2018-soft-3d-renderer/Source/Transform.cpp

#include "Matrix.hpp"
#include "Transform.hpp"
#include <cmath>


Matrix Transform_Translate(Point& translation)
{
	Matrix result;

	result.e41 = translation.x;
	result.e42 = translation.y;
	result.e43 = translation.z;

	return result;
}

Matrix Transform_Rotate(Point& rotation)
{
	// YXZ Euler rotation
	float cosThetaY = cosf(rotation.y);
	float sinThetaY = sinf(rotation.y);

	Matrix tRotateY;

	tRotateY.e11 = cosThetaY;
	tRotateY.e13 = -sinThetaY;
	tRotateY.e31 = sinThetaY;
	tRotateY.e33 = cosThetaY;


	float cosThetaX = cosf(rotation.x);
	float sinThetaX = sinf(rotation.x);

	Matrix tRotateX;

	tRotateX.e22 = cosThetaX;
	tRotateX.e23 = sinThetaX;
	tRotateX.e32 = -sinThetaX;
	tRotateX.e33 = cosThetaX;


	float cosThetaZ = cosf(rotation.z);
	float sinThetaZ = sinf(rotation.z);

	Matrix tRotateZ;

	tRotateZ.e11 = cosThetaZ;
	tRotateZ.e12 = sinThetaZ;
	tRotateZ.e21 = -sinThetaZ;
	tRotateZ.e22 = cosThetaZ;


	Matrix result = tRotateY * tRotateX * tRotateZ;

	return result;
}

Matrix Transform_Scale(float scale)
{
	Matrix result;

	result.e11 = scale;
	result.e22 = scale;
	result.e33 = scale;

	return result;
}

Matrix Transform_View(Camera& camera)
{
	Point invPosition = -camera.position;
	Matrix tInvTranslate = Transform_Translate(invPosition);

	Point invRotation = -camera.rotation;
	Matrix tInvRotate = Transform_Rotate(invRotation);

	Matrix result = tInvTranslate * tInvRotate;

	return result;
}

Matrix Transform_Perspective(Camera& camera)
{
	Matrix result;

	result.e11 = camera.xZoom;
	result.e22 = camera.yZoom;
	result.e33 = camera.zClipBias0;
	result.e34 = 1;
	result.e43 = camera.zClipBias1;

	return result;
}

Matrix Transform_Screen(Camera& camera)
{
	Matrix result;

	result.e11 = camera.xScale;
	result.e41 = camera.xScale;
	result.e22 = -camera.yScale;
	result.e42 = camera.yScale;

	return result;
}
Code cleanup 2019-08-10 00:03:10 +00:00			`#include "Matrix.hpp"`
			`#include "Transform.hpp"`
			`#include <cmath>`


			`Matrix Transform_Translate(Point& translation)`
			`{`
			`Matrix result;`

			`result.e41 = translation.x;`
			`result.e42 = translation.y;`
			`result.e43 = translation.z;`

			`return result;`
			`}`

			`Matrix Transform_Rotate(Point& rotation)`
			`{`
			`// YXZ Euler rotation`
			`float cosThetaY = cosf(rotation.y);`
			`float sinThetaY = sinf(rotation.y);`

			`Matrix tRotateY;`

			`tRotateY.e11 = cosThetaY;`
			`tRotateY.e13 = -sinThetaY;`
			`tRotateY.e31 = sinThetaY;`
			`tRotateY.e33 = cosThetaY;`


			`float cosThetaX = cosf(rotation.x);`
			`float sinThetaX = sinf(rotation.x);`

			`Matrix tRotateX;`

			`tRotateX.e22 = cosThetaX;`
			`tRotateX.e23 = sinThetaX;`
			`tRotateX.e32 = -sinThetaX;`
			`tRotateX.e33 = cosThetaX;`


			`float cosThetaZ = cosf(rotation.z);`
			`float sinThetaZ = sinf(rotation.z);`

			`Matrix tRotateZ;`

			`tRotateZ.e11 = cosThetaZ;`
			`tRotateZ.e12 = sinThetaZ;`
			`tRotateZ.e21 = -sinThetaZ;`
			`tRotateZ.e22 = cosThetaZ;`


			`Matrix result = tRotateY * tRotateX * tRotateZ;`

			`return result;`
			`}`

			`Matrix Transform_Scale(float scale)`
			`{`
			`Matrix result;`

			`result.e11 = scale;`
			`result.e22 = scale;`
			`result.e33 = scale;`

			`return result;`
			`}`

			`Matrix Transform_View(Camera& camera)`
			`{`
			`Point invPosition = -camera.position;`
			`Matrix tInvTranslate = Transform_Translate(invPosition);`

			`Point invRotation = -camera.rotation;`
			`Matrix tInvRotate = Transform_Rotate(invRotation);`

			`Matrix result = tInvTranslate * tInvRotate;`

			`return result;`
			`}`

			`Matrix Transform_Perspective(Camera& camera)`
			`{`
			`Matrix result;`

			`result.e11 = camera.xZoom;`
			`result.e22 = camera.yZoom;`
			`result.e33 = camera.zClipBias0;`
			`result.e34 = 1;`
			`result.e43 = camera.zClipBias1;`

			`return result;`
			`}`

			`Matrix Transform_Screen(Camera& camera)`
			`{`
			`Matrix result;`

			`result.e11 = camera.xScale;`
			`result.e41 = camera.xScale;`
			`result.e22 = -camera.yScale;`
			`result.e42 = camera.yScale;`

			`return result;`
			`}`