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test2/source/blender/blenlib/intern/uvproject.c
Sergey Sharybin c1bc70b711 Cleanup: Add a copyright notice to files and use SPDX format 
A lot of files were missing copyright field in the header and
the Blender Foundation contributed to them in a sense of bug
fixing and general maintenance.

This change makes it explicit that those files are at least
partially copyrighted by the Blender Foundation.

Note that this does not make it so the Blender Foundation is
the only holder of the copyright in those files, and developers
who do not have a signed contract with the foundation still
hold the copyright as well.

Another aspect of this change is using SPDX format for the
header. We already used it for the license specification,
and now we state it for the copyright as well, following the
FAQ:

    https://reuse.software/faq/
2023-05-31 16:19:06 +02:00

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/* SPDX-FileCopyrightText: 2023 Blender Foundation
*
* SPDX-License-Identifier: GPL-2.0-or-later */
/** \file
* \ingroup bli
*/
#include <math.h>
#include "MEM_guardedalloc.h"
#include "DNA_camera_types.h"
#include "DNA_object_types.h"
#include "BLI_math.h"
#include "BLI_uvproject.h"
typedef struct ProjCameraInfo {
float camangle;
float camsize;
float xasp, yasp;
float shiftx, shifty;
float rotmat[4][4];
float caminv[4][4];
bool do_persp, do_pano, do_rotmat;
} ProjCameraInfo;
void BLI_uvproject_from_camera(float target[2], float source[3], ProjCameraInfo *uci)
{
float pv4[4];
copy_v3_v3(pv4, source);
pv4[3] = 1.0;
/* rotmat is the object matrix in this case */
if (uci->do_rotmat) {
mul_m4_v4(uci->rotmat, pv4);
}
/* caminv is the inverse camera matrix */
mul_m4_v4(uci->caminv, pv4);
if (uci->do_pano) {
float angle = atan2f(pv4[0], -pv4[2]) / ((float)M_PI * 2.0f); /* angle around the camera */
if (uci->do_persp == false) {
target[0] = angle; /* no correct method here, just map to 0-1 */
target[1] = pv4[1] / uci->camsize;
}
else {
float vec2d[2]; /* 2D position from the camera */
vec2d[0] = pv4[0];
vec2d[1] = pv4[2];
target[0] = angle * ((float)M_PI / uci->camangle);
target[1] = pv4[1] / (len_v2(vec2d) * (uci->camsize * 2.0f));
}
}
else {
if (pv4[2] == 0.0f) {
pv4[2] = 0.00001f; /* don't allow div by 0 */
}
if (uci->do_persp == false) {
target[0] = (pv4[0] / uci->camsize);
target[1] = (pv4[1] / uci->camsize);
}
else {
target[0] = (-pv4[0] * ((1.0f / uci->camsize) / pv4[2])) / 2.0f;
target[1] = (-pv4[1] * ((1.0f / uci->camsize) / pv4[2])) / 2.0f;
}
}
target[0] *= uci->xasp;
target[1] *= uci->yasp;
/* adds camera shift + 0.5 */
target[0] += uci->shiftx;
target[1] += uci->shifty;
}
void BLI_uvproject_from_view(float target[2],
float source[3],
float persmat[4][4],
float rotmat[4][4],
float winx,
float winy)
{
float pv4[4], x = 0.0, y = 0.0;
copy_v3_v3(pv4, source);
pv4[3] = 1.0;
/* rotmat is the object matrix in this case */
mul_m4_v4(rotmat, pv4);
/* almost ED_view3d_project_short */
mul_m4_v4(persmat, pv4);
if (fabsf(pv4[3]) > 0.00001f) { /* avoid division by zero */
target[0] = winx / 2.0f + (winx / 2.0f) * pv4[0] / pv4[3];
target[1] = winy / 2.0f + (winy / 2.0f) * pv4[1] / pv4[3];
}
else {
/* scaling is lost but give a valid result */
target[0] = winx / 2.0f + (winx / 2.0f) * pv4[0];
target[1] = winy / 2.0f + (winy / 2.0f) * pv4[1];
}
/* v3d->persmat seems to do this funky scaling */
if (winx > winy) {
y = (winx - winy) / 2.0f;
winy = winx;
}
else {
x = (winy - winx) / 2.0f;
winx = winy;
}
target[0] = (x + target[0]) / winx;
target[1] = (y + target[1]) / winy;
}
ProjCameraInfo *BLI_uvproject_camera_info(Object *ob, float rotmat[4][4], float winx, float winy)
{
ProjCameraInfo uci;
Camera *camera = ob->data;
uci.do_pano = (camera->type == CAM_PANO);
uci.do_persp = (camera->type == CAM_PERSP);
uci.camangle = focallength_to_fov(camera->lens, camera->sensor_x) / 2.0f;
uci.camsize = uci.do_persp ? tanf(uci.camangle) : camera->ortho_scale;
/* account for scaled cameras */
copy_m4_m4(uci.caminv, ob->object_to_world);
normalize_m4(uci.caminv);
if (invert_m4(uci.caminv)) {
ProjCameraInfo *uci_pt;
/* normal projection */
if (rotmat) {
copy_m4_m4(uci.rotmat, rotmat);
uci.do_rotmat = true;
}
else {
uci.do_rotmat = false;
}
/* also make aspect ratio adjustment factors */
if (winx > winy) {
uci.xasp = 1.0f;
uci.yasp = winx / winy;
}
else {
uci.xasp = winy / winx;
uci.yasp = 1.0f;
}
/* include 0.5f here to move the UVs into the center */
uci.shiftx = 0.5f - (camera->shiftx * uci.xasp);
uci.shifty = 0.5f - (camera->shifty * uci.yasp);
uci_pt = MEM_mallocN(sizeof(ProjCameraInfo), "ProjCameraInfo");
*uci_pt = uci;
return uci_pt;
}
return NULL;
}
void BLI_uvproject_from_view_ortho(float target[2], float source[3], const float rotmat[4][4])
{
float pv[3];
mul_v3_m4v3(pv, rotmat, source);
/* ortho projection */
target[0] = -pv[0];
target[1] = pv[2];
}
void BLI_uvproject_camera_info_scale(ProjCameraInfo *uci, float scale_x, float scale_y)
{
uci->xasp *= scale_x;
uci->yasp *= scale_y;
}
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