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Added test cases from getest to autotest. First version.

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This commit is contained in:
jvelilla
2011-07-11 12:07:05 +00:00
parent 6188f99615
commit 05b4bd90f5
9 changed files with 1236 additions and 0 deletions
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24
test/autotest/test_suite/author.e Normal file
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class AUTHOR
create
make
feature {NONE} -- Initialization
make (a_name: STRING_32)
do
set_name (a_name)
end
feature -- Access
name: STRING_32
feature -- Status setting
set_name (a_name: STRING_32)
do
name := a_name
end
end -- class AUTHOR

40
test/autotest/test_suite/book.e Normal file
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class BOOK
create
make
feature {NONE} -- Initialization
make (a_title: STRING_32; an_author: AUTHOR; an_isbn: STRING_32)
do
set_title (a_title)
set_author (an_author)
set_isbn (an_isbn)
end
feature -- Access
title: STRING_32
isbn: STRING_32
author: AUTHOR
feature -- Status setting
set_title (a_title: STRING_32)
do
title := a_title
end
set_author (an_author: AUTHOR)
do
author := an_author
end
set_isbn (an_isbn: STRING_32)
do
isbn := an_isbn
end
end -- class BOOK

80
test/autotest/test_suite/book_collection.e Normal file
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class BOOK_COLLECTION
create
make
feature {NONE} -- Initialization
make (a_name: STRING_32)
do
set_name (a_name)
create book_index.make (10)
end
feature -- Access
name: STRING_32
books: LIST [BOOK]
do
from
create {LINKED_LIST [BOOK]} Result.make
book_index.start
until
book_index.after
loop
Result.append (book_index.item_for_iteration)
book_index.forth
end
end
books_by_author (an_author: STRING_32): detachable LIST [BOOK]
do
if book_index.has (an_author) then
Result := book_index @ an_author
else
create {LINKED_LIST [BOOK]} Result.make
end
end
feature -- Status setting
set_name (a_name: STRING_32)
do
name := a_name
end
add_book (a_book: BOOK)
local
l: detachable LIST [BOOK]
do
if book_index.has (a_book.author.name) then
l := book_index.at ( a_book.author.name )
else
create {LINKED_LIST [BOOK]} l.make
book_index.put (l, a_book.author.name)
end
if attached l as la then
la.force (a_book)
end
end
add_books (book_list: like books)
do
from
book_list.start
until
book_list.after
loop
add_book (book_list.item)
book_list.forth
end
end
feature {NONE} -- Implementation
book_index: HASH_TABLE [LIST [BOOK], STRING_32]
end -- class BOOK_COLLECTION

54
test/autotest/test_suite/json_author_converter.e Normal file
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note
description: "A JSON converter for AUTHOR"
author: "Paul Cohen"
date: "$Date: 2010-03-08 20:46:59 -0300 (Mon, 08 Mar 2010) $"
revision: "$Revision: 82 $"
file: "$HeadURL: https://svn.origo.ethz.ch/ejson/branches/POC-converters-factory/test/json_author_converter.e $"
class JSON_AUTHOR_CONVERTER
inherit
JSON_CONVERTER
create
make
feature {NONE} -- Initialization
make
local
ucs: STRING_32
do
create ucs.make_from_string ("")
create object.make (ucs)
end
feature -- Access
object: AUTHOR
feature -- Conversion
from_json (j: like to_json): detachable like object
local
ucs: detachable STRING_32
do
ucs ?= json.object (j.item (name_key), Void)
check ucs /= Void end
create Result.make (ucs)
end
to_json (o: like object): JSON_OBJECT
do
create Result.make
Result.put (json.value (o.name), name_key)
end
feature {NONE} -- Implementation
name_key: JSON_STRING
once
create Result.make_json ("name")
end
end -- class JSON_AUTHOR_CONVERTER

79
test/autotest/test_suite/json_book_collection_converter.e Normal file
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note
description: "A JSON converter for BOOK_COLLECTION"
author: "Paul Cohen"
date: "$Date: 2010-03-08 20:46:59 -0300 (Mon, 08 Mar 2010) $"
revision: "$Revision: 82 $"
file: "$HeadURL: https://svn.origo.ethz.ch/ejson/branches/POC-converters-factory/test/json_book_collection_converter.e $"
