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CC.py
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CC.py
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import streamlit as st
import streamlit.components.v1 as components
import requests
#response = requests.request("GET",url)
def btc():
st.write("Consensus Algorithnm : Proof of Work (PoW)")
st.write("Mining Algorithnm : SHA256")
n='"0"'
col1, col2, col3 = st.columns(3)
with col1:
hashs = st.number_input('Insert your hashrate in MH')
n='"{}"'.format(hashs)
x='<a class="minerstat-widget" title="BTC mining calculator" data-coin="BTC" data-algo="SHA-256" data-info="yes" data-style="light" data-color="" data-unit="TH" data-hashrate={} data-width="300" rel="nofollow" href="https://minerstat.com/coin/BTC">Bitcoin mining calculator</a><script async src="https://api.minerstat.com/v2/widgets/coin.js" charset="utf-8"></script>'.format(n)
components.html(x, width=400, height=800)
with col3:
st.write("Carbon Footprint in kgC02e")
b = st.radio(" Select ", ['Manual', 'CryptoCurrency'])
if b=="Manual":
power=st.number_input('Average Power consumption in W')
times=st.number_input('Running time in hours')
co2=(power/1000)*times*0.19338
prices=(co2/1000)*1.08
st.write("UK Grid : {} kgC02e".format(co2))
st.write("Offset cost : {} $".format(prices))
if b=="CryptoCurrency":
url = "https://api.minerstat.com/v2/coins?list=BTC"
response = requests.request("GET",url)
coin=response.json()
hashs2=coin[0]['network_hashrate']/1000000
st.write("Hashrate: {} in MH".format(hashs2))
st.caption('AVG Power consumption: 200')
st.caption('AVG Hashrate per miner: 25')
noh=hashs2/25
co2=(200/1000)*1*0.19338*noh
prices=(co2/1000)*1.08
st.write("UK Grid : {} kgC02e per hour".format(co2))
st.write("Offset cost : {} $ per hour".format(prices))
st.write("Offset cost : {} $ per hour per Miner".format(prices/noh))
def etc():
st.write("Consensus Algorithnm : Proof of Work (PoW)")
st.write("Mining Algorithnm : EtcHash")
n='"0"'
col1, col2, col3 = st.columns(3)
with col1:
hashs = st.number_input('Insert your hashrate in MH')
n='"{}"'.format(hashs)
x='<a class="minerstat-widget" title="ETC mining calculator" data-coin="ETC" data-algo="Etchash" data-info="yes" data-style="light" data-color="" data-unit="MH" data-hashrate={} data-width="300" rel="nofollow" href="https://minerstat.com/coin/ETC">Ethereum Classic mining calculator</a><script async src="https://api.minerstat.com/v2/widgets/coin.js" charset="utf-8"></script>'.format(n)
components.html(x, width=400, height=400)
with col3:
st.write("Carbon Footprint in kgC02e")
b = st.radio(" Select ", ['Manual', 'CryptoCurrency'])
if b=="Manual":
power=st.number_input('Average Power consumption in W')
times=st.number_input('Running time in hours')
co2=(power/1000)*times*0.19338
prices=(co2/1000)*1.08
st.write("UK Grid : {} kgC02e".format(co2))
st.write("Offset cost : {} $".format(prices))
if b=="CryptoCurrency":
url = "https://api.minerstat.com/v2/coins?list=ETC"
response = requests.request("GET",url)
coin=response.json()
hashs2=coin[0]['network_hashrate']/1000000
st.write("Hashrate: {} in MH".format(hashs2))
st.caption('AVG Power consumption: 200')
st.caption('AVG Hashrate per miner: 25')
noh=hashs2/25
co2=(200/1000)*1*0.19338*noh
