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variables.go
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variables.go
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package task
import (
"os"
"path/filepath"
"strings"
"github.com/joho/godotenv"
"github.com/go-task/task/v3/errors"
"github.com/go-task/task/v3/internal/execext"
"github.com/go-task/task/v3/internal/filepathext"
"github.com/go-task/task/v3/internal/fingerprint"
"github.com/go-task/task/v3/internal/omap"
"github.com/go-task/task/v3/internal/templater"
"github.com/go-task/task/v3/taskfile/ast"
)
// CompiledTask returns a copy of a task, but replacing variables in almost all
// properties using the Go template package.
func (e *Executor) CompiledTask(call *ast.Call) (*ast.Task, error) {
return e.compiledTask(call, true)
}
// FastCompiledTask is like CompiledTask, but it skippes dynamic variables.
func (e *Executor) FastCompiledTask(call *ast.Call) (*ast.Task, error) {
return e.compiledTask(call, false)
}
func (e *Executor) compiledTask(call *ast.Call, evaluateShVars bool) (*ast.Task, error) {
origTask, err := e.GetTask(call)
if err != nil {
return nil, err
}
var vars *ast.Vars
if evaluateShVars {
vars, err = e.Compiler.GetVariables(origTask, call)
} else {
vars, err = e.Compiler.FastGetVariables(origTask, call)
}
if err != nil {
return nil, err
}
cache := &templater.Cache{Vars: vars}
new := ast.Task{
Task: origTask.Task,
Label: templater.Replace(origTask.Label, cache),
Desc: templater.Replace(origTask.Desc, cache),
Prompt: templater.Replace(origTask.Prompt, cache),
Summary: templater.Replace(origTask.Summary, cache),
Aliases: origTask.Aliases,
Sources: templater.ReplaceGlobs(origTask.Sources, cache),
Generates: templater.ReplaceGlobs(origTask.Generates, cache),
Dir: templater.Replace(origTask.Dir, cache),
Set: origTask.Set,
Shopt: origTask.Shopt,
Vars: nil,
Env: nil,
Dotenv: templater.Replace(origTask.Dotenv, cache),
Silent: origTask.Silent,
Interactive: origTask.Interactive,
Internal: origTask.Internal,
Method: templater.Replace(origTask.Method, cache),
Prefix: templater.Replace(origTask.Prefix, cache),
IgnoreError: origTask.IgnoreError,
Run: templater.Replace(origTask.Run, cache),
IncludeVars: origTask.IncludeVars,
IncludedTaskfileVars: origTask.IncludedTaskfileVars,
Platforms: origTask.Platforms,
Location: origTask.Location,
Requires: origTask.Requires,
Watch: origTask.Watch,
Namespace: origTask.Namespace,
}
new.Dir, err = execext.Expand(new.Dir)
if err != nil {
return nil, err
}
if e.Dir != "" {
new.Dir = filepathext.SmartJoin(e.Dir, new.Dir)
}
if new.Prefix == "" {
new.Prefix = new.Task
}
dotenvEnvs := &ast.Vars{}
if len(new.Dotenv) > 0 {
for _, dotEnvPath := range new.Dotenv {
dotEnvPath = filepathext.SmartJoin(new.Dir, dotEnvPath)
if _, err := os.Stat(dotEnvPath); os.IsNotExist(err) {
continue
}
envs, err := godotenv.Read(dotEnvPath)
if err != nil {
return nil, err
}
for key, value := range envs {
if ok := dotenvEnvs.Exists(key); !ok {
dotenvEnvs.Set(key, ast.Var{Value: value})
}
}
}
}
new.Env = &ast.Vars{}
new.Env.Merge(templater.ReplaceVars(e.Taskfile.Env, cache), nil)
new.Env.Merge(templater.ReplaceVars(dotenvEnvs, cache), nil)
new.Env.Merge(templater.ReplaceVars(origTask.Env, cache), nil)
if evaluateShVars {
err = new.Env.Range(func(k string, v ast.Var) error {
// If the variable is not dynamic, we can set it and return
if v.Value != nil || v.Sh == "" {
new.Env.Set(k, ast.Var{Value: v.Value})
return nil
}
static, err := e.Compiler.HandleDynamicVar(v, new.Dir)
if err != nil {
return err
}
new.Env.Set(k, ast.Var{Value: static})
return nil
})
if err != nil {
return nil, err
}
}
if len(origTask.Cmds) > 0 {
new.Cmds = make([]*ast.Cmd, 0, len(origTask.Cmds))
for _, cmd := range origTask.Cmds {
if cmd == nil {
continue
}
if cmd.For != nil {
list, keys, err := itemsFromFor(cmd.For, new.Dir, new.Sources, vars, origTask.Location)
if err != nil {
return nil, err
}
// Name the iterator variable
var as string
if cmd.For.As != "" {
as = cmd.For.As
} else {
as = "ITEM"
}
// Create a new command for each item in the list
for i, loopValue := range list {
extra := map[string]any{
as: loopValue,
}
if len(keys) > 0 {
extra["KEY"] = keys[i]
}
newCmd := cmd.DeepCopy()
newCmd.Cmd = templater.ReplaceWithExtra(cmd.Cmd, cache, extra)
newCmd.Task = templater.ReplaceWithExtra(cmd.Task, cache, extra)
newCmd.Vars = templater.ReplaceVarsWithExtra(cmd.Vars, cache, extra)
new.Cmds = append(new.Cmds, newCmd)
}
continue
}
// Defer commands are replaced in a lazy manner because
// we need to include EXIT_CODE.
