Pipe Handling Safety in Canada's Oil & Gas Industry | PSC Hand Safety
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Field Guide / Oil & Gas / Hand Safety

Pipe Handling Safety in Canada's Oil & Gas Industry: Eliminating Hand Injuries Through Engineering Controls

From drilling rigs in Alberta to well servicing operations in Saskatchewan, workers guide, align, and stabilize heavy tubulars every day. This guide breaks down where hand exposure actually happens — and how engineering controls are removing it at the source.

Sector: Drilling · Well Servicing · Pipeline Construction Focus: Hierarchy of Controls, Hands-Free Methods Read time: 14 min

Canada's oil and gas industry operates in some of the world's most demanding environments. These operations are essential to energy production, but they also expose workers to some of the highest-risk hand hazards found in industrial workplaces.

Despite continuous improvements in safety programs, pipe handling safety remains a significant challenge across the industry. Workers are frequently required to guide, align, stabilize, or reposition heavy tubulars during lifting, loading, unloading, and installation — placing hands dangerously close to moving equipment, suspended loads, pinch points, and crushing zones.

Personal Protective Equipment plays an important role in reducing injury severity, but it cannot prevent hands from entering hazardous areas. The most effective approach is to eliminate or significantly reduce hand exposure before work begins — the principle behind engineering controls.

This guide explores why pipe handling continues to present significant safety risks, examines the most common sources of hand exposure during oilfield operations, and explains how engineering controls are helping Canadian companies build safer, more reliable, and more productive workplaces.

01 / Risk Profile

Why Pipe Handling Remains One of the Highest-Risk Tasks

Pipe handling is one of the most routine activities performed throughout the oil and gas lifecycle. Whether drilling a new well, servicing existing assets, transporting tubulars, or conducting maintenance during planned shutdowns, workers frequently interact with heavy steel pipe under changing operational conditions.

Although these activities are routine, they are rarely low risk. Drill pipe, casing, production tubing, and other tubular materials are heavy, awkward to control, and often handled using cranes, forklifts, or pipe handling systems. Even a minor shift in load position can create an immediate hazard for anyone working nearby.

Unlike many industrial tasks, pipe handling often combines several high-risk hazards simultaneously — suspended loads, moving equipment, rotating machinery, stored energy, uneven ground, changing weather, and limited visibility, all while positioning heavy materials with precision.

Common Pipe Handling Activities That Increase Risk

  • Loading and unloading drill pipe
  • Guiding suspended tubulars during lifting operations
  • Positioning casing for installation
  • Aligning pipe during rig-up activities
  • Handling tubing during well servicing
  • Transporting tubulars within pipe yards
  • Supporting maintenance activities during shutdowns
  • Organizing pipe storage areas
  • Crane-assisted pipe movement
  • Manual positioning during final alignment

Why Traditional Work Practices Still Lead to Hand Injuries

One of the primary reasons pipe handling continues to generate injuries is that workers often instinctively use their hands to stabilize or guide moving loads. A suspended tubular may swing unexpectedly due to wind, crane movement, or changes in load balance. Pipe resting on racks may suddenly roll. Even experienced workers have little time to react once their hands are inside the danger zone.

For this reason, Canada's leading oil and gas companies are moving beyond traditional injury prevention strategies. Instead of asking workers to simply "be careful," they are redesigning tasks to minimize direct hand contact with hazardous loads.

PSC Hand Safety Doctrine

The safest hand is the one that never enters the hazard zone. Effective pipe handling safety begins by eliminating unnecessary hand exposure — not by expecting workers to react faster than moving equipment.

02 / Root Cause

Understanding Hand Exposure During Pipe Handling Operations

Most serious hand injuries do not occur because workers intentionally place themselves in danger. They occur because routine tasks require direct interaction with heavy materials moving in unpredictable environments — a condition known as hand exposure: when a worker's hands enter or remain within a hazardous zone while performing a task.

Although these tasks may appear simple, they frequently place hands within inches of potential pinch points, crush zones, and line-of-fire hazards.

Guiding Suspended Pipe

Workers often attempt to manually control swinging tubulars during crane operations. If the load suddenly changes direction or rotates unexpectedly, hands can become trapped between the pipe and nearby structures.

