floris_design #7
@ -1,7 +1,9 @@
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import math
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import os.path
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import os.path
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import sys
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import sys
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import uuid
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import uuid
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from pathlib import Path
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from pathlib import Path
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from typing import Set
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from floris import FlorisModel
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from floris import FlorisModel
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from floris.flow_visualization import visualize_cut_plane
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from floris.flow_visualization import visualize_cut_plane
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@ -10,7 +12,6 @@ import floris.layout_visualization as layoutviz
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import matplotlib.pyplot as plt
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import matplotlib.pyplot as plt
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_wind_direction_to_val: dict[str, float] = {
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_wind_direction_to_val: dict[str, float] = {
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"N": 0.0,
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"N": 0.0,
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"E": 90.0,
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"E": 90.0,
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@ -53,22 +54,90 @@ class FlorisULSTU(FlorisModel):
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super().set(**kwargs)
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super().set(**kwargs)
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def visualisation(self):
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def visualization(
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self,
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interest_plots: Set[str]
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):
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dct_functions = {
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"horizontal_plane": self._horizontal_plane_visualization,
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"vertical_plane": self._vertical_plane_visualization,
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}
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res = {}
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for param in interest_plots:
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if param not in dct_functions:
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res[param] = "Not found"
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continue
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res[param] = dct_functions[param]()
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return res
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def _horizontal_plane_visualization(self):
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return self._plane_visualization(self.calculate_horizontal_plane, {"height": 90.0})
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def _vertical_plane_visualization(self):
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return self._plane_visualization(self.calculate_y_plane,
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{"crossstream_dist": 0.0,
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"x_resolution": 200,
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"z_resolution": 100})
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def _plane_visualization(self, plane_func, func_params: dict[str, float] = {}):
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wind_dirs = self.core.flow_field.wind_directions
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wind_speeds = self.core.flow_field.wind_speeds
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experiment_counts = len(wind_dirs)
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near_square = math.ceil(math.sqrt(experiment_counts))
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fig, ax_arr = plt.subplots(near_square, near_square, figsize=(15, 8))
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ax_arr = ax_arr.flatten()
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for experiment_count in range(experiment_counts):
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self.reset_operation()
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self.reset_operation()
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self.set(wind_speeds=[wind_speeds[experiment_count]], wind_directions=[wind_dirs[experiment_count]],
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horizontal_plane = self.calculate_horizontal_plane(height=90.0)
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turbulence_intensities=[0.05])
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ax = ax_arr[experiment_count]
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plane = plane_func(**func_params)
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visualize_cut_plane(
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visualize_cut_plane(
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horizontal_plane,
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plane,
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ax=ax,
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title=f"Wind flow day {experiment_count + 1}",
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)
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)
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# plot_turbine_labels(self, axarr[0, 0])
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filename = str(uuid.uuid4()) + ".png"
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filename = str(uuid.uuid4()) + ".png"
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plt.savefig(Path(__file__).parent.parent.parent / f"public/floris/{filename}")
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plt.savefig(Path(__file__).parent.parent.parent / f"public/floris/{filename}")
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plt.close()
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plt.close()
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self.set(wind_speeds=wind_speeds, wind_directions=wind_dirs, turbulence_intensities=[0.05] * len(wind_dirs))
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return filename
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return filename
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def _cross_visualization(self, plane_func, func_params: dict[str, float] = {}):
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wind_dirs = self.core.flow_field.wind_directions
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wind_speeds = self.core.flow_field.wind_speeds
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experiment_counts = len(wind_dirs)
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near_square = math.ceil(math.sqrt(experiment_counts))
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fig, ax_arr = plt.subplots(near_square, near_square, figsize=(15, 8))
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ax_arr = ax_arr.flatten()
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for experiment_count in range(experiment_counts):
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self.reset_operation()
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self.set(wind_speeds=[wind_speeds[experiment_count]], wind_directions=[wind_dirs[experiment_count]],
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turbulence_intensities=[0.05])
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ax = ax_arr[experiment_count]
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plane = plane_func(**func_params)
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visualize_cut_plane(
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plane,
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ax=ax,
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title=f"Wind flow day {experiment_count + 1}",
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)
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filename = str(uuid.uuid4()) + ".png"
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plt.savefig(Path(__file__).parent.parent.parent / f"public/floris/{filename}")
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plt.close()
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self.set(wind_speeds=wind_speeds, wind_directions=wind_dirs, turbulence_intensities=[0.05] * len(wind_dirs))
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return filename
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@ -17,7 +17,7 @@ class OpenMeteoClient:
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params = {
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params = {
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"latitude": latitude,
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"latitude": latitude,
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"longitude": longitude,
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"longitude": longitude,
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"hourly": ["wind_speed_10m", "wind_direction_10m"],
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"daily": ["wind_speed_10m_max", "wind_direction_10m_dominant"],
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"timezone": self.timezone,
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"timezone": self.timezone,
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"start_date": start_date,
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"start_date": start_date,
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"end_date": end_date
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"end_date": end_date
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@ -27,13 +27,13 @@ class OpenMeteoClient:
