// RUN: %run "%s" --unicode-char:false --input ../Unicode/UnicodeStringsWithoutUnicodeChar.dfy // RUN: %run "%s" --unicode-char:true --input ../Unicode/UnicodeStringsWithUnicodeChar.dfy /// # Using the JSON library include "API.dfy" include "ZeroCopy/API.dfy" /// This library offers two APIs: a high-level one (giving abstract value trees /// with no concrete syntactic details) and a low-level one (including all /// information about blanks, separator positions, character escapes, etc.). /// /// ## High-level API (JSON values) module {:options "-functionSyntax:4"} JSON.Examples.AbstractSyntax { import API import opened Values import opened Wrappers /// Note that you will need to include one of the two files that defines UnicodeStrings /// according to whether you are using --unicode-char:false or --unicode-char:true. /// See ../../Unicode/UnicodeStrings.dfy for more details. import opened UnicodeStrings /// The high-level API works with fairly simple datatype values that contain native Dafny /// strings: method {:test} Test() { /// Use `API.Deserialize` to deserialize a byte string. /// /// For example, here is how to decode the JSON test `"[true]"`. (We need to /// convert from Dafny's native strings to byte strings because Dafny does not /// have syntax for byte strings; in a real application, we would be reading and /// writing raw bytes directly from disk or from the network instead). var SIMPLE_JS :- expect ToUTF8Checked("[true]"); var SIMPLE_VALUE := Array([Bool(true)]); expect API.Deserialize(SIMPLE_JS) == Success(SIMPLE_VALUE); /// Here is a larger object, written using a verbatim string (with `@"`). In /// verbatim strings `""` represents a single double-quote character): var CITIES_JS :- expect ToUTF8Checked(@"{ ""Cities"": [ { ""Name"": ""Boston"", ""Founded"": 1630, ""Population"": 689386, ""Area (km2)"": 4584.2 }, { ""Name"": ""Rome"", ""Founded"": -753, ""Population"": 2.873e6, ""Area (km2)"": 1285 }, { ""Name"": ""Paris"", ""Founded"": null, ""Population"": 2.161e6, ""Area (km2)"": 2383.5 } ] }"); var CITIES_VALUE := Object([ ("Cities", Array([ Object([ ("Name", String("Boston")), ("Founded", Number(Int(1630))), ("Population", Number(Int(689386))), ("Area (km2)", Number(Decimal(45842, -1))) ]), Object([ ("Name", String("Rome")), ("Founded", Number(Int(-753))), ("Population", Number(Decimal(2873, 3))), ("Area (km2)", Number(Int(1285))) ]), Object([ ("Name", String("Paris")), ("Founded", Null), ("Population", Number(Decimal(2161, 3))), ("Area (km2)", Number(Decimal(23835, -1))) ]) ])) ]); expect API.Deserialize(CITIES_JS) == Success(CITIES_VALUE); /// Serialization works similarly, with `API.Serialize`. For this first example /// the generated string matches what we started with exactly: expect API.Serialize(SIMPLE_VALUE) == Success(SIMPLE_JS); /// For more complex object, the generated layout may not be exactly the same; note in particular how the representation of numbers and the whitespace have changed. var EXPECTED :- expect ToUTF8Checked( @"{""Cities"":[{""Name"":""Boston"",""Founded"":1630,""Population"":689386,""Area (km2)"":45842e-1},{""Name"":""Rome"",""Founded"":-753,""Population"":2873e3,""Area (km2)"":1285},{""Name"":""Paris"",""Founded"":null,""Population"":2161e3,""Area (km2)"":23835e-1}]}" ); expect API.Serialize(CITIES_VALUE) == Success(EXPECTED); /// Additional methods are defined in `API.dfy` to serialize an object into an /// existing buffer or into an array. Below is the smaller example from the /// README, as a sanity check: var CITY_JS :- expect ToUTF8Checked(@"{""Cities"": [{ ""Name"": ""Boston"", ""Founded"": 1630, ""Population"": 689386, ""Area (km2)"": 4584.2}]}"); var CITY_VALUE := Object([("Cities", Array([ Object([ ("Name", String("Boston")), ("Founded", Number(Int(1630))), ("Population", Number(Int(689386))), ("Area (km2)", Number(Decimal(45842, -1)))])]))]); expect API.Deserialize(CITY_JS) == Success(CITY_VALUE); var EXPECTED' :- expect ToUTF8Checked( @"{""Cities"":[{""Name"":""Boston"",""Founded"":1630,""Population"":689386,""Area (km2)"":45842e-1}]}" ); expect API.Serialize(CITY_VALUE) == Success(EXPECTED'); } } /// ## Low-level API (concrete syntax) /// /// If you care about low-level performance, or about preserving existing /// formatting as much as possible, you may prefer to use the lower-level API: module {:options "-functionSyntax:4"} JSON.Examples.ConcreteSyntax { import ZeroCopy.API import opened UnicodeStrings import opened Grammar import opened Wrappers /// The