commit 97612c490aa06adaf8bf7c58016233c7a8dacbe4
parent 34f84f757a0f562f8561da1d5525e429864b9abd
Author: Christophe Coustet <christophe.coustet@meso-star.com>
Date: Tue, 23 Oct 2018 13:56:51 +0200
Spacing
Diffstat:
3 files changed, 11 insertions(+), 11 deletions(-)
diff --git a/src/sdis_solve_Xd.h b/src/sdis_solve_Xd.h
@@ -241,7 +241,7 @@ sample_time
{
ASSERT(time_range && time_range[0] >= 0 && time_range[1] >= time_range[0]
&& rng);
- if (time_range[0] == time_range[1]) return time_range[0];
+ if(time_range[0] == time_range[1]) return time_range[0];
return ssp_rng_uniform_double(rng, time_range[0], time_range[1]);
}
#define SAMPLE_TIME_DEFINED
@@ -1701,18 +1701,18 @@ XD(interface_prebuild_fragment)
#if SDIS_SOLVE_DIMENSION == 2
#define SET_PARAM(Dest, Src) (Dest).u = (Src);
- st = (float) uv[0];
+ st = (float)uv[0];
#else
#define SET_PARAM(Dest, Src) f2_set((Dest).uv, (Src));
f2_set_d2(st, uv);
#endif
res = sXd(scene_view_get_primitive(scn->sXd(view), iprim, &prim));
- if (res != RES_OK) return res;
+ if(res != RES_OK) return res;
res = sXd(primitive_get_attrib(&prim, SXD_POSITION, st, &attr));
- if (res != RES_OK) return res;
+ if(res != RES_OK) return res;
dX_set_fX(vtx.P, attr.value);
res = sXd(primitive_get_attrib(&prim, SXD_GEOMETRY_NORMAL, st, &attr));
- if (res != RES_OK) return res;
+ if(res != RES_OK) return res;
fX(set)(hit.normal, attr.value);
hit.distance = 0;
@@ -2171,7 +2171,7 @@ XD(solve_boundary_flux)
++N;
}
}
- if (res != RES_OK) goto error;
+ if(res != RES_OK) goto error;
setup_estimator(estimator, nrealisations, N, weight_t, sqr_weight_t);
setup_estimator_flux(estimator, FLUX_CONVECTIVE__, weight_fc, sqr_weight_fc);
diff --git a/src/test_sdis_convection.c b/src/test_sdis_convection.c
@@ -260,7 +260,7 @@ main(int argc, char** argv)
Tinf = (H*(T0 + T1 + T2 + T3 + T4 + T5)) / (6 * H);
printf("Temperature of the box at (%g %g %g)\n", SPLIT3(pos));
FOR_EACH(i, 0, 5) {
- double time = i ? (double) i / nu : INF;
+ double time = i ? (double)i / nu : INF;
double time_range[2];
time_range[0] = time_range[1] = time;
ref = Tf_0 * exp(-nu * time) + Tinf * (1 - exp(-nu * time));
@@ -283,7 +283,7 @@ main(int argc, char** argv)
Tinf = (H * (T0 + T1 + T2 + T3)) / (4 * H);
printf("Temperature of the square at (%g %g)\n", SPLIT2(pos));
FOR_EACH(i, 0, 5) {
- double time = i ? (double) i / nu : INF;
+ double time = i ? (double)i / nu : INF;
double time_range[2];
time_range[0] = time_range[1] = time;
ref = Tf_0 * exp(-nu * time) + Tinf * (1 - exp(-nu * time));
diff --git a/src/test_sdis_convection_non_uniform.c b/src/test_sdis_convection_non_uniform.c
@@ -275,7 +275,7 @@ main(int argc, char** argv)
/ (HC0 + HC1 + HC2 + HC3 + HC4 + HC5);
printf("Temperature of the box at (%g %g %g)\n", SPLIT3(pos));
FOR_EACH(i, 0, 5) {
- double time = i ? (double) i / nu : INF;
+ double time = i ? (double)i / nu : INF;
double time_range[2];
time_range[0] = time_range[1] = time;
ref = Tf_0 * exp(-nu * time) + Tinf * (1 - exp(-nu * time));
@@ -298,7 +298,7 @@ main(int argc, char** argv)
Tinf = (HC0 * T0 + HC1 * T1 + HC2 * T2 + HC3 * T3) / (HC0 + HC1 + HC2 + HC3);
printf("Temperature of the square at (%g %g)\n", SPLIT2(pos));
FOR_EACH(i, 0, 5) {
- double time = i ? (double) i / nu : INF;
+ double time = i ? (double)i / nu : INF;
double time_range[2];
time_range[0] = time_range[1] = time;
ref = Tf_0 * exp(-nu * time) + Tinf * (1 - exp(-nu * time));
@@ -310,7 +310,7 @@ main(int argc, char** argv)
OK(sdis_estimator_get_temperature(estimator, &T));
OK(sdis_estimator_ref_put(estimator));
printf(" t=%g : %g ~ %g +/- %g\n", time, ref, T.E, T.SE);
- if (nfails)
+ if(nfails)
printf("#failures = %lu/%lu\n", (unsigned long)nfails,(unsigned long)N);
CHK(eq_eps(T.E, ref, T.SE * 3));
}
