Mercurial > hg > Papers > 2023 > soto-master
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| author | soto <soto@cr.ie.u-ryukyu.ac.jp> |
|---|---|
| date | Mon, 23 Jan 2023 13:18:37 +0900 |
| parents | 8c1e9a6d58e2 |
| children | 560d341c5cbd |
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module ModelChecking where open import Level renaming (zero to Z ; suc to succ) open import Data.Nat hiding (compare) open import Data.Nat.Properties as NatProp open import Data.Maybe -- open import Data.Maybe.Properties open import Data.Empty open import Data.List open import Data.Product open import Function as F hiding (const) open import Relation.Binary open import Relation.Binary.PropositionalEquality open import Relation.Nullary open import logic open import Data.Unit hiding (_≟_ ; _≤?_ ; _≤_) open import Relation.Binary.Definitions record AtomicNat : Set where field value : ℕ set : {n : Level } {t : Set n} → AtomicNat → (value : ℕ) → ( AtomicNat → t ) → t set a v next = next record { value = v } record Phils : Set where field pid : ℕ left right : AtomicNat putdown_rfork : {n : Level} {t : Set n} → Phils → ( Phils → t ) → t putdown_rfork p next = set (Phils.right p) 0 ( λ f → next record p { right = f } ) putdown_lfork : {n : Level} {t : Set n} → Phils → ( Phils → t ) → t putdown_lfork p next = set (Phils.left p) 0 ( λ f → next record p { left = f } ) thinking : {n : Level} {t : Set n} → Phils → ( Phils → t ) → t thinking p next = next p pickup_rfork : {n : Level} {t : Set n} → Phils → ( Phils → t ) → t pickup_rfork p next = set (Phils.right p) (Phils.pid p) ( λ f → next record p { right = f } ) pickup_lfork : {n : Level} {t : Set n} → Phils → ( Phils → t ) → t pickup_lfork p next = set (Phils.left p) (Phils.pid p) ( λ f → next record p { left = f } ) --eating : {n : Level} {t : Set n} → Phils → ( Phils → t ) → t --eating p next = next p data Code : Set where -- C_set : Code C_putdown_rfork : Code C_putdown_lfork : Code C_thinking : Code C_pickup_rfork : Code C_pickup_lfork : Code C_eating : Code record Process : Set where field phil : Phils next_code : Code putdown_rfork_stub : {n : Level} {t : Set n} → Process → ( Process → t) → t putdown_rfork_stub p next = putdown_rfork ( Process.phil p ) ( λ ph → next record p { phil = ph ; next_code = C_putdown_lfork } ) putdown_lfork_stub : {n : Level} {t : Set n} → Process → ( Process → t) → t putdown_lfork_stub p next = putdown_lfork ( Process.phil p ) ( λ ph → next record p { phil = ph ; next_code = C_putdown_lfork } ) {- code_table : {n : Level} {t : Set n} → Code → Process → ( Process → t) → t -- code_table C_set = {!!} code_table C_putdown_rfork = putdown_rfork_stub code_table C_putdown_lfork = putdown_lfork_stub code_table C_thinking = {!!} code_table C_pickup_rfork = {!!} code_table C_pickup_lfork = {!!} code_table C_eating = {!!} -} open Process --step : {n : Level} {t : Set n} → List Process → (List Process → t) → t --step {n} {t} [] next0 = next0 [] --step {n} {t} (p ∷ ps) next0 = code_table (next_code p) p ( λ np → next0 (ps ++ ( np ∷ [] ) )) --test : List Process --test = step ( record { phil = record { pid = 1 ; left = record { value = 1 } ; right = record { value = 1 } } ; next_code = C_putdown_rfork } ∷ [] ) ( λ ps → ps ) --test1 : List Process --test1 = step ( record { phil = record { pid = 1 ; left = record { value = 1 } ; right = record { value = 1 } } ; next_code = C_putdown_rfork } ∷ [] ) -- $ λ ps → step ps $ λ ps → ps record Phi : Set where field pid : ℕ right-hand : Bool left-hand : Bool next-code : Code open Phi record Env : Set where field table : List ℕ ph : List Phi open Env init-table : {n : Level} {t : Set n} → ℕ → (exit : Env → t) → t init-table n exit = init-table-loop n 0 (record {table = [] ; ph = []}) exit where init-table-loop : {n : Level} {t : Set n} → (redu inc : ℕ) → Env → (exit : Env → t) → t init-table-loop zero ind env exit = exit env init-table-loop (suc redu) ind env exit = init-table-loop redu (suc ind) record env{ table = 0 ∷ (table env) ; ph = record {pid = redu ; left-hand = false ; right-hand = false ; next-code = C_thinking } ∷ (ph env) } exit -- eatingも探索範囲に含める brute-force-search : {n : Level} {t : Set n} → Env → (exit : List Env → t) → t brute-force-search env exit = make-state-list 1 [] (ph env) env (env ∷ []) exit where make-state-list : {n : Level} {t : Set n} → ℕ → List Bool → List Phi → Env → (List Env) → (exit : List Env → t) → t make-state-list redu state (x ∷ pl) env envl exit with next-code x ... | C_thinking = make-state-list (redu + redu) (state ++ (false ∷ [])) pl env envl exit ... | C_eating = make-state-list (redu + redu) (state ++ (false ∷ [])) pl env envl exit ... | _ = make-state-list redu state pl env envl exit make-state-list redu state [] env envl exit = bit-force-search redu [] state env envl exit where bit-force-search : {n : Level} {t : Set n} → ℕ → (f b : List Bool )→ Env → (List Env) → (exit : List Env → t) → t bit-force-search zero f l env envl exit = exit envl bit-force-search (suc redu) f [] env envl exit = exit envl bit-force-search (suc redu) f (true ∷ bs) env envl exit = bit-force-search (suc redu) (f ++ (false ∷ [])) bs env envl exit -- 今回の対象をfalseにしてfに追加,bを次の対象にする bit-force-search (suc redu) f (false ∷ bs) env envl exit = set-state redu (f ++ (true ∷ bs)) (f ++ (true ∷ bs)) [] (ph env) env envl exit where -- 今回の対象をtrueにし、fとbを結合してそのListを代入する。