.google.protobuf.DescriptorProtos.SourceCodeInfo.Location getLocation(int index);
/**
* <code>repeated .google.protobuf.SourceCodeInfo.Location location = 1;</code>
*
* <pre>
* A Location identifies a piece of source code in a .proto file which
* corresponds to a particular definition. This information is intended
* to be useful to IDEs, code indexers, documentation generators, and similar
* tools.
* For example, say we have a file like:
* message Foo {
* optional string foo = 1;
* }
* Let's look at just the field definition:
* optional string foo = 1;
* ^ ^^ ^^ ^ ^^^
* a bc de f ghi
* We have the following locations:
* span path represents
* [a,i) [ 4, 0, 2, 0 ] The whole field definition.
* [a,b) [ 4, 0, 2, 0, 4 ] The label (optional).
* [c,d) [ 4, 0, 2, 0, 5 ] The type (string).
* [e,f) [ 4, 0, 2, 0, 1 ] The name (foo).
* [g,h) [ 4, 0, 2, 0, 3 ] The number (1).
* Notes:
* - A location may refer to a repeated field itself (i.e. not to any
* particular index within it). This is used whenever a set of elements are
* logically enclosed in a single code segment. For example, an entire
* extend block (possibly containing multiple extension definitions) will
* have an outer location whose path refers to the "extensions" repeated
* field without an index.
* - Multiple locations may have the same path. This happens when a single
* logical declaration is spread out across multiple places. The most
* obvious example is the "extend" block again -- there may be multiple
* extend blocks in the same scope, each of which will have the same path.
* - A location's span is not always a subset of its parent's span. For
* example, the "extendee" of an extension declaration appears at the
* beginning of the "extend" block and is shared by all extensions within
* the block.
* - Just because a location's span is a subset of some other location's span
* does not mean that it is a descendent. For example, a "group" defines
* both a type and a field in a single declaration. Thus, the locations
* corresponding to the type and field and their components will overlap.
* - Code which tries to interpret locations should probably be designed to
* ignore those that it doesn't understand, as more types of locations could
* be recorded in the future.
* </pre>
*/
int getLocationCount();
/**
* <code>repeated .google.protobuf.SourceCodeInfo.Location location = 1;</code>
*
* <pre>
* A Location identifies a piece of source code in a .proto file which
* corresponds to a particular definition. This information is intended
* to be useful to IDEs, code indexers, documentation generators, and similar
* tools.
* For example, say we have a file like:
* message Foo {
* optional string foo = 1;
* }
* Let's look at just the field definition:
* optional string foo = 1;
* ^ ^^ ^^ ^ ^^^
* a bc de f ghi
* We have the following locations:
* span path represents
* [a,i) [ 4, 0, 2, 0 ] The whole field definition.
* [a,b) [ 4, 0, 2, 0, 4 ] The label (optional).
* [c,d) [ 4, 0, 2, 0, 5 ] The type (string).
* [e,f) [ 4, 0, 2, 0, 1 ] The name (foo).
* [g,h) [ 4, 0, 2, 0, 3 ] The number (1).
* Notes:
* - A location may refer to a repeated field itself (i.e. not to any
* particular index within it). This is used whenever a set of elements are
* logically enclosed in a single code segment. For example, an entire
* extend block (possibly containing multiple extension definitions) will
* have an outer location whose path refers to the "extensions" repeated
* field without an index.
* - Multiple locations may have the same path. This happens when a single
* logical declaration is spread out across multiple places. The most
* obvious example is the "extend" block again -- there may be multiple
* extend blocks in the same scope, each of which will have the same path.
* - A location's span is not always a subset of its parent's span. For
* example, the "extendee" of an extension declaration appears at the
* beginning of the "extend" block and is shared by all extensions within
* the block.
* - Just because a location's span is a subset of some other location's span
* does not mean that it is a descendent. For example, a "group" defines
* both a type and a field in a single declaration. Thus, the locations
* corresponding to the type and field and their components will overlap.
* - Code which tries to interpret locations should probably be designed to
* ignore those that it doesn't understand, as more types of locations could
* be recorded in the future.
* </pre>
*/
java.util.List<? extends com.google.protobuf.DescriptorProtos.SourceCodeInfo.LocationOrBuilder>
getLocationOrBuilderList();
/**
* <code>repeated .google.protobuf.SourceCodeInfo.Location location = 1;</code>
*
* <pre>
* A Location identifies a piece of source code in a .proto file which
* corresponds to a particular definition. This information is intended
* to be useful to IDEs, code indexers, documentation generators, and similar
* tools.
* For example, say we have a file like:
* message Foo {
* optional string foo = 1;
* }
* Let's look at just the field definition:
* optional string foo = 1;
* ^ ^^ ^^ ^ ^^^
* a bc de f ghi
* We have the following locations:
* span path represents
* [a,i) [ 4, 0, 2, 0 ] The whole field definition.
* [a,b) [ 4, 0, 2, 0, 4 ] The label (optional).
* [c,d) [ 4, 0, 2, 0, 5 ] The type (string).
* [e,f) [ 4, 0, 2, 0, 1 ] The name (foo).
* [g,h) [ 4, 0, 2, 0, 3 ] The number (1).
* Notes:
* - A location may refer to a repeated field itself (i.e. not to any
* particular index within it). This is used whenever a set of elements are
* logically enclosed in a single code segment. For example, an entire
* extend block (possibly containing multiple extension definitions) will
* have an outer location whose path refers to the "extensions" repeated
* field without an index.
* - Multiple locations may have the same path. This happens when a single
* logical declaration is spread out across multiple places. The most
* obvious example is the "extend" block again -- there may be multiple
* extend blocks in the same scope, each of which will have the same path.
* - A location's span is not always a subset of its parent's span. For
* example, the "extendee" of an extension declaration appears at the
* beginning of the "extend" block and is shared by all extensions within
* the block.
* - Just because a location's span is a subset of some other location's span
* does not mean that it is a descendent. For example, a "group" defines
* both a type and a field in a single declaration. Thus, the locations
* corresponding to the type and field and their components will overlap.
* - Code which tries to interpret locations should probably be designed to
* ignore those that it doesn't understand, as more types of locations could
* be recorded in the future.
* </pre>
*/
com.google.protobuf.DescriptorProtos.SourceCodeInfo.LocationOrBuilder getLocationOrBuilder(
int index);
}
/**
* Protobuf type {@code google.protobuf.SourceCodeInfo}
*
* <pre>
* Encapsulates information about the original source file from which a
* FileDescriptorProto was generated.
* </pre>
*/
public static final class SourceCodeInfo extends
com.google.protobuf.GeneratedMessage implements
// @@protoc_insertion_point(message_implements:google.protobuf.SourceCodeInfo)
SourceCodeInfoOrBuilder {
// Use SourceCodeInfo.newBuilder() to construct.
private SourceCodeInfo(com.google.protobuf.GeneratedMessage.Builder<?> builder) {
super(builder);
this.unknownFields = builder.getUnknownFields();
}
private SourceCodeInfo(boolean noInit) { this.unknownFields = com.google.protobuf.UnknownFieldSet.getDefaultInstance(); }
private static final SourceCodeInfo defaultInstance;
public static SourceCodeInfo getDefaultInstance() {
return defaultInstance;
}
public SourceCodeInfo getDefaultInstanceForType() {
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* Only the comment content is provided; comment markers (e.g. //) are
* stripped out. For block comments, leading whitespace and an asterisk
* will be stripped from the beginning of each line other than the first.
* Newlines are included in the output.
* Examples:
* optional int32 foo = 1; // Comment attached to foo.
* // Comment attached to bar.
* optional int32 bar = 2;
* optional string baz = 3;
* // Comment attached to baz.
* // Another line attached to baz.
* // Comment attached to qux.
* //
* // Another line attached to qux.
