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Add support for -boot flag, which allows in-tree execution of Ur/Web The boot flag rewrites most hardcoded paths to point to the build directory, and also forces static compilation. This is convenient for developing Ur/Web, or if you cannot 'sudo make install' Ur/Web. The following changes were made: * Header files were moved to include/urweb instead of include; this lets FFI users point their C_INCLUDE_PATH at this directory at write <urweb/urweb.h>. For internal Ur/Web executables, we simply pass -I$PATH/include/urweb as normal. * Differentiate between LIB and SRCLIB; SRCLIB is Ur and JavaScript source files, while LIB is compiled products from libtool. For in-tree compilation these live in different places. * No longer reference Config for paths; instead use Settings; these settings can be changed dynamically by Compiler.enableBoot () (TODO: add a disableBoot function.) * config.h is now generated directly in include/urweb/config.h, for consistency's sake (especially since it gets installed along with the rest of the headers!) * All of the autotools build products got updated. * The linkStatic field in protocols now only contains the name of the build product, and not the absolute path. Future users have to be careful not to reference the Settings files to early, lest they get an old version (this was the source of two bugs during development of this patch.)
author Edward Z. Yang <ezyang@mit.edu>
date Wed, 02 May 2012 17:17:57 -0400
parents 18d18a70821e
children a613cae954ca
line wrap: on
line source
fun exec [m ::: Type -> Type] (_ : monad m) [ts ::: {Type}] r (fd : folder ts) =
    @foldR [m] [fn ts => m $ts]
     (fn [nm :: Name] [v :: Type] [rest :: {Type}] [[nm] ~ rest] action acc =>
         this <- action;
         others <- acc;
         return ({nm = this} ++ others))
     (return {}) fd r

fun ignore [m ::: Type -> Type] (_ : monad m) [t] (v : m t) = x <- v; return ()

fun mp [m] (_ : monad m) [a] [b] f m =
    v <- m;
    return (f v)

fun foldR [K] [m] (_ : monad m) [tf :: K -> Type] [tr :: {K} -> Type]
          (f : nm :: Name -> t :: K -> rest :: {K}
               -> [[nm] ~ rest] =>
           tf t -> tr rest -> m (tr ([nm = t] ++ rest)))
          (i : tr []) [r ::: {K}] (fl : folder r) =
    @Top.fold [fn r :: {K} => $(map tf r) -> m (tr r)]
     (fn [nm :: Name] [t :: K] [rest :: {K}] [[nm] ~ rest] 
                      (acc : _ -> m (tr rest)) r =>
         acc' <- acc (r -- nm);
         f [nm] [t] [rest] r.nm acc')
     (fn _ => return i)
     fl

fun foldR2 [K] [m] (_ : monad m) [tf1 :: K -> Type] [tf2 :: K -> Type] [tr :: {K} -> Type]
           (f : nm :: Name -> t :: K -> rest :: {K}
                -> [[nm] ~ rest] =>
            tf1 t -> tf2 t -> tr rest -> m (tr ([nm = t] ++ rest)))
           (i : tr []) [r ::: {K}] (fl : folder r) =
    @Top.fold [fn r :: {K} => $(map tf1 r) -> $(map tf2 r) -> m (tr r)]
     (fn [nm :: Name] [t :: K] [rest :: {K}] [[nm] ~ rest] 
                      (acc : _ -> _ -> m (tr rest)) r1 r2 =>
         acc' <- acc (r1 -- nm) (r2 -- nm);
         f [nm] [t] [rest] r1.nm r2.nm acc')
     (fn _ _ => return i)
     fl

fun foldR3 [K] [m] (_ : monad m) [tf1 :: K -> Type] [tf2 :: K -> Type] [tf3 :: K -> Type] [tr :: {K} -> Type]
           (f : nm :: Name -> t :: K -> rest :: {K}
                -> [[nm] ~ rest] =>
            tf1 t -> tf2 t -> tf3 t -> tr rest -> m (tr ([nm = t] ++ rest)))
           (i : tr []) [r ::: {K}] (fl : folder r) =
    @Top.fold [fn r :: {K} => $(map tf1 r) -> $(map tf2 r) -> $(map tf3 r) -> m (tr r)]
     (fn [nm :: Name] [t :: K] [rest :: {K}] [[nm] ~ rest] 
                      (acc : _ -> _ -> _ -> m (tr rest)) r1 r2 r3 =>
         acc' <- acc (r1 -- nm) (r2 -- nm) (r3 -- nm);
         f [nm] [t] [rest] r1.nm r2.nm r3.nm acc')
     (fn _ _ _ => return i)
     fl

