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What Is Sitemap? | How Sitemap Helps in SEO of a Website
What Is XML and HTML Sitemap? What is importance and how sitemap works in in SEO and web design of a website.
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Martha Jones
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Most of the modern-day applications have the facility of Google maps and location-sharing. Whether a taxi-booking app or a social media app or a food-ordering app, all have this vital feature embedded in the apps. Since this feature has become essential, several businesses have developed advanced location-sharing apps or at least embedded this feature in diverse apps.
So, in this blog, we are going to look at the basic procedure to build a location-sharing app or integrate this vital feature in them. Here we will use Ionic, the popular cross-platform framework, for this purpose. The reason to consider Ionic app development is that this technology is easy to adopt, enables the development of captivating UI/UX, and feature-rich performance-based apps. It is built on AngularJS which offers various functionalities for development and a robust environment that makes the code more manageable. Besides, the Ionic framework utilizes Cordova plugins and allows widget development. Owing to such myriad benefits, a plethora of businesses hire Ionic app development services for architecting enterprise applications.
So let’s get started, but before that, let us have a quick look at the criteria that the Ionic app developers would be assuming before starting with the development.
We will be using Firebase for saving the data.
We will create a custom directive for integrating Google Maps into our application.
We will be creating a mobile app for the Android platform.
Steps to Architect a Location-sharing app with Ionic
Check out the process of employing Ionic application development to create a location-sharing app.
Installations of relevant softwares
The first step is to install Node.js which automatically installs npm i.e. node package manager. Now you can install Ionic with the use of npm.
Also, install the required dependencies for the Android platform. After installing them, you need to create a blank Ionic project.
Now navigate to the project directory iMapApp. After this, you can add the desired platform, develop it, and emulate. Now, a blank app will probably be running in the Android emulator. But, this process of running the app in the emulator every time will be time-intensive. So, it is advisable to use Ionic CLI for running the application in the browser. Once again, it is essential to install the required dependencies with the use of npm.
After installing the dependencies, you need to run “ionic serve” in the terminal for the app to run in the browser.
UI Creation
You can begin with the addition of a new template for showing the map. Now create a new folder known as www/templates in the project directory. Also, create a file named map.html inside templates.
Google Maps will be rendered inside the HTML map where a div known as #map will be present. Also, there will be an input text box below the map for the users to fill the description and also a button for the details to be saved.
Now we will be using the “ionNavView” directive to create different templates based on various states. Add this directive to index.html page. The next step is the removal of the current contents of the body tag and addition of the “ionNavBar” directive above the “ionNavView” for building a top bar.
The title for the “ionNavBar” will be set from the rendered “ionView”.
For the proper organization of the app interfaces into multiple states, the Angular UI router module is utilized by Ionic. Now open www/js/app.js as we will define a state for the map.html template by writing the required code.
After implementing this code a new state for the URL “/map” is defined. This state will be rendering the template map.html and will be controlled by “MapCtrl” controller. To set the map as the default state, command “$urlRouterProvider.otherwise('/map')” is used.
Now create a file- “controller.js” inside “www/js/” and also add its reference in the file called- “www/index.html”
Then define the angular module first for defining controller code inside “controller.js”
After this, define the controller “MapCtrl” and then enter the “starter.controllers” module into the starter app. After saving this, you can view the map.html template.
Then you should add the Google Map in map.html which can be done by the creation of a custom directive known as “map”. Let us now define the directive in controller.js and add the directive attribute to div #map in map.html.
Adding default parameters like longitude, latitude, zoom in the Maps
First, pass the longitude, latitude, and zoom parameters to the google map directive. With the use of parameter “attrs” you can access these attributes inside the link function of the directive.
For evaluation of AngularJS expressions, “scope.$eval” is used.
The next step is to include the Google Maps API reference in index.html. Using the default values, Google Map’s latitude and longitude can be defined. Also, define map options for Google Map.
With appropriate code, add style to “www/css/style.css” for styling the “#map” div.
Lastly, save all the modifications to view Google Maps on the map page.
Adding a marker to the Google Maps
We need to modify the directive with the right code. Marker’s default position is set as longitude and latitude that is passed as an attribute. Also, the draggable option is set as true.
After implementing the code and saving the changes, a draggable marker will be visible in Google Maps.
Tracking the position of Marker
For this purpose, we will be attaching a “dragend” event to the Google Maps marker. Also, for attaching the drag end event listener inside the directive, add the right code.
After saving these changes, just try to drag the marker. Now inspect the browser console which must include the current longitude and latitude.
Saving all the details
In “MapCtrl”, define a $scope variable called “user” which will consist of information like longitude, latitude, and the data that the user enters.
