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tomlplusplus/tests/parsing_tables.cpp
Mark Gillard 209e9b6faa added toml::key (closes #82) 
also:
- added `table::lower_bound()`
- added `table::emplace_hint()`
- changed `table` key type to `toml::key`
- clarified value initializer static assert messages
- lots of misc refactoring
2021-11-10 22:07:05 +02:00

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// This file is a part of toml++ and is subject to the the terms of the MIT license.
// Copyright (c) Mark Gillard <mark.gillard@outlook.com.au>
// See https://github.com/marzer/tomlplusplus/blob/master/LICENSE for the full license text.
// SPDX-License-Identifier: MIT
#include "tests.h"
TEST_CASE("parsing - tables")
{
// these are the examples from https://toml.io/en/v1.0.0#table
// "Tables are defined by headers, with square brackets on a line by themselves."
parsing_should_succeed(FILE_LINE_ARGS,
"[table]"sv,
[](table&& tbl)
{
REQUIRE(tbl["table"].as_table());
CHECK(tbl["table"].as_table()->empty());
CHECK(tbl["table"].as_table()->size() == 0u);
});
parsing_should_fail(FILE_LINE_ARGS, "[]"sv);
// "Under that, and until the next header or EOF, are the key/values of that table.
// Key/value pairs within tables are not guaranteed to be in any specific order."
parsing_should_succeed(FILE_LINE_ARGS,
R"(
[table-1]
key1 = "some string"
key2 = 123
[table-2]
key1 = "another string"
key2 = 456
)"sv,
[](table&& tbl)
{
REQUIRE(tbl["table-1"].as_table());
CHECK(tbl["table-1"].as_table()->size() == 2u);
CHECK(tbl["table-1"]["key1"] == "some string"sv);
CHECK(tbl["table-1"]["key2"] == 123);
REQUIRE(tbl["table-2"].as_table());
CHECK(tbl["table-2"].as_table()->size() == 2u);
CHECK(tbl["table-2"]["key1"] == "another string"sv);
CHECK(tbl["table-2"]["key2"] == 456);
});
// "Naming rules for tables are the same as for keys." (i.e. can be quoted)
parsing_should_succeed(FILE_LINE_ARGS,
R"(
[dog."tater.man"]
type.name = "pug"
)"sv,
[](table&& tbl)
{
REQUIRE(tbl["dog"].as_table());
CHECK(tbl["dog"].as_table()->size() == 1u);
REQUIRE(tbl["dog"]["tater.man"].as_table());
CHECK(tbl["dog"]["tater.man"].as_table()->size() == 1u);
CHECK(tbl["dog"]["tater.man"]["type"]["name"] == "pug"sv);
});
// "Whitespace around the key is ignored. However, best practice is to not use any extraneous whitespace."
parsing_should_succeed(FILE_LINE_ARGS,
R"(
[a.b.c] # this is best practice
[ d.e.f ] # same as [d.e.f]
[ g . h . i ] # same as [g.h.i]
[ j . "k" . 'l' ] # same as [j."k".'l']
)"sv,
[](table&& tbl)
{
CHECK(tbl["a"].as_table());
CHECK(tbl["a"]["b"].as_table());
CHECK(tbl["a"]["b"]["c"].as_table());
CHECK(tbl["d"].as_table());
CHECK(tbl["d"]["e"].as_table());
CHECK(tbl["d"]["e"]["f"].as_table());
CHECK(tbl["g"].as_table());
CHECK(tbl["g"]["h"].as_table());
CHECK(tbl["g"]["h"]["i"].as_table());
CHECK(tbl["j"].as_table());
CHECK(tbl["j"]["k"].as_table());
CHECK(tbl["j"]["k"]["l"].as_table());
});
// "You don't need to specify all the super-tables if you don't want to. TOML knows how to do it for you."
parsing_should_succeed(FILE_LINE_ARGS,
R"(
# [x] you
# [x.y] don't
# [x.y.z] need these
[x.y.z.w] # for this to work
[x] # defining a super-table afterwards is ok
)"sv,
[](table&& tbl)
{
CHECK(tbl["x"].as_table());
CHECK(tbl["x"]["y"].as_table());
CHECK(tbl["x"]["y"]["z"].as_table());
CHECK(tbl["x"]["y"]["z"]["w"].as_table());
});
// "Like keys, you cannot define a table more than once. Doing so is invalid."
