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gencpp.ml
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gencpp.ml
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(*
* Copyright (C)2005-2013 Haxe Foundation
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
* DEALINGS IN THE SOFTWARE.
*)
open Ast
open Type
open Common
let unsupported p = error "This expression cannot be generated to Cpp" p
(*
Generators do not care about non-core-type abstracts, so let us follow them
away by default.
*)
let follow = Abstract.follow_with_abstracts
(*
Code for generating source files.
It manages creating diretories, indents, blocks and only modifying files
when the content changes.
*)
(*
A class_path is made from a package (array of strings) and a class name.
Join these together, inclding a separator. eg, "/" for includes : pack1/pack2/Name or "::"
for namespace "pack1::pack2::Name"
*)
let join_class_path path separator =
let result = match fst path, snd path with
| [], s -> s
| el, s -> String.concat separator el ^ separator ^ s in
if (String.contains result '+') then begin
let idx = String.index result '+' in
(String.sub result 0 idx) ^ (String.sub result (idx+1) ((String.length result) - idx -1 ) )
end else
result;;
(* The internal classes are implemented by the core hxcpp system, so the cpp
classes should not be generated *)
let is_internal_class = function
| ([],"Int") | ([],"Void") | ([],"String") | ([], "Null") | ([], "Float")
| ([],"Array") | ([], "Class") | ([], "Enum") | ([], "Bool")
| ([], "Dynamic") | ([], "ArrayAccess") | (["cpp"], "FastIterator")
| (["cpp"],"Pointer") | (["cpp"],"ConstPointer")
| (["cpp"],"RawPointer") | (["cpp"],"RawConstPointer")
| (["cpp"],"Function") -> true
| ([],"Math") | (["haxe";"io"], "Unsigned_char__") -> true
| (["cpp"],"Int8") | (["cpp"],"UInt8") | (["cpp"],"Char")
| (["cpp"],"Int16") | (["cpp"],"UInt16")
| (["cpp"],"Int32") | (["cpp"],"UInt32")
| (["cpp"],"Int64") | (["cpp"],"UInt64")
| (["cpp"],"Float32") | (["cpp"],"Float64") -> true
| _ -> false;;
let get_include_prefix common_ctx with_slash =
try
(Common.defined_value common_ctx Define.IncludePrefix) ^ (if with_slash then "/" else "")
with
Not_found -> ""
;;
let should_prefix_include = function
| x when is_internal_class x -> false
| ([],"hxMath") -> true
| _ -> false;;
class source_writer common_ctx write_func close_func =
object(this)
val indent_str = "\t"
val mutable indent = ""
val mutable indents = []
val mutable just_finished_block = false
method close = close_func(); ()
method write x = write_func x; just_finished_block <- false
method indent_one = this#write indent_str
method push_indent = indents <- indent_str::indents; indent <- String.concat "" indents
method pop_indent = match indents with
| h::tail -> indents <- tail; indent <- String.concat "" indents
| [] -> indent <- "/*?*/";
method write_i x = this#write (indent ^ x)
method get_indent = indent
method begin_block = this#write ("{\n"); this#push_indent
method end_block = this#pop_indent; this#write_i "}\n"; just_finished_block <- true
method end_block_line = this#pop_indent; this#write_i "}"; just_finished_block <- true
method terminate_line = this#write (if just_finished_block then "" else ";\n")
method add_include class_path =
( match class_path with
| (["@verbatim"],file) -> this#write ("#include <" ^ file ^ ">\n");
| _ ->
let prefix = if should_prefix_include class_path then "" else get_include_prefix common_ctx true in
this#write ("#ifndef INCLUDED_" ^ (join_class_path class_path "_") ^ "\n");
this#write ("#include <" ^ prefix ^ (join_class_path class_path "/") ^ ".h>\n");
this#write ("#endif\n")
)
end;;
let file_source_writer common_ctx filename =
let out_file = open_out filename in
new source_writer common_ctx (output_string out_file) (fun ()-> close_out out_file);;
