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CalculoAreaPerimetro.py
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# -*- coding: utf-8 -*-
"""
***************************************************************************
CalculoAreaPerimetro.py
---------------------
Date : Jul 09
Copyright : (C) 2020 by Leandro França
Email : [email protected]
***************************************************************************
* *
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation; either version 2 of the License, or *
* (at your option) any later version. *
* *
***************************************************************************
"""
__author__ = 'Leandro França'
__date__ = 'Jul 09'
__copyright__ = '(C) 2020, Leandro França'
from PyQt5.QtCore import QCoreApplication
from qgis.core import (QgsProcessing,
QgsFeatureSink,
QgsProcessingException,
QgsProcessingAlgorithm,
QgsProcessingParameterFeatureSource,
QgsProcessingParameterFeatureSink,
QgsProcessingParameterFileDestination,
QgsApplication,
QgsProject,
QgsCoordinateTransform,
QgsCoordinateReferenceSystem)
from math import atan, pi, sqrt, floor
import math
class CalculoAreaPerimitro(QgsProcessingAlgorithm):
PONTOLIMITE = 'PONTOLIMITE'
AREAIMOVEL = 'AREAIMOVEL'
HTML = 'HTML'
LOC = QgsApplication.locale()
def translate(self, string):
return QCoreApplication.translate('Processing', string)
def tr(self, *string):
# Traduzir para o portugês: arg[0] - english (translate), arg[1] - português
if self.LOC == 'pt':
if len(string) == 2:
return string[1]
else:
return self.translate(string[0])
else:
return self.translate(string[0])
def createInstance(self):
return CalculoAreaPerimitro()
def name(self):
return 'calculateareaperimeter'
def displayName(self):
return self.tr('Area and Perimeter Report', 'Planilha de Área e Perímetro')
def group(self):
return self.tr('LF Documents', 'LF Documentos')
def groupId(self):
return 'lf_documents'
def shortHelpString(self):
txt_en = 'This tool generate the Report for the Analytical Calculation of Area, Azimuths, Sides, UTM Projected and Geodetic Coordinates of a Property.'
txt_pt = 'Esta gera o Relatório de Cálculo Analítico de Área, Azimutes, Lados, Coordenadas Planas e Geodésicas de um Imóvel.'
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'lattes': 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'linkedin': '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', 'RG': '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', 'tweeter': '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', 'udemy': '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', 'youtube': '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'}
footer = '''<div align="right">
<p align="right"><b>'''+self.tr('Author: Leandro Franca', 'Autor: Leandro França')+'''</b></p>
<div align="right">
