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410 lines
18 KiB
Markdown
410 lines
18 KiB
Markdown
# `base/numerics`
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This directory contains a dependency-free, header-only library of templates
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providing well-defined semantics for safely and performantly handling a variety
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of numeric operations, including most common arithmetic operations and
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conversions.
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The public API is broken out into the following header files:
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* `checked_math.h` contains the `CheckedNumeric` template class and helper
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functions for performing arithmetic and conversion operations that detect
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errors and boundary conditions (e.g. overflow, truncation, etc.).
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* `clamped_math.h` contains the `ClampedNumeric` template class and
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helper functions for performing fast, clamped (i.e. non-sticky saturating)
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arithmetic operations and conversions.
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* `safe_conversions.h` contains the `StrictNumeric` template class and
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a collection of custom casting templates and helper functions for safely
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converting between a range of numeric types.
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* `safe_math.h` includes all of the previously mentioned headers.
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*** aside
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**Note:** The `Numeric` template types implicitly convert from C numeric types
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and `Numeric` templates that are convertable to an underlying C numeric type.
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The conversion priority for `Numeric` type coercions is:
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* `StrictNumeric` coerces to `ClampedNumeric` and `CheckedNumeric`
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* `ClampedNumeric` coerces to `CheckedNumeric`
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***
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[TOC]
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## Common patterns and use-cases
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The following covers the preferred style for the most common uses of this
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library. Please don't cargo-cult from anywhere else. 😉
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### Performing checked arithmetic conversions
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The `checked_cast` template converts between arbitrary arithmetic types, and is
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used for cases where a conversion failure should result in program termination:
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```cpp
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// Crash if signed_value is out of range for buff_size.
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size_t buff_size = checked_cast<size_t>(signed_value);
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```
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### Performing saturated (clamped) arithmetic conversions
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The `saturated_cast` template converts between arbitrary arithmetic types, and
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is used in cases where an out-of-bounds source value should be saturated to the
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corresponding maximum or minimum of the destination type:
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```cpp
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// Convert from float with saturation to INT_MAX, INT_MIN, or 0 for NaN.
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int int_value = saturated_cast<int>(floating_point_value);
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```
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### Enforcing arithmetic conversions at compile-time
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The `strict_cast` enforces type restrictions at compile-time and results in
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emitted code that is identical to a normal `static_cast`. However, a
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`strict_cast` assignment will fail to compile if the destination type cannot
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represent the full range of the source type:
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```cpp
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// Throw a compiler error if byte_value is changed to an out-of-range-type.
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int int_value = saturated_cast<int>(byte_value);
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```
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You can also enforce these compile-time restrictions on function parameters by
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using the `StrictNumeric` template:
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```cpp
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// Throw a compiler error if the size argument cannot be represented by a
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// size_t (e.g. passing an int will fail to compile).
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bool AllocateBuffer(void** buffer, StrictCast<size_t> size);
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```
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### Comparing values between arbitrary arithmetic types
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Both the `StrictNumeric` and `ClampedNumeric` types provide well defined
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comparisons between arbitrary arithmetic types. This allows you to perform
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comparisons that are not legal or would trigger compiler warnings or errors
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under the normal arithmetic promotion rules:
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```cpp
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bool foo(unsigned value, int upper_bound) {
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// Converting to StrictNumeric allows this comparison to work correctly.
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if (MakeStrictNum(value) >= upper_bound)
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return false;
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```
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*** note
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**Warning:** Do not perform manual conversions using the comparison operators.
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Instead, use the cast templates described in the previous sections, or the
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constexpr template functions `IsValueInRangeForNumericType` and
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`IsTypeInRangeForNumericType`, as these templates properly handle the full range
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of corner cases and employ various optimizations.
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***
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### Calculating a buffer size (checked arithmetic)
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When making exact calculations—such as for buffer lengths—it's often necessary
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to know when those calculations trigger an overflow, undefined behavior, or
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other boundary conditions. The `CheckedNumeric` template does this by storing
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a bit determining whether or not some arithmetic operation has occured that
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would put the variable in an "invalid" state. Attempting to extract the value
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from a variable in an invalid state will trigger a check/trap condition, that
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by default will result in process termination.
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Here's an example of a buffer calculation using a `CheckedNumeric` type (note:
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the AssignIfValid method will trigger a compile error if the result is ignored).
