{"diffoscope-json-version": 1, "source1": "/srv/reproducible-results/rbuild-debian/r-b-build.Bqx6QO1G/b1/sfepy_2021.4-4_amd64.changes", "source2": "/srv/reproducible-results/rbuild-debian/r-b-build.Bqx6QO1G/b2/sfepy_2021.4-4_amd64.changes", "unified_diff": null, "details": [{"source1": "Files", "source2": "Files", "unified_diff": "@@ -1,4 +1,4 @@\n \n- 0c952d512e2d7d8519e22016897f85ba 12533440 doc optional python-sfepy-doc_2021.4-4_all.deb\n+ 827560d568bf753a1bcb36762aae400e 12533324 doc optional python-sfepy-doc_2021.4-4_all.deb\n b41e3c0dfb3fa2234bd55e24a062025f 1988176 debug optional python3-sfepy-dbgsym_2021.4-4_amd64.deb\n 8ce098121ad21baaa728fcf67f17c744 4008032 python optional python3-sfepy_2021.4-4_amd64.deb\n"}, {"source1": "python-sfepy-doc_2021.4-4_all.deb", "source2": "python-sfepy-doc_2021.4-4_all.deb", "unified_diff": null, "details": [{"source1": "file list", "source2": "file list", "unified_diff": "@@ -1,3 +1,3 @@\n -rw-r--r-- 0 0 0 4 2023-01-22 17:12:28.000000 debian-binary\n--rw-r--r-- 0 0 0 24340 2023-01-22 17:12:28.000000 control.tar.xz\n--rw-r--r-- 0 0 0 12508908 2023-01-22 17:12:28.000000 data.tar.xz\n+-rw-r--r-- 0 0 0 24316 2023-01-22 17:12:28.000000 control.tar.xz\n+-rw-r--r-- 0 0 0 12508816 2023-01-22 17:12:28.000000 data.tar.xz\n"}, {"source1": "control.tar.xz", "source2": "control.tar.xz", "unified_diff": null, "details": [{"source1": "control.tar", "source2": "control.tar", "unified_diff": null, "details": [{"source1": "./md5sums", "source2": "./md5sums", "unified_diff": null, "details": [{"source1": "./md5sums", "source2": "./md5sums", "comments": ["Files differ"], "unified_diff": null}]}]}]}, {"source1": "data.tar.xz", "source2": "data.tar.xz", "unified_diff": null, "details": [{"source1": "data.tar", "source2": "data.tar", "unified_diff": null, "details": [{"source1": "file list", "source2": "file list", "unified_diff": "@@ -1,13 +1,13 @@\n drwxr-xr-x 0 root (0) root (0) 0 2023-01-22 17:12:28.000000 ./\n drwxr-xr-x 0 root (0) root (0) 0 2023-01-22 17:12:28.000000 ./usr/\n drwxr-xr-x 0 root (0) root (0) 0 2023-01-22 17:12:28.000000 ./usr/share/\n drwxr-xr-x 0 root (0) root (0) 0 2023-01-22 17:12:28.000000 ./usr/share/doc/\n drwxr-xr-x 0 root (0) root (0) 0 2023-01-22 17:12:28.000000 ./usr/share/doc/python-sfepy-doc/\n--rw-r--r-- 0 root (0) root (0) 4704916 2023-01-22 17:12:28.000000 ./usr/share/doc/python-sfepy-doc/SfePy.pdf.gz\n+-rw-r--r-- 0 root (0) root (0) 4704955 2023-01-22 17:12:28.000000 ./usr/share/doc/python-sfepy-doc/SfePy.pdf.gz\n -rw-r--r-- 0 root (0) root (0) 1362 2023-01-22 17:12:28.000000 ./usr/share/doc/python-sfepy-doc/changelog.Debian.gz\n -rw-r--r-- 0 root (0) root (0) 1802 2023-01-22 17:12:28.000000 ./usr/share/doc/python-sfepy-doc/copyright\n drwxr-xr-x 0 root (0) root (0) 0 2023-01-22 17:12:28.000000 ./usr/share/doc/python-sfepy-doc/examples/\n -rw-r--r-- 0 root (0) root (0) 0 2021-12-28 23:01:29.000000 ./usr/share/doc/python-sfepy-doc/examples/__init__.py\n drwxr-xr-x 0 root (0) root (0) 0 2023-01-22 17:12:28.000000 ./usr/share/doc/python-sfepy-doc/examples/acoustics/\n -rw-r--r-- 0 root (0) root (0) 0 2021-12-28 23:01:29.000000 ./usr/share/doc/python-sfepy-doc/examples/acoustics/__init__.py\n -rw-r--r-- 0 root (0) root (0) 1751 2021-12-28 23:01:29.000000 ./usr/share/doc/python-sfepy-doc/examples/acoustics/acoustics.py\n"}, {"source1": "./usr/share/doc/python-sfepy-doc/SfePy.pdf.gz", "source2": "./usr/share/doc/python-sfepy-doc/SfePy.pdf.gz", "unified_diff": null, "details": [{"source1": "SfePy.pdf", "source2": "SfePy.pdf", "unified_diff": null, "details": [{"source1": "pdftotext {} -", "source2": "pdftotext {} -", "unified_diff": "@@ -5647,20 +5647,20 @@\n ev_cauchy_strain \n CauchyStrainTerm\n \n \u222b\ufe01\n \n \ud835\udc5d \ud835\udefc\ud835\udc56\ud835\udc57 \ud835\udc52\ud835\udc56\ud835\udc57 (\ud835\udc63) ,\n \n-bio.sho.syn,\n bio,\n-the.ela,\n-bio.npb.lag,\n bio.npb,\n-the.ela.ess\n+bio.sho.syn,\n+the.ela.ess,\n+bio.npb.lag,\n+the.ela\n \n \u222b\ufe01\n \n \u03a9\n \n \ud835\udc5e \ud835\udefc\ud835\udc56\ud835\udc57 \ud835\udc52\ud835\udc56\ud835\udc57 (\ud835\udc62)\n \u03a9\n@@ -5763,19 +5763,21 @@\n \n dw_convect\n ConvectTerm\n \n ,\n \n \n-nav.sto.iga,\n-nav.sto, nav.sto\n-\n \u222b\ufe01\n ((\ud835\udc62 \u00b7 \u2207)\ud835\udc62) \u00b7 \ud835\udc63\n+\n+nav.sto,\n+nav.sto.iga,\n+nav.sto\n+\n \u03a9\n \n ev_def_grad\n \n DeformationGradientTerm\n \ud835\udf15\ud835\udc65\n \ud835\udf15\ud835\udc62\n@@ -5806,17 +5808,16 @@\n ,\n \ud835\udc5b \u00b7 \ud835\udc53 * (\ud835\udc5d\ud835\udc56\ud835\udc5b , \ud835\udc5d\ud835\udc5c\ud835\udc62\ud835\udc61 )\ud835\udc5e\n \n \ud835\udf15\ud835\udc47\ud835\udc3e\n name/class\n \n examples\n-adv.2D,\n adv.dif.2D,\n-adv.1D\n+adv.2D, adv.1D\n \n where\n \ud835\udc53 * (\ud835\udc5d\ud835\udc56\ud835\udc5b , \ud835\udc5d\ud835\udc5c\ud835\udc62\ud835\udc61 ) = \ud835\udc4e\n dw_dg_diffusion_flux\n ,\n DiffusionDGFluxTerm\n ,\n@@ -5835,16 +5836,16 @@\n 2\n 2\n \n \ud835\udc37\u27e8\u2207\ud835\udc5d\u27e9[\ud835\udc5e] ,\n \n \ud835\udf15\ud835\udc47\ud835\udc3e\n \n-bur.2D, lap.2D,\n-adv.dif.2D\n+adv.dif.2D,\n+lap.2D, bur.2D\n \n \u222b\ufe01\n \ud835\udc37\u27e8\u2207\ud835\udc5e\u27e9[\ud835\udc5d]\n \ud835\udf15\ud835\udc47\ud835\udc3e\n \n \u27e8\u2207\ud835\udf11\u27e9 =\n \n@@ -5855,16 +5856,16 @@\n dw_dg_interior_penalty\n ,\n DiffusionInteriorPenaltyTerm\n ,\n ,\n \n \n-bur.2D, lap.2D,\n-adv.dif.2D\n+adv.dif.2D,\n+lap.2D, bur.2D\n \n 2\n \n \u222b\ufe01\n \n \u00af \ud835\udc64 \ud835\udc42\ud835\udc5f\ud835\udc51 [\ud835\udc5d][\ud835\udc5e]\n \ud835\udc37\ud835\udc36\n@@ -5989,19 +5990,14 @@\n \ud835\udc3e\ud835\udc56\ud835\udc57 \u2207\ud835\udc56 \ud835\udc5e\u2207\ud835\udc57 \ud835\udc5d ,\n \n \u03a9\n \n \ud835\udc3e\ud835\udc56\ud835\udc57 \u2207\ud835\udc56 \ud835\udc5d\u00af\u2207\ud835\udc57 \ud835\udc5f\n \u03a9\n \n-nav.sto,\n-sta.nav.sto,\n-nav.sto, sto.sli.bc,\n-sto, nav.sto.iga\n-\n \u222b\ufe01\n \n \u222b\ufe01\n \ud835\udf08 \u2207\ud835\udc63 : \u2207\ud835\udc62 ,\n \ud835\udf08 \u2207\ud835\udc62 : \u2207\ud835\udc64\n \u03a9\n \u03a9\n@@ -6022,20 +6018,27 @@\n \u03a9\n \n \u03a9\n \n ev_div\n DivTerm\n \n-bio.sho.syn,\n bio,\n+bio.npb,\n+poi.neu,\n+bio.sho.syn,\n pie.ela,\n-dar.flo.mul,\n bio.npb.lag,\n-bio.npb, poi.neu\n+dar.flo.mul\n+nav.sto,\n+sto,\n+sto.sli.bc,\n+nav.sto.iga,\n+nav.sto,\n+sta.nav.sto\n \n \u222b\ufe01\n \n \n \u222b\ufe01\n \u2207\u00b7\ud835\udc62\n \ud835\udc9f\n@@ -6125,31 +6128,32 @@\n \n \n \u222b\ufe01\n \n \ud835\udc9f\n \n examples\n-hyd,\n-tim.poi,\n-bur.2D,\n tim.poi.exp,\n+bor,\n+adv.2D,\n+tim.adv.dif,\n sto.sli.bc,\n+adv.1D,\n+aco,\n+the.ele, ela, osc,\n+bur.2D, pie.ela,\n+lin.ela.up,\n+tim.poi,\n+aco,\n bal,\n-poi.per.bou.con,\n-wel, lin.ela.dam,\n-vib.aco, pie.ela,\n-bor, osc, adv.2D,\n-dar.flo.mul,\n-the.ele,\n-ela,\n-aco, lin.ela.up,\n poi.fun,\n-tim.adv.dif,\n-aco, adv.1D\n+dar.flo.mul, hyd,\n+wel, lin.ela.dam,\n+poi.per.bou.con,\n+vib.aco\n \n \u222b\ufe01\n \ud835\udc37\ud835\udc56\ud835\udc57\ud835\udc58\ud835\udc59 \ud835\udc54\ud835\udc56\ud835\udc57 (\ud835\udc63)\ud835\udc52\ud835\udc58\ud835\udc59 (\ud835\udc62) ,\n \n \ud835\udc37\ud835\udc56\ud835\udc57\ud835\udc58\ud835\udc59 \ud835\udc54\ud835\udc56\ud835\udc57 (\ud835\udc62)\ud835\udc52\ud835\udc58\ud835\udc59 (\ud835\udc63)\n \n \u03a9\n@@ -6316,18 +6320,20 @@\n \n \ud835\udc47\ud835\udc3e\n \n \ud835\udc47\ud835\udc3e\n \n \ud835\udc47\ud835\udc3e\n \n-vib.aco,\n-dar.flo.mul, aco,\n+poi.neu,\n+aco,\n poi.per.bou.con,\n-aco, poi.neu\n+vib.aco,\n+dar.flo.mul,\n+aco\n \n \u222b\ufe01\n \n \u222b\ufe01\n \n \u222b\ufe01\n \n@@ -6401,39 +6407,39 @@\n \n dw_lin_convect2 ,\n LinearConvect2Term\n ,\n \n \n examples\n-hyd,\n-tim.poi,\n+tim.poi.exp, bor,\n+poi.sho.syn,\n+tim.adv.dif,\n lap.flu.2d,\n-poi.fie.dep.mat,\n-adv.dif.2D,\n-poi.par.stu,\n-bur.2D,\n-tim.poi.exp,\n sto.sli.bc,\n lap.cou.lcb,\n-poi.sho.syn,\n-poi.per.bou.con,\n+aco,\n+the.ele,\n+osc,\n+bur.2D,\n+lap.tim.ebc,\n+poi.iga,\n cub,\n+lap.2D, lap.1d,\n+sin, aco, tim.poi,\n+poi.par.stu,\n+poi.fun,\n+hyd,\n+adv.dif.2D,\n+poi.fie.dep.mat,\n wel,\n-vib.aco,\n poi,\n-bor, osc, lap.1d,\n-the.ele, poi.iga,\n-aco,\n-poi.fun,\n-tim.adv.dif,\n-lap.tim.ebc, sin,\n-aco,\n-lap.2D,\n-the.ela.ess\n+poi.per.bou.con,\n+the.ela.ess,\n+vib.aco\n \n \u222b\ufe01\n ((\ud835\udc4f \u00b7 \u2207)\ud835\udc62) \u00b7 \ud835\udc63\n \u03a9\n \n ((\ud835\udc4f \u00b7 \u2207)\ud835\udc62)|\ud835\udc5e\ud835\udc5d\n dw_lin_convect\n@@ -6495,41 +6501,41 @@\n \n \n \u222b\ufe01\n \ud835\udf0e\ud835\udc56\ud835\udc57 \ud835\udc52\ud835\udc56\ud835\udc57 (\ud835\udc63)\n \n examples\n pie.ela.mac,\n-pre.fib, lin.ela,\n-its.1,\n-nod.lcb,\n bio,\n-its.3,\n+its.4,\n+com.ela.mat,\n+ela.con.pla,\n+two.bod.con,\n+nod.lcb,\n+ela.shi.per,\n lin.ela.iga,\n-lin.ela.mM,\n-lin.ela.dam,\n+its.3, ela, its.2,\n bio.sho.syn,\n+lin.ela,\n lin.ela.opt,\n-two.bod.con,\n-lin.ela.tra,\n pie.ela,\n-its.2,\n-the.ela, lin.vis,\n-bio.npb.lag,\n-com.ela.mat,\n+lin.ela.tra,\n+ela.con.sph,\n mat.non,\n-ela.con.sph, its.4,\n-ela, ela.shi.per,\n-lin.ela.up,\n-ela.con.pla,\n+lin.ela.mM,\n bio.npb,\n-the.ela.ess\n+lin.ela.up, its.1,\n+lin.ela.dam,\n+the.ela.ess,\n+pre.fib, lin.vis,\n+bio.npb.lag,\n+the.ela\n+non.hyp.mM,\n pie.ela.mac,\n-pre.fib,\n-non.hyp.mM\n+pre.fib\n \n \u03a9\n \n pre.fib\n \u222b\ufe01\n \ud835\udc37\ud835\udc56\ud835\udc57\ud835\udc58\ud835\udc59 \ud835\udc52\ud835\udc56\ud835\udc57 (\ud835\udc63) (\ud835\udc51\ud835\udc58 \ud835\udc51\ud835\udc59 )\n \u03a9\n@@ -6551,26 +6557,27 @@\n \n ,\n ,\n \n \n bio.npb.lag\n \u222b\ufe01\n-\n-\u222b\ufe01\n \u02c6 \u00b7\ud835\udc62\n-\ud835\udc50\ud835\udf06\ud835\udc5b \u00b7 \ud835\udc63 ,\n \ud835\udc50\ud835\udf06\ud835\udc5b\n+\ud835\udc50\ud835\udf06\ud835\udc5b \u00b7 \ud835\udc63 ,\n \u0393\n \u0393\n \u222b\ufe01\n \u222b\ufe01\n \u02c6 \u00b7\ud835\udc62\n \ud835\udf06\ud835\udc5b \u00b7 \ud835\udc63 ,\n \ud835\udf06\ud835\udc5b\n+\n+\u222b\ufe01\n+\n \u0393\n \n \u0393\n \n continues on next page\n \n 1.8. Term Overview\n@@ -6661,27 +6668,31 @@\n ,\n \n dw_s_dot_grad_i_s ,\n ScalarDotGradIScalarTerm\n ,\n \n \n-its.4, its.3, its.2,\n-its.1, she.can\n-\n \ud835\udc53 \ud835\udc56 = \ud835\udc53\u00af\n \n \u2200 FE node \ud835\udc56 in a region\n \n \ud835\udc53 \ud835\udc56 = \u2212\ud835\udc58\ud835\udc62\ud835\udc56\n \n \u2200 FE node \ud835\udc56 in a region\n \n \ud835\udc4d\ud835\udc56 =\n \n+its.3,\n+she.can,\n+its.1\n+\n+its.4,\n+its.2,\n+\n \u222b\ufe01\n \ud835\udc5e\u2207\ud835\udc56 \ud835\udc5d\n \u03a9\n \n continues on next page\n \n 122\n@@ -6728,17 +6739,16 @@\n ,\n StokesWaveTerm ,\n \n \n \u222b\ufe01\n \n examples\n-adv.2D,\n adv.dif.2D,\n-adv.1D\n+adv.2D, adv.1D\n \n she.can\n \n \u222b\ufe01\n (\ud835\udf05 \u00b7 \ud835\udc63)(\u2207 \u00b7 \ud835\udc62) ,\n \n (\ud835\udf05 \u00b7 \ud835\udc62)(\u2207 \u00b7 \ud835\udc63)\n@@ -6790,19 +6800,21 @@\n \u03a9\n \n \u222b\ufe01\n \ud835\udc50\ud835\udc5e\u2207\u00b7\ud835\udc62\n \u03a9\n \n nav.sto,\n-sta.nav.sto,\n-nav.sto, sto.sli.bc,\n-sto,\n lin.ela.up,\n-nav.sto.iga\n+sto.sli.bc,\n+nav.sto.iga,\n+nav.sto,\n+sta.nav.sto\n+\n+sto,\n \n \u222b\ufe01\n \ud835\udc5e\ud835\udc5b \u00b7 \ud835\udc3e \u00b7 \u2207\ud835\udc5d\n \u0393\n \n ev_surface_flux\n ,\n@@ -6855,19 +6867,19 @@\n name/class\n \n ev_surface_moment ,\n SurfaceMomentTerm\n \n \n examples\n+com.ela.mat,\n lin.ela.opt,\n+nod.lcb, lin.vis,\n lin.ela.tra,\n-ela.shi.per,\n-lin.vis, nod.lcb,\n-com.ela.mat\n+ela.shi.per\n \n \u222b\ufe01\n \ud835\udc5b(\ud835\udc65 \u2212 \ud835\udc650 )\n \u0393\n \n dw_surface_ndot ,\n SufaceNormalDotTerm\n@@ -6940,17 +6952,17 @@\n \n \ud835\udc53 \u00b7 \ud835\udc63 or\n \n \u03a9\n \n \ud835\udc53\ud835\udc5e\n \n+adv.dif.2D,\n poi.par.stu,\n-bur.2D, poi.iga,\n-adv.dif.2D\n+poi.iga, bur.2D\n \n \u03a9\n \n ev_volume_surface \n VolumeSurfaceTerm\n \n \u222b\ufe01\n@@ -7193,21 +7205,19 @@\n \u03a9\n \n dw_tl_bulk_penalty ,\n BulkPenaltyTLTerm\n ,\n \n \n-\u222b\ufe01\n-\ud835\udc46\ud835\udc56\ud835\udc57 (\ud835\udc62)\ud835\udeff\ud835\udc38\ud835\udc56\ud835\udc57 (\ud835\udc62; \ud835\udc63)\n-\n-act.fib,\n com.ela.mat,\n-hyp\n+act.fib, hyp\n \n+\u222b\ufe01\n+\ud835\udc46\ud835\udc56\ud835\udc57 (\ud835\udc62)\ud835\udeff\ud835\udc38\ud835\udc56\ud835\udc57 (\ud835\udc62; \ud835\udc63)\n \u03a9\n \n dw_tl_bulk_pressure,\n BulkPressureTLTerm\n ,\n \n \n@@ -7256,32 +7266,32 @@\n \n dw_tl_he_mooney_rivlin\n ,\n MooneyRivlinTLTerm\n ,\n \n \n-bal, com.ela.mat,\n+com.ela.mat, bal,\n hyp\n \n \u222b\ufe01\n \ud835\udc46\ud835\udc56\ud835\udc57 (\ud835\udc62)\ud835\udeff\ud835\udc38\ud835\udc56\ud835\udc57 (\ud835\udc62; \ud835\udc63)\n \u03a9\n \n dw_tl_he_neohook ,\n NeoHookeanTLTerm,\n \n \n \u222b\ufe01\n \ud835\udc46\ud835\udc56\ud835\udc57 (\ud835\udc62)\ud835\udeff\ud835\udc38\ud835\udc56\ud835\udc57 (\ud835\udc62; \ud835\udc63)\n \n-bal,\n-act.fib,\n-com.ela.mat,\n-per.tl, hyp\n+per.tl,\n+hyp,\n+com.ela.mat, bal,\n+act.fib\n \n \u03a9\n \n continues on next page\n \n 128\n \n@@ -7422,25 +7432,25 @@\n \n \u2112\ud835\udf0f (\ud835\udc62)\ud835\udc52 (\ud835\udeff\ud835\udc63)/\ud835\udc3d\n name/class\n \n \ud835\udc56\ud835\udc57\n \n examples\n-hyp.ul, hyp.ul.up\n+hyp.ul.up, hyp.ul\n \n \ud835\udc56\ud835\udc57\n \n \u03a9\n \n dw_ul_he_neohook ,\n NeoHookeanULTerm,\n \n \n-hyp.ul, hyp.ul.up\n+hyp.ul.up, hyp.ul\n \u222b\ufe01\n \u2112\ud835\udf0f\ud835\udc56\ud835\udc57 (\ud835\udc62)\ud835\udc52\ud835\udc56\ud835\udc57 (\ud835\udeff\ud835\udc63)/\ud835\udc3d\n \u03a9\n \n dw_ul_volume\n VolumeULTerm\n \n"}]}]}, {"source1": "./usr/share/doc/python-sfepy-doc/html/_sources/term_table.rst.txt", "source2": "./usr/share/doc/python-sfepy-doc/html/_sources/term_table.rst.txt", "unified_diff": "@@ -53,15 +53,15 @@\n \n ````, ````, ````\n \n ````, ````, ````\n - .. math::\n \\int_{\\Omega} p\\ \\alpha_{ij} e_{ij}(\\ul{v}) \\mbox{ , }\n \\int_{\\Omega} q\\ \\alpha_{ij} e_{ij}(\\ul{u})\n- - :ref:`the.ela `, :ref:`bio.npb.lag `, :ref:`bio.sho.syn `, :ref:`the.ela.ess `, :ref:`bio.npb `, :ref:`bio `\n+ - :ref:`bio.sho.syn `, :ref:`the.ela `, :ref:`bio.npb.lag `, :ref:`bio `, :ref:`the.ela.ess `, :ref:`bio.npb `\n * - ev_cauchy_strain\n \n :class:`CauchyStrainTerm `\n - ````\n - .. math::\n \\int_{\\cal{D}} \\ull{e}(\\ul{w})\n \n@@ -141,15 +141,15 @@\n \n where\n \n \n .. math::\n \\ul{f}^{*}(p_{in}, p_{out}) = \\ul{a} \\frac{p_{in} +\n p_{out}}{2} + (1 - \\alpha) \\ul{n} C \\frac{ p_{in} - p_{out}}{2},\n- - :ref:`adv.dif.2D `, :ref:`adv.2D `, :ref:`adv.1D `\n+ - :ref:`adv.2D `, :ref:`adv.1D `, :ref:`adv.dif.2D `\n * - dw_dg_diffusion_flux\n \n :class:`DiffusionDGFluxTerm `\n - ````, ````, ````\n \n ````, ````, ````\n - .. math::\n@@ -161,29 +161,29 @@\n \n .. math::\n \\langle \\nabla \\phi \\rangle = \\frac{\\nabla\\phi_{in} +\n \\nabla\\phi_{out}}{2}\n \n .. math::\n [\\phi] = \\phi_{in} - \\phi_{out}\n- - :ref:`adv.dif.2D `, :ref:`bur.2D `, :ref:`lap.2D `\n+ - :ref:`lap.2D `, :ref:`bur.2D `, :ref:`adv.dif.2D `\n * - dw_dg_interior_penalty\n \n :class:`DiffusionInteriorPenaltyTerm `\n - ````, ````, ````, ````\n - .. math::\n \\int_{\\partial{T_K}} \\bar{D} C_w\n \\frac{Ord^2}{d(\\partial{T_K})}[p][q]\n \n where\n \n \n .. math::\n [\\phi] = \\phi_{in} - \\phi_{out}\n- - :ref:`adv.dif.2D `, :ref:`bur.2D `, :ref:`lap.2D `\n+ - :ref:`lap.2D `, :ref:`bur.2D `, :ref:`adv.dif.2D `\n * - dw_dg_nonlinear_laxfrie_flux\n \n :class:`NonlinearHyperbolicDGFluxTerm `\n - ````, ````, ````, ````, ````\n - .. math::\n \\int_{\\partial{T_K}} \\ul{n} \\cdot f^{*} (p_{in}, p_{out})q\n \n@@ -233,27 +233,27 @@\n :class:`DiffusionTerm `\n - ````, ````, ````\n \n ````, ````, ````\n - .. math::\n \\int_{\\Omega} K_{ij} \\nabla_i q \\nabla_j p \\mbox{ , }\n \\int_{\\Omega} K_{ij} \\nabla_i \\bar{p} \\nabla_j r\n- - :ref:`bio.npb.lag `, :ref:`bio.sho.syn `, :ref:`dar.flo.mul `, :ref:`bio.npb `, :ref:`pie.ela `, :ref:`bio `, :ref:`poi.neu `\n+ - :ref:`dar.flo.mul `, :ref:`bio.sho.syn `, :ref:`bio.npb.lag `, :ref:`bio `, :ref:`pie.ela `, :ref:`poi.neu `, :ref:`bio.npb `\n * - dw_div_grad\n \n :class:`DivGradTerm `\n - ````, ````, ````\n \n ````, ````, ````\n - .. math::\n \\int_{\\Omega} \\nu\\ \\nabla \\ul{v} : \\nabla \\ul{u} \\mbox{ ,\n } \\int_{\\Omega} \\nu\\ \\nabla \\ul{u} : \\nabla \\ul{w} \\\\\n \\int_{\\Omega} \\nabla \\ul{v} : \\nabla \\ul{u} \\mbox{ , }\n \\int_{\\Omega} \\nabla \\ul{u} : \\nabla \\ul{w}\n- - :ref:`sto `, :ref:`sto.sli.bc `, :ref:`nav.sto `, :ref:`nav.sto `, :ref:`sta.nav.sto `, :ref:`nav.sto.iga `\n+ - :ref:`nav.sto `, :ref:`sto.sli.bc `, :ref:`nav.sto.iga `, :ref:`sta.nav.sto `, :ref:`nav.sto `, :ref:`sto `\n * - dw_div\n \n :class:`DivOperatorTerm `\n - ````, ````\n - .. math::\n \\int_{\\Omega} \\nabla \\cdot \\ul{v} \\mbox { or }\n \\int_{\\Omega} c \\nabla \\cdot \\ul{v}\n@@ -284,15 +284,15 @@\n \\int_\\Gamma q \\ul{n} \\cdot \\ul{u} \\mbox{ , } \\int_{\\cal{D}} p r\n \\mbox{ , } \\int_{\\cal{D}} \\ul{u} \\cdot \\ul{w} \\mbox{ , }\n \\int_\\Gamma \\ul{w} \\cdot \\ul{n} p \\\\ \\int_{\\cal{D}} c q p \\mbox{ ,\n } \\int_{\\cal{D}} c \\ul{v} \\cdot \\ul{u} \\mbox{ , } \\int_{\\cal{D}} c\n p r \\mbox{ , } \\int_{\\cal{D}} c \\ul{u} \\cdot \\ul{w} \\\\\n \\int_{\\cal{D}} \\ul{v} \\cdot \\ull{M} \\cdot \\ul{u} \\mbox{ , }\n \\int_{\\cal{D}} \\ul{u} \\cdot \\ull{M} \\cdot \\ul{w}\n- - :ref:`aco `, :ref:`bor `, :ref:`hyd `, :ref:`wel `, :ref:`tim.poi.exp `, :ref:`poi.fun `, :ref:`ela `, :ref:`adv.2D `, :ref:`vib.aco `, :ref:`adv.1D `, :ref:`lin.ela.up `, :ref:`lin.ela.dam `, :ref:`tim.poi `, :ref:`osc `, :ref:`bal `, :ref:`sto.sli.bc `, :ref:`poi.per.bou.con `, :ref:`bur.2D `, :ref:`tim.adv.dif `, :ref:`dar.flo.mul `, :ref:`aco `, :ref:`the.ele `, :ref:`pie.ela `\n+ - :ref:`the.ele `, :ref:`tim.poi `, :ref:`pie.ela `, :ref:`osc `, :ref:`sto.sli.bc `, :ref:`bur.2D `, :ref:`bor `, :ref:`tim.adv.dif `, :ref:`lin.ela.up `, :ref:`poi.per.bou.con `, :ref:`aco `, :ref:`bal `, :ref:`adv.2D `, :ref:`vib.aco `, :ref:`dar.flo.mul `, :ref:`hyd `, :ref:`wel `, :ref:`lin.ela.dam `, :ref:`adv.1D `, :ref:`aco `, :ref:`poi.fun `, :ref:`ela `, :ref:`tim.poi.exp `\n * - dw_elastic_wave_cauchy\n \n :class:`ElasticWaveCauchyTerm `\n - ````, ````, ````, ````\n \n ````, ````, ````, ````\n - .. math::\n@@ -344,15 +344,15 @@\n - \n * - dw_integrate\n \n :class:`IntegrateOperatorTerm `\n - ````, ````\n - .. math::\n \\int_{\\cal{D}} q \\mbox{ or } \\int_{\\cal{D}} c q\n- - :ref:`vib.aco `, :ref:`poi.per.bou.con `, :ref:`aco `, :ref:`aco `, :ref:`dar.flo.mul `, :ref:`poi.neu `\n+ - :ref:`aco `, :ref:`poi.per.bou.con `, :ref:`aco `, :ref:`poi.neu `, :ref:`vib.aco `, :ref:`dar.flo.mul `\n * - ev_integrate\n \n :class:`IntegrateTerm `\n - ````, ````\n - .. math::\n \\int_{\\cal{D}} y \\mbox{ , } \\int_{\\cal{D}} \\ul{y} \\mbox{ ,\n } \\int_\\Gamma \\ul{y} \\cdot \\ul{n}\\\\ \\int_{\\cal{D}} c y \\mbox{ , }\n@@ -384,15 +384,15 @@\n :class:`LaplaceTerm `\n - ````, ````, ````\n \n ````, ````, ````\n - .. math::\n \\int_{\\Omega} c \\nabla q \\cdot \\nabla p \\mbox{ , }\n \\int_{\\Omega} c \\nabla \\bar{p} \\cdot \\nabla r\n- - :ref:`aco `, :ref:`the.ela.ess `, :ref:`bor `, :ref:`poi.fie.dep.mat `, :ref:`hyd `, :ref:`sin `, :ref:`wel `, :ref:`adv.dif.2D `, :ref:`lap.flu.2d `, :ref:`tim.poi.exp `, :ref:`poi.fun `, :ref:`vib.aco `, :ref:`poi.sho.syn `, :ref:`lap.cou.lcb `, :ref:`lap.2D `, :ref:`poi `, :ref:`tim.poi `, :ref:`osc `, :ref:`cub `, :ref:`poi.par.stu `, :ref:`sto.sli.bc `, :ref:`poi.per.bou.con `, :ref:`bur.2D `, :ref:`tim.adv.dif `, :ref:`aco `, :ref:`the.ele `, :ref:`lap.tim.ebc `, :ref:`poi.iga `, :ref:`lap.1d `\n+ - :ref:`lap.tim.ebc `, :ref:`the.ele `, :ref:`tim.poi `, :ref:`sin `, :ref:`lap.2D `, :ref:`poi.sho.syn `, :ref:`osc `, :ref:`sto.sli.bc `, :ref:`bur.2D `, :ref:`bor `, :ref:`tim.adv.dif `, :ref:`the.ela.ess `, :ref:`poi.per.bou.con `, :ref:`aco `, :ref:`poi.iga `, :ref:`lap.cou.lcb `, :ref:`lap.flu.2d `, :ref:`adv.dif.2D `, :ref:`poi `, :ref:`vib.aco `, :ref:`lap.1d `, :ref:`poi.fie.dep.mat `, :ref:`hyd `, :ref:`wel `, :ref:`poi.par.stu `, :ref:`aco `, :ref:`cub `, :ref:`poi.fun `, :ref:`tim.poi.exp `\n * - dw_lin_convect2\n \n :class:`LinearConvect2Term `\n - ````, ````, ````\n - .. math::\n \\int_{\\Omega} ((\\ul{b} \\cdot \\nabla) \\ul{u}) \\cdot \\ul{v}\n \n@@ -424,15 +424,15 @@\n \n :class:`LinearElasticTerm `\n - ````, ````, ````\n \n ````, ````, ````\n - .. math::\n \\int_{\\Omega} D_{ijkl}\\ e_{ij}(\\ul{v}) e_{kl}(\\ul{u})\n- - :ref:`the.ela `, :ref:`bio.npb.lag `, :ref:`lin.ela.tra `, :ref:`its.1 `, :ref:`its.2 `, :ref:`the.ela.ess `, :ref:`lin.ela `, :ref:`lin.vis `, :ref:`pre.fib `, :ref:`ela.con.sph `, :ref:`bio.npb `, :ref:`ela.shi.per `, :ref:`ela.con.pla `, :ref:`ela `, :ref:`nod.lcb `, :ref:`lin.ela.iga `, :ref:`bio.sho.syn `, :ref:`lin.ela.up `, :ref:`lin.ela.dam `, :ref:`pie.ela.mac `, :ref:`com.ela.mat `, :ref:`lin.ela.opt `, :ref:`its.4 `, :ref:`pie.ela `, :ref:`mat.non `, :ref:`its.3 `, :ref:`bio `, :ref:`lin.ela.mM `, :ref:`two.bod.con `\n+ - :ref:`two.bod.con `, :ref:`pre.fib `, :ref:`lin.ela `, :ref:`pie.ela `, :ref:`ela.con.sph `, :ref:`mat.non `, :ref:`its.2 `, :ref:`pie.ela.mac `, :ref:`nod.lcb `, :ref:`the.ela `, :ref:`the.ela.ess `, :ref:`lin.ela.up `, :ref:`ela.shi.per `, :ref:`its.4 `, :ref:`its.3 `, :ref:`com.ela.mat `, :ref:`bio.sho.syn `, :ref:`lin.ela.opt `, :ref:`lin.vis `, :ref:`lin.ela.mM `, :ref:`lin.ela.tra `, :ref:`lin.ela.dam `, :ref:`ela.con.pla `, :ref:`bio.npb.lag `, :ref:`bio `, :ref:`lin.ela.iga `, :ref:`ela `, :ref:`its.1 `, :ref:`bio.npb `\n * - dw_lin_prestress\n \n :class:`LinearPrestressTerm `\n - ````, ````\n \n ````, ````\n - .. math::\n@@ -514,15 +514,15 @@\n * - dw_point_load\n \n :class:`ConcentratedPointLoadTerm `\n - ````, ````\n - .. math::\n \\ul{f}^i = \\ul{\\bar f}^i \\quad \\forall \\mbox{ FE node } i\n \\mbox{ in a region }\n- - :ref:`she.can `, :ref:`its.1 `, :ref:`its.2 `, :ref:`its.4 `, :ref:`its.3 `\n+ - :ref:`its.1 `, :ref:`she.can `, :ref:`its.4 `, :ref:`its.3 `, :ref:`its.2 `\n * - dw_point_lspring\n \n :class:`LinearPointSpringTerm `\n - ````, ````, ````\n - .. math::\n \\ul{f}^i = -k \\ul{u}^i \\quad \\forall \\mbox{ FE node } i\n \\mbox{ in a region }\n@@ -539,15 +539,15 @@\n :class:`ScalarDotMGradScalarTerm `\n - ````, ````, ````\n \n ````, ````, ````\n - .. math::\n \\int_{\\Omega} q \\ul{y} \\cdot \\nabla p \\mbox{ , }\n \\int_{\\Omega} p \\ul{y} \\cdot \\nabla q\n- - :ref:`adv.dif.2D `, :ref:`adv.2D `, :ref:`adv.1D `\n+ - :ref:`adv.2D `, :ref:`adv.1D `, :ref:`adv.dif.2D `\n * - dw_shell10x\n \n :class:`Shell10XTerm `\n - ````, ````, ````, ````\n - .. math::\n \\int_{\\Omega} D_{ijkl}\\ e_{ij}(\\ul{v}) e_{kl}(\\ul{u})\n - :ref:`she.can `\n@@ -579,15 +579,15 @@\n \n ````, ````, ````\n - .. math::\n \\int_{\\Omega} p\\ \\nabla \\cdot \\ul{v} \\mbox{ , }\n \\int_{\\Omega} q\\ \\nabla \\cdot \\ul{u} \\mbox{ or } \\int_{\\Omega} c\\\n p\\ \\nabla \\cdot \\ul{v} \\mbox{ , } \\int_{\\Omega} c\\ q\\ \\nabla \\cdot\n \\ul{u}\n- - :ref:`sto `, :ref:`sto.sli.bc `, :ref:`nav.sto `, :ref:`lin.ela.up `, :ref:`nav.sto `, :ref:`sta.nav.sto `, :ref:`nav.sto.iga `\n+ - :ref:`nav.sto `, :ref:`sto.sli.bc `, :ref:`nav.sto.iga `, :ref:`sta.nav.sto `, :ref:`lin.ela.up `, :ref:`nav.sto `, :ref:`sto `\n * - ev_sum_vals\n \n :class:`SumNodalValuesTerm `\n - ````\n - \n - \n * - dw_surface_flux\n@@ -617,15 +617,15 @@\n :class:`LinearTractionTerm `\n - ````, ````\n \n ````, ````\n - .. math::\n \\int_{\\Gamma} \\ul{v} \\cdot \\ull{\\sigma} \\cdot \\ul{n},\n \\int_{\\Gamma} \\ul{v} \\cdot \\ul{n},\n- - :ref:`com.ela.mat `, :ref:`nod.lcb `, :ref:`lin.ela.tra `, :ref:`lin.ela.opt `, :ref:`lin.vis `, :ref:`ela.shi.per `\n+ - :ref:`nod.lcb `, :ref:`lin.ela.tra `, :ref:`lin.ela.opt `, :ref:`lin.vis `, :ref:`ela.shi.per `, :ref:`com.ela.mat `\n * - ev_surface_moment\n \n :class:`SurfaceMomentTerm `\n - ````, ````\n - .. math::\n \\int_{\\Gamma} \\ul{n} (\\ul{x} - \\ul{x}_0)\n - \n@@ -668,15 +668,15 @@\n * - dw_volume_lvf\n \n :class:`LinearVolumeForceTerm `\n - ````, ````\n - .. math::\n \\int_{\\Omega} \\ul{f} \\cdot \\ul{v} \\mbox{ or }\n \\int_{\\Omega} f q\n- - :ref:`adv.dif.2D `, :ref:`poi.iga `, :ref:`poi.par.stu `, :ref:`bur.2D `\n+ - :ref:`poi.iga `, :ref:`bur.2D `, :ref:`poi.par.stu `, :ref:`adv.dif.2D `\n * - ev_volume_surface\n \n :class:`VolumeSurfaceTerm `\n - ````\n - .. math::\n 1 / D \\int_\\Gamma \\ul{x} \\cdot \\ul{n}\n - \n@@ -845,15 +845,15 @@\n - \n * - dw_tl_bulk_penalty\n \n :class:`BulkPenaltyTLTerm `\n - ````, ````, ````\n - .. math::\n \\int_{\\Omega} S_{ij}(\\ul{u}) \\delta E_{ij}(\\ul{u};\\ul{v})\n- - :ref:`com.ela.mat `, :ref:`act.fib `, :ref:`hyp `\n+ - :ref:`hyp `, :ref:`act.fib `, :ref:`com.ela.mat `\n * - dw_tl_bulk_pressure\n \n :class:`BulkPressureTLTerm `\n - ````, ````, ````\n - .. math::\n \\int_{\\Omega} S_{ij}(p) \\delta E_{ij}(\\ul{u};\\ul{v})\n - :ref:`per.tl `, :ref:`bal `\n@@ -881,22 +881,22 @@\n - \n * - dw_tl_he_mooney_rivlin\n \n :class:`MooneyRivlinTLTerm `\n - ````, ````, ````\n - .. math::\n \\int_{\\Omega} S_{ij}(\\ul{u}) \\delta E_{ij}(\\ul{u};\\ul{v})\n- - :ref:`com.ela.mat `, :ref:`bal `, :ref:`hyp `\n+ - :ref:`hyp `, :ref:`bal `, :ref:`com.ela.mat `\n * - dw_tl_he_neohook\n \n :class:`NeoHookeanTLTerm `\n - ````, ````, ````\n - .. math::\n \\int_{\\Omega} S_{ij}(\\ul{u}) \\delta E_{ij}(\\ul{u};\\ul{v})\n- - :ref:`com.ela.mat `, :ref:`bal `, :ref:`act.fib `, :ref:`per.tl `, :ref:`hyp `\n+ - :ref:`bal `, :ref:`act.fib `, :ref:`hyp `, :ref:`per.tl `, :ref:`com.ela.mat `\n * - dw_tl_he_ogden\n \n :class:`OgdenTLTerm `\n - ````, ````, ````\n - .. math::\n \\int_{\\Omega} S_{ij}(\\ul{u}) \\delta E_{ij}(\\ul{u};\\ul{v})\n - \n@@ -966,23 +966,23 @@\n * - dw_ul_he_mooney_rivlin\n \n :class:`MooneyRivlinULTerm `\n - ````, ````, ````\n - .. math::\n \\int_{\\Omega} \\mathcal{L}\\tau_{ij}(\\ul{u})\n e_{ij}(\\delta\\ul{v})/J\n- - :ref:`hyp.ul `, :ref:`hyp.ul.up `\n+ - :ref:`hyp.ul.up `, :ref:`hyp.ul `\n * - dw_ul_he_neohook\n \n :class:`NeoHookeanULTerm `\n - ````, ````, ````\n - .. math::\n \\int_{\\Omega} \\mathcal{L}\\tau_{ij}(\\ul{u})\n e_{ij}(\\delta\\ul{v})/J\n- - :ref:`hyp.ul `, :ref:`hyp.ul.up `\n+ - :ref:`hyp.ul.up `, :ref:`hyp.ul `\n * - dw_ul_volume\n \n :class:`VolumeULTerm `\n - ````, ````\n - .. math::\n \\begin{array}{l} \\int_{\\Omega} q J(\\ul{u}) \\\\ \\mbox{volume\n mode: vector for } K \\from \\Ical_h: \\int_{T_K} J(\\ul{u}) \\\\\n"}, {"source1": "./usr/share/doc/python-sfepy-doc/html/searchindex.js", "source2": "./usr/share/doc/python-sfepy-doc/html/searchindex.js", "unified_diff": null, "details": [{"source1": "js-beautify {}", "source2": "js-beautify {}", "unified_diff": "@@ -9298,53 +9298,53 @@\n \"nonlinear_hyperelastic_mm\": 243,\n \"subprocess\": 244,\n \"captur\": 244,\n \"stderr\": 244,\n \"return_item\": 244,\n \"tim\": [245, 246],\n \"adv\": [245, 246],\n- \"ela\": [245, 246],\n \"bio\": [245, 246],\n- \"npb\": [245, 246],\n- \"lag\": [245, 246],\n \"sho\": [245, 246],\n \"syn\": [245, 246],\n+ \"ela\": [245, 246],\n+ \"npb\": [245, 246],\n+ \"lag\": [245, 246],\n \"ess\": [245, 246],\n \"con\": [245, 246],\n \"pla\": [245, 246],\n \"bod\": [245, 246],\n \"poi\": [245, 246],\n \"nav\": [245, 246],\n \"sto\": [245, 246],\n- \"bur\": [245, 246],\n \"lap\": [245, 246],\n+ \"bur\": [245, 246],\n \"dar\": [245, 246],\n \"flo\": [245, 246],\n \"pie\": [245, 246],\n \"sli\": [245, 246],\n \"sta\": [245, 246],\n- \"aco\": [245, 246],\n+ \"osc\": [245, 246],\n \"bor\": [245, 246],\n+ \"bou\": [245, 246],\n+ \"aco\": [245, 246],\n+ \"bal\": [245, 246],\n+ \"vib\": [245, 246],\n \"hyd\": [245, 246],\n \"wel\": [245, 246],\n- \"vib\": [245, 246],\n \"dam\": [245, 246],\n- \"osc\": [245, 246],\n- \"bal\": [245, 246],\n- \"bou\": [245, 246],\n- \"fie\": [245, 246],\n- \"flu\": [245, 246],\n \"cou\": [245, 246],\n \"lcb\": [245, 246],\n- \"cub\": [245, 246],\n+ \"flu\": [245, 246],\n+ \"fie\": [245, 246],\n \"stu\": [245, 246],\n- \"tra\": [245, 246],\n- \"vi\": [245, 246],\n+ \"cub\": [245, 246],\n \"fib\": [245, 246],\n \"shi\": [245, 246],\n+ \"vi\": [245, 246],\n+ \"tra\": [245, 246],\n \"hyp\": [245, 246],\n \"she\": [245, 246],\n \"u_m\": 246,\n \"kinemat\": 246,\n \"kroneck\": 246,\n \"bullet_\": 246,\n \"tcal_h\": 246,\n"}]}, {"source1": "./usr/share/doc/python-sfepy-doc/html/term_table.html", "source2": "./usr/share/doc/python-sfepy-doc/html/term_table.html", "unified_diff": "@@ -185,15 +185,15 @@\n

