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Trafficators

Trafficators are electromechanical semaphore signals mounted on early automobiles, designed to indicate a vehicle's intended direction of turn by extending illuminated arms from the side of the bodywork, typically operated via a dashboard switch that activates a solenoid or motor to raise the arm for visibility to other drivers.^[1] Modeled after railway semaphores, which themselves drew from maritime flag signaling, trafficators first appeared on cars in the early 1900s as a safer alternative to hand signals, with early designs patented as early as 1907 by Percy Douglas-Hamilton for a mechanical indicator device.^[2]^[3] By 1908, Italian inventor Alfredo Barrachini enhanced the concept by incorporating electric lights into the arms for better nighttime visibility, while in 1915, American actress Florence Lawrence developed an electrically operated version using push buttons to extend a movable arm.^[3] These devices became more common in the 1920s and 1930s, particularly in Europe, where British manufacturer Lucas introduced reliable solenoid-based models that were standard on many vehicles until the late 1950s, though they were prone to mechanical failures from dirt accumulation or electrical issues.^[1]^[4] In the United States, trafficators saw limited adoption compared to emerging electric flashing lights, but some examples persisted into the 1930s and 1940s.^[3] By the mid-1950s, amber flashing turn signals mounted at the front and rear largely replaced trafficators due to their reliability and regulatory mandates, such as the U.S. Federal Motor Vehicle Safety Standard 108 in 1968, marking the end of widespread use though some classic vehicles retain them today.^[4]

Overview

Definition and Purpose

Trafficators are electromechanical semaphore signals mounted on vehicles, typically on door pillars, designed to protrude horizontally from the bodywork to indicate a left or right turn. These devices consist of an arm that extends outward when activated, serving as a visual cue for the driver's intended direction.^[5] The primary purpose of trafficators is to enhance road safety by clearly signaling a vehicle's turning intentions to other drivers and pedestrians, particularly in an era before standardized electronic turn signals were widespread. By providing a prominent, protruding indicator, they reduce the risk of collisions at intersections and during lane changes. In basic operation, the arm extends from the vehicle body upon activation and often features a reflective surface or steady illumination to improve visibility, especially in low-light conditions.^[1] This design draws from the semaphore principles used in railway signaling, adapting them for automotive use.^[3]

Historical Context

The origins of trafficators trace back to the semaphore signaling systems employed in rail transport during the late 19th century for directing train movements.^[6] These railway semaphores, which used pivoting arms to convey stop, proceed, or caution instructions over distances, provided a visual precedent for later mechanical indicators on vehicles, adapting proven railway technology to emerging road needs. In the broader evolution of vehicle signaling, early transportation relied heavily on manual methods such as hand gestures and flags, which drivers of pre-1900 automobiles used to communicate intentions to other road users. As motor vehicle speeds increased and urban traffic volumes grew in the early 20th century, these rudimentary hand signals proved inadequate and hazardous, prompting the development of mechanical aids to extend visibility and reduce driver exposure to external elements.^[3] This transition from manual to mechanical signaling in diverse transport contexts laid the groundwork for trafficators as a bridge between human-operated cues and automated systems, reflecting broader advancements in traffic management amid industrialization.^[1]

Design and Operation

Mechanical Components

Trafficators feature a hinged arm as the primary mechanical element, typically cylindrical or blade-shaped to mimic a human signaling gesture, which extends horizontally from the vehicle body to indicate turns. This arm connects to a pivot mechanism comprising a catch pin and brass knob or profile, enabling smooth extension and locking into position while minimizing vibration during vehicle operation. A spring-loaded retraction system, incorporating a hairpin spring to retain the catch pin and a copper tongue spring for assisted return, ensures the arm retracts reliably to a flush position against the body after signaling, enhancing aerodynamic efficiency and preventing damage.^[7]^[8] The components are engineered for durability in early automotive environments, utilizing metals such as stainless steel for arm covers and brass or copper for pivot and spring elements to resist corrosion and wear from road exposure. Moulded plastic forms the arm's outer casing, providing lightweight strength, while the overall assembly includes lubrication points at the hinged joint and catch pin to maintain reliable movement over time. Rubber seals or cup washers around the casing and mounting screws contribute to weatherproofing, protecting internal mechanics from moisture and dust accumulation.^[7]^[8] Design variations in the arm include flush-fitting models for recessed storage in the vehicle body and externally mounted types for broader compatibility, with arm lengths typically measuring 7 to 8 inches from the pivot point to allow sufficient visibility without excessive protrusion. Mounting positions commonly occur on the B-pillar (door pillar) for sedans to integrate seamlessly with body lines, or on fenders for trucks and commercial vehicles using right-angle brackets or adaptor plates for secure attachment. These adaptations prioritized reliability in pre-electronic vehicles, where mechanical simplicity ensured consistent performance under varying conditions. The mechanical arm may incorporate provisions for illumination integration to enhance nighttime signaling.^[7]^[8]

