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HomeSEOUtilizing Python + Streamlit To Discover Putting Distance Key phrase Alternatives

Utilizing Python + Streamlit To Discover Putting Distance Key phrase Alternatives


Python is a superb device to automate repetitive duties in addition to acquire extra insights into knowledge.

On this article, you’ll discover ways to construct a device to examine which key phrases are near rating in positions one to a few and advises whether or not there is a chance to naturally work these key phrases into the web page.

It’s excellent for Python inexperienced persons and professionals alike and is a superb introduction to utilizing Python for website positioning.

Should you’d identical to to get caught in there’s a useful Streamlit app out there for the code. That is easy to make use of and requires no coding expertise.

There’s additionally a Google Colaboratory Sheet for those who’d prefer to poke round with the code. Should you can crawl an internet site, you should utilize this script!

Right here’s an instance of what we’ll be making as we speak:

An Excel sheet documenting onpage keywords opportunites generated with PythonScreenshot from Microsoft Excel, October 2021

These key phrases are discovered within the web page title and H1, however not within the copy. Including these key phrases naturally to the present copy could be a straightforward strategy to improve relevancy for these key phrases.

By taking the trace from search engines like google and yahoo and naturally together with any lacking key phrases a web site already ranks for, we improve the arrogance of search engines like google and yahoo to rank these key phrases increased within the SERPs.

This report might be created manually, nevertheless it’s fairly time-consuming.

So, we’re going to automate the method utilizing a Python website positioning script.

Preview Of The Output

It is a pattern of what the ultimate output will appear to be after working the report:

Excel sheet showing and example of keywords that can be optimised by using the striking distance reportScreenshot from Microsoft Excel, October 2021

The ultimate output takes the highest 5 alternatives by search quantity for every web page and neatly lays each horizontally together with the estimated search quantity.

It additionally reveals the entire search quantity of all key phrases a web page has inside hanging distance, in addition to the entire variety of key phrases inside attain.

The highest 5 key phrases by search quantity are then checked to see if they’re discovered within the title, H1, or copy, then flagged TRUE or FALSE.

That is nice for locating fast wins! Simply add the lacking key phrase naturally into the web page copy, title, or H1.

Getting Began

The setup is pretty simple. We simply want a crawl of the location (ideally with a customized extraction for the copy you’d prefer to examine), and an exported file of all key phrases a web site ranks for.

This submit will stroll you thru the setup, the code, and can hyperlink to a Google Colaboratory sheet for those who simply need to get caught in with out coding it your self.

To get began you will have:

We’ve named this the Putting Distance Report because it flags key phrases which are simply inside hanging distance.

(We have now outlined hanging distance as key phrases that rank in positions 4 to twenty, however have made this a configurable possibility in case you want to outline your personal parameters.)

Putting Distance website positioning Report: Getting Began

1. Crawl The Goal Web site

  • Set a customized extractor for the web page copy (optionally available, however really useful).
  • Filter out pagination pages from the crawl.

2. Export All Key phrases The Website Ranks For Utilizing Your Favourite Supplier

  • Filter key phrases that set off as a web site hyperlink.
  • Take away key phrases that set off as a picture.
  • Filter branded key phrases.
  • Use each exports to create an actionable Putting Distance report from the key phrase and crawl knowledge with Python.

Crawling The Website

I’ve opted to make use of Screaming Frog to get the preliminary crawl. Any crawler will work, as long as the CSV export makes use of the identical column names or they’re renamed to match.

The script expects to seek out the next columns within the crawl CSV export:

"Tackle", "Title 1", "H1-1", "Copy 1", "Indexability"

Crawl Settings

The very first thing to do is to move over to the principle configuration settings inside Screaming Frog:

Configuration > Spider > Crawl

The principle settings to make use of are:

Crawl Inner Hyperlinks, Canonicals, and the Pagination (Rel Subsequent/Prev) setting.

(The script will work with every thing else chosen, however the crawl will take longer to finish!)

Recommended Screaming Frog Crawl SettingsScreenshot from Screaming Frog, October 2021

Subsequent, it’s on to the Extraction tab.

Configuration > Spider > Extraction

Recommended Screaming Frog Extraction Crawl SettingsScreenshot from Screaming Frog, October 2021

At a naked minimal, we have to extract the web page title, H1, and calculate whether or not the web page is indexable as proven beneath.

