Restructure protobuf/add annotations
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This commit is contained in:
Ivan Malison 2024-05-24 14:28:41 -06:00
parent 044d8fa46d
commit fcac551806
4 changed files with 564 additions and 124 deletions

View File

@ -13,19 +13,29 @@ _sym_db = _symbol_database.Default()
DESCRIPTOR = _descriptor_pool.Default().AddSerializedFile(b'\n\nshot.proto\x12\x0fserialized_shot\",\n\x05Point\x12\t\n\x01x\x18\x01 \x01(\x02\x12\t\n\x01y\x18\x02 \x01(\x02\x12\r\n\x05\x63ount\x18\x03 \x01(\x05\"i\n\x04Path\x12\x13\n\x0bstart_frame\x18\x01 \x01(\x05\x12\x11\n\tend_frame\x18\x02 \x01(\x05\x12\x11\n\tis_static\x18\x03 \x01(\x08\x12&\n\x06points\x18\x04 \x03(\x0b\x32\x16.serialized_shot.Point\"J\n\tBallPaths\x12\x17\n\x0f\x62\x61ll_identifier\x18\x01 \x01(\x05\x12$\n\x05paths\x18\x02 \x03(\x0b\x32\x15.serialized_shot.Path\"^\n\x04Shot\x12\x13\n\x0bstart_frame\x18\x01 \x01(\x05\x12\x11\n\tend_frame\x18\x02 \x01(\x05\x12.\n\nball_paths\x18\x03 \x03(\x0b\x32\x1a.serialized_shot.BallPathsb\x06proto3')
DESCRIPTOR = _descriptor_pool.Default().AddSerializedFile(b'\n\nshot.proto\x12\x0fserialized_shot\"?\n\x03\x42ox\x12\x0c\n\x04left\x18\x01 \x01(\x02\x12\x0b\n\x03top\x18\x02 \x01(\x02\x12\r\n\x05width\x18\x03 \x01(\x02\x12\x0e\n\x06height\x18\x04 \x01(\x02\"\x1d\n\x05Point\x12\t\n\x01x\x18\x01 \x01(\x02\x12\t\n\x01y\x18\x02 \x01(\x02\"\x7f\n\rBallDetection\x12.\n\x0eplane_position\x18\x01 \x01(\x0b\x32\x16.serialized_shot.Point\x12(\n\nannotation\x18\x02 \x01(\x0b\x32\x14.serialized_shot.Box\x12\x14\n\x0cinterpolated\x18\x03 \x01(\x08\"T\n\x10RLEBallDetection\x12\x31\n\tdetection\x18\x01 \x01(\x0b\x32\x1e.serialized_shot.BallDetection\x12\r\n\x05\x63ount\x18\x02 \x01(\r\"L\n\x13RLEDetectionHistory\x12\x35\n\ndetections\x18\x01 \x03(\x0b\x32!.serialized_shot.RLEBallDetection\"F\n\x10\x44\x65tectionHistory\x12\x32\n\ndetections\x18\x01 \x03(\x0b\x32\x1e.serialized_shot.BallDetection\"\xe6\x01\n\x04Path\x12\x13\n\x0bstart_frame\x18\x01 \x01(\r\x12\x11\n\tend_frame\x18\x02 \x01(\r\x12\x37\n\ndetections\x18\x03 \x01(\x0b\x32!.serialized_shot.DetectionHistoryH\x00\x12>\n\x0erle_detections\x18\x04 \x01(\x0b\x32$.serialized_shot.RLEDetectionHistoryH\x00\x12\x15\n\x0bnot_present\x18\x05 \x01(\x08H\x00\x12\x11\n\tis_static\x18\x06 \x01(\x08\x42\x13\n\x11\x64\x65tection_history\"R\n\x11IdentifierHistory\x12\x17\n\x0f\x62\x61ll_identifier\x18\x01 \x01(\r\x12$\n\x05paths\x18\x02 \x03(\x0b\x32\x15.serialized_shot.Path\"H\n\x04Shot\x12@\n\x14identifier_histories\x18\x03 \x03(\x0b\x32\".serialized_shot.IdentifierHistoryb\x06proto3')
_globals = globals()
_builder.BuildMessageAndEnumDescriptors(DESCRIPTOR, _globals)
