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ClangFormat: apply to source, most of intern

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Apply clang format as proposed in T53211.

For details on usage and instructions for migrating branches
without conflicts, see:

https://wiki.blender.org/wiki/Tools/ClangFormat
This commit is contained in:
Campbell Barton
2019-04-17 06:17:24 +02:00
parent b3dabc200a
commit e12c08e8d1
4481 changed files with 1230080 additions and 1155401 deletions
Download Patch File Download Diff File Expand all files Collapse all files

427
source/blender/compositor/operations/COM_KeyingScreenOperation.cpp
View File

@@ -25,306 +25,313 @@
#include "BLI_math_color.h"
extern "C" {
# include "BKE_movieclip.h"
# include "BKE_tracking.h"
#include "BKE_movieclip.h"
#include "BKE_tracking.h"
# include "IMB_imbuf.h"
# include "IMB_imbuf_types.h"
#include "IMB_imbuf.h"
#include "IMB_imbuf_types.h"
}
KeyingScreenOperation::KeyingScreenOperation() : NodeOperation()
{
this->addOutputSocket(COM_DT_COLOR);
this->m_movieClip = NULL;
this->m_framenumber = 0;
this->m_trackingObject[0] = 0;
setComplex(true);
this->addOutputSocket(COM_DT_COLOR);
this->m_movieClip = NULL;
this->m_framenumber = 0;
this->m_trackingObject[0] = 0;
setComplex(true);
}
void KeyingScreenOperation::initExecution()
{
initMutex();
this->m_cachedTriangulation = NULL;
initMutex();
this->m_cachedTriangulation = NULL;
}
void KeyingScreenOperation::deinitExecution()
{
if (this->m_cachedTriangulation) {
TriangulationData *triangulation = this->m_cachedTriangulation;
if (this->m_cachedTriangulation) {
TriangulationData *triangulation = this->m_cachedTriangulation;
if (triangulation->triangulated_points)
MEM_freeN(triangulation->triangulated_points);
if (triangulation->triangulated_points)
MEM_freeN(triangulation->triangulated_points);
if (triangulation->triangles)
MEM_freeN(triangulation->triangles);
if (triangulation->triangles)
MEM_freeN(triangulation->triangles);
if (triangulation->triangles_AABB)
MEM_freeN(triangulation->triangles_AABB);
if (triangulation->triangles_AABB)
MEM_freeN(triangulation->triangles_AABB);
MEM_freeN(this->m_cachedTriangulation);
MEM_freeN(this->m_cachedTriangulation);
this->m_cachedTriangulation = NULL;
}
this->m_cachedTriangulation = NULL;
}
}
KeyingScreenOperation::TriangulationData *KeyingScreenOperation::buildVoronoiTriangulation()
{
MovieClipUser user = {0};
TriangulationData *triangulation;
MovieTracking *tracking = &this->m_movieClip->tracking;
MovieTrackingTrack *track;
VoronoiSite *sites, *site;
ImBuf *ibuf;
ListBase *tracksbase;
ListBase edges = {NULL, NULL};
int sites_total;
int i;
int width = this->getWidth();
int height = this->getHeight();
int clip_frame = BKE_movieclip_remap_scene_to_clip_frame(this->m_movieClip, this->m_framenumber);
MovieClipUser user = {0};
TriangulationData *triangulation;
MovieTracking *tracking = &this->m_movieClip->tracking;
MovieTrackingTrack *track;
VoronoiSite *sites, *site;
ImBuf *ibuf;
ListBase *tracksbase;
ListBase edges = {NULL, NULL};
int sites_total;
int i;
int width = this->getWidth();
int height = this->getHeight();