let read_whole_file chan =
Std.input_all chan;;
(* The cached_source_writer will not write to the file if it has not changed,
thus allowing the makefile dependencies to work correctly *)
let cached_source_writer common_ctx filename =
try
let in_file = open_in filename in
let old_contents = read_whole_file in_file in
close_in in_file;
let buffer = Buffer.create 0 in
let add_buf str = Buffer.add_string buffer str in
let close = fun () ->
let contents = Buffer.contents buffer in
if (not (contents=old_contents) ) then begin
let out_file = open_out filename in
output_string out_file contents;
close_out out_file;
end;
in
new source_writer common_ctx (add_buf) (close);
with _ ->
file_source_writer common_ctx filename;;
let make_class_directories = Common.mkdir_recursive;;
let make_base_directory dir =
make_class_directories "" ( ( Str.split_delim (Str.regexp "[\\/]+") dir ) );;
let new_source_file common_ctx base_dir sub_dir extension class_path =
let include_prefix = get_include_prefix common_ctx true in
let full_dir =
if (sub_dir="include") && (include_prefix<>"") then begin
let dir = match fst class_path with
| [] -> base_dir ^ "/include/" ^ (get_include_prefix common_ctx false)
| path -> base_dir ^ "/include/" ^ include_prefix ^ ( String.concat "/" path )
in
make_base_directory dir;
dir
end else begin
make_class_directories base_dir ( sub_dir :: (fst class_path));
base_dir ^ "/" ^ sub_dir ^ "/" ^ ( String.concat "/" (fst class_path) )
end
in
cached_source_writer common_ctx (full_dir ^ "/" ^ ((snd class_path) ^ extension));;
let new_cpp_file common_ctx base_dir = new_source_file common_ctx base_dir "src" ".cpp";;
let new_header_file common_ctx base_dir =
new_source_file common_ctx base_dir "include" ".h";;
(* CPP code generation context *)
type context =
{
mutable ctx_common : Common.context;
mutable ctx_output : string -> unit;
mutable ctx_dbgout : string -> unit;
mutable ctx_writer : source_writer;
mutable ctx_calling : bool;
mutable ctx_assigning : bool;
mutable ctx_return_from_block : bool;
mutable ctx_tcall_expand_args : bool;
(* This is for returning from the child nodes of TMatch, TSwitch && TTry *)
mutable ctx_return_from_internal_node : bool;
mutable ctx_debug_level : int;
mutable ctx_real_this_ptr : bool;
mutable ctx_real_void : bool;
mutable ctx_dynamic_this_ptr : bool;
mutable ctx_dump_src_pos : unit -> unit;
mutable ctx_static_id_curr : int;
mutable ctx_static_id_used : int;
mutable ctx_static_id_depth : int;
mutable ctx_switch_id : int;
mutable ctx_class_name : string;
mutable ctx_class_super_name : string;
mutable ctx_local_function_args : (string,string) Hashtbl.t;
mutable ctx_local_return_block_args : (string,string) Hashtbl.t;
mutable ctx_class_member_types : (string,string) Hashtbl.t;
mutable ctx_file_info : (string,string) PMap.t ref;
mutable ctx_for_extern : bool;
}
let new_context common_ctx writer debug file_info =
{
ctx_common = common_ctx;
ctx_writer = writer;
ctx_output = (writer#write);
ctx_dbgout = if debug>1 then (writer#write) else (fun _ -> ());
ctx_calling = false;
ctx_assigning = false;
ctx_debug_level = debug;
ctx_dump_src_pos = (fun() -> ());
ctx_return_from_block = false;
ctx_tcall_expand_args = false;
ctx_return_from_internal_node = false;
ctx_real_this_ptr = true;
ctx_real_void = false;
ctx_dynamic_this_ptr = false;
ctx_static_id_curr = 0;
ctx_static_id_used = 0;
ctx_static_id_depth = 0;
ctx_switch_id = 0;
ctx_class_name = "";
ctx_class_super_name = "";
ctx_local_function_args = Hashtbl.create 0;
ctx_local_return_block_args = Hashtbl.create 0;
ctx_class_member_types = Hashtbl.create 0;
ctx_file_info = file_info;
ctx_for_extern = false;
}
let new_extern_context common_ctx writer debug file_info =
let ctx = new_context common_ctx writer debug file_info in
ctx.ctx_for_extern <- true;
ctx
;;
