{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE TemplateHaskell #-}
{-# LANGUAGE QuasiQuotes #-}

module Fay.Runtime where

import Text.Shakespeare.Text
import Data.Text.Lazy as T
import Fay.Config

-- | Get the default runtime source.
getRuntimeSource :: Config -> String
getRuntimeSource :: Config -> String
getRuntimeSource Config
cfg =
  let ifTs :: T.Text -> T.Text
      ifTs :: Text -> Text
ifTs Text
a = if Config -> Bool
configTypeScript Config
cfg then Text
a else Text
""
      ifTsJs :: T.Text -> T.Text -> T.Text
      ifTsJs :: Text -> Text -> Text
ifTsJs Text
a Text
b = if Config -> Bool
configTypeScript Config
cfg then Text
a else Text
b
  in Text -> String
T.unpack [lt|
/*******************************************************************************
 * Misc.
 */
#{ifTs "var Fay:{[key:string]: any;} = {};"}

// Workaround for missing functionality in IE 8 and earlier.
if( Object.create === undefined ) {
  Object.create = function( o ) {
    function F(){}
    F.prototype = o;
    return new F();
  };
}

// Insert properties of b in place into a.
function Fay$$objConcat(a,b){
  for (var p in b) if (b.hasOwnProperty(p)){
    a[p] = b[p];
  }
  return a;
}

/*******************************************************************************
 * Thunks.
 */

// Force a thunk (if it is a thunk) until WHNF.
function Fay$$_(thunkish,nocache#{ifTs "?: boolean"}){
  while (thunkish instanceof Fay$$$) {
    thunkish = thunkish.force(nocache);
  }
  return thunkish;
}

// Apply a function to arguments (see method2 in Fay.hs).
function Fay$$__(){
  var f = arguments[0];
  for (var i = 1, len = arguments.length; i < len; i++) {
    f = (f instanceof Fay$$$? Fay$$_(f) : f)(arguments[i]);
  }
  return f;
}

// Thunk object.
function Fay$$$(value){
  this.forced = false;
  this.value = value;
}

// Force the thunk.
Fay$$$.prototype.force = function(nocache) {
  return nocache ?
    this.value() :
    (this.forced ?
     this.value :
     (this.value = this.value(), this.forced = true, this.value));
};


function Fay$$seq(x) {
  return function(y) {
    Fay$$_(x,false);
    return y;
  }
}

function Fay$$seq$36$uncurried(x,y) {
  Fay$$_(x,false);
  return y;
}

/*******************************************************************************
 * Monad.
 */

function Fay$$Monad(value){
  this.value = value;
}

// This is used directly from Fay, but can be rebound or shadowed. See primOps in Types.hs.
// >>
function Fay$$then(a){
  return function(b){
    return Fay$$bind(a)(function(_){
      return b;
    });
  };
}

// This is used directly from Fay, but can be rebound or shadowed. See primOps in Types.hs.
// >>
function Fay$$then$36$uncurried(a,b){
  return Fay$$bind$36$uncurried(a,function(_){ return b; });
}

// >>=
// This is used directly from Fay, but can be rebound or shadowed. See primOps in Types.hs.
function Fay$$bind(m){
  return function(f){
    return new Fay$$$(function(){
      var monad = Fay$$_(m,true);
      return Fay$$_(f)(monad.value);
    });
  };
}

// >>=
// This is used directly from Fay, but can be rebound or shadowed. See primOps in Types.hs.
function Fay$$bind$36$uncurried(m,f){
  return new Fay$$$(function(){
    var monad = Fay$$_(m,true);
    return Fay$$_(f)(monad.value);
  });
}

// This is used directly from Fay, but can be rebound or shadowed.
function Fay$$$_return(a){
  return new Fay$$Monad(a);
}

// Allow the programmer to access thunk forcing directly.
function Fay$$force(thunk){
  return function(type){
    return new Fay$$$(function(){
      Fay$$_(thunk,type);
      return new Fay$$Monad(Fay$$unit);
    })
  }
}

