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find -type f | # list all regular files grep -E '\.(h|cpp|mm)$' | # filter for source files grep -v '/mt_' | # filter out generated files grep -v '/vendor/' | # and vendored GL grep -v '/test/image_loader_test.cpp' | # and this file (has giant literals arrays) xargs -n 1 -P $(nproc) clang-format -i # reformat everything Co-authored-by: numzero <numzer0@yandex.ru>
217 lines
5.2 KiB
C++
217 lines
5.2 KiB
C++
// Copyright (C) 2002-2012 Nikolaus Gebhardt
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// This file is part of the "Irrlicht Engine".
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// For conditions of distribution and use, see copyright notice in irrlicht.h
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#pragma once
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#include "irrTypes.h"
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#include "irrMath.h" // for irr::core::equals()
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namespace irr
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{
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namespace core
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{
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template <class T>
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class vector2d;
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//! Specifies a 2 dimensional size.
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template <class T>
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class dimension2d
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{
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public:
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//! Default constructor for empty dimension
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constexpr dimension2d() :
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Width(0), Height(0) {}
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//! Constructor with width and height
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constexpr dimension2d(const T &width, const T &height) :
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Width(width), Height(height) {}
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dimension2d(const vector2d<T> &other); // Defined in vector2d.h
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//! Use this constructor only where you are sure that the conversion is valid.
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template <class U>
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explicit constexpr dimension2d(const dimension2d<U> &other) :
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Width((T)other.Width), Height((T)other.Height)
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{
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}
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template <class U>
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dimension2d<T> &operator=(const dimension2d<U> &other)
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{
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Width = (T)other.Width;
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Height = (T)other.Height;
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return *this;
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}
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//! Equality operator
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bool operator==(const dimension2d<T> &other) const
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{
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return core::equals(Width, other.Width) &&
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core::equals(Height, other.Height);
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}
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//! Inequality operator
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bool operator!=(const dimension2d<T> &other) const
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{
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return !(*this == other);
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}
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bool operator==(const vector2d<T> &other) const; // Defined in vector2d.h
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bool operator!=(const vector2d<T> &other) const
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{
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return !(*this == other);
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}
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//! Set to new values
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dimension2d<T> &set(const T &width, const T &height)
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{
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Width = width;
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Height = height;
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return *this;
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}
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//! Divide width and height by scalar
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dimension2d<T> &operator/=(const T &scale)
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{
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Width /= scale;
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Height /= scale;
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return *this;
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}
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//! Divide width and height by scalar
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dimension2d<T> operator/(const T &scale) const
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{
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return dimension2d<T>(Width / scale, Height / scale);
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}
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//! Multiply width and height by scalar
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dimension2d<T> &operator*=(const T &scale)
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{
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Width *= scale;
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Height *= scale;
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return *this;
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}
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//! Multiply width and height by scalar
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dimension2d<T> operator*(const T &scale) const
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{
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return dimension2d<T>(Width * scale, Height * scale);
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}
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//! Add another dimension to this one.
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dimension2d<T> &operator+=(const dimension2d<T> &other)
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{
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Width += other.Width;
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Height += other.Height;
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return *this;
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}
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//! Add two dimensions
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dimension2d<T> operator+(const dimension2d<T> &other) const
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{
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return dimension2d<T>(Width + other.Width, Height + other.Height);
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}
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//! Subtract a dimension from this one
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dimension2d<T> &operator-=(const dimension2d<T> &other)
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{
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Width -= other.Width;
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Height -= other.Height;
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return *this;
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}
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//! Subtract one dimension from another
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dimension2d<T> operator-(const dimension2d<T> &other) const
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{
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return dimension2d<T>(Width - other.Width, Height - other.Height);
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}
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//! Get area
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T getArea() const
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{
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return Width * Height;
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}
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//! Get the optimal size according to some properties
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/** This is a function often used for texture dimension
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calculations. The function returns the next larger or
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smaller dimension which is a power-of-two dimension
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(2^n,2^m) and/or square (Width=Height).
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\param requirePowerOfTwo Forces the result to use only
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powers of two as values.
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\param requireSquare Makes width==height in the result
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\param larger Choose whether the result is larger or
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smaller than the current dimension. If one dimension
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need not be changed it is kept with any value of larger.
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\param maxValue Maximum texturesize. if value > 0 size is
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clamped to maxValue
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\return The optimal dimension under the given
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constraints. */
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dimension2d<T> getOptimalSize(
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bool requirePowerOfTwo = true,
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bool requireSquare = false,
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bool larger = true,
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u32 maxValue = 0) const
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{
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u32 i = 1;
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u32 j = 1;
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if (requirePowerOfTwo) {
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while (i < (u32)Width)
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i <<= 1;
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if (!larger && i != 1 && i != (u32)Width)
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i >>= 1;
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while (j < (u32)Height)
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j <<= 1;
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if (!larger && j != 1 && j != (u32)Height)
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j >>= 1;
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} else {
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i = (u32)Width;
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j = (u32)Height;
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}
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if (requireSquare) {
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if ((larger && (i > j)) || (!larger && (i < j)))
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j = i;
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else
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i = j;
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}
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if (maxValue > 0 && i > maxValue)
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i = maxValue;
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if (maxValue > 0 && j > maxValue)
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j = maxValue;
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return dimension2d<T>((T)i, (T)j);
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}
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//! Get the interpolated dimension
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/** \param other Other dimension to interpolate with.
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\param d Value between 0.0f and 1.0f. d=0 returns other, d=1 returns this, values between interpolate.
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\return Interpolated dimension. */
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dimension2d<T> getInterpolated(const dimension2d<T> &other, f32 d) const
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{
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f32 inv = (1.0f - d);
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return dimension2d<T>((T)(other.Width * inv + Width * d), (T)(other.Height * inv + Height * d));
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}
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//! Width of the dimension.
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T Width;
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//! Height of the dimension.
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T Height;
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};
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//! Typedef for an f32 dimension.
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typedef dimension2d<f32> dimension2df;
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//! Typedef for an unsigned integer dimension.
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typedef dimension2d<u32> dimension2du;
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//! Typedef for an integer dimension.
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/** There are few cases where negative dimensions make sense. Please consider using
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dimension2du instead. */
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typedef dimension2d<s32> dimension2di;
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} // end namespace core
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} // end namespace irr
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