かつそれをbに入れfをinitしてloopさせる set-state : {n : Level} {t : Set n} → ℕ → (origin state : List Bool ) → (f b : List Phi) → Env → (List Env) → (exit : List Env → t) → t -- 入れ替える必要のあるやつはphaseがThinkingのやつのみ set-state redu origin [] f b env envl exit = bit-force-search redu [] origin env (record env{ph = (f ++ b)} ∷ envl) exit -- Stateが先に尽きる set-state redu origin state@(s ∷ ss) f b env envl exit with b ... | [] = bit-force-search redu [] origin env (record env{ph = f} ∷ envl) exit ... | p ∷ ps with next-code p set-state redu origin (true ∷ ss) f b env envl exit | p ∷ ps | C_eating = set-state redu origin ss (f ++ (record p{next-code = C_putdown_lfork} ∷ [])) ps env envl exit -- 変更対象なので変更して奥に進む set-state redu origin (false ∷ ss) f b env envl exit | p ∷ ps | C_eating = set-state redu origin ss (f ++ (p ∷ [])) ps env envl exit -- 変更対象なので変更して奥に進む set-state redu origin (true ∷ ss) f b env envl exit | p ∷ ps | C_thinking = set-state redu origin ss (f ++ (record p{next-code = C_pickup_rfork} ∷ [])) ps env envl exit -- 変更対象なので変更して奥に進む set-state redu origin (false ∷ ss) f b env envl exit | p ∷ ps | C_thinking = set-state redu origin ss (f ++ (p ∷ [])) ps env envl exit -- 変更対象なので変更して奥に進む set-state redu origin (s ∷ ss) f b env envl exit | p ∷ ps | _ = set-state redu origin state (f ++ (p ∷ [])) ps env envl exit -- 変更対象ではないので奥を対象にする test-search : List Env test-search = init-table 3 (λ e0 → brute-force-search e0 (λ e1 → e1)) -- テーブルをたどるために若干loopが必要 pickup-rfork-c : {n : Level} {t : Set n} → ℕ → Phi → Env → (Env → t) → t pickup-rfork-c ind p env exit = pickup-rfork-p ind [] (table env) p env exit where pickup-rfork-p : {n : Level} {t : Set n} → ℕ → (f b : List ℕ) → Phi → Env → (Env → t) → t pickup-rfork-p zero f [] p env exit = exit env pickup-rfork-p zero f (zero ∷ ts) p env exit = exit record env{ph = ((ph env) ++ (record p{right-hand = true ; next-code = C_pickup_lfork} ∷ [])); table = (f ++ ((pid p) ∷ ts))} -- 取得可能なので変更する envの後ろにappendする感じ pickup-rfork-p zero f ((suc x) ∷ ts) p env exit = exit record env{ph = ((ph env) ++ p ∷ [])} -- 取得不可能なので変更せず終了する pickup-rfork-p (suc ind) f [] p env exit = exit env pickup-rfork-p (suc ind) f (x ∷ ts) p env exit = pickup-rfork-p ind (f ++ (x ∷ [])) ts p env exit pickup-lfork-c : {n : Level} {t : Set n} → ℕ → Phi → Env → (Env → t) → t pickup-lfork-c ind p env exit = pickup-lfork-p (suc ind) [] (table env) p env exit where pickup-lfork-p : {n : Level} {t : Set n} → ℕ → (f b : List ℕ) → Phi → Env → (Env → t) → t pickup-lfork-p zero f [] p env exit with table env ... | [] = exit env ... | 0 ∷ ts = exit record env{ph = ((ph env) ++ (record p{left-hand = true ; next-code = C_eating} ∷ [])); table = ((pid p) ∷ ts)} -- 取得可能なので変更する envの後ろにappendする感じ ... | (suc x) ∷ ts = exit record env{ph = ((ph env) ++ p ∷ [])} -- 取得不可能なので変更せず終了する pickup-lfork-p zero f (0 ∷ ts) p env exit = exit record env{ph = ((ph env) ++ (record p{left-hand = true ; next-code = C_eating} ∷ [])); table = (f ++ ((pid p) ∷ ts))} -- 取得可能なので変更する envの後ろにappendする感じ pickup-lfork-p zero f ((suc x) ∷ ts) p env exit = exit record env{ph = ((ph env) ++ p ∷ [])} -- 取得不可能なので変更せず終了する pickup-lfork-p (suc ind) f [] p env exit = exit env pickup-lfork-p (suc ind) f (x ∷ ts) p env exit = pickup-lfork-p ind (f ++ (x ∷ [])) ts p env exit putdown-lfork-c : {n : Level} {t : Set n} → ℕ → Phi → Env → (Env → t) → t putdown-lfork-c ind p env exit = putdown-lfork-p (suc ind) [] (table env) p env exit where putdown-lfork-p : {n : Level} {t : Set n} → ℕ → (f b : List ℕ) → Phi → Env → (Env → t) → t putdown-lfork-p zero f [] p env exit with table env ... | [] = exit env ... | x ∷ ts = exit record env{ph = ((ph env) ++ (record p{left-hand = false ; next-code = C_putdown_rfork} ∷ [])); table = (0 ∷ ts)} -- 取得可能なので変更する envの後ろにappendする感じ putdown-lfork-p zero f (x ∷ ts) p env exit = exit record env{ph = ((ph env) ++ (record p{left-hand = false ; next-code = C_putdown_rfork} ∷ [])); table = (f ++ (0 ∷ ts))} -- 取得可能なので変更する envの後ろにappendする感じ putdown-lfork-p (suc ind) f [] p env exit = exit env putdown-lfork-p (suc ind) f (x ∷ ts) p env exit = putdown-lfork-p ind (f ++ (x ∷ [])) ts p env exit putdown-rfork-c : {n : Level} {t : Set n} → ℕ → Phi → Env → (Env → t) → t putdown-rfork-c ind p env exit = putdown-rfork-p ind [] (table env) p env exit where putdown-rfork-p : {n : Level} {t : Set n} → ℕ → (f b : List ℕ) → Phi → Env → (Env → t) → t putdown-rfork-p zero f [] p env exit = exit env putdown-rfork-p zero f (x ∷ ts) p env exit = exit record env{ph = ((ph env) ++ (record p{right-hand = false ; next-code = C_thinking} ∷ [])); table = (f ++ (0 ∷ ts))} -- 取得可能なので変更する envの後ろにappendする感じ putdown-rfork-p (suc ind) f [] p env exit = exit env putdown-rfork-p (suc ind) f (x ∷ ts) p env exit = putdown-rfork-p ind (f ++ (x ∷ [])) ts p env exit thinking-c : {n : Level} {t : Set n} → ℕ → Phi → Env → (Env → t) → t thinking-c ind p env exit = exit record env{ph = ((ph env) ++ p ∷ [])} -- 取得不要なので変更せず終了する code_table-test : {n : Level} {t : Set n} → Code → ℕ → Phi → Env → (Env → t) → t code_table-test C_putdown_rfork = putdown-rfork-c code_table-test C_putdown_lfork = putdown-lfork-c