In “MapCtrl” controller, create a function known as “saveDetails” which will use “scope.user” variable for fetching the required information.
Update the variables- “$scope.user.longitude” and “$scope.user.latitude” in the “dragend” event listener’s callback function when the users will move the marker on the map.
For updating the model bindings, call the “scope.$apply” function. After this, you need to attach the following:
a ngModel directive to the description input text box
a ngClick directive to the save button
Now save the data to Firebase. For this, you will first need to register with Firebase if you don’t have an account. After logging in, you will get a unique firebase URL.
After signing to the Firebase account, in the dashboard, you will find a plus link next to this URL. Click on that plus link and enter the below-mentioned inputs to get a sub URL- /MapDetails.
value as 0
name as “MapDetails”
To use firebase in the app, include the script references in index.html. Insert firebase in controller.js and MapCtrl controller. Create a firebase object inside this controller. Create an instance of the firebase object. Use the firebase push API inside the saveDetails function, for saving the data to firebase. Once saved, refresh the application.
Now just drag the marker to a certain location on the Maps, enter some description and save this. All this data should be present when you check the firebase dashboard.
After the data is saved, using the Ionic popup, create an alert for notifying the users. In the MapCtrl controller, inject the $ionicPopup. Again, in the MapCtrl controller, add a function known as “showAlert”.
This function calls the “$ionicPopup” service for showing a pop-up having a template and a title.
After this, you should call “showAlert” in the success callback of the push API call.
Finally, save all the changes and the details once again. After saving these details in Firebase, you will get a pop-up showing a success message. This completed the process.
Conclusion:
We just saw the step-by-step method to integrate Google maps in the Ionic Apps. We hope this will be useful to the Ionic developers, an Ionic mobile app development company as well as the entrepreneurs who intend to create the best location sharing app. aiming to design impeccable apps with location-sharing functionality.
To know more about our other core technologies, refer to links below
React Native App Development Company
Angular App Development Company
Blockchain App Development
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OfficeWebmaster
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Disposable masks create an huge environmental problem
It is a huge number of single-use face masks are disposed every day not just in Hong Kong but all over the world. It is estimated the global use and disposal of masks and gloves will amount to 129 billion face masks and 65 billion plastic gloves for every month of the COVID-19 pandemic. It comes to troublesome waste, single-use masks are the new plastic bags.
If there has a choice, will you consider to use re-use mask ?
AOP-KF® Anti-Influenza Mask
1. Self-cleaning for 7 days
Useable for 7 days after opening the bundle. Self-cleaning to expel undesirable smell, microscopic organisms and infections on the cover to keep it reusable without washing. Reusability may differ contingent upon the contamination levels of the utilization condition.
2. Sanitization and Disinfection
AOP-KF® Anti-Influenza Mask uses our protected innovation AOP-KF® Solid Alkali as center the separating material. AOP-KF® Solid Alkali emanates a sound low degree of chlorine dioxide (CIO2) to quickly dispose of pathogenic small scale creatures (microscopic organisms, parasite and infection). While exceptionally viable against microorganisms, AOP-KF® Solid Alkali is ensured non-poisonous by SGS, the world's driving assessment association. 100% innocuous to human, creatures and plants.
3. Five-Layer Plus Filtering
The external and internal layers are made of non-woven texture. The center filtration layers are PET cotton material with our protected development: AOP-KF® Solid Alkali and dissolve blown texture. The cover channels microorganisms, infections, and residue, yet additionally sanitizes and gives thorough insurance.
4. PM2.5 Defense
Made of non-woven texture to meet the 3D forms of the face. Agreeable and structure fitting. Guards against PM2.5 small scale and ultrafine particles adequately.
Contact Details
英è²åœ‹éš›æˆ°ç•¥æŠ•è³‡é›†åœ˜æœ‰é™å…¬å¸
INFINITY INTERNATIONAL STRATEGIC INVESTMENT GROUP LIMITED
Room 1104, 11/F, Jubilee Centre, 18 Fenwick Street, Wan Chai, Hong Kong
å“è±èˆˆæ¥æœ‰é™å…¬å¸
Max Excel Corporation Limited
Room No. 9, 10/F, Sze Hing Industrial Building, No.37 Lee Chung Street, Chai Wan, Hong Kong
Phone : (852) 3618 9477
Email : info@aop-kf.com
More information: - http://www.aop-kf-mask.com/
#AOP #KF94 #Mask #MAP #MobileAirPurifier #SolidAlkali #SGSapproval #NelsonLabs #Sterilization #FullProtection #COVID19 #staysafe #protectYourselfAndOthers #Ecofriendly #殺èŒå£ç½© #二氧化氯 #SGS安全èªè‰ #å…¨é¢ä¿è· #ç’°ä¿å£ç½© #空氣淨化 #æ–°å† ç‹€ç—…æ¯’
Be the first person to like this.
officewebmaster
posted a blog.