Indexability is beneficial as a result of it’s a straightforward method for the script to determine which URLs to drop in a single go, leaving solely key phrases which are eligible to rank within the SERPs.

If the script can’t discover the indexability column, it’ll nonetheless work as regular however gained’t differentiate between pages that may and can’t rank.

Setting A Customized Extractor For Web page Copy

With a view to examine whether or not a key phrase is discovered throughout the web page copy, we have to set a customized extractor in Screaming Frog.

Configuration > Customized > Extraction

Identify the extractor “Copy” as seen beneath.

Screaming Frog Custom Extraction Showing Default Options for Extracting the Page CopyScreenshot from Screaming Frog, October 2021

Necessary: The script expects the extractor to be named “Copy” as above, so please double examine!

Lastly, be sure Extract Textual content is chosen to export the copy as textual content, quite than HTML.

There are a lot of guides on utilizing customized extractors on-line for those who need assistance setting one up, so I gained’t go over it once more right here.

As soon as the extraction has been set it’s time to crawl the location and export the HTML file in CSV format.

Exporting The CSV File

Exporting the CSV file is as simple as altering the drop-down menu displayed beneath Inner to HTML and urgent the Export button.

Inner > HTML > Export

Screaming Frog - Export Internal HTML SettingsScreenshot from Screaming Frog, October 2021

After clicking Export, It’s necessary to verify the sort is about to CSV format.

The export display screen ought to appear to be the beneath:

Screaming Frog Internal HTML CSV Export SettingsScreenshot from Screaming Frog, October 2021

Tip 1: Filtering Out Pagination Pages

I like to recommend filtering out pagination pages out of your crawl both by choosing Respect Subsequent/Prev beneath the Superior settings (or simply deleting them from the CSV file, for those who favor).

Screaming Frog Settings to Respect Rel / PrevScreenshot from Screaming Frog, October 2021

Tip 2: Saving The Crawl Settings

After you have set the crawl up, it’s value simply saving the crawl settings (which will even keep in mind the customized extraction).

This can save a number of time if you wish to use the script once more sooner or later.

File > Configuration > Save As

How to save a configuration file in screaming frogScreenshot from Screaming Frog, October 2021

Exporting Key phrases

As soon as we have now the crawl file, the subsequent step is to load your favourite key phrase analysis device and export the entire key phrases a web site ranks for.

The objective right here is to export all of the key phrases a web site ranks for, filtering out branded key phrases and any which triggered as a sitelink or picture.

For this instance, I’m utilizing the Natural Key phrase Report in Ahrefs, however it would work simply as properly with Semrush if that’s your most popular device.

In Ahrefs, enter the area you’d prefer to examine in Website Explorer and select Natural Key phrases.

Ahrefs Site Explorer SettingsScreenshot from Ahrefs.com, October 2021

Website Explorer > Natural Key phrases

Ahrefs - How Setting to Export Organic Keywords a Site Ranks ForScreenshot from Ahrefs.com, October 2021

This can carry up all key phrases the location is rating for.

Filtering Out Sitelinks And Picture hyperlinks

The subsequent step is to filter out any key phrases triggered as a sitelink or a picture pack.

The rationale we have to filter out sitelinks is that they don’t have any affect on the mum or dad URL rating. It is because solely the mum or dad web page technically ranks for the key phrase, not the sitelink URLs displayed beneath it.

Filtering out sitelinks will be certain that we’re optimizing the right web page.

Ahrefs Screenshot Demonstrating Pages Ranking for Sitelink KeywordsScreenshot from Ahrefs.com, October 2021

Right here’s how one can do it in Ahrefs.

Image showing how to exclude images and sitelinks from a keyword exportScreenshot from Ahrefs.com, October 2021

Lastly, I like to recommend filtering out any branded key phrases. You are able to do this by filtering the CSV output instantly, or by pre-filtering within the key phrase device of your alternative earlier than the export.

Lastly, when exporting be sure to decide on Full Export and the UTF-8 format as proven beneath.

Image showing how to export keywords in UTF-8 format as a csv fileScreenshot from Ahrefs.com, October 2021

By default, the script works with Ahrefs (v1/v2) and Semrush key phrase exports. It may work with any key phrase CSV file so long as the column names the script expects are current.