Electrical and Illumination Systems

The electrical systems of trafficators represented a pivotal shift from manual or pneumatic activation to automated, vehicle-powered operation, enabling more efficient turn signaling. In 1923, early electric designs employed a linear solenoid to extend the semaphore arm, drawing power directly from the vehicle's battery to energize the coil and produce linear motion for arm deployment. This solenoid mechanism supplanted prior cable-operated systems, offering faster response times and reduced driver effort. By 1927, German engineers Max Ruhl and Ernst Neuman refined the concept with solenoid-raised arms inspired by railway semaphores, integrating electrical actuation as standard in many European vehicles.^[7] Illumination systems enhanced the visibility of extended arms, particularly in low-light conditions, using integrated lighting at the arm tip powered by the same vehicle battery (typically 6V or 12V systems). A small bulb, such as the 3W festoon type (e.g., Lucas No. 255 for 6V or No. 256 for 12V), was mounted at the arm's end to emit a steady amber glow upon activation, wired in parallel with the solenoid for simultaneous operation. Reflectors sometimes supplemented the bulb for daytime use, while later variants, like Bosch's early direction indicators, featured a dedicated bulb illuminating the entire arm via an electromagnet-driven extension. Some models incorporated flashing illumination through mechanical relays or thermal flasher units, pulsing the light at regular intervals to draw attention, though steady lighting predominated in initial designs until regulatory shifts in the 1950s favored flashing signals.^[7]^[5] Control mechanisms centered on simple electrical circuits routed from a dashboard-mounted toggle switch, which directed current to the appropriate solenoid (left or right) via insulated wiring harnesses, often including a dashboard warning light in parallel to indicate activation. In common implementations, such as the Lucas SF80/SE100 units used in British automobiles through the 1950s, the switch completed the circuit to the solenoid coil, extending the spring-loaded arm while illuminating the tip bulb. Advanced variants featured self-cancelling functionality integrated into the steering column switch, where completing a turn mechanically broke the circuit or retracted the arm, preventing prolonged signaling.^[7]^[9]

History

Early Development and Invention

Trafficators, the mechanical semaphore-style signaling devices for automobiles, first emerged in the early 1900s as an evolution from railway semaphores and manual hand signals, with the earliest known patent for a turn signaling device filed in 1907 by Percy Douglas-Hamilton for a mechanical indicator that used illuminated hand symbols to denote turns or stops.^[10]^[3] Initial implementations were actuated mechanically or pneumatically in both Europe and the United States. These early prototypes were rudimentary, often relying on driver-operated levers or air pressure to extend arms from the vehicle's body to indicate turns, addressing the growing need for clearer communication amid rising automobile traffic.^[3] A significant advancement occurred in 1908 when Italian inventor Alfredo Giansanti Baracchini patented an improved warning apparatus in Great Britain, featuring cable-operated (Bowden mechanism) arms that extended perpendicularly from the vehicle to signal turning direction.^[11] Baracchini's design incorporated illuminated elements, with the hollow arms containing white-enamelled faces and red glass arrows lit by an electric lamp for nighttime visibility, controlled via a spring-mounted button; the system allowed for dual indicators on each side, operable by hand-lever or alternatively by electric, pneumatic, or exhaust means.^[11] In 1915, American actress and inventor Florence Lawrence developed an electrically operated turn signal, using push buttons to extend a movable arm from the rear fender to indicate direction, with an additional mechanism that raised a "stop" sign when the brakes were applied.^[3] Building on these electric innovations, the Naillik Motor Signal Company in Boston introduced an electric motor-driven version of the trafficator in 1918, providing a more automated powered operation for extending and retracting the signaling arms.^[3] This development further reduced reliance on manual or pneumatic actuation.^[3]