code_table-test C_thinking = thinking-c code_table-test C_pickup_rfork = pickup-rfork-c code_table-test C_pickup_lfork = pickup-lfork-c code_table-test C_eating = thinking-c -- code_table-test C_set = ? step-c : {n : Level} {t : Set n} → Env → (exit : Env → t) → t step-c env exit = step-p (length (table env)) 0 record env{ph = []} (ph env) exit where step-p : {n : Level} {t : Set n} → (redu index : ℕ) → Env → (List Phi) → (exit : Env → t) → t step-p zero ind env pl exit = exit env step-p (suc redu) ind env [] exit = exit env step-p (suc redu) ind env (p ∷ ps) exit = code_table-test (next-code p) ind p env (λ e → step-p redu (suc ind) e ps exit ) step-c-debug : {n : Level} {t : Set n} → Env → (exit : List Env → t) → t step-c-debug env exit = step-p (length (table env)) 0 (record env{ph = [] } ∷ env ∷ []) (ph env) exit where step-p : {n : Level} {t : Set n} → (redu index : ℕ) → List Env → (List Phi) → (exit : List Env → t) → t step-p zero ind envl pl exit = exit envl step-p (suc redu) ind [] pl exit = exit [] step-p (suc redu) ind (e ∷ envl) [] exit = exit [] step-p (suc redu) ind (e ∷ envl) (p ∷ ps) exit = code_table-test (next-code p) ind p e (λ e0 → step-p redu (suc ind) (e0 ∷ envl) ps exit ) exec-n : {n : Level} {t : Set n} → ℕ → Env → (exit : List Env → t) → t exec-n n env exit = exec-n-p n (env ∷ []) exit where exec-n-p : {n : Level} {t : Set n} → ℕ → List Env → (exit : List Env → t) → t exec-n-p zero envl exit = exit envl exec-n-p (suc n) [] exit = exit [] exec-n-p (suc n) envl@(x ∷ es) exit = step-c x (λ e → exec-n-p n (e ∷ envl) exit) init-brute-force : {n : Level} {t : Set n} → List Env → (exit : List (List Env) → t) → t init-brute-force envl exit = init-brute-force-p envl [] exit where init-brute-force-p : {n : Level} {t : Set n} → List Env → List (List Env) → (exit : List (List Env) → t) → t init-brute-force-p [] envll exit = exit envll init-brute-force-p (x ∷ envl) envll exit = init-brute-force-p envl ((x ∷ []) ∷ envll) exit search-brute-force-envll : {n : Level} {t : Set n} → List (List Env) → (exit : List (List Env) → t) → t search-brute-force-envll envll exit = search-brute-force-envll-p [] envll exit where search-brute-force-envll-p : {n : Level} {t : Set n} → (f b : List (List Env)) → (exit : List (List Env) → t) → t search-brute-force-envll-p f [] exit = exit f search-brute-force-envll-p f ([] ∷ bs) exit = search-brute-force-envll-p f bs exit search-brute-force-envll-p f (b@(x ∷ xs) ∷ bs) exit = brute-force-search x (λ e0 → make-brute-force-envl [] e0 b (λ e1 → search-brute-force-envll-p (f ++ e1) bs exit) ) where make-brute-force-envl : {n : Level} {t : Set n} → List (List Env) → (state p_step : List Env) → (exit : List (List Env) → t) → t make-brute-force-envl res [] xs exit = exit res make-brute-force-envl res (x ∷ state) xs exit = make-brute-force-envl (res ++ (x ∷ xs) ∷ []) state xs exit step-brute-force : {n : Level} {t : Set n} → List (List Env) → (exit : List (List Env) → t) → t step-brute-force envll exit = step-brute-force-p [] envll exit where step-brute-force-p : {n : Level} {t : Set n} → (f b : List (List Env)) → (exit : List (List Env) → t) → t step-brute-force-p f [] exit = exit f step-brute-force-p f ([] ∷ bs) exit = step-brute-force-p f bs exit step-brute-force-p f ((x ∷ xs) ∷ bs) exit = step-c x (λ e0 → step-brute-force-p (f ++ ((e0 ∷ x ∷ xs) ∷ [])) bs exit) exec-brute-force : {n : Level} {t : Set n} → ℕ → List (List Env) → (exit : List (List Env) → t) → t exec-brute-force n envll exit = exec-brute-force-p n envll exit where exec-brute-force-p : {n : Level} {t : Set n} → ℕ → List (List Env) → (exit : List (List Env) → t) → t exec-brute-force-p zero envll exit = exit envll exec-brute-force-p (suc n) envll exit = search-brute-force-envll envll (λ e1 → step-brute-force e1 (λ e2 → exec-brute-force-p n e2 exit)) {- model-check-deadlock : {n : Level} {t : Set n} → List (List Env) → (exit : List (List Env) → t) → t model-check-deadlock envll exit = test11 [] envll exit where test11 : {n : Level} {t : Set n} → (f b : List (List Env)) → (exit : List (List Env) → t) → t test11 f [] exit = exit f test11 f ([] ∷ bs) exit = test11 f bs exit test11 f (s@(x ∷ []) ∷ bs) exit = test11 (f ++ (s ∷ [])) bs exit test11 f (s@(x ∷ x1 ∷ []) ∷ bs) exit = test11 (f ++ (s ∷ [])) bs exit test11 f ((x ∷ x1 ∷ x2 ∷ xs) ∷ bs) exit = {!!} -} record metadata : Set where field num-branch : ℕ wait-list : List ℕ open metadata record MetaEnv : Set where field DG : List Env meta : metadata deadlock : Bool is-done : Bool is-step : Bool open MetaEnv record MetaEnv2 : Set where field DG : List (List Env) metal : List MetaEnv -- 結局探索して1ステップ実行(インターリーディング)するからMetaEnvのList Envがちょうどよい open MetaEnv2 branch-deadlock-check : {n : Level} {t : Set n} → List MetaEnv → (exit : List MetaEnv → t) → t branch-deadlock-check metaenv exit = search-brute-force-envll-p [] metaenv exit where search-brute-force-envll-p : {n : Level} {t : Set n} → (f b : List (MetaEnv)) → (exit : List (MetaEnv) → t) → t search-brute-force-envll-p f [] exit = exit f search-brute-force-envll-p f b@(metaenv ∷ bs) exit with DG metaenv ... | [] = search-brute-force-envll-p f bs exit ... | (env ∷ envs) = brute-force-search env (λ e0 → make-brute-force-envl (length e0) [] metaenv e0 (λ e1 → search-brute-force-envll-p (f ++ e1) bs exit)) where make-brute-force-envl : {n : Level} {t : Set n} → ℕ → List MetaEnv → MetaEnv → (state : List Env) → (exit : List MetaEnv → t) → t make-brute-force-envl len res xs [] exit = exit res make-brute-force-envl len res xs (x ∷ state) exit = make-brute-force-envl len (res ++ (record xs{DG = (x ∷ DG xs); meta = record (meta xs){num-branch = len}} ∷ [])) xs state exit data _===_ {n} {A : Set n} : List A -> List A -> Set n where reflection : {x : List A} -> x === x reflection1 : {x : List A} -> (x === x) {- testhoge : Code → Code → ℕ testhoge C_putdown_rfork C_putdown_rfork = {!!