_builder.BuildTopDescriptorsAndMessages(DESCRIPTOR, 'shot_pb2', _globals)
if _descriptor._USE_C_DESCRIPTORS == False:
DESCRIPTOR._options = None
_globals['_POINT']._serialized_start=31
_globals['_POINT']._serialized_end=75
_globals['_PATH']._serialized_start=77
_globals['_PATH']._serialized_end=182
_globals['_BALLPATHS']._serialized_start=184
_globals['_BALLPATHS']._serialized_end=258
_globals['_SHOT']._serialized_start=260
_globals['_SHOT']._serialized_end=354
_globals['_BOX']._serialized_start=31
_globals['_BOX']._serialized_end=94
_globals['_POINT']._serialized_start=96
_globals['_POINT']._serialized_end=125
_globals['_BALLDETECTION']._serialized_start=127
_globals['_BALLDETECTION']._serialized_end=254
_globals['_RLEBALLDETECTION']._serialized_start=256
_globals['_RLEBALLDETECTION']._serialized_end=340
_globals['_RLEDETECTIONHISTORY']._serialized_start=342
_globals['_RLEDETECTIONHISTORY']._serialized_end=418
_globals['_DETECTIONHISTORY']._serialized_start=420
_globals['_DETECTIONHISTORY']._serialized_end=490
_globals['_PATH']._serialized_start=493
_globals['_PATH']._serialized_end=723
_globals['_IDENTIFIERHISTORY']._serialized_start=725
_globals['_IDENTIFIERHISTORY']._serialized_end=807
_globals['_SHOT']._serialized_start=809
_globals['_SHOT']._serialized_end=881
# @@protoc_insertion_point(module_scope)

View File

@ -5,29 +5,73 @@ from typing import ClassVar as _ClassVar, Iterable as _Iterable, Mapping as _Map
DESCRIPTOR: _descriptor.FileDescriptor
class Box(_message.Message):
__slots__ = ["left", "top", "width", "height"]
LEFT_FIELD_NUMBER: _ClassVar[int]
TOP_FIELD_NUMBER: _ClassVar[int]
WIDTH_FIELD_NUMBER: _ClassVar[int]
HEIGHT_FIELD_NUMBER: _ClassVar[int]
left: float
top: float
width: float
height: float
def __init__(self, left: _Optional[float] = ..., top: _Optional[float] = ..., width: _Optional[float] = ..., height: _Optional[float] = ...) -> None: ...
class Point(_message.Message):
__slots__ = ["x", "y", "count"]
__slots__ = ["x", "y"]
X_FIELD_NUMBER: _ClassVar[int]
Y_FIELD_NUMBER: _ClassVar[int]
COUNT_FIELD_NUMBER: _ClassVar[int]
x: float
y: float
def __init__(self, x: _Optional[float] = ..., y: _Optional[float] = ...) -> None: ...
class BallDetection(_message.Message):
__slots__ = ["plane_position", "annotation", "interpolated"]
PLANE_POSITION_FIELD_NUMBER: _ClassVar[int]
ANNOTATION_FIELD_NUMBER: _ClassVar[int]
INTERPOLATED_FIELD_NUMBER: _ClassVar[int]
plane_position: Point
annotation: Box
interpolated: bool
def __init__(self, plane_position: _Optional[_Union[Point, _Mapping]] = ..., annotation: _Optional[_Union[Box, _Mapping]] = ..., interpolated: bool = ...) -> None: ...