Processing

The next directions pertain to working a Google Colaboratory sheet to execute the code.

There may be now a less complicated possibility for people who favor it within the type of a Streamlit app. Merely comply with the directions supplied to add your crawl and key phrase file.

Now that we have now our exported recordsdata, all that’s left to be achieved is to add them to the Google Colaboratory sheet for processing.

Choose Runtime > Run all from the highest navigation to run all cells within the sheet.

Image showing how to run the stirking distance Python script from Google CollaboratoryScreenshot from Colab.analysis.google.com, October 2021

The script will immediate you to add the key phrase CSV from Ahrefs or Semrush first and the crawl file afterward.

Image showing how to upload the csv files to Google CollaboratoryScreenshot from Colab.analysis.google.com, October 2021

That’s it! The script will robotically obtain an actionable CSV file you should utilize to optimize your web site.

Image showing the Striking Distance final outputScreenshot from Microsoft Excel, October 2021

When you’re conversant in the entire course of, utilizing the script is actually simple.

Code Breakdown And Clarification

Should you’re studying Python for website positioning and taken with what the code is doing to supply the report, stick round for the code walkthrough!

Set up The Libraries

Let’s set up pandas to get the ball rolling.

!pip set up pandas

Import The Modules

Subsequent, we have to import the required modules.

import pandas as pd
from pandas import DataFrame, Sequence
from typing import Union
from google.colab import recordsdata

Set The Variables

Now it’s time to set the variables.

The script considers any key phrases between positions 4 and 20 as inside hanging distance.

Altering the variables right here will allow you to outline your personal vary if desired. It’s value experimenting with the settings to get the very best output to your wants.

# set all variables right here
min_volume = 10  # set the minimal search quantity
min_position = 4  # set the minimal place  / default = 4
max_position = 20 # set the utmost place  / default = 20
drop_all_true = True  # If all checks (h1/title/copy) are true, take away the advice (Nothing to do)
pagination_filters = "filterby|web page|p="  # filter patterns used to detect and drop paginated pages

Add The Key phrase Export CSV File

The subsequent step is to learn within the record of key phrases from the CSV file.

It’s set as much as settle for an Ahrefs report (V1 and V2) in addition to a Semrush export.

This code reads within the CSV file right into a Pandas DataFrame.

add = recordsdata.add()
add = record(add.keys())[0]
df_keywords = pd.read_csv(
    (add),
    error_bad_lines=False,
    low_memory=False,
    encoding="utf8",
    dtype={
        "URL": "str",
        "Key phrase": "str",
        "Quantity": "str",
        "Place": int,
        "Present URL": "str",
        "Search Quantity": int,
    },
)
print("Uploaded Key phrase CSV File Efficiently!")

If every thing went to plan, you’ll see a preview of the DataFrame created from the key phrase CSV export. 

Dataframe showing sucessful upload of the keyword export fileScreenshot from Colab.analysis.google.com, October 2021

Add The Crawl Export CSV File

As soon as the key phrases have been imported, it’s time to add the crawl file.

This pretty easy piece of code reads within the crawl with some error dealing with possibility and creates a Pandas DataFrame named df_crawl.

add = recordsdata.add()
add = record(add.keys())[0]
df_crawl = pd.read_csv(
    (add),
        error_bad_lines=False,
        low_memory=False,
        encoding="utf8",
        dtype="str",
    )
print("Uploaded Crawl Dataframe Efficiently!")

As soon as the CSV file has completed importing, you’ll see a preview of the DataFrame.

Image showing a dataframe of the crawl file being uploaded successfullyScreenshot from Colab.analysis.google.com, October 2021

Clear And Standardize The Key phrase Information

The subsequent step is to rename the column names to make sure standardization between the commonest sorts of file exports.

