blender/extern/carve/patches/strict_flags.patch

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diff -r e82d852e4fb0 lib/csg_collector.cpp
--- a/lib/csg_collector.cpp Wed Jan 15 13:16:14 2014 +1100
+++ b/lib/csg_collector.cpp Mon Jan 27 17:01:46 2014 +0600
@@ -21,6 +21,7 @@
#include <carve/csg.hpp>
#include <iostream>
+#include "csg_collector.hpp"
#include "intersect_debug.hpp"
#if defined(CARVE_DEBUG_WRITE_PLY_DATA)
diff -r e82d852e4fb0 lib/face.cpp
--- a/lib/face.cpp Wed Jan 15 13:16:14 2014 +1100
+++ b/lib/face.cpp Mon Jan 27 17:01:46 2014 +0600
@@ -21,61 +21,69 @@
#include <carve/poly.hpp>
-double CALC_X(const carve::geom::plane<3> &p, double y, double z) { return -(p.d + p.N.y * y + p.N.z * z) / p.N.x; }
-double CALC_Y(const carve::geom::plane<3> &p, double x, double z) { return -(p.d + p.N.x * x + p.N.z * z) / p.N.y; }
-double CALC_Z(const carve::geom::plane<3> &p, double x, double y) { return -(p.d + p.N.x * x + p.N.y * y) / p.N.z; }
+namespace {
+
+ double CALC_X(const carve::geom::plane<3> &p, double y, double z) { return -(p.d + p.N.y * y + p.N.z * z) / p.N.x; }
+ double CALC_Y(const carve::geom::plane<3> &p, double x, double z) { return -(p.d + p.N.x * x + p.N.z * z) / p.N.y; }
+ double CALC_Z(const carve::geom::plane<3> &p, double x, double y) { return -(p.d + p.N.x * x + p.N.y * y) / p.N.z; }
+
+} // namespace
namespace carve {
namespace poly {
- carve::geom2d::P2 _project_1(const carve::geom3d::Vector &v) {
- return carve::geom::VECTOR(v.z, v.y);
- }
+ namespace {
- carve::geom2d::P2 _project_2(const carve::geom3d::Vector &v) {
- return carve::geom::VECTOR(v.x, v.z);
- }
+ carve::geom2d::P2 _project_1(const carve::geom3d::Vector &v) {
+ return carve::geom::VECTOR(v.z, v.y);
+ }
- carve::geom2d::P2 _project_3(const carve::geom3d::Vector &v) {
- return carve::geom::VECTOR(v.y, v.x);
- }
+ carve::geom2d::P2 _project_2(const carve::geom3d::Vector &v) {
+ return carve::geom::VECTOR(v.x, v.z);
+ }
- carve::geom2d::P2 _project_4(const carve::geom3d::Vector &v) {
- return carve::geom::VECTOR(v.y, v.z);
- }
+ carve::geom2d::P2 _project_3(const carve::geom3d::Vector &v) {
+ return carve::geom::VECTOR(v.y, v.x);
+ }
- carve::geom2d::P2 _project_5(const carve::geom3d::Vector &v) {
- return carve::geom::VECTOR(v.z, v.x);
- }
+ carve::geom2d::P2 _project_4(const carve::geom3d::Vector &v) {
+ return carve::geom::VECTOR(v.y, v.z);
+ }
- carve::geom2d::P2 _project_6(const carve::geom3d::Vector &v) {
- return carve::geom::VECTOR(v.x, v.y);
- }
+ carve::geom2d::P2 _project_5(const carve::geom3d::Vector &v) {
+ return carve::geom::VECTOR(v.z, v.x);
+ }
+ carve::geom2d::P2 _project_6(const carve::geom3d::Vector &v) {
+ return carve::geom::VECTOR(v.x, v.y);
+ }