Key Patents and Innovations

In 1923, French inventors Gustave Deneef and Maurice Boisson secured a patent for a linear solenoid mechanism in trafficators, which replaced earlier mechanical linkages with a more direct electromagnetic drive for extending and retracting the semaphore arm.^[12] This innovation allowed for smoother and more precise operation, minimizing the jerkiness associated with prior rotary motor systems. Building on this advancement, Berlin-based inventors Max Ruhl and Ernst Neuman obtained a patent in 1927 for a trafficator design that integrated the solenoid drive with built-in illumination, featuring internal lighting to enhance visibility of the extended arm during low-light conditions.^[12] The illuminated arm typically used a small bulb to project light through a translucent section, making the signal more effective at night without requiring external modifications.^[13] These 1920s patents significantly improved trafficator reliability and user-friendliness by reducing the manual effort needed to operate the device and enhancing its durability against mechanical wear.^[12] Consequently, they facilitated greater acceptance among automakers, enabling the shift toward factory-installed options in production vehicles by the late 1920s and early 1930s.

Adoption and Usage

In Automobiles

Trafficators were widely integrated into passenger automobiles during the interwar and post-war periods, serving as a primary method for indicating turns before the widespread adoption of flashing light signals. In Europe, they became a standard factory-installed feature on many models starting in the late 1920s, with the 1933 Morris Isis exemplifying early adoption through its Wilcot flashing indicator system, which used illuminated arms to signal intentions more clearly than manual hand gestures.^[14] Similarly, the pre-1960 Volkswagen Beetle featured semaphore-style trafficators as factory equipment, particularly on North American and European variants until the mid-1950s, protruding from the B-pillar to alert following and adjacent traffic.^[15] Various U.S. and European automobiles, such as the 1938 De Soto S-5 and 1950s British models like the Vauxhall Velox, also incorporated them routinely until the late 1950s, reflecting their role in enhancing road communication during an era of growing vehicle density.^[16]^[1] Drivers interacted with trafficators through a manual dashboard lever or switch, which activated an electric solenoid to extend the illuminated arm outward, making it visible to rear and side traffic without requiring the driver to extend a hand outside the vehicle.^[17] This mechanism allowed for straightforward operation during daily driving, with the arm typically remaining extended until manually reset or automatically retracted via a spring-loaded timer in some designs, though many required the driver to flip the lever back after the turn.^[1] The visible extension of the arm from the vehicle's side provided a direct, mechanical indication of intent, integrating seamlessly into the dashboard controls alongside other functions like headlights and wipers. The primary safety benefit of trafficators in automobiles was their ability to provide a more reliable turn indication than traditional hand signals, particularly in adverse conditions such as rain or fog, where illuminated arms ensured visibility from multiple angles regardless of weather.^[14] By protruding and glowing with internal bulbs, they reduced the risk of miscommunication on busy roads, allowing drivers to keep both hands on the wheel while signaling, which was especially valuable during the 1920s to 1950s when traffic volumes were rising but lighting technology was limited.^[2] This improvement over arm-waving signals helped mitigate accidents in poor weather by offering a consistent, weather-resistant visual cue to other motorists.^[1]

Regulations and Global Variations

In the United Kingdom, trafficators were required on all new motor vehicles first used on or after 1 January 1936, as stipulated under early road vehicle lighting regulations aimed at standardizing direction signaling for safety.^[18] Their mandatory use on new cars continued until 1956, when amendments to the Road Vehicles Lighting Regulations legalized flashing light indicators as an alternative, with the change applying to vehicles registered after the end of 1958.^[19] This transition reflected evolving standards to improve visibility and reduce mechanical complexity in signaling devices. In the United States, trafficators and early turn signals remained optional equipment during the 1920s through 1940s, though they appeared on many production models from manufacturers like Buick and Ford; there was no federal mandate, but various states enacted local rules requiring direction indicators on new vehicles by the mid-20th century. Federal standardization under the National Traffic and Motor Vehicle Safety Act of 1966 ultimately required turn signals on all new passenger cars starting in 1968, marking the end of reliance on semaphore-style trafficators nationwide. State variations persisted, with some jurisdictions mandating signals by the 1950s for enhanced road safety. Trafficators experienced earlier adoption in continental Europe, particularly France and Germany, where inventors patented electrically operated solenoid-based versions by 1927, influencing quicker integration into vehicles compared to other regions.^[3] In Germany, for instance, flashing turn signals supplanted trafficators on new vehicles via regulations effective from 1956.^[5] Adoption in Asia and Australia was more limited until after World War II, coinciding with post-war automotive industrialization and the influence of the 1949 Geneva Convention on Road Traffic, which promoted uniform signaling standards globally.^[20]