class RLEBallDetection(_message.Message):
__slots__ = ["detection", "count"]
DETECTION_FIELD_NUMBER: _ClassVar[int]
COUNT_FIELD_NUMBER: _ClassVar[int]
detection: BallDetection
count: int
def __init__(self, x: _Optional[float] = ..., y: _Optional[float] = ..., count: _Optional[int] = ...) -> None: ...
def __init__(self, detection: _Optional[_Union[BallDetection, _Mapping]] = ..., count: _Optional[int] = ...) -> None: ...
class RLEDetectionHistory(_message.Message):
__slots__ = ["detections"]
DETECTIONS_FIELD_NUMBER: _ClassVar[int]
detections: _containers.RepeatedCompositeFieldContainer[RLEBallDetection]
def __init__(self, detections: _Optional[_Iterable[_Union[RLEBallDetection, _Mapping]]] = ...) -> None: ...
class DetectionHistory(_message.Message):
__slots__ = ["detections"]
DETECTIONS_FIELD_NUMBER: _ClassVar[int]
detections: _containers.RepeatedCompositeFieldContainer[BallDetection]
def __init__(self, detections: _Optional[_Iterable[_Union[BallDetection, _Mapping]]] = ...) -> None: ...
class Path(_message.Message):
__slots__ = ["start_frame", "end_frame", "is_static", "points"]
__slots__ = ["start_frame", "end_frame", "detections", "rle_detections", "not_present", "is_static"]
START_FRAME_FIELD_NUMBER: _ClassVar[int]
END_FRAME_FIELD_NUMBER: _ClassVar[int]
DETECTIONS_FIELD_NUMBER: _ClassVar[int]
RLE_DETECTIONS_FIELD_NUMBER: _ClassVar[int]
NOT_PRESENT_FIELD_NUMBER: _ClassVar[int]
IS_STATIC_FIELD_NUMBER: _ClassVar[int]
POINTS_FIELD_NUMBER: _ClassVar[int]
start_frame: int
end_frame: int
detections: DetectionHistory
rle_detections: RLEDetectionHistory
not_present: bool
is_static: bool
points: _containers.RepeatedCompositeFieldContainer[Point]
def __init__(self, start_frame: _Optional[int] = ..., end_frame: _Optional[int] = ..., is_static: bool = ..., points: _Optional[_Iterable[_Union[Point, _Mapping]]] = ...) -> None: ...
def __init__(self, start_frame: _Optional[int] = ..., end_frame: _Optional[int] = ..., detections: _Optional[_Union[DetectionHistory, _Mapping]] = ..., rle_detections: _Optional[_Union[RLEDetectionHistory, _Mapping]] = ..., not_present: bool = ..., is_static: bool = ...) -> None: ...
class BallPaths(_message.Message):
class IdentifierHistory(_message.Message):
__slots__ = ["ball_identifier", "paths"]
BALL_IDENTIFIER_FIELD_NUMBER: _ClassVar[int]
PATHS_FIELD_NUMBER: _ClassVar[int]
@ -36,11 +80,7 @@ class BallPaths(_message.Message):
def __init__(self, ball_identifier: _Optional[int] = ..., paths: _Optional[_Iterable[_Union[Path, _Mapping]]] = ...) -> None: ...
class Shot(_message.Message):
__slots__ = ["start_frame", "end_frame", "ball_paths"]
START_FRAME_FIELD_NUMBER: _ClassVar[int]
END_FRAME_FIELD_NUMBER: _ClassVar[int]
BALL_PATHS_FIELD_NUMBER: _ClassVar[int]
start_frame: int
end_frame: int
ball_paths: _containers.RepeatedCompositeFieldContainer[BallPaths]
def __init__(self, start_frame: _Optional[int] = ..., end_frame: _Optional[int] = ..., ball_paths: _Optional[_Iterable[_Union[BallPaths, _Mapping]]] = ...) -> None: ...
