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import cv2
import numpy as np
from PIL import Image
import gradio as gr
from paddleocr import PaddleOCR
import datetime
import logging
import sys
from simple_salesforce import Salesforce
import time
import traceback
import re
# Configure logging
logging.basicConfig(
level=logging.INFO,
format='%(asctime)s - %(levelname)s - %(message)s',
handlers=[logging.FileHandler('app_log.txt'), logging.StreamHandler(sys.stdout)]
)
logger = logging.getLogger(__name__)
# Salesforce credentials
SALESFORCE_USERNAME = "kushal@sathkrutha.com"
SALESFORCE_PASSWORD = "Suri@777"
SALESFORCE_SECURITY_TOKEN = "ME1oo3rEg3YykYIDlYc4ZPBO"
def connect_salesforce():
try:
logger.info("Connecting to Salesforce...")
sf = Salesforce(
username=SALESFORCE_USERNAME,
password=SALESFORCE_PASSWORD,
security_token=SALESFORCE_SECURITY_TOKEN
)
logger.info("Connected to Salesforce.")
return sf
except Exception as e:
logger.error(f"Salesforce connection error: {str(e)}")
raise
sf = connect_salesforce()
def check_existing_blueprint_title(blueprint_title):
try:
query = f"SELECT Id FROM Blue_print_Estimation__c WHERE Blueprint_Title__c = '{blueprint_title}'"
existing_records = sf.query(query)
return existing_records['totalSize'] > 0
except Exception as e:
logger.error(f"Error querying Salesforce: {str(e)}")
raise
def generate_unique_blueprint_title(blueprint_title):
return f"{blueprint_title}_{int(time.time())}"
def friendly_field_names(sf_record):
mapping = {
"Blueprint_Title__c": "Blueprint Title",
"Uploaded_By__c": "Uploaded By",
"Upload_Date__c": "Upload Date",
"Structure_Type__c": "Structure Type",
"Cement_Required_KG__c": "Cement Required (kg)",
"Steel_Required_KG__c": "Steel Required (kg)",
"Brick_Count__c": "Brick Count",
"Sand_Required_CFT__c": "Sand (CFT)",
"Material_Summary__c": "Material Summary",
"Gravel__c": "Gravel (CFT)"
}
bullet_points = []
for key, value in sf_record.items():
display_key = mapping.get(key, key)
if key != "Material_Summary__c":
bullet_points.append(f"- {display_key}: {value}")
return "\n".join(bullet_points)
try:
logger.info("Initializing PaddleOCR...")
ocr = PaddleOCR(use_angle_cls=True, lang='en')
logger.info("PaddleOCR initialized.")
except Exception as e:
logger.error(f"OCR init error: {str(e)}")
raise
def calculate_materials_based_on_dimensions(total_wall_length_m, wall_height_ft, slab_count, total_slab_area_sqft, slab_thickness_ft, blueprint_area_sqft):
# Convert wall length to feet
total_wall_length_ft = total_wall_length_m * 3.28084
wall_area_sqft = total_wall_length_ft * wall_height_ft
# Interpret total_slab_area_sqft as the total area for all slabs
slab_area_per_slab = total_slab_area_sqft / slab_count # Area per slab
slab_volume_cuft = total_slab_area_sqft * slab_thickness_ft # Total volume for all slabs
# Concrete mix ratio for slabs (1:2:4 - cement:sand:gravel)
cement_ratio = 1
sand_ratio = 2
gravel_ratio = 4
total_ratio = cement_ratio + sand_ratio + gravel_ratio
# Mortar mix ratio for walls (1:3:1 - cement:sand:gravel)
wall_cement_ratio = 1
wall_sand_ratio = 3
wall_gravel_ratio = 1
wall_total_ratio = wall_cement_ratio + wall_sand_ratio + wall_gravel_ratio
# Constants
cement_kg_per_cuft = 42.6 # 1 cu.ft of cement = 94 lbs = 42.6 kg
steel_per_cuft = 1.5 # kg per cubic foot of concrete
brick_size_sqft = 0.10 # sq.ft per brick
mortar_cuft_per_sqft = 0.02 # Mortar volume per sq.ft of wall area