Aligning Drill Pipe and Casing

Precise alignment is necessary during drilling and installation activities. Manual positioning frequently places fingers near connection points where unexpected movement can create severe pinch or crush injuries.

Stabilizing Pipe During Transportation

Pipe being moved by forklifts, cranes, or pipe handling systems may shift unexpectedly due to uneven surfaces or changes in load balance. Workers attempting to stabilize these loads often place themselves directly within the line of fire.

Handling Pipe in Storage Areas

Pipe stored on racks can roll unexpectedly when restraints are removed or adjacent tubulars are moved. Hands positioned between stacked materials become highly vulnerable to crushing incidents.

Well Servicing and Maintenance Operations

Maintenance teams routinely reposition tubing, valves, and associated equipment in confined workspaces. Restricted movement and limited visibility increase the likelihood of accidental hand exposure.

Loading and Unloading Operations

During loading activities, workers frequently guide tubulars into trailers, storage racks, or transport systems. Without adequate stand-off distance, hands may become trapped between moving pipe and fixed structures.

Eliminating Hand Exposure Through Engineering Controls

Across each of these activities, the common factor is not worker error — it is unnecessary exposure to hazardous energy. The objective is to redesign work so that workers can maintain control while remaining outside the hazard zone. By introducing hands-free work methods, purpose-built guiding tools, and safer task designs, organizations can significantly reduce direct hand exposure without compromising productivity.

PSC Hand Safety Doctrine

Every pipe handling task should begin with one question: "Can this task be completed without placing a worker's hands in the hazard zone?" If the answer is yes, that safer method should become the standard.

03 / Hazard Map

The Most Common Pipe Handling Hazards

Pipe handling operations involve multiple hazards that can occur simultaneously. A worker may be exposed to a suspended load while standing near a pinch point, with moving equipment operating in close proximity — a combination that makes pipe handling one of the most challenging tasks to control.

Pinch Point Hazards

Pinch points occur whenever two objects move toward each other, or a moving object approaches a fixed surface, creating a space where hands or fingers can become trapped — common while aligning drill pipe, connecting casing, or guiding tubulars into storage racks.

Common injuries:

  • Finger fractures
  • Crushed hands
  • Soft tissue damage
  • Amputations
  • Permanent loss of hand function

Crush Point Hazards

Crush injuries occur when heavy pipe moves unexpectedly and traps a worker's hand against another object, often involving significant force due to the weight of drill pipe, casing, or tubular materials.

Frequent during:

  • Loading and unloading operations
  • Pipe stacking
  • Crane-assisted lifting
  • Forklift transport
  • Pipe storage
  • Rig floor operations

Line-of-Fire Hazards

A line-of-fire hazard exists whenever a worker is positioned where moving equipment, suspended pipe, or stored energy could strike them if control is lost. Maintaining a safe stand-off distance is one of the most effective methods for reducing this exposure.

Suspended Load Hazards

Heavy tubulars are routinely lifted using cranes and pipe handling systems. Although these systems improve productivity, they also introduce significant risks if workers remain close to suspended loads.

  • Unexpected load swing
  • Equipment failure
  • Sling movement
  • Load rotation
  • Sudden load release
  • Uncontrolled lowering

Dropped Object Hazards

Improper securing, unstable storage, equipment malfunction, or changing environmental conditions can cause pipe to fall unexpectedly. Even relatively short drops can generate enough force to cause severe hand injuries during manual guiding or repositioning.

Stored Energy Hazards

Not all hazards involve moving equipment. Stored energy within lifting equipment, slings, hydraulic systems, or pipe tension can be released without warning, causing pipe to shift rapidly and creating severe pinch and crush hazards.

Multiple Hazards Often Exist at the Same Time

A worker guiding suspended pipe may simultaneously face pinch points, crush points, swinging loads, line-of-fire exposure, stored energy release, and equipment movement. Because these hazards frequently overlap, controlling only one risk is rarely sufficient — a comprehensive safety strategy must address the entire task.

PSC Hand Safety Doctrine

Pipe handling hazards should never be managed individually. The objective is to redesign the entire task so workers remain outside every potential hazard zone.

See the full suspended load control and hands-off rigging safety guide for a deeper breakdown of these hazard categories.