<a target="_blank" rel="noopener noreferrer" href="https://www.udemy.com/user/leandro-luiz-silva-de-franca/"><img title="Udemy" src="data:image/png;base64,'''+dic_BW['udemy']+'''"></a> <a target="_blank" rel="noopener noreferrer" href="https://www.facebook.com/GEOCAPT/"><img title="Facebook" src="data:image/png;base64,'''+dic_BW['face']+'''"></a> <a target="_blank" rel="noopener noreferrer" href="https://www.youtube.com/channel/UCLrewDGciytcBG9r0OxTW2w"><img title="Youtube" src="data:image/png;base64,'''+dic_BW['youtube']+'''"></a> <a target="_blank" rel="noopener noreferrer" href="https://www.researchgate.net/profile/Leandro_Franca2"><img title="ResearchGate" src="data:image/png;base64,'''+dic_BW['RG']+'''"></a> <a target="_blank" rel="noopener noreferrer" href="https://github.com/LEOXINGU"><img title="GitHub" src="data:image/png;base64,'''+dic_BW['github']+'''"></a> <a target="_blank" rel="noopener noreferrer" href="https://www.linkedin.com/in/leandro-fran%C3%A7a-93093714b/"><img title="Linkedin" src="data:image/png;base64,'''+dic_BW['linkedin']+'''"></a> <a target="_blank" rel="noopener noreferrer" href="http://lattes.cnpq.br/8559852745183879"><img title="Lattes" src="data:image/png;base64,'''+dic_BW['lattes']+'''"></a>
</div>
</div>'''
if self.LOC == 'pt':
return txt_pt + footer
else:
return self.tr(txt_en) + footer
def initAlgorithm(self, config=None):
# 'INPUTS'
self.addParameter(
QgsProcessingParameterFeatureSource(
self.PONTOLIMITE,
self.tr('Boundary Survey Points', 'Pontos de Limite'),
types=[QgsProcessing.TypeVectorPoint]
)
)
self.addParameter(
QgsProcessingParameterFeatureSource(
self.AREAIMOVEL,
self.tr('Property Polygon', 'Área do Imóvel'),
types=[QgsProcessing.TypeVectorPolygon]
)
)
# 'OUTPUTS'
self.addParameter(
QgsProcessingParameterFileDestination(
self.HTML,
self.tr('Analytical Calculation Results', 'Resultados do Cálculo Analítico'),
self.tr('HTML files (*.html)')
)
)
# Acentos para HTML
def str2HTML(self, texto):
if texto:
dicHTML = {'Á': 'Á', 'á': 'á', 'Â': 'Â', 'â': 'â', 'À': 'À', 'à': 'à', 'Å': 'Å', 'å': 'å', 'Ã': 'Ã', 'ã': 'ã', 'Ä': 'Ä', 'ä': 'ä', 'Æ': 'Æ', 'æ': 'æ', 'É': 'É', 'é': 'é', 'Ê': 'Ê', 'ê': 'ê', 'È': 'È', 'è': 'è', 'Ë': 'Ë', 'ë': 'Ë', 'Ð': 'Ð', 'ð': 'ð', 'Í': 'Í', 'í': 'í', 'Î': 'Î', 'î': 'î', 'Ì': 'Ì', 'ì': 'ì', 'Ï': 'Ï', 'ï': 'ï', 'Ó': 'Ó', 'ó': 'ó', 'Ô': 'Ô', 'ô': 'ô', 'Ò': 'Ò', 'ò': 'ò', 'Ø': 'Ø', 'ø': 'ø', 'Ù': 'Ù', 'ù': 'ù', 'Ü': 'Ü', 'ü': 'ü', 'Ç': 'Ç', 'ç': 'ç', 'Ñ': 'Ñ', 'ñ': 'ñ', 'Ý': 'Ý', 'ý': 'ý', '"': '"', '”': '"', '<': '<', '>': '>', '®': '®', '©': '©', '\'': ''', 'ª': 'ª', 'º': 'º', '°':'°'}
for item in dicHTML:
if item in texto:
texto = texto.replace(item, dicHTML[item])
return texto
else:
return ''
# Fuso e Hemisfério
def FusoHemisf(self, pnt):
lon = pnt.x()
lat = pnt.y()
# Calculo do Fuso
fuso = round((183+lon)/6.0)
# Hemisferio
hemisf = 'N' if lat>= 0 else 'S'
return (hemisf, fuso)
# Cálculo de Azimutes
def azimute(self, A,B):
# Cálculo dos Azimutes entre dois pontos (Vetor AB origem A extremidade B)
if ((B.x()-A.x())>=0 and (B.y()-A.y())>0): #1º quadrante
AzAB=atan((B.x()-A.x())/(B.y()-A.y()))
AzBA=AzAB+pi
elif ((B.x()-A.x())>0 and(B.y()-A.y())<0): #2º quadrante
AzAB=pi+atan((B.x()-A.x())/(B.y()-A.y()))
AzBA=AzAB+pi
elif ((B.x()-A.x())<=0 and(B.y()-A.y())<0): #3º quadrante
AzAB=atan((B.x()-A.x())/(B.y()-A.y()))+pi
AzBA=AzAB-pi
elif ((B.x()-A.x())<0 and(B.y()-A.y())>0): #4º quadrante
AzAB=2*pi+atan((B.x()-A.x())/(B.y()-A.y()))
AzBA=AzAB+pi
elif ((B.x()-A.x())>0 and(B.y()-A.y())==0): # no eixo positivo de x (90º)
