diff options
author | Kévin Dietrich <kevin.dietrich@mailoo.org> | 2020-11-04 13:17:38 +0300 |
---|---|---|
committer | Kévin Dietrich <kevin.dietrich@mailoo.org> | 2020-11-04 15:03:33 +0300 |
commit | 31a620b9420cab6292b0aa1ea21c9dd1cf70b8bc (patch) | |
tree | 76cf425e110fe1c78930e54f3b56d24e1485877a /intern/cycles/render/camera.cpp | |
parent | a4a848d01b26ad094dabe0e935dd698847ac8f16 (diff) |
Cycles API: encapsulate Node socket members
This encapsulates Node socket members behind a set of specific methods;
as such it is no longer possible to directly access Node class members
from exporters and parts of Cycles.
The methods are defined via the NODE_SOCKET_API macros in `graph/
node.h`, and are for getting or setting a specific socket's value, as
well as querying or modifying the state of its update flag.
The setters will check whether the value has changed and tag the socket
as modified appropriately. This will let us know how a Node has changed
and what to update, which is the first concrete step toward a more
granular scene update system.
Since the setters will tag the Node sockets as modified when passed
different data, this patch also removes the various modified methods
on Nodes in favor of Node::is_modified which checks the sockets'
update flags status.
Reviewed By: brecht
Maniphest Tasks: T79174
Differential Revision: https://developer.blender.org/D8544
Diffstat (limited to 'intern/cycles/render/camera.cpp')
-rw-r--r-- | intern/cycles/render/camera.cpp | 76 |
1 files changed, 40 insertions, 36 deletions
diff --git a/intern/cycles/render/camera.cpp b/intern/cycles/render/camera.cpp index 0f2befae320..92cf712d32a 100644 --- a/intern/cycles/render/camera.cpp +++ b/intern/cycles/render/camera.cpp @@ -98,7 +98,7 @@ NODE_DEFINE(Camera) type_enum.insert("perspective", CAMERA_PERSPECTIVE); type_enum.insert("orthograph", CAMERA_ORTHOGRAPHIC); type_enum.insert("panorama", CAMERA_PANORAMA); - SOCKET_ENUM(type, "Type", type_enum, CAMERA_PERSPECTIVE); + SOCKET_ENUM(camera_type, "Type", type_enum, CAMERA_PERSPECTIVE); static NodeEnum panorama_type_enum; panorama_type_enum.insert("equirectangular", PANORAMA_EQUIRECTANGULAR); @@ -148,8 +148,18 @@ NODE_DEFINE(Camera) SOCKET_FLOAT(border.bottom, "Border Bottom", 0); SOCKET_FLOAT(border.top, "Border Top", 0); + SOCKET_FLOAT(viewport_camera_border.left, "Viewport Border Left", 0); + SOCKET_FLOAT(viewport_camera_border.right, "Viewport Border Right", 0); + SOCKET_FLOAT(viewport_camera_border.bottom, "Viewport Border Bottom", 0); + SOCKET_FLOAT(viewport_camera_border.top, "Viewport Border Top", 0); + SOCKET_FLOAT(offscreen_dicing_scale, "Offscreen Dicing Scale", 1.0f); + SOCKET_INT(full_width, "Full Width", 1024); + SOCKET_INT(full_height, "Full Height", 512); + + SOCKET_BOOLEAN(use_perspective_motion, "Use Perspective Motion", false); + return type; } @@ -182,7 +192,6 @@ Camera::Camera() : Node(node_type) dx = make_float3(0.0f, 0.0f, 0.0f); dy = make_float3(0.0f, 0.0f, 0.0f); - need_update = true; need_device_update = true; need_flags_update = true; previous_need_motion = -1; @@ -196,7 +205,7 @@ Camera::~Camera() void Camera::compute_auto_viewplane() { - if (type == CAMERA_PANORAMA) { + if (camera_type == CAMERA_PANORAMA) { viewplane.left = 0.0f; viewplane.right = 1.0f; viewplane.bottom = 0.0f; @@ -230,7 +239,7 @@ void Camera::update(Scene *scene) need_device_update = true; } - if (!need_update) + if (!is_modified()) return; scoped_callback_timer timer([scene](double time) { @@ -257,9 +266,9 @@ void Camera::update(Scene *scene) /* screen to camera */ ProjectionTransform cameratoscreen; - if (type == CAMERA_PERSPECTIVE) + if (camera_type == CAMERA_PERSPECTIVE) cameratoscreen = projection_perspective(fov, nearclip, farclip); - else if (type == CAMERA_ORTHOGRAPHIC) + else if (camera_type == CAMERA_ORTHOGRAPHIC) cameratoscreen = projection_orthographic(nearclip, farclip); else cameratoscreen = projection_identity(); @@ -284,13 +293,13 @@ void Camera::update(Scene *scene) worldtoraster = ndctoraster * worldtondc; /* differentials */ - if (type == CAMERA_ORTHOGRAPHIC) { + if (camera_type == CAMERA_ORTHOGRAPHIC) { dx = transform_perspective_direction(&rastertocamera, make_float3(1, 0, 0)); dy = transform_perspective_direction(&rastertocamera, make_float3(0, 1, 0)); full_dx = transform_perspective_direction(&full_rastertocamera, make_float3(1, 0, 0)); full_dy = transform_perspective_direction(&full_rastertocamera, make_float3(0, 1, 0)); } - else if (type == CAMERA_PERSPECTIVE) { + else if (camera_type == CAMERA_PERSPECTIVE) { dx = transform_perspective(&rastertocamera, make_float3(1, 0, 0)) - transform_perspective(&rastertocamera, make_float3(0, 0, 0)); dy = transform_perspective(&rastertocamera, make_float3(0, 1, 0)) - @@ -310,7 +319,7 @@ void Camera::update(Scene *scene) full_dx = transform_direction(&cameratoworld, full_dx); full_dy = transform_direction(&cameratoworld, full_dy); - if (type == CAMERA_PERSPECTIVE) { + if (camera_type == CAMERA_PERSPECTIVE) { float3 v = transform_perspective(&full_rastertocamera, make_float3(full_width, full_height, 1.0f)); frustum_right_normal = normalize(make_float3(v.z, 0.0f, -v.x)); @@ -348,7 +357,7 @@ void Camera::update(Scene *scene) if (need_motion == Scene::MOTION_PASS) { /* TODO(sergey): Support perspective (zoom, fov) motion. */ - if (type == CAMERA_PANORAMA) { + if (camera_type == CAMERA_PANORAMA) { if (have_motion) { kcam->motion_pass_pre = transform_inverse(motion[0]); kcam->motion_pass_post = transform_inverse(motion[motion.size() - 1]); @@ -377,7 +386,7 @@ void Camera::update(Scene *scene) } /* TODO(sergey): Support other types of camera. */ - if (use_perspective_motion && type == CAMERA_PERSPECTIVE) { + if (use_perspective_motion && camera_type == CAMERA_PERSPECTIVE) { /* TODO(sergey): Move to an utility function and de-duplicate with * calculation above. */ @@ -402,7 +411,7 @@ void Camera::update(Scene *scene) kcam->shuttertime = (need_motion == Scene::MOTION_BLUR) ? shuttertime : -1.0f; /* type */ - kcam->type = type; + kcam->type = camera_type; /* anamorphic lens bokeh */ kcam->inv_aperture_ratio = 1.0f / aperture_ratio; @@ -464,7 +473,7 @@ void Camera::update(Scene *scene) kcam->rolling_shutter_duration = rolling_shutter_duration; /* Set further update flags */ - need_update = false; + clear_modified(); need_device_update = true; need_flags_update = true; previous_need_motion = need_motion; @@ -527,7 +536,7 @@ void Camera::device_update_volume(Device * /*device*/, DeviceScene *dscene, Scen [&](const blocked_range<size_t> &r) { for (size_t i = r.begin(); i != r.end(); i++) { Object *object = scene->objects[i]; - if (object->geometry->has_volume && + if (object->get_geometry()->has_volume && viewplane_boundbox.intersects(object->bounds)) { /* TODO(sergey): Consider adding more grained check. */ VLOG(1) << "Detected camera inside volume."; @@ -553,25 +562,10 @@ void Camera::device_free(Device * /*device*/, DeviceScene *dscene, Scene *scene) dscene->camera_motion.free(); } -bool Camera::modified(const Camera &cam) -{ - return !Node::equals(cam); -} - -bool Camera::motion_modified(const Camera &cam) -{ - return !