class JSON_BOOK_COLLECTION_CONVERTER
inherit
JSON_CONVERTER
create
make
feature {NONE} -- Initialization
make
local
ucs: STRING_32
do
create ucs.make_from_string ("")
create object.make (ucs)
end
feature -- Access
object: BOOK_COLLECTION
feature -- Conversion
from_json (j: like to_json): detachable like object
local
ucs: detachable STRING_32
ll: LINKED_LIST [BOOK]
b: detachable BOOK
ja: detachable JSON_ARRAY
i: INTEGER
do
ucs ?= json.object (j.item (name_key), Void)
check ucs /= Void end
create Result.make (ucs)
ja ?= j.item (books_key)
check ja /= Void end
from
i := 1
create ll.make
until
i > ja.count
loop
b ?= json.object (ja [i], "BOOK")
check b /= Void end
ll.force (b)
i := i + 1
end
check ll /= Void end
Result.add_books (ll)
end
to_json (o: like object): JSON_OBJECT
do
create Result.make
Result.put (json.value (o.name), name_key)
Result.put (json.value (o.books), books_key)
end
feature {NONE} -- Implementation
name_key: JSON_STRING
once
create Result.make_json ("name")
end
books_key: JSON_STRING
once
create Result.make_json ("books")
end
end -- class JSON_BOOK_COLLECTION_CONVERTER

73
test/autotest/test_suite/json_book_converter.e Normal file
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note
description: "A JSON converter for BOOK"
author: "Paul Cohen"
date: "$Date: 2010-03-08 20:46:59 -0300 (Mon, 08 Mar 2010) $"
revision: "$Revision: 82 $"
file: "$HeadURL: https://svn.origo.ethz.ch/ejson/branches/POC-converters-factory/test/json_book_converter.e $"
class JSON_BOOK_CONVERTER
inherit
JSON_CONVERTER
create
make
feature {NONE} -- Initialization
make
local
ucs: STRING_32
a: AUTHOR
do
create ucs.make_from_string ("")
create a.make (ucs)
create object.make (ucs, a, ucs)
end
feature -- Access
object: BOOK
feature -- Conversion
from_json (j: like to_json): detachable like object
local
ucs1, ucs2: detachable STRING_32
a: detachable AUTHOR
do
ucs1 ?= json.object (j.item (title_key), Void)
check ucs1 /= Void end
ucs2 ?= json.object (j.item (isbn_key), Void)
check ucs2 /= Void end
a ?= json.object (j.item (author_key), "AUTHOR")
check a /= Void end
create Result.make (ucs1, a, ucs2)
end
to_json (o: like object): JSON_OBJECT
do
create Result.make
Result.put (json.value (o.title), title_key)
Result.put (json.value (o.isbn), isbn_key)
Result.put (json.value (o.author), author_key)
end
feature {NONE} -- Implementation
title_key: JSON_STRING
once
create Result.make_json ("title")
end
isbn_key: JSON_STRING
once
create Result.make_json ("isbn")
end
author_key: JSON_STRING
once
create Result.make_json ("author")
end
end -- class JSON_BOOK_CONVERTER

74
test/autotest/test_suite/test_ds.e Normal file
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class TEST_DS
inherit
SHARED_EJSON
rename default_create as shared_default_create end
EQA_TEST_SET
select default_create end
feature -- Test
test_linked_list_converter
local
jc: JSON_LINKED_LIST_CONVERTER
l: LINKED_LIST [STRING]
l2: detachable LINKED_LIST [detachable ANY]
s: STRING
jv: detachable JSON_VALUE
do
create jc.make
json.add_converter (jc)
create l.make
s := "foo"
l.force (s)
s := "bar"
l.force (s)
jv := json.value (l)
assert ("jv /= Void", jv /= Void)
if attached jv as l_jv then
s := jv.representation
l2 ?= json.object (jv, "LINKED_LIST")
assert ("l2 /= Void", l2 /= Void)
end
end
test_hash_table_converter
local
tc: JSON_HASH_TABLE_CONVERTER
t: HASH_TABLE [STRING, STRING]
t2: detachable HASH_TABLE [ANY, HASHABLE]
s: STRING
ucs_key, ucs_value: detachable STRING_32
jv: detachable JSON_VALUE
do
create tc.make
json.add_converter (tc)
create t.make (2)
t.put ("foo", "1")
t.put ("bar", "2")
jv := json.value (t)
assert ("jv /= Void", jv /= Void)
if attached jv as l_jv then
s := l_jv.representation
t2 ?= json.object (l_jv, "HASH_TABLE")
assert ("t2 /= Void", t2 /= Void)
end
create ucs_key.make_from_string ("1")
if attached t2 as l_t2 then
ucs_value ?= t2 @ ucs_key
assert ("ucs_value /= Void", ucs_value /= Void)