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```cpp
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// Calculate the buffer size and detect if an overflow occurs.
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size_t size;
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if (!CheckAdd(kHeaderSize, CheckMul(count, kItemSize)).AssignIfValid(&size)) {
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// Handle an overflow error...
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}
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```
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### Calculating clamped coordinates (non-sticky saturating arithmetic)
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Certain classes of calculations—such as coordinate calculations—require
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well-defined semantics that always produce a valid result on boundary
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conditions. The `ClampedNumeric` template addresses this by providing
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performant, non-sticky saturating arithmetic operations.
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Here's an example of using a `ClampedNumeric` to calculate an operation
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insetting a rectangle.
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```cpp
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// Use clamped arithmetic since inset calculations might overflow.
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void Rect::Inset(int left, int top, int right, int bottom) {
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origin_ += Vector2d(left, top);
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set_width(ClampSub(width(), ClampAdd(left, right)));
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set_height(ClampSub(height(), ClampAdd(top, bottom)));
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}
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```
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*** note
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The `ClampedNumeric` type is not "sticky", which means the saturation is not
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retained across individual operations. As such, one arithmetic operation may
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result in a saturated value, while the next operation may then "desaturate"
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the value. Here's an example:
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```cpp
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ClampedNumeric<int> value = INT_MAX;
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++value; // value is still INT_MAX, due to saturation.
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--value; // value is now (INT_MAX - 1), because saturation is not sticky.
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```
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***
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## Conversion functions and StrictNumeric<> in safe_conversions.h
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This header includes a collection of helper `constexpr` templates for safely
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performing a range of conversions, assignments, and tests.
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### Safe casting templates
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* `as_signed()` - Returns the supplied integral value as a signed type of
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the same width.
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* `as_unsigned()` - Returns the supplied integral value as an unsigned type
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of the same width.
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* `checked_cast<>()` - Analogous to `static_cast<>` for numeric types, except
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that by default it will trigger a crash on an out-of-bounds conversion (e.g.
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overflow, underflow, NaN to integral) or a compile error if the conversion
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error can be detected at compile time. The crash handler can be overridden
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to perform a behavior other than crashing.
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* `saturated_cast<>()` - Analogous to `static_cast` for numeric types, except
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that it returns a saturated result when the specified numeric conversion
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would otherwise overflow or underflow. An NaN source returns 0 by
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default, but can be overridden to return a different result.
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* `strict_cast<>()` - Analogous to `static_cast` for numeric types, except
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this causes a compile failure if the destination type is not large
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enough to contain any value in the source type. It performs no runtime
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checking and thus introduces no runtime overhead.
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### Other helper and conversion functions
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* `IsValueInRangeForNumericType<>()` - A convenience function that returns
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true if the type supplied as the template parameter can represent the value
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passed as an argument to the function.
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* `IsTypeInRangeForNumericType<>()` - A convenience function that evaluates
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entirely at compile-time and returns true if the destination type (first
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template parameter) can represent the full range of the source type
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(second template parameter).
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* `IsValueNegative()` - A convenience function that will accept any
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arithmetic type as an argument and will return whether the value is less
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than zero. Unsigned types always return false.
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* `SafeUnsignedAbs()` - Returns the absolute value of the supplied integer
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parameter as an unsigned result (thus avoiding an overflow if the value
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is the signed, two's complement minimum).
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### StrictNumeric<>
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`StrictNumeric<>` is a wrapper type that performs assignments and copies via
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the `strict_cast` template, and can perform valid arithmetic comparisons
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across any range of arithmetic types. `StrictNumeric` is the return type for
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values extracted from a `CheckedNumeric` class instance. The raw numeric value
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is extracted via `static_cast` to the underlying type or any type with
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sufficient range to represent the underlying type.
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* `MakeStrictNum()` - Creates a new `StrictNumeric` from the underlying type
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of the supplied arithmetic or StrictNumeric type.
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* `SizeT` - Alias for `StrictNumeric<size_t>`.
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## CheckedNumeric<> in checked_math.h
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`CheckedNumeric<>` implements all the logic and operators for detecting integer
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boundary conditions such as overflow, underflow, and invalid conversions.
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The `CheckedNumeric` type implicitly converts from floating point and integer
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data types, and contains overloads for basic arithmetic operations (i.e.: `+`,
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`-`, `*`, `/` for all types and `%`, `<<`, `>>`, `&`, `|`, `^` for integers).
