mirror of
https://github.com/titanscouting/tra-analysis.git
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536 lines
22 KiB
Protocol Buffer
536 lines
22 KiB
Protocol Buffer
// Copyright 2018 Google Inc.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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syntax = "proto3";
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package google.bigtable.v2;
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option csharp_namespace = "Google.Cloud.Bigtable.V2";
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option go_package = "google.golang.org/genproto/googleapis/bigtable/v2;bigtable";
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option java_multiple_files = true;
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option java_outer_classname = "DataProto";
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option java_package = "com.google.bigtable.v2";
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option php_namespace = "Google\\Cloud\\Bigtable\\V2";
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// Specifies the complete (requested) contents of a single row of a table.
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// Rows which exceed 256MiB in size cannot be read in full.
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message Row {
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// The unique key which identifies this row within its table. This is the same
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// key that's used to identify the row in, for example, a MutateRowRequest.
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// May contain any non-empty byte string up to 4KiB in length.
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bytes key = 1;
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// May be empty, but only if the entire row is empty.
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// The mutual ordering of column families is not specified.
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repeated Family families = 2;
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}
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// Specifies (some of) the contents of a single row/column family intersection
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// of a table.
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message Family {
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// The unique key which identifies this family within its row. This is the
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// same key that's used to identify the family in, for example, a RowFilter
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// which sets its "family_name_regex_filter" field.
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// Must match `[-_.a-zA-Z0-9]+`, except that AggregatingRowProcessors may
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// produce cells in a sentinel family with an empty name.
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// Must be no greater than 64 characters in length.
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string name = 1;
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// Must not be empty. Sorted in order of increasing "qualifier".
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repeated Column columns = 2;
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}
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// Specifies (some of) the contents of a single row/column intersection of a
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// table.
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message Column {
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// The unique key which identifies this column within its family. This is the
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// same key that's used to identify the column in, for example, a RowFilter
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// which sets its `column_qualifier_regex_filter` field.
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// May contain any byte string, including the empty string, up to 16kiB in
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// length.
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bytes qualifier = 1;
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// Must not be empty. Sorted in order of decreasing "timestamp_micros".
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repeated Cell cells = 2;
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}
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// Specifies (some of) the contents of a single row/column/timestamp of a table.
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message Cell {
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// The cell's stored timestamp, which also uniquely identifies it within
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// its column.
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// Values are always expressed in microseconds, but individual tables may set
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// a coarser granularity to further restrict the allowed values. For
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// example, a table which specifies millisecond granularity will only allow
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// values of `timestamp_micros` which are multiples of 1000.
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int64 timestamp_micros = 1;
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// The value stored in the cell.
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// May contain any byte string, including the empty string, up to 100MiB in
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// length.
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bytes value = 2;
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// Labels applied to the cell by a [RowFilter][google.bigtable.v2.RowFilter].
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repeated string labels = 3;
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}
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// Specifies a contiguous range of rows.
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message RowRange {
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// The row key at which to start the range.
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// If neither field is set, interpreted as the empty string, inclusive.
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oneof start_key {
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// Used when giving an inclusive lower bound for the range.
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bytes start_key_closed = 1;
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// Used when giving an exclusive lower bound for the range.
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bytes start_key_open = 2;
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}
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// The row key at which to end the range.
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// If neither field is set, interpreted as the infinite row key, exclusive.
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oneof end_key {
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// Used when giving an exclusive upper bound for the range.
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bytes end_key_open = 3;
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// Used when giving an inclusive upper bound for the range.
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bytes end_key_closed = 4;
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}
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}
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// Specifies a non-contiguous set of rows.
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message RowSet {
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// Single rows included in the set.
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repeated bytes row_keys = 1;
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// Contiguous row ranges included in the set.
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repeated RowRange row_ranges = 2;
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}
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// Specifies a contiguous range of columns within a single column family.