__slots__ = ["identifier_histories"]
IDENTIFIER_HISTORIES_FIELD_NUMBER: _ClassVar[int]
identifier_histories: _containers.RepeatedCompositeFieldContainer[IdentifierHistory]
def __init__(self, identifier_histories: _Optional[_Iterable[_Union[IdentifierHistory, _Mapping]]] = ...) -> None: ...

View File

@ -2,26 +2,53 @@ syntax = "proto3";
package serialized_shot;
message Box {
float left = 1;
float top = 2;
float width = 3;
float height = 4;
}
message Point {
float x = 1;
float y = 2;
int32 count = 3;
}
message BallDetection {
Point plane_position = 1;
Box annotation = 2;
bool interpolated = 3;
}
message RLEBallDetection {
BallDetection detection = 1;
uint32 count = 2;
}
message RLEDetectionHistory {
repeated RLEBallDetection detections = 1;
}
message DetectionHistory {
repeated BallDetection detections = 1;
}
message Path {
int32 start_frame = 1;
int32 end_frame = 2;
bool is_static = 3;
repeated Point points = 4;
uint32 start_frame = 1;
uint32 end_frame = 2;
oneof detection_history {
DetectionHistory detections = 3;
RLEDetectionHistory rle_detections = 4;
bool not_present = 5;
}
bool is_static = 6;
}
message BallPaths {
int32 ball_identifier = 1;
message IdentifierHistory {
uint32 ball_identifier = 1;
repeated Path paths = 2;
}
message Shot {
int32 start_frame = 1;
int32 end_frame = 2;
repeated BallPaths ball_paths = 3;
repeated IdentifierHistory identifier_histories = 3;
}

View File

@ -1,7 +1,95 @@
export interface Box {
left?: number;
top?: number;
width?: number;
height?: number;
}
export function encodeBox(message: Box): Uint8Array {
let bb = popByteBuffer();
_encodeBox(message, bb);
return toUint8Array(bb);
}
function _encodeBox(message: Box, bb: ByteBuffer): void {
// optional float left = 1;
let $left = message.left;
if ($left !== undefined) {
writeVarint32(bb, 13);
writeFloat(bb, $left);
}
// optional float top = 2;
let $top = message.top;
if ($top !== undefined) {
writeVarint32(bb, 21);
writeFloat(bb, $top);
}
// optional float width = 3;
let $width = message.width;
if ($width !== undefined) {
writeVarint32(bb, 29);
writeFloat(bb, $width);
}
// optional float height = 4;
let $height = message.height;
if ($height !== undefined) {
writeVarint32(bb, 37);
writeFloat(bb, $height);
}
}
export function decodeBox(binary: Uint8Array): Box {
return _decodeBox(wrapByteBuffer(binary));
}
function _decodeBox(bb: ByteBuffer): Box {
let message: Box = {} as any;
end_of_message: while (!isAtEnd(bb)) {
let tag = readVarint32(bb);
switch (tag >>> 3) {
case 0:
break end_of_message;
// optional float left = 1;
case 1: {
message.left = readFloat(bb);
break;
}
// optional float top = 2;
case 2: {
message.top = readFloat(bb);
break;
}
// optional float width = 3;
case 3: {
message.width = readFloat(bb);
break;
}
// optional float height = 4;
case 4: {
message.height = readFloat(bb);
break;
}
default:
skipUnknownField(bb, tag & 7);
}
}
return message;
}
export interface Point {
x?: number;
y?: number;
count?: number;
}
export function encodePoint(message: Point): Uint8Array {
@ -24,13 +112,6 @@ function _encodePoint(message: Point, bb: ByteBuffer): void {
writeVarint32(bb, 21);
writeFloat(bb, $y);
}
// optional int32 count = 3;
let $count = message.count;
if ($count !== undefined) {
writeVarint32(bb, 24);
writeVarint64(bb, intToLong($count));
}
}
export function decodePoint(binary: Uint8Array): Point {
