/usr/share/ada/adainclude/gnatcoll/gnatcoll-json.adb is in libgnatcoll1.6-dev 1.6gpl2014-9.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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-- G N A T C O L L --
-- --
-- Copyright (C) 2011-2014, AdaCore --
-- --
-- This library is free software; you can redistribute it and/or modify it --
-- under terms of the GNU General Public License as published by the Free --
-- Software Foundation; either version 3, or (at your option) any later --
-- version. This library is distributed in the hope that it will be useful, --
-- but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHAN- --
-- TABILITY or FITNESS FOR A PARTICULAR PURPOSE. --
-- --
-- --
-- --
-- --
-- --
-- You should have received a copy of the GNU General Public License and --
-- a copy of the GCC Runtime Library Exception along with this program; --
-- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see --
-- <http://www.gnu.org/licenses/>. --
-- --
------------------------------------------------------------------------------
with Ada.Characters.Handling; use Ada.Characters.Handling;
with Ada.Strings.Unbounded; use Ada.Strings.Unbounded;
with Ada.Text_IO;
with GNATCOLL.JSON.Utility;
-------------------
-- GNATCOLL.JSON --
-------------------
package body GNATCOLL.JSON is
procedure Report_Error (File : String; Line, Col : Natural; Msg : String);
pragma No_Return (Report_Error);
procedure Write
(Item : JSON_Value;
Compact : Boolean;
Indent : Natural;
Ret : in out Unbounded_String);
-- Auxiliary write function
function Read
(Strm : Unbounded_String;
Idx : access Natural;
Col : access Natural;
Line : access Natural;
Filename : String) return JSON_Value;
-- ???
------------------
-- Report_Error --
------------------
procedure Report_Error (File : String; Line, Col : Natural; Msg : String) is
L : constant String := Line'Img;
C : constant String := Col'Img;
begin
Ada.Text_IO.New_Line;
if File = "" then
Ada.Text_IO.Put ("<stream>:");
else
Ada.Text_IO.Put (File & ":");
end if;
Ada.Text_IO.Put_Line
(L (L'First + 1 .. L'Last) & ":" & C (C'First + 1 .. C'Last) & ": " &
Msg);
raise Invalid_JSON_Stream with Msg;
end Report_Error;
----------
-- Read --
----------
function Read
(Strm : Unbounded_String;
Idx : access Natural;
Col : access Natural;
Line : access Natural;
Filename : String) return JSON_Value
is
procedure Error (Msg : String);
pragma No_Return (Error);
procedure Next_Char (N : Natural := 1);
procedure Skip_Blancks;
-- Does Idx + 1 until a non-blanck character is found
function Read_String return UTF8_Unbounded_String;
-- Reads a string
-----------
-- Error --
-----------
procedure Error (Msg : String) is
begin
Report_Error (Filename, Line.all, Col.all, Msg);
end Error;
---------------
-- Next_Char --
---------------
procedure Next_Char (N : Natural := 1) is
begin
if N > 1 then
for J in 1 .. N - 1 loop
Next_Char;
end loop;
end if;
Idx.all := Idx.all + 1;
if Idx.all > Length (Strm) then
Col.all := Col.all + 1;
elsif Element (Strm, Idx.all) = ASCII.CR then
Col.all := 0;
elsif Element (Strm, Idx.all) = ASCII.LF then
Col.all := 1;
Line.all := Line.all + 1;
else
Col.all := Col.all + 1;
end if;
end Next_Char;
------------------
-- Skip_Blancks --
------------------
procedure Skip_Blancks is
begin
while Idx.all <= Length (Strm) loop
exit when Element (Strm, Idx.all) /= ' '
and then Element (Strm, Idx.all) /= ASCII.HT
and then Element (Strm, Idx.all) /= ASCII.CR
and then Element (Strm, Idx.all) /= ASCII.LF;
Next_Char;
end loop;
end Skip_Blancks;
-----------------
-- Read_String --
-----------------
function Read_String return UTF8_Unbounded_String is
Prev : Natural;
begin
Prev := Idx.all;
while Idx.all < Length (Strm) loop
Next_Char;
