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/*
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olcPGEX_Graphics2D.h
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+-------------------------------------------------------------+
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| OneLoneCoder Pixel Game Engine Extension |
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| Advanced 2D Rendering - v0.3 |
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+-------------------------------------------------------------+
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What is this?
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~~~~~~~~~~~~~
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This is an extension to the olcPixelGameEngine, which provides
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advanced olc::Sprite manipulation and drawing routines. To use
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it, simply include this header file.
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License (OLC-3)
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~~~~~~~~~~~~~~~
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Copyright 2018 OneLoneCoder.com
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Redistribution and use in source and binary forms, with or without
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modification, are permitted provided that the following conditions
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are met:
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1. Redistributions or derivations of source code must retain the above
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copyright notice, this list of conditions and the following disclaimer.
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2. Redistributions or derivative works in binary form must reproduce
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the above copyright notice. This list of conditions and the following
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disclaimer must be reproduced in the documentation and/or other
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materials provided with the distribution.
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3. Neither the name of the copyright holder nor the names of its
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contributors may be used to endorse or promote products derived
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from this software without specific prior written permission.
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THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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Links
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~~~~~
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YouTube: https://www.youtube.com/javidx9
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Discord: https://discord.gg/WhwHUMV
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Twitter: https://www.twitter.com/javidx9
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Twitch: https://www.twitch.tv/javidx9
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GitHub: https://www.github.com/onelonecoder
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Homepage: https://www.onelonecoder.com
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Author
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~~~~~~
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David Barr, aka javidx9, <EFBFBD>OneLoneCoder 2018
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*/
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/*
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Matrices stored as [Column][Row] (i.e. x, y)
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|C0R0 C1R0 C2R0| | x | | x'|
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|C0R1 C1R1 C2R1| * | y | = | y'|
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|C0R2 C1R2 C2R2| |1.0| | - |
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*/
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#ifndef OLC_PGEX_GFX2D
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#define OLC_PGEX_GFX2D
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#include <algorithm>
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#undef min
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#undef max
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namespace olc
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{
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// Container class for Advanced 2D Drawing functions
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class GFX2D : public olc::PGEX
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{
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// A representation of an affine transform, used to rotate, scale, offset & shear space
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public:
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class Transform2D
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{
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public:
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inline Transform2D();
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public:
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// Set this transformation to unity
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inline void Reset();
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// Append a rotation of fTheta radians to this transform
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inline void Rotate(float fTheta);
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// Append a translation (ox, oy) to this transform
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inline void Translate(float ox, float oy);
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// Append a scaling operation (sx, sy) to this transform
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inline void Scale(float sx, float sy);
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// Append a shear operation (sx, sy) to this transform
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inline void Shear(float sx, float sy);
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// Calculate the Forward Transformation of the coordinate (in_x, in_y) -> (out_x, out_y)
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inline void Forward(float in_x, float in_y, float &out_x, float &out_y);
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// Calculate the Inverse Transformation of the coordinate (in_x, in_y) -> (out_x, out_y)
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inline void Backward(float in_x, float in_y, float &out_x, float &out_y);
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// Regenerate the Inverse Transformation
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inline void Invert();
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private:
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inline void Multiply();
