testsharder/shard.go - tools - Git at Google

 // Copyright 2018 The Fuchsia Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.
 package testsharder

 import (
 	"fmt"
 	"sort"
 	"strings"
 )

 // Shard represents a set of tests with a common execution environment.
 type Shard struct {
 	// Name is the identifier for the shard.
 	Name string `json:"name"`

 	// Tests is the set of test to be executed in this shard.
 	Tests []Test `json:"tests"`

 	// Env is a generalized notion of the execution environment for the shard.
 	Env Environment `json:"environment"`
 }

 // MakeShards is the core algorithm to this tool. It takes a set of test specs and produces
 // a set of shards which may then be converted into Swarming tasks.
 //
 // Environments that do not match all specified tags will be ignored.
 //
 // This is the most naive algorithm at the moment. It just merges all tests together which
 // have the same environment setting into the same shard.
 func MakeShards(specs []TestSpec, mode Mode, tags []string) []*Shard {
 	// Collect the order of the shards so our shard ordering is deterministic with
 	// respect to the input.
 	envToSuites := newEnvMap()
 	envs := []Environment{}
 	for _, spec := range specs {
 		for _, env := range spec.Envs {
 			if !stringSlicesEq(tags, env.Tags) {
 				continue
 			}
 			if mode == Restricted && env.ServiceAccount != "" {
 				continue
 			}

 			// Tags should not differ by ordering.
 			sortableTags := sort.StringSlice(tags)
 			sortableTags.Sort()
 			env.Tags = []string(sortableTags)

 			specs, ok := envToSuites.get(env)
 			if !ok {
 				envs = append(envs, env)
 			}
 			envToSuites.set(env, append(specs, spec))
 		}
 	}
 	shards := make([]*Shard, 0, len(envs))
 	for _, env := range envs {
 		specs, _ := envToSuites.get(env)
 		sort.Slice(specs, func(i, j int) bool {
 			return specs[i].Test.Path < specs[i].Test.Path
 		})
 		var tests []Test
 		for _, spec := range specs {
 			tests = append(tests, spec.Test)
 		}
 		shards = append(shards, &Shard{
 			Name:  env.Name(),
 			Tests: tests,
 			Env:   env,
 		})
 	}
 	return shards
 }

 // Appends new shards to shards where each new shard contains one test repeated
 // multiple times according to the specifications in multipliers.
 func MultiplyShards(shards []*Shard, multipliers []TestModifier) []*Shard {
 	for _, shard := range shards {
 		for _, multiplier := range multipliers {
 			for _, test := range shard.Tests {
 				if multiplier.Target == test.Name && multiplier.OS == test.OS {
 					shards = append(shards, &Shard{
 						Name:  shard.Name + " - " + normalizeTestName(test.Name),
 						Tests: multiplyTest(test, multiplier.TotalRuns),
 						Env:   shard.Env,
 					})
 				}
 			}
 		}
 	}
 	return shards
 }

 // Removes leading slashes and replaces all other `/` with `_`. This allows the
 // shard name to appear in filepaths.
 func normalizeTestName(name string) string {
 	trimmedName := strings.TrimLeft(name, "/")
 	return strings.ReplaceAll(trimmedName, "/", "_")
 }

 // Returns a list of Tests containing the same test multiplied by the number of runs.
 func multiplyTest(test Test, runs int) []Test {
 	var tests []Test
 	for i := 0; i < runs; i++ {
 		tests = append(tests, test)
 	}
 	return tests
 }

 // Abstracts a mapping Environment -> []string, as Environment contains non-comparable
 // members (e.g., string slices), which makes it invalid for a map key.
 type envMap struct {
 	m map[string][]TestSpec
 }

 func newEnvMap() envMap {
 	return envMap{m: make(map[string][]TestSpec)}
 }

 func (em envMap) get(e Environment) ([]TestSpec, bool) {
 	specs, ok := em.m[fmt.Sprintf("%v", e)]
 	return specs, ok
 }

 func (em *envMap) set(e Environment, specs []TestSpec) {
 	em.m[fmt.Sprintf("%v", e)] = specs
 }

 func stringSlicesEq(s []string, t []string) bool {
 	if len(s) != len(t) {
 		return false
 	}
 	seen := make(map[string]int)
 	for i, _ := range s {
 		seen[s[i]] += 1
 		seen[t[i]] -= 1
 	}
 	for _, v := range seen {
 		if v != 0 {
 			return false
 		}
 	}
 	return true
 }
	// Copyright 2018 The Fuchsia Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.
	package testsharder

	import (
	"fmt"
	"sort"
	"strings"
	)