prices=(co2/1000)*1.08
st.write("UK Grid : {} kgC02e per hour".format(co2))
st.write("Offset cost : {} $ per hour".format(prices))
st.write("Offset cost : {} $ per hour per Miner".format(prices/noh))
def eth():
st.write("Consensus Algorithnm : Proof of Stake (PoS)")
st.write("Mining Algorithnm : N/A")
n='"0"'
url = "https://digiconomist.net/wp-json/mo/v1/ethereum/stats/20221212"
response = requests.request("GET",url)
coin=response.json()
col1, col2, col3 = st.columns(3)
with col1:
x='<script async src="https://static.coinstats.app/widgets/coin-chart-widget.js"></script><coin-stats-chart-widget type="large" coin-id="ethereum" width="400" chart-height="250" currency="USD" locale="en" bg-color="#FFFFFF" text-color="#1C1B1B" status-up-color="#4F8A5B" status-down-color="#FE4747" buttons-color="#FFFFFF" chart-color="#E47103" chart-gradient-from="#FFFFFF" chart-gradient-to="#EFEFEF" chart-label-background="#FFFFFF" candle-grids-color="rgba(0,0,0,0.1)" border-color="rgba(28,27,27,0.15)" font="Roboto, Arial, Helvetica" btc-color="#6DD400" eth-color="#2D73AD"></coin-stats-chart-widget>'
components.html(x, width=400, height=400)
with col3:
st.write("Carbon Footprint in kgC02e")
b = st.radio(" Select ", ['Manual', 'CryptoCurrency', 'Formula'])
if b=="Manual":
stakes=st.number_input('Ethereum Staked', min_value=32, max_value=1000000)
total=15616893
per_stakes=(stakes/total)*100
co2=coin[0]['24hr_kgCO2']
per_co2=int(co2)*per_stakes
st.write("24hr CO2 consumption: {} kgCO2e".format(per_co2))
prices=per_co2*1.08
st.write("Offset cost : {} $".format(prices))
if b=="CryptoCurrency":
power=coin[0]['24hr_kWh']
st.write("24hr Power consumption: {} kWh".format(power))
co2=coin[0]['24hr_kgCO2']
st.write("24hr CO2 consumption: {} kgCO2e".format(co2))
prices=((int(co2))/24)*1.08
st.write("Offset cost : {} $ per hour".format(prices))
def etpow():
st.write("Consensus Algorithnm : Proof of Work (PoW)")
st.write("Mining Algorithnm : Ethash")
n='"0"'
col1, col2, col3 = st.columns(3)
with col1:
hashs = st.number_input('Insert your hashrate in MH')
n='"{}"'.format(hashs)
x='<a class="minerstat-widget" title="ETHW mining calculator" data-coin="ETHW" data-algo="Ethash" data-info="yes" data-style="light" data-color="" data-unit="MH" data-hashrate={} data-width="300" rel="nofollow" href="https://minerstat.com/coin/ETHW">Ethereum PoW mining calculator</a><script async src="https://api.minerstat.com/v2/widgets/coin.js" charset="utf-8"></script>'.format(n)
components.html(x, width=400, height=400)
with col3:
b = st.radio(" Select ", ['Manual', 'CryptoCurrency', 'Formula'])
if b=="Manual":
st.write("Carbon Footprint in kgC02e")
power=st.number_input('Average Power consumption in W')
times=st.number_input('Running time in hours')
co2=(power/1000)*times*0.19338
prices=(co2/1000)*1.08
st.write("UK Grid : {} kgC02e".format(co2))
st.write("Offset cost : {} $".format(prices))
if b=="CryptoCurrency":
url = "https://api.minerstat.com/v2/coins?list=ETHW"
response = requests.request("GET",url)
coin=response.json()
hashs2=coin[0]['network_hashrate']/1000000
st.write("Hashrate: {} in MH".format(hashs2))
st.caption('AVG Power consumption: 200')
st.caption('AVG Hashrate per miner: 25')
noh=hashs2/25
co2=(200/1000)*1*0.19338*noh
prices=(co2/1000)*1.08