Decline and Legacy

Replacement by Modern Signals

The replacement of trafficators with electronic flashing turn signals in the mid-20th century was driven by a combination of regulatory changes and technological improvements that prioritized road safety and practicality. In the United Kingdom, trafficators began to be phased out in favor of amber flashing indicators around 1956, as manufacturers transitioned to more reliable systems aligned with emerging safety standards; by the late 1950s, models like the Austin A35 had adopted flashing lights, rendering semaphores obsolete on new vehicles.^[4] In the United States, Federal Motor Vehicle Safety Standard (FMVSS) No. 108, effective from January 1, 1968, mandated turn signal lamps on all new passenger cars, building on earlier state-level requirements and industry adoption that had already marginalized trafficators by the early 1960s.^[21] These legislative shifts emphasized flashing amber lights for superior visibility in varying weather conditions, as static illuminated arms like trafficators often failed to alert other drivers effectively, particularly at night or in fog.^[1] Electronic turn signals offered significant technological advantages over mechanical trafficators, including enhanced reliability and ease of use. Unlike trafficators, which were prone to jamming from dirt, freezing in winter, or solenoid failures, and required manual cancellation after turns, flashing signals featured self-cancelling mechanisms that automatically deactivated, reducing driver distraction and error.^[1] Production costs were lower for electronic systems due to simpler bulb-based designs without moving parts, allowing for cheaper mass manufacturing and integration into vehicle wiring.^[2] Additionally, by the late 1960s, these signals could be seamlessly linked to hazard warning systems—first standardized in U.S. vehicles for the 1967 model year—enabling simultaneous flashing of all indicators for emergencies, a feature impossible with isolated trafficator arms.^[22] The flashing action itself improved conspicuity, drawing attention more effectively than a steady light, which often went unnoticed without supplementary hand signals.^[1] By the early 1960s, trafficators had become rare on new automobiles worldwide, confined largely to export models or budget vehicles in select markets. Their complete obsolescence in production models occurred by the mid-1970s, as global regulations and automotive standards universally adopted electronic flashing signals, marking the end of mechanical semaphore indicators in mainstream use.^[2]^[1]

Preservation in Historic Vehicles

Trafficators remain a sought-after component in the restoration of classic automobiles, particularly those from the mid-20th century, where original units are prized for their authenticity and contribution to historical accuracy. Enthusiasts often seek new old stock (NOS) parts, such as Lucas SE100/SF80 models, to maintain originality during rebuilds, with reproduction arms and covers also available to replace worn components.^[23] In vehicles like pre-1960 Volkswagen Beetles, which were factory-equipped with semaphore-style trafficators, restoration specialists focus on refurbishing these mechanisms to operational condition, including cleaning, repainting, and replacing internal solenoids.^[24]^[15] This collectibility extends to dedicated parts accumulation, with some restorers amassing components over decades to support long-term projects.^[25] To ensure compliance with contemporary road regulations while preserving the aesthetic, modern retrofits incorporate LED technology into the original mechanical arms. These self-flashing LED festoon bulbs, available in 6V and 12V variants, replace incandescent bulbs to provide brighter illumination without requiring relays or extensive rewiring, making them suitable for parades, shows, and limited on-road use.^[26]^[27] Such upgrades are particularly popular in vehicles like Austin-Healey models and Morris Minors, where historic vehicle exemptions allow retention of trafficators provided they function reliably.^[28]^[29] These adaptations balance regulatory demands with the desire to showcase functional period features during events. The cultural legacy of trafficators endures through their display in museums and appearances in media portraying mid-20th-century automotive history. Institutions like the Lane Motor Museum exhibit working examples on vehicles such as the 1938 BMW 320 and 1935 Mercedes-Benz 130H, highlighting their role as precursors to modern signals.^[2] The Science Museum Group in the UK holds artifacts like a circa 1950 CAV commercial trafficator arm, preserving it as a key piece of road transport evolution.^[30] In films, such as the 1998 Classic & Sports Car Film Collection featuring a 1932 Morris Major, trafficators appear as authentic details in depictions of era-specific motoring.^[31]