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float matrix[4][3][3];
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int nTargetMatrix;
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int nSourceMatrix;
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bool bDirty;
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};
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public:
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// Draws a sprite with the transform applied
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inline static void DrawSprite(olc::Sprite *sprite, olc::GFX2D::Transform2D &transform);
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};
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}
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namespace olc
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{
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void GFX2D::DrawSprite(olc::Sprite *sprite, olc::GFX2D::Transform2D &transform)
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{
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if (sprite == nullptr)
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return;
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// Work out bounding rectangle of sprite
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float ex, ey;
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float sx, sy;
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float px, py;
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transform.Forward(0.0f, 0.0f, sx, sy);
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px = sx; py = sy;
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sx = std::min(sx, px); sy = std::min(sy, py);
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ex = std::max(ex, px); ey = std::max(ey, py);
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transform.Forward((float)sprite->width, (float)sprite->height, px, py);
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sx = std::min(sx, px); sy = std::min(sy, py);
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ex = std::max(ex, px); ey = std::max(ey, py);
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transform.Forward(0.0f, (float)sprite->height, px, py);
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sx = std::min(sx, px); sy = std::min(sy, py);
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ex = std::max(ex, px); ey = std::max(ey, py);
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transform.Forward((float)sprite->width, 0.0f, px, py);
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sx = std::min(sx, px); sy = std::min(sy, py);
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ex = std::max(ex, px); ey = std::max(ey, py);
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// Perform inversion of transform if required
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transform.Invert();
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if (ex < sx)
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std::swap(ex, sx);
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if (ey < sy)
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std::swap(ey, sy);
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// Iterate through render space, and sample Sprite from suitable texel location
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for (float i = sx; i < ex; i++)
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{
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for (float j = sy; j < ey; j++)
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{
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float ox, oy;
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transform.Backward(i, j, ox, oy);
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pge->Draw((int32_t)i, (int32_t)j, sprite->GetPixel((int32_t)(ox+0.5f), (int32_t)(oy+0.5f)));
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}
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}
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}
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olc::GFX2D::Transform2D::Transform2D()
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{
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Reset();
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}
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void olc::GFX2D::Transform2D::Reset()
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{
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nTargetMatrix = 0;
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nSourceMatrix = 1;
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bDirty = true;
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// Columns Then Rows
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// Matrices 0 & 1 are used as swaps in Transform accumulation
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matrix[0][0][0] = 1.0f; matrix[0][1][0] = 0.0f; matrix[0][2][0] = 0.0f;
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matrix[0][0][1] = 0.0f; matrix[0][1][1] = 1.0f; matrix[0][2][1] = 0.0f;
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matrix[0][0][2] = 0.0f; matrix[0][1][2] = 0.0f; matrix[0][2][2] = 1.0f;
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matrix[1][0][0] = 1.0f; matrix[1][1][0] = 0.0f; matrix[1][2][0] = 0.0f;
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matrix[1][0][1] = 0.0f; matrix[1][1][1] = 1.0f; matrix[1][2][1] = 0.0f;
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matrix[1][0][2] = 0.0f; matrix[1][1][2] = 0.0f; matrix[1][2][2] = 1.0f;
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// Matrix 2 is a cache matrix to hold the immediate transform operation
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// Matrix 3 is a cache matrix to hold the inverted transform
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}
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void olc::GFX2D::Transform2D::Multiply()
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{
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for (int c = 0; c < 3; c++)
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{
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for (int r = 0; r < 3; r++)
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{
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matrix[nTargetMatrix][c][r] = matrix[2][0][r] * matrix[nSourceMatrix][c][0] +
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matrix[2][1][r] * matrix[nSourceMatrix][c][1] +
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matrix[2][2][r] * matrix[nSourceMatrix][c][2];
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}
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}
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std::swap(nTargetMatrix, nSourceMatrix);
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bDirty = true; // Any transform multiply dirties the inversion
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}
