What is the dereference operator?

This is a recommends products dialog
Top Suggestions
Starting at
View All >
Language
French
English
ไทย
German
繁體中文
Country
Hi
All
Sign In / Create Account
language Selector,${0} is Selected
Register & Shop at Lenovo Pro
Register at Education Store

Pro Tier Benefits

• Save up to an extra 5% on Think everyday pricing
• Spend SG$10,000, advance to Plus Tier with increased benefits

Plus Tier Benefits

• Save up to an extra 8% on Think everyday pricing
• Spend SG$50,000, advance for free to Elite Tier with increased benefits
• Take advantage of flexible payment options with TruScale Device as a Service.

Elite Tier Benefits

• Save up to an extra 12% on Think everyday pricing
• Take advantage of flexible payment options with
TruScale Device as a Service.
Reseller Benefits
• Access to Lenovo's full product portfolio
• Configure and Purchase at prices better than Lenovo.com
View All Details >
more to reach
PRO Plus
PRO Elite
Congratulations, you have reached Elite Status!
Pro for Business
Delete icon Remove icon Add icon Reload icon
TEMPORARILY UNAVAILABLE
DISCONTINUED
Temporary Unavailable
Cooming Soon!
. Additional units will be charged at the non-eCoupon price. Purchase additional now
We're sorry, the maximum quantity you are able to buy at this amazing eCoupon price is
Sign in or Create an Account to Save Your Cart!
Sign in or Create an Account to Join Rewards
View Cart
Wow, your cart is empty!
Remove
item(s) in cart
Fill it in with great deals
Some items in your cart are no longer available. Please visit cart for more details.
has been deleted
Please review your cart as items have changed.
of
Contains Add-ons
Proceed to Checkout
Yes
No
Popular Searches
What are you looking for today ?
Trending
Recent Searches
Hamburger Menu
{"arrowColor":"#000000","backgroundColor":"#e6f4fa","sideMsg":"","data":[{"pcInfo":"","mAndTabInfo":"","bannerInfo":{"t_id":"Pageae02a63c-d7e1-474b-b3f4-36d1d8a41e82","language":{"en_sg":"%3Cp%3E%3Cstrong%20style%3D%22text-wrap-mode%3A%20wrap%3B%22%3E%3C%2Fstrong%3E%3C%2Fp%3E%3Cp%3E%3Cstrong%3EBLACK%20FRIDAY%20Deals%20are%20Here!%20Get%20up%20to%2070%25%20OFF%20%2B%20Up%20to%2010%25%20Rewards%20%2B%20Enjoy%20Fast-Ship%20%7C%3C%2Fstrong%3E%3Cstrong%3E%26nbsp%3B%3Ca%20href%3D%22%2Fd%2Fdeals%2Fonline-exclusive%2F%3FipromoID%3Dhellobar_01%22%20target%3D%22_self%22%20style%3D%22color%3A%20rgb(0%2C%200%2C%200)%3B%22%3EShop%20Now%3C%2Fa%3E%3C%2Fstrong%3E%3C%2Fp%3E","en":""},"id":"Pageae02a63c-d7e1-474b-b3f4-36d1d8a41e82"},"gInfo":""},{"pcInfo":"","mAndTabInfo":"","bannerInfo":{"t_id":"Pageee20f1dc-0159-4d35-a1ee-038c28367842","language":{"en_sg":"%3Cp%3E%3Cstrong%20style%3D%22text-wrap-mode%3A%20wrap%3B%22%3EThinkPad%20X1%20Carbon%20Gen%2013%20AI%20PC%20%7C%20The%20all-new%20ThinkPad%20X1%20Carbon%20Gen%2013%20AI%20PC%20is%20available%20now.