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Rework handling of defaults to top-level gp function

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Lee Spector 2024-01-07 11:49:35 -05:00
parent f0424979b5
commit 81ef86d4ee
1 changed files with 139 additions and 113 deletions
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252
src/propeller/gp.cljc
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@ -48,127 +48,153 @@
(prn {:run-completed true})
nil)
(defn fill-defaults
"Returns argmap with any unspecified values filled with defaults."
[argmap]
(let [defaults
{:bmx-exchange-rate 0.5
:bmx-gene-length-limit 10
:bmx-gap-change-probability 0.001
:bmx-complementary? false
:dont-end false
:downsample? true
:ds-function :case-maxmin
:downsample-rate 0.05
:ds-parent-rate 0.01
:ds-parent-gens 10
:error-function (fn [& args] (println "ERROR FUNCTION NOT PROVIDED"))
:ids-type :solved ; :solved or :elite or :soft
:max-initial-plushy-size 100
:max-generations 1000
:parent-selection :lexicase
:population-size 1000
:single-thread-mode false
:solution-error-threshold 0
:step-limit 1000
:testing-data []
:training-data []
:umad-rate 0.1
:variation {:umad 1}}
defaulted (merge defaults argmap)]
(merge defaulted ; use the map below to include derived values in argmap
{:bmx? (some #{:bmx :bmx-umad} (keys (:variation defaulted)))})))
(defn gp
"Main GP function"
[{:keys [population-size max-generations error-function solution-error-threshold
ds-parent-rate ds-parent-gens dont-end ids-type downsample?]
:or {solution-error-threshold 0.0
dont-end false
ds-parent-rate 0
ds-parent-gens 1
ids-type :solved ; :solved or :elite or :soft
downsample? false}
:as argmap}]
[non-default-argmap]
(let [argmap (fill-defaults non-default-argmap)
{:keys [population-size max-generations error-function solution-error-threshold dont-end
downsample? ds-parent-rate ds-parent-gens ids-type]} argmap]
;; print starting args
(prn {:starting-args (update (update argmap :error-function str)
:instructions
(fn [instrs]
(utils/not-lazy (map #(if (fn? %) (str %) %) instrs))))})
(println)
(prn {:starting-args (update (update argmap :error-function str)
:instructions
(fn [instrs]
(utils/not-lazy (map #(if (fn? %) (str %) %) instrs))))})
(println)
;;
(loop [generation 0
evaluations 0
population (utils/pmapallv
(fn [_] {:plushy (genome/make-random-plushy argmap)})
(range population-size)
argmap)
indexed-training-data (if downsample?
(downsample/assign-indices-to-data (downsample/initialize-case-distances argmap) argmap)
(:training-data argmap))]
(let [training-data (if downsample?
(case (:ds-function argmap)
:case-maxmin (downsample/select-downsample-maxmin indexed-training-data argmap)
:case-maxmin-auto (downsample/select-downsample-maxmin-adaptive indexed-training-data argmap)
:case-rand (downsample/select-downsample-random indexed-training-data argmap)
(do (prn {:error "Invalid Downsample Function"})
(downsample/select-downsample-random indexed-training-data argmap)))
indexed-training-data) ;defaults to full training set
parent-reps (if
(and downsample? ; if we are down-sampling
(zero? (mod generation ds-parent-gens))) ;every ds-parent-gens generations
(take (* ds-parent-rate (count population)) (shuffle population))
'()) ;else just empty list
(loop [generation 0
evaluations 0
population (utils/pmapallv
(fn [_] {:plushy (genome/make-random-plushy argmap)})
(range population-size)
argmap)
indexed-training-data (if downsample?
(downsample/assign-indices-to-data (downsample/initialize-case-distances argmap) argmap)
(:training-data argmap))]
(let [training-data (if downsample?
(case (:ds-function argmap)
:case-maxmin (downsample/select-downsample-maxmin indexed-training-data argmap)
:case-maxmin-auto (downsample/select-downsample-maxmin-adaptive indexed-training-data argmap)
:case-rand (downsample/select-downsample-random indexed-training-data argmap)
(do (prn {:error "Invalid Downsample Function"})
(downsample/select-downsample-random indexed-training-data argmap)))
indexed-training-data) ;defaults to full training set
parent-reps (if
(and downsample? ; if we are down-sampling
(zero? (mod generation ds-parent-gens))) ;every ds-parent-gens generations
(take (* ds-parent-rate (count population)) (shuffle population))
'()) ;else just empty list
; parent representatives for down-sampling
rep-evaluated-pop (if downsample?
(sort-by :total-error
(utils/pmapallv
(partial error-function argmap indexed-training-data)
parent-reps
argmap))
'())
evaluated-pop (sort-by :total-error
(utils/pmapallv
(partial error-function argmap training-data)
population
argmap))
best-individual (first evaluated-pop)
best-individual-passes-ds (and downsample? (<= (:total-error best-individual) solution-error-threshold))
argmap (if (= (:parent-selection argmap) :epsilon-lexicase)
(assoc argmap :epsilons (selection/epsilon-list evaluated-pop))
argmap)] ; epsilons
(if (:custom-report argmap)
((:custom-report argmap) evaluations evaluated-pop generation argmap)
(report evaluations evaluated-pop generation argmap training-data))
rep-evaluated-pop (if downsample?