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// The range spans from <column_family>:<start_qualifier> to
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// <column_family>:<end_qualifier>, where both bounds can be either
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// inclusive or exclusive.
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message ColumnRange {
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// The name of the column family within which this range falls.
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string family_name = 1;
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// The column qualifier at which to start the range (within `column_family`).
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// If neither field is set, interpreted as the empty string, inclusive.
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oneof start_qualifier {
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// Used when giving an inclusive lower bound for the range.
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bytes start_qualifier_closed = 2;
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// Used when giving an exclusive lower bound for the range.
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bytes start_qualifier_open = 3;
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}
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// The column qualifier at which to end the range (within `column_family`).
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// If neither field is set, interpreted as the infinite string, exclusive.
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oneof end_qualifier {
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// Used when giving an inclusive upper bound for the range.
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bytes end_qualifier_closed = 4;
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// Used when giving an exclusive upper bound for the range.
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bytes end_qualifier_open = 5;
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}
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}
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// Specified a contiguous range of microsecond timestamps.
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message TimestampRange {
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// Inclusive lower bound. If left empty, interpreted as 0.
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int64 start_timestamp_micros = 1;
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// Exclusive upper bound. If left empty, interpreted as infinity.
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int64 end_timestamp_micros = 2;
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}
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// Specifies a contiguous range of raw byte values.
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message ValueRange {
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// The value at which to start the range.
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// If neither field is set, interpreted as the empty string, inclusive.
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oneof start_value {
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// Used when giving an inclusive lower bound for the range.
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bytes start_value_closed = 1;
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// Used when giving an exclusive lower bound for the range.
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bytes start_value_open = 2;
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}
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// The value at which to end the range.
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// If neither field is set, interpreted as the infinite string, exclusive.
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oneof end_value {
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// Used when giving an inclusive upper bound for the range.
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bytes end_value_closed = 3;
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// Used when giving an exclusive upper bound for the range.
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bytes end_value_open = 4;
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}
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}
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// Takes a row as input and produces an alternate view of the row based on
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// specified rules. For example, a RowFilter might trim down a row to include
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// just the cells from columns matching a given regular expression, or might
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// return all the cells of a row but not their values. More complicated filters
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// can be composed out of these components to express requests such as, "within
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// every column of a particular family, give just the two most recent cells
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// which are older than timestamp X."
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//
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// There are two broad categories of RowFilters (true filters and transformers),
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// as well as two ways to compose simple filters into more complex ones
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// (chains and interleaves). They work as follows:
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//
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// * True filters alter the input row by excluding some of its cells wholesale
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// from the output row. An example of a true filter is the `value_regex_filter`,
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// which excludes cells whose values don't match the specified pattern. All
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// regex true filters use RE2 syntax (https://github.com/google/re2/wiki/Syntax)
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// in raw byte mode (RE2::Latin1), and are evaluated as full matches. An
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// important point to keep in mind is that `RE2(.)` is equivalent by default to
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// `RE2([^\n])`, meaning that it does not match newlines. When attempting to
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// match an arbitrary byte, you should therefore use the escape sequence `\C`,
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// which may need to be further escaped as `\\C` in your client language.
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//
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// * Transformers alter the input row by changing the values of some of its
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// cells in the output, without excluding them completely. Currently, the only
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// supported transformer is the `strip_value_transformer`, which replaces every
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// cell's value with the empty string.
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//
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// * Chains and interleaves are described in more detail in the
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// RowFilter.Chain and RowFilter.Interleave documentation.
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//
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// The total serialized size of a RowFilter message must not
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// exceed 4096 bytes, and RowFilters may not be nested within each other
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// (in Chains or Interleaves) to a depth of more than 20.
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message RowFilter {
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// A RowFilter which sends rows through several RowFilters in sequence.
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message Chain {
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// The elements of "filters" are chained together to process the input row:
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// in row -> f(0) -> intermediate row -> f(1) -> ... -> f(N) -> out row
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// The full chain is executed atomically.
