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package planr
import "fmt"
type Runner struct {
adapters []Adapter
}
func (r *Runner) RegisterAdapter(a Adapter) {
r.adapters = append(r.adapters, a)
}
func (r Runner) adapterCfgs() []AdapterConfig {
cgs := make([]AdapterConfig, len(r.adapters))
for _, adapter := range r.adapters {
cgs = append(cgs, adapter.Config())
}
return cgs
}
type TcTab map[string] []*TestCase
func (r Runner) buildTcLUT(tcs []TestCase) TcTab {
m := make(TcTab, 0)
for i := range tcs {
tc := &tcs[i]
nm := *tc.Config.Adapter
m[nm] = append(m[nm], tc)
}
return m
}
func (r Runner) checkConfig(tcs []TestCase) {
for _, tc := range tcs {
tc.Config.ensureSatisfied(tc.Path)
}
}
func (r Runner) build(tcs []TestCase) {
r.checkConfig(tcs)
tcTab := r.buildTcLUT(tcs)
for _, adapter := range r.adapters {
nm := adapter.Config().Name
fmt.Printf("[R] Building adapter \"%s\"\n", nm)
adapter.Build(tcTab[nm])
}
}
func (r Runner) units(root string) []TestCase {
return collectUnits(root, r.adapterCfgs())
}
func (r Runner) Build(root string) {
units := r.units(root)
r.build(units)
}
func (r Runner) evaluate(tcs []TestCase) {
tcTab := r.buildTcLUT(tcs)
for _, adapter := range r.adapters {
nm := adapter.Config().Name
fmt.Printf("[R] Evaluating adapter \"%s\"\n", nm)
adapter.Evaluate(tcTab[nm])
}
}
func (r Runner) Evaluate(root string) []TestCase {
units := r.units(root)
r.evaluate(units)
return units
}
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