(* The internal header files are also defined in the hx/Object.h file, so you do
#include them separately. However, Math classes has its
own header file (under the hxcpp tree) so these should be included *)
let include_class_header = function
| ([],"@Main") -> false
| ([],"Math") -> true
| path -> not ( is_internal_class path )
let is_cpp_class = function
| ("cpp"::_ , _) -> true
| ( [] , "Xml" ) -> true
| ( [] , "EReg" ) -> true
| ( ["haxe"] , "Log" ) -> true
| _ -> false;;
let is_scalar typename = match typename with
| "int" | "unsigned int" | "signed int"
| "char" | "unsigned char"
| "short" | "unsigned short"
| "float" | "double"
| "bool" -> true
| _ -> false
;;
let is_block exp = match exp.eexpr with | TBlock _ -> true | _ -> false ;;
let to_block expression =
if is_block expression then expression else (mk_block expression);;
(* todo - is this how it's done? *)
let hash_keys hash =
let key_list = ref [] in
Hashtbl.iter (fun key value -> key_list := key :: !key_list ) hash;
!key_list;;
let pmap_keys pmap =
let key_list = ref [] in
PMap.iter (fun key _ -> key_list := key :: !key_list ) pmap;
!key_list;;
let pmap_values pmap =
let value_list = ref [] in
PMap.iter (fun _ value -> value_list := value :: !value_list ) pmap;
!value_list;;
(* The Hashtbl structure seems a little odd - but here is a helper function *)
let hash_iterate hash visitor =
let result = ref [] in
Hashtbl.iter (fun key value -> result := (visitor key value) :: !result ) hash;
!result
(* Convert function names that can't be written in c++ ... *)
let keyword_remap name =
match name with
| "int"
| "auto" | "char" | "const" | "delete" | "double" | "Float" | "enum"
| "extern" | "float" | "friend" | "goto" | "long" | "operator" | "protected"
| "register" | "short" | "signed" | "sizeof" | "template" | "typedef"
| "union" | "unsigned" | "void" | "volatile" | "or" | "and" | "xor" | "or_eq" | "not"
| "and_eq" | "xor_eq" | "typeof" | "stdin" | "stdout" | "stderr"
| "BIG_ENDIAN" | "LITTLE_ENDIAN" | "assert" | "NULL" | "wchar_t" | "EOF"
| "bool" | "const_cast" | "dynamic_cast" | "explicit" | "export" | "mutable" | "namespace"
| "reinterpret_cast" | "static_cast" | "typeid" | "typename" | "virtual"
| "_Complex" | "INFINITY" | "NAN"
| "struct" -> "_" ^ name
| "asm" -> "_asm_"
| x -> x
;;
let remap_class_path class_path =
(List.map keyword_remap (fst class_path)) , (snd class_path)
;;
let join_class_path_remap path separator =
join_class_path (remap_class_path path) separator
;;
let get_meta_string meta key =
let rec loop = function
| [] -> ""
| (k,[Ast.EConst (Ast.String name),_],_) :: _ when k=key-> name
| _ :: l -> loop l
in
loop meta
;;
let has_meta_key meta key =
List.exists (fun m -> match m with | (k,_,_) when k=key-> true | _ -> false ) meta
;;
let get_field_access_meta field_access key =
match field_access with
| FInstance(_,_,class_field)
| FStatic(_,class_field) -> get_meta_string class_field.cf_meta key
| _ -> ""
;;
let get_code meta key =
let code = get_meta_string meta key in
if (code<>"") then code ^ "\n" else code
;;
(* Add include to source code *)
let add_include writer class_path =
writer#add_include class_path;;
(* This gets the class include order correct. In the header files, we forward declare
the class types so the header file does not have any undefined variables.
In the cpp files, we include all the required header files, providing the actual
types for everything. This way there is no problem with circular class references.
*)
let gen_forward_decl writer class_path =
begin
let output = writer#write in
match class_path with
| (["@verbatim"],file) -> writer#write ("#include <" ^ file ^ ">\n");
| _ ->
let name = fst (remap_class_path class_path) in
output ("HX_DECLARE_CLASS" ^ (string_of_int (List.length name ) ) ^ "(");
List.iter (fun package_part -> output (package_part ^ ",") ) name;