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def process_response(self, response):
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def process_response(self, response):
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# Process hourly data
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# Process hourly data
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hourly = response.Hourly()
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daily = response.Daily()
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hourly_wind_speed_10m = hourly.Variables(0).ValuesAsNumpy()
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daily_wind_speed_10m = daily.Variables(0).ValuesAsNumpy()
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hourly_wind_direction_10m = hourly.Variables(1).ValuesAsNumpy()
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daily_wind_direction_10m = daily.Variables(1).ValuesAsNumpy()
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return hourly_wind_speed_10m.tolist(), hourly_wind_direction_10m.tolist()
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return daily_wind_speed_10m.tolist(), daily_wind_direction_10m.tolist()
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def get_weather_info(self, latitude, longitude, start_date, end_date):
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def get_weather_info(self, start_date, end_date, latitude=54.35119762746125, longitude=48.389356992149345):
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responses = self.fetch_weather_data(latitude, longitude, start_date, end_date)
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responses = self.fetch_weather_data(latitude, longitude, start_date, end_date)
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response = responses[0]
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response = responses[0]
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self.process_response(response)
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self.process_response(response)
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@ -14,13 +14,15 @@ class SWeatherInfo(BaseModel):
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class SFlorisInputParams(BaseModel):
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class SFlorisInputParams(BaseModel):
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layout_x: list[float] = Field(Query([]))
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layout_x: list[float] = Field(Query([]))
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layout_y: list[float] = Field(Query([]))
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layout_y: list[float] = Field(Query([]))
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yaw_angle: list[float] = Field(Query([]))
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plots: set[str] = Field(Query(["horizontal_plane"]))
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date_start: date
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date_start: date
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date_end: date
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date_end: date
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class SFlorisOutputData(BaseModel):
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class SFlorisOutputData(BaseModel):
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file_name: str
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file_name: object
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data: list[float]
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data: object
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class WindTurbineTypeBase(BaseModel):
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class WindTurbineTypeBase(BaseModel):
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@ -8,12 +8,14 @@ from fastapi.responses import FileResponse
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from data.repository import WeatherRepository
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from data.repository import WeatherRepository
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from data.schemas import SFlorisInputParams, SFlorisOutputData, SWeatherInfo
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from data.schemas import SFlorisInputParams, SFlorisOutputData, SWeatherInfo
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import numpy as np
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sys.path.append(str(Path(__file__).parent.parent.parent))
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sys.path.append(str(Path(__file__).parent.parent.parent))
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from floris_module.src import FlorisULSTU
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from floris_module.src import FlorisULSTU
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from floris_module.src.OpenMeteoClient import OpenMeteoClient
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from floris_module.src.OpenMeteoClient import OpenMeteoClient
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FLORIS_IMAGES_PATH = Path(__file__).parent.parent.parent / "public" / "floris"
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FLORIS_IMAGES_PATH = Path(__file__).parent.parent.parent / "public" / "floris"
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router = APIRouter(
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router = APIRouter(
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@ -26,23 +28,20 @@ router = APIRouter(
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async def get_windmill_data(
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async def get_windmill_data(
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data: Annotated[SFlorisInputParams, Depends()]
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data: Annotated[SFlorisInputParams, Depends()]
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):
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):
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if len(data.layout_x) != len(data.layout_y):
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if len(data.layout_x) != len(data.layout_y) and len(data.layout_x) != len(data.yaw_angle):
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raise HTTPException(
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raise HTTPException(
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status_code=HTTPStatus.BAD_REQUEST,
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status_code=HTTPStatus.BAD_REQUEST,
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detail="Length of layout x and y must be the same",
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detail="Length of layout x and y and yaw_angle must be the same",
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)
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)
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fmodel = FlorisULSTU()
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fmodel = FlorisULSTU()
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client = OpenMeteoClient()
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client = OpenMeteoClient()
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wind_directions = list()
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climate_info = client.get_weather_info(data.date_start, data.date_end)
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wind_speeds = list()
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wind_speeds = climate_info[0]
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wind_directions = climate_info[1]
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for i in range(len(data.layout_x)):
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i_result = client.get_weather_info(data.layout_x[i], data.layout_y[i], data.date_start, data.date_end)
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wind_speeds.extend(i_result[0])
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wind_directions.extend(i_result[1])
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fmodel.set(
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fmodel.set(
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layout_x=data.layout_x,
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layout_x=data.layout_x,
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@ -52,14 +51,22 @@ async def get_windmill_data(
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turbulence_intensities=[0.1] * len(wind_directions)
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turbulence_intensities=[0.1] * len(wind_directions)
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)
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)
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yaw_angles = np.zeros((len(wind_directions), len(data.layout_x)))
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for i in range(len(data.layout_x)):
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yaw_angles[:, i] = data.yaw_angle[i]
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fmodel.set(
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yaw_angles=yaw_angles,
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)
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fmodel.run()
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fmodel.run()
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data = fmodel.get_turbine_powers()[0].tolist()
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res = fmodel.get_turbine_powers().tolist()
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file_name = fmodel.visualisation()
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file_names = fmodel.visualization(data.plots)
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return SFlorisOutputData(
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return SFlorisOutputData(
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file_name=file_name,
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file_name=file_names,
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data=data
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data=res
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)
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)
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Block a user