/*const solc = require('solc'); const getInstrumentedVersion = require('./../lib/instrumentSolidity.js'); const util = require('./util/util.js'); const path = require('path'); const CoverageMap = require('./../lib/coverageMap'); const vm = require('./util/vm'); const assert = require('assert'); describe('function declarations', () => { const filePath = path.resolve('./test.sol'); const pathPrefix = './'; it('should compile after instrumenting an ordinary function declaration', () => { const contract = util.getCode('function/function.sol'); const info = getInstrumentedVersion(contract, 'test.sol'); const output = JSON.parse(solc.compile(util.codeToCompilerInput(info.contract))); util.report(output.errors); }); it('should compile after instrumenting an abstract function declaration', () => { const contract = util.getCode('function/abstract.sol'); const info = getInstrumentedVersion(contract, 'test.sol'); const output = JSON.parse(solc.compile(util.codeToCompilerInput(info.contract))); util.report(output.errors); }); it('should compile after instrumenting a function declaration with an empty body', () => { const contract = util.getCode('function/empty-body.sol'); const info = getInstrumentedVersion(contract, 'test.sol'); const output = JSON.parse(solc.compile(util.codeToCompilerInput(info.contract))); util.report(output.errors); }); it('should compile after instrumenting lots of declarations in row', () => { const contract = util.getCode('function/multiple.sol'); const info = getInstrumentedVersion(contract, 'test.sol'); const output = JSON.parse(solc.compile(util.codeToCompilerInput(info.contract))); util.report(output.errors); }); it('should compile after instrumenting a new->constructor-->method chain', () => { const contract = util.getCode('function/chainable-new.sol'); const info = getInstrumentedVersion(contract, 'test.sol'); const output = JSON.parse(solc.compile(util.codeToCompilerInput(info.contract))); util.report(output.errors); }); it('should compile after instrumenting a constructor call that chains to a method call', () => { const contract = util.getCode('function/chainable.sol'); const info = getInstrumentedVersion(contract, 'test.sol'); const output = JSON.parse(solc.compile(util.codeToCompilerInput(info.contract))); util.report(output.errors); }); it('should compile after instrumenting a function with calldata keyword', () => { const contract = util.getCode('function/calldata.sol'); const info = getInstrumentedVersion(contract, 'test.sol'); const output = JSON.parse(solc.compile(util.codeToCompilerInput(info.contract))); util.report(output.errors); }); it('should compile after instrumenting a constructor-->method-->value chain', () => { const contract = util.getCode('function/chainable-value.sol'); const info = getInstrumentedVersion(contract, 'test.sol'); const output = JSON.parse(solc.compile(util.codeToCompilerInput(info.contract))); util.report(output.errors); }); it('should cover a simple invoked function call', done => { const contract = util.getCode('function/function-call.sol'); const info = getInstrumentedVersion(contract, filePath); const coverage = new CoverageMap(); coverage.addContract(info, filePath); vm.execute(info.contract, 'a', []).then(events => { const mapping = coverage.generate(events, pathPrefix); assert.deepEqual(mapping[filePath].l, { 7: 1, }); assert.deepEqual(mapping[filePath].b, {}); assert.deepEqual(mapping[filePath].s, { 1: 1, }); assert.deepEqual(mapping[filePath].f, { 1: 1, 2: 1, }); done(); }).catch(done); }); it('should cover a modifier used on a function', done => { const contract = util.getCode('function/modifier.sol'); const info = getInstrumentedVersion(contract, filePath); const coverage = new CoverageMap(); coverage.addContract(info, filePath); vm.execute(info.contract, 'a', [0]).then(events => { const mapping = coverage.generate(events, pathPrefix); assert.deepEqual(mapping[filePath].l, { 5: 1, 6: 1, 9: 1, }); assert.deepEqual(mapping[filePath].b, {}); assert.deepEqual(mapping[filePath].s, { 1: 1 }); assert.deepEqual(mapping[filePath].f, { 1: 1, 2: 1, }); done(); }).catch(done); }); it('should cover a constructor that uses the `constructor` keyword', done => { const contract = util.getCode('function/constructor-keyword.sol'); const info = getInstrumentedVersion(contract, filePath); const coverage = new CoverageMap(); coverage.addContract(info, filePath); vm.execute(info.contract, 'a', []).then(events => { const mapping = coverage.generate(events, pathPrefix); assert.deepEqual(mapping[filePath].l, { 6: 1, 11: 1 }); assert.deepEqual(mapping[filePath].b, {}); assert.deepEqual(mapping[filePath].s, { 1: 1, 2: 1 }); assert.deepEqual(mapping[filePath].f, { 1: 1, 2: 1, }); done(); }).catch(done); }); it('should cover a constructor call that chains to a method call', done => { const contract = util.getCode('function/chainable.sol'); const info = getInstrumentedVersion(contract, filePath); const coverage = new CoverageMap(); coverage.addContract(info, filePath); // We try and call a contract at an address where it doesn't exist and the VM // throws, but we can verify line / statement / fn coverage is getting mapped. vm.execute(info.contract, 'a', []).then(events => { const mapping = coverage.generate(events, pathPrefix); assert.deepEqual(mapping[filePath].l, { 9: 1, }); assert.deepEqual(mapping[filePath].b, {}); assert.deepEqual(mapping[filePath].s, { 1: 1, }); assert.deepEqual(mapping[filePath].f, { 1: 0, 2: 1, }); done(); }).catch(done); }); it('should cover a constructor call that chains to a method call', done => { const contract = util.getCode('function/chainable-value.sol'); const info = getInstrumentedVersion(contract, filePath); const coverage = new CoverageMap(); coverage.addContract(info, filePath); // The vm runs out of gas here - but we can verify line / statement / fn // coverage is getting mapped. vm.execute(info.contract, 'a', []).then(events => { const mapping = coverage.generate(events, pathPrefix); assert.deepEqual(mapping[filePath].l, { 10: 1, }); assert.deepEqual(mapping[filePath].b, {}); assert.deepEqual(mapping[filePath].s, { 1: 1, }); assert.deepEqual(mapping[filePath].f, { 1: 0, 2: 1, }); done(); }).catch(done); }); }); */