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However, *the [variadic template functions
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](#CheckedNumeric_in-checked_math_h-Non_member-helper-functions)
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are the prefered API,* as they remove type ambiguities and help prevent a number
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of common errors. The variadic functions can also be more performant, as they
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eliminate redundant expressions that are unavoidable with the with the operator
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overloads. (Ideally the compiler should optimize those away, but better to avoid
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them in the first place.)
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Type promotions are a slightly modified version of the [standard C/C++ numeric
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promotions
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](http://en.cppreference.com/w/cpp/language/implicit_conversion#Numeric_promotions)
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with the two differences being that *there is no default promotion to int*
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and *bitwise logical operations always return an unsigned of the wider type.*
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### Members
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The unary negation, increment, and decrement operators are supported, along
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with the following unary arithmetic methods, which return a new
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`CheckedNumeric` as a result of the operation:
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* `Abs()` - Absolute value.
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* `UnsignedAbs()` - Absolute value as an equal-width unsigned underlying type
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(valid for only integral types).
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* `Max()` - Returns whichever is greater of the current instance or argument.
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The underlying return type is whichever has the greatest magnitude.
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* `Min()` - Returns whichever is lowest of the current instance or argument.
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The underlying return type is whichever has can represent the lowest
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number in the smallest width (e.g. int8_t over unsigned, int over
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int8_t, and float over int).
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The following are for converting `CheckedNumeric` instances:
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* `type` - The underlying numeric type.
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* `AssignIfValid()` - Assigns the underlying value to the supplied
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destination pointer if the value is currently valid and within the
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range supported by the destination type. Returns true on success.
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* `Cast<>()` - Instance method returning a `CheckedNumeric` derived from
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casting the current instance to a `CheckedNumeric` of the supplied
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destination type.
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*** aside
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The following member functions return a `StrictNumeric`, which is valid for
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comparison and assignment operations, but will trigger a compile failure on
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attempts to assign to a type of insufficient range. The underlying value can
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be extracted by an explicit `static_cast` to the underlying type or any type
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with sufficient range to represent the underlying type.
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***
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* `IsValid()` - Returns true if the underlying numeric value is valid (i.e.
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has not wrapped or saturated and is not the result of an invalid
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conversion).
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* `ValueOrDie()` - Returns the underlying value. If the state is not valid
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this call will trigger a crash by default (but may be overridden by
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supplying an alternate handler to the template).
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* `ValueOrDefault()` - Returns the current value, or the supplied default if
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the state is not valid (but will not crash).
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**Comparison operators are explicitly not provided** for `CheckedNumeric`
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types because they could result in a crash if the type is not in a valid state.
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Patterns like the following should be used instead:
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```cpp
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// Either input or padding (or both) may be arbitrary sizes.
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size_t buff_size;
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if (!CheckAdd(input, padding, kHeaderLength).AssignIfValid(&buff_size) ||
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buff_size >= kMaxBuffer) {
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// Handle an error...
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} else {
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// Do stuff on success...
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}
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```
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### Non-member helper functions
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The following variadic convenience functions, which accept standard arithmetic
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or `CheckedNumeric` types, perform arithmetic operations, and return a
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`CheckedNumeric` result. The supported functions are:
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* `CheckAdd()` - Addition.
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* `CheckSub()` - Subtraction.
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* `CheckMul()` - Multiplication.
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* `CheckDiv()` - Division.
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* `CheckMod()` - Modulus (integer only).
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* `CheckLsh()` - Left integer shift (integer only).
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* `CheckRsh()` - Right integer shift (integer only).
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* `CheckAnd()` - Bitwise AND (integer only with unsigned result).
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* `CheckOr()` - Bitwise OR (integer only with unsigned result).
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* `CheckXor()` - Bitwise XOR (integer only with unsigned result).
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* `CheckMax()` - Maximum of supplied arguments.
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* `CheckMin()` - Minimum of supplied arguments.
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The following wrapper functions can be used to avoid the template
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disambiguator syntax when converting a destination type.
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* `IsValidForType<>()` in place of: `a.template IsValid<>()`
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* `ValueOrDieForType<>()` in place of: `a.template ValueOrDie<>()`
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* `ValueOrDefaultForType<>()` in place of: `a.template ValueOrDefault<>()`
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The following general utility methods is are useful for converting from
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arithmetic types to `CheckedNumeric` types:
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* `MakeCheckedNum()` - Creates a new `CheckedNumeric` from the underlying type
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of the supplied arithmetic or directly convertible type.
