TJWaterServer/epanet/epanet.py

import ctypes
import platform
import os
import sys
import json
from typing import Any
sys.path.append("..") 
from api import project
from api import parser


def _verify_platform():
    _platform = platform.system()
    if _platform != "Windows":
        raise Exception(f'Platform {_platform} unsupported (not yet)')


class Output:
    def __init__(self, path: str) -> None:
        self._path = path

        self._lib = ctypes.CDLL(os.path.join(os.getcwd(), 'epanet', 'epanet-output.dll'))

        self._handle = ctypes.c_void_p()
        self._check(self._lib.ENR_init(ctypes.byref(self._handle)))

        self._check(self._lib.ENR_open(self._handle, ctypes.c_char_p(self._path.encode())))


    def __del__(self):
        # throw exception in destructor ? :)
        self._check(self._lib.ENR_close(ctypes.byref(self._handle)))


    def _check(self, result):
        if result != 0:
            msg = ctypes.c_char_p()
            code = self._lib.ENR_checkError(self._handle, ctypes.byref(msg))
            assert code == result

            error = f'Failed to read project [{self._path}] output, message [{msg.value.decode()}]'

            self._lib.ENR_free(ctypes.byref(msg))

            raise Exception(error)


    def version(self) -> int:
        v = ctypes.c_int()
        self._check(self._lib.ENR_getVersion(self._handle, ctypes.byref(v)))
        return v.value


    def net_size(self) -> dict[str, int]:
        element_count = ctypes.POINTER(ctypes.c_int)()
        length = ctypes.c_int()
        self._check(self._lib.ENR_getNetSize(self._handle, ctypes.byref(element_count), ctypes.byref(length)))
        assert length.value == 5
        category = ['node', 'tank', 'link', 'pump', 'valve']
        sizes = {}
        for i in range(length.value):
            sizes[category[i]] = element_count[i]
        self._lib.ENR_free(ctypes.byref(element_count))
        return sizes


    def units(self) -> dict[str, str]:
        f_us = ['CFS', 'GPM', 'MGD', 'IMGD', 'AFD', 'LPS', 'LPM', 'MLD', 'CMH', 'CMD']
        p_us = ['PSI', 'MTR', 'KPA']
        q_us = ['NONE', 'MGL', 'UGL', 'HOURS', 'PRCNT']
        f, p, q = ctypes.c_int(1), ctypes.c_int(2), ctypes.c_int(3)
        f_u, p_u, q_u = ctypes.c_int(), ctypes.c_int(), ctypes.c_int()
        self._check(self._lib.ENR_getUnits(self._handle, f, ctypes.byref(f_u)))
        self._check(self._lib.ENR_getUnits(self._handle, p, ctypes.byref(p_u)))
        self._check(self._lib.ENR_getUnits(self._handle, q, ctypes.byref(q_u)))
        return { 'flow': f_us[f_u.value], 'pressure': p_us[p_u.value], 'quality': q_us[q_u.value] }


    def times(self) -> dict[str, int]:
        ts = []
        for i in range(1, 5):
            t = ctypes.c_int(1)
            self._check(self._lib.ENR_getTimes(self._handle, ctypes.c_int(i), ctypes.byref(t)))
            ts.append(t.value)
        d = {}
        category = ['report_start', 'report_step', 'sim_duration', 'num_periods']
        for i in range(4):
            d[category[i]] = ts[i]
        return d


    def element_name(self) -> dict[str, list[str]]:
        sizes = self.net_size()

        node_type = ctypes.c_int(1)
        nodes = []
        for i in range(1, sizes['node'] + 1):
            name = ctypes.c_char_p()
            name_len = ctypes.c_int()
            self._check(self._lib.ENR_getElementName(self._handle, node_type, ctypes.c_int(i), ctypes.byref(name), ctypes.byref(name_len)))
            nodes.append(name.value.decode())
            self._lib.ENR_free(ctypes.byref(name))
        
        link_type = ctypes.c_int(2)
        links = []
        for i in range(1, sizes['link'] + 1):
            name = ctypes.c_char_p()
            name_len = ctypes.c_int()
            self._check(self._lib.ENR_getElementName(self._handle, link_type, ctypes.c_int(i), ctypes.byref(name), ctypes.byref(name_len)))
            links.append(name.value.decode())
            self._lib.ENR_free(ctypes.byref(name))

        return { 'nodes' : nodes, 'links': links }


    def energy_usage(self) -> list[dict[str, Any]]:
        size = self.net_size()['pump']
        usages = []
        category = ['utilization', 'avg.efficiency', 'avg.kW/flow', 'avg.kwatts', 'max.kwatts', 'cost/day' ]
        links = self.element_name()['links']
        for i in range(1, size + 1):
            index = ctypes.c_int()
            values = ctypes.POINTER(ctypes.c_float)()
            length = ctypes.c_int()
            self._check(self._lib.ENR_getEnergyUsage(self._handle, ctypes.c_int(i), ctypes.byref(index), ctypes.byref(values), ctypes.byref(length)))
            assert length.value == 6
            d = { 'pump' : links[index.value - 1] }
            for j in range(length.value):
                d |= { category[j] : values[j] }
            usages.append(d)
        return usages