} testhoge C_putdown_lfork C_putdown_lfork = {!!} testhoge C_pickup_rfork C_pickup_rfork = {!!} testhoge C_pickup_lfork C_pickup_lfork = {!!} testhoge _ _ = {!!} -} step-deadlock-check : {n : Level} {t : Set n} → List MetaEnv → (exit : List MetaEnv → t) → t step-deadlock-check metaenvl exit = deadlock-check-p [] metaenvl exit where deadlock-check-p : {n : Level} {t : Set n} → (f b : List (MetaEnv)) → (exit : List (MetaEnv) → t) → t deadlock-check-p f [] exit = exit f deadlock-check-p f b@(metaenv ∷ bs) exit with DG metaenv ... | [] = deadlock-check-p f bs exit ... | p0 ∷ [] = deadlock-check-p f bs exit ... | p0 ∷ bp ∷ envs = check-wait-process [] (ph p0) bp ( λ e → deadlock-check-p (f ++ (record metaenv{meta = record (meta metaenv){wait-list = e } } ∷ [])) bs exit) where check-wait-process : {n : Level} {t : Set n} → List ℕ → List Phi → (p1 : Env) → (exit : List ℕ → t) → t check-wait-process waitl [] p1 exit = exit waitl check-wait-process waitl (p ∷ ps) p1 exit = hoge11 p (ph p1) (λ e → check-wait-process (waitl ++ e) ps p1 exit) where hoge11 : {n : Level} {t : Set n} → Phi → List Phi → (exit : List ℕ → t) → t hoge11 p [] exit = exit [] hoge11 p (bp ∷ p1s) exit with <-cmp (pid p) (pid bp) hoge11 p (bp ∷ p1s) exit | tri< a ¬b ¬c = hoge11 p p1s exit hoge11 p (bp ∷ p1s) exit | tri> ¬a ¬b c = hoge11 p p1s exit hoge11 p (bp ∷ p1s) exit | tri≈ ¬a b ¬c with (next-code p) hoge11 p (bp ∷ p1s) exit | tri≈ ¬a b ¬c | next-codea with (next-code bp) hoge11 p (bp ∷ p1s) exit | tri≈ ¬a b ¬c | C_putdown_rfork | C_putdown_rfork = exit (pid p ∷ []) hoge11 p (bp ∷ p1s) exit | tri≈ ¬a b ¬c | C_putdown_lfork | C_putdown_lfork = exit (pid p ∷ []) hoge11 p (bp ∷ p1s) exit | tri≈ ¬a b ¬c | C_thinking | C_thinking = exit (pid p ∷ []) hoge11 p (bp ∷ p1s) exit | tri≈ ¬a b ¬c | C_pickup_rfork | C_pickup_rfork = exit (pid p ∷ []) hoge11 p (bp ∷ p1s) exit | tri≈ ¬a b ¬c | C_pickup_lfork | C_pickup_lfork = exit (pid p ∷ []) hoge11 p (bp ∷ p1s) exit | tri≈ ¬a b ¬c | C_eating | C_eating = exit (pid p ∷ []) hoge11 p (bp ∷ p1s) exit | tri≈ ¬a b ¬c | _ | _ = exit [] step-brute-force-meta : {n : Level} {t : Set n} → List MetaEnv → (exit : List MetaEnv → t) → t step-brute-force-meta metaenvl exit = step-brute-force-p [] metaenvl exit where step-brute-force-p : {n : Level} {t : Set n} → (f b : List MetaEnv) → (exit : List MetaEnv → t) → t step-brute-force-p f [] exit = exit f step-brute-force-p f (metaenv ∷ bs) exit with DG metaenv ... | [] = step-brute-force-p f bs exit ... | envl@(x ∷ xs) with is-done metaenv ... | true = step-brute-force-p (f ++ (metaenv ∷ []) ) bs exit ... | false = step-c x (λ e0 → step-brute-force-p (f ++ (record metaenv{DG = e0 ∷ envl} ∷ [])) bs exit) judge-deadlock : {n : Level} {t : Set n} → List MetaEnv → (exit : List MetaEnv → t) → t judge-deadlock metaenvl exit = judge-deadlock-p [] metaenvl exit where judge-deadlock-p : {n : Level} {t : Set n} → (f b : List (MetaEnv)) → (exit : List (MetaEnv) → t) → t judge-deadlock-p f [] exit = exit f judge-deadlock-p f (metaenv ∷ bs) exit with num-branch (meta metaenv) ... | suc (suc branchnum) = judge-deadlock-p (f ++ (metaenv ∷ []) ) bs exit ... | zero = judge-deadlock-p (f ++ (metaenv ∷ []) ) bs exit ... | suc zero with (DG metaenv ) ... | [] = judge-deadlock-p (f ++ (metaenv ∷ []) ) bs exit ... | p ∷ ps with <-cmp (length (wait-list (meta metaenv))) (length (ph p)) ... | tri< a ¬b ¬c = judge-deadlock-p (f ++ (metaenv ∷ []) ) bs exit ... | tri> ¬a ¬b c = judge-deadlock-p (f ++ (metaenv ∷ []) ) bs exit ... | tri≈ ¬a b ¬c = judge-deadlock-p (f ++ (record metaenv{deadlock = true} ∷ []) ) bs exit judge-deadlock-metaenv : {n : Level} {t : Set n} → MetaEnv2 → (exit : MetaEnv2 → t) → t judge-deadlock-metaenv meta2 exit = judge-deadlock-p [] (metal meta2) (λ e → exit record meta2{metal = e} ) where judge-deadlock-p : {n : Level} {t : Set n} → (f b : List (MetaEnv)) → (exit : List (MetaEnv) → t) → t judge-deadlock-p f [] exit = exit f judge-deadlock-p f (metaenv ∷ bs) exit with num-branch (meta metaenv) ... | suc (suc branchnum) = judge-deadlock-p (f ++ (metaenv ∷ []) ) bs exit ... | zero = judge-deadlock-p (f ++ (metaenv ∷ []) ) bs exit ... | suc zero with (DG metaenv ) ... | [] = judge-deadlock-p (f ++ (metaenv ∷ []) ) bs exit ... | p ∷ ps with <-cmp (length (wait-list (meta metaenv))) (length (ph p)) ... | tri< a ¬b ¬c = judge-deadlock-p (f ++ (metaenv ∷ []) ) bs exit ... | tri> ¬a ¬b c = judge-deadlock-p (f ++ (metaenv ∷ []) ) bs exit ... | tri≈ ¬a b ¬c = judge-deadlock-p (f ++ (record metaenv{deadlock = true} ∷ []) ) bs exit {- test-env-deadlock : {n : Level} {t : Set n} → (a b : Env)→ (exit : List MetaEnv → t) → t test-env-deadlock a b exit = test12 (ph a) (ph b) exit where test12 : {n : Level} {t : Set n} → (a b : List Phi)→ (exit : List MetaEnv → t) → t test12 [] b = {!!