References

[1]
Trafficators/flippers: how old cars used to indicate - 1900s.org
Trafficators was the official name for old car indicators, but they were informally called flippers because they flipped out to show that the car was about to ...
[2]
The World's Quirkiest Car Museum Takes Us On A Tour Of Turn ...
Oct 27, 2022 · First appearing on automobiles in the early 1900s, trafficators were modeled after railway semaphores, which were themselves modeled after ...Missing: history | Show results with:history
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The Strange but True History of the Turn Signal - Car Talk
Oct 3, 2019 · By 1927, French and German inventors had built trafficators that combined a solenoid and electric lighting. The trafficator was still in use two ...
[4]
THE HISTORY OF DIRECTION INDICATOR - Lancaster Insurance
Jan 18, 2022 · The story of a device that we all take for granted. Trafficator 1935. Amber flashing indicators fore and aft are now a legal requirement on new cars sold in ...Missing: automotive | Show results with:automotive
[5]
Trafficators - Wikipedia
Trafficators are semaphore signals which, when operated, protrude from the bodywork of a motor vehicle to indicate its intention to turn in the direction ...
[6]
The Bosch direction indicator (turn signal)
The Bosch direction indicator consisted of an electromagnet that, when activated via the direction indicator switch, caused the indicator arm to fold out of ...
[7]
[PDF] Trafficators - The Triple-M Register
The most favoured type of trafficator is the signal arm type, the original of which was the ordinary box enclosed model that could be fitted at any convenient ...
[8]
Guide: Trafficator Indicators Care & Repair - Better Car Lighting 2
The Trafficators are kept in the closed position by means of a spring. The arms can be pulled out by hand. If any difficulty is experienced, switch the ...<|control11|><|separator|>
[9]
History Of The Semaphore - Train Collectors Association
J. P. Coleman and H. Ballet invented the first successful electric semaphore in 1898. After the turn of the century the Union Pacific and Southern Pacific ...
[10]
None
Below is a merged summary of the "Trafficator Mechanical Components" from the Lucas Technical Correspondence Course, consolidating all information from the provided segments into a single, comprehensive response. To maximize detail and clarity, I’ve organized the information into a table format where applicable, followed by additional narrative details for aspects not easily tabularized. The response retains all mentioned information while avoiding redundancy and ensuring a dense representation.
[11]
Semaphore Trafficator Switch (Self-Cancelling) (Less Lever ...
In stockSemaphore Trafficator Switch (Self-Cancelling) (Less Lever)MMCBATH PART NO('S):SWT108. Code: SWT108. £107.88 £89.90 (ex. VAT) (ex. VAT) (inc. VAT) (inc.
[12]
Improved Warning Apparatus for Motor Cars and other Vehicles for ...
GB190817451A 1908-12-03 Improved Warning Apparatus for Motor Cars and other Vehicles for Indicating the Direction in which the Vehicle is about to Turn.Missing: trafficator | Show results with:trafficator
[13]
Unsung inventors - General Discussion - AACA Forums
Oct 16, 2018 · The shape of the trafficator arm is closely based upon the shape of the semaphore arm signal used by the Royal Bavarian Railway beginning in ...
[14]
[PDF] May 2024 - Escape Motoring |
Apr 23, 2025 · but these were superseded by two French inventors, Gustave Deneef and Maurice Boisson, who used a solenoid in 1923. Then in 1927 Berlin ...
[15]
Automotive History: Wilcot Flashing Indicators On A 1933 Morris Isis
Jan 6, 2021 · Often known as trafficators in the UK, they were seen on new cars until the late 1950s, and still occasionally in use now, though many owners ...
[16]
https://www.hemmings.com/stories/alpine-artistry-1938-de-soto-s-5/
[17]
Alpine Artistry - 1938 De Soto S-5 | The Online Automotive ...
Trafficators, required under Swiss law, were incorporated into the windshield pillars. Advertisement. In order to provide a spacious back seat, the padded ...
[18]