<material>, <state>, <virtual>

\n

<material>, <parameter_v>, <parameter_s>

\n \n
\n

\\int_{\\Omega} p\\ \\alpha_{ij} e_{ij}(\\ul{v}) \\mbox{ , }\n \\int_{\\Omega} q\\ \\alpha_{ij} e_{ij}(\\ul{u})

\n
\n-

the.ela, bio.npb.lag, bio.sho.syn, the.ela.ess, bio.npb, bio

\n+

bio.sho.syn, the.ela, bio.npb.lag, bio, the.ela.ess, bio.npb

\n \n

ev_cauchy_strain

\n

CauchyStrainTerm

\n \n

<parameter>

\n
\n

\\int_{\\cal{D}} \\ull{e}(\\ul{w})

\n@@ -284,15 +284,15 @@\n

\\int_{\\partial{T_K}} \\ul{n} \\cdot \\ul{f}^{*} (p_{in},\n p_{out})q

\n

where

\n
\n

\\ul{f}^{*}(p_{in}, p_{out}) = \\ul{a} \\frac{p_{in} +\n p_{out}}{2} + (1 - \\alpha) \\ul{n} C \\frac{ p_{in} - p_{out}}{2},

\n
\n-

adv.dif.2D, adv.2D, adv.1D

\n+

adv.2D, adv.1D, adv.dif.2D

\n \n

dw_dg_diffusion_flux

\n

DiffusionDGFluxTerm

\n \n

<material>, <state>, <virtual>

\n

<material>, <virtual>, <state>

\n \n@@ -302,28 +302,28 @@\n

where

\n
\n

\\langle \\nabla \\phi \\rangle = \\frac{\\nabla\\phi_{in} +\n \\nabla\\phi_{out}}{2}

\n
\n

[\\phi] = \\phi_{in} - \\phi_{out}

\n
\n-

adv.dif.2D, bur.2D, lap.2D

\n+

lap.2D, bur.2D, adv.dif.2D

\n \n

dw_dg_interior_penalty

\n

DiffusionInteriorPenaltyTerm

\n \n

<material>, <material_Cw>, <virtual>, <state>

\n
\n

\\int_{\\partial{T_K}} \\bar{D} C_w\n \\frac{Ord^2}{d(\\partial{T_K})}[p][q]

\n

where

\n
\n

[\\phi] = \\phi_{in} - \\phi_{out}

\n
\n-

adv.dif.2D, bur.2D, lap.2D

\n+

lap.2D, bur.2D, adv.dif.2D

\n \n

dw_dg_nonlinear_laxfrie_flux

\n

NonlinearHyperbolicDGFluxTerm

\n \n

<opt_material>, <fun>, <fun_d>, <virtual>, <state>

\n
\n

\\int_{\\partial{T_K}} \\ul{n} \\cdot f^{*} (p_{in}, p_{out})q

\n@@ -377,29 +377,29 @@\n

<material>, <virtual>, <state>

\n

<material>, <parameter_1>, <parameter_2>

\n \n
\n

\\int_{\\Omega} K_{ij} \\nabla_i q \\nabla_j p \\mbox{ , }\n \\int_{\\Omega} K_{ij} \\nabla_i \\bar{p} \\nabla_j r

\n
\n-

bio.npb.lag, bio.sho.syn, dar.flo.mul, bio.npb, pie.ela, bio, poi.neu

\n+

dar.flo.mul, bio.sho.syn, bio.npb.lag, bio, pie.ela, poi.neu, bio.npb

\n \n

dw_div_grad

\n

DivGradTerm

\n \n

<opt_material>, <virtual>, <state>

\n

<opt_material>, <parameter_1>, <parameter_2>

\n \n
\n

\\int_{\\Omega} \\nu\\ \\nabla \\ul{v} : \\nabla \\ul{u} \\mbox{ ,\n } \\int_{\\Omega} \\nu\\ \\nabla \\ul{u} : \\nabla \\ul{w} \\\\\n \\int_{\\Omega} \\nabla \\ul{v} : \\nabla \\ul{u} \\mbox{ , }\n \\int_{\\Omega} \\nabla \\ul{u} : \\nabla \\ul{w}

\n
\n-

sto, sto.sli.bc, nav.sto, nav.sto, sta.nav.sto, nav.sto.iga

\n+

nav.sto, sto.sli.bc, nav.sto.iga, sta.nav.sto, nav.sto, sto

\n \n

dw_div

\n

DivOperatorTerm

\n \n

<opt_material>, <virtual>

\n
\n

\\int_{\\Omega} \\nabla \\cdot \\ul{v} \\mbox { or }\n@@ -434,15 +434,15 @@\n \\mbox{ , } \\int_{\\cal{D}} \\ul{u} \\cdot \\ul{w} \\mbox{ , }\n \\int_\\Gamma \\ul{w} \\cdot \\ul{n} p \\\\ \\int_{\\cal{D}} c q p \\mbox{ ,\n } \\int_{\\cal{D}} c \\ul{v} \\cdot \\ul{u} \\mbox{ , } \\int_{\\cal{D}} c\n p r \\mbox{ , } \\int_{\\cal{D}} c \\ul{u} \\cdot \\ul{w} \\\\\n \\int_{\\cal{D}} \\ul{v} \\cdot \\ull{M} \\cdot \\ul{u} \\mbox{ , }\n \\int_{\\cal{D}} \\ul{u} \\cdot \\ull{M} \\cdot \\ul{w}

\n
\n-

aco, bor, hyd, wel, tim.poi.exp, poi.fun, ela, adv.2D, vib.aco, adv.1D, lin.ela.up, lin.ela.dam, tim.poi, osc, bal, sto.sli.bc, poi.per.bou.con, bur.2D, tim.adv.dif, dar.flo.mul, aco, the.ele, pie.ela

\n+

the.ele, tim.poi, pie.ela, osc, sto.sli.bc, bur.2D, bor, tim.adv.dif, lin.ela.up, poi.per.bou.con, aco, bal, adv.2D, vib.aco, dar.flo.mul, hyd, wel, lin.ela.dam, adv.1D, aco, poi.fun, ela, tim.poi.exp