* optional double qux = 4;
* optional string corge = 5;
* /* Block comment attached
* * to corge. Leading asterisks
* * will be removed. */
* /* Block comment attached to
* * grault. */
* optional int32 grault = 6;
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public com.google.protobuf.ByteString
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java.lang.Object ref = leadingComments_;
if (ref instanceof String) {
com.google.protobuf.ByteString b =
com.google.protobuf.ByteString.copyFromUtf8(
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leadingComments_ = b;
return b;
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return (com.google.protobuf.ByteString) ref;
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/**
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*
* <pre>
* If this SourceCodeInfo represents a complete declaration, these are any
* comments appearing before and after the declaration which appear to be
* attached to the declaration.
* A series of line comments appearing on consecutive lines, with no other
* tokens appearing on those lines, will be treated as a single comment.
* Only the comment content is provided; comment markers (e.g. //) are
* stripped out. For block comments, leading whitespace and an asterisk
* will be stripped from the beginning of each line other than the first.
* Newlines are included in the output.
* Examples:
* optional int32 foo = 1; // Comment attached to foo.
* // Comment attached to bar.
* optional int32 bar = 2;
* optional string baz = 3;
* // Comment attached to baz.
* // Another line attached to baz.
* // Comment attached to qux.
* //
* // Another line attached to qux.
* optional double qux = 4;
* optional string corge = 5;
* /* Block comment attached
* * to corge. Leading asterisks
* * will be removed. */
* /* Block comment attached to
* * grault. */
* optional int32 grault = 6;
* </pre>
*/
public Builder setLeadingComments(
java.lang.String value) {
if (value == null) {
throw new NullPointerException();
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bitField0_ |= 0x00000004;
leadingComments_ = value;
onChanged();
return this;
}
/**
* <code>optional string leading_comments = 3;</code>
*
* <pre>
* If this SourceCodeInfo represents a complete declaration, these are any
* comments appearing before and after the declaration which appear to be
* attached to the declaration.
* A series of line comments appearing on consecutive lines, with no other
* tokens appearing on those lines, will be treated as a single comment.
* Only the comment content is provided; comment markers (e.g. //) are
* stripped out. For block comments, leading whitespace and an asterisk
* will be stripped from the beginning of each line other than the first.
* Newlines are included in the output.
* Examples:
* optional int32 foo = 1; // Comment attached to foo.
* // Comment attached to bar.
* optional int32 bar = 2;
* optional string baz = 3;
* // Comment attached to baz.
* // Another line attached to baz.
* // Comment attached to qux.
* //
* // Another line attached to qux.
* optional double qux = 4;
* optional string corge = 5;
* /* Block comment attached
* * to corge. Leading asterisks
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* /* Block comment attached to
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* optional int32 grault = 6;
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public Builder clearLeadingComments() {
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leadingComments_ = getDefaultInstance().getLeadingComments();
onChanged();
return this;
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/**
* <code>optional string leading_comments = 3;</code>
*
* <pre>
* If this SourceCodeInfo represents a complete declaration, these are any
* comments appearing before and after the declaration which appear to be
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* A series of line comments appearing on consecutive lines, with no other
* tokens appearing on those lines, will be treated as a single comment.
* Only the comment content is provided; comment markers (e.g. //) are
* stripped out. For block comments, leading whitespace and an asterisk
* will be stripped from the beginning of each line other than the first.
* Newlines are included in the output.
* Examples:
* optional int32 foo = 1; // Comment attached to foo.
* // Comment attached to bar.
* optional int32 bar = 2;
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* // Comment attached to baz.
* // Another line attached to baz.
* // Comment attached to qux.
* //
* // Another line attached to qux.
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* optional string corge = 5;
* /* Block comment attached
* * to corge. Leading asterisks
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* /* Block comment attached to
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onChanged();
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static {
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public static final int LOCATION_FIELD_NUMBER = 1;
private java.util.List<com.google.protobuf.DescriptorProtos.SourceCodeInfo.Location> location_;
/**
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*
* <pre>
* A Location identifies a piece of source code in a .proto file which
* corresponds to a particular definition. This information is intended
* to be useful to IDEs, code indexers, documentation generators, and similar
* tools.
* For example, say we have a file like:
* message Foo {
* optional string foo = 1;
* }
* Let's look at just the field definition:
* optional string foo = 1;
* ^ ^^ ^^ ^ ^^^
* a bc de f ghi
* We have the following locations:
* span path represents
* [a,i) [ 4, 0, 2, 0 ] The whole field definition.
* [a,b) [ 4, 0, 2, 0, 4 ] The label (optional).
* [c,d) [ 4, 0, 2, 0, 5 ] The type (string).
* [e,f) [ 4, 0, 2, 0, 1 ] The name (foo).
* [g,h) [ 4, 0, 2, 0, 3 ] The number (1).
* Notes:
* - A location may refer to a repeated field itself (i.e. not to any
* particular index within it). This is used whenever a set of elements are
* logically enclosed in a single code segment. For example, an entire
* extend block (possibly containing multiple extension definitions) will
* have an outer location whose path refers to the "extensions" repeated
* field without an index.
* - Multiple locations may have the same path. This happens when a single
* logical declaration is spread out across multiple places. The most
* obvious example is the "extend" block again -- there may be multiple
* extend blocks in the same scope, each of which will have the same path.
* - A location's span is not always a subset of its parent's span. For
* example, the "extendee" of an extension declaration appears at the
* beginning of the "extend" block and is shared by all extensions within
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* - Just because a location's span is a subset of some other location's span
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* both a type and a field in a single declaration. Thus, the locations
* corresponding to the type and field and their components will overlap.
* - Code which tries to interpret locations should probably be designed to
* ignore those that it doesn't understand, as more types of locations could
* be recorded in the future.
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*/
public java.util.List<com.google.protobuf.DescriptorProtos.SourceCodeInfo.Location> getLocationList() {
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/**
* <code>repeated .google.protobuf.SourceCodeInfo.Location location = 1;</code>
*
* <pre>
* A Location identifies a piece of source code in a .proto file which
* corresponds to a particular definition. This information is intended
* to be useful to IDEs, code indexers, documentation generators, and similar
* tools.
* For example, say we have a file like:
* message Foo {
* optional string foo = 1;
* }
* Let's look at just the field definition:
* optional string foo = 1;
* ^ ^^ ^^ ^ ^^^
* a bc de f ghi
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* span path represents
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* [a,b) [ 4, 0, 2, 0, 4 ] The label (optional).
* [c,d) [ 4, 0, 2, 0, 5 ] The type (string).
* [e,f) [ 4, 0, 2, 0, 1 ] The name (foo).
* [g,h) [ 4, 0, 2, 0, 3 ] The number (1).
* Notes:
* - A location may refer to a repeated field itself (i.e. not to any
* particular index within it). This is used whenever a set of elements are
* logically enclosed in a single code segment. For example, an entire
* extend block (possibly containing multiple extension definitions) will
* have an outer location whose path refers to the "extensions" repeated
* field without an index.
* - Multiple locations may have the same path. This happens when a single
* logical declaration is spread out across multiple places. The most
* obvious example is the "extend" block again -- there may be multiple
* extend blocks in the same scope, each of which will have the same path.
* - A location's span is not always a subset of its parent's span. For
* example, the "extendee" of an extension declaration appears at the
* beginning of the "extend" block and is shared by all extensions within
* the block.
* - Just because a location's span is a subset of some other location's span
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* both a type and a field in a single declaration. Thus, the locations
* corresponding to the type and field and their components will overlap.
* - Code which tries to interpret locations should probably be designed to
* ignore those that it doesn't understand, as more types of locations could
* be recorded in the future.
* </pre>
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getLocationOrBuilderList() {
return location_;
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/**
* <code>repeated .google.protobuf.SourceCodeInfo.Location location = 1;</code>
*
* <pre>
* A Location identifies a piece of source code in a .proto file which
* corresponds to a particular definition. This information is intended
* to be useful to IDEs, code indexers, documentation generators, and similar
* tools.
* For example, say we have a file like:
* message Foo {
* optional string foo = 1;
* }
* Let's look at just the field definition:
* optional string foo = 1;
* ^ ^^ ^^ ^ ^^^
* a bc de f ghi
* We have the following locations:
* span path represents
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* [a,b) [ 4, 0, 2, 0, 4 ] The label (optional).
* [c,d) [ 4, 0, 2, 0, 5 ] The type (string).