04 / The Limits of PPE

Why PPE Alone Cannot Prevent Pipe Handling Injuries

Personal Protective Equipment is an essential part of workplace safety, but it should never be considered the primary solution for controlling pipe handling hazards. Safety gloves help protect against cuts, abrasions, and minor impacts — but they cannot prevent a hand from being crushed between moving pipe or caught within a pinch point.

The limitation of PPE is simple: it protects the worker after exposure has already occurred. This is why organizations that rely exclusively on PPE often continue to experience serious hand injuries despite strong compliance programs.

Understanding the Hierarchy of Controls

The internationally recognized Hierarchy of Controls ranks hazard control methods according to their effectiveness. The closer a control is to the top of the hierarchy, the greater its ability to reduce workplace risk.

  • Elimination
  • Substitution
  • Engineering Controls
  • Administrative Controls
  • Personal Protective Equipment (PPE)

The Limitations of Administrative Controls

Administrative controls include safe work procedures, training programs, toolbox talks, safety meetings, hazard awareness, supervision, and warning signs. These measures are valuable, but they depend on consistent human performance in environments where unexpected equipment movement can occur within seconds. No amount of training can completely eliminate the risk created by direct hand exposure.

Exposure Is the Real Problem

Most pipe handling injuries occur not because workers lack knowledge, but because the task itself requires their hands to enter hazardous areas. The objective should therefore be to redesign the task so exposure is no longer necessary.

PSC Hand Safety Doctrine

The goal of pipe handling safety is not to protect exposed hands — it is to eliminate unnecessary hand exposure altogether.

05 / Task Redesign

Engineering Controls: The Future of Pipe Handling Safety

Canada's oil and gas industry is increasingly recognizing that lasting improvements in safety require more than procedural changes — they require fundamental improvements in how work is performed. This shift is driving greater adoption of engineering controls that physically separate workers from hazardous energy.

What Are Engineering Controls?

Engineering controls are physical solutions that reduce or eliminate worker exposure to hazards through equipment design, process improvements, or task redesign. In pipe handling operations, they aim to:

  • Remove unnecessary hand contact
  • Increase stand-off distance
  • Improve load control
  • Reduce exposure to suspended loads
  • Minimize pinch point interaction
  • Create safer work positioning

From Manual Handling to Hands-Free Operations

Modern hands-free hand safety tools replace direct hand contact by allowing workers to guide loads using purpose-built tools that maintain safe separation from the hazard. The objective is not simply to introduce new tools — it is to redesign the task so safer behavior becomes the easiest and most practical way to work.

  • Reduced hand exposure
  • Lower injury risk
  • Improved load control
  • Better worker positioning
  • Increased operational consistency
  • Reduced incident-related downtime
  • Stronger safety culture

Why Engineering Controls Deliver Long-Term Value

Organizations that invest in engineering controls often realize benefits beyond injury prevention — improved operational reliability, stronger safety performance, and greater workforce confidence, by addressing hazards at their source rather than relying solely on procedural compliance.

The Future of Pipe Handling Safety Is Exposure Elimination

The future of pipe handling safety is not defined by stronger gloves or more safety reminders. It is defined by work processes that no longer require workers to place their hands in hazardous zones — safety built into the task itself.

PSC Hand Safety Doctrine

Engineering controls do not simply make pipe handling safer — they redefine how safe pipe handling is achieved. The future belongs to work methods where hazards are engineered out before the task begins.

06 / Operational Impact

How Hands-Free Pipe Handling Improves Safety and Productivity

Modern hands-free pipe handling represents a shift from reactive safety to proactive hazard elimination. Instead of relying on workers to keep their hands clear of danger, hands-free methods remove direct hand contact from the task altogether.

Reduces Direct Hand Exposure

Workers use purpose-built methods that allow them to maintain control from a safe stand-off distance, significantly reducing the likelihood of hands nearing pinch points, crush zones, or moving equipment.

Improves Worker Positioning Around Moving Loads

Hands-free methods enable workers to guide, position, and control tubulars while remaining outside the line of fire, improving both response time and situational awareness.

Minimizes Pinch Point and Crush Point Hazards

By removing direct hand contact, organizations eliminate situations where workers instinctively place fingers between pipe and surrounding structures. The work process itself becomes inherently safer.

Supports Consistent and Standardized Work Practices

Hands-free operations encourage standardized procedures that can be consistently applied across drilling rigs, well servicing operations, maintenance shutdowns, and pipe yards.

