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authorMatt Strapp <matt@mattstrapp.net>2021-09-27 21:44:53 -0500
committerMatt Strapp <matt@mattstrapp.net>2021-09-27 21:44:53 -0500
commitb38e870d6be22a377bf7b0fb5048801886ebaa77 (patch)
tree18e021a36e2f939892eb4895269f420274a341df /dev/MinGfx/src/gfxmath.cc
parentPushed feedback file submission-p1 (diff)
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Diffstat (limited to '')
-rw-r--r--dev/MinGfx/src/gfxmath.cc274
1 files changed, 137 insertions, 137 deletions
diff --git a/dev/MinGfx/src/gfxmath.cc b/dev/MinGfx/src/gfxmath.cc
index 28cfedf..19d99ef 100644
--- a/dev/MinGfx/src/gfxmath.cc
+++ b/dev/MinGfx/src/gfxmath.cc
@@ -1,137 +1,137 @@
-/*
- Copyright (c) 2017,2018 Regents of the University of Minnesota.
- All Rights Reserved.
- See corresponding header file for details.
- */
-
-#include "gfxmath.h"
-
-#define _USE_MATH_DEFINES
-#include <math.h>
-#include <algorithm>
-
-#include "ray.h"
-
-
-namespace mingfx {
-
-const float GfxMath::PI = 3.14159265359f;
-const float GfxMath::TWO_PI = 6.28318530718f;
-const float GfxMath::HALF_PI = 1.57079632679f;
-
-float GfxMath::sin(float a) {
-#ifdef WIN32
- return std::sinf(a);
-#else
- return std::sin(a);
-#endif
-}
-
-float GfxMath::cos(float a) {
-#ifdef WIN32
- return std::cosf(a);
-#else
- return std::cos(a);
-#endif
-}
-
-float GfxMath::tan(float a) {
-#ifdef WIN32
- return std::tanf(a);
-#else
- return std::tan(a);
-#endif
-}
-
-float GfxMath::asin(float a) {
-#ifdef WIN32
- return std::asinf(a);
-#else
- return std::asin(a);
-#endif
-}
-
-float GfxMath::acos(float a) {
-#ifdef WIN32
- return std::acosf(a);
-#else
- return std::acos(a);
-#endif
-}
-
-float GfxMath::atan(float a) {
-#ifdef WIN32
- return std::atanf(a);
-#else
- return std::atan(a);
-#endif
-}
-
-float GfxMath::atan2(float a, float b) {
-#ifdef WIN32
- return std::atan2f(a, b);
-#else
- return std::atan2(a, b);
-#endif
-}
-
-float GfxMath::Clamp(float x, float a, float b) {
- return std::min(std::max(x, a), b);
-}
-
-float GfxMath::ToRadians(float degrees) {
- return degrees * GfxMath::PI / 180.0f;
-}
-
-float GfxMath::ToDegrees(float radians) {
- return radians * 180.0f / GfxMath::PI;
-}
-
-Vector3 GfxMath::ToRadians(Vector3 degrees) {
- return Vector3(ToRadians(degrees[0]), ToRadians(degrees[1]), ToRadians(degrees[2]));
-}
-
-Vector3 GfxMath::ToDegrees(Vector3 radians) {
- return Vector3(ToDegrees(radians[0]), ToDegrees(radians[1]), ToDegrees(radians[2]));
-}
-
-float GfxMath::Lerp(float a, float b, float alpha) {
- return (1.0f-alpha)*a + alpha*b;
-}
-
-int GfxMath::iLerp(int a, int b, float alpha) {
- return (int)std::round((1.0f-alpha)*(float)a + alpha*(float)b);
-}
-
-Point3 GfxMath::ScreenToNearPlane(const Matrix4 &V, const Matrix4 &P, const Point2 &ndcPoint) {
- Matrix4 filmPtToWorld = (P*V).Inverse();
- return filmPtToWorld * Point3(ndcPoint[0], ndcPoint[1], -1.0);
-}
-
-
-Point3 GfxMath::ScreenToWorld(const Matrix4 &V, const Matrix4 &P, const Point2 &ndcPoint, float zValue) {
- Matrix4 filmPtToWorld = (P*V).Inverse();
- float zneg1topos1 = zValue*2.0f - 1.0f;
- return filmPtToWorld * Point3(ndcPoint[0], ndcPoint[1], zneg1topos1);
-}
-
-
-Point3 GfxMath::ScreenToDepthPlane(const Matrix4 &V, const Matrix4 &P, const Point2 &ndcPoint, float planeDepth) {
- Point3 pNear = ScreenToNearPlane(V, P, ndcPoint);
-
- Matrix4 camMat = V.Inverse();
- Point3 eye = camMat.ColumnToPoint3(3);
- Vector3 look = -camMat.ColumnToVector3(2);
-
- Ray r(eye, pNear - eye);
-
- Point3 p3D;
- float t;
- if (!r.IntersectPlane(eye + planeDepth*look, -look, &t, &p3D)) {
- std::cerr << "filmplane2D_to_plane3D() error -- no intersection found!" << std::endl;
- }
- return p3D;
-}
-
-
-} // end namespace
+/*
+ Copyright (c) 2017,2018 Regents of the University of Minnesota.