- carve::geom3d::Vector _unproject_1(const carve::geom2d::P2 &p, const carve::geom3d::Plane &plane_eqn) {
- return carve::geom::VECTOR(CALC_X(plane_eqn, p.y, p.x), p.y, p.x);
- }
- carve::geom3d::Vector _unproject_2(const carve::geom2d::P2 &p, const carve::geom3d::Plane &plane_eqn) {
- return carve::geom::VECTOR(p.x, CALC_Y(plane_eqn, p.x, p.y), p.y);
- }
+ carve::geom3d::Vector _unproject_1(const carve::geom2d::P2 &p, const carve::geom3d::Plane &plane_eqn) {
+ return carve::geom::VECTOR(CALC_X(plane_eqn, p.y, p.x), p.y, p.x);
+ }
- carve::geom3d::Vector _unproject_3(const carve::geom2d::P2 &p, const carve::geom3d::Plane &plane_eqn) {
- return carve::geom::VECTOR(p.y, p.x, CALC_Z(plane_eqn, p.y, p.x));
- }
+ carve::geom3d::Vector _unproject_2(const carve::geom2d::P2 &p, const carve::geom3d::Plane &plane_eqn) {
+ return carve::geom::VECTOR(p.x, CALC_Y(plane_eqn, p.x, p.y), p.y);
+ }
- carve::geom3d::Vector _unproject_4(const carve::geom2d::P2 &p, const carve::geom3d::Plane &plane_eqn) {
- return carve::geom::VECTOR(CALC_X(plane_eqn, p.x, p.y), p.x, p.y);
- }
+ carve::geom3d::Vector _unproject_3(const carve::geom2d::P2 &p, const carve::geom3d::Plane &plane_eqn) {
+ return carve::geom::VECTOR(p.y, p.x, CALC_Z(plane_eqn, p.y, p.x));
+ }
- carve::geom3d::Vector _unproject_5(const carve::geom2d::P2 &p, const carve::geom3d::Plane &plane_eqn) {
- return carve::geom::VECTOR(p.y, CALC_Y(plane_eqn, p.y, p.x), p.x);
- }
+ carve::geom3d::Vector _unproject_4(const carve::geom2d::P2 &p, const carve::geom3d::Plane &plane_eqn) {
+ return carve::geom::VECTOR(CALC_X(plane_eqn, p.x, p.y), p.x, p.y);
+ }
- carve::geom3d::Vector _unproject_6(const carve::geom2d::P2 &p, const carve::geom3d::Plane &plane_eqn) {
- return carve::geom::VECTOR(p.x, p.y, CALC_Z(plane_eqn, p.x, p.y));
- }
+ carve::geom3d::Vector _unproject_5(const carve::geom2d::P2 &p, const carve::geom3d::Plane &plane_eqn) {
+ return carve::geom::VECTOR(p.y, CALC_Y(plane_eqn, p.y, p.x), p.x);
+ }
+
+ carve::geom3d::Vector _unproject_6(const carve::geom2d::P2 &p, const carve::geom3d::Plane &plane_eqn) {
+ return carve::geom::VECTOR(p.x, p.y, CALC_Z(plane_eqn, p.x, p.y));
+ }
+
+ } // namespace
static carve::geom2d::P2 (*project_tab[2][3])(const carve::geom3d::Vector &) = {
{ &_project_1, &_project_2, &_project_3 },
diff -r e82d852e4fb0 lib/geom2d.cpp
--- a/lib/geom2d.cpp Wed Jan 15 13:16:14 2014 +1100
+++ b/lib/geom2d.cpp Mon Jan 27 17:01:46 2014 +0600
@@ -157,9 +157,9 @@
return pointInPoly(points, p2_adapt_ident(), p);
}
- int lineSegmentPolyIntersections(const P2Vector &points,
- LineSegment2 line,
- std::vector<PolyIntersectionInfo> &out) {
+ static int lineSegmentPolyIntersections(const P2Vector &points,
+ LineSegment2 line,
+ std::vector<PolyIntersectionInfo> &out) {
int count = 0;
if (line.v2 < line.v1) { line.flip(); }
