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Change: Use CARGO_LIST to show station cargo acceptance changes. (#11379)
This simplifies construction of the news message and allows for more than
two changes to be show in one line.
This simplifies construction of the news message and allows for more than
two changes to be show in one line.
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* This file is part of OpenTTD.
* OpenTTD is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, version 2.
* OpenTTD is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
* See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with OpenTTD. If not, see <http://www.gnu.org/licenses/>.
*/
/** @file math_func.hpp Integer math functions */
#ifndef MATH_FUNC_HPP
#define MATH_FUNC_HPP
#include "strong_typedef_type.hpp"
/**
* Returns the absolute value of (scalar) variable.
*
* @note assumes variable to be signed
* @param a The value we want to unsign
* @return The unsigned value
*/
template <typename T>
static inline T abs(const T a)
{
return (a < (T)0) ? -a : a;
}
/**
* Return the smallest multiple of n equal or greater than x
*
* @note n must be a power of 2
* @param x The min value
* @param n The base of the number we are searching
* @return The smallest multiple of n equal or greater than x
*/
template <typename T>
static inline T Align(const T x, uint n)
{
assert((n & (n - 1)) == 0 && n != 0);
n--;
return (T)((x + n) & ~((T)n));
}
/**
* Return the smallest multiple of n equal or greater than x
* Applies to pointers only
*
* @note n must be a power of 2
* @param x The min value
* @param n The base of the number we are searching
* @return The smallest multiple of n equal or greater than x
* @see Align()
*/
template <typename T>
static inline T *AlignPtr(T *x, uint n)
{
static_assert(sizeof(size_t) == sizeof(void *));
return reinterpret_cast<T *>(Align((size_t)x, n));
}
/**
* Clamp a value between an interval.
*
* This function returns a value which is between the given interval of
* min and max. If the given value is in this interval the value itself
* is returned otherwise the border of the interval is returned, according
* which side of the interval was 'left'.
*
* @note The min value must be less or equal of max or you get some
* unexpected results.
* @param a The value to clamp/truncate.
* @param min The minimum of the interval.
* @param max the maximum of the interval.
* @returns A value between min and max which is closest to a.
* @see ClampU(uint, uint, uint)
* @see Clamp(int, int, int)
*/
template <typename T>
static inline T Clamp(const T a, const T min, const T max)
{
assert(min <= max);
if (a <= min) return min;
if (a >= max) return max;
return a;
}
/**
* Clamp a value between an interval.
*
* This function returns a value which is between the given interval of
* min and max. If the given value is in this interval the value itself
* is returned otherwise the border of the interval is returned, according
* which side of the interval was 'left'.
*
* @note If the min value is greater than the max, return value is the average of the min and max.
* @param a The value to clamp/truncate.
* @param min The minimum of the interval.
* @param max the maximum of the interval.
* @returns A value between min and max which is closest to a.
*/
template <typename T>
static inline T SoftClamp(const T a, const T min, const T max)
{
if (min > max) {
using U = std::make_unsigned_t<T>;
return min - (U(min) - max) / 2;
}
if (a <= min) return min;
if (a >= max) return max;
return a;
}
/**
* Clamp an integer between an interval.
*
* This function returns a value which is between the given interval of
* min and max. If the given value is in this interval the value itself
* is returned otherwise the border of the interval is returned, according
* which side of the interval was 'left'.
*
* @note The min value must be less or equal of max or you get some
* unexpected results.
* @param a The value to clamp/truncate.
* @param min The minimum of the interval.
* @param max the maximum of the interval.
* @returns A value between min and max which is closest to a.
* @see ClampU(uint, uint, uint)
*/
static inline int Clamp(const int a, const int min, const int max)
{
return Clamp<int>(a, min, max);
}
/**
* Clamp an unsigned integer between an interval.
*
* This function returns a value which is between the given interval of
* min and max. If the given value is in this interval the value itself
* is returned otherwise the border of the interval is returned, according
* which side of the interval was 'left'.
*
* @note The min value must be less or equal of max or you get some
* unexpected results.
* @param a The value to clamp/truncate.
* @param min The minimum of the interval.
* @param max the maximum of the interval.
* @returns A value between min and max which is closest to a.
* @see Clamp(int, int, int)
*/
static inline uint ClampU(const uint a, const uint min, const uint max)
{
return Clamp<uint>(a, min, max);
}
/**
* Clamp the given value down to lie within the requested type.
*
* For example ClampTo<uint8_t> will return a value clamped to the range of 0
* to 255. Anything smaller will become 0, anything larger will become 255.
*
* @param a The 64-bit value to clamp.
* @return The 64-bit value reduced to a value within the given allowed range
* for the return type.