fun mapR0 [K] [m] (_ : monad m) [tr :: K -> Type]
         (f : nm :: Name -> t :: K -> m (tr t)) [r ::: {K}] (fl : folder r) =
    @Top.fold [fn r => m ($(map tr r))]
    (fn [nm :: Name] [t :: K] [rest :: {K}] [[nm] ~ rest] (acc : m ($(map tr rest))) =>
        v <- f [nm] [t];
        vs <- acc;
        return (vs ++ {nm = v}))
    (return {})
    fl

fun mapR [K] [m] (_ : monad m) [tf :: K -> Type] [tr :: K -> Type]
         (f : nm :: Name -> t :: K -> tf t -> m (tr t)) =
    @@foldR [m] _ [tf] [fn r => $(map tr r)]
    (fn [nm :: Name] [t :: K] [rest :: {K}] [[nm] ~ rest] (v : tf t)
                     (acc : $(map tr rest)) =>
        v' <- f [nm] [t] v;
        return (acc ++ {nm = v'}))
    {}

fun mapR2 [K] [m] (_ : monad m) [tf1 :: K -> Type] [tf2 :: K -> Type] [tr :: K -> Type]
         (f : nm :: Name -> t :: K -> tf1 t -> tf2 t -> m (tr t)) =
    @@foldR2 [m] _ [tf1] [tf2] [fn r => $(map tr r)]
    (fn [nm :: Name] [t :: K] [rest :: {K}] [[nm] ~ rest] (v1 : tf1 t) (v2 : tf2 t)
                     (acc : $(map tr rest)) =>
        v' <- f [nm] [t] v1 v2;
        return (acc ++ {nm = v'}))
    {}

fun foldMapR [K] [m] (_ : monad m) [tf :: K -> Type] [tf' :: K -> Type] [tr :: {K} -> Type]
             (f : nm :: Name -> t :: K -> rest :: {K}
                  -> [[nm] ~ rest] =>
              tf t -> tr rest -> m (tf' t * tr ([nm = t] ++ rest)))
             (i : tr []) [r ::: {K}] (fl : folder r) =
    @Top.fold [fn r :: {K} => $(map tf r) -> m ($(map tf' r) * tr r)]
     (fn [nm :: Name] [t :: K] [rest :: {K}] [[nm] ~ rest] 
                      (acc : _ -> m ($(map tf' rest) * tr rest)) r =>
         p <- acc (r -- nm);
         p' <- f [nm] [t] [rest] r.nm p.2;
         return ({nm = p'.1} ++ p.1, p'.2))
     (fn _ => return ({}, i))
     fl

fun appR [K] [m] (_ : monad m) [tf :: K -> Type]
           (f : nm :: Name -> t :: K -> tf t -> m unit)
           [r ::: {K}] (fl : folder r) =
    @Top.fold [fn r :: {K} => $(map tf r) -> m unit]
     (fn [nm :: Name] [t :: K] [rest :: {K}] [[nm] ~ rest] acc r =>
         acc (r -- nm);
         f [nm] [t] r.nm)
     (fn _ => return ())
     fl

fun appR2 [K] [m] (_ : monad m) [tf1 :: K -> Type] [tf2 :: K -> Type]
           (f : nm :: Name -> t :: K -> tf1 t -> tf2 t -> m unit)
           [r ::: {K}] (fl : folder r) =
    @Top.fold [fn r :: {K} => $(map tf1 r) -> $(map tf2 r) -> m unit]
     (fn [nm :: Name] [t :: K] [rest :: {K}] [[nm] ~ rest] acc r1 r2 =>
         acc (r1 -- nm) (r2 -- nm);
         f [nm] [t] r1.nm r2.nm)
     (fn _ _ => return ())
     fl

fun appR3 [K] [m] (_ : monad m) [tf1 :: K -> Type] [tf2 :: K -> Type] [tf3 :: K -> Type]
           (f : nm :: Name -> t :: K -> tf1 t -> tf2 t -> tf3 t -> m unit)
           [r ::: {K}] (fl : folder r) =
    @Top.fold [fn r :: {K} => $(map tf1 r) -> $(map tf2 r) -> $(map tf3 r) -> m unit]
     (fn [nm :: Name] [t :: K] [rest :: {K}] [[nm] ~ rest] acc r1 r2 r3 =>
         acc (r1 -- nm) (r2 -- nm) (r3 -- nm);
         f [nm] [t] r1.nm r2.nm r3.nm)
     (fn _ _ _ => return ())
     fl