if cmd.Defer {
new.Cmds = append(new.Cmds, cmd.DeepCopy())
continue
}
newCmd := cmd.DeepCopy()
newCmd.Cmd = templater.Replace(cmd.Cmd, cache)
newCmd.Task = templater.Replace(cmd.Task, cache)
newCmd.Vars = templater.ReplaceVars(cmd.Vars, cache)
new.Cmds = append(new.Cmds, newCmd)
}
}
if len(origTask.Deps) > 0 {
new.Deps = make([]*ast.Dep, 0, len(origTask.Deps))
for _, dep := range origTask.Deps {
if dep == nil {
continue
}
if dep.For != nil {
list, keys, err := itemsFromFor(dep.For, new.Dir, new.Sources, vars, origTask.Location)
if err != nil {
return nil, err
}
// Name the iterator variable
var as string
if dep.For.As != "" {
as = dep.For.As
} else {
as = "ITEM"
}
// Create a new command for each item in the list
for i, loopValue := range list {
extra := map[string]any{
as: loopValue,
}
if len(keys) > 0 {
extra["KEY"] = keys[i]
}
newDep := dep.DeepCopy()
newDep.Task = templater.ReplaceWithExtra(dep.Task, cache, extra)
newDep.Vars = templater.ReplaceVarsWithExtra(dep.Vars, cache, extra)
new.Deps = append(new.Deps, newDep)
}
continue
}
newDep := dep.DeepCopy()
newDep.Task = templater.Replace(dep.Task, cache)
newDep.Vars = templater.ReplaceVars(dep.Vars, cache)
new.Deps = append(new.Deps, newDep)
}
}
if len(origTask.Preconditions) > 0 {
new.Preconditions = make([]*ast.Precondition, 0, len(origTask.Preconditions))
for _, precondition := range origTask.Preconditions {
if precondition == nil {
continue
}
newPrecondition := precondition.DeepCopy()
newPrecondition.Sh = templater.Replace(precondition.Sh, cache)
newPrecondition.Msg = templater.Replace(precondition.Msg, cache)
new.Preconditions = append(new.Preconditions, newPrecondition)
}
}
if len(origTask.Status) > 0 {
timestampChecker := fingerprint.NewTimestampChecker(e.TempDir.Fingerprint, e.Dry)
checksumChecker := fingerprint.NewChecksumChecker(e.TempDir.Fingerprint, e.Dry)
for _, checker := range []fingerprint.SourcesCheckable{timestampChecker, checksumChecker} {
value, err := checker.Value(&new)
if err != nil {
return nil, err
}
vars.Set(strings.ToUpper(checker.Kind()), ast.Var{Live: value})
}
// Adding new variables, requires us to refresh the templaters
// cache of the the values manually
cache.ResetCache()
new.Status = templater.Replace(origTask.Status, cache)
}
// We only care about templater errors if we are evaluating shell variables
if evaluateShVars && cache.Err() != nil {
return &new, cache.Err()
}
return &new, nil
}
func asAnySlice[T any](slice []T) []any {
ret := make([]any, len(slice))
for i, v := range slice {
ret[i] = v
}
return ret
}
func itemsFromFor(
f *ast.For,
dir string,
sources []*ast.Glob,
vars *ast.Vars,
location *ast.Location,
) ([]any, []string, error) {
var keys []string // The list of keys to loop over (only if looping over a map)
var values []any // The list of values to loop over
// Get the list from a matrix
if f.Matrix.Len() != 0 {
return asAnySlice(product(f.Matrix)), nil, nil
}
// Get the list from the explicit for list
if len(f.List) > 0 {
return f.List, nil, nil
}
// Get the list from the task sources
if f.From == "sources" {
glist, err := fingerprint.Globs(dir, sources)
if err != nil {
return nil, nil, err
}
// Make the paths relative to the task dir
for i, v := range glist {
if glist[i], err = filepath.Rel(dir, v); err != nil {
return nil, nil, err
}
}
values = asAnySlice(glist)
}
// Get the list from a variable and split it up
if f.Var != "" {
if vars != nil {
v := vars.Get(f.Var)
// If the variable is dynamic, then it hasn't been resolved yet
// and we can't use it as a list. This happens when fast compiling a task
// for use in --list or --list-all etc.
if v.Value != nil && v.Sh == "" {
switch value := v.Value.(type) {
case string:
if f.Split != "" {
values = asAnySlice(strings.Split(value, f.Split))
} else {
values = asAnySlice(strings.Fields(value))
}
case []string:
values = asAnySlice(value)
case []int:
values = asAnySlice(value)
case []any:
values = value
case map[string]any:
for k, v := range value {
keys = append(keys, k)
values = append(values, v)
}
default:
return nil, nil, errors.TaskfileInvalidError{
URI: location.Taskfile,
Err: errors.New("loop var must be a delimiter-separated string, list or a map"),
}
}
}
}
}
return values, keys, nil
}
// product generates the cartesian product of the input map of slices.
func product(inputMap omap.OrderedMap[string, []any]) []map[string]any {
if inputMap.Len() == 0 {
return nil
}
// Start with an empty product result
result := []map[string]any{{}}
// Iterate over each slice in the slices
_ = inputMap.Range(func(key string, slice []any) error {
var newResult []map[string]any
// For each combination in the current result
for _, combination := range result {
// Append each element from the current slice to the combinations
for _, item := range slice {
newComb := make(map[string]any, len(combination))
// Copy the existing combination
for k, v := range combination {
newComb[k] = v
}
// Add the current item with the corresponding key
newComb[key] = item
newResult = append(newResult, newComb)
}
}
// Update result with the new combinations
result = newResult
return nil
})
return result
}