output ( (snd class_path) ^ ")\n")
end;;
let real_interfaces =
List.filter (function (t,pl) ->
match t, pl with
| { cl_path = ["cpp";"rtti"],_ },[] -> false
| _ -> true
);;
let rec is_function_expr expr =
match expr.eexpr with
| TParenthesis expr | TMeta(_,expr) -> is_function_expr expr
| TCast (e,None) -> is_function_expr e
| TFunction _ -> true
| _ -> false;;
let is_var_field field =
match field.cf_kind with
| Var _ -> true
| Method MethDynamic -> true
| _ -> false
;;
let rec has_rtti_interface c interface =
List.exists (function (t,pl) ->
(snd t.cl_path) = interface && (match fst t.cl_path with | ["cpp";"rtti"] -> true | _ -> false )
) c.cl_implements ||
(match c.cl_super with None -> false | Some (c,_) -> has_rtti_interface c interface);;
let has_field_integer_lookup class_def =
has_rtti_interface class_def "FieldIntegerLookup";;
let has_field_integer_numeric_lookup class_def =
has_rtti_interface class_def "FieldNumericIntegerLookup";;
(* Output required code to place contents in required namespace *)
let gen_open_namespace output class_path =
List.iter (fun namespace -> output ("namespace " ^ namespace ^ "{\n")) (List.map keyword_remap (fst class_path));;
let gen_close_namespace output class_path =
List.iter
(fun namespace -> output ( "}" ^ " // end namespace " ^ namespace ^"\n"))
(fst class_path);;
(* The basic types can have default values and are passesby value *)
let is_numeric = function
| "Int" | "Bool" | "Float" | "::haxe::io::Unsigned_char__" | "unsigned char" -> true
| "::cpp::UInt8" | "::cpp::Int8" | "::cpp::Char"
| "::cpp::UInt16" | "::cpp::Int16"
| "::cpp::UInt32" | "::cpp::Int32"
| "::cpp::UInt64" | "::cpp::Int64"
| "::cpp::Float32" | "::cpp::Float64"
| "int" | "bool" | "double" | "float" -> true
| _ -> false
let rec remove_parens expression =
match expression.eexpr with
| TParenthesis e -> remove_parens e
| TMeta(_,e) -> remove_parens e
| TCast ( e,None) -> remove_parens e
| _ -> expression
;;
let cant_be_null type_string =
is_numeric type_string
;;
let is_object type_string =
not (is_numeric type_string || type_string="::String");
;;
let is_interface_type t =
match follow t with
| TInst (klass,params) -> klass.cl_interface
| _ -> false
;;
let is_cpp_function_instance haxe_type =
match follow haxe_type with
| TInst (klass,params) ->
(match klass.cl_path with
| ["cpp"] , "Function" -> true
| _ -> false )
| _ -> false
;;
let is_cpp_function_class haxe_type =
match follow haxe_type with
| TType (klass,params) ->
(match klass.t_path with
| ["cpp"] , "Function" -> true
| _ -> false )
| _ -> false
;;
let is_fromStaticFunction_call func =
match (remove_parens func).eexpr with
| TField (_,FStatic ({cl_path=["cpp"],"Function"},{cf_name="fromStaticFunction"} ) ) -> true
| _ -> false
;;
let is_addressOf_call func =
match (remove_parens func).eexpr with
| TField (_,FStatic ({cl_path=["cpp"],"Pointer"},{cf_name="addressOf"} ) ) -> true
| _ -> false
;;
let is_lvalue var =
match (remove_parens var).eexpr with
| TLocal _ -> true
| TField (_,FStatic(_,field) ) | TField (_,FInstance(_,_,field) ) -> is_var_field field
| _ -> false
;;
let is_pointer haxe_type includeRaw =
match follow haxe_type with
| TInst (klass,params) ->
(match klass.cl_path with
| ["cpp"] , "Pointer"
| ["cpp"] , "ConstPointer"
| ["cpp"] , "Function" -> true
| ["cpp"] , "RawPointer" when includeRaw -> true
| ["cpp"] , "RawConstPointer" when includeRaw -> true
| _ -> false )
| TType (type_def,params) ->
(match type_def.t_path with
| ["cpp"] , "Pointer"
| ["cpp"] , "ConstPointer"
| ["cpp"] , "Function" -> true
| ["cpp"] , "RawPointer" when includeRaw -> true
| ["cpp"] , "RawConstPointer" when includeRaw -> true
| _ -> false )
| _ -> false
;;
let is_dynamic_type_param class_kind =
match class_kind with
| KTypeParameter _ -> true
| _ -> false
;;
(* Get a string to represent a type.