* [e,f) [ 4, 0, 2, 0, 1 ] The name (foo).
* [g,h) [ 4, 0, 2, 0, 3 ] The number (1).
* Notes:
* - A location may refer to a repeated field itself (i.e. not to any
* particular index within it). This is used whenever a set of elements are
* logically enclosed in a single code segment. For example, an entire
* extend block (possibly containing multiple extension definitions) will
* have an outer location whose path refers to the "extensions" repeated
* field without an index.
* - Multiple locations may have the same path. This happens when a single
* logical declaration is spread out across multiple places. The most
* obvious example is the "extend" block again -- there may be multiple
* extend blocks in the same scope, each of which will have the same path.
* - A location's span is not always a subset of its parent's span. For
* example, the "extendee" of an extension declaration appears at the
* beginning of the "extend" block and is shared by all extensions within
* the block.
* - Just because a location's span is a subset of some other location's span
* does not mean that it is a descendent. For example, a "group" defines
* both a type and a field in a single declaration. Thus, the locations
* corresponding to the type and field and their components will overlap.
* - Code which tries to interpret locations should probably be designed to
* ignore those that it doesn't understand, as more types of locations could
* be recorded in the future.
* </pre>
*/
public int getLocationCount() {
return location_.size();
}
/**
* <code>repeated .google.protobuf.SourceCodeInfo.Location location = 1;</code>
*
* <pre>
* A Location identifies a piece of source code in a .proto file which
* corresponds to a particular definition. This information is intended
* to be useful to IDEs, code indexers, documentation generators, and similar
* tools.
* For example, say we have a file like:
* message Foo {
* optional string foo = 1;
* }
* Let's look at just the field definition:
* optional string foo = 1;
* ^ ^^ ^^ ^ ^^^
* a bc de f ghi
* We have the following locations:
* span path represents
* [a,i) [ 4, 0, 2, 0 ] The whole field definition.
* [a,b) [ 4, 0, 2, 0, 4 ] The label (optional).
* [c,d) [ 4, 0, 2, 0, 5 ] The type (string).
* [e,f) [ 4, 0, 2, 0, 1 ] The name (foo).
* [g,h) [ 4, 0, 2, 0, 3 ] The number (1).
* Notes:
* - A location may refer to a repeated field itself (i.e. not to any
* particular index within it). This is used whenever a set of elements are
* logically enclosed in a single code segment. For example, an entire
* extend block (possibly containing multiple extension definitions) will
* have an outer location whose path refers to the "extensions" repeated
* field without an index.
* - Multiple locations may have the same path. This happens when a single
* logical declaration is spread out across multiple places. The most
* obvious example is the "extend" block again -- there may be multiple
* extend blocks in the same scope, each of which will have the same path.
* - A location's span is not always a subset of its parent's span. For
* example, the "extendee" of an extension declaration appears at the
* beginning of the "extend" block and is shared by all extensions within
* the block.
* - Just because a location's span is a subset of some other location's span
* does not mean that it is a descendent. For example, a "group" defines
* both a type and a field in a single declaration. Thus, the locations
* corresponding to the type and field and their components will overlap.
* - Code which tries to interpret locations should probably be designed to
* ignore those that it doesn't understand, as more types of locations could
* be recorded in the future.
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*/
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/**
* <code>repeated .google.protobuf.SourceCodeInfo.Location location = 1;</code>
*
* <pre>
* A Location identifies a piece of source code in a .proto file which
* corresponds to a particular definition. This information is intended
* to be useful to IDEs, code indexers, documentation generators, and similar
* tools.
* For example, say we have a file like:
* message Foo {
* optional string foo = 1;
* }
* Let's look at just the field definition:
* optional string foo = 1;
* ^ ^^ ^^ ^ ^^^
* a bc de f ghi
* We have the following locations:
* span path represents
* [a,i) [ 4, 0, 2, 0 ] The whole field definition.
* [a,b) [ 4, 0, 2, 0, 4 ] The label (optional).
* [c,d) [ 4, 0, 2, 0, 5 ] The type (string).
* [e,f) [ 4, 0, 2, 0, 1 ] The name (foo).
* [g,h) [ 4, 0, 2, 0, 3 ] The number (1).
* Notes:
* - A location may refer to a repeated field itself (i.e. not to any
* particular index within it). This is used whenever a set of elements are
* logically enclosed in a single code segment. For example, an entire
* extend block (possibly containing multiple extension definitions) will
* have an outer location whose path refers to the "extensions" repeated
* field without an index.
* - Multiple locations may have the same path. This happens when a single
* logical declaration is spread out across multiple places. The most
* obvious example is the "extend" block again -- there may be multiple
* extend blocks in the same scope, each of which will have the same path.
* - A location's span is not always a subset of its parent's span. For
* example, the "extendee" of an extension declaration appears at the
* beginning of the "extend" block and is shared by all extensions within
* the block.
* - Just because a location's span is a subset of some other location's span
* does not mean that it is a descendent. For example, a "group" defines
* both a type and a field in a single declaration. Thus, the locations
* corresponding to the type and field and their components will overlap.
* - Code which tries to interpret locations should probably be designed to
* ignore those that it doesn't understand, as more types of locations could
* be recorded in the future.
* </pre>
*/
public com.google.protobuf.DescriptorProtos.SourceCodeInfo.LocationOrBuilder getLocationOrBuilder(
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public static com.google.protobuf.DescriptorProtos.SourceCodeInfo parseFrom(
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this.mergeUnknownFields(other.getUnknownFields());
return this;
}
public final boolean isInitialized() {
return true;
}
public Builder mergeFrom(
com.google.protobuf.CodedInputStream input,
com.google.protobuf.ExtensionRegistryLite extensionRegistry)
throws java.io.IOException {
com.google.protobuf.DescriptorProtos.SourceCodeInfo parsedMessage = null;
try {
parsedMessage = PARSER.parsePartialFrom(input, extensionRegistry);
} catch (com.google.protobuf.InvalidProtocolBufferException e) {
parsedMessage = (com.google.protobuf.DescriptorProtos.SourceCodeInfo) e.getUnfinishedMessage();
throw e;
} finally {
if (parsedMessage != null) {
mergeFrom(parsedMessage);
}
}
return this;
}
private int bitField0_;
private java.util.List<com.google.protobuf.DescriptorProtos.SourceCodeInfo.Location> location_ =
java.util.Collections.emptyList();
private void ensureLocationIsMutable() {
if (!((bitField0_ & 0x00000001) == 0x00000001)) {
location_ = new java.util.ArrayList<com.google.protobuf.DescriptorProtos.SourceCodeInfo.Location>(location_);
bitField0_ |= 0x00000001;
}
}
private com.google.protobuf.RepeatedFieldBuilder<
com.google.protobuf.DescriptorProtos.SourceCodeInfo.Location, com.google.protobuf.DescriptorProtos.SourceCodeInfo.Location.Builder, com.google.protobuf.DescriptorProtos.SourceCodeInfo.LocationOrBuilder> locationBuilder_;
/**
* <code>repeated .google.protobuf.SourceCodeInfo.Location location = 1;</code>
*
* <pre>
* A Location identifies a piece of source code in a .proto file which
* corresponds to a particular definition. This information is intended
* to be useful to IDEs, code indexers, documentation generators, and similar
* tools.
* For example, say we have a file like:
* message Foo {
* optional string foo = 1;
* }
* Let's look at just the field definition:
* optional string foo = 1;
* ^ ^^ ^^ ^ ^^^
* a bc de f ghi
* We have the following locations:
* span path represents
* [a,i) [ 4, 0, 2, 0 ] The whole field definition.
* [a,b) [ 4, 0, 2, 0, 4 ] The label (optional).
* [c,d) [ 4, 0, 2, 0, 5 ] The type (string).
* [e,f) [ 4, 0, 2, 0, 1 ] The name (foo).
* [g,h) [ 4, 0, 2, 0, 3 ] The number (1).
* Notes:
* - A location may refer to a repeated field itself (i.e. not to any
* particular index within it). This is used whenever a set of elements are
* logically enclosed in a single code segment. For example, an entire
* extend block (possibly containing multiple extension definitions) will
* have an outer location whose path refers to the "extensions" repeated
* field without an index.