\n \n

dw_elastic_wave_cauchy

\n

ElasticWaveCauchyTerm

\n \n

<material_1>, <material_2>, <virtual>, <state>

\n

<material_1>, <material_2>, <state>, <virtual>

\n \n@@ -502,15 +502,15 @@\n

dw_integrate

\n

IntegrateOperatorTerm

\n \n

<opt_material>, <virtual>

\n
\n

\\int_{\\cal{D}} q \\mbox{ or } \\int_{\\cal{D}} c q

\n
\n-

vib.aco, poi.per.bou.con, aco, aco, dar.flo.mul, poi.neu

\n+

aco, poi.per.bou.con, aco, poi.neu, vib.aco, dar.flo.mul

\n \n

ev_integrate

\n

IntegrateTerm

\n \n

<opt_material>, <parameter>

\n
\n

\\int_{\\cal{D}} y \\mbox{ , } \\int_{\\cal{D}} \\ul{y} \\mbox{ ,\n@@ -546,15 +546,15 @@\n

<opt_material>, <virtual>, <state>

\n

<opt_material>, <parameter_1>, <parameter_2>

\n \n
\n

\\int_{\\Omega} c \\nabla q \\cdot \\nabla p \\mbox{ , }\n \\int_{\\Omega} c \\nabla \\bar{p} \\cdot \\nabla r

\n
\n-

aco, the.ela.ess, bor, poi.fie.dep.mat, hyd, sin, wel, adv.dif.2D, lap.flu.2d, tim.poi.exp, poi.fun, vib.aco, poi.sho.syn, lap.cou.lcb, lap.2D, poi, tim.poi, osc, cub, poi.par.stu, sto.sli.bc, poi.per.bou.con, bur.2D, tim.adv.dif, aco, the.ele, lap.tim.ebc, poi.iga, lap.1d

\n+

lap.tim.ebc, the.ele, tim.poi, sin, lap.2D, poi.sho.syn, osc, sto.sli.bc, bur.2D, bor, tim.adv.dif, the.ela.ess, poi.per.bou.con, aco, poi.iga, lap.cou.lcb, lap.flu.2d, adv.dif.2D, poi, vib.aco, lap.1d, poi.fie.dep.mat, hyd, wel, poi.par.stu, aco, cub, poi.fun, tim.poi.exp

\n \n

dw_lin_convect2

\n

LinearConvect2Term

\n \n

<material>, <virtual>, <state>

\n
\n

\\int_{\\Omega} ((\\ul{b} \\cdot \\nabla) \\ul{u}) \\cdot \\ul{v}

\n@@ -592,15 +592,15 @@\n \n

<material>, <virtual>, <state>

\n

<material>, <parameter_1>, <parameter_2>

\n \n
\n

\\int_{\\Omega} D_{ijkl}\\ e_{ij}(\\ul{v}) e_{kl}(\\ul{u})

\n
\n-

the.ela, bio.npb.lag, lin.ela.tra, its.1, its.2, the.ela.ess, lin.ela, lin.vis, pre.fib, ela.con.sph, bio.npb, ela.shi.per, ela.con.pla, ela, nod.lcb, lin.ela.iga, bio.sho.syn, lin.ela.up, lin.ela.dam, pie.ela.mac, com.ela.mat, lin.ela.opt, its.4, pie.ela, mat.non, its.3, bio, lin.ela.mM, two.bod.con

\n+

two.bod.con, pre.fib, lin.ela, pie.ela, ela.con.sph, mat.non, its.2, pie.ela.mac, nod.lcb, the.ela, the.ela.ess, lin.ela.up, ela.shi.per, its.4, its.3, com.ela.mat, bio.sho.syn, lin.ela.opt, lin.vis, lin.ela.mM, lin.ela.tra, lin.ela.dam, ela.con.pla, bio.npb.lag, bio, lin.ela.iga, ela, its.1, bio.npb

\n \n

dw_lin_prestress

\n

LinearPrestressTerm

\n \n

<material>, <virtual>

\n

<material>, <parameter>

\n \n@@ -701,15 +701,15 @@\n

ConcentratedPointLoadTerm

\n \n

<material>, <virtual>

\n
\n

\\ul{f}^i = \\ul{\\bar f}^i \\quad \\forall \\mbox{ FE node } i\n \\mbox{ in a region }

\n
\n-

she.can, its.1, its.2, its.4, its.3

\n+

its.1, she.can, its.4, its.3, its.2

\n \n

dw_point_lspring

\n

LinearPointSpringTerm

\n \n

<material>, <virtual>, <state>

\n
\n

\\ul{f}^i = -k \\ul{u}^i \\quad \\forall \\mbox{ FE node } i\n@@ -732,15 +732,15 @@\n

<material>, <virtual>, <state>

\n

<material>, <state>, <virtual>

\n \n
\n

\\int_{\\Omega} q \\ul{y} \\cdot \\nabla p \\mbox{ , }\n \\int_{\\Omega} p \\ul{y} \\cdot \\nabla q

\n
\n-

adv.dif.2D, adv.2D, adv.1D

\n+

adv.2D, adv.1D, adv.dif.2D

\n \n

dw_shell10x

\n

Shell10XTerm

\n \n

<material_d>, <material_drill>, <virtual>, <state>

\n
\n

\\int_{\\Omega} D_{ijkl}\\ e_{ij}(\\ul{v}) e_{kl}(\\ul{u})

\n@@ -779,15 +779,15 @@\n \n
\n

\\int_{\\Omega} p\\ \\nabla \\cdot \\ul{v} \\mbox{ , }\n \\int_{\\Omega} q\\ \\nabla \\cdot \\ul{u} \\mbox{ or } \\int_{\\Omega} c\\\n p\\ \\nabla \\cdot \\ul{v} \\mbox{ , } \\int_{\\Omega} c\\ q\\ \\nabla \\cdot\n \\ul{u}

\n
\n-

sto, sto.sli.bc, nav.sto, lin.ela.up, nav.sto, sta.nav.sto, nav.sto.iga

\n+

nav.sto, sto.sli.bc, nav.sto.iga, sta.nav.sto, lin.ela.up, nav.sto, sto

\n \n

ev_sum_vals

\n

SumNodalValuesTerm

\n \n

<parameter>

\n \n \n@@ -822,15 +822,15 @@\n

<opt_material>, <virtual>

\n

<opt_material>, <parameter>

\n \n
\n

\\int_{\\Gamma} \\ul{v} \\cdot \\ull{\\sigma} \\cdot \\ul{n},\n \\int_{\\Gamma} \\ul{v} \\cdot \\ul{n},

\n
\n-

com.ela.mat, nod.lcb, lin.ela.tra, lin.ela.opt, lin.vis, ela.shi.per

\n+

nod.lcb, lin.ela.tra, lin.ela.opt, lin.vis, ela.shi.per, com.ela.mat

\n \n

ev_surface_moment

\n

SurfaceMomentTerm

\n \n

<material>, <parameter>

\n
\n

\\int_{\\Gamma} \\ul{n} (\\ul{x} - \\ul{x}_0)

\n@@ -881,15 +881,15 @@\n

LinearVolumeForceTerm

\n \n

<material>, <virtual>

\n
\n

\\int_{\\Omega} \\ul{f} \\cdot \\ul{v} \\mbox{ or }\n \\int_{\\Omega} f q

\n
\n-

adv.dif.2D, poi.iga, poi.par.stu, bur.2D

\n+

poi.iga, bur.2D, poi.par.stu, adv.dif.2D

\n \n

ev_volume_surface

\n

VolumeSurfaceTerm

\n \n

<parameter>

\n
\n

1 / D \\int_\\Gamma \\ul{x} \\cdot \\ul{n}

\n@@ -1094,15 +1094,15 @@\n

dw_tl_bulk_penalty

\n

BulkPenaltyTLTerm

\n \n

<material>, <virtual>, <state>

\n
\n

\\int_{\\Omega} S_{ij}(\\ul{u}) \\delta E_{ij}(\\ul{u};\\ul{v})

\n
\n-

com.ela.mat, act.fib, hyp

\n+

hyp, act.fib, com.ela.mat

\n \n

dw_tl_bulk_pressure

\n

BulkPressureTLTerm

\n \n

<virtual>, <state>, <state_p>

\n
\n

\\int_{\\Omega} S_{ij}(p) \\delta E_{ij}(\\ul{u};\\ul{v})

\n@@ -1140,24 +1140,24 @@\n

dw_tl_he_mooney_rivlin

\n

MooneyRivlinTLTerm

\n \n

<material>, <virtual>, <state>

\n
\n

\\int_{\\Omega} S_{ij}(\\ul{u}) \\delta E_{ij}(\\ul{u};\\ul{v})

\n
\n-

com.ela.mat, bal, hyp

\n+

hyp, bal, com.ela.mat

\n \n

dw_tl_he_neohook

\n

NeoHookeanTLTerm

\n \n

<material>, <virtual>, <state>

\n
\n

\\int_{\\Omega} S_{ij}(\\ul{u}) \\delta E_{ij}(\\ul{u};\\ul{v})

\n
\n-

com.ela.mat, bal, act.fib, per.tl, hyp

\n+

bal, act.fib, hyp, per.tl, com.ela.mat

\n \n

dw_tl_he_ogden

\n

OgdenTLTerm

\n \n

<material>, <virtual>, <state>

\n
\n

\\int_{\\Omega} S_{ij}(\\ul{u}) \\delta E_{ij}(\\ul{u};\\ul{v})