} test12 (x ∷ a) b = {!!} -} {- test12 : List ℕ → (a b0 b : List Phi) → List ℕ test12 stack [] b0 b = stack test12 stack (a ∷ as) b0 [] = test12 stack as b0 b0 test12 stack (a ∷ as) b0 (b ∷ bs) with <-cmp (pid a) (pid b) test12 stack al@(a ∷ as) b0 (b ∷ bs) | tri< a₁ ¬b ¬c = test12 stack al b0 bs test12 stack al@(a ∷ as) b0 (b ∷ bs) | tri> ¬a ¬b c = test12 stack al b0 bs test12 stack al@(a ∷ as) b0 (b ∷ bs) | tri≈ ¬a b₁ ¬c with (next-code a) test12 stack al@(a ∷ as) b0 (b ∷ bs) | _ | aaaa with (next-code b) test12 stack (a ∷ as) b0 (b ∷ bs) | tri≈ _ _ _ | C_putdown_rfork | C_putdown_rfork = pid a ∷ [] test12 stack (a ∷ as) b0 (b ∷ bs) | tri≈ _ _ _ | C_putdown_lfork | C_putdown_lfork = pid a ∷ [] test12 stack (a ∷ as) b0 (b ∷ bs) | tri≈ _ _ _ | C_thinking | C_thinking = pid a ∷ [] test12 stack (a ∷ as) b0 (b ∷ bs) | tri≈ _ _ _ | C_pickup_rfork | C_pickup_rfork = pid a ∷ [] test12 stack (a ∷ as) b0 (b ∷ bs) | tri≈ _ _ _ | C_pickup_lfork | C_pickup_lfork = pid a ∷ [] test12 stack (a ∷ as) b0 (b ∷ bs) | tri≈ _ _ _ | C_eating | C_eating = pid a ∷ [] test12 stack al@(a ∷ as) b0 (b ∷ bs) | tri≈ _ _ _ | _ | _ = test12 stack al b0 bs -} branch-search-meta2 : {n : Level} {t : Set n} → MetaEnv2 → (next exit : MetaEnv2 → t) → t branch-search-meta2 meta2 next1 exit = search-brute-force-envll-p [] (metal meta2) (λ e0 → next1 record meta2{metal = e0} ) (λ e → exit meta2) where make-brute-force-envl : {n : Level} {t : Set n} → (statel : List MetaEnv) → ( f : List Env) → (state : MetaEnv) → (exit : List MetaEnv → t) → t search-brute-force-envll-p : {n : Level} {t : Set n} → (f b : List (MetaEnv)) → (next exit : List MetaEnv → t) → t search-brute-force-envll-p f [] next1 exit = exit f search-brute-force-envll-p f b@(x ∷ bs) next1 exit with is-done x ... | true = search-brute-force-envll-p (f ++ (x ∷ [])) bs next1 exit ... | false with is-step x ... | false = search-brute-force-envll-p (f ++ (x ∷ [])) bs next1 exit ... | true with DG x ... | [] = search-brute-force-envll-p f bs next1 exit ... | env1 ∷ sss = brute-force-search env1 (λ e2 → make-brute-force-envl [] e2 x (λ e1 → next1 (f ++ bs ++ (record x{is-done = true} ∷ e1)) ) ) make-brute-force-envl res [] meta exit = exit res make-brute-force-envl res (addenv ∷ statel) meta exit = make-brute-force-envl (res ++ ( record meta{DG = addenv ∷ (DG meta); is-done = false; is-step = false} ∷ [])) statel meta exit step-meta2 : {n : Level} {t : Set n} → MetaEnv2 → (next exit : MetaEnv2 → t) → t step-meta2 meta2 next1 exit = step-brute-force-p1 [] (metal meta2) (λ envll → next1 record meta2{metal = envll}) (λ e → exit meta2) where step-brute-force-p-p : {n : Level} {t : Set n} → (envl : (List Env)) → (exit : (List Env) → t) → t step-brute-force-p1 : {n : Level} {t : Set n} → (f b : List (MetaEnv)) → (next exit : List (MetaEnv) → t) → t step-brute-force-p1 f [] next1 exit = next1 f step-brute-force-p1 f (metaenv ∷ metaenvl) next1 exit with is-step metaenv ... | true = step-brute-force-p1 (f ++ (metaenv ∷ [])) metaenvl next1 exit ... | false = step-brute-force-p-p (DG metaenv) (λ e0 → step-brute-force-p1 (f ++ (record metaenv{DG = e0; is-step = true} ∷ [])) metaenvl next1 exit) step-brute-force-p-p [] exit = exit [] step-brute-force-p-p (x ∷ bs) exit = step-c x (λ e0 → exit (e0 ∷ bs)) {-# TERMINATING #-} check-same-env : {n : Level} {t : Set n} → MetaEnv2 → (exit : MetaEnv2 → t) → t check-same-env meta2 exit = check-same-env-p [] (metal meta2) meta2 exit where check-wait-process-p : {n : Level} {t : Set n} → ℕ → List Phi → (p1 : Env) → (exit : ℕ → t) → t check-wait-process-p waitl [] p1 exit = exit waitl check-wait-process-p waitl (p ∷ ps) p1 exit = hoge11 waitl p (ph p1) (λ e → check-wait-process-p e ps p1 exit) where hoge11 : {n : Level} {t : Set n} → ℕ → Phi → List Phi → (exit : ℕ → t) → t hoge11 n p [] exit = exit n hoge11 n p (bp ∷ p1s) exit with <-cmp (pid p) (pid bp) hoge11 n p (bp ∷ p1s) exit | tri< a ¬b ¬c = hoge11 n p p1s exit hoge11 n p (bp ∷ p1s) exit | tri> ¬a ¬b c = hoge11 n p p1s exit hoge11 n p (bp ∷ p1s) exit | tri≈ ¬a b ¬c with (next-code p) hoge11 n p (bp ∷ p1s) exit | tri≈ ¬a b ¬c | next-codea with (next-code bp) hoge11 n p (bp ∷ p1s) exit | tri≈ ¬a b ¬c | C_putdown_rfork | C_putdown_rfork = exit (suc n) hoge11 n p (bp ∷ p1s) exit | tri≈ ¬a b ¬c | C_putdown_lfork | C_putdown_lfork = exit (suc n) hoge11 n p (bp ∷ p1s) exit | tri≈ ¬a b ¬c | C_thinking | C_thinking = exit (suc n) hoge11 n p (bp ∷ p1s) exit | tri≈ ¬a b ¬c | C_pickup_rfork | C_pickup_rfork = exit (suc n) hoge11 n p (bp ∷ p1s) exit | tri≈ ¬a b ¬c | C_pickup_lfork | C_pickup_lfork = exit (suc n) hoge11 n p (bp ∷ p1s) exit | tri≈ ¬a b ¬c | C_eating | C_eating = exit (suc n) hoge11 n p (bp ∷ p1s) exit | tri≈ ¬a b ¬c | _ | _ = exit n check-wait-process : {n : Level} {t : Set n} → ℕ → List Phi → List MetaEnv → MetaEnv → (exit : List MetaEnv → t) → t check-wait-process n pl metal me exit with metal ... | sss with <-cmp (length pl) n ... | tri≈ ¬a b ¬c = exit (me ∷ []) check-wait-process n pl metal me exit | [] | tri< a ¬b ¬c = exit [] check-wait-process n pl metal me exit | x ∷ sss | tri< a ¬b ¬c with DG x check-wait-process n pl metal me exit | x ∷ sss | tri< a ¬b ¬c | [] = exit [] check-wait-process n pl metal me exit | x ∷ sss | tri< a ¬b ¬c | env ∷ envs = check-wait-process-p 0 (ph env) env (λ nn → check-wait-process nn pl sss me exit) check-wait-process n pl metal me exit | [] | tri> ¬a ¬b c = exit [] check-wait-process n pl metal me exit | x ∷ sss | tri> ¬a ¬b c with DG x ... | [] = exit [] ... | env ∷ envs = check-wait-process-p 0 (ph env) env (λ nn → check-wait-process nn pl sss me exit) check-same-env-p : {n : Level} {t : Set n} → (f b : List MetaEnv) → MetaEnv2 → (exit : MetaEnv2 → t) → t check-same-env-p [] [] metae2 exit = exit metae2 check-same-env-p f@(x ∷ fs) [] metae2 exit = step-meta2 record metae2{metal = f} (λ me2 → branch-search-meta2 me2 (λ me3 → check-same-env me3 exit) exit ) exit check-same-env-p [] bl@(b ∷ bs) metae2 exit with DG b ... | [] = check-same-env-p [] bs metae2 exit ... | env ∷ envs = check-wait-process 0 (ph env) bl b (λ lme → check-same-env-p ([] ++ lme) bl metae2 exit) check-same-env-p f@(x ∷ fs) bl@(b ∷ bs) metae2 exit with DG b ... | [] = check-same-env-p f bs metae2 exit ... | env ∷ envs = check-wait-process 0 (ph env) bl b (λ lme → check-same-env-p (f ++ lme) bl metae2 exit) check-same-env-test : {n : Level} {t : Set n} → MetaEnv2 → (exit : MetaEnv2 → t) → t check-same-env-test meta2 exit = check-same-env-p [] (metal meta2) meta2 exit where check-wait-process-p : {n : Level} {t : Set n} → ℕ → List Phi → (p1 : Env) → (exit : ℕ → t) → t check-wait-process-p waitl [] p1 exit = exit waitl check-wait-process-p waitl (p ∷ ps) p1 exit = hoge11 waitl p (ph p1) (λ e → check-wait-process-p e ps p1 exit) where hoge11 : {n : Level} {t : Set n} → ℕ → Phi → List Phi → (exit : ℕ → t) → t hoge11 n p [] exit = exit n hoge11 n p (bp ∷ p1s) exit with <-cmp (pid p) (pid bp) hoge11 n p (bp ∷ p1s) exit | tri< a ¬b ¬c = hoge11 n p p1s exit hoge11 n p (bp ∷ p1s) exit | tri> ¬a ¬b c = hoge11 n p p1s exit hoge11 n p (bp ∷ p1s) exit | tri≈ ¬a b ¬c with (next-code p) hoge11 n p (bp ∷ p1s) exit | tri≈ ¬a b ¬c | next-codea with (next-code bp) hoge11 n p (bp ∷ p1s) exit | tri≈ ¬a b ¬c | C_putdown_rfork | C_putdown_rfork = exit (suc n) hoge11 n p (bp ∷ p1s) exit | tri≈ ¬a b ¬c | C_putdown_lfork | C_putdown_lfork = exit (suc n) hoge11 n p (bp ∷ p1s) exit | tri≈ ¬a b ¬c | C_thinking | C_thinking = exit (suc n) hoge11 n p (bp ∷ p1s) exit | tri≈ ¬a b ¬c | C_pickup_rfork | C_pickup_rfork = exit (suc n) hoge11 n p (bp ∷ p1s) exit | tri≈ ¬a b ¬c | C_pickup_lfork | C_pickup_lfork = exit (suc n) hoge11 n p (bp ∷ p1s) exit | tri≈ ¬a b ¬c | C_eating | C_eating = exit (suc n) hoge11 n p (bp ∷ p1s) exit | tri≈ ¬a b ¬c | _ | _ = exit n check-wait-process : {n : Level} {t : Set n} → ℕ → List Phi → List MetaEnv → MetaEnv → (exit : List MetaEnv → t) → t check-wait-process n pl metal me exit with metal ... | sss with <-cmp (length pl) n ... | tri≈ ¬a b ¬c = exit (me ∷ []) check-wait-process n pl metal me exit | [] | tri< a ¬b ¬c = exit (me ∷ []) check-wait-process n pl metal me exit | x ∷ sss | tri< a ¬b ¬c with DG x check-wait-process n pl metal me exit | x ∷ sss | tri< a ¬b ¬c | [] = exit [] check-wait-process n pl metal me exit | x ∷ sss | tri< a ¬b ¬c | env ∷ envs = check-wait-process-p 0 (ph env) env (λ nn → check-wait-process nn pl sss me exit) check-wait-process n pl metal me exit | [] | tri> ¬a ¬b c = exit (me ∷ []) check-wait-process n pl metal me exit | x ∷ sss | tri> ¬a ¬b c with DG x ... | [] = exit [] ... | env ∷ envs = check-wait-process-p 0 (ph env) env (λ nn → check-wait-process nn pl sss me exit) make-metaenvl : {n : Level} {t : Set n} → (f : (List MetaEnv)) → List (List Env) → (exit : List MetaEnv → t) → t make-metaenvl f [] exit = exit f make-metaenvl f ([] ∷ bs) exit = make-metaenvl f bs exit make-metaenvl f ((e ∷ es) ∷ bs) exit = make-metaenvl (f ++ (record{ DG = (e ∷ []); meta = record { num-branch = zero ; wait-list = [] }; deadlock = true; is-done = false; is-step = false} ∷ [])) bs exit check-same-env-p : {n : Level} {t : Set n} → (f b : List MetaEnv) → MetaEnv2 → (exit : MetaEnv2 → t) → t check-same-env-p [] [] metae2 exit = make-metaenvl [] (DG metae2) (λ lme → exit record metae2{metal = lme}) check-same-env-p f@(x ∷ fs) [] metae2 exit = exit record metae2{metal = f} check-same-env-p [] bl@(b ∷ bs) metae2 exit with DG b ... | [] = check-same-env-p [] bs metae2 exit ... | env ∷ envs = check-wait-process 0 (ph env) bl b (λ lme → check-same-env-p ([] ++ lme) bs metae2 exit) check-same-env-p f@(x ∷ fs) bl@(b ∷ bs) metae2 exit with DG b ... | [] = check-same-env-p f bs metae2 exit ... | env ∷ envs = check-wait-process 0 (ph env) bl b (λ lme → check-same-env-p (f ++ lme) bs metae2 exit) {- search-brute-force-envll : {n : Level} {t : Set n} → List (List Env) → (exit : List (List Env) → t) → t search-brute-force-envll envll exit = search-brute-force-envll-p [] envll exit where search-brute-force-envll-p : {n : Level} {t : Set n} → (f b : List (List Env)) → (exit : List (List Env) → t) → t search-brute-force-envll-p f [] exit = exit f search-brute-force-envll-p f ([] ∷ bs) exit = search-brute-force-envll-p f bs exit search-brute-force-envll-p f (b@(x ∷ xs) ∷ bs) exit = brute-force-search x (λ e0 → make-brute-force-envl [] e0 b (λ e1 → search-brute-force-envll-p (f ++ e1) bs exit) ) where make-brute-force-envl : {n : Level} {t : Set n} → List (List Env) → (state p_step : List Env) → (exit : List (List Env) → t) → t make-brute-force-envl res [] xs exit = exit res make-brute-force-envl res (x ∷ state) xs exit = make-brute-force-envl (res ++ (x ∷ xs) ∷ []) state xs exit -} test-env : Env test-env = (record { table = 0 ∷ 0 ∷ 0 ∷ [] ; ph = record { pid = 1 ; left-hand = false ; right-hand = false ; next-code = C_thinking } ∷ record { pid = 2 ; left-hand = false ; right-hand = false ; next-code = C_thinking } ∷ record { pid = 3 ; left-hand = false ; right-hand = false ; next-code = C_thinking } ∷ [] }) test-env1 : Env test-env1 = (record { table = 1 ∷ 2 ∷ 0 ∷ [] ; ph = record { pid = 1 ; left-hand = false ; right-hand = false ; next-code = C_pickup_rfork } ∷ record { pid = 2 ; left-hand = false ; right-hand = false ; next-code = C_pickup_rfork } ∷ record { pid = 3 ; left-hand = false ; right-hand = false ; next-code = C_thinking } ∷ [] }) test-metaenv : MetaEnv test-metaenv = record { DG = test-env1 ∷ test-env ∷ [] ; meta = record { num-branch = zero ; wait-list = [] } ; deadlock = true ; is-done = false ; is-step = false } test-metaenv1 : MetaEnv test-metaenv1 = record { DG = test-env ∷ [] ; meta = record { num-branch = zero ; wait-list = [] } ; deadlock = true; is-done = false ; is-step = true } test-metaenv2 : MetaEnv2 test-metaenv2 = record { DG = [] ; metal = test-metaenv ∷ [] } test-metaenv3 : MetaEnv2 test-metaenv3 = record { DG = [] ; metal = test-metaenv1 ∷ [] } test-envl : List Env test-envl = test-env1 ∷ test-env1 ∷ [] testhoge : {n : Level} {t : Set n} → (env1 env2 : MetaEnv2) → (exit : MetaEnv2 → t) → t testhoge env1 env2 exit = loop-target-metaenv (metal env1) env2 exit where eq-pid : {n : Level} {t : Set n} → MetaEnv2 → (phl1 phl2 : List Phi) → (p1 p2 : Phi) → (exit : MetaEnv2 → t) → (loop : Bool → t) → t eq-lhand : {n : Level} {t : Set n} → MetaEnv2 → (phl1 phl2 : List Phi) → (p1 p2 : Phi) → (exit : MetaEnv2 → t ) → ( loop : Bool → t) → t eq-rhand : {n : Level} {t : Set n} → MetaEnv2 → (phl1 phl2 : List Phi) → (p1 p2 : Phi) → (exit : MetaEnv2 → t ) → ( loop : Bool → t) → t eq-next-code : {n : Level} {t : Set n} → MetaEnv2 → (phl1 phl2 : List Phi) → (p1 p2 : Phi) → (exit : MetaEnv2 → t ) → ( loop : Bool → t) → t eq-env : {n : Level} {t : Set n} → MetaEnv2 → ( e1 e2 : List Phi) → (exit : MetaEnv2 → t) → (loop : Bool → t) → t loop-metaenv : {n : Level} {t : Set n} → MetaEnv → (origin : MetaEnv2) → (f b : List MetaEnv) → (exit : MetaEnv2 → t) → t loop-target-metaenv : {n : Level} {t : Set n} → (env1 : List MetaEnv) → ( env2 : MetaEnv2) → (exit : MetaEnv2 → t) → t loop-target-metaenv [] metaenv2 exit = exit metaenv2 loop-target-metaenv (metaenv ∷ metaenvl) metaenv2 exit = loop-metaenv metaenv metaenv2 [] (metal metaenv2) (λ e → loop-target-metaenv metaenvl e exit) boolor : Bool → Bool → Bool boolor true true = true boolor true false = true boolor false true = true boolor false false = false loop-metaenv me origin f [] exit = exit (record origin{metal = me ∷ (metal origin) }) -- not found & add state to origin loop-metaenv me origin f (x ∷ metaenvl) exit with DG me ... | [] = exit origin ... | env1 ∷ envl with DG x ... | [] = loop-metaenv me origin (f ++ (x ∷ [])) metaenvl exit ... | env2 ∷ history = eq-env origin (ph env1) (ph env2) (λ exit-e → exit record origin{metal = f ++ (record x{is-done = boolor (is-done me) (is-done x); is-step = true } ∷ metaenvl)}) (λ e → loop-metaenv me origin (f ++ (x ∷ [])) metaenvl exit ) eq-env origin [] [] exit loop = exit origin -- true eq-env origin [] (x ∷ pl2) exit loop = loop false eq-env origin (p1 ∷ pl1) [] exit loop = loop false eq-env origin (p1 ∷ pl1) (p2 ∷ pl2) exit loop = eq-pid origin pl1 pl2 p1 p2 exit (λ e → loop e) -- prototype eq-pid origin pl1 pl2 p1 p2 next1 exit1 with <-cmp (pid p1) (pid p2) ... | tri< a ¬b ¬c = exit1 false ... | tri> ¬a ¬b c = exit1 false ... | tri≈ ¬a b ¬c = eq-lhand origin pl1 pl2 p1 p2 next1 exit1 eq-lhand origin pl1 pl2 phi1 phi2 next1 exit1 with (left-hand phi1) ... | sss with (left-hand phi2) eq-lhand origin pl1 pl2 phi1 phi2 next1 exit1 | true | true = eq-rhand origin pl1 pl2 phi1 phi2 next1 exit1 eq-lhand origin pl1 pl2 phi1 phi2 next1 exit1 | true | false = exit1 false eq-lhand origin pl1 pl2 phi1 phi2 next1 exit1 | false | true = exit1 false eq-lhand origin pl1 pl2 phi1 phi2 next1 exit1 | false | false = eq-rhand origin pl1 pl2 phi1 phi2 next1 exit1 eq-rhand origin pl1 pl2 phi1 phi2 next1 exit1 with (right-hand phi1) ... | sss with (right-hand phi2) eq-rhand origin pl1 pl2 phi1 phi2 next1 exit1 | true | true = eq-next-code origin pl1 pl2 phi1 phi2 next1 exit1 eq-rhand origin pl1 pl2 phi1 phi2 next1 exit1 | true | false = exit1 false eq-rhand origin pl1 pl2 phi1 phi2 next1 exit1 | false | true = exit1 false eq-rhand origin pl1 pl2 phi1 phi2 next1 exit1 | false | false = eq-next-code origin pl1 pl2 phi1 phi2 next1 exit1 eq-next-code origin pl1 pl2 p1 p2 next1 loop with (next-code p1) ... | sss with (next-code p2) eq-next-code origin pl1 pl2 p1 p2 next1 loop | C_putdown_rfork | C_putdown_rfork = eq-env