* - Multiple locations may have the same path. This happens when a single
* logical declaration is spread out across multiple places. The most
* obvious example is the "extend" block again -- there may be multiple
* extend blocks in the same scope, each of which will have the same path.
* - A location's span is not always a subset of its parent's span. For
* example, the "extendee" of an extension declaration appears at the
* beginning of the "extend" block and is shared by all extensions within
* the block.
* - Just because a location's span is a subset of some other location's span
* does not mean that it is a descendent. For example, a "group" defines
* both a type and a field in a single declaration. Thus, the locations
* corresponding to the type and field and their components will overlap.
* - Code which tries to interpret locations should probably be designed to
* ignore those that it doesn't understand, as more types of locations could
* be recorded in the future.
* </pre>
*/
public java.util.List<com.google.protobuf.DescriptorProtos.SourceCodeInfo.Location> getLocationList() {
if (locationBuilder_ == null) {
return java.util.Collections.unmodifiableList(location_);
} else {
return locationBuilder_.getMessageList();
}
}
/**
* <code>repeated .google.protobuf.SourceCodeInfo.Location location = 1;</code>
*
* <pre>
* A Location identifies a piece of source code in a .proto file which
* corresponds to a particular definition. This information is intended
* to be useful to IDEs, code indexers, documentation generators, and similar
* tools.
* For example, say we have a file like:
* message Foo {
* optional string foo = 1;
* }
* Let's look at just the field definition:
* optional string foo = 1;
* ^ ^^ ^^ ^ ^^^
* a bc de f ghi
* We have the following locations:
* span path represents
* [a,i) [ 4, 0, 2, 0 ] The whole field definition.
* [a,b) [ 4, 0, 2, 0, 4 ] The label (optional).
* [c,d) [ 4, 0, 2, 0, 5 ] The type (string).
* [e,f) [ 4, 0, 2, 0, 1 ] The name (foo).
* [g,h) [ 4, 0, 2, 0, 3 ] The number (1).
* Notes:
* - A location may refer to a repeated field itself (i.e. not to any
* particular index within it). This is used whenever a set of elements are
* logically enclosed in a single code segment. For example, an entire
* extend block (possibly containing multiple extension definitions) will
* have an outer location whose path refers to the "extensions" repeated
* field without an index.
* - Multiple locations may have the same path. This happens when a single
* logical declaration is spread out across multiple places. The most
* obvious example is the "extend" block again -- there may be multiple
* extend blocks in the same scope, each of which will have the same path.
* - A location's span is not always a subset of its parent's span. For
* example, the "extendee" of an extension declaration appears at the
* beginning of the "extend" block and is shared by all extensions within
* the block.
* - Just because a location's span is a subset of some other location's span
* does not mean that it is a descendent. For example, a "group" defines
* both a type and a field in a single declaration. Thus, the locations
* corresponding to the type and field and their components will overlap.
* - Code which tries to interpret locations should probably be designed to
* ignore those that it doesn't understand, as more types of locations could
* be recorded in the future.
* </pre>
*/
public int getLocationCount() {
if (locationBuilder_ == null) {
return location_.size();
} else {
return locationBuilder_.getCount();
}
}
/**
* <code>repeated .google.protobuf.SourceCodeInfo.Location location = 1;</code>
*
* <pre>
* A Location identifies a piece of source code in a .proto file which
* corresponds to a particular definition. This information is intended
* to be useful to IDEs, code indexers, documentation generators, and similar
* tools.
* For example, say we have a file like:
* message Foo {
* optional string foo = 1;
* }
* Let's look at just the field definition:
* optional string foo = 1;
* ^ ^^ ^^ ^ ^^^
* a bc de f ghi
* We have the following locations:
* span path represents
* [a,i) [ 4, 0, 2, 0 ] The whole field definition.
* [a,b) [ 4, 0, 2, 0, 4 ] The label (optional).
* [c,d) [ 4, 0, 2, 0, 5 ] The type (string).
* [e,f) [ 4, 0, 2, 0, 1 ] The name (foo).
* [g,h) [ 4, 0, 2, 0, 3 ] The number (1).
* Notes:
* - A location may refer to a repeated field itself (i.e. not to any
* particular index within it). This is used whenever a set of elements are
* logically enclosed in a single code segment. For example, an entire
* extend block (possibly containing multiple extension definitions) will
* have an outer location whose path refers to the "extensions" repeated
* field without an index.
* - Multiple locations may have the same path. This happens when a single
* logical declaration is spread out across multiple places. The most
* obvious example is the "extend" block again -- there may be multiple
* extend blocks in the same scope, each of which will have the same path.
* - A location's span is not always a subset of its parent's span. For
* example, the "extendee" of an extension declaration appears at the
* beginning of the "extend" block and is shared by all extensions within
* the block.
* - Just because a location's span is a subset of some other location's span
* does not mean that it is a descendent. For example, a "group" defines
* both a type and a field in a single declaration. Thus, the locations
* corresponding to the type and field and their components will overlap.
* - Code which tries to interpret locations should probably be designed to
* ignore those that it doesn't understand, as more types of locations could
* be recorded in the future.
* </pre>
*/
public com.google.protobuf.DescriptorProtos.SourceCodeInfo.Location getLocation(int index) {
if (locationBuilder_ == null) {
return location_.get(index);
} else {
return locationBuilder_.getMessage(index);
}
}
/**
* <code>repeated .google.protobuf.SourceCodeInfo.Location location = 1;</code>
*
* <pre>
* A Location identifies a piece of source code in a .proto file which
* corresponds to a particular definition. This information is intended
* to be useful to IDEs, code indexers, documentation generators, and similar
* tools.
* For example, say we have a file like:
* message Foo {
* optional string foo = 1;
* }
* Let's look at just the field definition:
* optional string foo = 1;
* ^ ^^ ^^ ^ ^^^
* a bc de f ghi
* We have the following locations:
* span path represents
* [a,i) [ 4, 0, 2, 0 ] The whole field definition.
* [a,b) [ 4, 0, 2, 0, 4 ] The label (optional).
* [c,d) [ 4, 0, 2, 0, 5 ] The type (string).
* [e,f) [ 4, 0, 2, 0, 1 ] The name (foo).
* [g,h) [ 4, 0, 2, 0, 3 ] The number (1).
* Notes:
* - A location may refer to a repeated field itself (i.e. not to any
* particular index within it). This is used whenever a set of elements are
* logically enclosed in a single code segment. For example, an entire
* extend block (possibly containing multiple extension definitions) will
* have an outer location whose path refers to the "extensions" repeated
* field without an index.
* - Multiple locations may have the same path. This happens when a single
* logical declaration is spread out across multiple places. The most
* obvious example is the "extend" block again -- there may be multiple
* extend blocks in the same scope, each of which will have the same path.
* - A location's span is not always a subset of its parent's span. For
* example, the "extendee" of an extension declaration appears at the
* beginning of the "extend" block and is shared by all extensions within
* the block.
* - Just because a location's span is a subset of some other location's span
* does not mean that it is a descendent. For example, a "group" defines
* both a type and a field in a single declaration. Thus, the locations
* corresponding to the type and field and their components will overlap.
* - Code which tries to interpret locations should probably be designed to
* ignore those that it doesn't understand, as more types of locations could
* be recorded in the future.
* </pre>
*/
public Builder setLocation(
int index, com.google.protobuf.DescriptorProtos.SourceCodeInfo.Location value) {
if (locationBuilder_ == null) {
if (value == null) {
throw new NullPointerException();
}
ensureLocationIsMutable();
location_.set(index, value);
onChanged();
} else {
locationBuilder_.setMessage(index, value);
}
return this;
}
/**
* <code>repeated .google.protobuf.SourceCodeInfo.Location location = 1;</code>
*
* <pre>
* A Location identifies a piece of source code in a .proto file which
* corresponds to a particular definition. This information is intended
* to be useful to IDEs, code indexers, documentation generators, and similar
* tools.
