def main():
database = 'test.db'
# create database connection
conn = create_connection(database)
# Create desktop results view
view_desktop_results_sql = 'sql/view_desktop_results.sql'
create_view(conn, view_desktop_results_sql)
# Create transect review view
view_transect_sql = 'sql/view_transect_data.sql'
create_view(conn, view_transect_sql)
# Create site scale values view
view_map_unit_sql = 'sql/view_site_scale_values.sql'
create_view(conn, view_map_unit_sql)
# Create reserve account view
view_reserve_account_sql = 'sql/view_reserve_account.sql'
create_view(conn, view_reserve_account_sql)
# Create baseline view
view_baseline_sql = 'sql/view_baseline.sql'
create_view(conn, view_baseline_sql)
conn.close()
def main():
database = 'test.db'
# create a database connection
conn = create_connection(database)
# create tables
if conn is not None:
# Create list of table files
tables = [
table for table in os.listdir('sql')
if table.startswith('create_table')
]
# Create each table from list
for table in tables:
print(f'Running {table}')
with open(os.path.join('sql', table), 'r') as sql_file:
sql = sql_file.read()
create_table(conn, sql)
conn.close()
else:
print("Error! failed to create database connection.")
def main():
database = 'test.db'
policy_tables_folder = 'data/policy-tables/'
# create database connection
conn = create_connection(database)
# read in tables
start = time.time()
print('reading policy tables at ' + policy_tables_folder)
for table in os.listdir(policy_tables_folder):
# read in table
table_path = os.path.join(policy_tables_folder, table)
df = pd.read_csv(table_path)
# read in sql file
sql_file_name = 'insert_' + table[:-4].replace('-', '_') + '.sql'
sql_file_path = os.path.join('sql/', sql_file_name)
# insert data into database
with conn:
print('inserting ' + table[:-4].replace('-', '_'))
for _, row in df.iterrows():
data = tuple(row)
insert_data(conn, sql_file_path, data)
conn.close()
print(f'{round((time.time() - start), 2)} seconds elapsed')
def create_views(database_path):
database = database_path
# create database connection
conn = create_connection(database)
# Create desktop results view
AddMessage('creating desktop results view')
view_desktop_results_sql = os.path.join(sql_dir, 'view_desktop_results.sql')
create_view(conn, view_desktop_results_sql)
# Create transect review view
AddMessage('creating transects review')
view_transect_sql = os.path.join(sql_dir, 'view_transect_data.sql')
create_view(conn, view_transect_sql)
# Create site scale values view
view_map_unit_sql = os.path.join(sql_dir, 'view_site_scale_values.sql')
create_view(conn, view_map_unit_sql)
# Create reserve account view
view_reserve_account_sql = os.path.join(sql_dir, 'view_reserve_account.sql')
create_view(conn, view_reserve_account_sql)
# Create baseline view
view_baseline_sql = os.path.join(sql_dir, 'view_baseline.sql')
create_view(conn, view_baseline_sql)
conn.close()
def import_policy_tables(database_path, policy_tables_path):
database = database_path
policy_tables_folder = policy_tables_path
# create database connection
conn = create_connection(database)
# read in tables
start = time.time()
AddMessage('reading policy tables at ' + policy_tables_folder)
for table in os.listdir(policy_tables_folder):
# read in table
table_path = os.path.join(policy_tables_folder, table)
df = pd.read_csv(table_path)
# read in sql file
sql_file_name = 'insert_' + table[:-4].replace('-', '_') + '.sql'
sql_file_path = os.path.join(sql_dir, sql_file_name)
# insert data into database
with conn:
AddMessage('inserting ' + table[:-4].replace('-', '_'))
for _, row in df.iterrows():
data = tuple(row)
insert_data(conn, sql_file_path, data)
conn.close()
AddMessage('{} seconds elapsed'.format(round((time.time() - start), 2)))
def create_database(database_path):
# create a database connection
conn = create_connection(database_path)
# create tables
if conn is not None:
# Create list of table files
tables = [table for table in os.listdir(sql_dir)
if table.startswith('create_table')]
# Create each table from list
for table in tables:
AddMessage('Running {}'.format(table))
with open (os.path.join(sql_dir, table), 'r') as sql_file:
sql = sql_file.read()
create_table(conn, sql)
conn.close()
else:
AddMessage ("Error! failed to create database connection.")