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## ClampedNumeric<> in clamped_math.h
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`ClampedNumeric<>` implements all the logic and operators for clamped
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(non-sticky saturating) arithmetic operations and conversions. The
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`ClampedNumeric` type implicitly converts back and forth between floating point
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and integer data types, saturating on assignment as appropriate. It contains
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overloads for basic arithmetic operations (i.e.: `+`, `-`, `*`, `/` for
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all types and `%`, `<<`, `>>`, `&`, `|`, `^` for integers) along with comparison
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operators for arithmetic types of any size. However, *the [variadic template
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functions
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](#ClampedNumeric_in-clamped_math_h-Non_member-helper-functions)
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are the prefered API,* as they remove type ambiguities and help prevent
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a number of common errors. The variadic functions can also be more performant,
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as they eliminate redundant expressions that are unavoidable with the operator
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overloads. (Ideally the compiler should optimize those away, but better to avoid
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them in the first place.)
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Type promotions are a slightly modified version of the [standard C/C++ numeric
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promotions
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](http://en.cppreference.com/w/cpp/language/implicit_conversion#Numeric_promotions)
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with the two differences being that *there is no default promotion to int*
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and *bitwise logical operations always return an unsigned of the wider type.*
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*** aside
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Most arithmetic operations saturate normally, to the numeric limit in the
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direction of the sign. The potentially unusual cases are:
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* **Division:** Division by zero returns the saturated limit in the direction
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of sign of the dividend (first argument). The one exception is 0/0, which
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returns zero (although logically is NaN).
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* **Modulus:** Division by zero returns the dividend (first argument).
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* **Left shift:** Non-zero values saturate in the direction of the signed
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limit (max/min), even for shifts larger than the bit width. 0 shifted any
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amount results in 0.
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* **Right shift:** Negative values saturate to -1. Positive or 0 saturates
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to 0. (Effectively just an unbounded arithmetic-right-shift.)
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* **Bitwise operations:** No saturation; bit pattern is identical to
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non-saturated bitwise operations.
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***
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### Members
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The unary negation, increment, and decrement operators are supported, along
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with the following unary arithmetic methods, which return a new
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`ClampedNumeric` as a result of the operation:
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* `Abs()` - Absolute value.
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* `UnsignedAbs()` - Absolute value as an equal-width unsigned underlying type
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(valid for only integral types).
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* `Max()` - Returns whichever is greater of the current instance or argument.
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The underlying return type is whichever has the greatest magnitude.
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* `Min()` - Returns whichever is lowest of the current instance or argument.
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The underlying return type is whichever has can represent the lowest
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number in the smallest width (e.g. int8_t over unsigned, int over
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int8_t, and float over int).
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The following are for converting `ClampedNumeric` instances:
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* `type` - The underlying numeric type.
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* `RawValue()` - Returns the raw value as the underlying arithmetic type. This
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is useful when e.g. assigning to an auto type or passing as a deduced
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template parameter.
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* `Cast<>()` - Instance method returning a `ClampedNumeric` derived from
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casting the current instance to a `ClampedNumeric` of the supplied
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destination type.
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### Non-member helper functions
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The following variadic convenience functions, which accept standard arithmetic
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or `ClampedNumeric` types, perform arithmetic operations, and return a
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`ClampedNumeric` result. The supported functions are:
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* `ClampAdd()` - Addition.
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* `ClampSub()` - Subtraction.
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* `ClampMul()` - Multiplication.
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* `ClampDiv()` - Division.
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* `ClampMod()` - Modulus (integer only).
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* `ClampLsh()` - Left integer shift (integer only).
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* `ClampRsh()` - Right integer shift (integer only).
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* `ClampAnd()` - Bitwise AND (integer only with unsigned result).
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* `ClampOr()` - Bitwise OR (integer only with unsigned result).
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* `ClampXor()` - Bitwise XOR (integer only with unsigned result).
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* `ClampMax()` - Maximum of supplied arguments.
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* `ClampMin()` - Minimum of supplied arguments.
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The following is a general utility method that is useful for converting
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to a `ClampedNumeric` type:
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* `MakeClampedNum()` - Creates a new `ClampedNumeric` from the underlying type
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of the supplied arithmetic or directly convertible type.
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