AzAB=pi/2
AzBA=1.5*pi
else: # ((B.x()-A.x())<0 and(B.y()-A.y())==0) # no eixo negativo de x (270º)
AzAB=1.5*pi
AzBA=pi/2
# Correção dos ângulos para o intervalo de 0 a 2pi
if AzAB<0 or AzAB>2*pi:
if (AzAB<0):
AzAB=AzAB+2*pi
else:
AzAB=AzAB-2*pi
if AzBA<0 or AzBA>2*pi:
if (AzBA<0):
AzBA=AzBA+2*pi
else:
AzBA=AzBA-2*pi
return (AzAB, AzBA)
# Graus Decimais para DMS
def dd2dms(self, dd, n_digits):
if dd != 0:
graus = int(floor(abs(dd)))
resto = round(abs(dd) - graus, 10)
if dd < 0:
texto = '-' + str(graus) + '°'
else:
texto = str(graus) + '°'
minutos = int(floor(60*resto))
resto = round(resto*60 - minutos, 10)
texto = texto + '{:02d}'.format(minutos) + "'"
segundos = resto*60
if n_digits < 1:
texto = texto + '{:02d}'.format(int(segundos)) + '"'
else:
texto = texto + ('{:0' + str(3+n_digits) + '.' + str(n_digits) + 'f}').format(segundos) + '"'
return texto
else:
return "0°00'" + ('{:0' + str(3+n_digits) + '.' + str(n_digits) + 'f}').format(0)
def processAlgorithm(self, parameters, context, feedback):
vertices = self.parameterAsSource(parameters,
self.PONTOLIMITE,
context)
area = self.parameterAsSource(parameters,
self.AREAIMOVEL,
context)
if vertices is None:
raise QgsProcessingException(self.invalidSourceError(parameters, self.PONTOLIMITE))
if area is None:
raise QgsProcessingException(self.invalidSourceError(parameters, self.AREAIMOVEL))
# Pegando o SRC do Projeto
SRC = QgsProject.instance().crs().description()
# Verificando o SRC do Projeto
if QgsProject.instance().crs().isGeographic():
raise QgsProcessingException(self.tr('The Project CRS must be projected!', 'O SRC do Projeto deve ser Projetado!'))
feedback.pushInfo(self.tr('Project CRS is {}.', 'SRC do Projeto é {}.').format(SRC))
# Transformar Coordenadas de Geográficas para o sistema UTM
coordinateTransformer = QgsCoordinateTransform()
coordinateTransformer.setDestinationCrs(QgsProject.instance().crs())
coordinateTransformer.setSourceCrs(QgsCoordinateReferenceSystem('EPSG:4674'))
# Dados do levantamento
#Fields = area.fields()
#fieldnames = [field.name() for field in Fields]
for feat in area.getFeatures():
feat1 = feat
break
INICIO = '''<!DOCTYPE html PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN">
<html>
<head>
<meta content="text/html; charset=ISO-8859-1"
http-equiv="content-type">
<title>Cálculo Analítico de
Área e Perímetro</title>
</head>
<body>
<div style="text-align: center;"><big><big><span
style="font-weight: bold;">Cálculo
Analítico de Área, Azimutes, Lados, Coordenadas
Planas e Geodésicas</span><br
style="font-weight: bold;">
</big></big>
<div style="text-align: left;"><br>
<span style="font-weight: bold;">Imóvel:</span>
[IMOVEL]<br>
<span style="font-weight: bold;">Município:</span>
[MUNICIPIO] - [UF]<br style="font-weight: bold;">
<span style="font-weight: bold;">SGR:</span>
SIRGAS2000<br>
<span style="font-weight: bold;">Projeção:</span>
[UTM] <br>
</div>
</div>
<table style="text-align: center; width: 100%;" border="1"
cellpadding="0" cellspacing="0">
<tbody>
<tr>
<td style="text-align: center; font-weight: bold;">Estação</td>
<td style="text-align: center; font-weight: bold;">Vante</td>