if attached ucs_value as l_ucs_value then
assert ("ucs_value.string.is_equal (%"foo%")", l_ucs_value.string.is_equal ("foo"))
end
create ucs_key.make_from_string ("2")
ucs_value ?= t2 @ ucs_key
assert ("ucs_value /= Void", ucs_value /= Void)
if attached ucs_value as l_ucs_value then
assert ("ucs_value.string.is_equal (%"bar%")", l_ucs_value.string.is_equal ("bar"))
end
end
end
end -- class TEST_DS

770
test/autotest/test_suite/test_json_core.e Normal file
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class TEST_JSON_CORE
inherit
SHARED_EJSON
rename default_create as shared_default_create end
EQA_TEST_SET
select default_create end
feature -- Test
test_json_number_and_integer
local
i: INTEGER
i8: INTEGER_8
jn: detachable JSON_NUMBER
jrep: STRING
parser: JSON_PARSER
do
i := 42
-- Eiffel value -> JSON value -> JSON representation
create jn.make_integer (i)
assert ("jn /= Void", jn /= Void)
assert ("jn.representation.is_equal (%"42%")", jn.representation.is_equal ("42"))
-- Eiffel value -> JSON value -> JSON representation with factory
jn := Void
jn ?= json.value (i)
assert ("jn /= Void", jn /= Void)
if attached jn as l_jn then
assert ("jn.representation.is_equal (%"42%")", jn.representation.is_equal ("42"))
end
-- JSON representation-> JSON value -> Eiffel value
-- Note: The JSON_FACTORY will return the smallest INTEGER_* object
-- that can represent the value of the JSON number, in this case
-- we know it is INTEGER_8 since the value is 42
jrep := "42"
create parser.make_parser (jrep)
jn := Void
jn ?= parser.parse
assert ("jn /= Void", jn /= Void)
i8 := 0
i8 ?= json.object (jn, Void)
assert ("i8 = 42", i8 = 42)
end
test_json_number_and_integer_8
local
i8: INTEGER_8
jn: detachable JSON_NUMBER
jrep: STRING
parser: JSON_PARSER
do
i8 := 42
-- Eiffel value -> JSON value -> JSON representation
create jn.make_integer (i8)
assert ("jn /= Void", jn /= Void)
assert ("jn.representation.is_equal (%"42%")", jn.representation.is_equal ("42"))
-- Eiffel value -> JSON value -> JSON representation with factory
jn := Void
jn ?= json.value (i8)
assert ("jn /= Void", jn /= Void)
if attached jn as l_jn then
assert ("jn.representation.is_equal (%"42%")", jn.representation.is_equal ("42"))
end
-- JSON representation -> JSON value -> Eiffel value
-- Note: The JSON_FACTORY will return the smallest INTEGER_* object
-- that can represent the value of the JSON number, in this case
-- we know it is INTEGER_8 since the value is 42
jrep := "42"
create parser.make_parser (jrep)
jn := Void
jn ?= parser.parse
assert ("jn /= Void", jn /= Void)
i8 := 0
i8 ?= json.object (jn, Void)
assert ("i8 = 42", i8 = 42)
end
test_json_number_and_integer_16
local
i16: INTEGER_16
jn: detachable JSON_NUMBER
jrep: STRING
parser: JSON_PARSER
do
i16 := 300
-- Eiffel value -> JSON value -> JSON representation
create jn.make_integer (i16)
assert ("jn /= Void", jn /= Void)
assert ("jn.representation.is_equal (%"300%")", jn.representation.is_equal ("300"))
-- Eiffel value -> JSON with factory
jn := Void
jn ?= json.value (i16)
assert ("jn /= Void", jn /= Void)
if attached jn as l_jn then
assert ("jn.representation.is_equal (%"300%")", l_jn.representation.is_equal ("300"))
end
-- JSON representation -> JSON value -> Eiffel value
-- Note: The JSON_FACTORY will return the smallest INTEGER_* object
-- that can represent the value of the JSON number, in this case
-- we know it is INTEGER_16 since the value is 300
jrep := "300"
create parser.make_parser (jrep)
jn := Void
jn ?= parser.parse
assert ("jn /= Void", jn /= Void)
i16 := 0
i16 ?= json.object (jn, Void)
assert ("i16 = 300", i16 = 300)
end
test_json_number_and_integer_32
local
i32: INTEGER_32
jn: detachable JSON_NUMBER
jrep: STRING
parser: JSON_PARSER
do
i32 := 100000
-- Eiffel value -> JSON representation -> JSON value
create jn.make_integer (i32)
assert ("jn /= Void", jn /= Void)
assert ("jn.representation.is_equal (%"100000%")", jn.representation.is_equal ("100000"))
-- Eiffel value -> JSON representation -> JSON value with factory
