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StreamlitSuperPowerCheatSheet

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awacke1 commited on Aug 18, 2023

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0a627f1

1 Parent(s): ff320bc

Update app.py

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app.py +43 -22

app.py CHANGED Viewed

@@ -1,38 +1,35 @@
-import streamlit as st
 import pandas as pd
 import random
-# Constants
-AI = '🤖'
-DATA = '📊'
-EMOJIS = ['🤣', '😂', '😜', '🤪', '😎', '🤔']
 # Magic commands
 #st.set_page_config(page_title='Streamlit Super Power Cheat Sheet - Gamified')
 #st.set_option('deprecation.showfileUploaderEncoding', False)
-# ------------------------- PLAYER CARDS -------------------------
-player1 = [
-    {'Word': 'Strategy', 'Definition': 'A plan of action designed to achieve a long-term or overall aim.'},
-    {'Word': 'Economics', 'Definition': 'The branch of knowledge concerned with the production, consumption, and transfer of wealth.'},
-    {'Word': 'Industry', 'Definition': 'Economic activity concerned with the processing of raw materials and manufacture of goods in factories.'}
-]
-player2 = [
-    {'Word': 'Manufacturing', 'Definition': 'The making of articles on a large scale using machinery.'},
-    {'Word': 'Transportation', 'Definition': 'The action of transporting someone or something or the process of being transported.'},
-    {'Word': 'Community', 'Definition': 'A group of people living in the same place or having a particular characteristic in common.'}
-]
 df_player1 = pd.DataFrame(player1)
 df_player2 = pd.DataFrame(player2)
 df_matches = pd.merge(df_player1, df_player2, on='Word')
 st.dataframe(df_matches)
 match_count = df_matches.shape[0]
 st.write(f'Number of word matches: {match_count}')
 if match_count > 0:
     random_match = df_matches.iloc[random.randint(0, match_count-1)]
     st.write(f'Random match: {random_match["Word"]}')
@@ -41,7 +38,15 @@ if match_count > 0:
 else:
     st.write('No word matches')
-# ------------------------- STRATEGY DATA -------------------------
 strategy_data = [
     {'Classification': 'Economic', 'Definition': '💰 The branch of knowledge concerned with the production, consumption, and transfer of wealth.'},
     {'Classification': 'Industry', 'Definition': '🏭 Economic activity concerned with the processing of raw materials and manufacture of goods in factories.'},
@@ -53,15 +58,31 @@ strategy_data = [
     {'Classification': 'Network', 'Definition': '🌐 A group of interconnected people, companies, or devices that share information or resources.'},
 ]
 df_strategy = pd.DataFrame(strategy_data)
-st.dataframe(df_strategy)
-# ------------------------- AI DATA -------------------------
 ai_data = {'accuracy': 0.89, 'precision': 0.72, 'recall': 0.64, 'f1': 0.68}
 st.write(f"{AI} I'm sorry Dave, I'm afraid I can't do that.")
 st.dataframe(pd.DataFrame(ai_data, index=['Model']))
-# ------------------------- ONE-LINER FUNCTIONS -------------------------
 st.table(pd.DataFrame(ai_data, index=['Model']))
 st.json({'foo':'bar', 'fu':'ba', 'ai_data': ai_data})
 st.metric(label="Model Accuracy", value=ai_data['accuracy'], delta=0.02)

+ import streamlit as st
 import pandas as pd
 import random
 # Magic commands
 #st.set_page_config(page_title='Streamlit Super Power Cheat Sheet - Gamified')
 #st.set_option('deprecation.showfileUploaderEncoding', False)
+# Define player cards
+player1 = [{'Word': 'Strategy', 'Definition': 'A plan of action designed to achieve a long-term or overall aim.'},
+           {'Word': 'Economics', 'Definition': 'The branch of knowledge concerned with the production, consumption, and transfer of wealth.'},
+           {'Word': 'Industry', 'Definition': 'Economic activity concerned with the processing of raw materials and manufacture of goods in factories.'}]
+player2 = [{'Word': 'Manufacturing', 'Definition': 'The making of articles on a large scale using machinery.'},
+           {'Word': 'Transportation', 'Definition': 'The action of transporting someone or something or the process of being transported.'},
+           {'Word': 'Community', 'Definition': 'A group of people living in the same place or having a particular characteristic in common.'}]
+# Create dataframes for each player card
 df_player1 = pd.DataFrame(player1)
 df_player2 = pd.DataFrame(player2)
+# Merge the dataframes on word matches
 df_matches = pd.merge(df_player1, df_player2, on='Word')
+# Display the merged dataframe
 st.dataframe(df_matches)
+# Display the word match count
 match_count = df_matches.shape[0]
 st.write(f'Number of word matches: {match_count}')
+# Display a random word match
 if match_count > 0:
     random_match = df_matches.iloc[random.randint(0, match_count-1)]
     st.write(f'Random match: {random_match["Word"]}')
 else:
     st.write('No word matches')
+# Emoji graphics
+AI = '🤖'
+DATA = '📊'
+EMOJIS = ['🤣', '😂', '😜', '🤪', '😎', '🤔']
+# strategy data
+import pandas as pd
+# Define the strategy classifications and their definitions
 strategy_data = [
     {'Classification': 'Economic', 'Definition': '💰 The branch of knowledge concerned with the production, consumption, and transfer of wealth.'},
     {'Classification': 'Industry', 'Definition': '🏭 Economic activity concerned with the processing of raw materials and manufacture of goods in factories.'},
     {'Classification': 'Network', 'Definition': '🌐 A group of interconnected people, companies, or devices that share information or resources.'},
 ]
+st.markdown("""
+  Classification                                         Definition
+0       Economic  💰 The branch of knowledge concerned with the p...
+1        Industry  🏭 Economic activity concerned with the process...
+2   Manufacturing  🏭 The making of articles on a large scale usin...
+3     Development  🏗️ The process of growth, progress, or realiz...
+4       Transport  🚗 The movement of people, goods, or materials ...
+5          Income  💸 The money received by a person, company, or ...
+6          Market  📈 A regular gathering of people for the purcha...
+7         Network  🌐 A group of interconnected people, companies,...
+""")
+# Create a dataframe from the strategy data
 df_strategy = pd.DataFrame(strategy_data)
+# Display the dataframe
+print(df_strategy)
+# Example AI data
 ai_data = {'accuracy': 0.89, 'precision': 0.72, 'recall': 0.64, 'f1': 0.68}
+# One-liner functions
 st.write(f"{AI} I'm sorry Dave, I'm afraid I can't do that.")
 st.dataframe(pd.DataFrame(ai_data, index=['Model']))
 st.table(pd.DataFrame(ai_data, index=['Model']))
 st.json({'foo':'bar', 'fu':'ba', 'ai_data': ai_data})
 st.metric(label="Model Accuracy", value=ai_data['accuracy'], delta=0.02)