\n@@ -1246,25 +1246,25 @@\n

MooneyRivlinULTerm

\n \n

<material>, <virtual>, <state>

\n
\n

\\int_{\\Omega} \\mathcal{L}\\tau_{ij}(\\ul{u})\n e_{ij}(\\delta\\ul{v})/J

\n
\n-

hyp.ul, hyp.ul.up

\n+

hyp.ul.up, hyp.ul

\n \n

dw_ul_he_neohook

\n

NeoHookeanULTerm

\n \n

<material>, <virtual>, <state>

\n
\n

\\int_{\\Omega} \\mathcal{L}\\tau_{ij}(\\ul{u})\n e_{ij}(\\delta\\ul{v})/J

\n
\n-

hyp.ul, hyp.ul.up

\n+

hyp.ul.up, hyp.ul

\n \n

dw_ul_volume

\n

VolumeULTerm

\n \n

<virtual>, <state>

\n
\n

\\begin{array}{l} \\int_{\\Omega} q J(\\ul{u}) \\\\ \\mbox{volume\n", "details": [{"source1": "html2text {}", "source2": "html2text {}", "unified_diff": "@@ -53,20 +53,20 @@\n \\int_{T_K}\n \\alpha_{ij}\n \\bar{p} /\n \\int_{T_K} 1\n - \\alpha_{ij}\n \\bar{p}|_{qp}\n \\int_{\\Omega}\n- , p\\ \\alpha_\n+ , p\\ \\alpha_ bio.sho.syn,\n , {ij} e_{ij} the.ela,\n dw_biot , (\\ul{v}) bio.npb.lag,\n-BiotTerm , \\mbox{ , } bio.sho.syn,\n+BiotTerm , \\mbox{ , } bio,\n , \\int_{\\Omega} the.ela.ess,\n- , q\\ \\alpha_ bio.npb, bio\n+ , q\\ \\alpha_ bio.npb\n {ij} e_{ij}\n (\\ul{u})\n \\int_{\\cal\n {D}} \\ull{e}\n (\\ul{w})\n \\mbox{vector\n for } K \\from\n@@ -134,16 +134,16 @@\n {\\partial\n {T_K}} \\ul{n}\n \\cdot \\ul{f}^\n {*} (p_{in},\n p_{out})q\n where\n , \\ul{f}^{*}(p_\n-dw_dg_advect_laxfrie_flux , {in}, p_ adv.dif.2D,\n-AdvectionDGFluxTerm , {out}) = \\ul adv.2D, adv.1D\n+dw_dg_advect_laxfrie_flux , {in}, p_ adv.2D, adv.1D,\n+AdvectionDGFluxTerm , {out}) = \\ul adv.dif.2D\n {a} \\frac{p_\n {in} + p_\n {out}}{2} +\n (1 - \\alpha)\n \\ul{n} C\n \\frac{ p_{in}\n - p_{out}}\n@@ -155,16 +155,16 @@\n \\nabla p\n \\rangle [q]\n \\mbox{ , }\n \\int_\n {\\partial\n {T_K}} D\n , \\langle\n-dw_dg_diffusion_flux , \\nabla q adv.dif.2D,\n-DiffusionDGFluxTerm , \\rangle [p] bur.2D, lap.2D\n+dw_dg_diffusion_flux , \\nabla q lap.2D, bur.2D,\n+DiffusionDGFluxTerm , \\rangle [p] adv.dif.2D\n , where\n \\langle\n \\nabla \\phi\n \\rangle =\n \\frac\n {\\nabla\\phi_\n {in} +\n@@ -173,16 +173,16 @@\n [\\phi] =\n \\phi_{in} -\n \\phi_{out}\n \\int_\n {\\partial\n {T_K}} \\bar\n {D} C_w \\frac\n-dw_dg_interior_penalty , {Ord^2}{d adv.dif.2D,\n-DiffusionInteriorPenaltyTerm , (\\partial bur.2D, lap.2D\n+dw_dg_interior_penalty , {Ord^2}{d lap.2D, bur.2D,\n+DiffusionInteriorPenaltyTerm , (\\partial adv.dif.2D\n , {T_K})}[p][q]\n where\n [\\phi] =\n \\phi_{in} -\n \\phi_{out}\n \\int_\n {\\partial\n@@ -225,34 +225,34 @@\n \\bar{p} /\n \\int_{T_K} 1\n - K_{ij}\n \\nabla_j \\bar\n {p}\n \\int_{\\Omega}\n K_{ij}\n- , \\nabla_i q bio.npb.lag,\n+ , \\nabla_i q dar.flo.mul,\n , \\nabla_j p bio.sho.syn,\n-dw_diffusion , \\mbox{ , } dar.flo.mul,\n-DiffusionTerm , \\int_{\\Omega} bio.npb,\n- K_{ij} pie.ela, bio,\n- \\nabla_i \\bar poi.neu\n+dw_diffusion , \\mbox{ , } bio.npb.lag,\n+DiffusionTerm , \\int_{\\Omega} bio, pie.ela,\n+ K_{ij} poi.neu, bio.npb\n+ \\nabla_i \\bar\n {p} \\nabla_j\n r\n \\int_{\\Omega}\n \\nu\\ \\nabla\n \\ul{v} :\n \\nabla \\ul{u}\n \\mbox{ , }\n \\int_{\\Omega}\n \\nu\\ \\nabla\n- , \\ul{u} : sto, sto.sli.bc,\n-dw_div_grad , \\nabla \\ul{w} nav.sto,\n-DivGradTerm , \\\\ \\int_ nav.sto,\n+ , \\ul{u} : nav.sto,\n+dw_div_grad , \\nabla \\ul{w} sto.sli.bc,\n+DivGradTerm , \\\\ \\int_ nav.sto.iga,\n , {\\Omega} sta.nav.sto,\n- \\nabla \\ul{v} nav.sto.iga\n+ \\nabla \\ul{v} nav.sto, sto\n : \\nabla \\ul\n {u} \\mbox{ ,\n } \\int_\n {\\Omega}\n \\nabla \\ul{u}\n : \\nabla \\ul\n {w}\n@@ -286,30 +286,30 @@\n \\ul{v} \\cdot\n \\ul{n} p\n \\mbox{ , }\n \\int_\\Gamma q\n \\ul{n} \\cdot\n \\ul{u} \\mbox\n { , } \\int_\n- {\\cal{D}} p r aco, bor, hyd,\n- \\mbox{ , } wel,\n- \\int_{\\cal tim.poi.exp,\n- {D}} \\ul{u} poi.fun, ela,\n- \\cdot \\ul{w} adv.2D, vib.aco,\n- , \\mbox{ , } adv.1D,\n+ {\\cal{D}} p r the.ele,\n+ \\mbox{ , } tim.poi,\n+ \\int_{\\cal pie.ela, osc,\n+ {D}} \\ul{u} sto.sli.bc,\n+ \\cdot \\ul{w} bur.2D, bor,\n+ , \\mbox{ , } tim.adv.dif,\n , \\int_\\Gamma lin.ela.up,\n-dw_dot , \\ul{w} \\cdot lin.ela.dam,\n-DotProductTerm , \\ul{n} p \\\\ tim.poi, osc,\n- \\int_{\\cal bal, sto.sli.bc,\n- {D}} c q p poi.per.bou.con,\n- \\mbox{ , } bur.2D,\n- \\int_{\\cal tim.adv.dif,\n- {D}} c \\ul{v} dar.flo.mul,\n- \\cdot \\ul{u} aco, the.ele,\n- \\mbox{ , } pie.ela\n+dw_dot , \\ul{w} \\cdot poi.per.bou.con,\n+DotProductTerm , \\ul{n} p \\\\ aco, bal,\n+ \\int_{\\cal adv.2D, vib.aco,\n+ {D}} c q p dar.flo.mul,\n+ \\mbox{ , } hyd, wel,\n+ \\int_{\\cal lin.ela.dam,\n+ {D}} c \\ul{v} adv.1D, aco,\n+ \\cdot \\ul{u} poi.fun, ela,\n+ \\mbox{ , } tim.poi.exp\n \\int_{\\cal\n {D}} c p r\n \\mbox{ , }\n \\int_{\\cal\n {D}} c \\ul{u}\n \\cdot \\ul{w}\n \\\\ \\int_{\\cal\n@@ -365,19 +365,19 @@\n \\mbox{vector\n ev_integrate_mat , for } K \\from\n IntegrateMatTerm \\Ical_h:\n \\int_{T_K} m\n / \\int_{T_K}\n 1\n m|_{qp}\n- \\int_{\\cal vib.aco,\n+ \\int_{\\cal aco,\n dw_integrate , {D}} q \\mbox poi.per.bou.con,\n-IntegrateOperatorTerm { or } \\int_ aco, aco,\n- {\\cal{D}} c q dar.flo.mul,\n- poi.neu\n+IntegrateOperatorTerm { or } \\int_ aco, poi.neu,\n+ {\\cal{D}} c q vib.aco,\n+ dar.flo.mul\n \\int_{\\cal\n {D}} y \\mbox\n { , } \\int_\n {\\cal{D}} \\ul\n {y} \\mbox{ ,\n } \\int_\\Gamma\n \\ul{y} \\cdot\n@@ -436,37 +436,35 @@\n \\ul{y} \\cdot\n \\ul{n})|_{qp}\n \\mbox{ flux }\n , \\int_{\\Gamma}\n dw_jump , c\\, q (p_1 - aco\n SurfaceJumpTerm , p_2)\n \n- aco,\n- the.ela.ess,\n- bor,\n+ lap.tim.ebc,\n+ the.ele,\n+ tim.poi, sin,\n+ lap.2D,\n+ poi.sho.syn,\n+ osc, sto.sli.bc,\n+ \\int_{\\Omega} bur.2D, bor,\n+ c \\nabla q tim.adv.dif,\n+ , \\cdot \\nabla the.ela.ess,\n+dw_laplace , p \\mbox{ , } poi.per.bou.con,\n+LaplaceTerm , \\int_{\\Omega} aco, poi.iga,\n+ , c \\nabla \\bar lap.cou.lcb,\n+ {p} \\cdot lap.flu.2d,\n+ \\nabla r adv.dif.2D, poi,\n+ vib.aco, lap.1d,\n poi.fie.dep.mat,\n- hyd, sin, wel,\n- adv.dif.2D,\n- lap.flu.2d,\n- \\int_{\\Omega} tim.poi.exp,\n- c \\nabla q poi.fun,\n- , \\cdot \\nabla vib.aco,\n-dw_laplace , p \\mbox{ , } poi.sho.syn,\n-LaplaceTerm , \\int_{\\Omega} lap.cou.lcb,\n- , c \\nabla \\bar lap.2D, poi,\n- {p} \\cdot tim.poi, osc,\n- \\nabla r cub,\n+ hyd, wel,\n poi.par.stu,\n- sto.sli.bc,\n- poi.per.bou.con,\n- bur.2D,\n- tim.adv.dif,\n- aco, the.ele,\n- lap.tim.ebc,\n- poi.iga, lap.1d\n+ aco, cub,\n+ poi.fun,\n+ tim.poi.exp\n \\int_{\\Omega}\n ((\\ul{b}\n \\cdot \\nabla)\n dw_lin_convect2 , \\ul{u}) \\cdot\n LinearConvect2Term , \\ul{v}\n ((\\ul{b}\n \\cdot \\nabla)\n@@ -490,38 +488,40 @@\n , \\delta_\n , {jl}+\\delta_\n {il} \\delta_\n {jk}) +\n \\lambda \\\n \\delta_{ij}\n \\delta_{kl}\n- the.ela,\n- bio.npb.lag,\n- lin.ela.tra,\n- its.1, its.2,\n- the.ela.ess,\n- lin.ela,\n- lin.vis,\n+ two.bod.con,\n pre.fib,\n+ lin.ela,\n+ pie.ela,\n ela.con.sph,\n- , \\int_{\\Omega} bio.npb,\n- , D_{ijkl}\\ e_ ela.shi.per,\n-dw_lin_elastic , {ij}(\\ul{v}) ela.con.pla,\n-LinearElasticTerm , e_{kl}(\\ul ela, nod.lcb,\n- {u}) lin.ela.iga,\n- bio.sho.syn,\n- lin.ela.up,\n- lin.ela.dam,\n+ mat.non, its.2,\n pie.ela.mac,\n- com.ela.mat,\n+ nod.lcb,\n+ the.ela,\n+ the.ela.ess,\n+ , \\int_{\\Omega} lin.ela.up,\n+ , D_{ijkl}\\ e_ ela.shi.per,\n+dw_lin_elastic , {ij}(\\ul{v}) its.4, its.3,\n+LinearElasticTerm , e_{kl}(\\ul com.ela.mat,\n+ {u}) bio.sho.syn,\n lin.ela.opt,\n- its.4, pie.ela,\n- mat.non, its.3,\n- bio, lin.ela.mM,\n- two.bod.con\n+ lin.vis,\n+ lin.ela.mM,\n+ lin.ela.tra,\n+ lin.ela.dam,\n+ ela.con.pla,\n+ bio.npb.lag,\n+ bio,\n+ lin.ela.iga,\n+ ela, its.1,\n+ bio.npb\n , \\int_{\\Omega} pre.fib,\n dw_lin_prestress \\sigma_{ij} pie.ela.mac,\n LinearPrestressTerm , e_{ij}(\\ul non.hyp.mM\n {v})\n \\int_{\\Omega}\n dw_lin_strain_fib , D_{ijkl} e_\n LinearStrainFiberTerm , {ij}(\\ul{v}) pre.fib\n@@ -580,17 +580,17 @@\n PiezoStrainTerm g_{kij} e_\n {ij}(\\ul{u})\n ev_piezo_stress , \\int_{\\Omega}\n PiezoStressTerm g_{kij}\n \\nabla_k p\n \\ul{f}^i =\n \\ul{\\bar f}^i\n-dw_point_load , \\quad \\forall she.can, its.1,\n-ConcentratedPointLoadTerm \\mbox{ FE its.2, its.4,\n- node } i its.3\n+dw_point_load , \\quad \\forall its.1, she.can,\n+ConcentratedPointLoadTerm \\mbox{ FE its.4, its.3,\n+ node } i its.2\n \\mbox{ in a\n region }\n \\ul{f}^i = -\n k \\ul{u}^i\n dw_point_lspring , \\quad \\forall\n LinearPointSpringTerm , \\mbox{ FE\n node } i\n@@ -598,16 +598,16 @@\n region }\n dw_s_dot_grad_i_s , Z^i = \\int_\n ScalarDotGradIScalarTerm , {\\Omega} q\n \\nabla_i p\n \\int_{\\Omega}\n q \\ul{y}\n , \\cdot \\nabla\n-dw_s_dot_mgrad_s , p \\mbox{ , } adv.dif.2D,\n-ScalarDotMGradScalarTerm , \\int_{\\Omega} adv.2D, adv.1D\n+dw_s_dot_mgrad_s , p \\mbox{ , } adv.2D, adv.1D,\n+ScalarDotMGradScalarTerm , \\int_{\\Omega} adv.dif.2D\n , p \\ul{y}\n \\cdot \\nabla\n q\n \\int_{\\Omega}\n dw_shell10x , D_{ijkl}\\ e_\n Shell10XTerm , {ij}(\\ul{v}) she.can\n , e_{kl}(\\ul\n@@ -627,20 +627,20 @@\n StokesWaveTerm , \\cdot \\ul{v})\n (\\ul{\\kappa}\n \\cdot \\ul{u})\n \\int_{\\Omega}\n p\\ \\nabla\n \\cdot \\ul{v}\n \\mbox{ , }\n- , \\int_{\\Omega} sto, sto.sli.bc,\n- , q\\ \\nabla nav.sto,\n-dw_stokes , \\cdot \\ul{u} lin.ela.up,\n-StokesTerm , \\mbox{ or } nav.sto,\n- , \\int_{\\Omega} sta.nav.sto,\n- , c\\ p\\ \\nabla nav.sto.iga\n+ , \\int_{\\Omega} nav.sto,\n+ , q\\ \\nabla sto.sli.bc,\n+dw_stokes , \\cdot \\ul{u} nav.sto.iga,\n+StokesTerm , \\mbox{ or } sta.nav.sto,\n+ , \\int_{\\Omega} lin.ela.up,\n+ , c\\ p\\ \\nabla nav.sto, sto\n \\cdot \\ul{v}\n \\mbox{ , }\n \\int_{\\Omega}\n c\\ q\\ \\nabla\n \\cdot \\ul{u}\n ev_sum_vals \n SumNodalValuesTerm\n@@ -667,20 +667,20 @@\n for } K \\from\n \\Ical_h:\n \\int_{T_K}\n \\ul{n} \\cdot\n K_{ij}\n \\nabla_j \\bar\n {p}\n- \\int_{\\Gamma} com.ela.mat,\n- , \\ul{v} \\cdot nod.lcb,\n-dw_surface_ltr \\ull{\\sigma} lin.ela.tra,\n-LinearTractionTerm , \\cdot \\ul{n}, lin.ela.opt,\n- \\int_{\\Gamma} lin.vis,\n- \\ul{v} \\cdot ela.shi.per\n+ \\int_{\\Gamma} nod.lcb,\n+ , \\ul{v} \\cdot lin.ela.tra,\n+dw_surface_ltr \\ull{\\sigma} lin.ela.opt,\n+LinearTractionTerm , \\cdot \\ul{n}, lin.vis,\n+ \\int_{\\Gamma} ela.shi.per,\n+ \\ul{v} \\cdot com.ela.mat\n \\ul{n},\n \\int_{\\Gamma}\n ev_surface_moment , \\ul{n} (\\ul\n SurfaceMomentTerm {x} - \\ul\n {x}_0)\n , \\int_{\\Gamma}\n dw_surface_ndot q \\ul{c} lap.flu.2d\n@@ -713,18 +713,18 @@\n , \\int_{\\Omega}\n , \\ul{v} \\cdot\n dw_vm_dot_s , \\ul{m} p\n VectorDotScalarTerm , \\mbox{ , }\n , \\int_{\\Omega}\n , \\ul{u} \\cdot\n \\ul{m} q\\\\\n- \\int_{\\Omega} adv.dif.2D,\n-dw_volume_lvf , \\ul{f} \\cdot poi.iga,\n+ \\int_{\\Omega}\n+dw_volume_lvf , \\ul{f} \\cdot poi.iga, bur.2D,\n LinearVolumeForceTerm \\ul{v} \\mbox poi.par.stu,\n- { or } \\int_ bur.2D\n+ { or } \\int_ adv.dif.2D\n {\\Omega} f q\n 1 / D\n ev_volume_surface \\int_\\Gamma\n VolumeSurfaceTerm \\ul{x} \\cdot\n \\ul{n}\n ev_volume \\int_{\\cal\n VolumeTerm {D}} 1\n@@ -815,118 +815,124 @@\n ev_sd_surface_ltr , \\cdot \\ull{\\sigma}\n SDLinearTractionTerm , \\cdot \\ul{n}, \\int_\n {\\Gamma} \\ul{v}\n \\cdot \\ul{n},\n \n ****** Table of large deformation terms\u00c2\u00b6 ******\n Large deformation terms\u00c2\u00b6\n-name/class arguments definition examples\n+name/class arguments definition examples\n \\int_{\\Omega} S_\n-dw_tl_bulk_active , {ij}(\\ul{u}) \\delta\n-BulkActiveTLTerm , E_{ij}(\\ul{u};\\ul\n- {v})\n+dw_tl_bulk_active , {ij}(\\ul{u})\n+BulkActiveTLTerm , \\delta E_{ij}(\\ul\n+ {u};\\ul{v})\n+ \\int_{\\Omega} S_\n+dw_tl_bulk_penalty , {ij}(\\ul{u}) hyp, act.fib,\n+BulkPenaltyTLTerm , \\delta E_{ij}(\\ul com.ela.mat\n+ {u};\\ul{v})\n \\int_{\\Omega} S_\n-dw_tl_bulk_penalty , {ij}(\\ul{u}) \\delta com.ela.mat,\n-BulkPenaltyTLTerm , E_{ij}(\\ul{u};\\ul act.fib, hyp\n+dw_tl_bulk_pressure , {ij}(p) \\delta E_ per.tl, bal\n+BulkPressureTLTerm , {ij}(\\ul{u};\\ul\n {v})\n-dw_tl_bulk_pressure , \\int_{\\Omega} S_\n-BulkPressureTLTerm , {ij}(p) \\delta E_ per.tl, bal\n- {ij}(\\ul{u};\\ul{v})\n , \\int_{\\Omega} \\ull\n-dw_tl_diffusion , {K}(\\ul{u}^{(n-1)})\n-DiffusionTLTerm , : \\pdiff{q}{\\ul{X}} per.tl\n- , \\pdiff{p}{\\ul{X}}\n- \n+dw_tl_diffusion , {K}(\\ul{u}^{(n-\n+DiffusionTLTerm , 1)}) : \\pdiff{q} per.tl\n+ , {\\ul{X}} \\pdiff{p}\n+ {\\ul{X}}\n ,\n , \\int_{\\Omega} S_\n-dw_tl_fib_a , {ij}(\\ul{u}) \\delta act.fib\n-FibresActiveTLTerm , E_{ij}(\\ul{u};\\ul\n- , {v})\n+dw_tl_fib_a , {ij}(\\ul{u}) act.fib\n+FibresActiveTLTerm , \\delta E_{ij}(\\ul\n+ , {u};\\ul{v})\n , \n \\int_{\\Omega} S_\n-dw_tl_he_genyeoh , {ij}(\\ul{u}) \\delta\n-GenYeohTLTerm , E_{ij}(\\ul{u};\\ul\n- {v})\n+dw_tl_he_genyeoh , {ij}(\\ul{u})\n+GenYeohTLTerm , \\delta E_{ij}(\\ul\n+ {u};\\ul{v})\n \\int_{\\Omega} S_\n-dw_tl_he_mooney_rivlin , {ij}(\\ul{u}) \\delta com.ela.mat, bal,\n-MooneyRivlinTLTerm , E_{ij}(\\ul{u};\\ul hyp\n- {v})\n- \\int_{\\Omega} S_ com.ela.mat, bal,\n-dw_tl_he_neohook , {ij}(\\ul{u}) \\delta act.fib, per.tl,\n-NeoHookeanTLTerm , E_{ij}(\\ul{u};\\ul hyp\n- {v})\n+dw_tl_he_mooney_rivlin , {ij}(\\ul{u}) hyp, bal,\n+MooneyRivlinTLTerm , \\delta E_{ij}(\\ul com.ela.mat\n+ {u};\\ul{v})\n+ \\int_{\\Omega} S_ bal, act.fib, hyp,\n+dw_tl_he_neohook , {ij}(\\ul{u}) per.tl,\n+NeoHookeanTLTerm , \\delta E_{ij}(\\ul com.ela.mat\n+ {u};\\ul{v})\n \\int_{\\Omega} S_\n-dw_tl_he_ogden , {ij}(\\ul{u}) \\delta\n-OgdenTLTerm , E_{ij}(\\ul{u};\\ul\n- {v})\n+dw_tl_he_ogden , {ij}(\\ul{u})\n+OgdenTLTerm , \\delta E_{ij}(\\ul\n+ {u};\\ul{v})\n ,\n-dw_tl_membrane , bal\n+dw_tl_membrane , bal\n TLMembraneTerm ,\n , \n , \\int_{\\Gamma} \\ul\n-ev_tl_surface_flux , {\\nu} \\cdot \\ull{K}\n-SurfaceFluxTLTerm , (\\ul{u}^{(n-1)})\n- \\pdiff{p}{\\ul{X}}\n+ev_tl_surface_flux , {\\nu} \\cdot \\ull\n+SurfaceFluxTLTerm , {K}(\\ul{u}^{(n-\n+ 1)}) \\pdiff{p}{\\ul\n+ {X}}\n \\int_{\\Gamma} \\ul\n dw_tl_surface_traction , {\\nu} \\cdot \\ull\n-SurfaceTractionTLTerm , {F}^{-1} \\cdot \\ull per.tl\n- {\\sigma} \\cdot \\ul\n- {v} J\n- 1 / D \\int_{\\Gamma}\n-ev_tl_volume_surface \\ul{\\nu} \\cdot \\ull\n-VolumeSurfaceTLTerm {F}^{-1} \\cdot \\ul\n- {x} J\n+SurfaceTractionTLTerm , {F}^{-1} \\cdot per.tl\n+ \\ull{\\sigma} \\cdot\n+ \\ul{v} J\n+ 1 / D \\int_\n+ev_tl_volume_surface {\\Gamma} \\ul{\\nu}\n+VolumeSurfaceTLTerm \\cdot \\ull{F}^{-1}\n+ \\cdot \\ul{x} J\n \\begin{array}{l}\n \\int_{\\Omega} q J\n (\\ul{u}) \\\\ \\mbox\n {volume mode:\n vector for } K\n \\from \\Ical_h:\n-dw_tl_volume , \\int_{T_K} J(\\ul per.tl, bal\n+dw_tl_volume , \\int_{T_K} J(\\ul per.tl, bal\n VolumeTLTerm {u}) \\\\ \\mbox\n {rel\\_volume mode:\n vector for } K\n \\from \\Ical_h:\n \\int_{T_K} J(\\ul\n- {u}) / \\int_{T_K} 1\n- \\end{array}\n+ {u}) / \\int_{T_K}\n+ 1 \\end{array}\n \\int_{\\Omega}\n-dw_ul_bulk_penalty , \\mathcal{L}\\tau_ hyp.ul\n-BulkPenaltyULTerm , {ij}(\\ul{u}) e_{ij}\n- (\\delta\\ul{v})/J\n+dw_ul_bulk_penalty , \\mathcal{L}\\tau_\n+BulkPenaltyULTerm , {ij}(\\ul{u}) e_ hyp.ul\n+ {ij}(\\delta\\ul\n+ {v})/J\n \\int_{\\Omega}\n-dw_ul_bulk_pressure , \\mathcal{L}\\tau_ hyp.ul.up\n-BulkPressureULTerm , {ij}(\\ul{u}) e_{ij}\n- (\\delta\\ul{v})/J\n+dw_ul_bulk_pressure , \\mathcal{L}\\tau_\n+BulkPressureULTerm , {ij}(\\ul{u}) e_ hyp.ul.up\n+ {ij}(\\delta\\ul\n+ {v})/J\n , \\int_{\\Omega}\n-dw_ul_compressible , 1\\over \\gamma p \\, hyp.ul.up\n+dw_ul_compressible , 1\\over \\gamma p \\, hyp.ul.up\n CompressibilityULTerm , q\n \n \\int_{\\Omega}\n-dw_ul_he_mooney_rivlin , \\mathcal{L}\\tau_ hyp.ul, hyp.ul.up\n-MooneyRivlinULTerm , {ij}(\\ul{u}) e_{ij}\n- (\\delta\\ul{v})/J\n+dw_ul_he_mooney_rivlin , \\mathcal{L}\\tau_\n+MooneyRivlinULTerm , {ij}(\\ul{u}) e_ hyp.ul.up, hyp.ul\n+ {ij}(\\delta\\ul\n+ {v})/J\n \\int_{\\Omega}\n-dw_ul_he_neohook , \\mathcal{L}\\tau_ hyp.ul, hyp.ul.up\n-NeoHookeanULTerm , {ij}(\\ul{u}) e_{ij}\n- (\\delta\\ul{v})/J\n+dw_ul_he_neohook , \\mathcal{L}\\tau_\n+NeoHookeanULTerm , {ij}(\\ul{u}) e_ hyp.ul.up, hyp.ul\n+ {ij}(\\delta\\ul\n+ {v})/J\n \\begin{array}{l}\n \\int_{\\Omega} q J\n (\\ul{u}) \\\\ \\mbox\n {volume mode:\n vector for } K\n \\from \\Ical_h:\n-dw_ul_volume , \\int_{T_K} J(\\ul hyp.ul.up\n+dw_ul_volume , \\int_{T_K} J(\\ul hyp.ul.up\n VolumeULTerm {u}) \\\\ \\mbox\n {rel\\_volume mode:\n vector for } K\n \\from \\Ical_h:\n \\int_{T_K} J(\\ul\n- {u}) / \\int_{T_K} 1\n- \\end{array}\n+ {u}) / \\int_{T_K}\n+ 1 \\end{array}\n \n ****** Table of special terms\u00c2\u00b6 ******\n Special terms\u00c2\u00b6\n name/class arguments definition examples\n \\begin{array}{l}\n \\int_{\\Omega}\n \\left [\\int_0^t\n"}]}, {"source1": "./usr/share/doc/python-sfepy-doc/html/terms_overview.html", "source2": "./usr/share/doc/python-sfepy-doc/html/terms_overview.html", "unified_diff": "@@ -371,15 +371,15 @@\n