jn := Void
jn ?= json.value (i32)
assert ("jn /= Void", jn /= Void)
if attached jn as l_jn then
assert ("jn.representation.is_equal (%"100000%")", l_jn.representation.is_equal ("100000"))
end
-- JSON representation -> JSON value -> Eiffel value
-- Note: The JSON_FACTORY will return the smallest INTEGER_* object
-- that can represent the value of the JSON number, in this case
-- we know it is INTEGER_32 since the value is 100000
jrep := "100000"
create parser.make_parser (jrep)
jn := Void
jn ?= parser.parse
assert ("jn /= Void", jn /= Void)
i32 := 0
i32 ?= json.object (jn, Void)
assert ("i32 = 100000", i32 = 100000)
end
test_json_number_and_integer_64
local
i64: INTEGER_64
jn: detachable JSON_NUMBER
jrep: STRING
parser: JSON_PARSER
do
i64 := 42949672960
-- Eiffel value -> JSON value -> JSON representation
create jn.make_integer (i64)
assert ("jn /= Void", jn /= Void)
assert ("jn.representation.is_equal (%"42949672960%")", jn.representation.is_equal ("42949672960"))
-- Eiffel value -> JSON value -> JSON representation with factory
jn := Void
jn ?= json.value (i64)
assert ("jn /= Void", jn /= Void)
if attached jn as l_jn then
assert ("jn.representation.is_equal (%"42949672960%")", l_jn.representation.is_equal ("42949672960"))
end
-- JSON representation -> JSON value -> Eiffel value
-- Note: The JSON_FACTORY will return the smallest INTEGER_* object
-- that can represent the value of the JSON number, in this case
-- we know it is INTEGER_32 since the value is 42949672960
jrep := "42949672960"
create parser.make_parser (jrep)
jn := Void
jn ?= parser.parse
assert ("jn /= Void", jn /= Void)
i64 := 0
i64 ?= json.object (jn, Void)
assert ("i64 = 42949672960", i64 = 42949672960)
end
test_json_number_and_natural_8
local
n8: NATURAL_8
i16: INTEGER_16
jn: detachable JSON_NUMBER
jrep: STRING
parser: JSON_PARSER
do
n8 := 200
-- Eiffel value -> JSON value -> JSON representation
create jn.make_natural (n8)
assert ("jn /= Void", jn /= Void)
assert ("jn.representation.is_equal (%"200%")", jn.representation.is_equal ("200"))
-- Eiffel value -> JSON value -> JSON representation with factory
jn := Void
jn ?= json.value (n8)
assert ("jn /= Void", jn /= Void)
if attached jn as l_jn then
assert ("jn.representation.is_equal (%"200%")", l_jn.representation.is_equal ("200"))
end
-- JSON representation -> JSON value -> Eiffel value
-- Note: The JSON_FACTORY will return the smallest INTEGER_* object
-- that can represent the value of the JSON number, in this case
-- we know it is INTEGER_16 since the value is 200
jrep := "200"
create parser.make_parser (jrep)
jn := Void
jn ?= parser.parse
assert ("jn /= Void", jn /= Void)
i16 := 0
i16 ?= json.object (jn, Void)
assert ("i16 = 200", i16 = 200)
end
test_json_number_and_natural_16
local
n16: NATURAL_16
i32: INTEGER_32
jn: detachable JSON_NUMBER
jrep: STRING
parser: JSON_PARSER
do
n16 := 32768
-- Eiffel value -> JSON value -> JSON representation
create jn.make_natural (n16)
assert ("jn /= Void", jn /= Void)
assert ("jn.representation.is_equal (%"32768%")", jn.representation.is_equal ("32768"))
-- Eiffel value -> JSON value -> JSON representation with factory
jn := Void
jn ?= json.value (n16)
assert ("jn /= Void", jn /= Void)
if attached jn as l_jn then
assert ("jn.representation.is_equal (%"32768%")", l_jn.representation.is_equal ("32768"))
end
-- JSON representation -> JSON value -> Eiffel value
-- Note: The JSON_FACTORY will return the smallest INTEGER_* object
-- that can represent the value of the JSON number, in this case
-- we know it is INTEGER_32 since the value is 32768
jrep := "32768"
create parser.make_parser (jrep)
jn := Void
jn ?= parser.parse
assert ("jn /= Void", jn /= Void)
i32 := 0
i32 ?= json.object (jn, Void)
assert ("i32 = 32768", i32 = 32768)
end
test_json_number_and_natural_32
local
n32: NATURAL_32
i64: INTEGER_64
jn: detachable JSON_NUMBER
jrep: STRING
parser: JSON_PARSER
do
n32 := 2147483648
-- Eiffel value -> JSON value -> JSON representation