@@ -239,9 +239,9 @@
}
};
- int sortedLineSegmentPolyIntersections(const P2Vector &points,
- LineSegment2 line,
- std::vector<PolyIntersectionInfo> &out) {
+ static int sortedLineSegmentPolyIntersections(const P2Vector &points,
+ LineSegment2 line,
+ std::vector<PolyIntersectionInfo> &out) {
bool swapped = line.v2 < line.v1;
diff -r e82d852e4fb0 lib/intersect.cpp
--- a/lib/intersect.cpp Wed Jan 15 13:16:14 2014 +1100
+++ b/lib/intersect.cpp Mon Jan 27 17:01:46 2014 +0600
@@ -1378,9 +1378,9 @@
* @param result_list
* @param shared_edge_ptr
*/
-void returnSharedEdges(carve::csg::V2Set &shared_edges,
- std::list<carve::mesh::MeshSet<3> *> &result_list,
- carve::csg::V2Set *shared_edge_ptr) {
+static void returnSharedEdges(carve::csg::V2Set &shared_edges,
+ std::list<carve::mesh::MeshSet<3> *> &result_list,
+ carve::csg::V2Set *shared_edge_ptr) {
// need to convert shared edges to point into result
typedef std::map<carve::geom3d::Vector, carve::mesh::MeshSet<3>::vertex_t *> remap_type;
remap_type remap;
diff -r e82d852e4fb0 lib/intersect_face_division.cpp
--- a/lib/intersect_face_division.cpp Wed Jan 15 13:16:14 2014 +1100
+++ b/lib/intersect_face_division.cpp Mon Jan 27 17:01:46 2014 +0600
@@ -1455,7 +1455,7 @@
std::vector<carve::mesh::MeshSet<3>::vertex_t *> base_loop;
std::list<std::vector<carve::mesh::MeshSet<3>::vertex_t *> > hole_loops;
- bool face_edge_intersected = assembleBaseLoop(face, data, base_loop, hooks);
+ /*bool face_edge_intersected = */assembleBaseLoop(face, data, base_loop, hooks);
detail::FV2SMap::const_iterator fse_iter = data.face_split_edges.find(face);
diff -r e82d852e4fb0 lib/math.cpp
--- a/lib/math.cpp Wed Jan 15 13:16:14 2014 +1100
+++ b/lib/math.cpp Mon Jan 27 17:01:46 2014 +0600
@@ -42,20 +42,21 @@
Root(double r, int m) : root(r), multiplicity(m) {}
};
- void cplx_sqrt(double re, double im,
- double &re_1, double &im_1,
- double &re_2, double &im_2) {
- if (re == 0.0 && im == 0.0) {
- re_1 = re_2 = re;
- im_1 = im_2 = im;
- } else {
- double d = sqrt(re * re + im * im);
- re_1 = sqrt((d + re) / 2.0);
- re_2 = re_1;
- im_1 = fabs(sqrt((d - re) / 2.0));
- im_2 = -im_1;
+ namespace {
+ void cplx_sqrt(double re, double im,
+ double &re_1, double &im_1,
+ double &re_2, double &im_2) {
+ if (re == 0.0 && im == 0.0) {
+ re_1 = re_2 = re;
+ im_1 = im_2 = im;
+ } else {
+ double d = sqrt(re * re + im * im);
+ re_1 = sqrt((d + re) / 2.0);
+ re_2 = re_1;
+ im_1 = fabs(sqrt((d - re) / 2.0));
+ im_2 = -im_1;
+ }
}
- }
void cplx_cbrt(double re, double im,
double &re_1, double &im_1,
@@ -76,109 +77,110 @@
}
}
- void add_root(std::vector<Root> &roots, double root) {
- for (size_t i = 0; i < roots.size(); ++i) {
- if (roots[i].root == root) {
- roots[i].multiplicity++;