// This is used directly from Fay, but can be rebound or shadowed.
function Fay$$return$36$uncurried(a){
  return new Fay$$Monad(a);
}

// Unit: ().
var Fay$$unit = null;

/*******************************************************************************
 * Serialization.
 * Fay <-> JS. Should be bijective.
 */

// Serialize a Fay object to JS.
function Fay$$fayToJs(type,fayObj){
  var base = type[0];
  var args = type[1];
  var jsObj;
  if(base == "action") {
    // A nullary monadic action. Should become a nullary JS function.
    // Fay () -> function(){ return ... }
    return function(){
      return Fay$$fayToJs(args[0],Fay$$_(fayObj,true).value);
    };

  }
  else if(base == "function") {
    // A proper function.
    return function(){
      var fayFunc = fayObj;
      var return_type = args[args.length-1];
      var len = args.length;
      // If some arguments.
      if (len > 1) {
        // Apply to all the arguments.
        fayFunc = Fay$$_(fayFunc,true);
        // TODO: Perhaps we should throw an error when JS
        // passes more arguments than Haskell accepts.

        // Unserialize the JS values to Fay for the Fay callback.
        if (args == "automatic_function")
        {
          for (var i = 0; i < arguments.length; i++) {
            fayFunc = Fay$$_(fayFunc(Fay$$jsToFay(["automatic"],arguments[i])),true);
          }
          return Fay$$fayToJs(["automatic"], fayFunc);
        }

        for (var i = 0, len = len; i < len - 1 && fayFunc instanceof Function; i++) {
          fayFunc = Fay$$_(fayFunc(Fay$$jsToFay(args[i],arguments[i])),true);
        }
        // Finally, serialize the Fay return value back to JS.
        var return_base = return_type[0];
        var return_args = return_type[1];
        // If it's a monadic return value, get the value instead.
        if(return_base == "action") {
          return Fay$$fayToJs(return_args[0],fayFunc.value);
        }
        // Otherwise just serialize the value direct.
        else {
          return Fay$$fayToJs(return_type,fayFunc);
        }
      } else {
        throw new Error("Nullary function?");
      }
    };

  }
  else if(base == "string") {
    return Fay$$fayToJs_string(fayObj);
  }
  else if(base == "list") {
    // Serialize Fay list to JavaScript array.
    var arr = [];
    fayObj = Fay$$_(fayObj);
    while(fayObj instanceof Fay$$Cons) {
      arr.push(Fay$$fayToJs(args[0],fayObj.car));
      fayObj = Fay$$_(fayObj.cdr);
    }
    return arr;
  }
  else if(base == "tuple") {
    // Serialize Fay tuple to JavaScript array.
    var arr = [];
    fayObj = Fay$$_(fayObj);
    var i = 0;
    while(fayObj instanceof Fay$$Cons) {
      arr.push(Fay$$fayToJs(args[i++],fayObj.car));
      fayObj = Fay$$_(fayObj.cdr);
    }
    return arr;
  }
  else if(base == "defined") {
    fayObj = Fay$$_(fayObj);
    return fayObj instanceof Fay.FFI._Undefined
      ? undefined
      : Fay$$fayToJs(args[0],fayObj.slot1);
  }
  else if(base == "nullable") {
    fayObj = Fay$$_(fayObj);
    return fayObj instanceof Fay.FFI._Null
      ? null
      : Fay$$fayToJs(args[0],fayObj.slot1);
  }
  else if(base == "double" || base == "int" || base == "bool") {
    // Bools are unboxed.
    return Fay$$_(fayObj);
  }
  else if(base == "ptr")
    return fayObj;
  else if(base == "unknown")
    return Fay$$fayToJs(["automatic"], fayObj);
  else if(base == "automatic" && fayObj instanceof Function) {
    return Fay$$fayToJs(["function", "automatic_function"], fayObj);
  }
  else if(base == "automatic" || base == "user") {
    fayObj = Fay$$_(fayObj);