def main():
database = 'test.db'
# create database connection
conn = create_connection(database)
# instantiate credit calculator object
credit_calc_file = 'data/external/Credit_Project_Calculator_v1_6_Beta_FIXED_Crawford.xlsm'
project_calc = CreditCalculator(credit_calc_file)
# read in tables
start = time.time()
print('reading calculator at ' + credit_calc_file)
map_units_df = project_calc.map_units_df
current_ls_df = project_calc.current_ls_df
projected_ls_df = project_calc.projected_ls_df
transects_data_df = project_calc.transects_data_df
mgmt_cats_df = project_calc.mgmt_cats_df
wmz_df = project_calc.wmz_df
pmu_df = project_calc.pmu_df
precip_df = project_calc.precip_df
desktop_results_df = project_calc.desktop_results_df
# field_sheets_df = project_calc.field_sheets_df
field_info_df = project_calc.field_info_df
shrubs_df = project_calc.shrubs_df
# plot_df called for each plot when reading in data
forb_grass_df = project_calc.forb_grass_df
transects_review_df = project_calc.transects_review_df
site_scale_values_df = project_calc.site_scale_values_df
site_scale_scores_df = project_calc.site_scale_scores_df
projected_values_df = project_calc.projected_values_df
projected_scores_df = project_calc.projected_scores_df
baseline_rr_inputs_df = project_calc.baseline_rr_inputs_df
baseline_rr_df = project_calc.baseline_rr_df
baseline_credits_df = project_calc.baseline_credits_df
current_credits_df = project_calc.current_credits_df
projected_credits_df = project_calc.projected_credits_df
print(f'{round((time.time() - start)/60, 2)} minutes elapsed')
# read in sql files
print('reading sql files')
map_units_sql = 'sql/insert_map_units.sql'
current_ls_sql = 'sql/insert_current_ls.sql'
projected_ls_sql = 'sql/insert_projected_ls.sql'
transect_data_sql = 'sql/insert_transect_data.sql'
mgmt_cats_sql = 'sql/insert_project_mgmt_cats.sql'
project_wmz_sql = 'sql/insert_project_wmz.sql'
project_pmu_sql = 'sql/insert_project_pmu.sql'
project_precip_sql = 'sql/insert_project_precip.sql'
desktop_results_sql = 'sql/insert_desktop_results.sql'
# field_sheets_sql = 'sql/insert_field_sheets.sql'
field_info_sql = 'sql/insert_field_info.sql'
shrubs_sql = 'sql/insert_shrub_data.sql'
plots_sql = 'sql/insert_plot_data.sql'
forb_grass_sql = 'sql/insert_forb_grass_data.sql'
transects_review_sql = 'sql/insert_transect_review.sql'
site_scale_values_sql = 'sql/insert_site_scale_values.sql'
site_scale_scores_sql = 'sql/insert_site_scale_scores.sql'
projected_values_sql = 'sql/insert_projected_values.sql'
projected_scores_sql = 'sql/insert_projected_scores.sql'
baseline_rr_inputs_sql = 'sql/insert_baseline_rr_inputs.sql'
baseline_rr_sql = 'sql/insert_baseline_rr.sql'
baseline_credits_sql = 'sql/insert_baseline_credits.sql'
current_credits_sql = 'sql/insert_current_credits.sql'
projected_credits_sql = 'sql/insert_projected_credits.sql'
# plot cols (for reading in plot data)
plot_cols = {
1: 'C:D, E:G',
2: 'C:D, H:J',
3: 'C:D, K:M',
4: 'C:D, N:P',
5: 'C:D, Q:S'
}
# insert data into database
with conn:
print('inserting map units')
for _, map_unit in map_units_df.iterrows():
data = tuple(map_unit)
insert_data(conn, map_units_sql, data)
print('inserting current local-scale')
for _, current_ls in current_ls_df.iterrows():
data = tuple(current_ls)
insert_data(conn, current_ls_sql, data)
print('inserting projected local-scale')
for _, projected_ls in projected_ls_df.iterrows():
data = tuple(projected_ls)
insert_data(conn, projected_ls_sql, data)
print('inserting transect data')
for _, transect in transects_data_df.iterrows():
data = tuple(transect)
insert_data(conn, transect_data_sql, data)
print('inserting mgmt cats')
for _, mgmt_cat in mgmt_cats_df.iterrows():
data = tuple(mgmt_cat)
insert_data(conn, mgmt_cats_sql, data)
print('inserting wmz')
for _, wmz in wmz_df.iterrows():
data = tuple(wmz)
insert_data(conn, project_wmz_sql, data)
print('inserting pmu')
for _, pmu in pmu_df.iterrows():
data = tuple(pmu)
insert_data(conn, project_pmu_sql, data)
print('inserting precip')
for _, precip in precip_df.iterrows():
data = tuple(precip)
insert_data(conn, project_precip_sql, data)
print('inserting desktop results')
for _, desktop_result in desktop_results_df.iterrows():
data = tuple(desktop_result)
insert_data(conn, desktop_results_sql, data)