<material>, <state>, <virtual>

\n

<material>, <parameter_v>, <parameter_s>

\n \n
\n

\\int_{\\Omega} p\\ \\alpha_{ij} e_{ij}(\\ul{v}) \\mbox{ , }\n \\int_{\\Omega} q\\ \\alpha_{ij} e_{ij}(\\ul{u})

\n
\n-

the.ela, bio.npb.lag, bio.sho.syn, the.ela.ess, bio.npb, bio

\n+

bio.sho.syn, the.ela, bio.npb.lag, bio, the.ela.ess, bio.npb

\n \n

ev_cauchy_strain

\n

CauchyStrainTerm

\n \n

<parameter>

\n
\n

\\int_{\\cal{D}} \\ull{e}(\\ul{w})

\n@@ -470,15 +470,15 @@\n

\\int_{\\partial{T_K}} \\ul{n} \\cdot \\ul{f}^{*} (p_{in},\n p_{out})q

\n

where

\n
\n

\\ul{f}^{*}(p_{in}, p_{out}) = \\ul{a} \\frac{p_{in} +\n p_{out}}{2} + (1 - \\alpha) \\ul{n} C \\frac{ p_{in} - p_{out}}{2},

\n
\n-

adv.dif.2D, adv.2D, adv.1D

\n+

adv.2D, adv.1D, adv.dif.2D

\n \n

dw_dg_diffusion_flux

\n

DiffusionDGFluxTerm

\n \n

<material>, <state>, <virtual>

\n

<material>, <virtual>, <state>

\n \n@@ -488,28 +488,28 @@\n

where

\n
\n

\\langle \\nabla \\phi \\rangle = \\frac{\\nabla\\phi_{in} +\n \\nabla\\phi_{out}}{2}