parsing_should_fail(FILE_LINE_ARGS, R"(
# DO NOT DO THIS
[fruit]
apple = "red"
[fruit]
orange = "orange"
)"sv);
parsing_should_fail(FILE_LINE_ARGS, R"(
# DO NOT DO THIS EITHER
[fruit]
apple = "red"
[fruit.apple]
texture = "smooth"
)"sv);
// "Defining tables out-of-order is discouraged."
parsing_should_succeed(FILE_LINE_ARGS,
R"(
# VALID BUT DISCOURAGED
[fruit.apple]
[animal]
[fruit.orange]
)"sv,
[](table&& tbl)
{
CHECK(tbl["fruit"].as_table());
CHECK(tbl["fruit"]["apple"].as_table());
CHECK(tbl["animal"].as_table());
CHECK(tbl["fruit"]["orange"].as_table());
});
parsing_should_succeed(FILE_LINE_ARGS,
R"(
# RECOMMENDED
[fruit.apple]
[fruit.orange]
[animal]
)"sv,
[](table&& tbl)
{
CHECK(tbl["fruit"].as_table());
CHECK(tbl["fruit"]["apple"].as_table());
CHECK(tbl["fruit"]["orange"].as_table());
CHECK(tbl["animal"].as_table());
});
// "The top-level table, also called the root table, starts at the beginning of the document
// and ends just before the first table header (or EOF)."
parsing_should_succeed(FILE_LINE_ARGS,
R"(
# Top-level table begins.
name = "Fido"
breed = "pug"
# Top-level table ends.
[owner]
name = "Regina Dogman"
member_since = 1999-08-04
)"sv,
[](table&& tbl)
{
CHECK(tbl["name"].as_string());
CHECK(*tbl["name"].as_string() == "Fido"sv);
CHECK(tbl["breed"].as_string());
CHECK(*tbl["breed"].as_string() == "pug"sv);
CHECK(tbl["owner"].as_table());
CHECK(*tbl["owner"]["name"].as_string() == "Regina Dogman"sv);
static constexpr auto member_since = toml::date{ 1999, 8, 4 };
CHECK(*tbl["owner"]["member_since"].as_date() == member_since);
});
// "Dotted keys create and define a table for each key part before the last one,
// provided that such tables were not previously created."
parsing_should_succeed(FILE_LINE_ARGS,
R"(
fruit.apple.color = "red"
# Defines a table named fruit
# Defines a table named fruit.apple
fruit.apple.taste.sweet = true
# Defines a table named fruit.apple.taste
# fruit and fruit.apple were already created
)"sv,
[](table&& tbl)
{
CHECK(tbl["fruit"].as_table());
CHECK(tbl["fruit"]["apple"].as_table());
CHECK(tbl["fruit"]["apple"]["color"].as_string());
CHECK(*tbl["fruit"]["apple"]["color"].as_string() == "red"sv);
CHECK(tbl["fruit"]["apple"]["taste"].as_table());
CHECK(tbl["fruit"]["apple"]["taste"]["sweet"].as_boolean());
CHECK(*tbl["fruit"]["apple"]["taste"]["sweet"].as_boolean() == true);
});
// "Since tables cannot be defined more than once, redefining such tables using a [table] header is not allowed."
parsing_should_fail(FILE_LINE_ARGS, R"(
[fruit]
apple.color = "red"
apple.taste.sweet = true
[fruit.apple] # INVALID
)"sv);
parsing_should_fail(FILE_LINE_ARGS, R"(
[fruit]
apple.color = "red"
apple.taste.sweet = true
[fruit.apple.taste] # INVALID
)"sv);
// "Likewise, using dotted keys to redefine tables already defined in [table] form is not allowed."
parsing_should_fail(FILE_LINE_ARGS, R"(
[fruit.apple.taste]
sweet = true
[fruit]
apple.taste = { sweet = false } # INVALID
)"sv);
parsing_should_fail(FILE_LINE_ARGS, R"(
[fruit.apple.taste]
sweet = true
[fruit]
apple.taste.foo = "bar" # INVALID
)"sv);
// "The [table] form can, however, be used to define sub-tables within tables defined via dotted keys."