* For example, say we have a file like:
* message Foo {
* optional string foo = 1;
* }
* Let's look at just the field definition:
* optional string foo = 1;
* ^ ^^ ^^ ^ ^^^
* a bc de f ghi
* We have the following locations:
* span path represents
* [a,i) [ 4, 0, 2, 0 ] The whole field definition.
* [a,b) [ 4, 0, 2, 0, 4 ] The label (optional).
* [c,d) [ 4, 0, 2, 0, 5 ] The type (string).
* [e,f) [ 4, 0, 2, 0, 1 ] The name (foo).
* [g,h) [ 4, 0, 2, 0, 3 ] The number (1).
* Notes:
* - A location may refer to a repeated field itself (i.e. not to any
* particular index within it). This is used whenever a set of elements are
* logically enclosed in a single code segment. For example, an entire
* extend block (possibly containing multiple extension definitions) will
* have an outer location whose path refers to the "extensions" repeated
* field without an index.
* - Multiple locations may have the same path. This happens when a single
* logical declaration is spread out across multiple places. The most
* obvious example is the "extend" block again -- there may be multiple
* extend blocks in the same scope, each of which will have the same path.
* - A location's span is not always a subset of its parent's span. For
* example, the "extendee" of an extension declaration appears at the
* beginning of the "extend" block and is shared by all extensions within
* the block.
* - Just because a location's span is a subset of some other location's span
* does not mean that it is a descendent. For example, a "group" defines
* both a type and a field in a single declaration. Thus, the locations
* corresponding to the type and field and their components will overlap.
* - Code which tries to interpret locations should probably be designed to
* ignore those that it doesn't understand, as more types of locations could
* be recorded in the future.
* </pre>
*/
public Builder setLocation(
int index, com.google.protobuf.DescriptorProtos.SourceCodeInfo.Location.Builder builderForValue) {
if (locationBuilder_ == null) {
ensureLocationIsMutable();
location_.set(index, builderForValue.build());
onChanged();
} else {
locationBuilder_.setMessage(index, builderForValue.build());
}
return this;
}
/**
* <code>repeated .google.protobuf.SourceCodeInfo.Location location = 1;</code>
*
* <pre>
* A Location identifies a piece of source code in a .proto file which
* corresponds to a particular definition. This information is intended
* to be useful to IDEs, code indexers, documentation generators, and similar
* tools.
* For example, say we have a file like:
* message Foo {
* optional string foo = 1;
* }
* Let's look at just the field definition:
* optional string foo = 1;
* ^ ^^ ^^ ^ ^^^
* a bc de f ghi
* We have the following locations:
* span path represents
* [a,i) [ 4, 0, 2, 0 ] The whole field definition.
* [a,b) [ 4, 0, 2, 0, 4 ] The label (optional).
* [c,d) [ 4, 0, 2, 0, 5 ] The type (string).
* [e,f) [ 4, 0, 2, 0, 1 ] The name (foo).
* [g,h) [ 4, 0, 2, 0, 3 ] The number (1).
* Notes:
* - A location may refer to a repeated field itself (i.e. not to any
* particular index within it). This is used whenever a set of elements are
* logically enclosed in a single code segment. For example, an entire
* extend block (possibly containing multiple extension definitions) will
* have an outer location whose path refers to the "extensions" repeated
* field without an index.
* - Multiple locations may have the same path. This happens when a single
* logical declaration is spread out across multiple places. The most
* obvious example is the "extend" block again -- there may be multiple
* extend blocks in the same scope, each of which will have the same path.
* - A location's span is not always a subset of its parent's span. For
* example, the "extendee" of an extension declaration appears at the
* beginning of the "extend" block and is shared by all extensions within
* the block.
* - Just because a location's span is a subset of some other location's span
* does not mean that it is a descendent. For example, a "group" defines
* both a type and a field in a single declaration. Thus, the locations
* corresponding to the type and field and their components will overlap.
* - Code which tries to interpret locations should probably be designed to
* ignore those that it doesn't understand, as more types of locations could
* be recorded in the future.
* </pre>
*/
public Builder addLocation(com.google.protobuf.DescriptorProtos.SourceCodeInfo.Location value) {
if (locationBuilder_ == null) {
if (value == null) {
throw new NullPointerException();
}
ensureLocationIsMutable();
location_.add(value);
onChanged();
} else {
locationBuilder_.addMessage(value);
}
return this;
}
/**
* <code>repeated .google.protobuf.SourceCodeInfo.Location location = 1;</code>
*
* <pre>
* A Location identifies a piece of source code in a .proto file which
* corresponds to a particular definition. This information is intended
* to be useful to IDEs, code indexers, documentation generators, and similar
* tools.
* For example, say we have a file like:
* message Foo {
* optional string foo = 1;
* }
* Let's look at just the field definition:
* optional string foo = 1;
* ^ ^^ ^^ ^ ^^^
* a bc de f ghi
* We have the following locations:
* span path represents
* [a,i) [ 4, 0, 2, 0 ] The whole field definition.
* [a,b) [ 4, 0, 2, 0, 4 ] The label (optional).
* [c,d) [ 4, 0, 2, 0, 5 ] The type (string).
* [e,f) [ 4, 0, 2, 0, 1 ] The name (foo).
* [g,h) [ 4, 0, 2, 0, 3 ] The number (1).
* Notes:
* - A location may refer to a repeated field itself (i.e. not to any
* particular index within it). This is used whenever a set of elements are
* logically enclosed in a single code segment. For example, an entire
* extend block (possibly containing multiple extension definitions) will
* have an outer location whose path refers to the "extensions" repeated
* field without an index.
* - Multiple locations may have the same path. This happens when a single
* logical declaration is spread out across multiple places. The most
* obvious example is the "extend" block again -- there may be multiple
* extend blocks in the same scope, each of which will have the same path.
* - A location's span is not always a subset of its parent's span. For
* example, the "extendee" of an extension declaration appears at the
* beginning of the "extend" block and is shared by all extensions within
* the block.
* - Just because a location's span is a subset of some other location's span
* does not mean that it is a descendent. For example, a "group" defines
* both a type and a field in a single declaration. Thus, the locations
* corresponding to the type and field and their components will overlap.
* - Code which tries to interpret locations should probably be designed to
* ignore those that it doesn't understand, as more types of locations could
* be recorded in the future.
* </pre>
*/
public Builder addLocation(
int index, com.google.protobuf.DescriptorProtos.SourceCodeInfo.Location value) {
if (locationBuilder_ == null) {
if (value == null) {
throw new NullPointerException();
}
ensureLocationIsMutable();
location_.add(index, value);
onChanged();
} else {
locationBuilder_.addMessage(index, value);
}
return this;
}
/**
* <code>repeated .google.protobuf.SourceCodeInfo.Location location = 1;</code>
*
* <pre>
* A Location identifies a piece of source code in a .proto file which
* corresponds to a particular definition. This information is intended
* to be useful to IDEs, code indexers, documentation generators, and similar
* tools.
* For example, say we have a file like:
* message Foo {
* optional string foo = 1;
* }
* Let's look at just the field definition:
* optional string foo = 1;
* ^ ^^ ^^ ^ ^^^
* a bc de f ghi
* We have the following locations:
* span path represents
* [a,i) [ 4, 0, 2, 0 ] The whole field definition.
* [a,b) [ 4, 0, 2, 0, 4 ] The label (optional).
* [c,d) [ 4, 0, 2, 0, 5 ] The type (string).
* [e,f) [ 4, 0, 2, 0, 1 ] The name (foo).
* [g,h) [ 4, 0, 2, 0, 3 ] The number (1).
* Notes:
* - A location may refer to a repeated field itself (i.e. not to any
* particular index within it). This is used whenever a set of elements are
* logically enclosed in a single code segment. For example, an entire
* extend block (possibly containing multiple extension definitions) will
* have an outer location whose path refers to the "extensions" repeated
* field without an index.
* - Multiple locations may have the same path. This happens when a single
* logical declaration is spread out across multiple places. The most
* obvious example is the "extend" block again -- there may be multiple
* extend blocks in the same scope, each of which will have the same path.
* - A location's span is not always a subset of its parent's span. For
* example, the "extendee" of an extension declaration appears at the
* beginning of the "extend" block and is shared by all extensions within
* the block.