create jn.make_natural (n32)
assert ("jn /= Void", jn /= Void)
assert ("jn.representation.is_equal (%"2147483648%")", jn.representation.is_equal ("2147483648"))
-- Eiffel value -> JSON value -> JSON representation with factory
jn := Void
jn ?= json.value (n32)
assert ("jn /= Void", jn /= Void)
if attached jn as l_jn then
assert ("jn.representation.is_equal (%"2147483648%")", jn.representation.is_equal ("2147483648"))
end
-- JSON representation -> JSON value -> Eiffel value
-- Note: The JSON_FACTORY will return the smallest INTEGER_* object
-- that can represent the value of the JSON number, in this case
-- we know it is INTEGER_64 since the value is 2147483648
jrep := "2147483648"
create parser.make_parser (jrep)
jn := Void
jn ?= parser.parse
assert ("jn /= Void", jn /= Void)
i64 := 0
i64 ?= json.object (jn, Void)
assert ("i64 = 2147483648", i64 = 2147483648)
end
test_json_number_and_large_integers
local
jrep: STRING
jn: detachable JSON_NUMBER
n64: NATURAL_64
parser: JSON_PARSER
do
n64 := 9223372036854775808
-- Eiffel value -> JSON value -> JSON representation
create jn.make_natural (n64)
assert ("jn /= Void", jn /= Void)
assert ("jn.representation.is_equal (%"9223372036854775808%")", jn.representation.is_equal ("9223372036854775808"))
jn := Void
-- Eiffel value -> JSON value -> JSON representation with factory
jn ?= json.value (n64)
assert ("jn /= Void", jn /= Void)
if attached jn as l_jn then
assert ("jn.representation.is_equal (%"9223372036854775808%")", l_jn.representation.is_equal ("9223372036854775808"))
end
-- JSON representation -> JSON value -> Eiffel value
-- Note: The JSON_FACTORY will return the smallest INTEGER_* object
-- that can represent the value of the JSON number, in this case
-- we know it is INTEGER_32 since the value is 42949672960
jrep := "9223372036854775808" -- 1 higher than largest positive number that can be represented by INTEGER 64
create parser.make_parser (jrep)
jn := Void
jn ?= parser.parse
assert ("jn /= Void", jn /= Void)
n64 := 0
n64 ?= json.object (jn, Void)
end
test_json_number_and_eiffel_real
local
r: REAL
r64: REAL_64
jn: detachable JSON_NUMBER
jrep: STRING
parser: JSON_PARSER
do
r := 3.14
-- Eiffel value -> JSON value -> JSON representation
create jn.make_real (r)
assert ("jn /= Void", jn /= Void)
assert ("jn.representation.is_equal (%"3.1400001049041748%")", jn.representation.is_equal ("3.1400001049041748"))
-- Eiffel value -> JSON value -> JSON representation with factory
jn ?= json.value (r)
assert ("jn /= Void", jn /= Void)
if attached jn as l_jn then
assert ("jn.representation.is_equal (%"3.1400001049041748%")", l_jn.representation.is_equal ("3.1400001049041748"))
end
-- JSON representation -> JSON value -> Eiffel value
-- Note: The JSON_FACTORY will always return a REAL_64 if the value
-- of the JSON number is a floating point number
jrep := "3.14"
create parser.make_parser (jrep)
jn := Void
jn ?= parser.parse
assert ("jn /= Void", jn /= Void)
r64 := 0
r64 ?= json.object (jn, Void)
assert ("r64 = 3.1400000000000001", r64 = 3.1400000000000001)
end
test_json_number_and_eiffel_real_32
local
r32: REAL_32
r64: REAL_64
jn: detachable JSON_NUMBER
jrep: STRING
parser: JSON_PARSER
do
r32 := 3.14
-- Eiffel value -> JSON value -> JSON representation
create jn.make_real (r32)
assert ("jn /= Void", jn /= Void)
assert ("jn.representation.is_equal (%"3.1400001049041748%")", jn.representation.is_equal ("3.1400001049041748"))
-- Eiffel value -> JSON value -> JSON representation with factory
jn ?= json.value (r32)
assert ("jn /= Void", jn /= Void)
if attached jn as l_jn then
assert ("jn.representation.is_equal (%"3.1400001049041748%")", l_jn.representation.is_equal ("3.1400001049041748"))
end
-- JSON representation -> JSON value -> Eiffel value
jrep := "3.1400001049041748"
create parser.make_parser (jrep)
jn ?= parser.parse
assert ("jn /= Void", jn /= Void)
r64 := 0
r64 ?= json.object (jn, Void)
assert ("r64 = 3.1400001049041748", r64 = 3.1400001049041748)
end
test_json_number_and_eiffel_real_64