%3Cspan%20style%3D%22text-wrap-style%3A%20initial%3B%22%3E%26nbsp%3B%26nbsp%3B%3C%2Fspan%3E%3C%2Fstrong%3E%3Ca%20href%3D%22%2Fp%2Flaptops%2Fthinkpad%2Fthinkpadx1%2Fthinkpad-x1-carbon-gen-13-aura-edition-14-inch-intel%2Flen101t0108%3FipromoID%3Dhellobar_02_ThinkPad_X1_Carbon_Gen_13%22%20target%3D%22_blank%22%20style%3D%22color%3A%20rgb(0%2C%200%2C%200)%3B%20text-decoration%3A%20underline%3B%22%3E%3Cspan%20style%3D%22color%3A%20rgb(0%2C%200%2C%200)%3B%22%3E%3Cstrong%3EPre-order%20Now%3C%2Fstrong%3E%3C%2Fspan%3E%3C%2Fa%3E%3C%2Fp%3E","en":""},"id":"Pageee20f1dc-0159-4d35-a1ee-038c28367842"},"gInfo":""},{"pcInfo":"","mAndTabInfo":"","bannerInfo":{"t_id":"Page813cd858-4acf-4d96-a92e-2875088aaca9","language":{"en_sg":"%3Cp%20style%3D%22text-wrap%3A%20wrap%3B%22%3E%3Cstrong%3EWin%20Gifts%20Worth%20Up%20to%20%242%2C700%3C%2Fstrong%3E%26nbsp%3B%7C%20Shop%20from%201st%20-%2030th%20Nov%20%26amp%3B%20top%20spenders%20stand%20a%20chance%20to%20win%20Lenovo%20Products%20worth%20up%20to%20%242%2C700!%26nbsp%3B%20%26nbsp%3B%26nbsp%3B%3C%2Fp%3E%3Cp%20style%3D%22text-wrap%3A%20wrap%3B%22%3E%3Ca%20href%3D%22https%3A%2F%2Faccount.lenovo.com%2Fsg%2Flenovopro%2Fen%2Fsmbaccount%2Fgatekeeper%2Fshowpage%3FipromoID%3Dhellobar_03_lpro%22%20target%3D%22_self%22%20style%3D%22color%3A%20rgb(0%2C%200%2C%200)%3B%20text-decoration%3A%20underline%3B%22%3E%3Cspan%20style%3D%22color%3A%20rgb(0%2C%200%2C%200)%3B%22%3E%3Cstrong%3EJoin%20Now%3C%2Fstrong%3E%3C%2Fspan%3E%3C%2Fa%3E%3C%2Fp%3E","en":""},"id":"Page813cd858-4acf-4d96-a92e-2875088aaca9"},"gInfo":""},{"pcInfo":"","mAndTabInfo":"","bannerInfo":{"t_id":"Page6d71d02e-8d31-4206-8f86-b38c936c8642","language":{"en_sg":"%3Cp%20style%3D%22text-wrap-mode%3A%20wrap%3B%22%3ELenovo%20Education%20%7C%20Register%20to%20unlock%20up%20to%20%24150%20welcome%20discount%20%2B%20up%20to%2010%25%20EXTRA%20savings%20%2B%2015%25%20off%20tablets.%3C%2Fp%3E%3Cp%20style%3D%22text-wrap-mode%3A%20wrap%3B%22%3E%3Ca%20href%3D%22https%3A%2F%2Fwww.lenovo.com%2Fsg%2Fedu%2Fsgedu%2Fen%2Flogin%2Fedu%2Findex.html%3FipromoID%3Dhellobar_04_edu_login%22%20target%3D%22_self%22%20style%3D%22color%3A%20rgb(0%2C%200%2C%200)%3B%20text-decoration%3A%20underline%3B%22%3E%3Cspan%20style%3D%22color%3A%20rgb(0%2C%200%2C%200)%3B%22%3E%3Cstrong%3EJoin%20Lenovo%20Education%3C%2Fstrong%3E%3C%2Fspan%3E%3C%2Fa%3E%3C%2Fp%3E","en":""},"id":"Page6d71d02e-8d31-4206-8f86-b38c936c8642"},"gInfo":""}],"autoRun":true,"displayTerminal":"pc,tablet,mobile"}


What is the dereference operator?