Basically, we’re getting the key phrase DataFrame into a very good state and filtering utilizing cutoffs outlined by the variables.

df_keywords.rename(
    columns={
        "Present place": "Place",
        "Present URL": "URL",
        "Search Quantity": "Quantity",
    },
    inplace=True,
)

# maintain solely the next columns from the key phrase dataframe
cols = "URL", "Key phrase", "Quantity", "Place"
df_keywords = df_keywords.reindex(columns=cols)

attempt:
    # clear the information. (v1 of the ahrefs key phrase export combines strings and ints within the quantity column)
    df_keywords["Volume"] = df_keywords["Volume"].str.change("0-10", "0")
besides AttributeError:
    move

# clear the key phrase knowledge
df_keywords = df_keywords[df_keywords["URL"].notna()]  # take away any lacking values
df_keywords = df_keywords[df_keywords["Volume"].notna()]  # take away any lacking values
df_keywords = df_keywords.astype({"Quantity": int})  # change knowledge kind to int
df_keywords = df_keywords.sort_values(by="Quantity", ascending=False)  # type by highest vol to maintain the highest alternative

# make new dataframe to merge search quantity again in later
df_keyword_vol = df_keywords[["Keyword", "Volume"]]

# drop rows if minimal search quantity does not match specified standards
df_keywords.loc[df_keywords["Volume"] < min_volume, "Volume_Too_Low"] = "drop"
df_keywords = df_keywords[~df_keywords["Volume_Too_Low"].isin(["drop"])]

# drop rows if minimal search place does not match specified standards
df_keywords.loc[df_keywords["Position"] <= min_position, "Position_Too_High"] = "drop"
df_keywords = df_keywords[~df_keywords["Position_Too_High"].isin(["drop"])]
# drop rows if most search place does not match specified standards
df_keywords.loc[df_keywords["Position"] >= max_position, "Position_Too_Low"] = "drop"
df_keywords = df_keywords[~df_keywords["Position_Too_Low"].isin(["drop"])]

Clear And Standardize The Crawl Information

Subsequent, we have to clear and standardize the crawl knowledge.

Basically, we use reindex to solely maintain the “Tackle,” “Indexability,” “Web page Title,” “H1-1,” and “Copy 1” columns, discarding the remaining.

We use the useful “Indexability” column to solely maintain rows which are indexable. This can drop canonicalized URLs, redirects, and so forth. I like to recommend enabling this selection within the crawl.

Lastly, we standardize the column names in order that they’re just a little nicer to work with.

# maintain solely the next columns from the crawl dataframe
cols = "Tackle", "Indexability", "Title 1", "H1-1", "Copy 1"
df_crawl = df_crawl.reindex(columns=cols)
# drop non-indexable rows
df_crawl = df_crawl[~df_crawl["Indexability"].isin(["Non-Indexable"])]
# standardise the column names
df_crawl.rename(columns={"Tackle": "URL", "Title 1": "Title", "H1-1": "H1", "Copy 1": "Copy"}, inplace=True)
df_crawl.head()

Group The Key phrases

As we method the ultimate output, it’s essential to group our key phrases collectively to calculate the entire alternative for every web page.

Right here, we’re calculating what number of key phrases are inside hanging distance for every web page, together with the mixed search quantity.

# teams the URLs (take away the dupes and combines stats)
# make a duplicate of the key phrases dataframe for grouping - this ensures stats might be merged again in later from the OG df
df_keywords_group = df_keywords.copy()
df_keywords_group["KWs in Striking Dist."] = 1  # used to rely the variety of key phrases in hanging distance
df_keywords_group = (
    df_keywords_group.groupby("URL")
    .agg({"Quantity": "sum", "KWs in Putting Dist.": "rely"})
    .reset_index()
)
df_keywords_group.head()
DataFrame showing how many keywords were found within striking distanceScreenshot from Colab.analysis.google.com, October 2021

As soon as full, you’ll see a preview of the DataFrame.

Show Key phrases In Adjoining Rows

We use the grouped knowledge as the premise for the ultimate output. We use Pandas.unstack to reshape the DataFrame to show the key phrases within the type of a GrepWords export.

DataFrame showing a grepwords type-view of keywords laid out horizontallyScreenshot from Colab.analysis.google.com, October 2021
# create a brand new df, mix the merged knowledge with the unique knowledge. show in adjoining rows ala grepwords
df_merged_all_kws = df_keywords_group.merge(
    df_keywords.groupby("URL")["Keyword"]
    .apply(lambda x: x.reset_index(drop=True))
    .unstack()
    .reset_index()
)

# type by largest alternative
df_merged_all_kws = df_merged_all_kws.sort_values(
    by="KWs in Putting Dist.", ascending=False
)