origin pl1 pl2 next1 loop eq-next-code origin pl1 pl2 p1 p2 next1 loop | C_putdown_rfork | _ = loop false eq-next-code origin pl1 pl2 p1 p2 next1 loop | C_putdown_lfork | C_putdown_lfork = eq-env origin pl1 pl2 next1 loop eq-next-code origin pl1 pl2 p1 p2 next1 loop | C_putdown_lfork | _ = loop false eq-next-code origin pl1 pl2 p1 p2 next1 loop | C_thinking | C_thinking = eq-env origin pl1 pl2 next1 loop eq-next-code origin pl1 pl2 p1 p2 next1 loop | C_thinking | _ = loop false eq-next-code origin pl1 pl2 p1 p2 next1 loop | C_pickup_rfork | C_pickup_rfork = eq-env origin pl1 pl2 next1 loop eq-next-code origin pl1 pl2 p1 p2 next1 loop | C_pickup_rfork | _ = loop false eq-next-code origin pl1 pl2 p1 p2 next1 loop | C_pickup_lfork | C_pickup_lfork = eq-env origin pl1 pl2 next1 loop eq-next-code origin pl1 pl2 p1 p2 next1 loop | C_pickup_lfork | _ = loop false eq-next-code origin pl1 pl2 p1 p2 next1 loop | C_eating | C_eating = eq-env origin pl1 pl2 next1 loop eq-next-code origin pl1 pl2 p1 p2 next1 loop | C_eating | _ = loop false -- testhoge test-env test-env1 {- testhoge record { table = table₁ ; ph = [] } record { table = table ; ph = [] } = true -- same table? is that realy true ? testhoge record { table = table₁ ; ph = [] } record { table = table ; ph = (x ∷ ph₁) } = false testhoge record { table = table₁ ; ph = (x ∷ ph₁) } record { table = table ; ph = [] } = false testhoge record { table = table₁ ; ph = pl1@(x ∷ ph₁) } record { table = table ; ph = pl2@(x₁ ∷ ph₂) } = {!!} -} exec-brute-force-meta : {n : Level} {t : Set n} → ℕ → List MetaEnv → (exit : List MetaEnv → t) → t exec-brute-force-meta n metaenvl exit = exec-brute-force-p n metaenvl exit where exec-brute-force-p : {n : Level} {t : Set n} → ℕ → List MetaEnv → (exit : List MetaEnv → t) → t exec-brute-force-p zero envll exit = exit envll exec-brute-force-p (suc n) envll exit = branch-deadlock-check envll (λ e1 → step-brute-force-meta e1 (λ e2 → step-deadlock-check e2 (λ e3 → judge-deadlock e3 (λ e4 → exec-brute-force-p n e4 exit)))) test-dead-lock : List MetaEnv test-dead-lock = exec-brute-force-meta 3 (record { DG = (record { table = 0 ∷ 0 ∷ 0 ∷ [] ; ph = record { pid = 1 ; left-hand = false ; right-hand = false ; next-code = C_thinking } ∷ record { pid = 2 ; left-hand = false ; right-hand = false ; next-code = C_pickup_rfork } ∷ record { pid = 3 ; left-hand = false ; right-hand = false ; next-code = C_pickup_rfork } ∷ [] }∷ []) ; meta = record { num-branch = zero ; wait-list = [] } ; deadlock = false; is-done = false ; is-step = false } ∷ []) (λ e3 → e3) test-dead-lock-meta2 : MetaEnv2 test-dead-lock-meta2 = branch-search-meta2 (record { DG = (record { table = 0 ∷ 0 ∷ 0 ∷ [] ; ph = record { pid = 1 ; left-hand = false ; right-hand = false ; next-code = C_thinking } ∷ record { pid = 2 ; left-hand = false ; right-hand = false ; next-code = C_pickup_rfork } ∷ record { pid = 3 ; left-hand = false ; right-hand = false ; next-code = C_pickup_rfork } ∷ [] } ∷ []) ∷ [] ; metal = [] }) (λ me0 → check-same-env-test me0 (λ me1 → step-meta2 me1 (λ me2 → branch-search-meta2 me2 ( λ me3 → testhoge me3 me2 (λ me4 → check-same-env-test me4 (λ me5 → me5))) (λ e → e) ) (λ e → e) )) (λ e → e) test-dead-lock-meta21 : MetaEnv2 test-dead-lock-meta21 = branch-search-meta2 (record { DG = (record { table = 0 ∷ 0 ∷ 0 ∷ [] ; ph = record { pid = 1 ; left-hand = false ; right-hand = false ; next-code = C_thinking } ∷ record { pid = 2 ; left-hand = false ; right-hand = false ; next-code = C_pickup_rfork } ∷ record { pid = 3 ; left-hand = false ; right-hand = false ; next-code = C_pickup_rfork } ∷ [] } ∷ []) ∷ [] ; metal = [] }) (λ me0 → check-same-env-test me0 (λ me1 → step-meta2 me1 (λ me2 → branch-search-meta2 me2 ( λ me3 → testhoge me3 me2 (λ me4 → check-same-env-test me4 (λ me5 → me5))) (λ e → e) ) (λ e → e) )) (λ e → e) test-dead-lock-meta22 : ℕ → MetaEnv2 → MetaEnv2 test-dead-lock-meta22 zero metaenv2 = metaenv2 test-dead-lock-meta22 (suc n) metaenv2 = branch-search-meta2 metaenv2 (λ me1 → testhoge me1 metaenv2 (λ me2 → step-meta2 me2 (λ me3 → testhoge me3 me2 (λ me4 → test-dead-lock-meta22 n me4) ) (λ e → e)) ) (λ e → e) {-# TERMINATING #-} test-dead-lock-loop : MetaEnv2 → MetaEnv2 test-dead-lock-loop metaenv2 = branch-search-meta2 metaenv2 (λ me1 → testhoge me1 metaenv2 (λ me2 → step-meta2 me2 (λ me3 → testhoge me3 me2 (λ me4 → test-dead-lock-loop me4) ) (λ e → e)) ) (λ e → e) -- test-dead-lock-loop test-metaenv3 test-step-c2 : List (List Env) test-step-c2 = init-brute-force (record { table = 0 ∷ 0 ∷ 0 ∷ [] ; ph = record { pid = 1 ; left-hand = false ; right-hand = false ; next-code = C_thinking } ∷ record { pid = 2 ; left-hand = false ; right-hand = false ; next-code = C_pickup_rfork } ∷ record { pid = 3 ; left-hand = false ; right-hand = false ; next-code = C_pickup_rfork } ∷ [] } ∷ []) (λ e0 → exec-brute-force 2 e0 (λ e2 → e2)) -- 以下メモ -- eathingの状態はいらない Done -- tableはℕのList Done -- いきなりsearchしないで実行結果を持つ感じに -- stubを使うとCodeの引数がスマートになるのでやる -- 実行結果をListでもっているので、stepをじっこうしても変化がなかった場合をdeadlockとして検出したい -- 東恩納先輩とおなじように、waitに入れて評価する -- 余裕があったらassertにLTLの話をいれる -- loop execution -- concurrnt execution -- state db ( binary tree of processes ) -- depth first ececution -- verify temporal logic poroerries