local
r64: REAL_64
jn: detachable JSON_NUMBER
jrep: STRING
parser: JSON_PARSER
do
r64 := 3.1415926535897931
-- Eiffel value -> JSON value -> JSON representation
create jn.make_real (r64)
assert ("jn /= Void", jn /= Void)
assert ("jn.representation.is_equal (%"3.1415926535897931%")", jn.representation.is_equal ("3.1415926535897931"))
-- Eiffel value -> JSON value -> JSON representation with factory
jn ?= json.value (r64)
assert ("jn /= Void", jn /= Void)
if attached jn as l_jn then
assert ("jn.representation.is_equal (%"3.1415926535897931%")", l_jn.representation.is_equal ("3.1415926535897931"))
end
-- JSON representation -> JSON value -> Eiffel value
jrep := "3.1415926535897931"
create parser.make_parser (jrep)
jn := Void
jn ?= parser.parse
assert ("jn /= Void", jn /= Void)
r64 := 0
r64 ?= json.object (jn, Void)
assert ("r64 = 3.1415926535897931", r64 = 3.1415926535897931)
end
test_json_boolean
local
b: BOOLEAN
jb: detachable JSON_BOOLEAN
jrep: STRING
parser: JSON_PARSER
do
b := True
-- Eiffel value -> JSON value -> JSON representation
create jb.make_boolean (b)
assert ("jb /= Void", jb /= Void)
assert ("jb.representation.is_equal (%"true%")", jb.representation.is_equal ("true"))
-- Eiffel value -> JSON value -> JSON representation with factory
jb ?= json.value (b)
assert ("jb /= Void", jb /= Void)
if attached jb as l_jb then
assert ("jb.representation.is_equal (%"true%")", l_jb.representation.is_equal ("true"))
end
-- JSON representation -> JSON value -> Eiffel value
jrep := "true"
create parser.make_parser (jrep)
jb := Void
jb ?= parser.parse
assert ("jb /= Void", jb /= Void)
b := False
b ?= json.object (jb, Void)
assert ("b = True", b = True)
b := False
-- Eiffel value -> JSON value -> JSON representation
create jb.make_boolean (b)
assert ("jb /= Void", jb /= Void)
assert ("jb.representation.is_equal (%"false%")", jb.representation.is_equal ("false"))
-- Eiffel value -> JSON value -> JSON representation with factory
jb ?= json.value (b)
assert ("jb /= Void", jb /= Void)
if attached jb as l_jb then
assert ("jb.representation.is_equal (%"false%")", l_jb.representation.is_equal ("false"))
end
-- JSON representation -> JSON value -> Eiffel value
jrep := "false"
create parser.make_parser (jrep)
jb := Void
jb ?= parser.parse
assert ("jb /= Void", jb /= Void)
b := True
b ?= json.object (jb, Void)
assert ("b = False", b = False)
end
test_json_null
local
a: detachable ANY
dummy_object: STRING
jn: detachable JSON_NULL
jrep: STRING
parser: JSON_PARSER
do
-- Eiffel value -> JSON value -> JSON representation
create jn
assert ("jn /= Void", jn /= Void)
assert ("jn.representation.is_equal (%"%"null%"%")", jn.representation.is_equal ("null"))
-- Eiffel value -> JSON value -> JSON representation with factory
jn ?= json.value (Void)
assert ("jn /= Void", jn /= Void)
if attached jn as l_jn then
assert ("jn.representation.is_equal (%"null%")", l_jn.representation.is_equal ("null"))
end
-- JSON representation -> JSON value -> Eiffel value
jrep := "null"
create parser.make_parser (jrep)
jn := Void
jn ?= parser.parse
assert ("jn /= Void", jn /= Void)
create dummy_object.make_empty
a := dummy_object
a ?= json.object (jn, Void)
assert ("a = Void", a = Void)
end
test_json_string_and_character
local
c: CHARACTER
js: detachable JSON_STRING
ucs: detachable STRING_32
jrep: STRING
parser: JSON_PARSER
do
c := 'a'
-- Eiffel value -> JSON value -> JSON representation
create js.make_json (c.out)
assert ("js /= Void", js /= Void)
assert ("js.representation.is_equal (%"%"a%"%")", js.representation.is_equal ("%"a%""))
-- Eiffel value -> JSON value -> JSON representation with factory
js ?= json.value (c)
assert ("js /= Void", js /= Void)
if attached js as l_js then
assert ("js.representation.is_equal (%"%"a%"%")", l_js.representation.is_equal ("%"a%""))
end
-- JSON representation -> JSON value -> Eiffel value
jrep := "%"a%""
create parser.make_parser (jrep)
js := Void
js ?= parser.parse
assert ("js /= Void", js /= Void)