@ -59,9 +140,282 @@ function _decodePoint(bb: ByteBuffer): Point {
break;
}
// optional int32 count = 3;
default:
skipUnknownField(bb, tag & 7);
}
}
return message;
}
export interface BallDetection {
plane_position?: Point;
annotation?: Box;
interpolated?: boolean;
}
export function encodeBallDetection(message: BallDetection): Uint8Array {
let bb = popByteBuffer();
_encodeBallDetection(message, bb);
return toUint8Array(bb);
}
function _encodeBallDetection(message: BallDetection, bb: ByteBuffer): void {
// optional Point plane_position = 1;
let $plane_position = message.plane_position;
if ($plane_position !== undefined) {
writeVarint32(bb, 10);
let nested = popByteBuffer();
_encodePoint($plane_position, nested);
writeVarint32(bb, nested.limit);
writeByteBuffer(bb, nested);
pushByteBuffer(nested);
}
// optional Box annotation = 2;
let $annotation = message.annotation;
if ($annotation !== undefined) {
writeVarint32(bb, 18);
let nested = popByteBuffer();
_encodeBox($annotation, nested);
writeVarint32(bb, nested.limit);
writeByteBuffer(bb, nested);
pushByteBuffer(nested);
}
// optional bool interpolated = 3;
let $interpolated = message.interpolated;
if ($interpolated !== undefined) {
writeVarint32(bb, 24);
writeByte(bb, $interpolated ? 1 : 0);
}
}
export function decodeBallDetection(binary: Uint8Array): BallDetection {
return _decodeBallDetection(wrapByteBuffer(binary));
}
function _decodeBallDetection(bb: ByteBuffer): BallDetection {
let message: BallDetection = {} as any;
end_of_message: while (!isAtEnd(bb)) {
let tag = readVarint32(bb);
switch (tag >>> 3) {
case 0:
break end_of_message;
// optional Point plane_position = 1;
case 1: {
let limit = pushTemporaryLength(bb);
message.plane_position = _decodePoint(bb);
bb.limit = limit;
break;
}
// optional Box annotation = 2;
case 2: {
let limit = pushTemporaryLength(bb);
message.annotation = _decodeBox(bb);
bb.limit = limit;
break;
}
// optional bool interpolated = 3;
case 3: {
message.count = readVarint32(bb);
message.interpolated = !!readByte(bb);
break;
}
default:
skipUnknownField(bb, tag & 7);
}
}
return message;
}
export interface RLEBallDetection {
detection?: BallDetection;
count?: number;
}
export function encodeRLEBallDetection(message: RLEBallDetection): Uint8Array {
let bb = popByteBuffer();
_encodeRLEBallDetection(message, bb);
return toUint8Array(bb);
}
function _encodeRLEBallDetection(
message: RLEBallDetection,
bb: ByteBuffer,
): void {
// optional BallDetection detection = 1;
let $detection = message.detection;
if ($detection !== undefined) {
writeVarint32(bb, 10);
let nested = popByteBuffer();
_encodeBallDetection($detection, nested);
writeVarint32(bb, nested.limit);
writeByteBuffer(bb, nested);
pushByteBuffer(nested);
}
// optional uint32 count = 2;
let $count = message.count;
if ($count !== undefined) {
writeVarint32(bb, 16);
writeVarint32(bb, $count);
}
}
export function decodeRLEBallDetection(binary: Uint8Array): RLEBallDetection {
return _decodeRLEBallDetection(wrapByteBuffer(binary));
}
function _decodeRLEBallDetection(bb: ByteBuffer): RLEBallDetection {
let message: RLEBallDetection = {} as any;
end_of_message: while (!isAtEnd(bb)) {
let tag = readVarint32(bb);
switch (tag >>> 3) {
case 0:
break end_of_message;
// optional BallDetection detection = 1;
case 1: {
let limit = pushTemporaryLength(bb);
message.detection = _decodeBallDetection(bb);
bb.limit = limit;
break;
}
