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  • Mathias Chouet's avatar
    refactor nubs · 7b6e5403
    Mathias Chouet authored 
    merged cParamsCanal and ParamsSection
Structures are now only defined by their LoiDebit (no more StructureType)
Session : fixed serialization of lately registered Nubs
Sections are now defined by a CalculatorType and a NodeType
fixed bug in findFirstSingleParameter
added tests for session serialisation
    7b6e5403
serialisation.spec.ts 6.71 KiB
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import { ParamValueMode, SectionParametree, Session } from "../../src";
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import { ConduiteDistrib, ConduiteDistribParams } from "../../src/cond_distri";
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import { CourbeRemous, CourbeRemousParams, MethodeResolution } from "../../src/remous";
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import { cSnCirc, ParamsSectionCirc } from "../../src/section/section_circulaire";
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import { cSnTrapez, ParamsSectionTrapez } from "../../src/section/section_trapez";
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import { Cloisons } from "../../src/structure/cloisons";
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import { CloisonsParams } from "../../src/structure/cloisons_params";
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import { Dever, DeverParams } from "../../src/structure/dever";
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import { CreateStructure } from "../../src/structure/factory_structure";
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import { LoiDebit } from "../../src/structure/structure_props";
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import {
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    RectangularStructureParams,
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    StructureWeirSubmergedLarinier
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} from "../../src/structure/structure_weir_submerged_larinier";
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/**
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 * IMPORTANT !
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 * Décommenter temporairement la ligne suivante (import { } from "./mock_jasmine")
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 * Pour exécuter ce code dans le débugger.
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 * Faire de même avec le fichier test_func.ts
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 */
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// import { describe, expect, it, xdescribe, xit } from "../mock_jasmine";
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function createEnv() {
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    // create complex session
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    const dever: Dever = new Dever(
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        new DeverParams(
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            0,     // rQ Débit total (m3/s)
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            102,   // rZ1 Cote de l'eau amont (m)
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            2,     // rBR Largeur du cours d'eau amont (m)
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            100    // rZR Cote du lit du cours d'eau amont (m)
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        ),
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        false // debug
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    );
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    dever.addChild(CreateStructure(LoiDebit.TriangularTruncWeirFree, dever, false));
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    const cloisons: Cloisons = new Cloisons(
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        new CloisonsParams(
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            0,      // Débit total (m3/s)
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            102,    // Cote de l'eau amont (m)
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            10,     // Longueur des bassins (m)
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            1,      // Largeur des bassins (m)
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            1,      // Profondeur moyenne (m)
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            0.5     // Hauteur de chute (m)
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        ),
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        false       // debug
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    );
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    const fente: StructureWeirSubmergedLarinier = new StructureWeirSubmergedLarinier(
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        new RectangularStructureParams(
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            0,
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            101,
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            102,
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            101.5,
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            0.2,
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            0.65
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        )
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    );
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    cloisons.addChild(fente);
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    const prmsCD = new ConduiteDistribParams(undefined, // débit Q
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        1.2, // diamètre D
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        0.6, // perte de charge J
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        100, // Longueur de la conduite Lg
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        1e-6, // Viscosité dynamique Nu
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    );
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    const conduite = new ConduiteDistrib(prmsCD);
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    const prmsST = new ParamsSectionTrapez(2.5, // largeur de fond
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        0.56, // fruit
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        undefined, // tirant d'eau
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40, // Ks=Strickler 2, // Q=Débit 0.001, // If=pente du fond 1, // YB= hauteur de berge ); const sect = new cSnTrapez(prmsST); const prem = new CourbeRemousParams(0.15, // Yamont = tirant amont 0.803, // Yaval = tirant aval 5, // Long= Longueur du bief 5, // Dx=Pas d'espace ); const rem = new CourbeRemous(sect, prem, MethodeResolution.Trapezes); const paramSection = new ParamsSectionCirc(2, // diamètre 0.8, // tirant d'eau 40, // Ks=Strickler 10, // Q=Débit 0.001, // If=pente du fond 1, // YB= hauteur de berge ); const section = new cSnCirc(paramSection); const sp = new SectionParametree(section); Session.getInstance().clear(); Session.getInstance().registerNub(dever); Session.getInstance().registerNub(cloisons); Session.getInstance().registerNub(conduite); Session.getInstance().registerNub(rem); Session.getInstance().registerNub(sp); } describe("serialising / deserialising session - ", () => { it ("serialized file should contain 5 Nubs", () => { createEnv(); const session = Session.getInstance().serialise(); const js = JSON.parse(session); expect(Object.keys(js)).toContain("session"); expect(js.session.length).toBe(5); }); it ("reloading serialized file should give 5 Nubs", () => { createEnv(); const session = Session.getInstance().serialise(); Session.getInstance().clear(); expect(Session.getInstance().getNumberOfNubs()).toBe(0); Session.getInstance().unserialise(session); expect(Session.getInstance().getNumberOfNubs()).toBe(5); }); it("when saving a SectionParametree, the edited values should be present in the file", () => { // d const paramSection = new ParamsSectionCirc( 2, // diamètre 0.8, // tirant d'eau 40, // Ks=Strickler 10, // Q=Débit 0.001, // If=pente du fond 1, // YB= hauteur de berge ); const section = new cSnCirc(paramSection); const sp = new SectionParametree(section); sp.section.prms.Ks.v = 42; const serialised = sp.serialise(); expect(serialised).toContain('{"symbol":"Ks","mode":"SINGLE","value":42}'); });
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it ("loaded serialized RegimeUniforme should be calculable", () => { const fs = require("fs"); Session.getInstance().clear(); const session = fs.readFileSync(__dirname + "/../../../spec/session/session-RU.json", { encoding: "utf8" }); Session.getInstance().unserialise(session); expect(Session.getInstance().getNumberOfNubs()).toBe(1); const RU = Session.getInstance().findNubByUid("YTEwZG"); expect(RU).toBeDefined(); const calculatedParam = RU.calculatedParam; expect(calculatedParam.symbol).toBe("Q"); let nbCalc = 0; for (const p of RU.parameterIterator) { if (p.valueMode === ParamValueMode.CALCUL) { nbCalc++; } } expect(nbCalc).toBe(1); RU.CalcSerie(); expect(RU.result).toBeDefined(); }); it ("loaded serialized Ouvrages should be calculable", () => { const fs = require("fs"); Session.getInstance().clear(); const session = fs.readFileSync(__dirname + "/../../../spec/session/session-OUV.json", { encoding: "utf8" }); Session.getInstance().unserialise(session); expect(Session.getInstance().getNumberOfNubs()).toBe(1); const OUV = Session.getInstance().findNubByUid("NGVzdz"); expect(OUV).toBeDefined(); const calculatedParam = OUV.calculatedParam; expect(calculatedParam.symbol).toBe("L"); let nbCalc = 0; for (const p of OUV.parameterIterator) { if (p.valueMode === ParamValueMode.CALCUL) { nbCalc++; } } expect(nbCalc).toBe(1); OUV.CalcSerie(); expect(OUV.result).toBeDefined(); expect(OUV.result.vCalc).toBeCloseTo(1.031); }); });