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repeated RowFilter filters = 1;
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}
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// A RowFilter which sends each row to each of several component
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// RowFilters and interleaves the results.
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message Interleave {
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// The elements of "filters" all process a copy of the input row, and the
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// results are pooled, sorted, and combined into a single output row.
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// If multiple cells are produced with the same column and timestamp,
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// they will all appear in the output row in an unspecified mutual order.
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// Consider the following example, with three filters:
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//
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// input row
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// |
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// -----------------------------------------------------
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// | | |
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// f(0) f(1) f(2)
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// | | |
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// 1: foo,bar,10,x foo,bar,10,z far,bar,7,a
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// 2: foo,blah,11,z far,blah,5,x far,blah,5,x
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// | | |
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// -----------------------------------------------------
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// |
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// 1: foo,bar,10,z // could have switched with #2
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// 2: foo,bar,10,x // could have switched with #1
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// 3: foo,blah,11,z
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// 4: far,bar,7,a
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// 5: far,blah,5,x // identical to #6
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// 6: far,blah,5,x // identical to #5
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//
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// All interleaved filters are executed atomically.
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repeated RowFilter filters = 1;
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}
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// A RowFilter which evaluates one of two possible RowFilters, depending on
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// whether or not a predicate RowFilter outputs any cells from the input row.
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//
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// IMPORTANT NOTE: The predicate filter does not execute atomically with the
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// true and false filters, which may lead to inconsistent or unexpected
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// results. Additionally, Condition filters have poor performance, especially
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// when filters are set for the false condition.
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message Condition {
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// If `predicate_filter` outputs any cells, then `true_filter` will be
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// evaluated on the input row. Otherwise, `false_filter` will be evaluated.
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RowFilter predicate_filter = 1;
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// The filter to apply to the input row if `predicate_filter` returns any
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// results. If not provided, no results will be returned in the true case.
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RowFilter true_filter = 2;
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// The filter to apply to the input row if `predicate_filter` does not
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// return any results. If not provided, no results will be returned in the
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// false case.
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RowFilter false_filter = 3;
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}
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// Which of the possible RowFilter types to apply. If none are set, this
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// RowFilter returns all cells in the input row.
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oneof filter {
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// Applies several RowFilters to the data in sequence, progressively
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// narrowing the results.
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Chain chain = 1;
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// Applies several RowFilters to the data in parallel and combines the
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// results.
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Interleave interleave = 2;
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// Applies one of two possible RowFilters to the data based on the output of
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// a predicate RowFilter.
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Condition condition = 3;
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// ADVANCED USE ONLY.
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// Hook for introspection into the RowFilter. Outputs all cells directly to
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// the output of the read rather than to any parent filter. Consider the
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// following example:
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//
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// Chain(
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// FamilyRegex("A"),
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// Interleave(
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// All(),
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// Chain(Label("foo"), Sink())
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// ),
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// QualifierRegex("B")
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// )
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//
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// A,A,1,w
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// A,B,2,x
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// B,B,4,z
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// |
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// FamilyRegex("A")
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// |
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// A,A,1,w
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// A,B,2,x
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// |
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// +------------+-------------+
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// | |
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// All() Label(foo)
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// | |
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// A,A,1,w A,A,1,w,labels:[foo]
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// A,B,2,x A,B,2,x,labels:[foo]
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// | |
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// | Sink() --------------+
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// | | |
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// +------------+ x------+ A,A,1,w,labels:[foo]
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// | A,B,2,x,labels:[foo]
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// A,A,1,w |
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// A,B,2,x |
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// | |
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// QualifierRegex("B") |
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// | |
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// A,B,2,x |
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// | |
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// +--------------------------------+
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// |
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// A,A,1,w,labels:[foo]
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// A,B,2,x,labels:[foo] // could be switched
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// A,B,2,x // could be switched
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//
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// Despite being excluded by the qualifier filter, a copy of every cell
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// that reaches the sink is present in the final result.