Reduces Operational Delays and Unplanned Downtime

Fewer incidents mean fewer disruptions — investigations, equipment shutdowns, and corrective actions all affect operational performance. Safer operations ultimately support more reliable business performance.

Strengthens Safety Culture Across the Organization

When workers see hazards being eliminated rather than simply managed through procedures, they are more likely to trust safety initiatives and actively participate in safer work practices.

PSC Hand Safety Doctrine

Productivity should never depend on hand exposure. The safest and most productive pipe handling operation is one where workers maintain control while remaining outside the hazard zone.

07 / Field Application

High-Risk Pipe Handling Activities That Require Hands-Free Methods

Not every pipe handling task carries the same level of risk. These high-risk tasks should always be evaluated for opportunities to reduce or eliminate direct hand exposure through engineering controls.

Drill Pipe Handling

Drill pipe is routinely transported, lifted, aligned, and positioned throughout drilling operations, exposing hands to significant pinch point and crush hazards during rig floor activities.

Casing Installation

Installing casing requires precise positioning of heavy tubulars. Manual alignment often encourages workers to place hands near connection points where even minor movement can result in severe injuries.

Tubing Handling During Well Servicing

Well servicing operations involve removing, transporting, inspecting, and reinstalling production tubing. Changing conditions and limited space increase the likelihood of hand exposure.

Pipe Loading and Unloading

Workers guiding pipe onto trailers or storage racks may instinctively attempt to stabilize shifting loads with their hands. Engineering controls allow these tasks to be completed at a safer stand-off distance.

Crane-Assisted Pipe Lifting

Hands-free guidance methods reduce the need for workers to approach suspended loads, minimizing exposure to struck-by and line-of-fire incidents.

Pipe Yard Operations

Stacking, organizing, retrieving, and transporting tubulars create multiple opportunities for pipe to roll or shift unexpectedly.

Maintenance Shutdowns and Turnarounds

Simultaneous operations, limited access, and increased equipment movement make these projects particularly hazardous.

Rig-Up and Rig-Down Activities

Because these operations require coordination between multiple crews, consistent hands-free practices help improve communication and standardize safer work methods.

PSC Hand Safety Doctrine

Every high-risk pipe handling activity should begin with a hazard assessment that asks one critical question: How can direct hand contact be eliminated from this task?

08 / Procurement

Selecting the Right Pipe Handling Solution

Improving pipe handling safety begins with selecting solutions that address the specific hazards present within each operation. Every drilling site, well servicing project, and pipe yard has unique risks that require careful evaluation.

Start with a Task-Based Hazard Assessment

  • Where are workers currently placing their hands?
  • Which hazards are present?
  • Can direct hand contact be eliminated?
  • Is the worker entering the line of fire?
  • Can the task be redesigned to maintain a safe stand-off distance?

Evaluate Operational Requirements

  • Type of pipe or tubular being handled
  • Pipe diameter and length
  • Load weight
  • Working environment
  • Lifting equipment being used
  • Weather conditions
  • Available working space
  • Frequency of the task
  • Worker accessibility

Prioritize Engineering Controls Over Administrative Controls

The most effective pipe handling solutions reduce worker exposure by design, physically separating workers from hazards rather than depending entirely on procedures, supervision, or PPE.

Look for Solutions That Improve Both Safety and Productivity

  • Reduce direct hand exposure
  • Improve worker positioning
  • Increase load control
  • Support standardized work methods
  • Minimize operational interruptions
  • Enhance workforce confidence
  • Integrate with existing workflows

Build a Sustainable Pipe Handling Safety Program

  • Comprehensive hazard assessments
  • Worker competency development
  • Standard operating procedures
  • Routine equipment inspections
  • Continuous improvement initiatives
  • Incident reviews
  • Leadership commitment
PSC Hand Safety Doctrine

The right pipe handling solution is not the one that simply helps workers perform the task. It is the one that redesigns the task so workers no longer need to place their hands in harm's way.

09 / Industry Direction

Why Canada's Oil & Gas Industry Is Moving Toward Engineering Controls

For many years, hand safety programs focused primarily on PPE, worker training, and administrative controls. While these measures remain important, they are designed to manage risk after workers are already exposed to hazards. Today, industry leaders are investing in engineering controls that remove or significantly reduce hand exposure before work begins.