// optional uint32 count = 2;
case 2: {
message.count = readVarint32(bb) >>> 0;
break;
}
default:
skipUnknownField(bb, tag & 7);
}
}
return message;
}
export interface RLEDetectionHistory {
detections?: RLEBallDetection[];
}
export function encodeRLEDetectionHistory(
message: RLEDetectionHistory,
): Uint8Array {
let bb = popByteBuffer();
_encodeRLEDetectionHistory(message, bb);
return toUint8Array(bb);
}
function _encodeRLEDetectionHistory(
message: RLEDetectionHistory,
bb: ByteBuffer,
): void {
// repeated RLEBallDetection detections = 1;
let array$detections = message.detections;
if (array$detections !== undefined) {
for (let value of array$detections) {
writeVarint32(bb, 10);
let nested = popByteBuffer();
_encodeRLEBallDetection(value, nested);
writeVarint32(bb, nested.limit);
writeByteBuffer(bb, nested);
pushByteBuffer(nested);
}
}
}
export function decodeRLEDetectionHistory(
binary: Uint8Array,
): RLEDetectionHistory {
return _decodeRLEDetectionHistory(wrapByteBuffer(binary));
}
function _decodeRLEDetectionHistory(bb: ByteBuffer): RLEDetectionHistory {
let message: RLEDetectionHistory = {} as any;
end_of_message: while (!isAtEnd(bb)) {
let tag = readVarint32(bb);
switch (tag >>> 3) {
case 0:
break end_of_message;
// repeated RLEBallDetection detections = 1;
case 1: {
let limit = pushTemporaryLength(bb);
let values = message.detections || (message.detections = []);
values.push(_decodeRLEBallDetection(bb));
bb.limit = limit;
break;
}
default:
skipUnknownField(bb, tag & 7);
}
}
return message;
}
export interface DetectionHistory {
detections?: BallDetection[];
}
export function encodeDetectionHistory(message: DetectionHistory): Uint8Array {
let bb = popByteBuffer();
_encodeDetectionHistory(message, bb);
return toUint8Array(bb);
}
function _encodeDetectionHistory(
message: DetectionHistory,
bb: ByteBuffer,
): void {
// repeated BallDetection detections = 1;
let array$detections = message.detections;
if (array$detections !== undefined) {
for (let value of array$detections) {
writeVarint32(bb, 10);
let nested = popByteBuffer();
_encodeBallDetection(value, nested);
writeVarint32(bb, nested.limit);
writeByteBuffer(bb, nested);
pushByteBuffer(nested);
}
}
}
export function decodeDetectionHistory(binary: Uint8Array): DetectionHistory {
return _decodeDetectionHistory(wrapByteBuffer(binary));
}
function _decodeDetectionHistory(bb: ByteBuffer): DetectionHistory {
let message: DetectionHistory = {} as any;
end_of_message: while (!isAtEnd(bb)) {
let tag = readVarint32(bb);
switch (tag >>> 3) {
case 0:
break end_of_message;
// repeated BallDetection detections = 1;
case 1: {
let limit = pushTemporaryLength(bb);
let values = message.detections || (message.detections = []);
values.push(_decodeBallDetection(bb));
bb.limit = limit;
break;
}
@ -76,8 +430,10 @@ function _decodePoint(bb: ByteBuffer): Point {
export interface Path {
start_frame?: number;
end_frame?: number;
detections?: DetectionHistory;
rle_detections?: RLEDetectionHistory;
not_present?: boolean;
is_static?: boolean;
points?: Point[];
}
export function encodePath(message: Path): Uint8Array {
@ -87,39 +443,55 @@ export function encodePath(message: Path): Uint8Array {
}
function _encodePath(message: Path, bb: ByteBuffer): void {
// optional int32 start_frame = 1;
// optional uint32 start_frame = 1;
let $start_frame = message.start_frame;
if ($start_frame !== undefined) {
