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/*
* Copyright (C) 2011 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/** @file rs_math.rsh
* \brief todo-jsams
*
* todo-jsams
*
*/
#ifndef __RS_MATH_RSH__
#define __RS_MATH_RSH__
/**
* Return a random value between 0 (or min_value) and max_malue.
*/
extern int __attribute__((overloadable))
rsRand(int max_value);
/**
* \overload
*/
extern int __attribute__((overloadable))
rsRand(int min_value, int max_value);
/**
* \overload
*/
extern float __attribute__((overloadable))
rsRand(float max_value);
/**
* \overload
*/
extern float __attribute__((overloadable))
rsRand(float min_value, float max_value);
/**
* Returns the fractional part of a float
*/
extern float __attribute__((overloadable))
rsFrac(float);
/////////////////////////////////////////////////////
// int ops
/////////////////////////////////////////////////////
/**
* Clamp the value amount between low and high.
*
* @param amount The value to clamp
* @param low
* @param high
*/
_RS_RUNTIME uint __attribute__((overloadable, always_inline)) rsClamp(uint amount, uint low, uint high);
/**
* \overload
*/
_RS_RUNTIME int __attribute__((overloadable, always_inline)) rsClamp(int amount, int low, int high);
/**
* \overload
*/
_RS_RUNTIME ushort __attribute__((overloadable, always_inline)) rsClamp(ushort amount, ushort low, ushort high);
/**
* \overload
*/
_RS_RUNTIME short __attribute__((overloadable, always_inline)) rsClamp(short amount, short low, short high);
/**
* \overload
*/
_RS_RUNTIME uchar __attribute__((overloadable, always_inline)) rsClamp(uchar amount, uchar low, uchar high);
/**
* \overload
*/
_RS_RUNTIME char __attribute__((overloadable, always_inline)) rsClamp(char amount, char low, char high);
/**
* Computes 6 frustum planes from the view projection matrix
* @param viewProj matrix to extract planes from
* @param left plane
* @param right plane
* @param top plane
* @param bottom plane
* @param near plane
* @param far plane
*/
__inline__ static void __attribute__((overloadable, always_inline))
rsExtractFrustumPlanes(const rs_matrix4x4 *viewProj,
float4 *left, float4 *right,
float4 *top, float4 *bottom,
float4 *near, float4 *far) {
// x y z w = a b c d in the plane equation
left->x = viewProj->m[3] + viewProj->m[0];
left->y = viewProj->m[7] + viewProj->m[4];
left->z = viewProj->m[11] + viewProj->m[8];
left->w = viewProj->m[15] + viewProj->m[12];
right->x = viewProj->m[3] - viewProj->m[0];
right->y = viewProj->m[7] - viewProj->m[4];
right->z = viewProj->m[11] - viewProj->m[8];
right->w = viewProj->m[15] - viewProj->m[12];
top->x = viewProj->m[3] - viewProj->m[1];
top->y = viewProj->m[7] - viewProj->m[5];
top->z = viewProj->m[11] - viewProj->m[9];
top->w = viewProj->m[15] - viewProj->m[13];
bottom->x = viewProj->m[3] + viewProj->m[1];
bottom->y = viewProj->m[7] + viewProj->m[5];
bottom->z = viewProj->m[11] + viewProj->m[9];
bottom->w = viewProj->m[15] + viewProj->m[13];
near->x = viewProj->m[3] + viewProj->m[2];
near->y = viewProj->m[7] + viewProj->m[6];
near->z = viewProj->m[11] + viewProj->m[10];
near->w = viewProj->m[15] + viewProj->m[14];
far->x = viewProj->m[3] - viewProj->m[2];
far->y = viewProj->m[7] - viewProj->m[6];
far->z = viewProj->m[11] - viewProj->m[10];
far->w = viewProj->m[15] - viewProj->m[14];
float len = length(left->xyz);
*left /= len;
len = length(right->xyz);
*right /= len;
len = length(top->xyz);
*top /= len;
len = length(bottom->xyz);
*bottom /= len;
len = length(near->xyz);
*near /= len;
len = length(far->xyz);
*far /= len;
}
/**
* Checks if a sphere is withing the 6 frustum planes
* @param sphere float4 representing the sphere
* @param left plane
* @param right plane
* @param top plane
* @param bottom plane
* @param near plane
* @param far plane
*/
__inline__ static bool __attribute__((overloadable, always_inline))
rsIsSphereInFrustum(float4 *sphere,
float4 *left, float4 *right,
float4 *top, float4 *bottom,
float4 *near, float4 *far) {
float distToCenter = dot(left->xyz, sphere->xyz) + left->w;
if (distToCenter < -sphere->w) {
return false;
}
distToCenter = dot(right->xyz, sphere->xyz) + right->w;
if (distToCenter < -sphere->w) {
return false;
}
distToCenter = dot(top->xyz, sphere->xyz) + top->w;
if (distToCenter < -sphere->w) {
return false;
}
distToCenter = dot(bottom->xyz, sphere->xyz) + bottom->w;
if (distToCenter < -sphere->w) {
return false;
}
distToCenter = dot(near->xyz, sphere->xyz) + near->w;
if (distToCenter < -sphere->w) {
return false;
}
distToCenter = dot(far->xyz, sphere->xyz) + far->w;
if (distToCenter < -sphere->w) {
return false;
}
return true;
}
/**
* Pack floating point (0-1) RGB values into a uchar4. The alpha component is
* set to 255 (1.0).
*
* @param r
* @param g
* @param b
*
* @return uchar4
*/
_RS_RUNTIME uchar4 __attribute__((overloadable)) rsPackColorTo8888(float r, float g, float b);
/**
* Pack floating point (0-1) RGBA values into a uchar4.
*
* @param r
* @param g
* @param b
* @param a
*
* @return uchar4
*/
_RS_RUNTIME uchar4 __attribute__((overloadable)) rsPackColorTo8888(float r, float g, float b, float a);
/**
* Pack floating point (0-1) RGB values into a uchar4. The alpha component is
* set to 255 (1.0).
*
* @param color
*
* @return uchar4
*/
_RS_RUNTIME uchar4 __attribute__((overloadable)) rsPackColorTo8888(float3 color);
/**
* Pack floating point (0-1) RGBA values into a uchar4.
*
* @param color
*
* @return uchar4
*/
_RS_RUNTIME uchar4 __attribute__((overloadable)) rsPackColorTo8888(float4 color);
/**
* Unpack a uchar4 color to float4. The resulting float range will be (0-1).
*
* @param c
*
* @return float4
*/
_RS_RUNTIME float4 rsUnpackColor8888(uchar4 c);
#endif