st.write("UK Grid : {} kgC02e per hour".format(co2))
st.write("Offset cost : {} $ per hour".format(prices))
st.write("Offset cost : {} $ per hour per Miner".format(prices/noh))
def xrp():
st.write("Consensus Algorithnm : Ripple Protocol")
st.write("Mining Algorithnm : N/A")
n='"0"'
col1, col2, col3 = st.columns(3)
with col1:
x='<script async src="https://static.coinstats.app/widgets/coin-chart-widget.js"></script><coin-stats-chart-widget type="large" coin-id="ripple" width="400" chart-height="250" currency="USD" locale="en" bg-color="#FFFFFF" text-color="#1C1B1B" status-up-color="#4F8A5B" status-down-color="#FE4747" buttons-color="#FFFFFF" chart-color="#E47103" chart-gradient-from="#FFFFFF" chart-gradient-to="#EFEFEF" chart-label-background="#FFFFFF" candle-grids-color="rgba(0,0,0,0.1)" border-color="rgba(28,27,27,0.15)" font="Roboto, Arial, Helvetica" btc-color="#6DD400" eth-color="#2D73AD"></coin-stats-chart-widget>'
components.html(x, width=400, height=400)
with col3:
st.write("Carbon Footprint in kgC02e")
b = st.radio(" Select ", ['Manual', 'CryptoCurrency'])
if b=="Manual":
power=0.0079*1192639
co2=(power/24)*0.19338
prices=(co2)*1.08
st.write("Negligible transaction unless you are validators")
st.write("For Validators")
st.write("Power Consumption : {} kWh".format(power/112))
st.write("UK Grid : {} kgC02e per hour".format(co2/112))
st.write("Offset cost : {} $ per hour".format(prices/112))
st.write("")
if b=="CryptoCurrency":
power=0.0079*1192639
co2=(power/24)*0.19338
prices=(co2)*1.08
st.write("Power Consumption : {} kWh".format(power))
st.write("UK Grid : {} kgC02e per hour".format(co2))
st.write("Offset cost : {} $ per hour".format(prices))
def dg():
st.write("Consensus Algorithnm : Proof of Work (PoW)")
st.write("Mining Algorithnm : Scrypt")
n='"0"'
col1, col2, col3 = st.columns(3)
with col1:
hashs = st.number_input('Insert your hashrate in MH')
n='"{}"'.format(hashs)
x='<a class="minerstat-widget" title="DOGE mining calculator" data-coin="DOGE" data-algo="Scrypt" data-info="yes" data-style="light" data-color="" data-unit="MH" data-hashrate={} data-width="300" rel="nofollow" href="https://minerstat.com/coin/DOGE">Dogecoin mining calculator</a><script async src="https://api.minerstat.com/v2/widgets/coin.js" charset="utf-8"></script>'.format(n)
components.html(x, width=400, height=400)
with col3:
b = st.radio(" Select ", ['Manual', 'CryptoCurrency'])
if b=="Manual":
st.write("Carbon Footprint in kgC02e")
power=st.number_input('Average Power consumption in W')
times=st.number_input('Running time in hours')
co2=(power/1000)*times*0.19338
prices=(co2/1000)*1.08
st.write("UK Grid : {} kgC02e".format(co2))
st.write("Offset cost : {} $".format(prices))
if b=="CryptoCurrency":
url = "https://api.minerstat.com/v2/coins?list=DOGE"
response = requests.request("GET",url)
coin=response.json()
hashs2=coin[0]['network_hashrate']/1000000
st.write("Hashrate: {} in MH".format(hashs2))
st.caption('AVG Power consumption: 200')
st.caption('AVG Hashrate per miner: 25')
noh=hashs2/25
co2=(200/1000)*1*0.19338*noh
prices=(co2/1000)*1.08
st.write("UK Grid : {} kgC02e per hour".format(co2))
st.write("Offset cost : {} $ per hour".format(prices))
st.write("Offset cost : {} $ per hour per Miner".format(prices/noh))