+ All Rights Reserved.
+ See corresponding header file for details.
+ */
+
+#include "gfxmath.h"
+
+#define _USE_MATH_DEFINES
+#include <math.h>
+#include <algorithm>
+
+#include "ray.h"
+
+
+namespace mingfx {
+
+const float GfxMath::PI = 3.14159265359f;
+const float GfxMath::TWO_PI = 6.28318530718f;
+const float GfxMath::HALF_PI = 1.57079632679f;
+
+float GfxMath::sin(float a) {
+#ifdef WIN32
+ return std::sinf(a);
+#else
+ return std::sin(a);
+#endif
+}
+
+float GfxMath::cos(float a) {
+#ifdef WIN32
+ return std::cosf(a);
+#else
+ return std::cos(a);
+#endif
+}
+
+float GfxMath::tan(float a) {
+#ifdef WIN32
+ return std::tanf(a);
+#else
+ return std::tan(a);
+#endif
+}
+
+float GfxMath::asin(float a) {
+#ifdef WIN32
+ return std::asinf(a);
+#else
+ return std::asin(a);
+#endif
+}
+
+float GfxMath::acos(float a) {
+#ifdef WIN32
+ return std::acosf(a);
+#else
+ return std::acos(a);
+#endif
+}
+
+float GfxMath::atan(float a) {
+#ifdef WIN32
+ return std::atanf(a);
+#else
+ return std::atan(a);
+#endif
+}
+
+float GfxMath::atan2(float a, float b) {
+#ifdef WIN32
+ return std::atan2f(a, b);
+#else
+ return std::atan2(a, b);
+#endif
+}
+
+float GfxMath::Clamp(float x, float a, float b) {
+ return std::min(std::max(x, a), b);
+}
+
+float GfxMath::ToRadians(float degrees) {
+ return degrees * GfxMath::PI / 180.0f;
+}
+
+float GfxMath::ToDegrees(float radians) {
+ return radians * 180.0f / GfxMath::PI;
+}
+
+Vector3 GfxMath::ToRadians(Vector3 degrees) {
+ return Vector3(ToRadians(degrees[0]), ToRadians(degrees[1]), ToRadians(degrees[2]));
+}
+
+Vector3 GfxMath::ToDegrees(Vector3 radians) {
+ return Vector3(ToDegrees(radians[0]), ToDegrees(radians[1]), ToDegrees(radians[2]));
+}
+
+float GfxMath::Lerp(float a, float b, float alpha) {
+ return (1.0f-alpha)*a + alpha*b;
+}
+
+int GfxMath::iLerp(int a, int b, float alpha) {
+ return (int)std::round((1.0f-alpha)*(float)a + alpha*(float)b);
+}
+
+Point3 GfxMath::ScreenToNearPlane(const Matrix4 &V, const Matrix4 &P, const Point2 &ndcPoint) {
+ Matrix4 filmPtToWorld = (P*V).Inverse();
+ return filmPtToWorld * Point3(ndcPoint[0], ndcPoint[1], -1.0);
+}
+
+
+Point3 GfxMath::ScreenToWorld(const Matrix4 &V, const Matrix4 &P, const Point2 &ndcPoint, float zValue) {
+ Matrix4 filmPtToWorld = (P*V).Inverse();
+ float zneg1topos1 = zValue*2.0f - 1.0f;
+ return filmPtToWorld * Point3(ndcPoint[0], ndcPoint[1], zneg1topos1);
+}
+
+
+Point3 GfxMath::ScreenToDepthPlane(const Matrix4 &V, const Matrix4 &P, const Point2 &ndcPoint, float planeDepth) {
+ Point3 pNear = ScreenToNearPlane(V, P, ndcPoint);
+
+ Matrix4 camMat = V.Inverse();
+ Point3 eye = camMat.ColumnToPoint3(3);
+ Vector3 look = -camMat.ColumnToVector3(2);
+
+ Ray r(eye, pNear - eye);
+
+ Point3 p3D;
+ float t;
+ if (!r.IntersectPlane(eye + planeDepth*look, -look, &t, &p3D)) {
+ std::cerr << "filmplane2D_to_plane3D() error -- no intersection found!" << std::endl;
+ }
+ return p3D;
+}
+
+
+} // end namespace