# for _, field_sheet in field_sheets_df.iterrows():
# data = tuple(field_sheet)
# insert_data(conn, field_sheets_sql, data)
print('inserting field info')
for _, field_info in field_info_df.iterrows():
data = tuple(field_info)
insert_data(conn, field_info_sql, data)
print('inserting shrubs')
for _, shrub in shrubs_df.iterrows():
data = tuple(shrub)
insert_data(conn, shrubs_sql, data)
print('inserting plots')
for plot_no in plot_cols:
plot_df = project_calc.plot_df(plot_cols.get(plot_no))
for _, plot in plot_df.iterrows():
data = (plot_no, ) + tuple(plot)
insert_data(conn, plots_sql, data)
print('inserting forbs and grasses')
for _, forb_grass in forb_grass_df.iterrows():
data = tuple(forb_grass)
insert_data(conn, forb_grass_sql, data)
print('inserting transect review')
for _, transect_data in transects_review_df.iterrows():
data = tuple(transect_data)
insert_data(conn, transects_review_sql, data)
print('inserting site scale values')
for _, site_scale_value in site_scale_values_df.iterrows():
data = tuple(site_scale_value)
insert_data(conn, site_scale_values_sql, data)
print('inserting site scale scores')
for _, site_scale_score in site_scale_scores_df.iterrows():
data = tuple(site_scale_score)
insert_data(conn, site_scale_scores_sql, data)
print('inserting projected values')
for _, projected_value in projected_values_df.iterrows():
data = tuple(projected_value)
insert_data(conn, projected_values_sql, data)
print('inserting projected scores')
for _, projected_score in projected_scores_df.iterrows():
data = tuple(projected_score)
insert_data(conn, projected_scores_sql, data)
print('inserting baseline and rr inputs')
for _, baseline_rr_input in baseline_rr_inputs_df.iterrows():
data = tuple(baseline_rr_input)
insert_data(conn, baseline_rr_inputs_sql, data)
print('inserting baseline and rr scores')
for _, baseline_rr in baseline_rr_df.iterrows():
data = tuple(baseline_rr)
insert_data(conn, baseline_rr_sql, data)
print('inserting baseline credits')
for _, baseline_credit in baseline_credits_df.iterrows():
data = tuple(baseline_credit)
insert_data(conn, baseline_credits_sql, data)
print('inserting current credits')
for _, current_credit in current_credits_df.iterrows():
data = tuple(current_credit)
insert_data(conn, current_credits_sql, data)
print('inserting projected credits')
for _, projected_credit in projected_credits_df.iterrows():
data = tuple(projected_credit)
insert_data(conn, projected_credits_sql, data)
print(f'{round((time.time() - start)/60, 2)} minutes elapsed')
# USING FOREIGN KEYS
# with conn:
# # Locate sql instruction files
# m_sql_file = 'sql/insert_desktop_result.sql'
# t_sql_file = 'sql/insert_transect.sql'
# f_sql_file = 'sql/insert_field_info.sql'
# # Insert map unit
# print('Inserting map units')
# for _, m_data in desktop_results_df.iterrows():
# map_unit = list(m_data)
# map_unit_id = map_unit[0]
# map_unit_key = insert_data(conn, m_sql_file, map_unit)
# # Insert associated transects
# print(f'Inserting transects for map unit {map_unit_id}')
# transects = transects_data_df[transects_data_df[1] == map_unit_id]
# for _, t_data in transects.iterrows():
# transect = list(t_data)
# transect_id = transect[2]
# # Update the transect with the map_unit_key
# transect += (map_unit_key,)
# transect_key = insert_data(conn, t_sql_file, transect)
# # Insert associated field info (requires one:one relationship)
# field_info = field_info_df[field_info_df[3] == transect_id].to_numpy().tolist()[0]
# # Update the field info with transect_key
# field_info += (transect_key,)
# insert_data(conn, f_sql_file, field_info)
conn.close()
def __init__(self, db):
self.db = db
self.conn = create_connection(self.db)
# User-defined inputs
projected_values_input = None
output_suffix = ''
if projected_values_input:
projected_values = pd.read_csv(projected_values_input)
# Constants
BREEDING_TRIGGER = 0.3
# Database tables
database = 'test.db'
conn = create_connection(database)
desktop_results = pd.read_sql_query("""SELECT * FROM view_desktop_results""",
conn)
site_scale_values = pd.read_sql_query(
"""SELECT * FROM view_site_scale_values""", conn)
scoring_curves = pd.read_sql_query("""SELECT * FROM scoring_curves_v100""",
conn,
index_col='attr_value')
scoring_weights = pd.read_sql_query("""SELECT * FROM scoring_weights""",
conn,
index_col=['season', 'attribute'])