int clip_frame = BKE_movieclip_remap_scene_to_clip_frame(this->m_movieClip, this->m_framenumber);
if (this->m_trackingObject[0]) {
MovieTrackingObject *object = BKE_tracking_object_get_named(tracking, this->m_trackingObject);
if (this->m_trackingObject[0]) {
MovieTrackingObject *object = BKE_tracking_object_get_named(tracking, this->m_trackingObject);
if (!object)
return NULL;
if (!object)
return NULL;
tracksbase = BKE_tracking_object_get_tracks(tracking, object);
}
else
tracksbase = BKE_tracking_get_active_tracks(tracking);
tracksbase = BKE_tracking_object_get_tracks(tracking, object);
}
else
tracksbase = BKE_tracking_get_active_tracks(tracking);
/* count sites */
for (track = (MovieTrackingTrack *) tracksbase->first, sites_total = 0; track; track = track->next) {
MovieTrackingMarker *marker = BKE_tracking_marker_get(track, clip_frame);
float pos[2];
/* count sites */
for (track = (MovieTrackingTrack *)tracksbase->first, sites_total = 0; track;
track = track->next) {
MovieTrackingMarker *marker = BKE_tracking_marker_get(track, clip_frame);
float pos[2];
if (marker->flag & MARKER_DISABLED)
continue;
if (marker->flag & MARKER_DISABLED)
continue;
add_v2_v2v2(pos, marker->pos, track->offset);
add_v2_v2v2(pos, marker->pos, track->offset);
if (!IN_RANGE_INCL(pos[0], 0.0f, 1.0f) ||
!IN_RANGE_INCL(pos[1], 0.0f, 1.0f))
{
continue;
}
if (!IN_RANGE_INCL(pos[0], 0.0f, 1.0f) || !IN_RANGE_INCL(pos[1], 0.0f, 1.0f)) {
continue;
}
sites_total++;
}
sites_total++;
}
if (!sites_total)
return NULL;
if (!sites_total)
return NULL;
BKE_movieclip_user_set_frame(&user, clip_frame);
ibuf = BKE_movieclip_get_ibuf(this->m_movieClip, &user);
BKE_movieclip_user_set_frame(&user, clip_frame);
ibuf = BKE_movieclip_get_ibuf(this->m_movieClip, &user);
if (!ibuf)
return NULL;
if (!ibuf)
return NULL;
triangulation = (TriangulationData *) MEM_callocN(sizeof(TriangulationData), "keying screen triangulation data");
triangulation = (TriangulationData *)MEM_callocN(sizeof(TriangulationData),
"keying screen triangulation data");
sites = (VoronoiSite *) MEM_callocN(sizeof(VoronoiSite) * sites_total, "keyingscreen voronoi sites");
track = (MovieTrackingTrack *) tracksbase->first;
for (track = (MovieTrackingTrack *) tracksbase->first, site = sites; track; track = track->next) {
MovieTrackingMarker *marker = BKE_tracking_marker_get(track, clip_frame);
ImBuf *pattern_ibuf;
int j;
float pos[2];
sites = (VoronoiSite *)MEM_callocN(sizeof(VoronoiSite) * sites_total,
"keyingscreen voronoi sites");
track = (MovieTrackingTrack *)tracksbase->first;
for (track = (MovieTrackingTrack *)tracksbase->first, site = sites; track; track = track->next) {
MovieTrackingMarker *marker = BKE_tracking_marker_get(track, clip_frame);
ImBuf *pattern_ibuf;
int j;
float pos[2];
if (marker->flag & MARKER_DISABLED)
continue;
if (marker->flag & MARKER_DISABLED)
continue;
add_v2_v2v2(pos, marker->pos, track->offset);
add_v2_v2v2(pos, marker->pos, track->offset);
if (!IN_RANGE_INCL(pos[0], 0.0f, 1.0f) ||
!IN_RANGE_INCL(pos[1], 0.0f, 1.0f))
{
continue;
}
if (!IN_RANGE_INCL(pos[0], 0.0f, 1.0f) || !IN_RANGE_INCL(pos[1], 0.0f, 1.0f)) {
continue;
}
