fdadfde5c5
due to float precision problem in matrix inverse.
294 lines
7.7 KiB
C++
294 lines
7.7 KiB
C++
/*
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* Copyright 2011, Blender Foundation.
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software Foundation,
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* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
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*/
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#include "camera.h"
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#include "scene.h"
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#include "device.h"
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#include "util_vector.h"
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CCL_NAMESPACE_BEGIN
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Camera::Camera()
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{
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shuttertime = 1.0f;
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aperturesize = 0.0f;
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focaldistance = 10.0f;
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blades = 0;
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bladesrotation = 0.0f;
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matrix = transform_identity();
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motion.pre = transform_identity();
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motion.post = transform_identity();
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use_motion = false;
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type = CAMERA_PERSPECTIVE;
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panorama_type = PANORAMA_EQUIRECTANGULAR;
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fisheye_fov = M_PI_F;
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fisheye_lens = 10.5f;
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fov = M_PI_F/4.0f;
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sensorwidth = 0.036;
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sensorheight = 0.024;
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nearclip = 1e-5f;
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farclip = 1e5f;
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width = 1024;
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height = 512;
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viewplane.left = -((float)width/(float)height);
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viewplane.right = (float)width/(float)height;
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viewplane.bottom = -1.0f;
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viewplane.top = 1.0f;
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screentoworld = transform_identity();
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rastertoworld = transform_identity();
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ndctoworld = transform_identity();
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rastertocamera = transform_identity();
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cameratoworld = transform_identity();
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worldtoraster = transform_identity();
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dx = make_float3(0.0f, 0.0f, 0.0f);
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dy = make_float3(0.0f, 0.0f, 0.0f);
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need_update = true;
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need_device_update = true;
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previous_need_motion = -1;
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}
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Camera::~Camera()
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{
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}
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void Camera::update()
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{
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if(!need_update)
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return;
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/* ndc to raster */
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Transform screentocamera;
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Transform ndctoraster = transform_scale(width, height, 1.0f);
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/* raster to screen */
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Transform screentondc =
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transform_scale(1.0f/(viewplane.right - viewplane.left),
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1.0f/(viewplane.top - viewplane.bottom), 1.0f) *
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transform_translate(-viewplane.left, -viewplane.bottom, 0.0f);
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Transform screentoraster = ndctoraster * screentondc;
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Transform rastertoscreen = transform_inverse(screentoraster);
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/* screen to camera */
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if(type == CAMERA_PERSPECTIVE)
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screentocamera = transform_inverse(transform_perspective(fov, nearclip, farclip));
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else if(type == CAMERA_ORTHOGRAPHIC)
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screentocamera = transform_inverse(transform_orthographic(nearclip, farclip));
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else
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screentocamera = transform_identity();
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Transform cameratoscreen = transform_inverse(screentocamera);
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rastertocamera = screentocamera * rastertoscreen;
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cameratoraster = screentoraster * cameratoscreen;
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cameratoworld = matrix;
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screentoworld = cameratoworld * screentocamera;
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rastertoworld = cameratoworld * rastertocamera;
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ndctoworld = rastertoworld * ndctoraster;
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/* note we recompose matrices instead of taking inverses of the above, this
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* is needed to avoid inverting near degenerate matrices that happen due to
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* precision issues with large scenes */
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worldtocamera = transform_inverse(matrix);
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worldtoscreen = cameratoscreen * worldtocamera;
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worldtondc = screentondc * worldtoscreen;
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worldtoraster = ndctoraster * worldtondc;
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/* differentials */
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if(type == CAMERA_ORTHOGRAPHIC) {
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dx = transform_direction(&rastertocamera, make_float3(1, 0, 0));
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dy = transform_direction(&rastertocamera, make_float3(0, 1, 0));
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}
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else if(type == CAMERA_PERSPECTIVE) {
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dx = transform_perspective(&rastertocamera, make_float3(1, 0, 0)) -
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transform_perspective(&rastertocamera, make_float3(0, 0, 0));
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dy = transform_perspective(&rastertocamera, make_float3(0, 1, 0)) -
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transform_perspective(&rastertocamera, make_float3(0, 0, 0));
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}
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else {
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dx = make_float3(0, 0, 0);
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dy = make_float3(0, 0, 0);
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}
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dx = transform_direction(&cameratoworld, dx);
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dy = transform_direction(&cameratoworld, dy);
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need_update = false;
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need_device_update = true;
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}
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void Camera::device_update(Device *device, DeviceScene *dscene, Scene *scene)
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{
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Scene::MotionType need_motion = scene->need_motion(device->info.advanced_shading);
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update();
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if (previous_need_motion != need_motion) {