trafficator switch/steering wheel - Morris Minor Owners Club
Mar 6, 2022 · Cars with trafficators had a switch mounted under the dash. It's a lever that you flip left or right to power the trafficator. Earlier cars with flashing ...Trafficatorstrafficator switch position.More results from board.mmoc.org.ukMissing: driver | Show results with:driver
[19]
Vehicle Lighting Requirements: In-depth - Croner-i
Direction Indicators. Motor vehicles first used, and trailers manufactured, on or after 1 January 1936 must have direction indicators fitted. Motor vehicles ...
[20]
Optional Flashing Indicators - Cornwall Austin Seven Club
It wasn't until May1956 that the legislation was amended to allow for the fitting and use of flashing indicators for new cars registered after the end of 1958.
[21]
National Traffic and Motor Vehicle Safety Act - Wikipedia
The National Traffic and Motor Vehicle Safety Act was enacted in the United States in 1966 to empower the federal government to set and administer new safety ...Missing: trafficator | Show results with:trafficator
[22]
50 years on, the 1968 Conventions on Road Traffic and Road Signs ...
Nov 7, 2018 · The 1968 Conventions on Road Traffic and Road Signs and Signals are still at the core of road safety efforts worldwide.
[23]
When did turn signals become mandatory on cars? - Quora
May 22, 2020 · In the UK, 1932 was the year that flashing indicators became a legally approved fitment, they became mandatory in 1935. In 1928 Buick stated ...On old British cars like Austin and Hillman, there was a small plastic ...Do UK drivers have turn signals? If not, how do they signal ... - QuoraMore results from www.quora.comMissing: legalized | Show results with:legalized
[24]
https://www.thesamba.com/vw/forum/viewtopic.php?t=160659
[25]
MARCH 11, 2011: FOUR WAY FLASHERS – HAZARD LIGHTS
The four-way flasher feature became mandatory on all 1967 car models from Motor City. Prior to that, a few car makers jumped the gun on the legislation and ...
[26]
Guide: Trafficator Indicators Care & Repair - Better Car Lighting 2
Semaphore type Trafficators first appeared on vehicles in the 1900s, but these first examples were cable operated. Electrical solenoid operation appeared in ...
[27]
Beetle - 1958-1967 - View topic - 59 semaphore bug - TheSamba.com
Mar 9, 2006 · Contact either Matt Ross ( www.mattsparts.com ) or Carlos Guzman ( twinwindows@aol.com ) Either of those guys can restore your semaphore to ...
[28]
REPRODUCTION TRAFFICATOR QUALITY? : The 3000 Forum
Oct 30, 2023 · I prefer the glossy black look over the dull finish of the original. Nothing has been repaired just cleaned and re-installed. I got another one about 4 years ...Trafficator (Page 2) : The 100 Forum - The Austin-Healey ExperienceTrafficator : The 100-Six Forum - The Austin-Healey ExperienceMore results from www.ahexp.comMissing: classic | Show results with:classic
[29]
Guide: Trafficator Indicators Care & Repair - Better Car Lighting 2
Looking After Your Trafficators - A guide to semaphore trafficators and their maintenance, repair and upgrades with particular reference to Lucas SE100/SF80 ...
[30]
https://collection.sciencemuseumgroup.org.uk/objects/co446085/trafficator-arm-cav-commercial-c-1950
[31]
Trafficators - Morris Minor Owners Club
May 11, 2022 · They're much more effective in the dark as they're more likely to be seen. It can be a little tricky at times, but the car is used in finer ...
[32]
Flashing trafficators - Old Classic Car.
May 8, 2014 · Trafficators may be very period and a talking point but worse than useless in modern day traffic as most have no idea what they are for. I have ...
[33]
Trafficator Arm CAV (commercial), c.1950. | Science Museum Group ...
Trafficator Arm CAV (commercial), c.1950. Made: circa 1950. Trafficator ... The Science Museum Group. Locomotion. Locomotion · National Railway Museum. National ...
[34]
1932 Morris Major in "Classic & Sports Car Film Collection, 1998"
Look at the aftermarket fittings on the car - Trafficators, Spare wheel trim and plated sidelights. I would suggest Morris Major 1932-1933 unless anybody ...<|separator|>