# reindex the columns to maintain simply the highest 5 key phrases
cols = "URL", "Quantity", "KWs in Putting Dist.", 0, 1, 2, 3, 4
df_merged_all_kws = df_merged_all_kws.reindex(columns=cols)

# create union and rename the columns
df_striking: Union[Series, DataFrame, None] = df_merged_all_kws.rename(
    columns={
        "Quantity": "Putting Dist. Vol",
        0: "KW1",
        1: "KW2",
        2: "KW3",
        3: "KW4",
        4: "KW5",
    }
)

# merges hanging distance df with crawl df to merge within the title, h1 and class description
df_striking = pd.merge(df_striking, df_crawl, on="URL", how="interior")

Set The Ultimate Column Order And Insert Placeholder Columns

Lastly, we set the ultimate column order and merge within the unique key phrase knowledge.

There are a number of columns to type and create!

# set the ultimate column order and merge the key phrase knowledge in

cols = [
    "URL",
    "Title",
    "H1",
    "Copy",
    "Striking Dist. Vol",
    "KWs in Striking Dist.",
    "KW1",
    "KW1 Vol",
    "KW1 in Title",
    "KW1 in H1",
    "KW1 in Copy",
    "KW2",
    "KW2 Vol",
    "KW2 in Title",
    "KW2 in H1",
    "KW2 in Copy",
    "KW3",
    "KW3 Vol",
    "KW3 in Title",
    "KW3 in H1",
    "KW3 in Copy",
    "KW4",
    "KW4 Vol",
    "KW4 in Title",
    "KW4 in H1",
    "KW4 in Copy",
    "KW5",
    "KW5 Vol",
    "KW5 in Title",
    "KW5 in H1",
    "KW5 in Copy",
]

# re-index the columns to position them in a logical order + inserts new clean columns for kw checks.
df_striking = df_striking.reindex(columns=cols)

Merge In The Key phrase Information For Every Column

This code merges the key phrase quantity knowledge again into the DataFrame. It’s kind of the equal of an Excel VLOOKUP operate.

# merge in key phrase knowledge for every key phrase column (KW1 - KW5)
df_striking = pd.merge(df_striking, df_keyword_vol, left_on="KW1", right_on="Key phrase", how="left")
df_striking['KW1 Vol'] = df_striking['Volume']
df_striking.drop(['Keyword', 'Volume'], axis=1, inplace=True)
df_striking = pd.merge(df_striking, df_keyword_vol, left_on="KW2", right_on="Key phrase", how="left")
df_striking['KW2 Vol'] = df_striking['Volume']
df_striking.drop(['Keyword', 'Volume'], axis=1, inplace=True)
df_striking = pd.merge(df_striking, df_keyword_vol, left_on="KW3", right_on="Key phrase", how="left")
df_striking['KW3 Vol'] = df_striking['Volume']
df_striking.drop(['Keyword', 'Volume'], axis=1, inplace=True)
df_striking = pd.merge(df_striking, df_keyword_vol, left_on="KW4", right_on="Key phrase", how="left")
df_striking['KW4 Vol'] = df_striking['Volume']
df_striking.drop(['Keyword', 'Volume'], axis=1, inplace=True)
df_striking = pd.merge(df_striking, df_keyword_vol, left_on="KW5", right_on="Key phrase", how="left")
df_striking['KW5 Vol'] = df_striking['Volume']
df_striking.drop(['Keyword', 'Volume'], axis=1, inplace=True)

Clear The Information Some Extra

The information requires extra cleansing to populate empty values, (NaNs), as empty strings. This improves the readability of the ultimate output by creating clean cells, as a substitute of cells populated with NaN string values.

Subsequent, we convert the columns to lowercase in order that they match when checking whether or not a goal key phrase is featured in a selected column.

# change nan values with empty strings
df_striking = df_striking.fillna("")
# drop the title, h1 and class description to decrease case so kws might be matched to them
df_striking["Title"] = df_striking["Title"].str.decrease()
df_striking["H1"] = df_striking["H1"].str.decrease()
df_striking["Copy"] = df_striking["Copy"].str.decrease()

Examine Whether or not The Key phrase Seems In The Title/H1/Copy and Return True Or False

This code checks if the goal key phrase is discovered within the web page title/H1 or copy.