The "suffix" will be nothing or "_obj", depending if we want the name of the
pointer class or the pointee (_obj class *)
let rec class_string klass suffix params =
(match klass.cl_path with
(* Array class *)
| ([],"Array") when is_dynamic_array_param (List.hd params) -> "Dynamic"
| ([],"Array") -> (snd klass.cl_path) ^ suffix ^ "< " ^ (String.concat ","
(List.map array_element_type params) ) ^ " >"
(* FastIterator class *)
| (["cpp"],"FastIterator") -> "::cpp::FastIterator" ^ suffix ^ "< " ^ (String.concat ","
(List.map type_string params) ) ^ " >"
| (["cpp"],"Pointer")
| (["cpp"],"ConstPointer") ->
"::cpp::Pointer< " ^ (String.concat "," (List.map type_string params) ) ^ " >"
| (["cpp"],"RawPointer") ->
" " ^ (String.concat "," (List.map type_string params) ) ^ " "
| (["cpp"],"RawConstPointer") ->
" const " ^ (String.concat "," (List.map type_string params) ) ^ " * "
| (["cpp"],"Function") ->
"::cpp::Function< " ^ (cpp_function_signature_params params) ^ " >"
| _ when is_dynamic_type_param klass.cl_kind -> "Dynamic"
| ([],"#Int") -> "/* # */int"
| (["haxe";"io"],"Unsigned_char__") -> "unsigned char"
| ([],"Class") -> "::Class"
| ([],"EnumValue") -> "Dynamic"
| ([],"Null") -> (match params with
| [t] ->
(match follow t with
| TAbstract ({ a_path = [],"Int" },_)
| TAbstract ({ a_path = [],"Float" },_)
| TAbstract ({ a_path = [],"Bool" },_)
| TInst ({ cl_path = [],"Int" },_)
| TInst ({ cl_path = [],"Float" },_)
| TEnum ({ e_path = [],"Bool" },_) -> "Dynamic"
| _ -> "/*NULL*/" ^ (type_string t) )
| _ -> assert false);
(* Normal class *)
| path when klass.cl_extern && (not (is_internal_class path) )->
(join_class_path_remap klass.cl_path "::") ^ suffix
| _ -> "::" ^ (join_class_path_remap klass.cl_path "::") ^ suffix
)
and type_string_suff suffix haxe_type =
(match haxe_type with
| TMono r -> (match !r with None -> "Dynamic" ^ suffix | Some t -> type_string_suff suffix t)
| TAbstract ({ a_path = ([],"Void") },[]) -> "Void"
| TAbstract ({ a_path = ([],"Bool") },[]) -> "bool"
| TAbstract ({ a_path = ([],"Float") },[]) -> "Float"
| TAbstract ({ a_path = ([],"Int") },[]) -> "int"
| TAbstract( { a_path = ([], "EnumValue") }, _ ) -> "Dynamic"
| TEnum (enum,params) -> "::" ^ (join_class_path_remap enum.e_path "::") ^ suffix
| TInst (klass,params) -> (class_string klass suffix params)
| TType (type_def,params) ->
(match type_def.t_path with
| [] , "Null" ->
(match params with
| [t] ->
(match follow t with
| TAbstract ({ a_path = [],"Int" },_)
| TAbstract ({ a_path = [],"Float" },_)
| TAbstract ({ a_path = [],"Bool" },_)
| TInst ({ cl_path = [],"Int" },_)
| TInst ({ cl_path = [],"Float" },_)
| TEnum ({ e_path = [],"Bool" },_) -> "Dynamic" ^ suffix
| _ -> type_string_suff suffix t)
| _ -> assert false);
| [] , "Array" ->
(match params with
| [t] when (type_string (follow t)) = "Dynamic" -> "Dynamic"
| [t] -> "Array< " ^ (type_string (follow t) ) ^ " >"
| _ -> assert false)
| ["cpp"] , "FastIterator" ->
(match params with
| [t] -> "::cpp::FastIterator< " ^ (type_string (follow t) ) ^ " >"
| _ -> assert false)
| ["cpp"] , "Pointer"
| ["cpp"] , "ConstPointer" ->
(match params with
| [t] -> "::cpp::Pointer< " ^ (type_string (follow t) ) ^ " >"
| _ -> assert false)
| ["cpp"] , "RawPointer" ->
(match params with
| [t] -> " " ^ (type_string (follow t) ) ^ " *"
| _ -> assert false)
| ["cpp"] , "RawConstPointer" ->
(match params with
| [t] -> "const " ^ (type_string (follow t) ) ^ " *"
| _ -> assert false)
| ["cpp"] , "Function" -> "::cpp::Function< " ^ (cpp_function_signature_params params) ^ " >"
| _ -> type_string_suff suffix (apply_params type_def.t_params params type_def.t_type)
)
| TFun (args,haxe_type) -> "Dynamic" ^ suffix
| TAnon a -> "Dynamic"
(*
(match !(a.a_status) with
| Statics c -> type_string_suff suffix (TInst (c,List.map snd c.cl_params))