* @see Clamp(int, int, int)
*/
template <typename To, typename From, std::enable_if_t<std::is_integral<From>::value, int> = 0>
constexpr To ClampTo(From value)
{
static_assert(std::numeric_limits<To>::is_integer, "Do not clamp from non-integer values");
static_assert(std::numeric_limits<From>::is_integer, "Do not clamp to non-integer values");
if constexpr (sizeof(To) >= sizeof(From) && std::numeric_limits<To>::is_signed == std::numeric_limits<From>::is_signed) {
/* Same signedness and To type is larger or equal than From type, no clamping is required. */
return static_cast<To>(value);
}
if constexpr (sizeof(To) > sizeof(From) && std::numeric_limits<To>::is_signed) {
/* Signed destination and a larger To type, no clamping is required. */
return static_cast<To>(value);
}
/* Get the bigger of the two types based on essentially the number of bits. */
using BiggerType = typename std::conditional<sizeof(From) >= sizeof(To), From, To>::type;
if constexpr (std::numeric_limits<To>::is_signed) {
/* The output is a signed number. */
if constexpr (std::numeric_limits<From>::is_signed) {
/* Both input and output are signed. */
return static_cast<To>(std::clamp<BiggerType>(value,
std::numeric_limits<To>::lowest(), std::numeric_limits<To>::max()));
}
/* The input is unsigned, so skip the minimum check and use unsigned variant of the biggest type as intermediate type. */
using BiggerUnsignedType = typename std::make_unsigned<BiggerType>::type;
return static_cast<To>(std::min<BiggerUnsignedType>(std::numeric_limits<To>::max(), value));
}
/* The output is unsigned. */
if constexpr (std::numeric_limits<From>::is_signed) {
/* Input is signed; account for the negative numbers in the input. */
if constexpr (sizeof(To) >= sizeof(From)) {
/* If the output type is larger or equal to the input type, then only clamp the negative numbers. */
return static_cast<To>(std::max<From>(value, 0));
}
/* The output type is smaller than the input type. */
using BiggerSignedType = typename std::make_signed<BiggerType>::type;
return static_cast<To>(std::clamp<BiggerSignedType>(value,
std::numeric_limits<To>::lowest(), std::numeric_limits<To>::max()));
}
/* The input and output are unsigned, just clamp at the high side. */
return static_cast<To>(std::min<BiggerType>(value, std::numeric_limits<To>::max()));
}
/**
* Specialization of ClampTo for #StrongType::Typedef.
*/
template <typename To, typename From, std::enable_if_t<std::is_base_of<StrongTypedefBase, From>::value, int> = 0>
constexpr To ClampTo(From value)
{
return ClampTo<To>(static_cast<typename From::BaseType>(value));
}
/**
* Returns the (absolute) difference between two (scalar) variables
*
* @param a The first scalar
* @param b The second scalar
* @return The absolute difference between the given scalars
*/
template <typename T>
static inline T Delta(const T a, const T b)
{
return (a < b) ? b - a : a - b;
}
/**
* Checks if a value is between a window started at some base point.
*
* This function checks if the value x is between the value of base
* and base+size. If x equals base this returns true. If x equals
* base+size this returns false.
*
* @param x The value to check
* @param base The base value of the interval
* @param size The size of the interval
* @return True if the value is in the interval, false else.
*/
template <typename T>
static inline bool IsInsideBS(const T x, const size_t base, const size_t size)
{
return (size_t)(x - base) < size;
}
/**
* Checks if a value is in an interval.
*
* Returns true if a value is in the interval of [min, max).
*
* @param x The value to check
* @param min The minimum of the interval
* @param max The maximum of the interval
* @see IsInsideBS()
*/
template <typename T, std::enable_if_t<std::disjunction_v<std::is_convertible<T, size_t>, std::is_base_of<StrongTypedefBase, T>>, int> = 0>
static constexpr inline bool IsInsideMM(const T x, const size_t min, const size_t max) noexcept
{
if constexpr (std::is_base_of_v<StrongTypedefBase, T>) {
return (size_t)(static_cast<typename T::BaseType>(x) - min) < (max - min);
} else {
return (size_t)(x - min) < (max - min);
}
}
/**
* Type safe swap operation
* @param a variable to swap with b
* @param b variable to swap with a
*/
template <typename T>
static inline void Swap(T &a, T &b)
{
T t = a;
a = b;
b = t;
}
/**
* Converts a "fract" value 0..255 to "percent" value 0..100
* @param i value to convert, range 0..255
* @return value in range 0..100
*/
static inline uint ToPercent8(uint i)
{
assert(i < 256);
return i * 101 >> 8;
}
/**
* Converts a "fract" value 0..65535 to "percent" value 0..100
* @param i value to convert, range 0..65535
* @return value in range 0..100
*/
static inline uint ToPercent16(uint i)
{
assert(i < 65536);
return i * 101 >> 16;
}
int LeastCommonMultiple(int a, int b);
int GreatestCommonDivisor(int a, int b);
int DivideApprox(int a, int b);
/**
* Computes ceil(a / b) for non-negative a and b.
* @param a Numerator
* @param b Denominator
* @return Quotient, rounded up
*/
static inline uint CeilDiv(uint a, uint b)
{
return (a + b - 1) / b;
}
/**
* Computes ceil(a / b) * b for non-negative a and b.
* @param a Numerator
* @param b Denominator
* @return a rounded up to the nearest multiple of b.
*/
static inline uint Ceil(uint a, uint b)
{
return CeilDiv(a, b) * b;
}
/**
* Computes round(a / b) for signed a and unsigned b.
* @param a Numerator
* @param b Denominator
* @return Quotient, rounded to nearest
*/
static inline int RoundDivSU(int a, uint b)
{
if (a > 0) {
/* 0.5 is rounded to 1 */
return (a + static_cast<int>(b) / 2) / static_cast<int>(b);
} else {
/* -0.5 is rounded to 0 */
return (a - (static_cast<int>(b) - 1) / 2) / static_cast<int>(b);
}
}
/**
* Computes (a / b) rounded away from zero.
* @param a Numerator
* @param b Denominator
* @return Quotient, rounded away from zero
*/
static inline int DivAwayFromZero(int a, uint b)
{
const int _b = static_cast<int>(b);
if (a > 0) {
return (a + _b - 1) / _b;
} else {
/* Note: Behaviour of negative numerator division is truncation toward zero. */
return (a - _b + 1) / _b;
}
}
uint32_t IntSqrt(uint32_t num);
#endif /* MATH_FUNC_HPP */
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