It’ll flag true or false relying on whether or not a key phrase was discovered throughout the on-page parts.

df_striking["KW1 in Title"] = df_striking.apply(lambda row: row["KW1"] in row["Title"], axis=1)
df_striking["KW1 in H1"] = df_striking.apply(lambda row: row["KW1"] in row["H1"], axis=1)
df_striking["KW1 in Copy"] = df_striking.apply(lambda row: row["KW1"] in row["Copy"], axis=1)
df_striking["KW2 in Title"] = df_striking.apply(lambda row: row["KW2"] in row["Title"], axis=1)
df_striking["KW2 in H1"] = df_striking.apply(lambda row: row["KW2"] in row["H1"], axis=1)
df_striking["KW2 in Copy"] = df_striking.apply(lambda row: row["KW2"] in row["Copy"], axis=1)
df_striking["KW3 in Title"] = df_striking.apply(lambda row: row["KW3"] in row["Title"], axis=1)
df_striking["KW3 in H1"] = df_striking.apply(lambda row: row["KW3"] in row["H1"], axis=1)
df_striking["KW3 in Copy"] = df_striking.apply(lambda row: row["KW3"] in row["Copy"], axis=1)
df_striking["KW4 in Title"] = df_striking.apply(lambda row: row["KW4"] in row["Title"], axis=1)
df_striking["KW4 in H1"] = df_striking.apply(lambda row: row["KW4"] in row["H1"], axis=1)
df_striking["KW4 in Copy"] = df_striking.apply(lambda row: row["KW4"] in row["Copy"], axis=1)
df_striking["KW5 in Title"] = df_striking.apply(lambda row: row["KW5"] in row["Title"], axis=1)
df_striking["KW5 in H1"] = df_striking.apply(lambda row: row["KW5"] in row["H1"], axis=1)
df_striking["KW5 in Copy"] = df_striking.apply(lambda row: row["KW5"] in row["Copy"], axis=1)

Delete True/False Values If There Is No Key phrase

This can delete true/false values when there is no such thing as a key phrase adjoining.

# delete true / false values if there is no such thing as a key phrase
df_striking.loc[df_striking["KW1"] == "", ["KW1 in Title", "KW1 in H1", "KW1 in Copy"]] = ""
df_striking.loc[df_striking["KW2"] == "", ["KW2 in Title", "KW2 in H1", "KW2 in Copy"]] = ""
df_striking.loc[df_striking["KW3"] == "", ["KW3 in Title", "KW3 in H1", "KW3 in Copy"]] = ""
df_striking.loc[df_striking["KW4"] == "", ["KW4 in Title", "KW4 in H1", "KW4 in Copy"]] = ""
df_striking.loc[df_striking["KW5"] == "", ["KW5 in Title", "KW5 in H1", "KW5 in Copy"]] = ""
df_striking.head()

Drop Rows If All Values == True

This configurable possibility is actually helpful for lowering the quantity of QA time required for the ultimate output by dropping the key phrase alternative from the ultimate output whether it is present in all three columns.

def true_dropper(col1, col2, col3):
    drop = df_striking.drop(
        df_striking[
            (df_striking[col1] == True)
            & (df_striking[col2] == True)
            & (df_striking[col3] == True)
        ].index
    )
    return drop

if drop_all_true == True:
    df_striking = true_dropper("KW1 in Title", "KW1 in H1", "KW1 in Copy")
    df_striking = true_dropper("KW2 in Title", "KW2 in H1", "KW2 in Copy")
    df_striking = true_dropper("KW3 in Title", "KW3 in H1", "KW3 in Copy")
    df_striking = true_dropper("KW4 in Title", "KW4 in H1", "KW4 in Copy")
    df_striking = true_dropper("KW5 in Title", "KW5 in H1", "KW5 in Copy")

Obtain The CSV File

The final step is to obtain the CSV file and begin the optimization course of.

df_striking.to_csv('Key phrases in Putting Distance.csv', index=False)
recordsdata.obtain("Key phrases in Putting Distance.csv")

Conclusion

If you’re in search of fast wins for any web site, the hanging distance report is a very easy strategy to discover them.

Don’t let the variety of steps idiot you. It’s not as advanced because it appears. It’s so simple as importing a crawl and key phrase export to the provided Google Colab sheet or utilizing the Streamlit app.

The outcomes are positively value it!

Extra Sources:


Featured Picture: aurielaki/Shutterstock



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