0f3cabb5d9
config bundles, project files (3MFs, AMFs). When loading these files,
the caller may decide whether to substitute some of the configuration
values the current PrusaSlicer version does not understand with
some reasonable default value, and whether to report it. If substitution
is disabled, an exception is being thrown as before this commit.
If substitution is enabled, list of substitutions is returned by the
API to be presented to the user. This allows us to introduce for example
new firmware flavor key in PrusaSlicer 2.4 while letting PrusaSlicer
2.3.2 to fall back to some default and to report it to the user.
When slicing from command line, substutions are performed by default
and reported into the console, however substitutions may be either
disabled or made silent with the new "config-compatibility" command
line option.
Substitute enums and bools only. Allow booleans to be parsed as
true: "1", "enabled", "on" case insensitive
false: "0", "disabled", "off" case insensitive
This will allow us in the future for example to switch the draft_shield
boolean to an enum with the following values: "disabled" / "enabled" / "limited".
Added "enum_bitmask.hpp" - support for type safe sets of options.
See for example PresetBundle::load_configbundle(...
LoadConfigBundleAttributes flags) for an example of intended usage.
WIP: GUI for reporting the list of config substitutions needs to be
implemented by @YuSanka.
81 lines
3.7 KiB
C++
81 lines
3.7 KiB
C++
#ifndef slic3r_enum_bitmask_hpp_
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#define slic3r_enum_bitmask_hpp_
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// enum_bitmask for passing a set of attributes to a function in a type safe way.
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// Adapted from https://gpfault.net/posts/typesafe-bitmasks.txt.html
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// with hints from https://www.strikerx3.dev/cpp/2019/02/27/typesafe-enum-class-bitmasks-in-cpp.html
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#include <type_traits>
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namespace Slic3r {
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// enum_bitmasks can only be used with enums.
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template<class option_type, typename = typename std::enable_if<std::is_enum<option_type>::value>::type>
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class enum_bitmask {
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// The type we'll use for storing the value of our bitmask should be the same as the enum's underlying type.
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using underlying_type = typename std::underlying_type<option_type>::type;
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// This method helps us avoid having to explicitly set enum values to powers of two.
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static constexpr underlying_type mask_value(option_type o) { return 1 << static_cast<underlying_type>(o); }
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// Private ctor to be used internally.
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explicit constexpr enum_bitmask(underlying_type o) : m_bits(o) {}
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public:
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// Default ctor creates a bitmask with no options selected.
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constexpr enum_bitmask() : m_bits(0) {}
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// Creates a enum_bitmask with just one bit set.
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// This ctor is intentionally non-explicit, to allow passing an options to a function:
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// FunctionExpectingBitmask(Options::Opt1)
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constexpr enum_bitmask(option_type o) : m_bits(mask_value(o)) {}
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// Set the bit corresponding to the given option.
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constexpr enum_bitmask operator|(option_type t) { return enum_bitmask(m_bits | mask_value(t)); }
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// Combine with another enum_bitmask of the same type.
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constexpr enum_bitmask operator|(enum_bitmask<option_type> t) { return enum_bitmask(m_bits | t.m_bits); }
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// Get the value of the bit corresponding to the given option.
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constexpr bool operator&(option_type t) { return m_bits & mask_value(t); }
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constexpr bool has(option_type t) { return m_bits & mask_value(t); }
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private:
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underlying_type m_bits = 0;
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};
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// For enabling free functions producing enum_bitmask<> type from bit operations on enums.
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template<typename Enum> struct is_enum_bitmask_type { static const bool enable = false; };
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#define ENABLE_ENUM_BITMASK_OPERATORS(x) template<> struct is_enum_bitmask_type<x> { static const bool enable = true; };
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template<class Enum> inline constexpr bool is_enum_bitmask_type_v = is_enum_bitmask_type<Enum>::enable;
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// Creates an enum_bitmask from two options, convenient for passing of options to a function:
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// FunctionExpectingBitmask(Options::Opt1 | Options::Opt2 | Options::Opt3)
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template <class option_type>
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constexpr std::enable_if_t<is_enum_bitmask_type_v<option_type>, enum_bitmask<option_type>> operator|(option_type lhs, option_type rhs) {
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static_assert(std::is_enum_v<option_type>);
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return enum_bitmask<option_type>{lhs} | rhs;
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}
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template <class option_type>
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constexpr std::enable_if_t<is_enum_bitmask_type_v<option_type>, enum_bitmask<option_type>> operator|(option_type lhs, enum_bitmask<option_type> rhs) {
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static_assert(std::is_enum_v<option_type>);
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return enum_bitmask<option_type>{lhs} | rhs;
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}
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template <class option_type>
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constexpr std::enable_if_t<is_enum_bitmask_type_v<option_type>, enum_bitmask<option_type>> only_if(bool condition, option_type opt) {
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static_assert(std::is_enum_v<option_type>);
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return condition ? enum_bitmask<option_type>{opt} : enum_bitmask<option_type>{};
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}
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template <class option_type>
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constexpr std::enable_if_t<is_enum_bitmask_type_v<option_type>, enum_bitmask<option_type>> only_if(bool condition, enum_bitmask<option_type> opt) {
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static_assert(std::is_enum_v<option_type>);
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return condition ? opt : enum_bitmask<option_type>{};
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}
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} // namespace Slic3r
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#endif // slic3r_enum_bitmask_hpp_
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