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//
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// As with an [Interleave][google.bigtable.v2.RowFilter.Interleave],
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// duplicate cells are possible, and appear in an unspecified mutual order.
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// In this case we have a duplicate with column "A:B" and timestamp 2,
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// because one copy passed through the all filter while the other was
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// passed through the label and sink. Note that one copy has label "foo",
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// while the other does not.
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//
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// Cannot be used within the `predicate_filter`, `true_filter`, or
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// `false_filter` of a [Condition][google.bigtable.v2.RowFilter.Condition].
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bool sink = 16;
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// Matches all cells, regardless of input. Functionally equivalent to
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// leaving `filter` unset, but included for completeness.
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bool pass_all_filter = 17;
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// Does not match any cells, regardless of input. Useful for temporarily
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// disabling just part of a filter.
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bool block_all_filter = 18;
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// Matches only cells from rows whose keys satisfy the given RE2 regex. In
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// other words, passes through the entire row when the key matches, and
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// otherwise produces an empty row.
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// Note that, since row keys can contain arbitrary bytes, the `\C` escape
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// sequence must be used if a true wildcard is desired. The `.` character
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// will not match the new line character `\n`, which may be present in a
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// binary key.
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bytes row_key_regex_filter = 4;
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// Matches all cells from a row with probability p, and matches no cells
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// from the row with probability 1-p.
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double row_sample_filter = 14;
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// Matches only cells from columns whose families satisfy the given RE2
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// regex. For technical reasons, the regex must not contain the `:`
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// character, even if it is not being used as a literal.
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// Note that, since column families cannot contain the new line character
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// `\n`, it is sufficient to use `.` as a full wildcard when matching
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// column family names.
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string family_name_regex_filter = 5;
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// Matches only cells from columns whose qualifiers satisfy the given RE2
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// regex.
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// Note that, since column qualifiers can contain arbitrary bytes, the `\C`
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// escape sequence must be used if a true wildcard is desired. The `.`
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// character will not match the new line character `\n`, which may be
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// present in a binary qualifier.
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bytes column_qualifier_regex_filter = 6;
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// Matches only cells from columns within the given range.
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ColumnRange column_range_filter = 7;
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// Matches only cells with timestamps within the given range.
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TimestampRange timestamp_range_filter = 8;
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// Matches only cells with values that satisfy the given regular expression.
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// Note that, since cell values can contain arbitrary bytes, the `\C` escape
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// sequence must be used if a true wildcard is desired. The `.` character
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// will not match the new line character `\n`, which may be present in a
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// binary value.
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bytes value_regex_filter = 9;
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// Matches only cells with values that fall within the given range.
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ValueRange value_range_filter = 15;
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// Skips the first N cells of each row, matching all subsequent cells.
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// If duplicate cells are present, as is possible when using an Interleave,
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// each copy of the cell is counted separately.
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int32 cells_per_row_offset_filter = 10;
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// Matches only the first N cells of each row.
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// If duplicate cells are present, as is possible when using an Interleave,
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// each copy of the cell is counted separately.
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int32 cells_per_row_limit_filter = 11;
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// Matches only the most recent N cells within each column. For example,
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// if N=2, this filter would match column `foo:bar` at timestamps 10 and 9,
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// skip all earlier cells in `foo:bar`, and then begin matching again in
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// column `foo:bar2`.
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// If duplicate cells are present, as is possible when using an Interleave,
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// each copy of the cell is counted separately.
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int32 cells_per_column_limit_filter = 12;
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// Replaces each cell's value with the empty string.
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bool strip_value_transformer = 13;
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// Applies the given label to all cells in the output row. This allows
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// the client to determine which results were produced from which part of
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// the filter.
