Add function to extract site orientations

This function takes the profiles.mat file and uses the spiral log transformation tool to calculate the orientation of each beach profile cross section. Orientations are needed to relate dune toes and crests (from shape files) to each of the profiles.

Note there are some beaches which don't have the correct parameters in the log-spiral tool folder, so these should be followed up with Mitch.
master
Chris Leaman 6 years ago
parent 7ece9e613c
commit 1d8a5f158d

@ -0,0 +1,73 @@
% Calculate orientation the beach profile at each unique site and save to .mat file
% Needs the following coastal tools:
% J:\Coastal\Tools\MALT Logspiral Transformation
% J:\Coastal\Tools\Coordinate Transformations
clear
clc
% Load profile data, this is where we want to calculate orientations.
warning('off','all')
data = load('C:\Users\z5189959\Desktop\nsw_2016_storm_impact\data\raw\processed_shorelines\profiles.mat');
data = data.data;
output = [];
for ii = 1:n
disp(num2str(ii))
lat = data(ii).lat;
lon = data(ii).lon;
beach = data(ii).site{1};
[x,y,utmzone] = deg2utm(lat,lon);
if strcmp(beach, 'BOOM') == 1 || strcmp(beach, 'HARGn') == 1 || strcmp(beach, 'BILG') == 1 || strcmp(beach, 'HARGs') == 1 || strcmp(beach, 'DEEWHYn') == 1
% log spiral transformation file is out of date. Talk to Mitch
continue
end
if strcmp(beach, 'AVOCAs') == 1
% negative solution. Talk to Mitch
continue
end
% Get the sp log spiral transformed coordinates
xyz.x = x;
xyz.y = y;
xyz.z = 0;
out = xyz2spz(xyz,beach);
% Define new bounds towards land and towards sea
% Distance is the number of m in the section to go towards
distance = 200;
s = out.s;
p_center = out.p;
% Convert landwards and seawrds point back to lat/lon
spz_land.s = out.s;
spz_land.p = out.p-distance;
spz_land.z = 0;
xyz_land = spz2xyz(spz_land,beach);
[lat_land,lon_land] = utm2deg(xyz_land.x,xyz_land.y,utmzone);
spz_sea.s = out.s;
spz_sea.p = out.p+distance;
spz_sea.z = 0;
xyz_sea = spz2xyz(spz_sea,beach);
[lat_sea,lon_sea] = utm2deg(xyz_sea.x,xyz_sea.y,utmzone);
% Orientation in degrees anticlockwise from east, pointing towards land
orientation = radtodeg(atan2((xyz_land.y - xyz_sea.y), (xyz_land.x - xyz_sea.x)));
row.lat_center = lat;
row.lon_center = lon;
row.lat_land = lat_land;
row.lon_land = lat_land;
row.lat_sea = lat_sea;
row.lon_sea = lon_sea;
row.orientation = orientation;
row.beach = beach;
output = [output; row];
end
warning('on','all')
save('orientations.mat','output','-v7')

@ -12,6 +12,50 @@ logging.config.fileConfig('../logging.conf', disable_existing_loggers=False)
logger = logging.getLogger(__name__)
def parse_orientations(orientations_mat):
"""
Parses the raw orientations.mat file and returns a pandas dataframe. Note that orientations are the direction
towards land measured in degrees anti-clockwise from east.
:param orientations_mat:
:return:
"""
logger.info('Parsing %s', orientations_mat)
mat_data = loadmat(orientations_mat)['output']
rows = []
for i in range(0, len(mat_data['beach'])):
rows.append({
'beach': mat_data['beach'][i],
'orientation': mat_data['orientation'][i],
'lat_center': mat_data['lat_center'][i],
'lon_center': mat_data['lon_center'][i],
'lat_land': mat_data['lat_land'][i],
'lon_land': mat_data['lon_land'][i],
'lat_sea': mat_data['lat_sea'][i],
'lon_sea': mat_data['lon_sea'][i],
})
df = pd.DataFrame(rows)
return df
def combine_sites_and_orientaions(df_sites, df_orientations):
"""
Replaces beach/lat/lon columns with the unique site_id
:param dfs:
:param df_sites:
:return:
"""
df_merged_sites = df_sites.merge(df_orientations[['beach', 'lat_center', 'lon_center', 'orientation']],
left_on=['beach', 'lat', 'lon'],
right_on=['beach', 'lat_center', 'lon_center'])
# Check that all our records have a unique site identifier
n_unmatched = len(df_sites) - len(df_merged_sites)
if n_unmatched > 0:
logger.warning('Not all records (%d of %d) matched with an orientation', n_unmatched, len(df_sites))
return df_merged_sites
def parse_waves(waves_mat):
"""
Parses the raw waves.mat file and returns a pandas dataframe
@ -156,12 +200,16 @@ def main():
df_tides = parse_tides(tides_mat='../../data/raw/tides.mat')
df_profiles = parse_profiles(profiles_mat='../../data/raw/profiles.mat')
df_sites = get_unique_sites(dfs=[df_waves, df_tides, df_profiles])
df_orientations = parse_orientations(orientations_mat='./data/raw/processed_shorelines/orientations.mat')
logger.info('Identifying unique sites')
df_waves = replace_unique_sites(df_waves, df_sites)
df_tides = replace_unique_sites(df_tides, df_sites)
df_profiles = replace_unique_sites(df_profiles, df_sites)
logger.info('Combine orientations into sites')
df_sites = combine_sites_and_orientaions(df_sites, df_orientations)
logger.info('Setting pandas index')
df_profiles.set_index(['site_id', 'profile_type', 'x'], inplace=True)
df_waves.set_index(['site_id', 'datetime'], inplace=True)

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