| EnumStatics e -> type_string_suff suffix (TEnum (e,List.map snd e.e_params))
| _ -> "Dynamic" ^ suffix )
*)
| TDynamic haxe_type -> "Dynamic" ^ suffix
| TLazy func -> type_string_suff suffix ((!func)())
| TAbstract (abs,pl) when abs.a_impl <> None ->
type_string_suff suffix (Abstract.get_underlying_type abs pl)
| TAbstract (abs,pl) ->
"::" ^ (join_class_path_remap abs.a_path "::") ^ suffix
)
and type_string haxe_type =
type_string_suff "" haxe_type
and array_element_type haxe_type =
match type_string haxe_type with
| x when cant_be_null x -> x
| x when is_interface_type (follow haxe_type) -> x
| "::String" -> "::String"
| _ -> "::Dynamic"
and is_dynamic_array_param haxe_type =
if (type_string (follow haxe_type)) = "Dynamic" then true
else (match follow haxe_type with
| TInst (klass,params) ->
(match klass.cl_path with
| ([],"Array") | ([],"Class") | (["cpp"],"FastIterator")
| (["cpp"],"RawPointer") |(["cpp"],"ConstRawPointer")
| (["cpp"],"Pointer") |(["cpp"],"ConstPointer")|(["cpp"],"Function") -> false
| _ -> (match klass.cl_kind with KTypeParameter _ -> true | _ -> false)
)
| _ -> false
)
and cpp_function_signature tfun =
match follow tfun with
| TFun(args,ret) -> (type_string ret) ^ "(" ^ (gen_tfun_interface_arg_list args) ^ ")"
| _ -> "void *"
and cpp_function_signature_params params = match params with
| [t] -> cpp_function_signature t
| _ -> assert false;
and gen_interface_arg_type_name name opt typ =
let type_str = (type_string typ) in
(if (opt && (cant_be_null type_str) ) then
"hx::Null< " ^ type_str ^ " > "
else
type_str )
^ " " ^ (keyword_remap name)
and gen_tfun_interface_arg_list args =
String.concat "," (List.map (fun (name,opt,typ) -> gen_interface_arg_type_name name opt typ) args)
;;
let is_array haxe_type =
match follow haxe_type with
| TInst (klass,params) ->
(match klass.cl_path with
| [] , "Array" -> not (is_dynamic_array_param (List.hd params))
| _ -> false )
| TType (type_def,params) ->
(match type_def.t_path with
| [] , "Array" -> not (is_dynamic_array_param (List.hd params))
| _ -> false )
| _ -> false
;;
let is_array_or_dyn_array haxe_type =
match follow haxe_type with
| TInst (klass,params) ->
(match klass.cl_path with | [] , "Array" -> true | _ -> false )
| TType (type_def,params) ->
(match type_def.t_path with | [] , "Array" -> true | _ -> false )
| _ -> false
;;
let is_array_implementer haxe_type =
match follow haxe_type with
| TInst (klass,params) ->
(match klass.cl_array_access with
| Some _ -> true
| _ -> false )
| _ -> false
;;
let is_numeric_field field =
match field.cf_kind with
| Var _ -> is_numeric (type_string field.cf_type)
| _ -> false;
;;
let is_static_access obj =
match (remove_parens obj).eexpr with
| TTypeExpr _ -> true
| _ -> false
;;
let is_native_with_space func =
match (remove_parens func).eexpr with
| TField(obj,field) when is_static_access obj ->
String.contains (get_field_access_meta field Meta.Native) ' '
| _ -> false
;;
let rec is_cpp_function_member func =
match (remove_parens func).eexpr with
| TField(obj,field) when is_cpp_function_instance obj.etype -> true
| TCall(obj,_) -> is_cpp_function_member obj
| _ -> false
;;
(* Get the type and output it to the stream *)
let gen_type ctx haxe_type =
ctx.ctx_output (type_string haxe_type)
;;
(* Get the type and output it to the stream *)
let gen_type_suff ctx haxe_type suff =
ctx.ctx_output (type_string_suff suff haxe_type);;
let member_type ctx field_object member =
let name = (if (is_array field_object.etype) then "::Array"
else (type_string field_object.etype)) ^ "." ^ member in
try ( Hashtbl.find ctx.ctx_class_member_types name )
with Not_found -> "?";;
let is_interface obj = is_interface_type obj.etype;;
let should_implement_field x = not (is_extern_field x);;
let is_function_member expression =