    if(fayObj instanceof Fay$$Cons || fayObj === null){
      // Serialize Fay list to JavaScript array.
      var arr = [];
      while(fayObj instanceof Fay$$Cons) {
        arr.push(Fay$$fayToJs(["automatic"],fayObj.car));
        fayObj = Fay$$_(fayObj.cdr);
      }
      return arr;
    } else {
      var fayToJsFun = fayObj && fayObj.instance && Fay$$fayToJsHash[fayObj.instance];
      return fayToJsFun ? fayToJsFun(type,type[2],fayObj) : fayObj;
    }
  }

  throw new Error("Unhandled Fay->JS translation type: " + base);
}

// Stores the mappings from fay types to js objects.
// This will be populated by compiled modules.
var Fay$$fayToJsHash = {};

// Specialized serializer for string.
function Fay$$fayToJs_string(fayObj){
  // Serialize Fay string to JavaScript string.
  var str = "";
  fayObj = Fay$$_(fayObj);
  while(fayObj instanceof Fay$$Cons) {
    str += Fay$$_(fayObj.car);
    fayObj = Fay$$_(fayObj.cdr);
  }
  return str;
};
function Fay$$jsToFay_string(x){
  return Fay$$list(x)
};

// Special num/bool serializers.
function Fay$$jsToFay_int(x){return x;}
function Fay$$jsToFay_double(x){return x;}
function Fay$$jsToFay_bool(x){return x;}

function Fay$$fayToJs_int(x){return Fay$$_(x);}
function Fay$$fayToJs_double(x){return Fay$$_(x);}
function Fay$$fayToJs_bool(x){return Fay$$_(x);}

// Unserialize an object from JS to Fay.
function Fay$$jsToFay(type,jsObj){
  var base = type[0];
  var args = type[1];
  var fayObj;
  if(base == "action") {
    // Unserialize a "monadic" JavaScript return value into a monadic value.
    return new Fay$$Monad(Fay$$jsToFay(args[0],jsObj));
  }
  else if(base == "function") {
    // Unserialize a function from JavaScript to a function that Fay can call.
    // So
    //
    //    var f = function(x,y,z){ … }
    //
    // becomes something like:
    //
    //    function(x){
    //      return function(y){
    //        return function(z){
    //          return new Fay$$$(function(){
    //            return Fay$$jsToFay(f(Fay$$fayTojs(x),
    //                                  Fay$$fayTojs(y),
    //                                  Fay$$fayTojs(z))
    //    }}}}};
    var returnType = args[args.length-1];
    var funArgs = args.slice(0,-1);