if Element (Strm, Idx.all) = '\' then
Next_Char;
elsif Element (Strm, Idx.all) = '"' then
exit;
end if;
end loop;
if Idx.all > Length (Strm)
or else Element (Strm, Idx.all) /= '"'
then
Error ("Invalid string: cannot find ending """);
end if;
-- Skip the trailing '"'
Next_Char;
return Utility.Un_Escape_String (Strm, Prev, Idx.all - 1);
end Read_String;
begin
Skip_Blancks;
if Idx.all not in 1 .. Length (Strm) then
Error ("Nothing to read from stream");
end if;
case Element (Strm, Idx.all) is
when 'n' | 'N' =>
-- null
if To_Lower (Slice (Strm, Idx.all, Idx.all + 3)) /= "null" then
Error ("Invalid token");
end if;
Next_Char (4);
return Create;
when 't' =>
-- true
if To_Lower (Slice (Strm, Idx.all, Idx .all + 3)) /= "true" then
Error ("Invalid token");
end if;
Next_Char (4);
return Create (True);
when 'f' =>
-- false
if To_Lower (Slice (Strm, Idx.all, Idx.all + 4)) /= "false" then
Error ("Invalid token");
end if;
Next_Char (5);
return Create (False);
when '-' | '0' .. '9' =>
-- Numerical value
declare
type Num_Part is (Trail, Int, Frac, Exp);
Unb : Unbounded_String;
Part : Num_Part := Trail;
Old_Col : constant Natural := Col.all;
Old_Line : constant Natural := Line.all;
begin
-- Potential initial '-'
if Element (Strm, Idx.all) = '-' then
Append (Unb, Element (Strm, Idx.all));
Next_Char;
if Idx.all > Length (Strm)
or else Element (Strm, Idx.all) not in '0' .. '9'
then
Error
("Expecting a digit after the initial '-' when " &
"decoding a number");
end if;
end if;
while Idx.all <= Length (Strm) loop
if Part = Trail
and then Element (Strm, Idx.all) in '1' .. '9'
then
-- Non-0 value, we can start adding the digits to the
-- Int part of the number
Part := Int;
elsif (Part = Trail or else Part = Int)
and then Element (Strm, Idx.all) = '.'
then
if Part = Trail then
Append (Unb, "0");
end if;
Part := Frac;
Append (Unb, Element (Strm, Idx.all));
Next_Char;
if Idx.all > Length (Strm)
or else Element (Strm, Idx.all) not in '0' .. '9'
then
Error ("Expecting digits after a '.' when decoding " &
"a number");
end if;
elsif Part /= Exp
and then (Element (Strm, Idx.all) = 'e'
or else Element (Strm, Idx.all) = 'E')
then
if Part = Trail then
-- Although legal, so handled here, this case is
-- a number of the form 0e99.
Append (Unb, "0");
end if;
-- Authorized patterns for exponent: (e|E)(+|-)?[0-9]+
Part := Exp;
Append (Unb, Element (Strm, Idx.all));
Next_Char;
if Idx.all > Length (Strm) then
Error ("Invalid number");
end if;
if Element (Strm, Idx.all) = '+'
or else Element (Strm, Idx.all) = '-'
then
Append (Unb, Element (Strm, Idx.all));
Next_Char;
end if;
if Idx.all > Length (Strm)
or else Element (Strm, Idx.all) not in '0' .. '9'
then
Error ("Expecting digits after 'e' when decoding " &
"a number");
end if;
end if;
exit when Idx.all > Length (Strm)
or else Element (Strm, Idx.all) not in '0' .. '9';
-- Ignore trailing zeros
if Part /= Trail then
Append (Unb, Element (Strm, Idx.all));
end if;
Next_Char;
end loop;
if Part = Trail then
-- The number only contains zeros
return Create (Long_Long_Integer'(0));
elsif Part = Int then
-- Protect against too large values to fit in the stack: a
-- 128-bit integer is maximum 39 digits, so any longer
-- string won't fit into an integer, whatever the CPU.
-- Note that the string representation is already striped
-- of trailing zeros, see the decoding part above.
if Length (Unb) > 40 then
Report_Error
(Filename, Old_Line, Old_Col,
"Numerical value too large to fit " &
"into a Long_Long_Integer");
end if;
declare
Int : Long_Long_Integer;
begin
Int := Long_Long_Integer'Value (To_String (Unb));
return Create (Int);
exception
when Constraint_Error | Storage_Error =>
-- The test above is not sufficient ... We still catch
-- too large values here.