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void olc::GFX2D::Transform2D::Rotate(float fTheta)
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{
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// Construct Rotation Matrix
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matrix[2][0][0] = cosf(fTheta); matrix[2][1][0] = sinf(fTheta); matrix[2][2][0] = 0.0f;
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matrix[2][0][1] = -sinf(fTheta); matrix[2][1][1] = cosf(fTheta); matrix[2][2][1] = 0.0f;
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matrix[2][0][2] = 0.0f; matrix[2][1][2] = 0.0f; matrix[2][2][2] = 1.0f;
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Multiply();
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}
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void olc::GFX2D::Transform2D::Scale(float sx, float sy)
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{
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// Construct Scale Matrix
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matrix[2][0][0] = sx; matrix[2][1][0] = 0.0f; matrix[2][2][0] = 0.0f;
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matrix[2][0][1] = 0.0f; matrix[2][1][1] = sy; matrix[2][2][1] = 0.0f;
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matrix[2][0][2] = 0.0f; matrix[2][1][2] = 0.0f; matrix[2][2][2] = 1.0f;
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Multiply();
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}
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void olc::GFX2D::Transform2D::Shear(float sx, float sy)
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{
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// Construct Shear Matrix
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matrix[2][0][0] = 1.0f; matrix[2][1][0] = sx; matrix[2][2][0] = 0.0f;
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matrix[2][0][1] = sy; matrix[2][1][1] = 1.0f; matrix[2][2][1] = 0.0f;
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matrix[2][0][2] = 0.0f; matrix[2][1][2] = 0.0f; matrix[2][2][2] = 1.0f;
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Multiply();
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}
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void olc::GFX2D::Transform2D::Translate(float ox, float oy)
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{
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// Construct Translate Matrix
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matrix[2][0][0] = 1.0f; matrix[2][1][0] = 0.0f; matrix[2][2][0] = ox;
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matrix[2][0][1] = 0.0f; matrix[2][1][1] = 1.0f; matrix[2][2][1] = oy;
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matrix[2][0][2] = 0.0f; matrix[2][1][2] = 0.0f; matrix[2][2][2] = 1.0f;
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Multiply();
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}
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void olc::GFX2D::Transform2D::Forward(float in_x, float in_y, float &out_x, float &out_y)
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{
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out_x = in_x * matrix[nSourceMatrix][0][0] + in_y * matrix[nSourceMatrix][1][0] + matrix[nSourceMatrix][2][0];
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out_y = in_x * matrix[nSourceMatrix][0][1] + in_y * matrix[nSourceMatrix][1][1] + matrix[nSourceMatrix][2][1];
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}
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void olc::GFX2D::Transform2D::Backward(float in_x, float in_y, float &out_x, float &out_y)
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{
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out_x = in_x * matrix[3][0][0] + in_y * matrix[3][1][0] + matrix[3][2][0];
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out_y = in_x * matrix[3][0][1] + in_y * matrix[3][1][1] + matrix[3][2][1];
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}
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void olc::GFX2D::Transform2D::Invert()
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{
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if (bDirty) // Obviously costly so only do if needed
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{
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float det = matrix[nSourceMatrix][0][0] * (matrix[nSourceMatrix][1][1] * matrix[nSourceMatrix][2][2] - matrix[nSourceMatrix][1][2] * matrix[nSourceMatrix][2][1]) -
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matrix[nSourceMatrix][1][0] * (matrix[nSourceMatrix][0][1] * matrix[nSourceMatrix][2][2] - matrix[nSourceMatrix][2][1] * matrix[nSourceMatrix][0][2]) +
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matrix[nSourceMatrix][2][0] * (matrix[nSourceMatrix][0][1] * matrix[nSourceMatrix][1][2] - matrix[nSourceMatrix][1][1] * matrix[nSourceMatrix][0][2]);
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float idet = 1.0f / det;
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matrix[3][0][0] = (matrix[nSourceMatrix][1][1] * matrix[nSourceMatrix][2][2] - matrix[nSourceMatrix][1][2] * matrix[nSourceMatrix][2][1]) * idet;
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matrix[3][1][0] = (matrix[nSourceMatrix][2][0] * matrix[nSourceMatrix][1][2] - matrix[nSourceMatrix][1][0] * matrix[nSourceMatrix][2][2]) * idet;
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matrix[3][2][0] = (matrix[nSourceMatrix][1][0] * matrix[nSourceMatrix][2][1] - matrix[nSourceMatrix][2][0] * matrix[nSourceMatrix][1][1]) * idet;
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matrix[3][0][1] = (matrix[nSourceMatrix][2][1] * matrix[nSourceMatrix][0][2] - matrix[nSourceMatrix][0][1] * matrix[nSourceMatrix][2][2]) * idet;
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matrix[3][1][1] = (matrix[nSourceMatrix][0][0] * matrix[nSourceMatrix][2][2] - matrix[nSourceMatrix][2][0] * matrix[nSourceMatrix][0][2]) * idet;
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matrix[3][2][1] = (matrix[nSourceMatrix][0][1] * matrix[nSourceMatrix][2][0] - matrix[nSourceMatrix][0][0] * matrix[nSourceMatrix][2][1]) * idet;
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matrix[3][0][2] = (matrix[nSourceMatrix][0][1] * matrix[nSourceMatrix][1][2] - matrix[nSourceMatrix][0][2] * matrix[nSourceMatrix][1][1]) * idet;
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matrix[3][1][2] = (matrix[nSourceMatrix][0][2] * matrix[nSourceMatrix][1][0] - matrix[nSourceMatrix][0][0] * matrix[nSourceMatrix][1][2]) * idet;
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matrix[3][2][2] = (matrix[nSourceMatrix][0][0] * matrix[nSourceMatrix][1][1] - matrix[nSourceMatrix][0][1] * matrix[nSourceMatrix][1][0]) * idet;
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bDirty = false;
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}
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}
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}
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#endif |