cryptol/bench/Main.hs
2018-05-23 15:55:05 -07:00

168 lines
6.1 KiB
Haskell

-- |
-- Module : Main
-- Copyright : (c) 2015-2016 Galois, Inc.
-- License : BSD3
-- Maintainer : cryptol@galois.com
-- Stability : provisional
-- Portability : portable
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE ScopedTypeVariables #-}
module Main where
import qualified Data.Text as T
import qualified Data.Text.IO as T
import System.FilePath ((</>))
import qualified System.Directory as Dir
import qualified Cryptol.Eval as E
import qualified Cryptol.Eval.Monad as E
import qualified Cryptol.Eval.Value as E
import qualified Cryptol.ModuleSystem.Base as M
import qualified Cryptol.ModuleSystem.Env as M
import qualified Cryptol.ModuleSystem.Monad as M
import qualified Cryptol.ModuleSystem.NamingEnv as M
import Cryptol.ModuleSystem.Interface (noIfaceParams)
import qualified Cryptol.Parser as P
import qualified Cryptol.Parser.AST as P
import qualified Cryptol.Parser.NoInclude as P
import qualified Cryptol.Symbolic as S
import qualified Cryptol.Symbolic.Value as S
import qualified Cryptol.TypeCheck as T
import qualified Cryptol.TypeCheck.AST as T
import qualified Cryptol.Utils.Ident as I
import Cryptol.Utils.Logger(quietLogger)
import qualified Data.SBV.Dynamic as SBV
import Criterion.Main
main :: IO ()
main = do
cd <- Dir.getCurrentDirectory
defaultMain [
bgroup "parser" [
parser "Prelude" "lib/Cryptol.cry"
, parser "PreludeWithExtras" "bench/data/PreludeWithExtras.cry"
, parser "BigSequence" "bench/data/BigSequence.cry"
, parser "BigSequenceHex" "bench/data/BigSequenceHex.cry"
, parser "AES" "bench/data/AES.cry"
, parser "SHA512" "bench/data/SHA512.cry"
]
, bgroup "typechecker" [
tc cd "Prelude" "lib/Cryptol.cry"
, tc cd "PreludeWithExtras" "bench/data/PreludeWithExtras.cry"
, tc cd "BigSequence" "bench/data/BigSequence.cry"
, tc cd "BigSequenceHex" "bench/data/BigSequenceHex.cry"
, tc cd "AES" "bench/data/AES.cry"
, tc cd "SHA512" "bench/data/SHA512.cry"
]
, bgroup "conc_eval" [
ceval cd "AES" "bench/data/AES.cry" "bench_correct"
, ceval cd "ZUC" "bench/data/ZUC.cry" "ZUC_TestVectors"
, ceval cd "SHA512" "bench/data/SHA512.cry" "testVector1 ()"
]
, bgroup "sym_eval" [
seval cd "AES" "bench/data/AES.cry" "bench_correct"
, seval cd "ZUC" "bench/data/ZUC.cry" "ZUC_TestVectors"
, seval cd "SHA512" "bench/data/SHA512.cry" "testVector1 ()"
]
]
-- | Evaluation options, mostly used by `trace`.
-- Since the benchmarks likely do not use base, these don't matter very much
evOpts :: E.EvalOpts
evOpts = E.EvalOpts { E.evalLogger = quietLogger
, E.evalPPOpts = E.defaultPPOpts
}
-- | Make a benchmark for parsing a Cryptol module
parser :: String -> FilePath -> Benchmark
parser name path =
env (T.readFile path) $ \(~bytes) ->
bench name $ nfIO $ do
let cfg = P.defaultConfig
{ P.cfgSource = path
, P.cfgPreProc = P.guessPreProc path
}
case P.parseModule cfg bytes of
Right pm -> return pm
Left err -> error (show err)
-- | Make a benchmark for typechecking a Cryptol module. Does parsing
-- in the setup phase in order to isolate typechecking
tc :: String -> String -> FilePath -> Benchmark
tc cd name path =
let withLib = M.withPrependedSearchPath [cd </> "lib"] in
let setup = do
bytes <- T.readFile path
let cfg = P.defaultConfig
{ P.cfgSource = path
, P.cfgPreProc = P.guessPreProc path
}
Right pm = P.parseModule cfg bytes
menv <- M.initialModuleEnv
(Right ((prims, scm, tcEnv), menv'), _) <- M.runModuleM (evOpts,menv) $ withLib $ do
-- code from `loadModule` and `checkModule` in
-- `Cryptol.ModuleSystem.Base`
let pm' = M.addPrelude pm
M.loadDeps pm'
Right nim <- M.io (P.removeIncludesModule path pm')
npm <- M.noPat nim
(tcEnv,declsEnv,scm) <- M.renameModule npm
prims <- if P.thing (P.mName pm) == I.preludeName
then return (M.toPrimMap declsEnv)
else M.getPrimMap
return (prims, scm, tcEnv)
return (prims, scm, tcEnv, menv')
in env setup $ \ ~(prims, scm, tcEnv, menv) ->
bench name $ nfIO $ M.runModuleM (evOpts,menv) $ withLib $ do
let act = M.TCAction { M.tcAction = T.tcModule
, M.tcLinter = M.moduleLinter (P.thing (P.mName scm))
, M.tcPrims = prims
}
M.typecheck act scm noIfaceParams tcEnv
ceval :: String -> String -> FilePath -> T.Text -> Benchmark
ceval cd name path expr =
let withLib = M.withPrependedSearchPath [cd </> "lib"] in
let setup = do
menv <- M.initialModuleEnv
(Right (texpr, menv'), _) <- M.runModuleM (evOpts,menv) $ withLib $ do
m <- M.loadModuleByPath path
M.setFocusedModule (T.mName m)
let Right pexpr = P.parseExpr expr
(_, texpr, _) <- M.checkExpr pexpr
return texpr
return (texpr, menv')
in env setup $ \ ~(texpr, menv) ->
bench name $ nfIO $ E.runEval evOpts $ do
env' <- E.evalDecls (S.allDeclGroups menv) mempty
(e :: E.Value) <- E.evalExpr env' texpr
E.forceValue e
seval :: String -> String -> FilePath -> T.Text -> Benchmark
seval cd name path expr =
let withLib = M.withPrependedSearchPath [cd </> "lib"] in
let setup = do
menv <- M.initialModuleEnv
(Right (texpr, menv'), _) <- M.runModuleM (evOpts,menv) $ withLib $ do
m <- M.loadModuleByPath path
M.setFocusedModule (T.mName m)
let Right pexpr = P.parseExpr expr
(_, texpr, _) <- M.checkExpr pexpr
return texpr
return (texpr, menv')
in env setup $ \ ~(texpr, menv) ->
bench name $ nfIO $ E.runEval evOpts $ do
env' <- E.evalDecls (S.allDeclGroups menv) mempty
(e :: S.Value) <- E.evalExpr env' texpr
E.io $ SBV.generateSMTBenchmark False $
return (S.fromVBit e)