Report_Error
(Filename, Old_Line, Old_Col,
"Numerical value too large to fit " &
"into a Long_Long_Integer");
end;
else
declare
Flt : Float;
begin
Flt := Float'Value (To_String (Unb));
if not Flt'Valid then
raise Constraint_Error;
end if;
return Create (Flt);
exception
when Constraint_Error =>
Report_Error
(Filename, Old_Line, Old_Col,
"Numerical value too large to fit " &
"into an IEEE 754 float");
end;
end if;
end;
when '"' =>
return Create (Read_String);
when '[' =>
declare
Arr : constant JSON_Array_Access := new JSON_Array;
First : Boolean := True;
begin
-- Skip '['
Next_Char;
while Idx.all < Length (Strm) loop
Skip_Blancks;
if Idx.all > Length (Strm) then
Error ("Uncomplete JSON array");
end if;
exit when Element (Strm, Idx.all) = ']';
if not First then
if Element (Strm, Idx.all) /= ',' then
Error ("Expected ',' in the array value");
end if;
-- Skip the coma
Next_Char;
end if;
First := False;
Append (Arr.all, Read (Strm, Idx, Col, Line, Filename));
end loop;
if Idx.all > Length (Strm)
or else Element (Strm, Idx.all) /= ']'
then
Error ("Unfinished array, expecting ending ']'");
end if;
Next_Char;
declare
Ret : JSON_Value;
begin
Ret.Kind := JSON_Array_Type;
Ret.Arr_Value := Arr;
return Ret;
end;
end;
when '{' =>
declare
First : Boolean := True;
Ret : JSON_Value;
begin
-- Allocate internal container
Ret.Kind := JSON_Object_Type;
Ret.Obj_Value := new JSON_Object_Internal;
-- Skip '{'
Next_Char;
while Idx.all < Length (Strm) loop
Skip_Blancks;
if Idx.all > Length (Strm) then
Error ("Unterminated object value");
end if;
exit when Element (Strm, Idx.all) = '}';
if not First then
if Element (Strm, Idx.all) /= ',' then
Error ("Expected ',' as object value separator");
end if;
-- Skip the coma
Next_Char;
end if;
First := False;
Skip_Blancks;
declare
Name : constant UTF8_Unbounded_String := Read_String;
begin
Skip_Blancks;
if Idx.all > Length (Strm) then
Error ("Unterminated object value");
end if;
if Element (Strm, Idx.all) /= ':' then
Error
("Expected a value after the name in a JSON object"
& " at index" & Idx.all'Img);
end if;
-- Skip the semi-colon
Next_Char;
declare
Item : constant JSON_Value :=
Read (Strm, Idx, Col, Line, Filename);
begin
Set_Field (Ret, To_String (Name), Item);
end;
end;
end loop;
if Idx.all > Length (Strm)
or else Element (Strm, Idx.all) /= '}'
then
Error ("Unterminated object value");
end if;
Next_Char;
return Ret;
end;
when others =>
Error ("Unexpected token");
raise Invalid_JSON_Stream;
end case;
end Read;
function Read
(Strm : Unbounded_String;
Filename : String := "<data>") return JSON_Value
is
Idx : aliased Natural := 1;
Col : aliased Natural := 1;
Line : aliased Natural := 1;
begin
return Read (Strm, Idx'Access, Col'Access, Line'Access, Filename);
end Read;
function Read
(Strm : String;
Filename : String := "<data>") return JSON_Value
is
begin
return Read (To_Unbounded_String (Strm), Filename);
end Read;
-----------
-- Write --
-----------
procedure Write
(Item : JSON_Value;
Compact : Boolean;
Indent : Natural;
Ret : in out Unbounded_String)
is
procedure Do_Indent (Val : Natural);
-- Adds whitespace characters to Ret corresponding to the indentation
-- level.
---------------
-- Do_Indent --
---------------
procedure Do_Indent (Val : Natural) is
begin
if Compact then
return;
end if;
Append (Ret, (1 .. 2 * Val => ' '));
end Do_Indent;
begin
case Item.Kind is
when JSON_Null_Type =>
Append (Ret, "null");
when JSON_Boolean_Type =>
if Item.Bool_Value then
Append (Ret, "true");
else
Append (Ret, "false");
end if;
when JSON_Int_Type =>
declare
S : constant String := Item.Int_Value'Img;
begin
if S (S'First) = ' ' then
Append (Ret, S (S'First + 1 .. S'Last));
else
Append (Ret, S);
end if;
end;
when JSON_Float_Type =>
declare
S : constant String := Item.Flt_Value'Img;
begin
if S (S'First) = ' ' then
Append (Ret, S (S'First + 1 .. S'Last));
else
Append (Ret, S);
end if;
end;
when JSON_String_Type =>
Append (Ret, JSON.Utility.Escape_String (Item.Str_Value));
when JSON_Array_Type =>
Append (Ret, '[');
if not Compact then
Append (Ret, ASCII.LF);
end if;
for J in Item.Arr_Value.Vals.First_Index ..