	// Shard represents a set of tests with a common execution environment.
	type Shard struct {
	// Name is the identifier for the shard.
	Name string `json:"name"`

	// Tests is the set of test to be executed in this shard.
	Tests []Test `json:"tests"`

	// Env is a generalized notion of the execution environment for the shard.
	Env Environment `json:"environment"`
	}

	// MakeShards is the core algorithm to this tool. It takes a set of test specs and produces
	// a set of shards which may then be converted into Swarming tasks.
	//
	// Environments that do not match all specified tags will be ignored.
	//
	// This is the most naive algorithm at the moment. It just merges all tests together which
	// have the same environment setting into the same shard.
	func MakeShards(specs []TestSpec, mode Mode, tags []string) []*Shard {
	// Collect the order of the shards so our shard ordering is deterministic with
	// respect to the input.
	envToSuites := newEnvMap()
	envs := []Environment{}
	for _, spec := range specs {
	for _, env := range spec.Envs {
	if !stringSlicesEq(tags, env.Tags) {
	continue
	}
	if mode == Restricted && env.ServiceAccount != "" {
	continue
	}

	// Tags should not differ by ordering.
	sortableTags := sort.StringSlice(tags)
	sortableTags.Sort()
	env.Tags = []string(sortableTags)

	specs, ok := envToSuites.get(env)
	if !ok {
	envs = append(envs, env)
	}
	envToSuites.set(env, append(specs, spec))
	}
	}
	shards := make([]*Shard, 0, len(envs))
	for _, env := range envs {
	specs, _ := envToSuites.get(env)
	sort.Slice(specs, func(i, j int) bool {
	return specs[i].Test.Path < specs[i].Test.Path
	})
	var tests []Test
	for _, spec := range specs {
	tests = append(tests, spec.Test)
	}
	shards = append(shards, &Shard{
	Name: env.Name(),
	Tests: tests,
	Env: env,
	})
	}
	return shards
	}

	// Appends new shards to shards where each new shard contains one test repeated
	// multiple times according to the specifications in multipliers.
	func MultiplyShards(shards []Shard, multipliers []TestModifier) []Shard {
	for _, shard := range shards {
	for _, multiplier := range multipliers {
	for _, test := range shard.Tests {
	if multiplier.Target == test.Name && multiplier.OS == test.OS {
	shards = append(shards, &Shard{
	Name: shard.Name + " - " + normalizeTestName(test.Name),
	Tests: multiplyTest(test, multiplier.TotalRuns),
	Env: shard.Env,
	})
	}
	}
	}
	}
	return shards
	}

	// Removes leading slashes and replaces all other `/` with `_`. This allows the
	// shard name to appear in filepaths.
	func normalizeTestName(name string) string {
	trimmedName := strings.TrimLeft(name, "/")
	return strings.ReplaceAll(trimmedName, "/", "_")
	}

	// Returns a list of Tests containing the same test multiplied by the number of runs.
	func multiplyTest(test Test, runs int) []Test {
	var tests []Test
	for i := 0; i < runs; i++ {
	tests = append(tests, test)
	}
	return tests
	}

	// Abstracts a mapping Environment -> []string, as Environment contains non-comparable
	// members (e.g., string slices), which makes it invalid for a map key.
	type envMap struct {
	m map[string][]TestSpec
	}

	func newEnvMap() envMap {
	return envMap{m: make(map[string][]TestSpec)}
	}

	func (em envMap) get(e Environment) ([]TestSpec, bool) {
	specs, ok := em.m[fmt.Sprintf("%v", e)]
	return specs, ok
	}

	func (em *envMap) set(e Environment, specs []TestSpec) {
	em.m[fmt.Sprintf("%v", e)] = specs
	}

	func stringSlicesEq(s []string, t []string) bool {
	if len(s) != len(t) {
	return false
	}
	seen := make(map[string]int)
	for i, _ := range s {
	seen[s[i]] += 1
	seen[t[i]] -= 1
	}
	for _, v := range seen {
	if v != 0 {
	return false
	}
	}
	return true
	}