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Building igl statically and moving to the dep scripts

Browse source 
Fixing dep build script on Windows and removing some warnings.

Use bundled igl by default.

Not building with the dependency scripts if not explicitly stated. This way, it will stay in
Fix the libigl patch to include C source files in header only mode.
This commit is contained in:
tamasmeszaros 2019-06-19 14:52:55 +02:00
parent 89e39e3895
commit 2ae2672ee9
1095 changed files with 181 additions and 5 deletions
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137
src/libigl/igl/Singular_Value_Decomposition_Kernel_Declarations.hpp Normal file
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//#####################################################################
// Copyright (c) 2010-2011, Eftychios Sifakis.
//
// Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met:
// * Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or
// other materials provided with the distribution.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING,
// BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT
// SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
// DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
// INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
// NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
//#####################################################################
//###########################################################
// Local variable declarations
//###########################################################
#ifdef PRINT_DEBUGGING_OUTPUT
#ifdef USE_SSE_IMPLEMENTATION
float buf[4];
float A11,A21,A31,A12,A22,A32,A13,A23,A33;
float S11,S21,S31,S22,S32,S33;
#ifdef COMPUTE_V_AS_QUATERNION
float QVS,QVVX,QVVY,QVVZ;
#endif
#ifdef COMPUTE_V_AS_MATRIX
float V11,V21,V31,V12,V22,V32,V13,V23,V33;
#endif
#ifdef COMPUTE_U_AS_QUATERNION
float QUS,QUVX,QUVY,QUVZ;
#endif
#ifdef COMPUTE_U_AS_MATRIX
float U11,U21,U31,U12,U22,U32,U13,U23,U33;
#endif
#endif
#ifdef USE_AVX_IMPLEMENTATION
float buf[8];
float A11,A21,A31,A12,A22,A32,A13,A23,A33;
float S11,S21,S31,S22,S32,S33;
#ifdef COMPUTE_V_AS_QUATERNION
float QVS,QVVX,QVVY,QVVZ;
#endif
#ifdef COMPUTE_V_AS_MATRIX
float V11,V21,V31,V12,V22,V32,V13,V23,V33;
#endif
#ifdef COMPUTE_U_AS_QUATERNION
float QUS,QUVX,QUVY,QUVZ;
#endif
#ifdef COMPUTE_U_AS_MATRIX
float U11,U21,U31,U12,U22,U32,U13,U23,U33;
#endif
#endif
#endif
const float Four_Gamma_Squared=sqrt(8.)+3.;
const float Sine_Pi_Over_Eight=.5*sqrt(2.-sqrt(2.));
const float Cosine_Pi_Over_Eight=.5*sqrt(2.+sqrt(2.));
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Sfour_gamma_squared;) ENABLE_SSE_IMPLEMENTATION(__m128 Vfour_gamma_squared;) ENABLE_AVX_IMPLEMENTATION(__m256 Vfour_gamma_squared;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Ssine_pi_over_eight;) ENABLE_SSE_IMPLEMENTATION(__m128 Vsine_pi_over_eight;) ENABLE_AVX_IMPLEMENTATION(__m256 Vsine_pi_over_eight;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Scosine_pi_over_eight;) ENABLE_SSE_IMPLEMENTATION(__m128 Vcosine_pi_over_eight;) ENABLE_AVX_IMPLEMENTATION(__m256 Vcosine_pi_over_eight;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Sone_half;) ENABLE_SSE_IMPLEMENTATION(__m128 Vone_half;) ENABLE_AVX_IMPLEMENTATION(__m256 Vone_half;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Sone;) ENABLE_SSE_IMPLEMENTATION(__m128 Vone;) ENABLE_AVX_IMPLEMENTATION(__m256 Vone;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Stiny_number;) ENABLE_SSE_IMPLEMENTATION(__m128 Vtiny_number;) ENABLE_AVX_IMPLEMENTATION(__m256 Vtiny_number;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Ssmall_number;) ENABLE_SSE_IMPLEMENTATION(__m128 Vsmall_number;) ENABLE_AVX_IMPLEMENTATION(__m256 Vsmall_number;)