Item.Arr_Value.Vals.Last_Index
loop
Do_Indent (Indent + 1);
Write
(Item.Arr_Value.Vals.Element (J),
Compact, Indent + 1, Ret);
if J < Item.Arr_Value.Vals.Last_Index then
Append (Ret, ",");
end if;
if not Compact then
Append (Ret, ASCII.LF);
end if;
end loop;
Do_Indent (Indent);
Append (Ret, ']');
when JSON_Object_Type =>
declare
use Object_Items_Pkg;
J : Object_Items_Pkg.Cursor := Item.Obj_Value.Vals.First;
begin
Append (Ret, '{');
if not Compact then
Append (Ret, ASCII.LF);
end if;
while Has_Element (J) loop
Do_Indent (Indent + 1);
Append (Ret, """");
Append (Ret, Element (J).Key);
Append (Ret, """: ");
Write (Element (J).Val, Compact, Indent + 1, Ret);
Next (J);
if Has_Element (J) then
Append (Ret, ",");
end if;
if not Compact then
Append (Ret, ASCII.LF);
end if;
end loop;
Do_Indent (Indent);
Append (Ret, '}');
end;
end case;
end Write;
-----------
-- Write --
-----------
function Write
(Item : JSON_Value; Compact : Boolean := True) return String
is
begin
return To_String (Write (Item, Compact));
end Write;
-----------
-- Write --
-----------
function Write
(Item : JSON_Value; Compact : Boolean := True) return Unbounded_String
is
Ret : Unbounded_String;
begin
Write (Item, Compact, 0, Ret);
return Ret;
end Write;
------------
-- Length --
------------
function Length (Arr : JSON_Array) return Natural is
begin
return Natural (Arr.Vals.Length);
end Length;
--------------
-- Is_Empty --
--------------
function Is_Empty (Arr : JSON_Array) return Boolean is
begin
return Arr.Vals.Is_Empty;
end Is_Empty;
---------
-- Get --
---------
function Get (Arr : JSON_Array; Index : Positive) return JSON_Value is
begin
return Arr.Vals.Element (Index);
end Get;
------------
-- Append --
------------
procedure Append (Arr : in out JSON_Array; Val : JSON_Value) is
begin
Arr.Vals.Append (Val);
end Append;
-------------
-- Prepend --
-------------
procedure Prepend (Arr : in out JSON_Array; Val : JSON_Value) is
begin
Arr.Vals.Prepend (Val);
end Prepend;
---------
-- "&" --
---------
function "&" (Arr : JSON_Array; Value : JSON_Value) return JSON_Array is
Result : JSON_Array := Arr;
begin
Append (Result, Value);
return Result;
end "&";
function "&" (Value1, Value2 : JSON_Value) return JSON_Array is
Result : JSON_Array;
begin
Append (Result, Value1);
Append (Result, Value2);
return Result;
end "&";
-----------
-- Clear --
-----------
procedure Clear (Arr : in out JSON_Array) is
begin
Arr.Vals.Clear;
end Clear;
----------------
-- Initialize --
----------------
overriding procedure Initialize (Obj : in out JSON_Value) is
begin
Obj.Cnt := new Natural'(1);
end Initialize;
------------
-- Adjust --
------------
overriding procedure Adjust (Obj : in out JSON_Value) is
begin
if Obj.Cnt /= null then
-- Cnt is null for JSON_Null, and we do not want to do reference
-- counting for it.