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//
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// Values must be at most 15 characters in length, and match the RE2
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// pattern `[a-z0-9\\-]+`
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//
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// Due to a technical limitation, it is not currently possible to apply
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// multiple labels to a cell. As a result, a Chain may have no more than
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// one sub-filter which contains a `apply_label_transformer`. It is okay for
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// an Interleave to contain multiple `apply_label_transformers`, as they
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// will be applied to separate copies of the input. This may be relaxed in
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// the future.
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string apply_label_transformer = 19;
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}
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}
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// Specifies a particular change to be made to the contents of a row.
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message Mutation {
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// A Mutation which sets the value of the specified cell.
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message SetCell {
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// The name of the family into which new data should be written.
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// Must match `[-_.a-zA-Z0-9]+`
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string family_name = 1;
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// The qualifier of the column into which new data should be written.
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// Can be any byte string, including the empty string.
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bytes column_qualifier = 2;
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// The timestamp of the cell into which new data should be written.
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// Use -1 for current Bigtable server time.
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// Otherwise, the client should set this value itself, noting that the
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// default value is a timestamp of zero if the field is left unspecified.
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// Values must match the granularity of the table (e.g. micros, millis).
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int64 timestamp_micros = 3;
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// The value to be written into the specified cell.
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bytes value = 4;
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}
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// A Mutation which deletes cells from the specified column, optionally
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// restricting the deletions to a given timestamp range.
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message DeleteFromColumn {
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// The name of the family from which cells should be deleted.
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// Must match `[-_.a-zA-Z0-9]+`
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string family_name = 1;
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// The qualifier of the column from which cells should be deleted.
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// Can be any byte string, including the empty string.
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bytes column_qualifier = 2;
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|
// The range of timestamps within which cells should be deleted.
|
|
TimestampRange time_range = 3;
|
|
}
|
|
|
|
// A Mutation which deletes all cells from the specified column family.
|
|
message DeleteFromFamily {
|
|
// The name of the family from which cells should be deleted.
|
|
// Must match `[-_.a-zA-Z0-9]+`
|
|
string family_name = 1;
|
|
}
|
|
|
|
// A Mutation which deletes all cells from the containing row.
|
|
message DeleteFromRow {
|
|
|
|
}
|
|
|
|
// Which of the possible Mutation types to apply.
|
|
oneof mutation {
|
|
// Set a cell's value.
|
|
SetCell set_cell = 1;
|
|
|
|
// Deletes cells from a column.
|
|
DeleteFromColumn delete_from_column = 2;
|
|
|
|
// Deletes cells from a column family.
|
|
DeleteFromFamily delete_from_family = 3;
|
|
|
|
// Deletes cells from the entire row.
|
|
DeleteFromRow delete_from_row = 4;
|
|
}
|
|
}
|
|
|
|
// Specifies an atomic read/modify/write operation on the latest value of the
|
|
// specified column.
|
|
message ReadModifyWriteRule {
|
|
// The name of the family to which the read/modify/write should be applied.
|
|
// Must match `[-_.a-zA-Z0-9]+`
|
|
string family_name = 1;
|
|
|
|
// The qualifier of the column to which the read/modify/write should be
|
|
// applied.
|
|
// Can be any byte string, including the empty string.
|
|
bytes column_qualifier = 2;
|
|
|
|
// The rule used to determine the column's new latest value from its current
|
|
// latest value.
|
|
oneof rule {
|
|
// Rule specifying that `append_value` be appended to the existing value.
|
|
// If the targeted cell is unset, it will be treated as containing the
|
|
// empty string.
|
|
bytes append_value = 3;
|
|
|
|
// Rule specifying that `increment_amount` be added to the existing value.
|
|
// If the targeted cell is unset, it will be treated as containing a zero.
|
|
// Otherwise, the targeted cell must contain an 8-byte value (interpreted
|
|
// as a 64-bit big-endian signed integer), or the entire request will fail.
|
|
int64 increment_amount = 4;
|
|
}
|
|
}
|