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/* scene's motion model could have been changed since previous device
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* camera update this could happen for example in case when one render
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* layer has got motion pass and another not */
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need_device_update = true;
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}
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if(!need_device_update)
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return;
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KernelCamera *kcam = &dscene->data.cam;
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/* store matrices */
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kcam->screentoworld = screentoworld;
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kcam->rastertoworld = rastertoworld;
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kcam->rastertocamera = rastertocamera;
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kcam->cameratoworld = cameratoworld;
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kcam->worldtocamera = worldtocamera;
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kcam->worldtoscreen = worldtoscreen;
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kcam->worldtoraster = worldtoraster;
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kcam->worldtondc = worldtondc;
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/* camera motion */
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kcam->have_motion = 0;
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if(need_motion == Scene::MOTION_PASS) {
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if(type == CAMERA_PANORAMA) {
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if(use_motion) {
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kcam->motion.pre = transform_inverse(motion.pre);
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kcam->motion.post = transform_inverse(motion.post);
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}
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else {
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kcam->motion.pre = kcam->worldtocamera;
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kcam->motion.post = kcam->worldtocamera;
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}
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}
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else {
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if(use_motion) {
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kcam->motion.pre = cameratoraster * transform_inverse(motion.pre);
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kcam->motion.post = cameratoraster * transform_inverse(motion.post);
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}
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else {
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kcam->motion.pre = worldtoraster;
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kcam->motion.post = worldtoraster;
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}
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}
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}
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#ifdef __CAMERA_MOTION__
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else if(need_motion == Scene::MOTION_BLUR) {
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if(use_motion) {
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transform_motion_decompose(&kcam->motion, &motion, &matrix);
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kcam->have_motion = 1;
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}
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}
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#endif
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/* depth of field */
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kcam->aperturesize = aperturesize;
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kcam->focaldistance = focaldistance;
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kcam->blades = (blades < 3)? 0.0f: blades;
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kcam->bladesrotation = bladesrotation;
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/* motion blur */
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#ifdef __CAMERA_MOTION__
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kcam->shuttertime = (need_motion == Scene::MOTION_BLUR) ? shuttertime: 0.0f;
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#else
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kcam->shuttertime = 0.0f;
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#endif
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/* type */
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kcam->type = type;
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/* panorama */
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kcam->panorama_type = panorama_type;
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kcam->fisheye_fov = fisheye_fov;
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kcam->fisheye_lens = fisheye_lens;
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/* sensor size */
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kcam->sensorwidth = sensorwidth;
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kcam->sensorheight = sensorheight;
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/* render size */
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kcam->width = width;
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kcam->height = height;
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/* store differentials */
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kcam->dx = float3_to_float4(dx);
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kcam->dy = float3_to_float4(dy);
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/* clipping */
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kcam->nearclip = nearclip;
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kcam->cliplength = (farclip == FLT_MAX)? FLT_MAX: farclip - nearclip;
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need_device_update = false;
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previous_need_motion = need_motion;
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}
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void Camera::device_free(Device *device, DeviceScene *dscene)
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{
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/* nothing to free, only writing to constant memory */
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}
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bool Camera::modified(const Camera& cam)
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{
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return !((shuttertime == cam.shuttertime) &&
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(aperturesize == cam.aperturesize) &&
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(blades == cam.blades) &&
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(bladesrotation == cam.bladesrotation) &&
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(focaldistance == cam.focaldistance) &&
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(type == cam.type) &&
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(fov == cam.fov) &&
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(nearclip == cam.nearclip) &&
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(farclip == cam.farclip) &&
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(sensorwidth == cam.sensorwidth) &&
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(sensorheight == cam.sensorheight) &&
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// modified for progressive render
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// (width == cam.width) &&
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// (height == cam.height) &&
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(viewplane == cam.viewplane) &&
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(border == cam.border) &&
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(matrix == cam.matrix) &&
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(panorama_type == cam.panorama_type) &&
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(fisheye_fov == cam.fisheye_fov) &&
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(fisheye_lens == cam.fisheye_lens));
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}
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bool Camera::motion_modified(const Camera& cam)
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{
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return !((motion == cam.motion) &&
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(use_motion == cam.use_motion));
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}
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void Camera::tag_update()
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{
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need_update = true;
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}
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CCL_NAMESPACE_END
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