pattern_ibuf = BKE_tracking_get_pattern_imbuf(ibuf, track, marker, true, false);
pattern_ibuf = BKE_tracking_get_pattern_imbuf(ibuf, track, marker, true, false);
zero_v3(site->color);
zero_v3(site->color);
if (pattern_ibuf) {
for (j = 0; j < pattern_ibuf->x * pattern_ibuf->y; j++) {
if (pattern_ibuf->rect_float) {
add_v3_v3(site->color, &pattern_ibuf->rect_float[4 * j]);
}
else {
unsigned char *rrgb = (unsigned char *)pattern_ibuf->rect;
if (pattern_ibuf) {
for (j = 0; j < pattern_ibuf->x * pattern_ibuf->y; j++) {
if (pattern_ibuf->rect_float) {
add_v3_v3(site->color, &pattern_ibuf->rect_float[4 * j]);
}
else {
unsigned char *rrgb = (unsigned char *)pattern_ibuf->rect;
site->color[0] += srgb_to_linearrgb((float)rrgb[4 * j + 0] / 255.0f);
site->color[1] += srgb_to_linearrgb((float)rrgb[4 * j + 1] / 255.0f);
site->color[2] += srgb_to_linearrgb((float)rrgb[4 * j + 2] / 255.0f);
}
}
site->color[0] += srgb_to_linearrgb((float)rrgb[4 * j + 0] / 255.0f);
site->color[1] += srgb_to_linearrgb((float)rrgb[4 * j + 1] / 255.0f);
site->color[2] += srgb_to_linearrgb((float)rrgb[4 * j + 2] / 255.0f);
}
}
mul_v3_fl(site->color, 1.0f / (pattern_ibuf->x * pattern_ibuf->y));
IMB_freeImBuf(pattern_ibuf);
}
mul_v3_fl(site->color, 1.0f / (pattern_ibuf->x * pattern_ibuf->y));
IMB_freeImBuf(pattern_ibuf);
}
site->co[0] = pos[0] * width;
site->co[1] = pos[1] * height;
site->co[0] = pos[0] * width;
site->co[1] = pos[1] * height;
site++;
}
site++;
}
IMB_freeImBuf(ibuf);
IMB_freeImBuf(ibuf);
BLI_voronoi_compute(sites, sites_total, width, height, &edges);
BLI_voronoi_compute(sites, sites_total, width, height, &edges);
BLI_voronoi_triangulate(sites, sites_total, &edges, width, height,
&triangulation->triangulated_points, &triangulation->triangulated_points_total,
&triangulation->triangles, &triangulation->triangles_total);
BLI_voronoi_triangulate(sites,
sites_total,
&edges,
width,
height,
&triangulation->triangulated_points,
&triangulation->triangulated_points_total,
&triangulation->triangles,
&triangulation->triangles_total);
MEM_freeN(sites);
BLI_freelistN(&edges);
MEM_freeN(sites);
BLI_freelistN(&edges);
if (triangulation->triangles_total) {
rcti *rect;
rect = triangulation->triangles_AABB =
(rcti *) MEM_callocN(sizeof(rcti) * triangulation->triangles_total, "voronoi triangulation AABB");
if (triangulation->triangles_total) {
rcti *rect;
rect = triangulation->triangles_AABB = (rcti *)MEM_callocN(
sizeof(rcti) * triangulation->triangles_total, "voronoi triangulation AABB");
for (i = 0; i < triangulation->triangles_total; i++, rect++) {
int *triangle = triangulation->triangles[i];
VoronoiTriangulationPoint *a = &triangulation->triangulated_points[triangle[0]],
*b = &triangulation->triangulated_points[triangle[1]],
*c = &triangulation->triangulated_points[triangle[2]];
for (i = 0; i < triangulation->triangles_total; i++, rect++) {
int *triangle = triangulation->triangles[i];
VoronoiTriangulationPoint *a = &triangulation->triangulated_points[triangle[0]],
*b = &triangulation->triangulated_points[triangle[1]],
*c = &triangulation->triangulated_points[triangle[2]];
float min[2], max[2];
float min[2], max[2];
INIT_MINMAX2(min, max);
INIT_MINMAX2(min, max);