Obj.Cnt.all := Obj.Cnt.all + 1;
end if;
end Adjust;
--------------
-- Finalize --
--------------
overriding procedure Finalize (Obj : in out JSON_Value) is
C : Counter := Obj.Cnt;
begin
if C = null then
return;
end if;
Obj.Cnt := null;
-- Prevent multiple calls to Finalize, which is valid in Ada
C.all := C.all - 1;
if C.all = 0 then
Free (C);
case Obj.Kind is
when JSON_Null_Type |
JSON_Boolean_Type |
JSON_Int_Type |
JSON_Float_Type =>
null;
when JSON_String_Type =>
Obj.Str_Value := Null_Unbounded_String;
when JSON_Array_Type =>
if Obj.Arr_Value /= null then
Free (Obj.Arr_Value);
end if;
when JSON_Object_Type =>
if Obj.Obj_Value /= null then
Free (Obj.Obj_Value);
end if;
end case;
end if;
end Finalize;
------------
-- Create --
------------
function Create return JSON_Value is
Ret : JSON_Value;
begin
Ret.Kind := JSON_Null_Type;
return Ret;
end Create;
function Create (Val : Boolean) return JSON_Value is
Ret : JSON_Value;
begin
Ret.Kind := JSON_Boolean_Type;
Ret.Bool_Value := Val;
return Ret;
end Create;
function Create (Val : Integer) return JSON_Value is
Ret : JSON_Value;
begin
Ret.Kind := JSON_Int_Type;
Ret.Int_Value := Long_Long_Integer (Val);
return Ret;
end Create;
function Create (Val : Long_Integer) return JSON_Value is
Ret : JSON_Value;
begin
Ret.Kind := JSON_Int_Type;
Ret.Int_Value := Long_Long_Integer (Val);
return Ret;
end Create;
function Create (Val : Long_Long_Integer) return JSON_Value is
Ret : JSON_Value;
begin
Ret.Kind := JSON_Int_Type;
Ret.Int_Value := Val;
return Ret;
end Create;
function Create (Val : Float) return JSON_Value is
Ret : JSON_Value;
begin
Ret.Kind := JSON_Float_Type;
Ret.Flt_Value := Val;
return Ret;
end Create;
function Create (Val : UTF8_String) return JSON_Value is
Ret : JSON_Value;
begin
Ret.Kind := JSON_String_Type;
Ret.Str_Value := To_Unbounded_String (Val);
return Ret;
end Create;
function Create (Val : UTF8_Unbounded_String) return JSON_Value is
Ret : JSON_Value;
begin
Ret.Kind := JSON_String_Type;
Ret.Str_Value := Val;
return Ret;
end Create;
function Create (Val : JSON_Array) return JSON_Value is
Ret : JSON_Value;
begin
Ret.Kind := JSON_Array_Type;
Ret.Arr_Value := new JSON_Array'(Val);
return Ret;
end Create;
-------------------
-- Create_Object --
-------------------
function Create_Object return JSON_Value is
Ret : JSON_Value;
begin
Ret.Kind := JSON_Object_Type;
Ret.Obj_Value := new JSON_Object_Internal;
return Ret;
end Create_Object;
---------------
-- Set_Field --
---------------
procedure Set_Field
(Val : JSON_Value;
Field_Name : UTF8_String;
Field : JSON_Value)
is
Key : constant UTF8_Unbounded_String :=
To_Unbounded_String (Field_Name);
begin
for J in
Val.Obj_Value.Vals.First_Index .. Val.Obj_Value.Vals.Last_Index
loop
if Key = Val.Obj_Value.Vals.Element (J).Key then
Val.Obj_Value.Vals.Replace_Element (J, (Key, Field));
return;
end if;
end loop;
Val.Obj_Value.Vals.Append
((Key => To_Unbounded_String (Field_Name),
Val => Field));
end Set_Field;
procedure Set_Field
(Val : JSON_Value;
Field_Name : UTF8_String;
Field : Boolean) is
begin
Set_Field (Val, Field_Name, Create (Field));
end Set_Field;
procedure Set_Field
(Val : JSON_Value;
Field_Name : UTF8_String;
Field : Integer) is
begin
Set_Field (Val, Field_Name, Create (Field));
end Set_Field;
procedure Set_Field
(Val : JSON_Value;
Field_Name : UTF8_String;
Field : Long_Integer) is
begin
Set_Field (Val, Field_Name, Create (Field));
end Set_Field;
procedure Set_Field
(Val : JSON_Value;
Field_Name : UTF8_String;
Field : Float) is
begin
Set_Field (Val, Field_Name, Create (Field));
end Set_Field;
procedure Set_Field
(Val : JSON_Value;
Field_Name : UTF8_String;
Field : UTF8_String) is
begin
Set_Field (Val, Field_Name, Create (Field));
end Set_Field;
procedure Set_Field
(Val : JSON_Value;
Field_Name : UTF8_String;
Field : UTF8_Unbounded_String) is