    if (jsObj.length > 0) {
      var makePartial = function(args){
        return function(arg){
          var i = args.length;
          var fayArg = Fay$$fayToJs(funArgs[i],arg);
          var newArgs = args.concat([fayArg]);
          if(newArgs.length == funArgs.length) {
            return new Fay$$$(function(){
              return Fay$$jsToFay(returnType,jsObj.apply(this,newArgs));
            });
          } else {
            return makePartial(newArgs);
          }
        };
      };
      return makePartial([]);
    }
    else
      return function (arg) {
        return Fay$$jsToFay(["automatic"], jsObj(Fay$$fayToJs(["automatic"], arg)));
      };
  }
  else if(base == "string") {
    // Unserialize a JS string into Fay list (String).
    // This is a special case, when String is explicit in the type signature,
    // with `Automatic' a string would not be decoded.
    return Fay$$list(jsObj);
  }
  else if(base == "list") {
    // Unserialize a JS array into a Fay list ([a]).
    var serializedList = [];
    for (var i = 0, len = jsObj.length; i < len; i++) {
      // Unserialize each JS value into a Fay value, too.
      serializedList.push(Fay$$jsToFay(args[0],jsObj[i]));
    }
    // Pop it all in a Fay list.
    return Fay$$list(serializedList);
  }
  else if(base == "tuple") {
    // Unserialize a JS array into a Fay tuple ((a,b,c,...)).
    var serializedTuple = [];
    for (var i = 0, len = jsObj.length; i < len; i++) {
      // Unserialize each JS value into a Fay value, too.
      serializedTuple.push(Fay$$jsToFay(args[i],jsObj[i]));
    }
    // Pop it all in a Fay list.
    return Fay$$list(serializedTuple);
  }
  else if(base == "defined") {
    return jsObj === undefined
      ? new Fay.FFI._Undefined()
      : new Fay.FFI._Defined(Fay$$jsToFay(args[0],jsObj));
  }
  else if(base == "nullable") {
    return jsObj === null
      ? new Fay.FFI._Null()
      : new Fay.FFI.Nullable(Fay$$jsToFay(args[0],jsObj));
  }
  else if(base == "int") {
    // Int are unboxed, so there's no forcing to do.
    // But we can do validation that the int has no decimal places.
    // E.g. Math.round(x)!=x? throw "NOT AN INTEGER, GET OUT!"
    fayObj = Math.round(jsObj);
    if(fayObj!==jsObj) throw "Argument " + jsObj + " is not an integer!";
    return fayObj;
  }
  else if (base == "double" ||
           base == "bool" ||
           base ==  "ptr") {
    return jsObj;
  }
  else if(base == "unknown")
    return Fay$$jsToFay(["automatic"], jsObj);
  else if(base == "automatic" && jsObj instanceof Function) {
    #{ifTsJs "let type: string[][]" "var type"} = [["automatic"]];
    for (var i = 0; i < jsObj.length; i++)
      type.push(["automatic"]);
    return Fay$$jsToFay(["function", type], jsObj);
  }
  else if(base == "automatic" && jsObj instanceof Array) {
    var list = null;
    for (var i = jsObj.length - 1; i >= 0; i--) {
      list = new Fay$$Cons(Fay$$jsToFay([base], jsObj[i]), list);
    }
    return list;
  }
  else if(base == "automatic" || base == "user") {
    if (jsObj && jsObj['instance']) {
      var jsToFayFun = Fay$$jsToFayHash[jsObj["instance"]];
      return jsToFayFun ? jsToFayFun(type,type[2],jsObj) : jsObj;
    }
    else
      return jsObj;
  }

  throw new Error("Unhandled JS->Fay translation type: " + base);
}

// Stores the mappings from js objects to fay types.
// This will be populated by compiled modules.
var Fay$$jsToFayHash = {};

/*******************************************************************************
 * Lists.
 */

// Cons object.
function Fay$$Cons(car,cdr){
  this.car = car;
  this.cdr = cdr;
}

// Make a list.
function Fay$$list(xs){
  var out = null;
  for(var i=xs.length-1; i>=0;i--)
    out = new Fay$$Cons(xs[i],out);
  return out;
}

// Built-in list cons.
function Fay$$cons(x){
  return function(y){
    return new Fay$$Cons(x,y);
  };
}

// List index.
// `list' is already forced by the time it's passed to this function.
// `list' cannot be null and `index' cannot be out of bounds.
function Fay$$index(index,list){
  for(var i = 0; i < index; i++) {
    list = Fay$$_(list.cdr);
  }
  return list.car;
}

// List length.
// `list' is already forced by the time it's passed to this function.
function Fay$$listLen(list,max){
  for(var i = 0; list !== null && i < max + 1; i++) {
    list = Fay$$_(list.cdr);
  }
  return i == max;
}

/*******************************************************************************
 * Numbers.
 */

// Built-in *.
function Fay$$mult(x){
  return function(y){
    return new Fay$$$(function(){
      return Fay$$_(x) * Fay$$_(y);
    });
  };
}

function Fay$$mult$36$uncurried(x,y){

  return new Fay$$$(function(){
    return Fay$$_(x) * Fay$$_(y);
  });