    def reactions(self) -> dict[str, float]:
        values = ctypes.POINTER(ctypes.c_float)()
        length = ctypes.c_int()
        self._check(self._lib.ENR_getNetReacts(self._handle, ctypes.byref(values), ctypes.byref(length)))
        assert length.value == 4
        category = ['bulk', 'wall', 'tank', 'source']
        d = {}
        for i in range(4):
            d[category[i]] = values[i]
        return d


    def node_results(self) -> list[dict[str, Any]]:
        size = self.net_size()['node']
        num_periods = self.times()['num_periods']
        nodes = self.element_name()['nodes']
        category = ['demand', 'head', 'pressure', 'quality']
        ds = []
        for i in range(1, size + 1):
            d = { 'node' : nodes[i - 1], 'result' : [] }
            for j in range(num_periods):
                values = ctypes.POINTER(ctypes.c_float)()
                length = ctypes.c_int()
                self._check(self._lib.ENR_getNodeResult(self._handle, j, i, ctypes.byref(values), ctypes.byref(length)))
                assert length.value == len(category)
                attributes = {}
                for k in range(length.value):
                    attributes[category[k]] = values[k]
                d['result'].append(attributes)
            ds.append(d)
        return ds


    def link_results(self) -> list[dict[str, Any]]:
        size = self.net_size()['link']
        num_periods = self.times()['num_periods']
        links = self.element_name()['links']
        category = ['flow', 'velocity', 'headloss', 'quality', 'status', 'setting', 'reaction', 'friction']
        ds = []

        for i in range(1, size + 1):
            d = { 'link' : links[i - 1], 'result' : [] }
            for j in range(num_periods):
                values = ctypes.POINTER(ctypes.c_float)()
                length = ctypes.c_int()
                self._check(self._lib.ENR_getLinkResult(self._handle, j, i, ctypes.byref(values), ctypes.byref(length)))
                assert length.value == len(category)
                attributes = {}
                for k in range(length.value):
                    if category[k] == 'status':
                        if values[k] == 2.0:
                            attributes[category[k]] = 'CLOSED'
                        else:
                            attributes[category[k]] = 'OPEN'
                        continue
                    attributes[category[k]] = values[k]
                d['result'].append(attributes)
            ds.append(d)
        return ds


    def dump(self, cache: bool = True) -> str:
        data = {}
        data |= { 'version' : self.version() }
        data |= { 'net_size' : self.net_size() }
        data |= { 'units' : self.units() }
        data |= { 'times' : self.times() }
        data |= { 'element_name' : self.element_name() }
        data |= { 'energy_usage' : self.energy_usage() }
        data |= { 'reactions' : self.reactions() }
        data |= { 'node_results' : self.node_results() }
        data |= { 'link_results' : self.link_results() }
        if cache:
            with open(self._path + '.json', 'w') as f:
                json.dump(data, f)
        return json.dumps(data)


def dump_output(path: str) -> str:
    opt = Output(path)
    return opt.dump()


def run_project(name: str) -> str:
    if not project.have_project(name):
        raise Exception(f'Not found project [{name}]')

    dir = os.path.abspath(os.getcwd())

    db_inp = os.path.join(os.path.join(dir, 'db_inp'), name + '.db.inp')
    parser.dump_inp(name, db_inp)

    input = name + '.db'
    exe = os.path.join(os.path.join(dir, 'epanet'), 'runepanet.exe')
    inp = os.path.join(os.path.join(dir, 'db_inp'), input + '.inp')
    rpt = os.path.join(os.path.join(dir, 'temp'), input + '.rpt')
    opt = os.path.join(os.path.join(dir, 'temp'), input + '.opt')
    command = f'{exe} {inp} {rpt} {opt}'

    result = os.system(command)
    if result != 0:
        msg = f'Failed to run simulation for project [{name}]'
        raise Exception(msg)

    return dump_output(opt)


def run_inp(name: str) -> str:
    dir = os.path.abspath(os.getcwd())

    exe = os.path.join(os.path.join(dir, 'epanet'), 'runepanet.exe')
    inp = os.path.join(os.path.join(dir, 'inp'), name + '.inp')
    rpt = os.path.join(os.path.join(dir, 'temp'), name + '.rpt')
    opt = os.path.join(os.path.join(dir, 'temp'), name + '.opt')
    command = f'{exe} {inp} {rpt} {opt}'

    result = os.system(command)
    if result != 0:
        msg = f'Failed to run simulation for project [{name}]'
        raise Exception(msg)

    return dump_output(opt)


if __name__ == '__main__':
    _verify_platform()