low-level API works with ASTs that record all details of formatting and /// encoding: each node contains pointers to parts of a string, such that /// concatenating the fields of all nodes reconstructs the serialized value. method {:test} Test() { /// The low-level API exposes the same functions and methods as the high-level /// one, but the type that they consume and produce is `Grammar.JSON` (defined /// in `Grammar.dfy` as a `Grammar.Value` surrounded by optional whitespace) /// instead of `Values.JSON` (defined in `Values.dfy`). Since `Grammar.JSON` contains /// all formatting information, re-serializing an object produces the original /// value: var CITIES :- expect ToUTF8Checked(@"{ ""Cities"": [ { ""Name"": ""Boston"", ""Founded"": 1630, ""Population"": 689386, ""Area (km2)"": 4600 }, { ""Name"": ""Rome"", ""Founded"": -753, ""Population"": 2.873e6, ""Area (km2)"": 1285 }, { ""Name"": ""Paris"", ""Founded"": null, ""Population"": 2.161e6, ""Area (km2)"": 2383.5 } ] }"); var deserialized :- expect API.Deserialize(CITIES); expect API.Serialize(deserialized) == Success(CITIES); /// Since the formatting is preserved, it is also possible to write /// minimally-invasive transformations over an AST. For example, let's replace /// `null` in the object above with `"Unknown"`. /// /// First, we construct a JSON value for the string `"Unknown"`; this could be /// done by hand using `View.OfBytes()`, but using `API.Deserialize` is even /// simpler: var UNKNOWN_JS :- expect ToUTF8Checked(@"""Unknown"""); var UNKNOWN :- expect API.Deserialize(UNKNOWN_JS); /// `UNKNOWN` is of type `Grammar.JSON`, which contains optional whitespace and /// a `Grammar.Value` under the name `UNKNOWN.t`, which we can use in the /// replacement: var without_null := deserialized.(t := ReplaceNull(deserialized.t, UNKNOWN.t)); /// Then, if we reserialize, we see that all formatting (and, in fact, all of /// the serialization work) has been reused: var expected_js :- expect ToUTF8Checked(@"{ ""Cities"": [ { ""Name"": ""Boston"", ""Founded"": 1630, ""Population"": 689386, ""Area (km2)"": 4600 }, { ""Name"": ""Rome"", ""Founded"": -753, ""Population"": 2.873e6, ""Area (km2)"": 1285 }, { ""Name"": ""Paris"", ""Founded"": ""Unknown"", ""Population"": 2.161e6, ""Area (km2)"": 2383.5 } ] }"); var actual_js :- expect API.Serialize(without_null); expect actual_js == expected_js; } /// All that remains is to write the recursive traversal: import Seq function ReplaceNull(js: Value, replacement: Value): Value { match js /// Non-recursive cases are untouched: case Bool(_) => js case String(_) => js case Number(_) => js /// `Null` is replaced with the new `replacement` value: case Null(_) => replacement /// … and objects and arrays are traversed recursively (only the data part of is /// traversed: other fields record information about the formatting of braces, /// square brackets, and whitespace, and can thus be reused without /// modifications): case Object(obj) => Object(obj.(data := MapSuffixedSequence(obj.data, (s: Suffixed) requires s in obj.data => s.t.(v := ReplaceNull(s.t.v, replacement))))) case Array(arr) => Array(arr.(data := MapSuffixedSequence(arr.data, (s: Suffixed) requires s in arr.data => ReplaceNull(s.t, replacement)))) } /// Note that well-formedness criteria on the low-level AST are enforced using /// subset types, which is why we need a bit more work to iterate over the /// sequences of key-value paris and of values in objects and arrays. /// Specifically, we need to prove that mapping over these sequences doesn't /// introduce dangling punctuation (`NoTrailingSuffix`). We package this /// reasoning into a `MapSuffixedSequence` function: function MapSuffixedSequence(sq: SuffixedSequence, fn: Suffixed --> D) : SuffixedSequence requires forall suffixed | suffixed in sq :: fn.requires(suffixed) { // BUG(https://github.com/dafny-lang/dafny/issues/2184) // BUG(https://github.com/dafny-lang/dafny/issues/2690) var fn' := (sf: Suffixed) requires (ghost var in_sq := sf => sf in sq; in_sq(sf)) => sf.(t := fn(sf)); var sq' := Seq.Map(fn', sq); assert NoTrailingSuffix(sq') by { forall idx | 0 <= idx < |sq'| ensures sq'[idx].suffix.Empty? <==> idx == |sq'| - 1 { calc { sq'[idx].suffix.Empty?; fn'(sq[idx]).suffix.Empty?; sq[idx].suffix.Empty?; idx == |sq| - 1; idx == |sq'| - 1; } } } sq' } } /// The examples in this file can be run with `Dafny -compile:4 -runAllTests:1` /// (the tests produce no output, but their calls to `expect` will be checked /// dynamically).