ucs ?= json.object (js, Void)
if attached ucs as l_ucs then
assert ("ucs.string.is_equal (%"a%")", l_ucs.string.is_equal ("a"))
end
end
test_json_string_and_string
local
s: STRING
js: detachable JSON_STRING
ucs: detachable STRING_32
jrep: STRING
parser: JSON_PARSER
do
s := "foobar"
-- Eiffel value -> JSON value -> JSON representation
create js.make_json (s)
assert ("js /= Void", js /= Void)
assert ("js.representation.is_equal (%"%"foobar%"%")", js.representation.is_equal ("%"foobar%""))
-- Eiffel value -> JSON value -> JSON representation with factory
js ?= json.value (s)
assert ("js /= Void", js /= Void)
if attached js as l_js then
assert ("js.representation.is_equal (%"%"foobar%"%")", js.representation.is_equal ("%"foobar%""))
end
-- JSON representation -> JSON value -> Eiffel value
jrep := "%"foobar%""
create parser.make_parser (jrep)
js := Void
js ?= parser.parse
assert ("js /= Void", js /= Void)
ucs ?= json.object (js, Void)
if attached ucs as l_ucs then
assert ("ucs.string.is_equal (%"foobar%")", ucs.string.is_equal ("foobar"))
end
end
test_json_string_and_uc_string
local
js: detachable JSON_STRING
ucs: detachable STRING_32
jrep: STRING
parser: JSON_PARSER
do
create ucs.make_from_string ("foobar")
-- Eiffel value -> JSON value -> JSON representation
create js.make_json (ucs)
assert ("js /= Void", js /= Void)
assert ("js.representation.is_equal (%"%"foobar%"%")", js.representation.is_equal ("%"foobar%""))
-- Eiffel value -> JSON value -> JSON representation with factory
js ?= json.value (ucs)
assert ("js /= Void", js /= Void)
if attached js as l_js then
assert ("js.representation.is_equal (%"%"foobar%"%")", l_js.representation.is_equal ("%"foobar%""))
end
-- JSON representation -> JSON value -> Eiffel value
jrep := "%"foobar%""
create parser.make_parser (jrep)
js := Void
js ?= parser.parse
assert ("js /= Void", js /= Void)
ucs := Void
ucs ?= json.object (js, Void)
if attached ucs as l_ucs then
assert ("ucs.string.is_equal (%"foobar%")", l_ucs.string.is_equal ("foobar"))
end
end
test_json_array
local
ll: LINKED_LIST [INTEGER_8]
ll2: detachable LINKED_LIST [detachable ANY]
ja: detachable JSON_ARRAY
jn: JSON_NUMBER
jrep: STRING
parser: JSON_PARSER
i, n: INTEGER
do
-- Eiffel value -> JSON value -> JSON representation
create ll.make
ll.extend (0)
ll.extend (1)
ll.extend (1)
ll.extend (2)
ll.extend (3)
ll.extend (5)
-- Note: Currently there is no simple way of creating a JSON_ARRAY
-- from an LINKED_LIST.
create ja.make_array
from
ll.start
until
ll.after
loop
create jn.make_integer (ll.item)
ja.add (jn)
ll.forth
end
assert ("ja /= Void", ja /= Void)
assert ("ja.representation.is_equal (%"[0,1,1,2,3,5]%")", ja.representation.is_equal ("[0,1,1,2,3,5]"))
-- Eiffel value -> JSON value -> JSON representation with factory
ja := Void
ja ?= json.value (ll)
assert ("ja /= Void", ja /= Void)
if attached ja as l_ja then
assert ("ja.representation.is_equal (%"[0,1,1,2,3,5]%")", l_ja.representation.is_equal ("[0,1,1,2,3,5]"))
end
-- JSON representation -> JSON value -> Eiffel value
-- Note: The JSON_FACTORY will return the smallest INTEGER_* object
-- that can represent the value of the JSON number, in this case
-- it means we will get an LINKED_LIST [ANY] containing the INTEGER_8
-- values 0, 1, 1, 2, 3, 5
jrep := "[0,1,1,2,3,5]"
create parser.make_parser (jrep)
ja := Void
ja ?= parser.parse
assert ("ja /= Void", ja /= Void)
ll2 ?= json.object (ja, Void)
assert ("ll2 /= Void", ll2 /= Void)
--ll.compare_objects
--ll2.compare_objects
if attached ll2 as l_ll2 then
assert ("ll2.is_equal (ll)", l_ll2.is_equal (ll))
end
end
test_json_object
local
t, t2: detachable HASH_TABLE [detachable ANY, STRING_GENERAL]
i: INTEGER
ucs_key, ucs: STRING_32
a: ARRAY [INTEGER]
jo: detachable JSON_OBJECT
jn: JSON_NUMBER
js_key, js: JSON_STRING
ja: JSON_ARRAY
jrep: STRING
parser: JSON_PARSER
do
-- Eiffel value -> JSON value -> JSON representation
-- Note: Currently there is now way of creating a JSON_OBJECT from
-- a HASH_TABLE, so we do it manually.