The dereference operator, also known as the indirection operator, is a symbol used in programming languages to access the value stored at the memory address pointed to by a pointer. It is typically represented by the asterisk (*) symbol.

How does the dereference operator work?

When you use the dereference operator on a pointer, it retrieves the value stored at the memory location pointed to by that pointer. It allows you to access and manipulate the actual data rather than just the memory address.

What is an example of using the dereference operator?

Let's say you have a pointer variable ptr that points to an integer value. If you want to access the value stored at that memory location, you can use the dereference operator like this: *ptr. This will give you the actual value of the integer.

What happens if I use the dereference operator on a null pointer?

Using the dereference operator on a null pointer can lead to a runtime error or crash in your program. It's important to make sure your pointer is pointing to a valid memory location before dereferencing it.

Are there any safety concerns when using the dereference operator?

Yes, there are safety concerns associated with using the dereference operator. If you mistakenly dereference an uninitialized or invalid pointer, it can result in undefined behavior, leading to program crashes, memory corruption, or other unexpected issues. It's crucial to handle pointers with care and ensure their validity before dereferencing.

Is the dereference operator used in all programming languages?

The dereference operator is commonly used in programming languages that support pointers, such as C and C++. However, not all programming languages have explicit pointer types or support direct memory manipulation, so the use of the dereference operator may vary.

How does the dereference operator differ from the address-of operator?

The dereference operator (*) and the address-of operator (&) are complementary. The address-of operator is used to obtain the memory address of a variable, while the dereference operator is used to access the value stored at a memory address pointed to by a pointer. In a way, they work in opposite directions.

How do I declare and assign a pointer in C++?

In C++, you can declare a pointer by using the asterisk (*) symbol before the variable name, like this: int* ptr; This declares ptr as a pointer to an integer. To assign a value to the pointer, you can use the address-of operator (&) with a variable, like ptr = &myVariable;, where myVariable is the variable whose address you want to store in ptr.

What does dereferencing a pointer mean?

Dereferencing a pointer means accessing the value stored at the memory address pointed to by that pointer. It allows you to work with the actual data rather than just the memory location. By using the dereference operator (*), you can retrieve and manipulate the value pointed to by a pointer.

Are there any practical use cases for the dereference operator?

Yes, the dereference operator is commonly used in scenarios where direct memory manipulation is required, such as dynamic memory allocation, data structures like linked lists, and working with arrays. It allows you to access and modify data indirectly through pointers, providing flexibility and efficiency in certain programming tasks.

What is an example of using the dereference operator with an array?

Let's say you have an array of integers called myArray, and you want to access the value at a specific index. You can create a pointer to the first element of the array using the address-of operator, like this: int* ptr = &myArray[0];. Then, you can use the dereference operator to access the value at a particular index, such as *(ptr + 3), which would give you the value at the fourth index of myArray.

Are there any potential pitfalls to be aware of when using the dereference operator?

Yes, there are a few pitfalls associated with using the dereference operator. One common mistake is forgetting to initialize a pointer before dereferencing it, which can lead to undefined behavior. Additionally, dereferencing a pointer to an incorrect type or incorrectly calculating memory offsets can also introduce bugs or cause memory corruption. It's important to be cautious and double-check your pointer usage to avoid such pitfalls.

What is the relationship between pointers and the dereference operator?

Pointers and the dereference operator go hand in hand. Pointers allow you to store memory addresses, while the dereference operator enables you to access the value at a specific memory address pointed to by a pointer. Together, they provide a way to indirectly manipulate data and work with memory locations in programming languages that support pointers.

How does the dereference operator relate to object-oriented programming?