+ void add_root(std::vector<Root> &roots, double root) {
+ for (size_t i = 0; i < roots.size(); ++i) {
+ if (roots[i].root == root) {
+ roots[i].multiplicity++;
+ return;
+ }
+ }
+ roots.push_back(Root(root));
+ }
+
+ void linear_roots(double c1, double c0, std::vector<Root> &roots) {
+ roots.push_back(Root(c0 / c1));
+ }
+
+ void quadratic_roots(double c2, double c1, double c0, std::vector<Root> &roots) {
+ if (fabs(c2) < EPS) {
+ linear_roots(c1, c0, roots);
return;
}
- }
- roots.push_back(Root(root));
- }
- void linear_roots(double c1, double c0, std::vector<Root> &roots) {
- roots.push_back(Root(c0 / c1));
- }
+ double p = 0.5 * c1 / c2;
+ double dis = p * p - c0 / c2;
- void quadratic_roots(double c2, double c1, double c0, std::vector<Root> &roots) {
- if (fabs(c2) < EPS) {
- linear_roots(c1, c0, roots);
- return;
+ if (dis > 0.0) {
+ dis = sqrt(dis);
+ if (-p - dis != -p + dis) {
+ roots.push_back(Root(-p - dis));
+ roots.push_back(Root(-p + dis));
+ } else {
+ roots.push_back(Root(-p, 2));
+ }
+ }
}
- double p = 0.5 * c1 / c2;
- double dis = p * p - c0 / c2;
+ void cubic_roots(double c3, double c2, double c1, double c0, std::vector<Root> &roots) {
+ int n_sol = 0;
+ double _r[3];
- if (dis > 0.0) {
- dis = sqrt(dis);
- if (-p - dis != -p + dis) {
- roots.push_back(Root(-p - dis));
- roots.push_back(Root(-p + dis));
+ if (fabs(c3) < EPS) {
+ quadratic_roots(c2, c1, c0, roots);
+ return;
+ }
+
+ if (fabs(c0) < EPS) {
+ quadratic_roots(c3, c2, c1, roots);
+ add_root(roots, 0.0);
+ return;
+ }
+
+ double xN = -c2 / (3.0 * c3);
+ double yN = c0 + xN * (c1 + xN * (c2 + c3 * xN));
+
+ double delta_sq = (c2 * c2 - 3.0 * c3 * c1) / (9.0 * c3 * c3);
+ double h_sq = 4.0 / 9.0 * (c2 * c2 - 3.0 * c3 * c1) * (delta_sq * delta_sq);
+ double dis = yN * yN - h_sq;
+
+ if (dis > EPS) {
+ // One real root, two complex roots.
+
+ double dis_sqrt = sqrt(dis);
+ double r_p = yN - dis_sqrt;
+ double r_q = yN + dis_sqrt;
+ double p = cbrt(fabs(r_p)/(2.0 * c3));
+ double q = cbrt(fabs(r_q)/(2.0 * c3));
+
+ if (r_p > 0.0) p = -p;
+ if (r_q > 0.0) q = -q;
+
+ _r[0] = xN + p + q;
+ n_sol = 1;
+
+ double re = xN - p * .5 - q * .5;
+ double im = p * M_SQRT_3_4 - q * M_SQRT_3_4;
+
+ // root 2: xN + p * exp(M_2PI_3.i) + q * exp(-M_2PI_3.i);
+ // root 3: complex conjugate of root 2
+
+ if (im < EPS) {
+ _r[1] = _r[2] = re;
+ n_sol += 2;
+ }
+ } else if (dis < -EPS) {
+ // Three distinct real roots.
+ double theta = acos(-yN / sqrt(h_sq)) / 3.0;
+ double delta = sqrt(c2 * c2 - 3.0 * c3 * c1) / (3.0 * c3);
+
+ _r[0] = xN + (2.0 * delta) * cos(theta);
+ _r[1] = xN + (2.0 * delta) * cos(M_2PI_3 - theta);
+ _r[2] = xN + (2.0 * delta) * cos(M_2PI_3 + theta);
+ n_sol = 3;
} else {
- roots.push_back(Root(-p, 2));
+ // Three real roots (two or three equal).
