diff options
Diffstat (limited to 'new-luxc/test')
| -rw-r--r-- | new-luxc/test/test/luxc/lang/synthesis/case/special.lux | 72 | ||||
| -rw-r--r-- | new-luxc/test/test/luxc/lang/synthesis/common.lux | 37 | ||||
| -rw-r--r-- | new-luxc/test/test/luxc/lang/synthesis/function.lux | 151 | ||||
| -rw-r--r-- | new-luxc/test/test/luxc/lang/synthesis/primitive.lux | 46 | ||||
| -rw-r--r-- | new-luxc/test/test/luxc/lang/synthesis/structure.lux | 50 |
5 files changed, 0 insertions, 356 deletions
diff --git a/new-luxc/test/test/luxc/lang/synthesis/case/special.lux b/new-luxc/test/test/luxc/lang/synthesis/case/special.lux deleted file mode 100644 index 398f98a57..000000000 --- a/new-luxc/test/test/luxc/lang/synthesis/case/special.lux +++ /dev/null @@ -1,72 +0,0 @@ -(.module: - lux - (lux [io] - (control [monad #+ do] - pipe) - (macro [code]) - ["r" math/random "r/" Monad<Random>] - test) - (luxc (lang ["la" analysis] - ["ls" synthesis] - (synthesis [".S" expression]) - [".L" extension] - [".L" variable #+ Variable])) - (/// common)) - -(context: "Dummy variables." - (<| (times +100) - (do @ - [maskedA gen-primitive - temp (|> r.nat (:: @ map (n/% +100))) - #let [maskA (` ("lux case" (~ maskedA) - {("lux case bind" (~ (code.nat temp))) - (~ (la.var (variableL.local temp)))}))]] - (test "Dummy variables created to mask expressions get eliminated during synthesis." - (|> (expressionS.synthesize extensionL.no-syntheses - maskA) - (corresponds? maskedA)))))) - -(context: "Let expressions." - (<| (times +100) - (do @ - [registerA r.nat - inputA gen-primitive - outputA gen-primitive - #let [letA (` ("lux case" (~ inputA) - {("lux case bind" (~ (code.nat registerA))) - (~ outputA)}))]] - (test "Can detect and reify simple 'let' expressions." - (|> (expressionS.synthesize extensionL.no-syntheses - letA) - (case> (^ [_ (#.Form (list [_ (#.Text "lux let")] [_ (#.Nat registerS)] inputS outputS))]) - (and (n/= registerA registerS) - (corresponds? inputA inputS) - (corresponds? outputA outputS)) - - _ - false)))))) - -(context: "If expressions." - (<| (times +100) - (do @ - [then|else r.bool - inputA gen-primitive - thenA gen-primitive - elseA gen-primitive - #let [ifA (if then|else - (` ("lux case" (~ inputA) - {true (~ thenA) - false (~ elseA)})) - (` ("lux case" (~ inputA) - {false (~ elseA) - true (~ thenA)})))]] - (test "Can detect and reify simple 'if' expressions." - (|> (expressionS.synthesize extensionL.no-syntheses - ifA) - (case> (^ [_ (#.Form (list [_ (#.Text "lux if")] inputS thenS elseS))]) - (and (corresponds? inputA inputS) - (corresponds? thenA thenS) - (corresponds? elseA elseS)) - - _ - false)))))) diff --git a/new-luxc/test/test/luxc/lang/synthesis/common.lux b/new-luxc/test/test/luxc/lang/synthesis/common.lux deleted file mode 100644 index 3379fe7fd..000000000 --- a/new-luxc/test/test/luxc/lang/synthesis/common.lux +++ /dev/null @@ -1,37 +0,0 @@ -(.module: - lux - (lux (data [bool "bool/" Eq<Bool>] - [text "text/" Eq<Text>]) - (macro [code]) - ["r" math/random "r/" Monad<Random>]) - (luxc (lang ["la" analysis] - ["ls" synthesis]))) - -(def: #export gen-primitive - (r.Random la.Analysis) - (r.either (r.either (r.either (r/wrap (' [])) - (r/map code.bool r.bool)) - (r.either (r/map code.nat r.nat) - (r/map code.int r.int))) - (r.either (r.either (r/map code.deg r.deg) - (r/map code.frac r.frac)) - (r/map code.text (r.text +5))))) - -(def: #export (corresponds? analysis synthesis) - (-> la.Analysis ls.Synthesis Bool) - (case [analysis synthesis] - (^ [(^code []) (^code [])]) - true - - (^template [<tag> <test>] - [[_ (<tag> valueA)] [_ (<tag> valueS)]] - (<test> valueA valueS)) - ([#.Bool bool/=] - [#.Nat n/=] - [#.Int i/=] - [#.Deg d/=] - [#.Frac f/=] - [#.Text text/=]) - - _ - false)) diff --git a/new-luxc/test/test/luxc/lang/synthesis/function.lux b/new-luxc/test/test/luxc/lang/synthesis/function.lux