|
|
// a sketch of what the new API might look like
#include "yaml-cpp/yaml.h"
#include <iostream>
int main() { { // test.yaml
// - foo
// - primes: [2, 3, 5, 7, 11]
// odds: [1, 3, 5, 7, 9, 11]
// - [x, y]
// move-like semantics
YAML::Value root = YAML::Parse("test.yaml");
std::cout << root[0].as<std::string>(); // "foo"
std::cout << str(root[0]); // "foo", shorthand?
std::cout << root[1]["primes"][3].as<int>(); // "7"
std::cout << root[1]["odds"][6].as<int>(); // throws?
root[2].push_back(5); root[3] = "Hello, World"; root[0].reset(); root[0]["key"] = "value";
std::cout << root; // # not sure about formatting
// - {key: value}
// - primes: [2, 3, 5, 7, 11]
// odds: [1, 3, 5, 7, 9, 11]
// - [x, y, 5]
// - Hello, World
}
{ // for all copy-like commands, think of python's "name/value" semantics
YAML::Value root = "Hello"; // Hello
root = YAML::Sequence(); // []
root[0] = 0; // [0]
root[2] = "two"; // [0, ~, two] # forces root[1] to be initialized to null
YAML::Value other = root; // both point to the same thing
other[0] = 5; // now root[0] is 0 also
other.push_back(root); // &1 [5, ~, two, *1]
other[3][0] = 0; // &1 [0, ~, two, *1] # since it's a true alias
other.push_back(Copy(root)); // &1 [0, ~, two, *1, &2 [0, ~, two, *2]]
other[4][0] = 5; // &1 [0, ~, two, *1, &2 [5, ~, two, *2]] # they're
// really different
}
{ YAML::Value node; // ~
node[0] = 1; // [1] # auto-construct a sequence
node["key"] = 5; // {0: 1, key: 5} # auto-turn it into a map
node.push_back(10); // error, can't turn a map into a sequence
node.erase("key"); // {0: 1} # still a map, even if we remove the key that
// caused the problem
node = "Hello"; // Hello # assignment overwrites everything, so it's now
// just a plain scalar
}
{ YAML::Value map; // ~
map[3] = 1; // {3: 1} # auto-constructs a map, *not* a sequence
YAML::Value seq; // ~
seq = YAML::Sequence(); // []
seq[3] = 1; // [~, ~, ~, 1]
}
{ YAML::Value node; // ~
node[0] = node; // &1 [*1] # fun stuff
}
{ YAML::Value node; YAML::Value subnode = node["key"]; // 'subnode' is not instantiated ('node' is still null)
subnode = "value"; // {key: value} # now it is
YAML::Value subnode2 = node["key2"]; node["key3"] = subnode2; // subnode2 is still not instantiated, but
// node["key3"] is "pseudo" aliased to it
subnode2 = "monkey"; // {key: value, key2: &1 monkey, key3: *1} # bam! it
// instantiates both
}
{ YAML::Value seq = YAML::Sequence(); seq[0] = "zero"; // [zero]
seq[1] = seq[0]; // [&1 zero, *1]
seq[0] = seq[1]; // [&1 zero, *1] # no-op (they both alias the same thing,
// so setting them equal is nothing)
Is(seq[0], seq[1]); // true
seq[1] = "one"; // [&1 one, *1]
UnAlias(seq[1]); // [one, one]
Is(seq[0], seq[1]); // false
}
{ YAML::Value root; root.push_back("zero"); root.push_back("one"); root.push_back("two"); YAML::Value two = root[2]; root = "scalar"; // 'two' is still "two", even though 'root' is "scalar"
// (the sequence effectively no longer exists)
// Note: in all likelihood, the memory for nodes "zero" and "one" is still
// allocated. How can it go away? Weak pointers?
}
{ YAML::Value root; // ~
root[0] = root; // &1 [*1]
root[0] = 5; // [5]
}
{ YAML::Value root; YAML::Value key; key["key"] = "value"; root[key] = key; // &1 {key: value}: *1
}
{ YAML::Value root; root[0] = "hi"; root[1][0] = "bye"; root[1][1] = root; // &1 [hi, [bye, *1]] # root
YAML::Value sub = root[1]; // &1 [bye, [hi, *1]] # sub
root = "gone"; // [bye, gone] # sub
}
return 0; }
|