Disposable masks create an huge environmental problem
It is a huge number of single-use face masks are disposed every day not just in Hong Kong but all over the world. It is estimated the global use and disposal of masks and gloves will amount to 129 billion face masks and 65 billion plastic gloves for every month of the COVID-19 pandemic. It comes to troublesome waste, single-use masks are the new plastic bags.
If there has a choice, will you consider to use re-use mask ?
AOP-KF® Anti-Influenza Mask
1. Self-cleaning for 7 days
Useable for 7 days after opening the bundle. Self-cleaning to expel undesirable smell, microscopic organisms and infections on the cover to keep it reusable without washing. Reusability may differ contingent upon the contamination levels of the utilization condition.
2. Sanitization and Disinfection
AOP-KF® Anti-Influenza Mask uses our protected innovation AOP-KF® Solid Alkali as center the separating material. AOP-KF® Solid Alkali emanates a sound low degree of chlorine dioxide (CIO2) to quickly dispose of pathogenic small scale creatures (microscopic organisms, parasite and infection). While exceptionally viable against microorganisms, AOP-KF® Solid Alkali is ensured non-poisonous by SGS, the world's driving assessment association. 100% innocuous to human, creatures and plants.
3. Five-Layer Plus Filtering
The external and internal layers are made of non-woven texture. The center filtration layers are PET cotton material with our protected development: AOP-KF® Solid Alkali and dissolve blown texture. The cover channels microorganisms, infections, and residue, yet additionally sanitizes and gives thorough insurance.
4. PM2.5 Defense
Made of non-woven texture to meet the 3D forms of the face. Agreeable and structure fitting. Guards against PM2.5 small scale and ultrafine particles adequately.
Contact Details
英è²åœ‹éš›æˆ°ç•¥æŠ•è³‡é›†åœ˜æœ‰é™å…¬å¸
INFINITY INTERNATIONAL STRATEGIC INVESTMENT GROUP LIMITED
Room 1104, 11/F, Jubilee Centre, 18 Fenwick Street, Wan Chai, Hong Kong
å“è±èˆˆæ¥æœ‰é™å…¬å¸
Max Excel Corporation Limited
Room No. 9, 10/F, Sze Hing Industrial Building, No.37 Lee Chung Street, Chai Wan, Hong Kong
Phone : (852) 3618 9477
Email : info@aop-kf.com
More information: - http://www.aop-kf-mask.com/
#AOP #KF94 #Mask #MAP #MobileAirPurifier #SolidAlkali #SGSapproval #NelsonLabs #Sterilization #FullProtection #COVID19 #staysafe #protectYourselfAndOthers #Ecofriendly #殺èŒå£ç½© #二氧化氯 #SGS安全èªè‰ #å…¨é¢ä¿è· #ç’°ä¿å£ç½© #空氣淨化 #æ–°å† ç‹€ç—…æ¯’
Be the first person to like this.
Martha Jones
posted a blog.
Most of the modern-day applications have the facility of Google maps and location-sharing. Whether a taxi-booking app or a social media app or a food-ordering app, all have this vital feature embedded in the apps. Since this feature has become essential, several businesses have developed advanced location-sharing apps or at least embedded this feature in diverse apps.
So, in this blog, we are going to look at the basic procedure to build a location-sharing app or integrate this vital feature in them. Here we will use Ionic, the popular cross-platform framework, for this purpose. The reason to consider Ionic app development is that this technology is easy to adopt, enables the development of captivating UI/UX, and feature-rich performance-based apps. It is built on AngularJS which offers various functionalities for development and a robust environment that makes the code more manageable. Also, Ionic utilizes Cordova plugins and allows widget development. Owing to such myriad benefits, a plethora of businesses hire Ionic application development company for architecting enterprise applications.-
So let’s get started, but before that, let us have a quick look at the criteria that the Ionic developers would be assuming before starting with the development.
We will be using Firebase for saving the data.
We will create a custom directive for integrating Google Maps into our application.
We will be creating a mobile app for the Android platform.
Steps to Architect a Location-sharing app with Ionic
Installations of relevant softwares
The first step is to install Node.js which automatically installs npm i.e. node package manager. Now you can install Ionic with the use of npm.
Also, install the required dependencies for the Android platform. After installing them, you need to create a blank Ionic project.
Now navigate to the project directory iMapApp. After this, you can add the desired platform, develop it, and emulate. Now, a blank app will probably be running in the Android emulator. But, this process of running the app in the emulator every time will be time-intensive. So, it is advisable to use Ionic CLI for running the application in the browser. Once again, it is essential to install the required dependencies with the use of npm.