* - Just because a location's span is a subset of some other location's span
* does not mean that it is a descendent. For example, a "group" defines
* both a type and a field in a single declaration. Thus, the locations
* corresponding to the type and field and their components will overlap.
* - Code which tries to interpret locations should probably be designed to
* ignore those that it doesn't understand, as more types of locations could
* be recorded in the future.
* </pre>
*/
public Builder addLocation(
com.google.protobuf.DescriptorProtos.SourceCodeInfo.Location.Builder builderForValue) {
if (locationBuilder_ == null) {
ensureLocationIsMutable();
location_.add(builderForValue.build());
onChanged();
} else {
locationBuilder_.addMessage(builderForValue.build());
}
return this;
}
/**
* <code>repeated .google.protobuf.SourceCodeInfo.Location location = 1;</code>
*
* <pre>
* A Location identifies a piece of source code in a .proto file which
* corresponds to a particular definition. This information is intended
* to be useful to IDEs, code indexers, documentation generators, and similar
* tools.
* For example, say we have a file like:
* message Foo {
* optional string foo = 1;
* }
* Let's look at just the field definition:
* optional string foo = 1;
* ^ ^^ ^^ ^ ^^^
* a bc de f ghi
* We have the following locations:
* span path represents
* [a,i) [ 4, 0, 2, 0 ] The whole field definition.
* [a,b) [ 4, 0, 2, 0, 4 ] The label (optional).
* [c,d) [ 4, 0, 2, 0, 5 ] The type (string).
* [e,f) [ 4, 0, 2, 0, 1 ] The name (foo).
* [g,h) [ 4, 0, 2, 0, 3 ] The number (1).
* Notes:
* - A location may refer to a repeated field itself (i.e. not to any
* particular index within it). This is used whenever a set of elements are
* logically enclosed in a single code segment. For example, an entire
* extend block (possibly containing multiple extension definitions) will
* have an outer location whose path refers to the "extensions" repeated
* field without an index.
* - Multiple locations may have the same path. This happens when a single
* logical declaration is spread out across multiple places. The most
* obvious example is the "extend" block again -- there may be multiple
* extend blocks in the same scope, each of which will have the same path.
* - A location's span is not always a subset of its parent's span. For
* example, the "extendee" of an extension declaration appears at the
* beginning of the "extend" block and is shared by all extensions within
* the block.
* - Just because a location's span is a subset of some other location's span
* does not mean that it is a descendent. For example, a "group" defines
* both a type and a field in a single declaration. Thus, the locations
* corresponding to the type and field and their components will overlap.
* - Code which tries to interpret locations should probably be designed to
* ignore those that it doesn't understand, as more types of locations could
* be recorded in the future.
* </pre>
*/
public Builder addLocation(
int index, com.google.protobuf.DescriptorProtos.SourceCodeInfo.Location.Builder builderForValue) {
if (locationBuilder_ == null) {
ensureLocationIsMutable();
location_.add(index, builderForValue.build());
onChanged();
} else {
locationBuilder_.addMessage(index, builderForValue.build());
}
return this;
}
/**
* <code>repeated .google.protobuf.SourceCodeInfo.Location location = 1;</code>
*
* <pre>
* A Location identifies a piece of source code in a .proto file which
* corresponds to a particular definition. This information is intended
* to be useful to IDEs, code indexers, documentation generators, and similar
* tools.
* For example, say we have a file like:
* message Foo {
* optional string foo = 1;
* }
* Let's look at just the field definition:
* optional string foo = 1;
* ^ ^^ ^^ ^ ^^^
* a bc de f ghi
* We have the following locations:
* span path represents
* [a,i) [ 4, 0, 2, 0 ] The whole field definition.
* [a,b) [ 4, 0, 2, 0, 4 ] The label (optional).
* [c,d) [ 4, 0, 2, 0, 5 ] The type (string).
* [e,f) [ 4, 0, 2, 0, 1 ] The name (foo).
* [g,h) [ 4, 0, 2, 0, 3 ] The number (1).
* Notes:
* - A location may refer to a repeated field itself (i.e. not to any
* particular index within it). This is used whenever a set of elements are
* logically enclosed in a single code segment. For example, an entire
* extend block (possibly containing multiple extension definitions) will
* have an outer location whose path refers to the "extensions" repeated
* field without an index.
* - Multiple locations may have the same path. This happens when a single
* logical declaration is spread out across multiple places. The most
* obvious example is the "extend" block again -- there may be multiple
* extend blocks in the same scope, each of which will have the same path.
* - A location's span is not always a subset of its parent's span. For
* example, the "extendee" of an extension declaration appears at the
* beginning of the "extend" block and is shared by all extensions within
* the block.
* - Just because a location's span is a subset of some other location's span
* does not mean that it is a descendent. For example, a "group" defines
* both a type and a field in a single declaration. Thus, the locations
* corresponding to the type and field and their components will overlap.
* - Code which tries to interpret locations should probably be designed to
* ignore those that it doesn't understand, as more types of locations could
* be recorded in the future.
* </pre>
*/
public Builder addAllLocation(
java.lang.Iterable<? extends com.google.protobuf.DescriptorProtos.SourceCodeInfo.Location> values) {
if (locationBuilder_ == null) {
ensureLocationIsMutable();
com.google.protobuf.AbstractMessageLite.Builder.addAll(
values, location_);
onChanged();
} else {
locationBuilder_.addAllMessages(values);
}
return this;
}
/**
* <code>repeated .google.protobuf.SourceCodeInfo.Location location = 1;</code>
*
* <pre>
* A Location identifies a piece of source code in a .proto file which
* corresponds to a particular definition. This information is intended
* to be useful to IDEs, code indexers, documentation generators, and similar
* tools.
* For example, say we have a file like:
* message Foo {
* optional string foo = 1;
* }
* Let's look at just the field definition:
* optional string foo = 1;
* ^ ^^ ^^ ^ ^^^
* a bc de f ghi
* We have the following locations:
* span path represents
* [a,i) [ 4, 0, 2, 0 ] The whole field definition.
* [a,b) [ 4, 0, 2, 0, 4 ] The label (optional).
* [c,d) [ 4, 0, 2, 0, 5 ] The type (string).
* [e,f) [ 4, 0, 2, 0, 1 ] The name (foo).
* [g,h) [ 4, 0, 2, 0, 3 ] The number (1).
* Notes:
* - A location may refer to a repeated field itself (i.e. not to any
* particular index within it). This is used whenever a set of elements are
* logically enclosed in a single code segment. For example, an entire
* extend block (possibly containing multiple extension definitions) will
* have an outer location whose path refers to the "extensions" repeated
* field without an index.
* - Multiple locations may have the same path. This happens when a single
* logical declaration is spread out across multiple places. The most
* obvious example is the "extend" block again -- there may be multiple
* extend blocks in the same scope, each of which will have the same path.
* - A location's span is not always a subset of its parent's span. For
* example, the "extendee" of an extension declaration appears at the
* beginning of the "extend" block and is shared by all extensions within
* the block.
* - Just because a location's span is a subset of some other location's span
* does not mean that it is a descendent. For example, a "group" defines
* both a type and a field in a single declaration. Thus, the locations
* corresponding to the type and field and their components will overlap.
* - Code which tries to interpret locations should probably be designed to
* ignore those that it doesn't understand, as more types of locations could
* be recorded in the future.
* </pre>
*/
public Builder clearLocation() {
if (locationBuilder_ == null) {
location_ = java.util.Collections.emptyList();
bitField0_ = (bitField0_ & ~0x00000001);
onChanged();
} else {
locationBuilder_.clear();
}
return this;
}
/**
* <code>repeated .google.protobuf.SourceCodeInfo.Location location = 1;</code>
*
* <pre>
* A Location identifies a piece of source code in a .proto file which
* corresponds to a particular definition. This information is intended
* to be useful to IDEs, code indexers, documentation generators, and similar
* tools.
* For example, say we have a file like:
* message Foo {
* optional string foo = 1;
* }
* Let's look at just the field definition:
* optional string foo = 1;
* ^ ^^ ^^ ^ ^^^
* a bc de f ghi
* We have the following locations:
* span path represents
* [a,i) [ 4, 0, 2, 0 ] The whole field definition.