From Reactive Safety to Proactive Risk Elimination

Engineering controls change the approach by asking a more important question: can the hazard be removed from the task altogether? This proactive mindset transforms pipe handling safety from a behavioral challenge into an engineering solution.

Aligning with the Hierarchy of Controls

For pipe handling operations, this means redesigning tasks to eliminate unnecessary hand contact, maintain safe stand-off distances, reduce interaction with suspended loads, improve worker positioning, minimize exposure to pinch and crush hazards, and standardize safer work methods.

Supporting Operational Excellence

Safer work methods help organizations improve workflow consistency, reduce unplanned interruptions, minimize incident investigations, and increase worker confidence. When hazards are reduced through better task design, productivity and safety improve together.

Building a Stronger Safety Culture

Worker safety is achieved by designing safer work — not by expecting workers to compensate for hazardous conditions. Employees are more likely to adopt safe work practices when they see hazards being systematically removed from their daily tasks.

Preparing for the Future of Canada's Oil & Gas Industry

Companies that embrace engineering controls today are positioning themselves to meet rising safety and reliability expectations, treating safety as an operational advantage rather than a compliance requirement.

PSC Hand Safety Doctrine

The future of industrial safety is not built on asking workers to avoid hazards. It is built on engineering hazards out of the task before work begins.

10 / Field Reference

Pipe Handling Safety Checklist

Every pipe handling task should begin with a structured evaluation of potential hazards and the controls required to eliminate unnecessary hand exposure.

Pre-Task Planning

Conduct a task-specific hazard assessment.
Identify all potential pinch points, crush points, and line-of-fire hazards.
Evaluate suspended load risks before lifting begins.
Review environmental conditions, including weather and ground stability.
Confirm that workers understand the planned work sequence.

Worker Positioning

Maintain a safe stand-off distance from moving pipe whenever possible.
Keep hands outside identified hazard zones.
Avoid standing beneath or immediately adjacent to suspended loads.
Ensure escape paths remain clear throughout the operation.
Maintain clear communication between equipment operators and ground personnel.

Equipment & Load Control

Inspect lifting equipment before use.
Verify that slings, hooks, and lifting accessories are suitable for the load.
Confirm that pipe is properly secured before movement.
Monitor load stability throughout lifting and positioning operations.
Stop work immediately if uncontrolled movement occurs.

Engineering Controls

Eliminate unnecessary manual pipe guidance whenever possible.
Apply hands-free work methods to reduce direct hand contact.
Select engineering controls appropriate for the specific pipe handling task.
Standardize safer work methods across similar operations.
Review opportunities for continuous task redesign.

Continuous Improvement

Conduct post-task reviews after high-risk operations.
Investigate near misses and identify exposure points.
Update procedures based on operational experience.
Encourage worker feedback on safer work methods.
Continuously improve hazard elimination strategies.
PSC Hand Safety Doctrine

Every successful pipe handling operation should end with the same outcome: the job is completed safely because workers never needed to place their hands in the hazard zone.

11 / Closing

Conclusion

Canada's oil and gas industry depends on safe, reliable, and efficient pipe handling operations to maintain productivity across drilling, well servicing, pipeline construction, and maintenance activities. Yet despite advances in equipment, training, and safety awareness, hand injuries continue to occur because workers remain exposed to hazards that are often accepted as part of the job.

The reality is that most serious pipe handling injuries are preventable. Pinch points, crush zones, suspended loads, line-of-fire hazards, and stored energy do not become dangerous simply because they exist — they become dangerous when workers must place their hands within those hazard zones to complete a task.

This is why the future of pipe handling safety lies in engineering controls rather than relying solely on administrative procedures or personal protective equipment. By redesigning work methods, introducing hands-free approaches, and systematically eliminating unnecessary hand exposure, organizations can significantly reduce the likelihood of workplace injuries while improving operational consistency.

For Canada's oil and gas industry, adopting engineering controls is more than a compliance initiative — it is a commitment to building safer operations through better task design.

At PSC Hand Safety, we believe that every pipe handling task presents an opportunity to eliminate unnecessary hand exposure through practical engineering solutions. Our approach is built on one simple principle: redesign the task so workers can maintain control while keeping their hands outside the hazard zone.

