'use strict'; const unit = require('heya-unit'); const Chain = require('../index'); const {streamToArray, delay} = require('./helpers'); const {fromIterable} = require('../utils/FromIterable'); const gen = require('../utils/gen'); const asGen = require('../utils/asGen'); const {none, finalValue, many} = Chain; unit.add(module, [ function test_gen(t) { const async = t.startAsync('test_gen'); const output = [], chain = new Chain([fromIterable([1, 2, 3]), gen(x => x * x, x => 2 * x + 1), streamToArray(output)]); chain.on('end', () => { eval(t.TEST('t.unify(output, [3, 9, 19])')); async.done(); }); }, function test_genFinal(t) { const async = t.startAsync('test_genFinal'); const output = [], chain = new Chain([ fromIterable([1, 2, 3]), gen(x => x * x, x => finalValue(x), x => 2 * x + 1), streamToArray(output) ]); chain.on('end', () => { eval(t.TEST('t.unify(output, [1, 4, 9])')); async.done(); }); }, function test_compNothing(t) { const async = t.startAsync('test_compNothing'); const output = [], chain = new Chain([fromIterable([1, 2, 3]), gen(x => x * x, () => none, x => 2 * x + 1), streamToArray(output)]); chain.on('end', () => { eval(t.TEST('t.unify(output, [])')); async.done(); }); }, function test_genEmpty(t) { const async = t.startAsync('test_genEmpty'); const output = [], chain = new Chain([fromIterable([1, 2, 3]), x => x * x, gen(), streamToArray(output)]); chain.on('end', () => { eval(t.TEST('t.unify(output, [1, 4, 9])')); async.done(); }); }, function test_genAsync(t) { const async = t.startAsync('test_genAsync'); const output = [], chain = new Chain([fromIterable([1, 2, 3]), gen(delay(x => x * x), x => 2 * x + 1), streamToArray(output)]); chain.on('end', () => { eval(t.TEST('t.unify(output, [3, 9, 19])')); async.done(); }); }, function test_genGenerator(t) { const async = t.startAsync('test_genGenerator'); const output = [], chain = new Chain([ fromIterable([1, 2, 3]), gen( x => x * x, function*(x) { yield x; yield x + 1; yield x + 2; }, x => 2 * x + 1 ), streamToArray(output) ]); chain.on('end', () => { eval(t.TEST('t.unify(output, [3, 5, 7, 9, 11, 13, 19, 21, 23])')); async.done(); }); }, function test_genMany(t) { const async = t.startAsync('test_genMany'); const output = [], chain = new Chain([ fromIterable([1, 2, 3]), gen(x => x * x, x => many([x, x + 1, x + 2]), x => 2 * x + 1), streamToArray(output) ]); chain.on('end', () => { eval(t.TEST('t.unify(output, [3, 5, 7, 9, 11, 13, 19, 21, 23])')); async.done(); }); }, function test_genCombined(t) { const async = t.startAsync('test_genCombined'); const output = [], chain = new Chain([ fromIterable([1, 2]), gen( delay(x => -x), x => many([x, x * 10]), function*(x) { yield x; yield x - 1; }, x => -x ), streamToArray(output) ]); chain.on('end', () => { eval(t.TEST('t.unify(output, [1, 2, 10, 11, 2, 3, 20, 21])')); async.done(); }); }, function test_genCombinedFinal(t) { const async = t.startAsync('test_genCombinedFinal'); const output = [], chain = new Chain([ fromIterable([1, 2]), gen( delay(x => -x), x => many([x, x * 10]), function*(x) { yield x; yield finalValue(x - 1); }, x => -x ), streamToArray(output) ]); chain.on('end', () => { eval(t.TEST('t.unify(output, [1, -2, 10, -11, 2, -3, 20, -21])')); async.done(); }); }, function test_genAsGen(t) { const async = t.startAsync('test_genAsGen'); const output = [], chain = new Chain([ fromIterable([1, 2]), asGen( delay(x => -x), x => many([x, x * 10]), function*(x) { yield x; yield finalValue(x - 1); }, x => -x ), streamToArray(output) ]); chain.on('end', () => { eval(t.TEST('t.unify(output, [1, -2, 10, -11, 2, -3, 20, -21])')); async.done(); }); }, function test_genAsAsyncGen(t) { const async = t.startAsync('test_genAsAsyncGen'); const output = [], chain = new Chain([ fromIterable([1, 2]), asGen( delay(x => -x), x => many([x, x * 10]), async function*(x) { yield delay(x => x)(x); yield delay(x => finalValue(x - 1))(x); }, x => -x ), streamToArray(output) ]); chain.on('end', () => { eval(t.TEST('t.unify(output, [1, -2, 10, -11, 2, -3, 20, -21])')); async.done(); }); } ]);