hns-links/render.py

131 lines
4.6 KiB
Python

from flask import Flask, render_template, request, jsonify
def varo_login():
return '''
varo.auth().then(auth => {
if (auth.success) {
// handle success by calling your api to update the users session
$.post("/auth", JSON.stringify(auth.data), (response) => {
window.location = '/site';
});
}
});'''
def hnslogin():
# Redirect to https://login.hns.au/auth?return={{scheme}}{{host}}/auth
return """
const { protocol, hostname, port } = window.location;
const rootUrl = `${protocol}//${hostname}${port ? `:${port}` : ''}/auth`;
window.location.href = `https://login.hns.au/auth?return=${encodeURIComponent(rootUrl)}`;
"""
def preview(data):
title = data['title']
link_0 = data['link_0']
link_1 = data['link_1']
link_2 = data['link_2']
link_3 = data['link_3']
link_0_url = data['link_0_url']
link_1_url = data['link_1_url']
link_2_url = data['link_2_url']
link_3_url = data['link_3_url']
fg_0 = data['fg_0']
bg_0 = data['bg_0']
bg_1 = data['bg_1']
btn_bg = data['btn_bg']
btn_fg = data['btn_fg']
socials = data['socials']
image = data['image']
if image != "":
image = f'<img class="rounded" src="/avatar/{image}" width="128px" height="128px" style="margin-top: 25px;" />'
links = ""
links += link(link_0,link_0_url,btn_bg,btn_fg)
links += link(link_1,link_1_url,btn_bg,btn_fg)
links += link(link_2,link_2_url,btn_bg,btn_fg)
links += link(link_3,link_3_url,btn_bg,btn_fg)
socials = social_links(socials)
addresss = address_links(data['address'],fg_0)
return render_template('preview_card.html', title=title, links=links, image=image, bg_0=bg_0, bg_1=bg_1, fg_0=fg_0, btn_bg=btn_bg, btn_fg=btn_fg, socials=socials, addresses=addresss)
def link(name,url,btn_bg,btn_fg):
if url == "" or name == "":
return ""
colour = f'background-color: {btn_bg}; color: {btn_fg};'
return f'<a class="btn btn-primary custom-button" role="button" style="display: block;margin: auto;margin-bottom: 25px;width: 95%; {colour}" target="_blank" href="{url}">{name}</a>'
def social_links(socials):
html = ''
for social in socials:
html += render_template(social['name'] + '.html', url=social['url'])
return html
def address_links(addresses,foreground):
html = ''
for address in addresses:
token = address['token'].upper()
html += f'<a style="margin:5px;" href=".well-known/wallets/{token}" target="_blank">{tokenImage(token,foreground)}</a>'
return html
def tokenImage(token,foreground):
if is_closer_to_black(foreground):
return f'<img src="/token/{token}B" width="32px" height="32px" style="margin-top: 25px;" />'
return f'<img src="/token/{token}W" width="32px" height="32px" style="margin-top: 25px;" />'
def site(data, injectSSL = False):
title = data['title']
link_0 = data['link_0']
link_1 = data['link_1']
link_2 = data['link_2']
link_3 = data['link_3']
link_0_url = data['link_0_url']
link_1_url = data['link_1_url']
link_2_url = data['link_2_url']
link_3_url = data['link_3_url']
image = f'/avatar/{data["image"]}'
links = link(link_0,link_0_url,data['btn_bg'],data['btn_fg'])
links += link(link_1,link_1_url,data['btn_bg'],data['btn_fg'])
links += link(link_2,link_2_url,data['btn_bg'],data['btn_fg'])
links += link(link_3,link_3_url,data['btn_bg'],data['btn_fg'])
socials = social_links(data['socials'])
addresses = address_links(data['address'],data['fg_0'])
ssl = ''
if injectSSL:
ssl = f'<script src="https://{injectSSL}/https.js" async=""></script>'
page = "page.html"
if data['image'] == "":
page = "page_no_image.html"
html = render_template(page, title=title, links=links, image=image,
bg_0=data['bg_0'], bg_1=data['bg_1'], fg_0=data['fg_0'],
btn_bg=data['btn_bg'], btn_fg=data['btn_fg'],
socials=socials, addresses=addresses + ssl)
if data['image'] != "":
html = html.replace('/assets/img/favicon.png',f'/avatar/{data["image"]}')
return html
def hex_to_rgb(hex_color):
hex_color = hex_color.lstrip('#')
return tuple(int(hex_color[i:i+2], 16) for i in (0, 2, 4))
def color_distance(color1, color2):
return sum((c1 - c2) ** 2 for c1, c2 in zip(color1, color2)) ** 0.5
def is_closer_to_black(hex_color):
white = (255, 255, 255)
black = (0, 0, 0)
color = hex_to_rgb(hex_color)
distance_to_white = color_distance(color, white)
distance_to_black = color_distance(color, black)
return distance_to_black < distance_to_white