<td style="text-align: center; font-weight: bold;">Este (m)</td>
<td style="text-align: center; font-weight: bold;">Norte (m)</td>
<td style="text-align: center; font-weight: bold;">Azimute</td>
<td style="text-align: center; font-weight: bold;">Distância (m)</td>
<td style="text-align: center; font-weight: bold;">Longitude</td>
<td style="text-align: center; font-weight: bold;">Latitude</td>
</tr>
'''
linha = '''<tr>
<td>[EST1]</td>
<td>[EST2]</td>
<td>[E]</td>
<td>[N]</td>
<td>[AZ]</td>
<td>[D]</td>
<td>[LON]</td>
<td>[LAT]</td>
</tr>
'''
FIM = '''</tbody>
</table>
<br>
<span style="font-weight: bold;">Perímetro:</span>
[PERIMETRO] m<br>
<span style="font-weight: bold;">Área Total:</span>
[AREA] m² / [AREA_HA] ha
</body>
</html>
'''
# Inserindo dados iniciais do levantamento
itens = {'[IMOVEL]': self.str2HTML(feat1['imóvel']),
'[UF]': feat1['UF'],
'[AREA]': '{:,.2f}'.format(feat1['area']).replace(',', 'X').replace('.', ',').replace('X', '.'),
'[UTM]': (SRC.split('/')[-1]).replace('zone', 'fuso'),
'[MUNICIPIO]': self.str2HTML(feat1['município']),
'[PERIMETRO]': '{:,.2f}'.format(feat1['perimetro']).replace(',', 'X').replace('.', ',').replace('X', '.')
}
for item in itens:
INICIO = INICIO.replace(item, itens[item])
# Inserindo dados finais do levantamento
itens = { '[AREA]': '{:,.2f}'.format(feat1['area']).replace(',', 'X').replace('.', ',').replace('X', '.'),
'[AREA_HA]': '{:,.2f}'.format(feat1['area']/1e4).replace(',', 'X').replace('.', ',').replace('X', '.'),
'[PERIMETRO]': '{:,.2f}'.format(feat1['perimetro']).replace(',', 'X').replace('.', ',').replace('X', '.')
}
for item in itens:
FIM = FIM.replace(item, itens[item])
LINHAS = INICIO
pnts_UTM = {}
for feat in vertices.getFeatures():
pnt = feat.geometry().asMultiPoint()[0]
pnts_UTM[feat['ordem']] = [coordinateTransformer.transform(pnt), feat['codigo'], pnt]
# Cálculo dos Azimutes e Distâncias
tam = len(pnts_UTM)
feedback.pushInfo(str(tam))
Az_lista, Dist = [], []
for k in range(tam):
pntA = pnts_UTM[k+1][0]
pntB = pnts_UTM[1 if k+2 > tam else k+2][0]
Az_lista += [(180/pi)*self.azimute(pntA, pntB)[0]]
Dist += [sqrt((pntA.x() - pntB.x())**2 + (pntA.y() - pntB.y())**2)]
for k in range(tam):
linha0 = linha
itens = {
'[EST1]': pnts_UTM[k+1][1],
'[EST2]': pnts_UTM[1 if k+2 > tam else k+2][1],
'[E]': '{:,.2f}'.format(pnts_UTM[k+1][0].x()).replace(',', 'X').replace('.', ',').replace('X', '.'),
'[N]': '{:,.2f}'.format(pnts_UTM[k+1][0].y()).replace(',', 'X').replace('.', ',').replace('X', '.'),
'[AZ]': self.str2HTML(self.dd2dms(Az_lista[k],1).replace('.', ',')),
'[D]': '{:,.2f}'.format(Dist[k]).replace(',', 'X').replace('.', ',').replace('X', '.'),
'[LON]': self.str2HTML(self.dd2dms(pnts_UTM[k+1][2].x(),4)),
'[LAT]': self.str2HTML(self.dd2dms(pnts_UTM[k+1][2].y(),4))
}
for item in itens:
linha0 = linha0.replace(item, itens[item])
LINHAS += linha0
LINHAS += FIM
# Check for cancelation
if feedback.isCanceled():
return {}
output = self.parameterAsFileOutput(parameters, self.HTML, context)
arq = open(output, 'w')
arq.write(LINHAS)
arq.close()
feedback.pushInfo(self.tr('Operation completed successfully!'))
feedback.pushInfo('Leandro França - Eng Cart')
return {self.HTML: output}