match (follow expression.etype) with | TFun (_,_) -> true | _ -> false;;
let is_internal_member member =
match member with
| "__Field" | "__IField" | "__Run" | "__Is" | "__GetClass" | "__GetType" | "__ToString"
| "__s" | "__GetPtr" | "__SetField" | "__length" | "__IsArray" | "__SetThis" | "__Internal"
| "__EnumParams" | "__Index" | "__Tag" | "__GetFields" | "toString" | "__HasField"
| "__GetRealObject"
-> true
| _ -> false;;
let is_extern_class class_def =
class_def.cl_extern || (has_meta_key class_def.cl_meta Meta.Extern) ||
(match class_def.cl_kind with
| KAbstractImpl abstract_def -> (has_meta_key abstract_def.a_meta Meta.Extern)
| _ -> false );
;;
let is_extern_class_instance obj =
match follow obj.etype with
| TInst (klass,params) -> klass.cl_extern
| _ -> false
;;
let is_struct_access t =
match follow t with
| TInst (class_def,_) -> (has_meta_key class_def.cl_meta Meta.StructAccess)
| _ -> false
;;
let rec is_dynamic_accessor name acc field class_def =
( ( acc ^ "_" ^ field.cf_name) = name ) &&
( not (List.exists (fun f -> f.cf_name=name) class_def.cl_ordered_fields) )
&& (match class_def.cl_super with None -> true | Some (parent,_) -> is_dynamic_accessor name acc field parent )
;;
let gen_arg_type_name name default_val arg_type prefix =
let remap_name = keyword_remap name in
let type_str = (type_string arg_type) in
match default_val with
| Some TNull -> (type_str,remap_name)
| Some constant when (cant_be_null type_str) -> ("hx::Null< " ^ type_str ^ " > ",prefix ^ remap_name)
| Some constant -> (type_str,prefix ^ remap_name)
| _ -> (type_str,remap_name);;
(* Generate prototype text, including allowing default values to be null *)
let gen_arg name default_val arg_type prefix =
let pair = gen_arg_type_name name default_val arg_type prefix in
(fst pair) ^ " " ^ (snd pair);;
let rec gen_arg_list arg_list prefix =
String.concat "," (List.map (fun (v,o) -> (gen_arg v.v_name o v.v_type prefix) ) arg_list)
let rec gen_tfun_arg_list arg_list =
match arg_list with
| [] -> ""
| [(name,o,arg_type)] -> gen_arg name None arg_type ""
| (name,o,arg_type) :: remaining ->
(gen_arg name None arg_type "") ^ "," ^ (gen_tfun_arg_list remaining)
(* Check to see if we are the first object in the parent tree to implement a dynamic interface *)
let implement_dynamic_here class_def =
let implements_dynamic c = match c.cl_dynamic with None -> false | _ -> true in
let rec super_implements_dynamic c = match c.cl_super with
| None -> false
| Some (csup, _) -> if (implements_dynamic csup) then true else
super_implements_dynamic csup;
in
( (implements_dynamic class_def) && (not (super_implements_dynamic class_def) ) );;
let gen_hash32 seed str =
let h = ref (Int32.of_int seed) in
let cycle = Int32.of_int 223 in
for i = 0 to String.length str - 1 do
h := Int32.add (Int32.mul !h cycle) (Int32.of_int (int_of_char (String.unsafe_get str i)));
done;
!h
;;
let gen_hash seed str =
Printf.sprintf "0x%08lx" (gen_hash32 seed str)
;;
let gen_string_hash str =
let h = gen_hash32 0 str in
Printf.sprintf "\"\\x%02lx\",\"\\x%02lx\",\"\\x%02lx\",\"\\x%02lx\""
(Int32.shift_right_logical (Int32.shift_left h 24) 24)
(Int32.shift_right_logical (Int32.shift_left h 16) 24)
(Int32.shift_right_logical (Int32.shift_left h 8) 24)
(Int32.shift_right_logical h 24)
;;
(* Make string printable for c++ code *)
(* Here we know there are no utf8 characters, so use the L"" notation to avoid conversion *)
let escape_stringw s l =
let b = Buffer.create 0 in
Buffer.add_char b 'L';
Buffer.add_char b '"';
let skip = ref 0 in
for i = 0 to String.length s - 1 do
if (!skip>0) then begin
skip := !skip -1;
l := !l-1;
end else
match Char.code (String.unsafe_get s i) with
| c when (c>127) ->
let encoded = ((c land 0x3F) lsl 6) lor ( Char.code ((String.unsafe_get s (i+1))) land 0x7F) in
skip := 1;