After installing the dependencies, you need to run “ionic serve” in the terminal for the app to run in the browser.
UI Creation
You can begin with the addition of a new template for showing the map. Now create a new folder known as www/templates in the project directory. Also, create a file named map.html inside templates.
Google Maps will be rendered inside the HTML map where a div known as #map will be present. Also, there will be an input text box below the map for the users to fill the description and also a button for the details to be saved.
Now we will be using the “ionNavView” directive to create different templates based on various states. Add this directive to index.html page. The next step is the removal of the current contents of the body tag and addition of the “ionNavBar” directive above the “ionNavView” for building a top bar.
The title for the “ionNavBar” will be set from the rendered “ionView”.
For the proper organization of the app interfaces into multiple states, the Angular UI router module is utilized by Ionic. Now open www/js/app.js as we will define a state for the map.html template by writing the required code.
After implementing this code a new state for the URL “/map” is defined. This state will be rendering the template map.html and will be controlled by “MapCtrl” controller. To set the map as the default state, command “$urlRouterProvider.otherwise('/map')” is used.
Now create a file- “controller.js” inside “www/js/” and also add its reference in the file called- “www/index.html”
Then define the angular module first for defining controller code inside “controller.js”
After this, define the controller “MapCtrl” and then enter the “starter.controllers” module into the starter app. After saving this, you can view the map.html template.
Then you should add the Google Map in map.html which can be done by the creation of a custom directive known as “map”. Let us now define the directive in controller.js and add the directive attribute to div #map in map.html.
Adding default parameters like longitude, latitude, zoom in the Maps
First, pass the longitude, latitude, and zoom parameters to the google map directive. With the use of parameter “attrs” you can access these attributes inside the link function of the directive.
For evaluation of AngularJS expressions, “scope.$eval” is used.
The next step is to include the Google Maps API reference in index.html. Using the default values, Google Map’s latitude and longitude can be defined. Also, define map options for Google Map.
With appropriate code, add style to “www/css/style.css” for styling the “#map” div.
Lastly, save all the modifications to view Google Maps on the map page.
Adding a marker to the Google Maps
We need to modify the directive with the right code. Marker’s default position is set as longitude and latitude that is passed as an attribute. Also, the draggable option is set as true.
After implementing the code and saving the changes, a draggable marker will be visible in Google Maps.
Tracking the position of Marker
For this purpose, we will be attaching a “dragend” event to the Google Maps marker. Also, for attaching the drag end event listener inside the directive, add the right code.
After saving these changes, just try to drag the marker. Now inspect the browser console which must include the current longitude and latitude.
Saving all the details
In “MapCtrl”, define a $scope variable called “user” which will consist of information like longitude, latitude, and the data that the user enters.
In “MapCtrl” controller, create a function known as “saveDetails” which will use “scope.user” variable for fetching the required information.
Update the variables- “$scope.user.longitude” and “$scope.user.latitude” in the “dragend” event listener’s callback function when the users will move the marker on the map.
For updating the model bindings, call the “scope.$apply” function. After this, you need to attach the following:
a ngModel directive to the description input text box
a ngClick directive to the save button
Now save the data to Firebase. For this, you will first need to register with Firebase if you don’t have an account. After logging in, you will get a unique firebase URL.
After signing to the Firebase account, in the dashboard, you will find a plus link next to this URL. Click on that plus link and enter the below-mentioned inputs to get a sub URL- /MapDetails.
value as 0
name as “MapDetails”
To use firebase in the app, Include the script references in index.html. Insert firebase in controller.js and MapCtrl controller. Create a firebase object inside this controller. Create an instance of the firebase object. Use the firebase push API inside the save Details function, for saving the data to firebase. Once saved, refresh the application.
Now just drag the marker to a certain location on the Maps, enter some description and save this. All this data should be present when you check the firebase dashboard.
After the data is saved, using the Ionic popup, create an alert for notifying the users. In the MapCtrl controller, inject the $ionicPopup. Again, in the MapCtrl controller, add a function known as “showAlert”.
This function calls the “$ionicPopup” service for showing a pop-up having a template and a title.
After this, you should call “showAlert” in the success callback of the push API call.
Finally, save all the changes and the details once again. After saving these details in Firebase,you will get a pop-up showing a success message. This completed the process.
Conclusion:
We just saw the step-by-step method to integrate Google maps in the Ionic Apps. We hope this will be useful to the Ionic developers and also to an Ionic app development company aiming to design impeccable apps with location-sharing functionality.
Was this blog useful to you? Let us know your vital thoughts in the comment section.
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