((motion == cam.motion) && (use_perspective_motion == cam.use_perspective_motion)); -} - -void Camera::tag_update() -{ - need_update = true; -} - float3 Camera::transform_raster_to_world(float raster_x, float raster_y) { float3 D, P; - if (type == CAMERA_PERSPECTIVE) { + if (camera_type == CAMERA_PERSPECTIVE) { D = transform_perspective(&rastertocamera, make_float3(raster_x, raster_y, 0.0f)); float3 Pclip = normalize(D); P = make_float3(0.0f, 0.0f, 0.0f); @@ -584,7 +578,7 @@ float3 Camera::transform_raster_to_world(float raster_x, float raster_y) */ P += nearclip * D / Pclip.z; } - else if (type == CAMERA_ORTHOGRAPHIC) { + else if (camera_type == CAMERA_ORTHOGRAPHIC) { D = make_float3(0.0f, 0.0f, 1.0f); /* TODO(sergey): Aperture support? */ P = transform_perspective(&rastertocamera, make_float3(raster_x, raster_y, 0.0f)); @@ -603,7 +597,7 @@ BoundBox Camera::viewplane_bounds_get() * checks we need in a more clear and smart fashion? */ BoundBox bounds = BoundBox::empty; - if (type == CAMERA_PANORAMA) { + if (camera_type == CAMERA_PANORAMA) { if (use_spherical_stereo == false) { bounds.grow(make_float3(cameratoworld.x.w, cameratoworld.y.w, cameratoworld.z.w)); } @@ -628,7 +622,7 @@ BoundBox Camera::viewplane_bounds_get() bounds.grow(transform_raster_to_world(0.0f, (float)height)); bounds.grow(transform_raster_to_world((float)width, (float)height)); bounds.grow(transform_raster_to_world((float)width, 0.0f)); - if (type == CAMERA_PERSPECTIVE) { + if (camera_type == CAMERA_PERSPECTIVE) { /* Center point has the most distance in local Z axis, * use it to construct bounding box/ */ @@ -642,7 +636,7 @@ float Camera::world_to_raster_size(float3 P) { float res = 1.0f; - if (type == CAMERA_ORTHOGRAPHIC) { + if (camera_type == CAMERA_ORTHOGRAPHIC) { res = min(len(full_dx), len(full_dy)); if (offscreen_dicing_scale > 1.0f) { @@ -668,7 +662,7 @@ float Camera::world_to_raster_size(float3 P) } } } - else if (type == CAMERA_PERSPECTIVE) { + else if (camera_type == CAMERA_PERSPECTIVE) { /* Calculate as if point is directly ahead of the camera. */ float3 raster = make_float3(0.5f * full_width, 0.5f * full_height, 0.0f); float3 Pcamera = transform_perspective(&full_rastertocamera, raster); @@ -743,7 +737,7 @@ float Camera::world_to_raster_size(float3 P) } } } - else if (type == CAMERA_PANORAMA) { + else if (camera_type == CAMERA_PANORAMA) { float3 D = transform_point(&worldtocamera, P); float dist = len(D); @@ -794,6 +788,16 @@ bool Camera::use_motion() const return motion.size() > 1; } +void Camera::set_screen_size_and_resolution(int width_, int height_, int resolution_) +{ + if (width_ != width || height_ != height || resolution_ != resolution) { + width = width_; + height = height_; + resolution = resolution_; + tag_modified(); + } +} + float Camera::motion_time(int step) const { return (use_motion()) ? 2.0f * step / (motion.size() - 1) - 1.0f : 0.0f; |