Buffer.add_string b (Printf.sprintf "\\x%X\"L\"" encoded)
| c when (c < 32) -> Buffer.add_string b (Printf.sprintf "\\x%X\"L\"" c)
| c -> Buffer.add_char b (Char.chr c)
done;
Buffer.add_char b '"';
Buffer.contents b;;
let special_to_hex s =
let l = String.length s in
let b = Buffer.create 0 in
for i = 0 to l - 1 do
match Char.code (String.unsafe_get s i) with
| c when (c>127) || (c<32) ->
Buffer.add_string b (Printf.sprintf "\\x%02x\"\"" c)
| c -> Buffer.add_char b (Char.chr c)
done;
Buffer.contents b;;
let escape_extern s =
let l = String.length s in
let b = Buffer.create 0 in
for i = 0 to l - 1 do
match Char.code (String.unsafe_get s i) with
| c when (c>127) || (c<32) || (c=34) || (c=92) ->
Buffer.add_string b (Printf.sprintf "\\x%02x" c)
| c -> Buffer.add_char b (Char.chr c)
done;
Buffer.contents b;;
let has_utf8_chars s =
let result = ref false in
for i = 0 to String.length s - 1 do
result := !result || ( Char.code (String.unsafe_get s i) > 127 )
done;
!result;;
let escape_command s =
let b = Buffer.create 0 in
String.iter (fun ch -> if (ch=='"' || ch=='\\' ) then Buffer.add_string b "\\"; Buffer.add_char b ch ) s;
Buffer.contents b;;
let str s =
let rec split s plus =
let escaped = Ast.s_escape ~hex:false s in
let hexed = (special_to_hex escaped) in
if (String.length hexed <= 16000 ) then
plus ^ " HX_CSTRING(\"" ^ hexed ^ "\")"
else begin
let len = String.length s in
let half = len lsr 1 in
(split (String.sub s 0 half) plus ) ^ (split (String.sub s half (len-half)) "+" )
end
in
let escaped = Ast.s_escape ~hex:false s in
let hexed = (special_to_hex escaped) in
if (String.length hexed <= 16000 ) then
"HX_HCSTRING(\"" ^ hexed ^ "\"," ^ (gen_string_hash s) ^ ")"
else
"(" ^ (split s "" ) ^ ")"
;;
let const_char_star s =
let escaped = Ast.s_escape ~hex:false s in
"\"" ^ special_to_hex escaped ^ "\"";
;;
(* When we are in a "real" object, we refer to ourselves as "this", but
if we are in a local class that is used to generate return values,
we use the fake "__this" pointer.
If we are in an "Anon" object, then the "this" refers to the anon object (eg List iterator) *)
let clear_real_this_ptr ctx dynamic_this =
let old_flag = ctx.ctx_real_this_ptr in
let old_dynamic = ctx.ctx_dynamic_this_ptr in
let old_void = ctx.ctx_real_void in
ctx.ctx_real_this_ptr <- false;
ctx.ctx_dynamic_this_ptr <- dynamic_this;
fun () -> (
ctx.ctx_real_this_ptr <- old_flag;
ctx.ctx_dynamic_this_ptr <- old_dynamic;
ctx.ctx_real_void <- old_void;
)
;;
(* Generate temp variable names *)
let next_anon_function_name ctx =
ctx.ctx_static_id_curr <- ctx.ctx_static_id_curr + 1;
"_Function_" ^ (string_of_int ctx.ctx_static_id_depth) ^"_"^ (string_of_int ctx.ctx_static_id_curr);;
let use_anon_function_name ctx =
ctx.ctx_static_id_used <- ctx.ctx_static_id_used + 1;
"_Function_" ^ (string_of_int ctx.ctx_static_id_depth) ^"_"^ (string_of_int ctx.ctx_static_id_used);;
let push_anon_names ctx =
let old_used = ctx.ctx_static_id_used in
let old_curr = ctx.ctx_static_id_curr in
let old_depth = ctx.ctx_static_id_depth in
ctx.ctx_static_id_used <- 0;
ctx.ctx_static_id_curr <- 0;
ctx.ctx_static_id_depth <- ctx.ctx_static_id_depth + 1;
( function () -> (
ctx.ctx_static_id_used <- old_used;
ctx.ctx_static_id_curr <- old_curr;
ctx.ctx_static_id_depth <- old_depth; ) )
;;
let get_switch_var ctx =
ctx.ctx_switch_id <- ctx.ctx_switch_id + 1;
"_switch_" ^ (string_of_int ctx.ctx_switch_id)
(* If you put on the "-debug" flag, you get extra comments in the source code *)
let debug_expression expression type_too =
"/* " ^ Type.s_expr_kind expression ^ (if (type_too) then " = " ^ (type_string expression.etype) else "") ^ " */";;
(* This is like the Type.iter, but also keeps the "retval" flag up to date *)
let rec iter_retval f retval e =
match e.eexpr with
| TConst _
| TLocal _
| TBreak
| TContinue