}

// Built-in +.
function Fay$$add(x){
  return function(y){
    return new Fay$$$(function(){
      return Fay$$_(x) + Fay$$_(y);
    });
  };
}

// Built-in +.
function Fay$$add$36$uncurried(x,y){

  return new Fay$$$(function(){
    return Fay$$_(x) + Fay$$_(y);
  });

}

// Built-in -.
function Fay$$sub(x){
  return function(y){
    return new Fay$$$(function(){
      return Fay$$_(x) - Fay$$_(y);
    });
  };
}
// Built-in -.
function Fay$$sub$36$uncurried(x,y){

  return new Fay$$$(function(){
    return Fay$$_(x) - Fay$$_(y);
  });

}

// Built-in /.
function Fay$$divi(x){
  return function(y){
    return new Fay$$$(function(){
      return Fay$$_(x) / Fay$$_(y);
    });
  };
}

// Built-in /.
function Fay$$divi$36$uncurried(x,y){

  return new Fay$$$(function(){
    return Fay$$_(x) / Fay$$_(y);
  });

}

/*******************************************************************************
 * Booleans.
 */

// Are two values equal?
function Fay$$equal(lit1, lit2) {
  // Simple case
  lit1 = Fay$$_(lit1);
  lit2 = Fay$$_(lit2);
  if (lit1 === lit2) {
    return true;
  }
  // General case
  if (lit1 instanceof Array) {
    if (lit1.length != lit2.length) return false;
    for (var len = lit1.length, i = 0; i < len; i++) {
      if (!Fay$$equal(lit1[i], lit2[i])) return false;
    }
    return true;
  } else if (lit1 instanceof Fay$$Cons && lit2 instanceof Fay$$Cons) {
    do {
      if (!Fay$$equal(lit1.car,lit2.car))
        return false;
      lit1 = Fay$$_(lit1.cdr), lit2 = Fay$$_(lit2.cdr);
      if (lit1 === null || lit2 === null)
        return lit1 === lit2;
    } while (true);
  } else if (typeof lit1 == 'object' && typeof lit2 == 'object' && lit1 && lit2 &&
             lit1.instance === lit2.instance) {
    for(var x in lit1) {
      if(!Fay$$equal(lit1[x],lit2[x]))
        return false;
    }
    return true;
  } else {
    return false;
  }
}

// Built-in ==.
function Fay$$eq(x){
  return function(y){
    return new Fay$$$(function(){
      return Fay$$equal(x,y);
    });
  };
}

function Fay$$eq$36$uncurried(x,y){

  return new Fay$$$(function(){
    return Fay$$equal(x,y);
  });

}

// Built-in /=.
function Fay$$neq(x){
  return function(y){
    return new Fay$$$(function(){
      return !(Fay$$equal(x,y));
    });
  };
}

// Built-in /=.
function Fay$$neq$36$uncurried(x,y){

  return new Fay$$$(function(){
    return !(Fay$$equal(x,y));
  });

}

// Built-in >.
function Fay$$gt(x){
  return function(y){
    return new Fay$$$(function(){
      return Fay$$_(x) > Fay$$_(y);
    });
  };
}

// Built-in >.
function Fay$$gt$36$uncurried(x,y){

  return new Fay$$$(function(){
    return Fay$$_(x) > Fay$$_(y);
  });

}

// Built-in <.
function Fay$$lt(x){
  return function(y){
    return new Fay$$$(function(){
      return Fay$$_(x) < Fay$$_(y);
    });
  };
}


// Built-in <.
function Fay$$lt$36$uncurried(x,y){

  return new Fay$$$(function(){
    return Fay$$_(x) < Fay$$_(y);
  });