ENABLE_SCALAR_IMPLEMENTATION(Sfour_gamma_squared.f=Four_Gamma_Squared;) ENABLE_SSE_IMPLEMENTATION(Vfour_gamma_squared=_mm_set1_ps(Four_Gamma_Squared);) ENABLE_AVX_IMPLEMENTATION(Vfour_gamma_squared=_mm256_set1_ps(Four_Gamma_Squared);)
ENABLE_SCALAR_IMPLEMENTATION(Ssine_pi_over_eight.f=Sine_Pi_Over_Eight;) ENABLE_SSE_IMPLEMENTATION(Vsine_pi_over_eight=_mm_set1_ps(Sine_Pi_Over_Eight);) ENABLE_AVX_IMPLEMENTATION(Vsine_pi_over_eight=_mm256_set1_ps(Sine_Pi_Over_Eight);)
ENABLE_SCALAR_IMPLEMENTATION(Scosine_pi_over_eight.f=Cosine_Pi_Over_Eight;) ENABLE_SSE_IMPLEMENTATION(Vcosine_pi_over_eight=_mm_set1_ps(Cosine_Pi_Over_Eight);) ENABLE_AVX_IMPLEMENTATION(Vcosine_pi_over_eight=_mm256_set1_ps(Cosine_Pi_Over_Eight);)
ENABLE_SCALAR_IMPLEMENTATION(Sone_half.f=.5;) ENABLE_SSE_IMPLEMENTATION(Vone_half=_mm_set1_ps(.5);) ENABLE_AVX_IMPLEMENTATION(Vone_half=_mm256_set1_ps(.5);)
ENABLE_SCALAR_IMPLEMENTATION(Sone.f=1.;) ENABLE_SSE_IMPLEMENTATION(Vone=_mm_set1_ps(1.);) ENABLE_AVX_IMPLEMENTATION(Vone=_mm256_set1_ps(1.);)
ENABLE_SCALAR_IMPLEMENTATION(Stiny_number.f=1.e-20;) ENABLE_SSE_IMPLEMENTATION(Vtiny_number=_mm_set1_ps(1.e-20);) ENABLE_AVX_IMPLEMENTATION(Vtiny_number=_mm256_set1_ps(1.e-20);)
ENABLE_SCALAR_IMPLEMENTATION(Ssmall_number.f=1.e-12;) ENABLE_SSE_IMPLEMENTATION(Vsmall_number=_mm_set1_ps(1.e-12);) ENABLE_AVX_IMPLEMENTATION(Vsmall_number=_mm256_set1_ps(1.e-12);)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Sa11;) ENABLE_SSE_IMPLEMENTATION(__m128 Va11;) ENABLE_AVX_IMPLEMENTATION(__m256 Va11;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Sa21;) ENABLE_SSE_IMPLEMENTATION(__m128 Va21;) ENABLE_AVX_IMPLEMENTATION(__m256 Va21;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Sa31;) ENABLE_SSE_IMPLEMENTATION(__m128 Va31;) ENABLE_AVX_IMPLEMENTATION(__m256 Va31;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Sa12;) ENABLE_SSE_IMPLEMENTATION(__m128 Va12;) ENABLE_AVX_IMPLEMENTATION(__m256 Va12;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Sa22;) ENABLE_SSE_IMPLEMENTATION(__m128 Va22;) ENABLE_AVX_IMPLEMENTATION(__m256 Va22;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Sa32;) ENABLE_SSE_IMPLEMENTATION(__m128 Va32;) ENABLE_AVX_IMPLEMENTATION(__m256 Va32;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Sa13;) ENABLE_SSE_IMPLEMENTATION(__m128 Va13;) ENABLE_AVX_IMPLEMENTATION(__m256 Va13;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Sa23;) ENABLE_SSE_IMPLEMENTATION(__m128 Va23;) ENABLE_AVX_IMPLEMENTATION(__m256 Va23;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Sa33;) ENABLE_SSE_IMPLEMENTATION(__m128 Va33;) ENABLE_AVX_IMPLEMENTATION(__m256 Va33;)
#ifdef COMPUTE_V_AS_MATRIX
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Sv11;) ENABLE_SSE_IMPLEMENTATION(__m128 Vv11;) ENABLE_AVX_IMPLEMENTATION(__m256 Vv11;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Sv21;) ENABLE_SSE_IMPLEMENTATION(__m128 Vv21;) ENABLE_AVX_IMPLEMENTATION(__m256 Vv21;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Sv31;) ENABLE_SSE_IMPLEMENTATION(__m128 Vv31;) ENABLE_AVX_IMPLEMENTATION(__m256 Vv31;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Sv12;) ENABLE_SSE_IMPLEMENTATION(__m128 Vv12;) ENABLE_AVX_IMPLEMENTATION(__m256 Vv12;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Sv22;) ENABLE_SSE_IMPLEMENTATION(__m128 Vv22;) ENABLE_AVX_IMPLEMENTATION(__m256 Vv22;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Sv32;) ENABLE_SSE_IMPLEMENTATION(__m128 Vv32;) ENABLE_AVX_IMPLEMENTATION(__m256 Vv32;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Sv13;) ENABLE_SSE_IMPLEMENTATION(__m128 Vv13;) ENABLE_AVX_IMPLEMENTATION(__m256 Vv13;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Sv23;) ENABLE_SSE_IMPLEMENTATION(__m128 Vv23;) ENABLE_AVX_IMPLEMENTATION(__m256 Vv23;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Sv33;) ENABLE_SSE_IMPLEMENTATION(__m128 Vv33;) ENABLE_AVX_IMPLEMENTATION(__m256 Vv33;)