* [a,b) [ 4, 0, 2, 0, 4 ] The label (optional).
* [c,d) [ 4, 0, 2, 0, 5 ] The type (string).
* [e,f) [ 4, 0, 2, 0, 1 ] The name (foo).
* [g,h) [ 4, 0, 2, 0, 3 ] The number (1).
* Notes:
* - A location may refer to a repeated field itself (i.e. not to any
* particular index within it). This is used whenever a set of elements are
* logically enclosed in a single code segment. For example, an entire
* extend block (possibly containing multiple extension definitions) will
* have an outer location whose path refers to the "extensions" repeated
* field without an index.
* - Multiple locations may have the same path. This happens when a single
* logical declaration is spread out across multiple places. The most
* obvious example is the "extend" block again -- there may be multiple
* extend blocks in the same scope, each of which will have the same path.
* - A location's span is not always a subset of its parent's span. For
* example, the "extendee" of an extension declaration appears at the
* beginning of the "extend" block and is shared by all extensions within
* the block.
* - Just because a location's span is a subset of some other location's span
* does not mean that it is a descendent. For example, a "group" defines
* both a type and a field in a single declaration. Thus, the locations
* corresponding to the type and field and their components will overlap.
* - Code which tries to interpret locations should probably be designed to
* ignore those that it doesn't understand, as more types of locations could
* be recorded in the future.
* </pre>
*/
public Builder removeLocation(int index) {
if (locationBuilder_ == null) {
ensureLocationIsMutable();
location_.remove(index);
onChanged();
} else {
locationBuilder_.remove(index);
}
return this;
}
/**
* <code>repeated .google.protobuf.SourceCodeInfo.Location location = 1;</code>
*
* <pre>
* A Location identifies a piece of source code in a .proto file which
* corresponds to a particular definition. This information is intended
* to be useful to IDEs, code indexers, documentation generators, and similar
* tools.
* For example, say we have a file like:
* message Foo {
* optional string foo = 1;
* }
* Let's look at just the field definition:
* optional string foo = 1;
* ^ ^^ ^^ ^ ^^^
* a bc de f ghi
* We have the following locations:
* span path represents
* [a,i) [ 4, 0, 2, 0 ] The whole field definition.
* [a,b) [ 4, 0, 2, 0, 4 ] The label (optional).
* [c,d) [ 4, 0, 2, 0, 5 ] The type (string).
* [e,f) [ 4, 0, 2, 0, 1 ] The name (foo).
* [g,h) [ 4, 0, 2, 0, 3 ] The number (1).
* Notes:
* - A location may refer to a repeated field itself (i.e. not to any
* particular index within it). This is used whenever a set of elements are
* logically enclosed in a single code segment. For example, an entire
* extend block (possibly containing multiple extension definitions) will
* have an outer location whose path refers to the "extensions" repeated
* field without an index.
* - Multiple locations may have the same path. This happens when a single
* logical declaration is spread out across multiple places. The most
* obvious example is the "extend" block again -- there may be multiple
* extend blocks in the same scope, each of which will have the same path.
* - A location's span is not always a subset of its parent's span. For
* example, the "extendee" of an extension declaration appears at the
* beginning of the "extend" block and is shared by all extensions within
* the block.
* - Just because a location's span is a subset of some other location's span
* does not mean that it is a descendent. For example, a "group" defines
* both a type and a field in a single declaration. Thus, the locations
* corresponding to the type and field and their components will overlap.
* - Code which tries to interpret locations should probably be designed to
* ignore those that it doesn't understand, as more types of locations could
* be recorded in the future.
* </pre>
*/
public com.google.protobuf.DescriptorProtos.SourceCodeInfo.Location.Builder getLocationBuilder(
int index) {
return getLocationFieldBuilder().getBuilder(index);
}
/**
* <code>repeated .google.protobuf.SourceCodeInfo.Location location = 1;</code>
*
* <pre>
* A Location identifies a piece of source code in a .proto file which
* corresponds to a particular definition. This information is intended
* to be useful to IDEs, code indexers, documentation generators, and similar
* tools.
* For example, say we have a file like:
* message Foo {
* optional string foo = 1;
* }
* Let's look at just the field definition:
* optional string foo = 1;
* ^ ^^ ^^ ^ ^^^
* a bc de f ghi
* We have the following locations:
* span path represents
* [a,i) [ 4, 0, 2, 0 ] The whole field definition.
* [a,b) [ 4, 0, 2, 0, 4 ] The label (optional).
* [c,d) [ 4, 0, 2, 0, 5 ] The type (string).
* [e,f) [ 4, 0, 2, 0, 1 ] The name (foo).
* [g,h) [ 4, 0, 2, 0, 3 ] The number (1).
* Notes:
* - A location may refer to a repeated field itself (i.e. not to any
* particular index within it). This is used whenever a set of elements are
* logically enclosed in a single code segment. For example, an entire
* extend block (possibly containing multiple extension definitions) will
* have an outer location whose path refers to the "extensions" repeated
* field without an index.
* - Multiple locations may have the same path. This happens when a single
* logical declaration is spread out across multiple places. The most
* obvious example is the "extend" block again -- there may be multiple
* extend blocks in the same scope, each of which will have the same path.
* - A location's span is not always a subset of its parent's span. For
* example, the "extendee" of an extension declaration appears at the
* beginning of the "extend" block and is shared by all extensions within
* the block.
* - Just because a location's span is a subset of some other location's span
* does not mean that it is a descendent. For example, a "group" defines
* both a type and a field in a single declaration. Thus, the locations
* corresponding to the type and field and their components will overlap.
* - Code which tries to interpret locations should probably be designed to
* ignore those that it doesn't understand, as more types of locations could
* be recorded in the future.
* </pre>
*/
public com.google.protobuf.DescriptorProtos.SourceCodeInfo.LocationOrBuilder getLocationOrBuilder(
int index) {
if (locationBuilder_ == null) {
return location_.get(index); } else {
return locationBuilder_.getMessageOrBuilder(index);
}
}
/**
* <code>repeated .google.protobuf.SourceCodeInfo.Location location = 1;</code>
*
* <pre>
* A Location identifies a piece of source code in a .proto file which
* corresponds to a particular definition. This information is intended
* to be useful to IDEs, code indexers, documentation generators, and similar
* tools.
* For example, say we have a file like:
* message Foo {
* optional string foo = 1;
* }
* Let's look at just the field definition:
* optional string foo = 1;
* ^ ^^ ^^ ^ ^^^
* a bc de f ghi
* We have the following locations:
* span path represents
* [a,i) [ 4, 0, 2, 0 ] The whole field definition.
* [a,b) [ 4, 0, 2, 0, 4 ] The label (optional).
* [c,d) [ 4, 0, 2, 0, 5 ] The type (string).
* [e,f) [ 4, 0, 2, 0, 1 ] The name (foo).
* [g,h) [ 4, 0, 2, 0, 3 ] The number (1).
* Notes:
* - A location may refer to a repeated field itself (i.e. not to any
* particular index within it). This is used whenever a set of elements are
* logically enclosed in a single code segment. For example, an entire
* extend block (possibly containing multiple extension definitions) will
* have an outer location whose path refers to the "extensions" repeated
* field without an index.
* - Multiple locations may have the same path. This happens when a single
* logical declaration is spread out across multiple places. The most
* obvious example is the "extend" block again -- there may be multiple
* extend blocks in the same scope, each of which will have the same path.
* - A location's span is not always a subset of its parent's span. For
* example, the "extendee" of an extension declaration appears at the
* beginning of the "extend" block and is shared by all extensions within
* the block.
* - Just because a location's span is a subset of some other location's span
* does not mean that it is a descendent. For example, a "group" defines
* both a type and a field in a single declaration. Thus, the locations
* corresponding to the type and field and their components will overlap.
* - Code which tries to interpret locations should probably be designed to
* ignore those that it doesn't understand, as more types of locations could
* be recorded in the future.