writeVarint32(bb, 8);
writeVarint64(bb, intToLong($start_frame));
writeVarint32(bb, $start_frame);
}
// optional int32 end_frame = 2;
// optional uint32 end_frame = 2;
let $end_frame = message.end_frame;
if ($end_frame !== undefined) {
writeVarint32(bb, 16);
writeVarint64(bb, intToLong($end_frame));
writeVarint32(bb, $end_frame);
}
// optional bool is_static = 3;
// optional DetectionHistory detections = 3;
let $detections = message.detections;
if ($detections !== undefined) {
writeVarint32(bb, 26);
let nested = popByteBuffer();
_encodeDetectionHistory($detections, nested);
writeVarint32(bb, nested.limit);
writeByteBuffer(bb, nested);
pushByteBuffer(nested);
}
// optional RLEDetectionHistory rle_detections = 4;
let $rle_detections = message.rle_detections;
if ($rle_detections !== undefined) {
writeVarint32(bb, 34);
let nested = popByteBuffer();
_encodeRLEDetectionHistory($rle_detections, nested);
writeVarint32(bb, nested.limit);
writeByteBuffer(bb, nested);
pushByteBuffer(nested);
}
// optional bool not_present = 5;
let $not_present = message.not_present;
if ($not_present !== undefined) {
writeVarint32(bb, 40);
writeByte(bb, $not_present ? 1 : 0);
}
// optional bool is_static = 6;
let $is_static = message.is_static;
if ($is_static !== undefined) {
writeVarint32(bb, 24);
writeVarint32(bb, 48);
writeByte(bb, $is_static ? 1 : 0);
}
// repeated Point points = 4;
let array$points = message.points;
if (array$points !== undefined) {
for (let value of array$points) {
writeVarint32(bb, 34);
let nested = popByteBuffer();
_encodePoint(value, nested);
writeVarint32(bb, nested.limit);
writeByteBuffer(bb, nested);
pushByteBuffer(nested);
}
}
}
export function decodePath(binary: Uint8Array): Path {
@ -136,33 +508,46 @@ function _decodePath(bb: ByteBuffer): Path {
case 0:
break end_of_message;
// optional int32 start_frame = 1;
// optional uint32 start_frame = 1;
case 1: {
message.start_frame = readVarint32(bb);
message.start_frame = readVarint32(bb) >>> 0;
break;
}
// optional int32 end_frame = 2;
// optional uint32 end_frame = 2;
case 2: {
message.end_frame = readVarint32(bb);
message.end_frame = readVarint32(bb) >>> 0;
break;
}
// optional bool is_static = 3;
// optional DetectionHistory detections = 3;
case 3: {
message.is_static = !!readByte(bb);
let limit = pushTemporaryLength(bb);
message.detections = _decodeDetectionHistory(bb);
bb.limit = limit;
break;
}
// repeated Point points = 4;
// optional RLEDetectionHistory rle_detections = 4;
case 4: {
let limit = pushTemporaryLength(bb);
let values = message.points || (message.points = []);
values.push(_decodePoint(bb));
message.rle_detections = _decodeRLEDetectionHistory(bb);
bb.limit = limit;
break;
}
// optional bool not_present = 5;
case 5: {
message.not_present = !!readByte(bb);
break;
}
// optional bool is_static = 6;
case 6: {
message.is_static = !!readByte(bb);
break;
}
default:
skipUnknownField(bb, tag & 7);
}
@ -171,23 +556,28 @@ function _decodePath(bb: ByteBuffer): Path {
return message;
}
export interface BallPaths {
export interface IdentifierHistory {
ball_identifier?: number;
paths?: Path[];
}
export function encodeBallPaths(message: BallPaths): Uint8Array {
export function encodeIdentifierHistory(
message: IdentifierHistory,
): Uint8Array {
let bb = popByteBuffer();
_encodeBallPaths(message, bb);
_encodeIdentifierHistory(message, bb);
return toUint8Array(bb);
}