}


// Built-in >=.
function Fay$$gte(x){
  return function(y){
    return new Fay$$$(function(){
      return Fay$$_(x) >= Fay$$_(y);
    });
  };
}

// Built-in >=.
function Fay$$gte$36$uncurried(x,y){

  return new Fay$$$(function(){
    return Fay$$_(x) >= Fay$$_(y);
  });

}

// Built-in <=.
function Fay$$lte(x){
  return function(y){
    return new Fay$$$(function(){
      return Fay$$_(x) <= Fay$$_(y);
    });
  };
}

// Built-in <=.
function Fay$$lte$36$uncurried(x,y){

  return new Fay$$$(function(){
    return Fay$$_(x) <= Fay$$_(y);
  });

}

// Built-in &&.
function Fay$$and(x){
  return function(y){
    return new Fay$$$(function(){
      return Fay$$_(x) && Fay$$_(y);
    });
  };
}

// Built-in &&.
function Fay$$and$36$uncurried(x,y){

  return new Fay$$$(function(){
    return Fay$$_(x) && Fay$$_(y);
  });
  ;
}

// Built-in ||.
function Fay$$or(x){
  return function(y){
    return new Fay$$$(function(){
      return Fay$$_(x) || Fay$$_(y);
    });
  };
}

// Built-in ||.
function Fay$$or$36$uncurried(x,y){

  return new Fay$$$(function(){
    return Fay$$_(x) || Fay$$_(y);
  });

}

/*******************************************************************************
 * Mutable references.
 */

// Make a new mutable reference.
function Fay$$Ref(x){
  this.value = x;
}

// Write to the ref.
function Fay$$writeRef(ref,x){
  ref.value = x;
}

// Get the value from the ref.
function Fay$$readRef(ref){
  return ref.value;
}

/*******************************************************************************
 * Dates.
 */
function Fay$$date(str){
  return Date.parse(str);
}

/*******************************************************************************
 * Data.Var
 */

function Fay$$Ref2(val){
  this.val = val;
}

function Fay$$Sig(){
  this.handlers = [];
}

function Fay$$Var(val){
  this.val = val;
  this.handlers = [];
}

// Helper used by Fay$$setValue and for merging
function Fay$$broadcastInternal(self, val, force){
  var handlers = self.handlers;
  var exceptions = [];
  for(#{ifTsJs "let" "var"} len = handlers.length, i = 0; i < len; i++) {
    try {
      force(handlers[i][1](val), true);
    } catch (e) {
      exceptions.push(e);
    }
  }
  // Rethrow the encountered exceptions.
  if (exceptions.length > 0) {
    console.error("Encountered " + exceptions.length + " exception(s) while broadcasing a change to ", self);
    for(#{ifTsJs "let len: number" "var len"} = exceptions.length, i = 0; i < len; i++) {
      (function(exception) {
        setTimeout(function() { throw exception; }, 0);
      })(exceptions[i]);
    }
  }
}

function Fay$$setValue(self, val, force){
  if (self instanceof Fay$$Ref2) {
    self.val = val;
  } else if (self instanceof Fay$$Var) {
    self.val = val;
    Fay$$broadcastInternal(self, val, force);
  } else if (self instanceof Fay$$Sig) {
    Fay$$broadcastInternal(self, val, force);
  } else {
    throw "Fay$$setValue given something that's not a Ref2, Var, or Sig"
  }
}

function Fay$$subscribe(self, f){
  var key = {};
  self.handlers.push([key,f]);
  var searchStart = self.handlers.length - 1;
  return function(_){
    for(var i = Math.min(searchStart, self.handlers.length - 1); i >= 0; i--) {
      if(self.handlers[i][0] == key) {
        self.handlers = self.handlers.slice(0,i).concat(self.handlers.slice(i+1));
        return;
      }
    }
    return _; // This variable has to be used, otherwise Closure
              // strips it out and Fay serialization breaks.
  };
}

/*******************************************************************************
 * Application code.
 */

|]