* </pre>
*/
public java.util.List<? extends com.google.protobuf.DescriptorProtos.SourceCodeInfo.LocationOrBuilder>
getLocationOrBuilderList() {
if (locationBuilder_ != null) {
return locationBuilder_.getMessageOrBuilderList();
} else {
return java.util.Collections.unmodifiableList(location_);
}
}
/**
* <code>repeated .google.protobuf.SourceCodeInfo.Location location = 1;</code>
*
* <pre>
* A Location identifies a piece of source code in a .proto file which
* corresponds to a particular definition. This information is intended
* to be useful to IDEs, code indexers, documentation generators, and similar
* tools.
* For example, say we have a file like:
* message Foo {
* optional string foo = 1;
* }
* Let's look at just the field definition:
* optional string foo = 1;
* ^ ^^ ^^ ^ ^^^
* a bc de f ghi
* We have the following locations:
* span path represents
* [a,i) [ 4, 0, 2, 0 ] The whole field definition.
* [a,b) [ 4, 0, 2, 0, 4 ] The label (optional).
* [c,d) [ 4, 0, 2, 0, 5 ] The type (string).
* [e,f) [ 4, 0, 2, 0, 1 ] The name (foo).
* [g,h) [ 4, 0, 2, 0, 3 ] The number (1).
* Notes:
* - A location may refer to a repeated field itself (i.e. not to any
* particular index within it). This is used whenever a set of elements are
* logically enclosed in a single code segment. For example, an entire
* extend block (possibly containing multiple extension definitions) will
* have an outer location whose path refers to the "extensions" repeated
* field without an index.
* - Multiple locations may have the same path. This happens when a single
* logical declaration is spread out across multiple places. The most
* obvious example is the "extend" block again -- there may be multiple
* extend blocks in the same scope, each of which will have the same path.
* - A location's span is not always a subset of its parent's span. For
* example, the "extendee" of an extension declaration appears at the
* beginning of the "extend" block and is shared by all extensions within
* the block.
* - Just because a location's span is a subset of some other location's span
* does not mean that it is a descendent. For example, a "group" defines
* both a type and a field in a single declaration. Thus, the locations
* corresponding to the type and field and their components will overlap.
* - Code which tries to interpret locations should probably be designed to
* ignore those that it doesn't understand, as more types of locations could
* be recorded in the future.
* </pre>
*/
public com.google.protobuf.DescriptorProtos.SourceCodeInfo.Location.Builder addLocationBuilder() {
return getLocationFieldBuilder().addBuilder(
com.google.protobuf.DescriptorProtos.SourceCodeInfo.Location.getDefaultInstance());
}
/**
* <code>repeated .google.protobuf.SourceCodeInfo.Location location = 1;</code>
*
* <pre>
* A Location identifies a piece of source code in a .proto file which
* corresponds to a particular definition. This information is intended
* to be useful to IDEs, code indexers, documentation generators, and similar
* tools.
* For example, say we have a file like:
* message Foo {
* optional string foo = 1;
* }
* Let's look at just the field definition:
* optional string foo = 1;
* ^ ^^ ^^ ^ ^^^
* a bc de f ghi
* We have the following locations:
* span path represents
* [a,i) [ 4, 0, 2, 0 ] The whole field definition.
* [a,b) [ 4, 0, 2, 0, 4 ] The label (optional).
* [c,d) [ 4, 0, 2, 0, 5 ] The type (string).
* [e,f) [ 4, 0, 2, 0, 1 ] The name (foo).
* [g,h) [ 4, 0, 2, 0, 3 ] The number (1).
* Notes:
* - A location may refer to a repeated field itself (i.e. not to any
* particular index within it). This is used whenever a set of elements are
* logically enclosed in a single code segment. For example, an entire
* extend block (possibly containing multiple extension definitions) will
* have an outer location whose path refers to the "extensions" repeated
* field without an index.
* - Multiple locations may have the same path. This happens when a single
* logical declaration is spread out across multiple places. The most
* obvious example is the "extend" block again -- there may be multiple
* extend blocks in the same scope, each of which will have the same path.
* - A location's span is not always a subset of its parent's span. For
* example, the "extendee" of an extension declaration appears at the
* beginning of the "extend" block and is shared by all extensions within
* the block.
* - Just because a location's span is a subset of some other location's span
* does not mean that it is a descendent. For example, a "group" defines
* both a type and a field in a single declaration. Thus, the locations
* corresponding to the type and field and their components will overlap.
* - Code which tries to interpret locations should probably be designed to
* ignore those that it doesn't understand, as more types of locations could
* be recorded in the future.
* </pre>
*/
public com.google.protobuf.DescriptorProtos.SourceCodeInfo.Location.Builder addLocationBuilder(
int index) {
return getLocationFieldBuilder().addBuilder(
index, com.google.protobuf.DescriptorProtos.SourceCodeInfo.Location.getDefaultInstance());
}
/**
* <code>repeated .google.protobuf.SourceCodeInfo.Location location = 1;</code>
*
* <pre>
* A Location identifies a piece of source code in a .proto file which
* corresponds to a particular definition. This information is intended
* to be useful to IDEs, code indexers, documentation generators, and similar
* tools.
* For example, say we have a file like:
* message Foo {
* optional string foo = 1;
* }
* Let's look at just the field definition:
* optional string foo = 1;
* ^ ^^ ^^ ^ ^^^
* a bc de f ghi
* We have the following locations:
* span path represents
* [a,i) [ 4, 0, 2, 0 ] The whole field definition.
* [a,b) [ 4, 0, 2, 0, 4 ] The label (optional).
* [c,d) [ 4, 0, 2, 0, 5 ] The type (string).
* [e,f) [ 4, 0, 2, 0, 1 ] The name (foo).
* [g,h) [ 4, 0, 2, 0, 3 ] The number (1).
* Notes:
* - A location may refer to a repeated field itself (i.e. not to any
* particular index within it). This is used whenever a set of elements are
* logically enclosed in a single code segment. For example, an entire
* extend block (possibly containing multiple extension definitions) will
* have an outer location whose path refers to the "extensions" repeated
* field without an index.
* - Multiple locations may have the same path. This happens when a single
* logical declaration is spread out across multiple places. The most
* obvious example is the "extend" block again -- there may be multiple
* extend blocks in the same scope, each of which will have the same path.
* - A location's span is not always a subset of its parent's span. For
* example, the "extendee" of an extension declaration appears at the
* beginning of the "extend" block and is shared by all extensions within
* the block.
* - Just because a location's span is a subset of some other location's span
* does not mean that it is a descendent. For example, a "group" defines
* both a type and a field in a single declaration. Thus, the locations
* corresponding to the type and field and their components will overlap.
* - Code which tries to interpret locations should probably be designed to
* ignore those that it doesn't understand, as more types of locations could
* be recorded in the future.
* </pre>
*/
public java.util.List<com.google.protobuf.DescriptorProtos.SourceCodeInfo.Location.Builder>
getLocationBuilderList() {
return getLocationFieldBuilder().getBuilderList();
}
private com.google.protobuf.RepeatedFieldBuilder<
com.google.protobuf.DescriptorProtos.SourceCodeInfo.Location, com.google.protobuf.DescriptorProtos.SourceCodeInfo.Location.Builder, com.google.protobuf.DescriptorProtos.SourceCodeInfo.LocationOrBuilder>
getLocationFieldBuilder() {
if (locationBuilder_ == null) {
locationBuilder_ = new com.google.protobuf.RepeatedFieldBuilder<
com.google.protobuf.DescriptorProtos.SourceCodeInfo.Location, com.google.protobuf.DescriptorProtos.SourceCodeInfo.Location.Builder, com.google.protobuf.DescriptorProtos.SourceCodeInfo.LocationOrBuilder>(
location_,
((bitField0_ & 0x00000001) == 0x00000001),
getParentForChildren(),
isClean());
location_ = null;
}
return locationBuilder_;
}
// @@protoc_insertion_point(builder_scope:google.protobuf.SourceCodeInfo)
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static {
defaultInstance = new SourceCodeInfo(true);
defaultInstance.initFields();
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// @@protoc_insertion_point(class_scope:google.protobuf.SourceCodeInfo)
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