Final PSC Hand Safety Doctrine

The objective of pipe handling safety is not to help workers survive hazardous tasks. It is to redesign those tasks so hazardous hand exposure is no longer required. When exposure is engineered out, safer operations become the standard — not the exception.

12 / Reference

Frequently Asked Questions

01What is pipe handling safety?
Pipe handling safety refers to the safe methods, procedures, and engineering controls used to reduce risks while lifting, transporting, positioning, storing, or installing drill pipe, casing, tubing, and other tubular materials. Its primary objective is to eliminate worker exposure to pinch points, crush hazards, suspended loads, and line-of-fire incidents.
02Why is pipe handling considered a high-risk activity in Canada's oil and gas industry?
Pipe handling involves heavy tubulars, moving equipment, suspended loads, and unpredictable load movement. Workers often operate close to these hazards, making hand injuries, crush incidents, and struck-by accidents significant risks if proper engineering controls are not implemented.
03What are the most common hand injuries during pipe handling?
The most common injuries include crushed fingers, pinch point injuries, fractures, lacerations, hand trauma, amputations, and soft tissue damage. These injuries typically occur when workers manually guide or stabilize moving pipe.
04What causes pinch point injuries during pipe handling?
Pinch point injuries occur when workers place their hands between moving pipe and fixed structures while aligning, positioning, or stabilizing tubulars. Unexpected pipe movement can trap hands and fingers within seconds.
05How can engineering controls improve pipe handling safety?
Engineering controls reduce or eliminate worker exposure by redesigning tasks and introducing safer work methods. Instead of relying on manual guidance, workers can maintain a safe stand-off distance while controlling pipe movement, significantly reducing the risk of hand injuries.
06Why isn't PPE alone enough to prevent pipe handling injuries?
PPE helps reduce injury severity but cannot prevent hands from entering hazardous areas. Once hands are exposed to moving pipe or suspended loads, gloves alone cannot protect against crushing forces or unexpected load movement.
07What are hands-free pipe handling methods?
Hands-free pipe handling methods allow workers to guide, position, and control pipe without placing their hands directly on moving tubulars. These methods support engineering controls by reducing direct hand exposure during high-risk operations.
08What is a line-of-fire hazard during pipe handling?
A line-of-fire hazard exists whenever a worker stands in the potential path of moving pipe, swinging loads, rolling tubulars, or released stored energy. Maintaining proper worker positioning and using hands-free methods significantly reduces this risk.
09What industries benefit from improved pipe handling safety?
Pipe handling safety is essential across numerous industries, including oil and gas, drilling, well servicing, pipeline construction, mining, petrochemical processing, utilities, marine operations, heavy manufacturing, and industrial maintenance.
10How do hands-free work methods improve productivity?
Hands-free work methods reduce injuries, minimize operational interruptions, improve worker confidence, standardize procedures, and allow tasks to be completed more efficiently while maintaining higher safety standards.
11What should organizations evaluate before selecting a pipe handling solution?
Organizations should evaluate task-specific hazards, pipe dimensions, load weight, work environment, lifting equipment, worker positioning, stand-off distance requirements, operational frequency, and opportunities to eliminate direct hand exposure.
12Why is maintaining a safe stand-off distance important?
Maintaining a safe stand-off distance keeps workers outside pinch points, crush zones, suspended load hazards, and line-of-fire areas. Increasing separation from moving loads significantly reduces the likelihood of serious injuries.
13How do engineering controls support the Hierarchy of Controls?
Engineering controls rank above administrative controls and PPE within the Hierarchy of Controls because they reduce hazards at their source rather than relying solely on worker behavior or protective equipment.
14What is the future of pipe handling safety in Canada's oil and gas industry?
The future of pipe handling safety focuses on engineering controls, hands-free work methods, task redesign, and exposure elimination. These approaches help organizations improve both worker safety and operational performance.
15How can organizations reduce hand injuries during pipe handling?
Organizations can reduce hand injuries by identifying exposure points, redesigning hazardous tasks, implementing engineering controls, adopting hands-free work methods, maintaining safe worker positioning, and continuously improving operational safety procedures.

Ready to engineer hand exposure out of your pipe handling tasks?

Talk to the PSC Hand Safety team about hands-free tools built for Canadian drilling, well servicing, and pipeline operations.

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