function _encodeBallPaths(message: BallPaths, bb: ByteBuffer): void {
// optional int32 ball_identifier = 1;
function _encodeIdentifierHistory(
message: IdentifierHistory,
bb: ByteBuffer,
): void {
// optional uint32 ball_identifier = 1;
let $ball_identifier = message.ball_identifier;
if ($ball_identifier !== undefined) {
writeVarint32(bb, 8);
writeVarint64(bb, intToLong($ball_identifier));
writeVarint32(bb, $ball_identifier);
}
// repeated Path paths = 2;
@ -204,12 +594,12 @@ function _encodeBallPaths(message: BallPaths, bb: ByteBuffer): void {
}
}
export function decodeBallPaths(binary: Uint8Array): BallPaths {
return _decodeBallPaths(wrapByteBuffer(binary));
export function decodeIdentifierHistory(binary: Uint8Array): IdentifierHistory {
return _decodeIdentifierHistory(wrapByteBuffer(binary));
}
function _decodeBallPaths(bb: ByteBuffer): BallPaths {
let message: BallPaths = {} as any;
function _decodeIdentifierHistory(bb: ByteBuffer): IdentifierHistory {
let message: IdentifierHistory = {} as any;
end_of_message: while (!isAtEnd(bb)) {
let tag = readVarint32(bb);
@ -218,9 +608,9 @@ function _decodeBallPaths(bb: ByteBuffer): BallPaths {
case 0:
break end_of_message;
// optional int32 ball_identifier = 1;
// optional uint32 ball_identifier = 1;
case 1: {
message.ball_identifier = readVarint32(bb);
message.ball_identifier = readVarint32(bb) >>> 0;
break;
}
@ -242,9 +632,7 @@ function _decodeBallPaths(bb: ByteBuffer): BallPaths {
}
export interface Shot {
start_frame?: number;
end_frame?: number;
ball_paths?: BallPaths[];
identifier_histories?: IdentifierHistory[];
}
export function encodeShot(message: Shot): Uint8Array {
@ -254,27 +642,13 @@ export function encodeShot(message: Shot): Uint8Array {
}
function _encodeShot(message: Shot, bb: ByteBuffer): void {
// optional int32 start_frame = 1;
let $start_frame = message.start_frame;
if ($start_frame !== undefined) {
writeVarint32(bb, 8);
writeVarint64(bb, intToLong($start_frame));
}
// optional int32 end_frame = 2;
let $end_frame = message.end_frame;
if ($end_frame !== undefined) {
writeVarint32(bb, 16);
writeVarint64(bb, intToLong($end_frame));
}
// repeated BallPaths ball_paths = 3;
let array$ball_paths = message.ball_paths;
if (array$ball_paths !== undefined) {
for (let value of array$ball_paths) {
// repeated IdentifierHistory identifier_histories = 3;
let array$identifier_histories = message.identifier_histories;
if (array$identifier_histories !== undefined) {
for (let value of array$identifier_histories) {
writeVarint32(bb, 26);
let nested = popByteBuffer();
_encodeBallPaths(value, nested);
_encodeIdentifierHistory(value, nested);
writeVarint32(bb, nested.limit);
writeByteBuffer(bb, nested);
pushByteBuffer(nested);
@ -296,23 +670,12 @@ function _decodeShot(bb: ByteBuffer): Shot {
case 0:
break end_of_message;
// optional int32 start_frame = 1;
case 1: {
message.start_frame = readVarint32(bb);
break;
}
// optional int32 end_frame = 2;
case 2: {
message.end_frame = readVarint32(bb);
break;
}
// repeated BallPaths ball_paths = 3;
// repeated IdentifierHistory identifier_histories = 3;
case 3: {
let limit = pushTemporaryLength(bb);
let values = message.ball_paths || (message.ball_paths = []);
values.push(_decodeBallPaths(bb));
let values =
message.identifier_histories || (message.identifier_histories = []);
values.push(_decodeIdentifierHistory(bb));
bb.limit = limit;
break;
}