#endif
#ifdef COMPUTE_V_AS_QUATERNION
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Sqvs;) ENABLE_SSE_IMPLEMENTATION(__m128 Vqvs;) ENABLE_AVX_IMPLEMENTATION(__m256 Vqvs;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Sqvvx;) ENABLE_SSE_IMPLEMENTATION(__m128 Vqvvx;) ENABLE_AVX_IMPLEMENTATION(__m256 Vqvvx;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Sqvvy;) ENABLE_SSE_IMPLEMENTATION(__m128 Vqvvy;) ENABLE_AVX_IMPLEMENTATION(__m256 Vqvvy;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Sqvvz;) ENABLE_SSE_IMPLEMENTATION(__m128 Vqvvz;) ENABLE_AVX_IMPLEMENTATION(__m256 Vqvvz;)
#endif
#ifdef COMPUTE_U_AS_MATRIX
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Su11;) ENABLE_SSE_IMPLEMENTATION(__m128 Vu11;) ENABLE_AVX_IMPLEMENTATION(__m256 Vu11;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Su21;) ENABLE_SSE_IMPLEMENTATION(__m128 Vu21;) ENABLE_AVX_IMPLEMENTATION(__m256 Vu21;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Su31;) ENABLE_SSE_IMPLEMENTATION(__m128 Vu31;) ENABLE_AVX_IMPLEMENTATION(__m256 Vu31;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Su12;) ENABLE_SSE_IMPLEMENTATION(__m128 Vu12;) ENABLE_AVX_IMPLEMENTATION(__m256 Vu12;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Su22;) ENABLE_SSE_IMPLEMENTATION(__m128 Vu22;) ENABLE_AVX_IMPLEMENTATION(__m256 Vu22;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Su32;) ENABLE_SSE_IMPLEMENTATION(__m128 Vu32;) ENABLE_AVX_IMPLEMENTATION(__m256 Vu32;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Su13;) ENABLE_SSE_IMPLEMENTATION(__m128 Vu13;) ENABLE_AVX_IMPLEMENTATION(__m256 Vu13;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Su23;) ENABLE_SSE_IMPLEMENTATION(__m128 Vu23;) ENABLE_AVX_IMPLEMENTATION(__m256 Vu23;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Su33;) ENABLE_SSE_IMPLEMENTATION(__m128 Vu33;) ENABLE_AVX_IMPLEMENTATION(__m256 Vu33;)
#endif
#ifdef COMPUTE_U_AS_QUATERNION
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Squs;) ENABLE_SSE_IMPLEMENTATION(__m128 Vqus;) ENABLE_AVX_IMPLEMENTATION(__m256 Vqus;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Squvx;) ENABLE_SSE_IMPLEMENTATION(__m128 Vquvx;) ENABLE_AVX_IMPLEMENTATION(__m256 Vquvx;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Squvy;) ENABLE_SSE_IMPLEMENTATION(__m128 Vquvy;) ENABLE_AVX_IMPLEMENTATION(__m256 Vquvy;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Squvz;) ENABLE_SSE_IMPLEMENTATION(__m128 Vquvz;) ENABLE_AVX_IMPLEMENTATION(__m256 Vquvz;)
#endif
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Sc;) ENABLE_SSE_IMPLEMENTATION(__m128 Vc;) ENABLE_AVX_IMPLEMENTATION(__m256 Vc;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Ss;) ENABLE_SSE_IMPLEMENTATION(__m128 Vs;) ENABLE_AVX_IMPLEMENTATION(__m256 Vs;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Sch;) ENABLE_SSE_IMPLEMENTATION(__m128 Vch;) ENABLE_AVX_IMPLEMENTATION(__m256 Vch;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Ssh;) ENABLE_SSE_IMPLEMENTATION(__m128 Vsh;) ENABLE_AVX_IMPLEMENTATION(__m256 Vsh;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Stmp1;) ENABLE_SSE_IMPLEMENTATION(__m128 Vtmp1;) ENABLE_AVX_IMPLEMENTATION(__m256 Vtmp1;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Stmp2;) ENABLE_SSE_IMPLEMENTATION(__m128 Vtmp2;) ENABLE_AVX_IMPLEMENTATION(__m256 Vtmp2;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Stmp3;) ENABLE_SSE_IMPLEMENTATION(__m128 Vtmp3;) ENABLE_AVX_IMPLEMENTATION(__m256 Vtmp3;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Stmp4;) ENABLE_SSE_IMPLEMENTATION(__m128 Vtmp4;) ENABLE_AVX_IMPLEMENTATION(__m256 Vtmp4;)
ENABLE_SCALAR_IMPLEMENTATION(union {float f;unsigned int ui;} Stmp5;) ENABLE_SSE_IMPLEMENTATION(__m128 Vtmp5;) ENABLE_AVX_IMPLEMENTATION(__m256 Vtmp5;)