parsing_should_succeed(FILE_LINE_ARGS,
R"(
[fruit]
apple.color = "red"
apple.taste.sweet = true
[fruit.apple.texture] # you can add sub-tables
smooth = true
)"sv,
[](table&& tbl)
{
CHECK(tbl["fruit"].as_table());
CHECK(tbl["fruit"]["apple"].as_table());
CHECK(tbl["fruit"]["apple"]["color"].as_string());
CHECK(*tbl["fruit"]["apple"]["color"].as_string() == "red"sv);
CHECK(tbl["fruit"]["apple"]["texture"].as_table());
CHECK(tbl["fruit"]["apple"]["texture"]["smooth"].as_boolean());
CHECK(*tbl["fruit"]["apple"]["texture"]["smooth"].as_boolean() == true);
});
parsing_should_fail(FILE_LINE_ARGS, R"(
[fruit]
apple.color = "red"
apple.taste.sweet = true
[fruit.apple]
shape = "round"
[fruit.apple.texture]
smooth = true
)"sv);
// same as above but the table order is reversed.
// see: https://github.com/toml-lang/toml/issues/769
parsing_should_succeed(FILE_LINE_ARGS,
R"(
[fruit.apple.texture]
smooth = true
[fruit]
apple.color = "red"
apple.taste.sweet = true
)"sv,
[](table&& tbl)
{
CHECK(tbl["fruit"].as_table());
CHECK(tbl["fruit"]["apple"].as_table());
CHECK(tbl["fruit"]["apple"]["color"].as_string());
CHECK(*tbl["fruit"]["apple"]["color"].as_string() == "red"sv);
CHECK(tbl["fruit"]["apple"]["texture"].as_table());
CHECK(tbl["fruit"]["apple"]["texture"]["smooth"].as_boolean());
CHECK(*tbl["fruit"]["apple"]["texture"]["smooth"].as_boolean() == true);
});
}
TEST_CASE("parsing - inline tables")
{
// these are the examples from https://toml.io/en/v1.0.0#inline-table
parsing_should_succeed(FILE_LINE_ARGS,
R"(
name = { first = "Tom", last = "Preston-Werner" }
point = { x = 1, y = 2 }
animal = { type.name = "pug" }
)"sv,
[](table&& tbl)
{
REQUIRE(tbl["name"].as_table());
CHECK(tbl["name"].as_table()->size() == 2u);
CHECK(tbl["name"].as_table()->is_inline());
CHECK(tbl["name"]["first"] == "Tom"sv);
CHECK(tbl["name"]["last"] == "Preston-Werner"sv);
REQUIRE(tbl["point"].as_table());
CHECK(tbl["point"].as_table()->size() == 2u);
CHECK(tbl["point"].as_table()->is_inline());
CHECK(tbl["point"]["x"] == 1);
CHECK(tbl["point"]["y"] == 2);
REQUIRE(tbl["animal"].as_table());
CHECK(tbl["animal"].as_table()->size() == 1u);
CHECK(tbl["animal"].as_table()->is_inline());
REQUIRE(tbl["animal"]["type"].as_table());
CHECK(tbl["animal"]["type"].as_table()->size() == 1u);
CHECK(tbl["animal"]["type"]["name"] == "pug"sv);
});
// "Inline tables are fully self-contained and define all keys and sub-tables within them.
// Keys and sub-tables cannot be added outside the braces."
parsing_should_fail(FILE_LINE_ARGS, R"(
[product]
type = { name = "Nail" }
type.edible = false # INVALID
)"sv);
// "Similarly, inline tables cannot be used to add keys or sub-tables to an already-defined table."
parsing_should_fail(FILE_LINE_ARGS, R"(
[product]
type.name = "Nail"
type = { edible = false } # INVALID
)"sv);
// "newlines are allowed between the curly braces [if] they are valid within a value."