# Wall materials (using mortar mix with gravel)
mortar_volume_cuft = wall_area_sqft * mortar_cuft_per_sqft
cement_wall_cuft = (wall_cement_ratio / wall_total_ratio) * mortar_volume_cuft
sand_wall_cuft = (wall_sand_ratio / wall_total_ratio) * mortar_volume_cuft
gravel_wall_cuft = (wall_gravel_ratio / wall_total_ratio) * mortar_volume_cuft
cement_wall_kg = cement_wall_cuft * cement_kg_per_cuft
steel_wall_kg = wall_area_sqft * 0.1 # Minimal steel for walls
bricks_wall = wall_area_sqft / brick_size_sqft
# Slab materials
cement_slab_cuft = (cement_ratio / total_ratio) * slab_volume_cuft
sand_slab_cuft = (sand_ratio / total_ratio) * slab_volume_cuft
gravel_slab_cuft = (gravel_ratio / total_ratio) * slab_volume_cuft
steel_slab_kg = steel_per_cuft * slab_volume_cuft
cement_slab_kg = cement_slab_cuft * cement_kg_per_cuft
return {
"wall_area_sqft": round(wall_area_sqft),
"slab_volume_cuft": round(slab_volume_cuft),
"cement_wall_kg": round(cement_wall_kg),
"bricks_wall": round(bricks_wall),
"steel_wall_kg": round(steel_wall_kg),
"sand_wall_cuft": round(sand_wall_cuft),
"gravel_wall_cuft": round(gravel_wall_cuft),
"cement_slab_kg": round(cement_slab_kg),
"sand_slab_cuft": round(sand_slab_cuft),
"gravel_slab_cuft": round(gravel_slab_cuft),
"steel_slab_kg": round(steel_slab_kg),
"total_cement_kg": round(cement_wall_kg + cement_slab_kg),
"total_bricks": round(bricks_wall),
"total_steel_kg": round(steel_wall_kg + steel_slab_kg),
"total_sand_cuft": round(sand_wall_cuft + sand_slab_cuft),
"total_gravel_cuft": round(gravel_wall_cuft + gravel_slab_cuft)
}
def extract_text_with_paddleocr(image):
try:
open_cv_image = np.array(image)
open_cv_image = cv2.cvtColor(open_cv_image, cv2.COLOR_RGB2BGR)
ocr_results = ocr.ocr(open_cv_image, cls=True)
if ocr_results and ocr_results[0]:
return '\n'.join([line[1][0] for line in ocr_results[0]])
return "No text detected."
except Exception as e:
logger.error(f"OCR error: {str(e)}")
return f"OCR failed: {str(e)}"
def clean_extracted_text(text):
lines = text.split('\n')
filtered_lines = []
for line in lines:
lower_line = line.lower()
if ("drawings are for guidance only" in lower_line or
"plan produced using" in lower_line or
"www." in lower_line or
"http" in lower_line or
"plan has been drawn for illustrative and identification purposes only" in lower_line):
continue
filtered_lines.append(line)
return '\n'.join(filtered_lines)
def extract_blueprint_area(text):
match = re.search(r"TOTAL AREA:.*?(\d+\.\d+)\s*sq\.\s*feet", text, re.IGNORECASE)
if match:
return float(match.group(1))
match = re.search(r"TOTAL AREA:.*?(\d+\.\d+)\s*sq\.\s*metres", text, re.IGNORECASE)
if match:
sq_meters = float(match.group(1))
return sq_meters * 10.7639
return None
def estimate_wall_length_from_area(blueprint_area_sqft):
side_length = np.sqrt(blueprint_area_sqft)
perimeter_ft = 4 * side_length
return perimeter_ft / 3.28084
def process_blueprint(image, blueprint_title, uploaded_by, structure_type,
slab_count, total_slab_area_sqft, slab_thickness_ft, wall_height_ft):
try:
if check_existing_blueprint_title(blueprint_title):
blueprint_title = generate_unique_blueprint_title(blueprint_title)
logger.info(f"Duplicate blueprint title detected. New title assigned: {blueprint_title}")
extracted_text = extract_text_with_paddleocr(image)
cleaned_text = clean_extracted_text(extracted_text)
blueprint_area_sqft = extract_blueprint_area(cleaned_text)
if blueprint_area_sqft is None:
logger.warning("Could not extract blueprint area from text. Using default estimation.")