begin
Set_Field (Val, Field_Name, Create (Field));
end Set_Field;
procedure Set_Field
(Val : JSON_Value;
Field_Name : UTF8_String;
Field : JSON_Array)
is
F_Val : constant JSON_Value := Create (Field);
begin
Set_Field (Val, Field_Name, F_Val);
end Set_Field;
----------
-- Kind --
----------
function Kind (Val : JSON_Value) return JSON_Value_Type is
begin
return Val.Kind;
end Kind;
---------
-- Get --
---------
function Get (Val : JSON_Value) return Boolean is
begin
return Val.Bool_Value;
end Get;
function Get (Val : JSON_Value) return Integer is
begin
return Integer (Val.Int_Value);
end Get;
function Get (Val : JSON_Value) return Long_Integer is
begin
return Long_Integer (Val.Int_Value);
end Get;
function Get (Val : JSON_Value) return Long_Long_Integer is
begin
return Val.Int_Value;
end Get;
function Get (Val : JSON_Value) return Float is
begin
return Val.Flt_Value;
end Get;
function Get (Val : JSON_Value) return UTF8_String is
begin
return To_String (Val.Str_Value);
end Get;
function Get (Val : JSON_Value) return UTF8_Unbounded_String is
begin
return Val.Str_Value;
end Get;
function Get
(Val : JSON_Value;
Field : UTF8_String) return JSON_Value
is
Key : constant UTF8_Unbounded_String :=
To_Unbounded_String (Field);
begin
for J in
Val.Obj_Value.Vals.First_Index .. Val.Obj_Value.Vals.Last_Index
loop
if Key = Val.Obj_Value.Vals.Element (J).Key then
return Val.Obj_Value.Vals.Element (J).Val;
end if;
end loop;
return JSON_Null;
end Get;
function Get (Val : JSON_Value) return JSON_Array is
begin
return Val.Arr_Value.all;
end Get;
---------------
-- Has_Field --
---------------
function Has_Field (Val : JSON_Value; Field : UTF8_String) return Boolean is
Key : constant UTF8_Unbounded_String :=
To_Unbounded_String (Field);
begin
for J in
Val.Obj_Value.Vals.First_Index .. Val.Obj_Value.Vals.Last_Index
loop
if Key = Val.Obj_Value.Vals.Element (J).Key then
return True;
end if;
end loop;
return False;
end Has_Field;
---------
-- Get --
---------
function Get (Val : JSON_Value; Field : UTF8_String) return Boolean is
begin
return Get (Get (Val, Field));
end Get;
function Get (Val : JSON_Value; Field : UTF8_String) return Integer is
begin
return Get (Get (Val, Field));
end Get;
function Get (Val : JSON_Value; Field : UTF8_String) return Long_Integer is
begin
return Get (Get (Val, Field));
end Get;
function Get (Val : JSON_Value; Field : UTF8_String) return Float is
begin
return Get (Get (Val, Field));
end Get;
function Get (Val : JSON_Value; Field : UTF8_String) return UTF8_String is
begin
return Get (Get (Val, Field));
end Get;
function Get
(Val : JSON_Value; Field : UTF8_String) return UTF8_Unbounded_String
is
begin
return Get (Get (Val, Field));
end Get;
function Get (Val : JSON_Value; Field : UTF8_String) return JSON_Array is
begin
return Get (Get (Val, Field));
end Get;
---------------------
-- Map_JSON_Object --
---------------------
procedure Map_JSON_Object
(Val : JSON_Value;
CB : access procedure (Name : UTF8_String; Value : JSON_Value))
is
begin
for J in
Val.Obj_Value.Vals.First_Index .. Val.Obj_Value.Vals.Last_Index
loop
CB (To_String (Val.Obj_Value.Vals.Element (J).Key),
Val.Obj_Value.Vals.Element (J).Val);
end loop;
end Map_JSON_Object;
---------------------
-- Map_JSON_Object --
---------------------
procedure Gen_Map_JSON_Object
(Val : JSON_Value;
CB : access procedure
(User_Object : in out Mapped;
Name : UTF8_String;
Value : JSON_Value);
User_Object : in out Mapped)
is
procedure Internal (Name : UTF8_String; Value : JSON_Value);
--------------
-- Internal --
--------------
procedure Internal (Name : UTF8_String; Value : JSON_Value) is
begin
CB (User_Object, Name, Value);
end Internal;
begin
Map_JSON_Object (Val, Internal'Access);
end Gen_Map_JSON_Object;
end GNATCOLL.JSON;
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