parsing_should_succeed(FILE_LINE_ARGS,
R"(
test = { val1 = "foo", val2 = [
1, 2,
3
], val3 = "bar" }
)"sv,
[](table&& tbl)
{
REQUIRE(tbl["test"].as_table());
CHECK(tbl["test"].as_table()->size() == 3u);
CHECK(tbl["test"]["val1"] == "foo"sv);
REQUIRE(tbl["test"]["val2"].as<array>());
CHECK(tbl["test"]["val2"].as<array>()->size() == 3u);
CHECK(tbl["test"]["val2"][0] == 1);
CHECK(tbl["test"]["val2"][1] == 2);
CHECK(tbl["test"]["val2"][2] == 3);
CHECK(tbl["test"]["val3"] == "bar"sv);
});
// toml/issues/516 (newlines/trailing commas in inline tables)
#if TOML_LANG_UNRELEASED
{
parsing_should_succeed(FILE_LINE_ARGS,
R"(
name = {
first = "Tom",
last = "Preston-Werner",
}
)"sv,
[](table&& tbl)
{
REQUIRE(tbl["name"].as_table());
CHECK(tbl["name"].as_table()->size() == 2u);
CHECK(tbl["name"]["first"] == "Tom"sv);
CHECK(tbl["name"]["last"] == "Preston-Werner"sv);
});
}
#else
{
// "A terminating comma (also called trailing comma) is not permitted after the last key/value pair in an inline
// table."
parsing_should_fail(FILE_LINE_ARGS, R"(name = { first = "Tom", last = "Preston-Werner", })"sv);
// "No newlines are allowed between the curly braces unless they are valid within a value."
parsing_should_fail(FILE_LINE_ARGS, R"(
name = {
first = "Tom",
last = "Preston-Werner"
}
)"sv);
}
#endif
}
TEST_CASE("parsing - arrays-of-tables")
{
parsing_should_succeed(FILE_LINE_ARGS,
R"(
points = [ { x = 1, y = 2, z = 3 },
{ x = 7, y = 8, z = 9 },
{ x = 2, y = 4, z = 8 } ]
[[products]]
name = "Hammer"
sku = 738594937
[[products]]
[[products]]
name = "Nail"
sku = 284758393
color = "gray"
[[fruit]]
name = "apple"
[fruit.physical] # subtable
color = "red"
shape = "round"
[[fruit.variety]] # nested array of tables
name = "red delicious"
[[fruit.variety]]
name = "granny smith"
[[fruit]]
name = "banana"
[[fruit.variety]]
name = "plantain"
)"sv,
[](table&& tbl)
{
REQUIRE(tbl["points"].as<array>());
CHECK(tbl["points"].as<array>()->size() == 3u);
CHECK(tbl["points"].as<array>()->is_homogeneous());
CHECK(tbl["points"].as<array>()->is_array_of_tables());
CHECK(tbl["points"][0]["x"] == 1);
CHECK(tbl["points"][0]["y"] == 2);
CHECK(tbl["points"][0]["z"] == 3);
CHECK(tbl["points"][1]["x"] == 7);
CHECK(tbl["points"][1]["y"] == 8);
CHECK(tbl["points"][1]["z"] == 9);
CHECK(tbl["points"][2]["x"] == 2);
CHECK(tbl["points"][2]["y"] == 4);
CHECK(tbl["points"][2]["z"] == 8);
REQUIRE(tbl["products"].as<array>());
CHECK(tbl["products"].as<array>()->size() == 3u);
CHECK(tbl["products"].as<array>()->is_homogeneous());
CHECK(tbl["products"].as<array>()->is_array_of_tables());
REQUIRE(tbl["products"][0].as_table());
CHECK(tbl["products"][0].as_table()->size() == 2u);
CHECK(tbl["products"][0]["name"] == "Hammer"sv);
CHECK(tbl["products"][0]["sku"] == 738594937);
REQUIRE(tbl["products"][1].as_table());
CHECK(tbl["products"][1].as_table()->size() == 0u);
REQUIRE(tbl["products"][2].as_table());
CHECK(tbl["products"][2].as_table()->size() == 3u);
CHECK(tbl["products"][2]["name"] == "Nail"sv);
CHECK(tbl["products"][2]["sku"] == 284758393);
CHECK(tbl["products"][2]["color"] == "gray"sv);
REQUIRE(tbl["fruit"].as<array>());
CHECK(tbl["fruit"].as<array>()->size() == 2u);
CHECK(tbl["fruit"].as<array>()->is_homogeneous());
CHECK(tbl["fruit"].as<array>()->is_array_of_tables());
REQUIRE(tbl["fruit"][0].as_table());