blueprint_area_sqft = total_slab_area_sqft / slab_count
if abs(blueprint_area_sqft * slab_count - total_slab_area_sqft) > total_slab_area_sqft * 0.5:
logger.warning(f"Blueprint area ({blueprint_area_sqft} sq.ft) and total slab area ({total_slab_area_sqft} sq.ft) mismatch significantly.")
materials = calculate_materials_based_on_dimensions(blueprint_area_sqft, wall_height_ft,
slab_count, total_slab_area_sqft, slab_thickness_ft,
blueprint_area_sqft)
# Create Material Summary for Hugging Face Output
material_summary = f"""
- Construction Material Requirements Summary:
- Total Wall Area: {materials['wall_area_sqft']} sq ft
- Cement (Walls): {materials['cement_wall_kg']} kg
- Bricks (Walls): {materials['bricks_wall']} units
- Steel (Walls): {materials['steel_wall_kg']} kg
- Sand (Walls): {materials['sand_wall_cuft']} CFT
- Gravel (Walls): {materials['gravel_wall_cuft']} CFT
- Total Slab Volume: {materials['slab_volume_cuft']} cubic ft
- Cement (Slabs): {materials['cement_slab_kg']} kg
- Sand (Slabs): {materials['sand_slab_cuft']} CFT
- Gravel (Slabs): {materials['gravel_slab_cuft']} CFT
- Steel (Slabs): {materials['steel_slab_kg']} kg
- Total Materials Required:
- Total Cement: {materials['total_cement_kg']} kg
- Total Bricks: {materials['total_bricks']} units
- Total Steel: {materials['total_steel_kg']} kg
- Total Sand: {materials['total_sand_cuft']} CFT
- Total Gravel: {materials['total_gravel_cuft']} CFT
"""
# Material Summary in Salesforce Record (with bullet points for sections)
material_summary_html = f"""
<ul>
<li><strong>Construction Material Requirements Summary:</strong></li>
<ul>
<li><span style="color: #000000; font-weight: bold;">Total Wall Area:</span> {materials['wall_area_sqft']} sq ft</li>
<li>Cement (Walls): {materials['cement_wall_kg']} kg</li>
<li>Bricks (Walls): {materials['bricks_wall']} units</li>
<li>Steel (Walls): {materials['steel_wall_kg']} kg</li>
<li>Sand (Walls): {materials['sand_wall_cuft']} CFT</li>
<li>Gravel (Walls): {materials['gravel_wall_cuft']} CFT</li>
</ul>
<br> <!-- Adding space between sections -->
<li><span style="color: #000000; font-weight: bold;">Total Slab Volume:</span> {materials['slab_volume_cuft']} cubic ft</li>
<ul>
<li>Cement (Slabs): {materials['cement_slab_kg']} kg</li>
<li>Sand (Slabs): {materials['sand_slab_cuft']} CFT</li>
<li>Gravel (Slabs): {materials['gravel_slab_cuft']} CFT</li>
<li>Steel (Slabs): {materials['steel_slab_kg']} kg</li>
</ul>
<br> <!-- Adding space between sections -->
<li><strong>Total Materials Required:</strong></li>
<ul>
<li>Total Cement: {materials['total_cement_kg']} kg</li>
<li>Total Bricks: {materials['total_bricks']} units</li>
<li>Total Steel: {materials['total_steel_kg']} kg</li>
<li>Total Sand: {materials['total_sand_cuft']} CFT</li>
<li>Total Gravel: {materials['total_gravel_cuft']} CFT</li>
</ul>
</ul>
"""
upload_date = datetime.datetime.now().strftime("%Y-%m-%d")
salesforce_record = {
"Blueprint_Title__c": blueprint_title, # No modification to title anymore
"Uploaded_By__c": uploaded_by,
"Upload_Date__c": upload_date,
"Structure_Type__c": structure_type,
"Cement_Required_KG__c": materials['total_cement_kg'],
"Steel_Required_KG__c": materials['total_steel_kg'],
"Brick_Count__c": materials['total_bricks'],
"Sand_Required_CFT__c": float(materials['total_sand_cuft']),
"Material_Summary__c": material_summary_html, # Material Summary in HTML format
"Gravel__c": materials['total_gravel_cuft']
}