In object-oriented programming languages like C++, the dereference operator is often used to access and modify member variables or invoke member functions of objects through pointers. By dereferencing a pointer to an object, you can treat it as if it were the object itself and work with its properties and behaviors.

What happens if I try to dereference a null pointer?

Dereferencing a null pointer leads to undefined behavior, which can cause your program to crash or behave unexpectedly. It's important to ensure that a pointer is valid and not null before dereferencing it.

Does every programming language have a dereference operator?

Not all programming languages have a dereference operator. Its availability depends on the language and its syntax. However, many popular languages like C, C++, Java, and Python support the dereference operator or equivalent functionality.

What is the difference between the dereference operator and the dot operator?

The dereference operator (*) is used with pointers to access the data pointed to by the pointer. On the other hand, the dot operator (.) is used with objects to access their member variables and member functions.

What are some tips for effectively using the dereference operator?

  • Ensure that pointers are properly initialized and not null before dereferencing them.

  • Be mindful of memory allocation and deallocation when using the dereference operator with dynamic memory.

  • Use descriptive variable names to indicate when a variable is a pointer.

  • Avoid excessive or unnecessary usage of the dereference operator to keep the code clean and readable.

 
 

Signup for Lenovo email notifications to receive valuable updates on products, sales, events, and more...

Sign up >
{"pageComponentDataId":"11e4f6dfl949d-48ba-a64d-1279e93b7655","pageComponentId":"11e4f6dfl949d-48ba-a64d-1279e93b7655","isAssociatedRelease":"true","pageComponentDataLangCode":"en_sg","configData":{"jumpType":"currentTab","headlineColor":"black","displayNumber":"","styleMode":"vertical","miniCardHoMode":"2","headline":"","products":[{"number":{"t_id":"len101t0102","language":{"en_sg":"len101t0102","en":""},"id":"Paged1edadc5-6986-4227-80be-072ea8113019"}},{"number":{"t_id":"len101t0104","language":{"en_sg":"len101t0104","en":""},"id":"Pageda634bc0-3f90-4bca-aa7a-9371254a72b2"}},{"number":{"t_id":"len101t0081","language":{"en_sg":"len101t0081","en":""},"id":"Page2cf609c2-51b2-40f0-87bc-1cb279e1dfbc"}},{"number":{"t_id":"len101g0036","language":{"en_sg":"len101g0036","en":""},"id":"Page64406973-2b77-47b7-b687-ef52b65d2ad3"}}]},"urlPrefix":"AAAAAAALAAAC","title":"glossary-right-blue-boxes-fragment","pageId":"c2ae7f91-5071-4e5e-a121-d725e8d772ab","urlEdit":0,"uri":"/FragmentDirectory/glossary/glossary-right-blue-boxes-fragment.frag","pageComponentUuid":"11e4f6dfl949d-48ba-a64d-1279e93b7655"}
coming coming
Starting at
List Price
Est Value
Web Price:
List Price
Est Value (Estimated Value)
List Price is Lenovo’s estimate of product value based on the industry data, including the prices at which first and third-party retailers and etailers have offered or valued the same or comparable products. Third-party reseller data may not be based on actual sales.
Estimated value is Lenovo’s estimate of product value based on industry data, including the prices at which Lenovo and/or third-party retailers and e-tailers have offered or valued the same or comparable products. Third-party data may not be based on actual sales.
Learn More
See More
See Less
View {0} Model
View {0} Models
shipping.options.for.{0}
Part Number:
Features
See More
See Less
compare
Added!
Great choice!
You may compare up to 4 products per product category (laptops, desktops, etc). Please de-select one to add another.
View Your Comparisons
Add To Cart
Add To Cart
We're sorry,
Products are temporarily unavailable.
Continue Shopping
Learn More
Coming Soon
Featured Product
Featured Products
Oops! No results found. Visit the categories above to find your product.
Save
open in new tab
© 2024 Lenovo. All rights reserved.
© {year} Lenovo. All rights reserved.
Compare  ()
x