+ double r = yN / (2.0 * c3);
+ double delta = cbrt(r);
+
+ _r[0] = xN + delta;
+ _r[1] = xN + delta;
+ _r[2] = xN - 2.0 * delta;
+ n_sol = 3;
}
- }
- }
- void cubic_roots(double c3, double c2, double c1, double c0, std::vector<Root> &roots) {
- int n_sol = 0;
- double _r[3];
-
- if (fabs(c3) < EPS) {
- quadratic_roots(c2, c1, c0, roots);
- return;
- }
-
- if (fabs(c0) < EPS) {
- quadratic_roots(c3, c2, c1, roots);
- add_root(roots, 0.0);
- return;
- }
-
- double xN = -c2 / (3.0 * c3);
- double yN = c0 + xN * (c1 + xN * (c2 + c3 * xN));
-
- double delta_sq = (c2 * c2 - 3.0 * c3 * c1) / (9.0 * c3 * c3);
- double h_sq = 4.0 / 9.0 * (c2 * c2 - 3.0 * c3 * c1) * (delta_sq * delta_sq);
- double dis = yN * yN - h_sq;
-
- if (dis > EPS) {
- // One real root, two complex roots.
-
- double dis_sqrt = sqrt(dis);
- double r_p = yN - dis_sqrt;
- double r_q = yN + dis_sqrt;
- double p = cbrt(fabs(r_p)/(2.0 * c3));
- double q = cbrt(fabs(r_q)/(2.0 * c3));
-
- if (r_p > 0.0) p = -p;
- if (r_q > 0.0) q = -q;
-
- _r[0] = xN + p + q;
- n_sol = 1;
-
- double re = xN - p * .5 - q * .5;
- double im = p * M_SQRT_3_4 - q * M_SQRT_3_4;
-
- // root 2: xN + p * exp(M_2PI_3.i) + q * exp(-M_2PI_3.i);
- // root 3: complex conjugate of root 2
-
- if (im < EPS) {
- _r[1] = _r[2] = re;
- n_sol += 2;
+ for (int i=0; i < n_sol; i++) {
+ add_root(roots, _r[i]);
}
- } else if (dis < -EPS) {
- // Three distinct real roots.
- double theta = acos(-yN / sqrt(h_sq)) / 3.0;
- double delta = sqrt(c2 * c2 - 3.0 * c3 * c1) / (3.0 * c3);
-
- _r[0] = xN + (2.0 * delta) * cos(theta);
- _r[1] = xN + (2.0 * delta) * cos(M_2PI_3 - theta);
- _r[2] = xN + (2.0 * delta) * cos(M_2PI_3 + theta);
- n_sol = 3;
- } else {
- // Three real roots (two or three equal).
- double r = yN / (2.0 * c3);
- double delta = cbrt(r);
-
- _r[0] = xN + delta;
- _r[1] = xN + delta;
- _r[2] = xN - 2.0 * delta;
- n_sol = 3;
- }
-
- for (int i=0; i < n_sol; i++) {
- add_root(roots, _r[i]);
}
}
diff -r e82d852e4fb0 lib/triangulator.cpp
--- a/lib/triangulator.cpp Wed Jan 15 13:16:14 2014 +1100
+++ b/lib/triangulator.cpp Mon Jan 27 17:01:46 2014 +0600
@@ -718,10 +718,10 @@
-bool testCandidateAttachment(const std::vector<std::vector<carve::geom2d::P2> > &poly,
- std::vector<std::pair<size_t, size_t> > &current_f_loop,
- size_t curr,
- carve::geom2d::P2 hole_min) {
+static bool testCandidateAttachment(const std::vector<std::vector<carve::geom2d::P2> > &poly,
+ std::vector<std::pair<size_t, size_t> > &current_f_loop,
+ size_t curr,
+ carve::geom2d::P2 hole_min) {
const size_t SZ = current_f_loop.size();
if (!carve::geom2d::internalToAngle(pvert(poly, current_f_loop[(curr+1) % SZ]),