deleted file mode 100644 index fa29b4284..000000000 --- a/new-luxc/test/test/luxc/lang/synthesis/function.lux +++ /dev/null @@ -1,151 +0,0 @@ -(.module: - lux - (lux [io] - (control [monad #+ do] - pipe) - (data [product] - [maybe] - [number] - text/format - (coll [list "list/" Functor<List> Fold<List>] - (dictionary ["dict" unordered #+ Dict]) - (set ["set" unordered]))) - (macro [code]) - ["r" math/random "r/" Monad<Random>] - test) - (luxc (lang ["la" analysis] - ["ls" synthesis] - (synthesis [".S" expression]) - [".L" extension] - [".L" variable #+ Variable])) - (// common)) - -(def: gen-function//constant - (r.Random [Nat la.Analysis la.Analysis]) - (r.rec - (function (_ gen-function//constant) - (do r.Monad<Random> - [function? r.bool] - (if function? - (do @ - [[num-args outputA subA] gen-function//constant] - (wrap [(n/inc num-args) - outputA - (` ("lux function" [] (~ subA)))])) - (do @ - [outputA gen-primitive] - (wrap [+0 outputA outputA]))))))) - -(def: (pick scope-size) - (-> Nat (r.Random Nat)) - (|> r.nat (:: r.Monad<Random> map (n/% scope-size)))) - -(def: gen-function//captured - (r.Random [Nat Int la.Analysis]) - (do r.Monad<Random> - [num-locals (|> r.nat (:: @ map (|>> (n/% +100) (n/max +10)))) - #let [indices (list.n/range +0 (n/dec num-locals)) - absolute-env (list/map variableL.local indices) - relative-env (list/map variableL.captured indices)] - [total-args prediction bodyA] (: (r.Random [Nat Int la.Analysis]) - (loop [num-args +1 - global-env relative-env] - (let [env-size (list.size global-env) - resolver (list/fold (function (_ [idx var] resolver) - (dict.put idx var resolver)) - (: (Dict Nat Int) - (dict.new number.Hash<Nat>)) - (list.zip2 (list.n/range +0 (n/dec env-size)) - global-env))] - (do @ - [nest? r.bool] - (if nest? - (do @ - [num-picks (:: @ map (n/max +1) (pick (n/inc env-size))) - picks (|> (r.set number.Hash<Nat> num-picks (pick env-size)) - (:: @ map set.to-list)) - [total-args prediction bodyA] (recur (n/inc num-args) - (list/map (function (_ pick) (maybe.assume (list.nth pick global-env))) - picks))] - (wrap [total-args prediction (` ("lux function" [(~+ (list/map (|>> variableL.captured code.int) picks))] - (~ bodyA)))])) - (do @ - [chosen (pick (list.size global-env))] - (wrap [num-args - (maybe.assume (dict.get chosen resolver)) - (la.var (variableL.captured chosen))])))))))] - (wrap [total-args prediction (` ("lux function" - [(~+ (list/map code.int absolute-env))] - (~ bodyA)))]) - )) - -(def: gen-function//local - (r.Random [Nat Int la.Analysis]) - (loop [num-args +0 - nest? true] - (if nest? - (do r.Monad<Random> - [nest?' r.bool - [total-args prediction bodyA] (recur (n/inc num-args) nest?')] - (wrap [total-args prediction (` ("lux function" [] (~ bodyA)))])) - (do r.Monad<Random> - [chosen (|> r.nat (:: @ map (|>> (n/% +100) (n/max +2))))] - (wrap [num-args - (|> chosen (n/+ (n/dec num-args)) nat-to-int) - (la.var (variableL.local chosen))]))))) - -(context: "Function definition." - (<| (times +100) - (do @ - [[args1 prediction1 function1] gen-function//constant - [args2 prediction2 function2] gen-function//captured - [args3 prediction3 function3] gen-function//local] - ($_ seq - (test "Nested functions will get folded together." - (|> (expressionS.synthesize extensionL.no-syntheses function1) - (case> (^ [_ (#.Form (list [_ (#.Text "lux function")] [_ (#.Nat args)] [_ (#.Tuple captured)] output))]) - (and (n/= args1 args) - (corresponds? prediction1 output)) - - _ - (n/= +0 args1)))) - (test "Folded functions provide direct access to captured variables." - (|> (expressionS.synthesize extensionL.no-syntheses function2) - (case> (^ [_ (#.Form (list [_ (#.Text "lux function")] [_ (#.Nat args)] [_ (#.Tuple captured)] - [_ (#.Form (list [_ (#.Int output)]))]))]) - (and (n/= args2 args) - (i/= prediction2 