CHECK(tbl["fruit"][0].as_table()->size() == 3u);
CHECK(tbl["fruit"][0]["name"] == "apple"sv);
REQUIRE(tbl["fruit"][0]["physical"].as_table());
CHECK(tbl["fruit"][0]["physical"].as_table()->size() == 2u);
CHECK(tbl["fruit"][0]["physical"]["color"] == "red"sv);
CHECK(tbl["fruit"][0]["physical"]["shape"] == "round"sv);
REQUIRE(tbl["fruit"][0]["variety"].as<array>());
CHECK(tbl["fruit"][0]["variety"].as<array>()->size() == 2u);
CHECK(tbl["fruit"][0]["variety"].as<array>()->is_homogeneous());
CHECK(tbl["fruit"][0]["variety"].as<array>()->is_array_of_tables());
CHECK(tbl["fruit"][0]["variety"][0]["name"] == "red delicious"sv);
CHECK(tbl["fruit"][0]["variety"][1]["name"] == "granny smith"sv);
REQUIRE(tbl["fruit"][1].as_table());
CHECK(tbl["fruit"][1].as_table()->size() == 2u);
CHECK(tbl["fruit"][1]["name"] == "banana"sv);
REQUIRE(tbl["fruit"][1]["variety"].as<array>());
CHECK(tbl["fruit"][1]["variety"].as<array>()->size() == 1u);
CHECK(tbl["fruit"][1]["variety"].as<array>()->is_homogeneous());
CHECK(tbl["fruit"][1]["variety"].as<array>()->is_array_of_tables());
CHECK(tbl["fruit"][1]["variety"][0]["name"] == "plantain"sv);
});
parsing_should_fail(FILE_LINE_ARGS, R"(
# INVALID TOML DOC
[fruit.physical] # subtable, but to which parent element should it belong?
color = "red"
shape = "round"
[[fruit]] # parser must throw an error upon discovering that "fruit" is
# an array rather than a table
name = "apple"
)"sv);
parsing_should_fail(FILE_LINE_ARGS, R"(
# INVALID TOML DOC
fruit = []
[[fruit]] # Not allowed
)"sv);
parsing_should_fail(FILE_LINE_ARGS, R"(
# INVALID TOML DOC
[[fruit]]
name = "apple"
[[fruit.variety]]
name = "red delicious"
# INVALID: This table conflicts with the previous array of tables
[fruit.variety]
name = "granny smith"
)"sv);
parsing_should_fail(FILE_LINE_ARGS, R"(
# INVALID TOML DOC
[[fruit]]
name = "apple"
[fruit.physical]
color = "red"
shape = "round"
# INVALID: This array of tables conflicts with the previous table
[[fruit.physical]]
color = "green"
)"sv);
}
TEST_CASE("parsing - keys")
{
parsing_should_succeed(FILE_LINE_ARGS,
R"(
[a.b]
c = "10.0.0.1"
d = "frontend"
e = { f.g = 79.5, h = 72.0 }
)"sv,
[](table&& tbl)
{
// ensure types are sane first
REQUIRE(tbl["a"].is_table());
REQUIRE(tbl["a"]["b"].is_table());
REQUIRE(tbl["a"]["b"]["c"]);
REQUIRE(tbl["a"]["b"]["d"]);
REQUIRE(tbl["a"]["b"]["e"].is_table());
REQUIRE(tbl["a"]["b"]["e"]["f"].is_table());
REQUIRE(tbl["a"]["b"]["e"]["f"]["g"]);
REQUIRE(tbl["a"]["b"]["e"]["h"]);
const auto check_key =
[&](const auto& t, std::string_view k, source_position b, source_position e)
{
const toml::key& found_key = t.as_table()->find(k)->first;
CHECK(found_key.str() == k);
CHECK(found_key.source().begin == b);
CHECK(found_key.source().end == e);
CHECK(found_key.source().path == tbl.source().path);
};
check_key(tbl, "a", { 2, 2 }, { 2, 3 });
check_key(tbl["a"], "b", { 2, 4 }, { 2, 5 });
check_key(tbl["a"]["b"], "c", { 3, 1 }, { 3, 2 });
check_key(tbl["a"]["b"], "d", { 4, 1 }, { 4, 2 });
check_key(tbl["a"]["b"], "e", { 5, 1 }, { 5, 2 });
check_key(tbl["a"]["b"]["e"], "f", { 5, 7 }, { 5, 8 });
check_key(tbl["a"]["b"]["e"]["f"], "g", { 5, 9 }, { 5, 10 });
check_key(tbl["a"]["b"]["e"], "h", { 5, 19 }, { 5, 20 });
});
}
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