logger.info(f"Salesforce record payload: {salesforce_record}")
try:
response = sf.Blue_print_Estimation__c.create(salesforce_record)
logger.info(f"Salesforce record created successfully: {response}")
salesforce_record['Salesforce_Record_Id'] = response['id']
created_record = sf.Blue_print_Estimation__c.get(response['id'])
saved_sand_value = created_record.get('Sand_Required_CFT__c', 'Not Found')
logger.info(f"Saved Sand_Required_CFT__c value in Salesforce record: {saved_sand_value}")
except Exception as e:
tb_str = traceback.format_exc()
logger.error(f"Salesforce insert failed: {str(e)}\nTraceback:\n{tb_str}")
salesforce_record['Salesforce_Error'] = str(e)
return friendly_field_names(salesforce_record), f"Salesforce insert failed: {str(e)}"
return friendly_field_names(salesforce_record), material_summary
except Exception as e:
logger.error(f"Error processing blueprint: {str(e)}")
return f"- Error: {str(e)}", None
def gradio_process_file(image, blueprint_title, uploaded_by, structure_type,
slab_count, total_slab_area_sqft, slab_thickness_ft, wall_height_ft):
if image is None:
return "- Error: No image uploaded.", None
try:
slab_count = int(slab_count)
total_slab_area_sqft = float(total_slab_area_sqft)
slab_thickness_ft = float(slab_thickness_ft)
wall_height_ft = float(wall_height_ft)
if slab_count <= 0 or total_slab_area_sqft <= 0 or slab_thickness_ft <= 0 or wall_height_ft <= 0:
raise ValueError("All numeric inputs must be positive.")
except Exception as e:
return f"- Error: Invalid inputs: {str(e)}", None
return process_blueprint(image, blueprint_title, uploaded_by, structure_type,
slab_count, total_slab_area_sqft, slab_thickness_ft, wall_height_ft)
# Define the Gradio interface using Blocks for more customization
with gr.Blocks(css='button:has(span:contains("Share via Link")) { display: none !important; }') as interface:
gr.Markdown("# Blueprint Material Estimator")
gr.Markdown("Upload a blueprint image and enter construction parameters to estimate materials and store the result in Salesforce.")
with gr.Row():
# Inputs column
with gr.Column():
image_input = gr.Image(type="pil", label="Upload Blueprint Image", interactive=True)
blueprint_title_input = gr.Textbox(label="Blueprint Title", interactive=True)
uploaded_by_input = gr.Textbox(label="Uploaded By", interactive=True)
structure_type_input = gr.Dropdown(choices=["Residential", "Commercial", "Industrial"], label="Structure Type", interactive=True)
slab_count_input = gr.Number(label="Slab Count", minimum=1, step=1, interactive=True)
total_slab_area_input = gr.Number(label="Total Slab Area (sq ft)", minimum=1.0, interactive=True)
slab_thickness_input = gr.Number(label="Slab Thickness (ft)", minimum=0.1, interactive=True)
wall_height_input = gr.Number(label="Wall Height (ft)", minimum=0.1, interactive=True)
submit_button = gr.Button("Submit")
# Outputs column
with gr.Column():
with gr.Row():
result_output = gr.Textbox(label="Blueprint Analysis Results", lines=20)
extracted_text_output = gr.Textbox(label="Extracted Text from Blueprint", lines=20)
# Connect the button to the processing function
submit_button.click(
fn=gradio_process_file,
inputs=[
image_input, blueprint_title_input, uploaded_by_input, structure_type_input,
slab_count_input, total_slab_area_input, slab_thickness_input, wall_height_input
],
outputs=[result_output, extracted_text_output]
)
if __name__ == "__main__":
logger.info("Launching app...")
interface.launch() |