def crd():
st.write("Consensus Algorithnm : Proof of Stake")
st.write("Mining Algorithnm : N/A")
url = "https://api.blockchair.com/cardano/stats"
response = requests.request("GET",url)
coin=response.json()
n='"0"'
col1, col2, col3 = st.columns(3)
with col1:
hashs = st.number_input('Insert your hashrate in MH')
n='"{}"'.format(hashs)
x='<script async src="https://static.coinstats.app/widgets/coin-chart-widget.js"></script><coin-stats-chart-widget type="large" coin-id="cardano" width="400" chart-height="250" currency="USD" locale="en" bg-color="#FFFFFF" text-color="#1C1B1B" status-up-color="#4F8A5B" status-down-color="#FE4747" buttons-color="#FFFFFF" chart-color="#E47103" chart-gradient-from="#FFFFFF" chart-gradient-to="#EFEFEF" chart-label-background="#FFFFFF" candle-grids-color="rgba(0,0,0,0.1)" border-color="rgba(28,27,27,0.15)" font="Roboto, Arial, Helvetica" btc-color="#6DD400" eth-color="#2D73AD"></coin-stats-chart-widget>'
components.html(x, width=400, height=400)
with col3:
st.write("Carbon Footprint in kgC02e")
b = st.radio(" Select ", ['Manual', 'CryptoCurrency'])
if b=="Manual":
stakes=st.number_input('ADA Staked', min_value=10, max_value=1000000)
total=coin['data']["circulation"]
per_stakes=(stakes/total)*100
co2=16438.3561643836*0.19338
per_co2=int(co2)*per_stakes
st.write("24hr CO2 consumption: {} kgCO2e".format(per_co2))
prices=per_co2*1.08
st.write("Offset cost : {} $".format(prices))
if b=="CryptoCurrency":
st.write("24hr Power consumption: 16438.3561643836 kWh")
co2=16438.3561643836*0.19338
st.write("24hr CO2 consumption (UK Grid Electricity): {} kgCO2e".format(co2))
prices=((co2)/24)*1.08
st.write("Offset cost : {} $ per hour".format(prices))
def mat():
url = "https://api.minerstat.com/v2/coins?list=ETC"
response = requests.request("GET",url)
coin=response.json()
st.write("Consensus Algorithnm : Proof of Stake")
st.write("Mining Algorithnm : N/A")
col1, col2, col3 = st.columns(3)
with col1:
x='<script async src="https://static.coinstats.app/widgets/coin-chart-widget.js"></script><coin-stats-chart-widget type="large" coin-id="matic-network" width="400" chart-height="250" currency="USD" locale="en" bg-color="#FFFFFF" text-color="#1C1B1B" status-up-color="#4F8A5B" status-down-color="#FE4747" buttons-color="#FFFFFF" chart-color="#E47103" chart-gradient-from="#FFFFFF" chart-gradient-to="#EFEFEF" chart-label-background="#FFFFFF" candle-grids-color="rgba(0,0,0,0.1)" border-color="rgba(28,27,27,0.15)" font="Roboto, Arial, Helvetica" btc-color="#6DD400" eth-color="#2D73AD"></coin-stats-chart-widget>'
components.html(x, width=400, height=400)
with col3:
st.write("Carbon Footprint in kgC02e")
b = st.radio(" Select ", ['Manual', 'CryptoCurrency'])
if b=="Manual":
stakes=st.number_input('Matic Staked', min_value=10, max_value=100000000)
total=2929039482.9891/0.8792
per_stakes=(stakes/total)*100
co2=(90)*1*0.19338
per_co2=int(co2)*per_stakes
st.write("24hr CO2 consumption: {} kgCO2e".format(per_co2))
prices=per_co2*1.08
st.write("Offset cost : {} $".format(prices))
if b=="CryptoCurrency":
st.write("Power Consumption : 90 kW per hour")
co2=(90)*1*0.19338
prices=(co2/1000)*1.08
st.write("UK Grid : {} kgC02e per hour".format(co2))
st.write("Offset cost : {} $ per hour".format(prices))