-- t = {"name": "foobar", "size": 42, "contents", [0, 1, 1, 2, 3, 5]}
create jo.make
create js_key.make_json ("name")
create js.make_json ("foobar")
jo.put (js, js_key)
create js_key.make_json ("size")
create jn.make_integer (42)
jo.put (jn, js_key)
create js_key.make_json ("contents")
create ja.make_array
create jn.make_integer (0)
ja.add (jn)
create jn.make_integer (1)
ja.add (jn)
create jn.make_integer (1)
ja.add (jn)
create jn.make_integer (2)
ja.add (jn)
create jn.make_integer (3)
ja.add (jn)
create jn.make_integer (5)
ja.add (jn)
jo.put (ja, js_key)
assert ("jo /= Void", jo /= Void)
assert ("jo.representation.is_equal (%"{%"name%":%"foobar%",%"size%":42,%"contents%":[0,1,1,2,3,5]}%")", jo.representation.is_equal ("{%"name%":%"foobar%",%"size%":42,%"contents%":[0,1,1,2,3,5]}"))
-- Eiffel value -> JSON value -> JSON representation with factory
create t.make (3)
create ucs_key.make_from_string ("name")
create ucs.make_from_string ("foobar")
t.put (ucs, ucs_key)
create ucs_key.make_from_string ("size")
i := 42
t.put (i, ucs_key)
create ucs_key.make_from_string ("contents")
a := <<0, 1, 1, 2, 3, 5>>
t.put (a, ucs_key)
jo := Void
jo ?= json.value (t)
assert ("jo /= Void", jo /= Void)
if attached jo as l_jo then
assert ("jo.representation.is_equal (%"{%"name%":%"foobar%",%"size%":42,%"contents%":[0,1,1,2,3,5]}%")", l_jo.representation.is_equal ("{%"name%":%"foobar%",%"size%":42,%"contents%":[0,1,1,2,3,5]}"))
end
-- JSON representation -> JSON value -> Eiffel value -> JSON value -> JSON representation
jrep := "{%"name%":%"foobar%",%"size%":42,%"contents%":[0,1,1,2,3,5]}"
create parser.make_parser (jrep)
jo := Void
jo ?= parser.parse
assert ("jo /= Void", jo /= Void)
t2 ?= json.object (jo, Void)
assert ("t2 /= Void", t2 /= Void)
jo ?= json.value (t2)
assert ("jo /= Void", jo /= Void)
if attached jo as l_jo then
assert ("jrep.is_equal (jo.representation)", jrep.is_equal (jo.representation))
end
end
test_json_failed_json_conversion
-- Test converting an Eiffel object to JSON that is based on a class
-- for which no JSON converter has been registered.
local
gv: OPERATING_ENVIRONMENT
jv: detachable JSON_VALUE
exception: BOOLEAN
do
if not exception then
create gv
jv := json.value (gv)
else
assert ("exceptions.is_developer_exception", json.is_developer_exception)
-- assert ("exceptions.is_developer_exception_of_name", json.is_developer_exception_of_name ("eJSON exception: Failed to convert Eiffel object to a JSON_VALUE: OPERATING_ENVIRONMENT"))
end
rescue
exception := True
retry
end
test_json_failed_eiffel_conversion
-- Test converting from a JSON value to an Eiffel object based on a
-- class for which no JSON converter has been registered.
local
gv : detachable OPERATING_ENVIRONMENT
jo: JSON_OBJECT
exception: BOOLEAN
do
if not exception then
create jo.make
gv ?= json.object (jo, "OPERATING_ENVIRONMENT")
else
assert ("exceptions.is_developer_exception", json.is_developer_exception)
-- assert ("exceptions.is_developer_exception_of_name", json.is_developer_exception_of_name ("eJSON exception: Failed to convert JSON_VALUE to an Eiffel object: JSON_OBJECT -> OPERATING_ENVIRONMENT"))
end
rescue
exception := True
retry
end
end -- class TEST_JSON_CORE

42
test/autotest/test_suite/test_json_custom_classes.e Normal file
View File

@@ -0,0 +1,42 @@
class TEST_JSON_CUSTOM_CLASSES
inherit
SHARED_EJSON
rename default_create as shared_default_create end
EQA_TEST_SET
select default_create end
feature -- Test
test_custom_classes
local
bc: detachable BOOK_COLLECTION
jbc: JSON_BOOK_CONVERTER
jbcc: JSON_BOOK_COLLECTION_CONVERTER
jac: JSON_AUTHOR_CONVERTER
jo: detachable JSON_OBJECT
parser: JSON_PARSER
jrep: STRING
do
create jbc.make
json.add_converter (jbc)
create jbcc.make
json.add_converter (jbcc)
create jac.make
json.add_converter (jac)
jrep := "{%"name%":%"Test collection%",%"books%":[{%"title%":%"eJSON: The Definitive Guide%",%"isbn%":%"123123-413243%",%"author%":{%"name%":%"Foo Bar%"}}]}"
create parser.make_parser (jrep)
jo := Void
jo ?= parser.parse
assert ("jo /= Void", jo /= Void)
bc := Void
bc ?= json.object (jo, "BOOK_COLLECTION")
assert ("bc /= Void", bc /= Void)
jo ?= json.value (bc)
assert ("jo /= Void", jo /= Void)
if attached jo as l_jo then
assert ("JSON representation is correct", l_jo.representation.same_string ("{%"name%":%"Test collection%",%"books%":[{%"title%":%"eJSON: The Definitive Guide%",%"isbn%":%"123123-413243%",%"author%":{%"name%":%"Foo Bar%"}}]}"))
end
end
end -- class TEST_JSON_CUSTOM_CLASS