minmax_v2v2_v2(min, max, a->co);
minmax_v2v2_v2(min, max, b->co);
minmax_v2v2_v2(min, max, c->co);
minmax_v2v2_v2(min, max, a->co);
minmax_v2v2_v2(min, max, b->co);
minmax_v2v2_v2(min, max, c->co);
rect->xmin = (int)min[0];
rect->ymin = (int)min[1];
rect->xmin = (int)min[0];
rect->ymin = (int)min[1];
rect->xmax = (int)max[0] + 1;
rect->ymax = (int)max[1] + 1;
}
}
rect->xmax = (int)max[0] + 1;
rect->ymax = (int)max[1] + 1;
}
}
return triangulation;
return triangulation;
}
void *KeyingScreenOperation::initializeTileData(rcti *rect)
{
TileData *tile_data;
TriangulationData *triangulation;
int triangles_allocated = 0;
int chunk_size = 20;
int i;
TileData *tile_data;
TriangulationData *triangulation;
int triangles_allocated = 0;
int chunk_size = 20;
int i;
if (this->m_movieClip == NULL)
return NULL;
if (this->m_movieClip == NULL)
return NULL;
if (!this->m_cachedTriangulation) {
lockMutex();
if (this->m_cachedTriangulation == NULL) {
this->m_cachedTriangulation = buildVoronoiTriangulation();
}
unlockMutex();
}
if (!this->m_cachedTriangulation) {
lockMutex();
if (this->m_cachedTriangulation == NULL) {
this->m_cachedTriangulation = buildVoronoiTriangulation();
}
unlockMutex();
}
triangulation = this->m_cachedTriangulation;
triangulation = this->m_cachedTriangulation;
if (!triangulation)
return NULL;
if (!triangulation)
return NULL;
tile_data = (TileData *) MEM_callocN(sizeof(TileData), "keying screen tile data");
tile_data = (TileData *)MEM_callocN(sizeof(TileData), "keying screen tile data");
for (i = 0; i < triangulation->triangles_total; i++) {
if (BLI_rcti_isect(rect, &triangulation->triangles_AABB[i], NULL)) {
tile_data->triangles_total++;
for (i = 0; i < triangulation->triangles_total; i++) {
if (BLI_rcti_isect(rect, &triangulation->triangles_AABB[i], NULL)) {
tile_data->triangles_total++;
if (tile_data->triangles_total > triangles_allocated) {
if (!tile_data->triangles) {
tile_data->triangles = (int *) MEM_mallocN(sizeof(int) * chunk_size,
"keying screen tile triangles chunk");
}
else {
tile_data->triangles = (int *) MEM_reallocN(tile_data->triangles,
sizeof(int) * (triangles_allocated + chunk_size));
}
if (tile_data->triangles_total > triangles_allocated) {
if (!tile_data->triangles) {
tile_data->triangles = (int *)MEM_mallocN(sizeof(int) * chunk_size,
"keying screen tile triangles chunk");
}
else {
tile_data->triangles = (int *)MEM_reallocN(
tile_data->triangles, sizeof(int) * (triangles_allocated + chunk_size));
}
triangles_allocated += chunk_size;
}
triangles_allocated += chunk_size;
}
tile_data->triangles[tile_data->triangles_total - 1] = i;
}
}
tile_data->triangles[tile_data->triangles_total - 1] = i;
}
}
return tile_data;
return tile_data;
}
void KeyingScreenOperation::deinitializeTileData(rcti * /*rect*/, void *data)
{
TileData *tile_data = (TileData *) data;
TileData *tile_data = (TileData *)data;
if (tile_data->triangles) {
MEM_freeN(tile_data->triangles);
}
if (tile_data->triangles) {
MEM_freeN(tile_data->triangles);
}
MEM_freeN(tile_data);
MEM_freeN(tile_data);
}
void KeyingScreenOperation::determineResolution(unsigned int resolution[2], unsigned int /*preferredResolution*/[2])