output)) - - _ - false))) - (test "Folded functions properly offset local variables." - (|> (expressionS.synthesize extensionL.no-syntheses function3) - (case> (^ [_ (#.Form (list [_ (#.Text "lux function")] [_ (#.Nat args)] [_ (#.Tuple captured)] - [_ (#.Form (list [_ (#.Int output)]))]))]) - (and (n/= args3 args) - (i/= prediction3 output)) - - _ - false))) - )))) - -(context: "Function application." - (<| (times +100) - (do @ - [num-args (|> r.nat (:: @ map (|>> (n/% +10) (n/max +1)))) - funcA gen-primitive - argsA (r.list num-args gen-primitive)] - ($_ seq - (test "Can synthesize function application." - (|> (expressionS.synthesize extensionL.no-syntheses (la.apply argsA funcA)) - (case> (^ [_ (#.Form (list& [_ (#.Text "lux call")] funcS argsS))]) - (and (corresponds? funcA funcS) - (list.every? (product.uncurry corresponds?) - (list.zip2 argsA argsS))) - - _ - false))) - (test "Function application on no arguments just synthesizes to the function itself." - (|> (expressionS.synthesize extensionL.no-syntheses (la.apply (list) funcA)) - (corresponds? funcA))) - )))) diff --git a/new-luxc/test/test/luxc/lang/synthesis/primitive.lux b/new-luxc/test/test/luxc/lang/synthesis/primitive.lux deleted file mode 100644 index d2298193f..000000000 --- a/new-luxc/test/test/luxc/lang/synthesis/primitive.lux +++ /dev/null @@ -1,46 +0,0 @@ -(.module: - lux - (lux [io] - (control [monad #+ do] - pipe) - (data text/format) - (macro [code]) - ["r" math/random] - test) - (luxc (lang ["la" analysis] - ["ls" synthesis] - [".L" extension] - (synthesis [".S" expression])))) - -(context: "Primitives" - (<| (times +100) - (do @ - [%bool% r.bool - %nat% r.nat - %int% r.int - %deg% r.deg - %frac% r.frac - %text% (r.text +5)] - (`` ($_ seq - (test (format "Can synthesize unit.") - (|> (expressionS.synthesize extensionL.no-syntheses (' [])) - (case> (^code []) - true - - _ - false))) - (~~ (do-template [<desc> <analysis> <synthesis> <sample>] - [(test (format "Can synthesize " <desc> ".") - (|> (expressionS.synthesize extensionL.no-syntheses (<analysis> <sample>)) - (case> [_ (<synthesis> value)] - (is? <sample> value) - - _ - false)))] - - ["bool" code.bool #.Bool %bool%] - ["nat" code.nat #.Nat %nat%] - ["int" code.int #.Int %int%] - ["deg" code.deg #.Deg %deg%] - ["frac" code.frac #.Frac %frac%] - ["text" code.text #.Text %text%]))))))) diff --git a/new-luxc/test/test/luxc/lang/synthesis/structure.lux b/new-luxc/test/test/luxc/lang/synthesis/structure.lux deleted file mode 100644 index 46c9bf2a1..000000000 --- a/new-luxc/test/test/luxc/lang/synthesis/structure.lux +++ /dev/null @@ -1,50 +0,0 @@ -(.module: - lux - (lux [io] - (control [monad #+ do] - pipe) - (data [bool "B/" Eq<Bool>] - [product] - (coll [list])) - ["r" math/random "r/" Monad<Random>] - test) - (luxc (lang ["la" analysis] - ["ls" synthesis] - (synthesis [".S" expression]) - [".L" extension])) - (// common)) - -(context: "Variants" - (<| (times +100) - (do @ - [size (|> r.nat (:: @ map (|>> (n/% +10) (n/max +2)))) - tagA (|> r.nat (:: @ map (n/% size))) - memberA gen-primitive] - ($_ seq - (test "Can synthesize variants." - (|> (expressionS.synthesize extensionL.no-syntheses (la.sum tagA size +0 memberA)) - (case> (^ [_ (#.Form (list [_ (#.Nat tagS)] [_ (#.Bool last?S)] memberS))]) - (and (n/= tagA tagS) - (B/= (n/= (n/dec size) tagA) - last?S) - (corresponds? memberA memberS)) - - _ - false))) - )))) - -(context: "Tuples" - (<| (times +100) - (do @ - [size (|> r.nat (:: @ map (|>> (n/% +10) (n/max +2)))) - membersA (r.list size gen-primitive)] - ($_ seq - (test "Can synthesize tuple." - (|> (expressionS.synthesize extensionL.no-syntheses (la.product membersA)) - (case> [_ (#.Tuple membersS)] - (and (n/= size (list.size membersS)) - (list.every? (product.uncurry corresponds?) (list.zip2 membersA membersS))) - - _ - false))) - )))) |