(sort-by :total-error
(utils/pmapallv
(partial error-function argmap indexed-training-data)
parent-reps
argmap))
'())
evaluated-pop (sort-by :total-error
(utils/pmapallv
(partial error-function argmap training-data)
population
argmap))
best-individual (first evaluated-pop)
best-individual-passes-ds (and downsample? (<= (:total-error best-individual) solution-error-threshold))
argmap (if (= (:parent-selection argmap) :epsilon-lexicase)
(assoc argmap :epsilons (selection/epsilon-list evaluated-pop))
argmap)] ; epsilons
(if (:custom-report argmap)
((:custom-report argmap) evaluations evaluated-pop generation argmap)
(report evaluations evaluated-pop generation argmap training-data))
;; Did the indvidual pass all cases in ds?
(when best-individual-passes-ds
(prn {:semi-success-generation generation}))
(cond
(when best-individual-passes-ds
(prn {:semi-success-generation generation}))
(cond
;; If either the best individual on the ds passes all training cases, or best individual on full
;; sample passes all training cases, we verify success on test cases and exit, succeeding
(if (or (and best-individual-passes-ds
(<= (:total-error (error-function argmap indexed-training-data best-individual))
solution-error-threshold))
(and (not downsample?)
(<= (:total-error best-individual)
solution-error-threshold)))
(do (prn {:success-generation generation})
(prn {:successful-plushy (:plushy best-individual)})
(prn {:successful-program (genome/plushy->push (:plushy best-individual) argmap)})
(prn {:total-test-error
(:total-error (error-function argmap (:testing-data argmap) best-individual))})
(when (:simplification? argmap)
(let [simplified-plushy (simplification/auto-simplify-plushy (:plushy best-individual) error-function argmap)]
(prn {:total-test-error-simplified
(:total-error (error-function argmap (:testing-data argmap) {:plushy simplified-plushy}))})
(prn {:simplified-plushy simplified-plushy})
(prn {:simplified-program (genome/plushy->push simplified-plushy argmap)})))
(if dont-end false true))
false)
(cleanup)
(if (or (and best-individual-passes-ds
(<= (:total-error (error-function argmap indexed-training-data best-individual))
solution-error-threshold))
(and (not downsample?)
(<= (:total-error best-individual)
solution-error-threshold)))
(do (prn {:success-generation generation})
(prn {:successful-plushy (:plushy best-individual)})
(prn {:successful-program (genome/plushy->push (:plushy best-individual) argmap)})
(prn {:total-test-error
(:total-error (error-function argmap (:testing-data argmap) best-individual))})
(when (:simplification? argmap)
(let [simplified-plushy (simplification/auto-simplify-plushy (:plushy best-individual) error-function argmap)]
(prn {:total-test-error-simplified
(:total-error (error-function argmap (:testing-data argmap) {:plushy simplified-plushy}))})
(prn {:simplified-plushy simplified-plushy})
(prn {:simplified-program (genome/plushy->push simplified-plushy argmap)})))
(if dont-end false true))
false)
(cleanup)
;; If we've evolved for as many generations as the parameters allow, exit without succeeding
(or (and (not downsample?)
(>= generation max-generations))
(and downsample?
(>= evaluations (* max-generations population-size (count indexed-training-data)))))
(cleanup)
(or (and (not downsample?)
(>= generation max-generations))
(and downsample?
(>= evaluations (* max-generations population-size (count indexed-training-data)))))
(cleanup)
;; Otherwise, evolve for another generation
:else (recur (inc generation)
(+ evaluations
(* population-size (count training-data)) ;every member evaluated on the current sample
(if (zero? (mod generation ds-parent-gens))
(* (count parent-reps)
(- (count indexed-training-data)
(count training-data)))
0) ; the parent-reps not evaluted already on down-sample
(if best-individual-passes-ds
(- (count indexed-training-data) (count training-data))
0)) ; if we checked for generalization or not
(if (:elitism argmap) ; elitism maintains the most-fit individual
(conj (utils/pmapallv (fn [_] (variation/new-individual evaluated-pop argmap))
(range (dec population-size))
argmap)
(first evaluated-pop))
(utils/pmapallv (fn [_] (variation/new-individual evaluated-pop argmap))
(range population-size)
argmap))
(if downsample?
(if (zero? (mod generation ds-parent-gens))
:else (recur (inc generation)
(+ evaluations
(* population-size (count training-data)) ;every member evaluated on the current sample
(if (zero? (mod generation ds-parent-gens))
(* (count parent-reps)
(- (count indexed-training-data)
(count training-data)))
0) ; the parent-reps not evaluted already on down-sample
(if best-individual-passes-ds
(- (count indexed-training-data) (count training-data))
0)) ; if we checked for generalization or not
(if (:elitism argmap) ; elitism maintains the most-fit individual
(conj (utils/pmapallv (fn [_] (variation/new-individual evaluated-pop argmap))
(range (dec population-size))
argmap)
(first evaluated-pop))
(utils/pmapallv (fn [_] (variation/new-individual evaluated-pop argmap))
(range population-size)
argmap))
(if downsample?
(if (zero? (mod generation ds-parent-gens))
; update distances every ds-parent-gens generations
(downsample/update-case-distances rep-evaluated-pop
indexed-training-data
indexed-training-data
ids-type
(/ solution-error-threshold
(count indexed-training-data)))
indexed-training-data)
indexed-training-data))))))
(downsample/update-case-distances rep-evaluated-pop
indexed-training-data
indexed-training-data
ids-type
(/ solution-error-threshold
(count indexed-training-data)))
indexed-training-data)
indexed-training-data)))))))