void KeyingScreenOperation::determineResolution(unsigned int resolution[2],
unsigned int /*preferredResolution*/[2])
{
resolution[0] = 0;
resolution[1] = 0;
resolution[0] = 0;
resolution[1] = 0;
if (this->m_movieClip) {
MovieClipUser user = {0};
int width, height;
int clip_frame = BKE_movieclip_remap_scene_to_clip_frame(this->m_movieClip, this->m_framenumber);
if (this->m_movieClip) {
MovieClipUser user = {0};
int width, height;
int clip_frame = BKE_movieclip_remap_scene_to_clip_frame(this->m_movieClip,
this->m_framenumber);
BKE_movieclip_user_set_frame(&user, clip_frame);
BKE_movieclip_get_size(this->m_movieClip, &user, &width, &height);
BKE_movieclip_user_set_frame(&user, clip_frame);
BKE_movieclip_get_size(this->m_movieClip, &user, &width, &height);
resolution[0] = width;
resolution[1] = height;
}
resolution[0] = width;
resolution[1] = height;
}
}
void KeyingScreenOperation::executePixel(float output[4], int x, int y, void *data)
{
output[0] = 0.0f;
output[1] = 0.0f;
output[2] = 0.0f;
output[3] = 1.0f;
output[0] = 0.0f;
output[1] = 0.0f;
output[2] = 0.0f;
output[3] = 1.0f;
if (this->m_movieClip && data) {
TriangulationData *triangulation = this->m_cachedTriangulation;
TileData *tile_data = (TileData *) data;
int i;
float co[2] = {(float) x, (float) y};
if (this->m_movieClip && data) {
TriangulationData *triangulation = this->m_cachedTriangulation;
TileData *tile_data = (TileData *)data;
int i;
float co[2] = {(float)x, (float)y};
for (i = 0; i < tile_data->triangles_total; i++) {
int triangle_idx = tile_data->triangles[i];
rcti *rect = &triangulation->triangles_AABB[triangle_idx];
for (i = 0; i < tile_data->triangles_total; i++) {
int triangle_idx = tile_data->triangles[i];
rcti *rect = &triangulation->triangles_AABB[triangle_idx];
if (IN_RANGE_INCL(x, rect->xmin, rect->xmax) && IN_RANGE_INCL(y, rect->ymin, rect->ymax)) {
int *triangle = triangulation->triangles[triangle_idx];
VoronoiTriangulationPoint *a = &triangulation->triangulated_points[triangle[0]],
*b = &triangulation->triangulated_points[triangle[1]],
*c = &triangulation->triangulated_points[triangle[2]];
float w[3];
if (IN_RANGE_INCL(x, rect->xmin, rect->xmax) && IN_RANGE_INCL(y, rect->ymin, rect->ymax)) {
int *triangle = triangulation->triangles[triangle_idx];
VoronoiTriangulationPoint *a = &triangulation->triangulated_points[triangle[0]],
*b = &triangulation->triangulated_points[triangle[1]],
*c = &triangulation->triangulated_points[triangle[2]];
float w[3];
if (barycentric_coords_v2(a->co, b->co, c->co, co, w)) {
if (barycentric_inside_triangle_v2(w)) {
output[0] = a->color[0] * w[0] + b->color[0] * w[1] + c->color[0] * w[2];
output[1] = a->color[1] * w[0] + b->color[1] * w[1] + c->color[1] * w[2];
output[2] = a->color[2] * w[0] + b->color[2] * w[1] + c->color[2] * w[2];
if (barycentric_coords_v2(a->co, b->co, c->co, co, w)) {
if (barycentric_inside_triangle_v2(w)) {
output[0] = a->color[0] * w[0] + b->color[0] * w[1] + c->color[0] * w[2];
output[1] = a->color[1] * w[0] + b->color[1] * w[1] + c->color[1] * w[2];
output[2] = a->color[2] * w[0] + b->color[2] * w[1] + c->color[2] * w[2];
break;
}
}
}
}
}
break;
}
}
}
}
}
}