\n
\n

[\\phi] = \\phi_{in} - \\phi_{out}

\n
\n-

adv.dif.2D, bur.2D, lap.2D

\n+

lap.2D, bur.2D, adv.dif.2D

\n \n

dw_dg_interior_penalty

\n

DiffusionInteriorPenaltyTerm

\n \n

<material>, <material_Cw>, <virtual>, <state>

\n
\n

\\int_{\\partial{T_K}} \\bar{D} C_w\n \\frac{Ord^2}{d(\\partial{T_K})}[p][q]

\n

where

\n
\n

[\\phi] = \\phi_{in} - \\phi_{out}

\n
\n-

adv.dif.2D, bur.2D, lap.2D

\n+

lap.2D, bur.2D, adv.dif.2D

\n \n

dw_dg_nonlinear_laxfrie_flux

\n

NonlinearHyperbolicDGFluxTerm

\n \n

<opt_material>, <fun>, <fun_d>, <virtual>, <state>

\n
\n

\\int_{\\partial{T_K}} \\ul{n} \\cdot f^{*} (p_{in}, p_{out})q

\n@@ -563,29 +563,29 @@\n

<material>, <virtual>, <state>

\n

<material>, <parameter_1>, <parameter_2>

\n \n
\n

\\int_{\\Omega} K_{ij} \\nabla_i q \\nabla_j p \\mbox{ , }\n \\int_{\\Omega} K_{ij} \\nabla_i \\bar{p} \\nabla_j r

\n
\n-

bio.npb.lag, bio.sho.syn, dar.flo.mul, bio.npb, pie.ela, bio, poi.neu

\n+

dar.flo.mul, bio.sho.syn, bio.npb.lag, bio, pie.ela, poi.neu, bio.npb

\n \n

dw_div_grad

\n

DivGradTerm

\n \n

<opt_material>, <virtual>, <state>

\n

<opt_material>, <parameter_1>, <parameter_2>

\n \n
\n

\\int_{\\Omega} \\nu\\ \\nabla \\ul{v} : \\nabla \\ul{u} \\mbox{ ,\n } \\int_{\\Omega} \\nu\\ \\nabla \\ul{u} : \\nabla \\ul{w} \\\\\n \\int_{\\Omega} \\nabla \\ul{v} : \\nabla \\ul{u} \\mbox{ , }\n \\int_{\\Omega} \\nabla \\ul{u} : \\nabla \\ul{w}

\n
\n-

sto, sto.sli.bc, nav.sto, nav.sto, sta.nav.sto, nav.sto.iga

\n+

nav.sto, sto.sli.bc, nav.sto.iga, sta.nav.sto, nav.sto, sto

\n \n

dw_div

\n

DivOperatorTerm

\n \n

<opt_material>, <virtual>

\n
\n

\\int_{\\Omega} \\nabla \\cdot \\ul{v} \\mbox { or }\n@@ -620,15 +620,15 @@\n \\mbox{ , } \\int_{\\cal{D}} \\ul{u} \\cdot \\ul{w} \\mbox{ , }\n \\int_\\Gamma \\ul{w} \\cdot \\ul{n} p \\\\ \\int_{\\cal{D}} c q p \\mbox{ ,\n } \\int_{\\cal{D}} c \\ul{v} \\cdot \\ul{u} \\mbox{ , } \\int_{\\cal{D}} c\n p r \\mbox{ , } \\int_{\\cal{D}} c \\ul{u} \\cdot \\ul{w} \\\\\n \\int_{\\cal{D}} \\ul{v} \\cdot \\ull{M} \\cdot \\ul{u} \\mbox{ , }\n \\int_{\\cal{D}} \\ul{u} \\cdot \\ull{M} \\cdot \\ul{w}

\n
\n-

aco, bor, hyd, wel, tim.poi.exp, poi.fun, ela, adv.2D, vib.aco, adv.1D, lin.ela.up, lin.ela.dam, tim.poi, osc, bal, sto.sli.bc, poi.per.bou.con, bur.2D, tim.adv.dif, dar.flo.mul, aco, the.ele, pie.ela

\n+

the.ele, tim.poi, pie.ela, osc, sto.sli.bc, bur.2D, bor, tim.adv.dif, lin.ela.up, poi.per.bou.con, aco, bal, adv.2D, vib.aco, dar.flo.mul, hyd, wel, lin.ela.dam, adv.1D, aco, poi.fun, ela, tim.poi.exp

\n \n

dw_elastic_wave_cauchy

\n

ElasticWaveCauchyTerm

\n \n

<material_1>, <material_2>, <virtual>, <state>

\n

<material_1>, <material_2>, <state>, <virtual>

\n \n@@ -688,15 +688,15 @@\n

dw_integrate

\n

IntegrateOperatorTerm

\n \n

<opt_material>, <virtual>

\n
\n

\\int_{\\cal{D}} q \\mbox{ or } \\int_{\\cal{D}} c q

\n
\n-

vib.aco, poi.per.bou.con, aco, aco, dar.flo.mul, poi.neu

\n+

aco, poi.per.bou.con, aco, poi.neu, vib.aco, dar.flo.mul

\n \n

ev_integrate

\n

IntegrateTerm

\n \n

<opt_material>, <parameter>

\n
\n

\\int_{\\cal{D}} y \\mbox{ , } \\int_{\\cal{D}} \\ul{y} \\mbox{ ,\n@@ -732,15 +732,15 @@\n

<opt_material>, <virtual>, <state>

\n

<opt_material>, <parameter_1>, <parameter_2>

\n \n
\n

\\int_{\\Omega} c \\nabla q \\cdot \\nabla p \\mbox{ , }\n \\int_{\\Omega} c \\nabla \\bar{p} \\cdot \\nabla r

\n
\n-

aco, the.ela.ess, bor, poi.fie.dep.mat, hyd, sin, wel, adv.dif.2D, lap.flu.2d, tim.poi.exp, poi.fun, vib.aco, poi.sho.syn, lap.cou.lcb, lap.2D, poi, tim.poi, osc, cub, poi.par.stu, sto.sli.bc, poi.per.bou.con, bur.2D, tim.adv.dif, aco, the.ele, lap.tim.ebc, poi.iga, lap.1d

\n+

lap.tim.ebc, the.ele, tim.poi, sin, lap.2D, poi.sho.syn, osc, sto.sli.bc, bur.2D, bor, tim.adv.dif, the.ela.ess, poi.per.bou.con, aco, poi.iga, lap.cou.lcb, lap.flu.2d, adv.dif.2D, poi, vib.aco, lap.1d, poi.fie.dep.mat, hyd, wel, poi.par.stu, aco, cub, poi.fun, tim.poi.exp

\n \n

dw_lin_convect2

\n

LinearConvect2Term

\n \n

<material>, <virtual>, <state>

\n
\n

\\int_{\\Omega} ((\\ul{b} \\cdot \\nabla) \\ul{u}) \\cdot \\ul{v}

\n@@ -778,15 +778,15 @@\n \n

<material>, <virtual>, <state>

\n

<material>, <parameter_1>, <parameter_2>

\n \n
\n

\\int_{\\Omega} D_{ijkl}\\ e_{ij}(\\ul{v}) e_{kl}(\\ul{u})

\n
\n-

the.ela, bio.npb.lag, lin.ela.tra, its.1, its.2, the.ela.ess, lin.ela, lin.vis, pre.fib, ela.con.sph, bio.npb, ela.shi.per, ela.con.pla, ela, nod.lcb, lin.ela.iga, bio.sho.syn, lin.ela.up, lin.ela.dam, pie.ela.mac, com.ela.mat, lin.ela.opt, its.4, pie.ela, mat.non, its.3, bio, lin.ela.mM, two.bod.con

\n+

two.bod.con, pre.fib, lin.ela, pie.ela, ela.con.sph, mat.non, its.2, pie.ela.mac, nod.lcb, the.ela, the.ela.ess, lin.ela.up, ela.shi.per, its.4, its.3, com.ela.mat, bio.sho.syn, lin.ela.opt, lin.vis, lin.ela.mM, lin.ela.tra, lin.ela.dam, ela.con.pla, bio.npb.lag, bio, lin.ela.iga, ela, its.1, bio.npb

\n \n

dw_lin_prestress

\n

LinearPrestressTerm

\n \n

<material>, <virtual>

\n

<material>, <parameter>

\n \n@@ -887,15 +887,15 @@\n

ConcentratedPointLoadTerm

\n \n

<material>, <virtual>

\n
\n

\\ul{f}^i = \\ul{\\bar f}^i \\quad \\forall \\mbox{ FE node } i\n \\mbox{ in a region }

\n
\n-

she.can, its.1, its.2, its.4, its.3

\n+

its.1, she.can, its.4, its.3, its.2

\n \n

dw_point_lspring

\n

LinearPointSpringTerm

\n \n

<material>, <virtual>, <state>

\n
\n

\\ul{f}^i = -k \\ul{u}^i \\quad \\forall \\mbox{ FE node } i\n@@ -918,15 +918,15 @@\n

<material>, <virtual>, <state>

\n

<material>, <state>, <virtual>

\n \n
\n

\\int_{\\Omega} q \\ul{y} \\cdot \\nabla p \\mbox{ , }\n \\int_{\\Omega} p \\ul{y} \\cdot \\nabla q

\n
\n-

adv.dif.2D, adv.2D, adv.1D

\n+

adv.2D, adv.1D, adv.dif.2D

\n \n

dw_shell10x

\n

Shell10XTerm

\n \n

<material_d>, <material_drill>, <virtual>, <state>

\n
\n

\\int_{\\Omega} D_{ijkl}\\ e_{ij}(\\ul{v}) e_{kl}(\\ul{u})

\n@@ -965,15 +965,15 @@\n \n
\n

\\int_{\\Omega} p\\ \\nabla \\cdot \\ul{v} \\mbox{ , }\n \\int_{\\Omega} q\\ \\nabla \\cdot \\ul{u} \\mbox{ or } \\int_{\\Omega} c\\\n p\\ \\nabla \\cdot \\ul{v} \\mbox{ , } \\int_{\\Omega} c\\ q\\ \\nabla \\cdot\n \\ul{u}

\n
\n-

sto, sto.sli.bc, nav.sto, lin.ela.up, nav.sto, sta.nav.sto, nav.sto.iga

\n+

nav.sto, sto.sli.bc, nav.sto.iga, sta.nav.sto, lin.ela.up, nav.sto, sto

\n \n

ev_sum_vals

\n

SumNodalValuesTerm

\n \n

<parameter>

\n \n \n@@ -1008,15 +1008,15 @@\n

<opt_material>, <virtual>

\n

<opt_material>, <parameter>

\n \n
\n

\\int_{\\Gamma} \\ul{v} \\cdot \\ull{\\sigma} \\cdot \\ul{n},\n \\int_{\\Gamma} \\ul{v} \\cdot \\ul{n},

\n
\n-

com.ela.mat, nod.lcb, lin.ela.tra, lin.ela.opt, lin.vis, ela.shi.per

\n+

nod.lcb, lin.ela.tra, lin.ela.opt, lin.vis, ela.shi.per, com.ela.mat

\n \n

ev_surface_moment

\n

SurfaceMomentTerm

\n \n

<material>, <parameter>

\n
\n

\\int_{\\Gamma} \\ul{n} (\\ul{x} - \\ul{x}_0)

\n@@ -1067,15 +1067,15 @@\n

LinearVolumeForceTerm

\n \n

<material>, <virtual>

\n
\n

\\int_{\\Omega} \\ul{f} \\cdot \\ul{v} \\mbox{ or }\n \\int_{\\Omega} f q

\n
\n-

adv.dif.2D, poi.iga, poi.par.stu, bur.2D

\n+

poi.iga, bur.2D, poi.par.stu, adv.dif.2D

\n \n

ev_volume_surface

\n

VolumeSurfaceTerm

\n \n

<parameter>

\n
\n

1 / D \\int_\\Gamma \\ul{x} \\cdot \\ul{n}

\n@@ -1280,15 +1280,15 @@\n

dw_tl_bulk_penalty

\n

BulkPenaltyTLTerm

\n \n

<material>, <virtual>, <state>

\n
\n

\\int_{\\Omega} S_{ij}(\\ul{u}) \\delta E_{ij}(\\ul{u};\\ul{v})

\n
\n-

com.ela.mat, act.fib, hyp

\n+

hyp, act.fib, com.ela.mat

\n \n

dw_tl_bulk_pressure

\n

BulkPressureTLTerm

\n \n

<virtual>, <state>, <state_p>

\n
\n

\\int_{\\Omega} S_{ij}(p) \\delta E_{ij}(\\ul{u};\\ul{v})

\n@@ -1326,24 +1326,24 @@\n

dw_tl_he_mooney_rivlin

\n

MooneyRivlinTLTerm

\n \n

<material>, <virtual>, <state>

\n
\n

\\int_{\\Omega} S_{ij}(\\ul{u}) \\delta E_{ij}(\\ul{u};\\ul{v})

\n
\n-

com.ela.mat, bal, hyp

\n+

hyp, bal, com.ela.mat

\n \n

dw_tl_he_neohook

\n

NeoHookeanTLTerm

\n \n

<material>, <virtual>, <state>

\n
\n

\\int_{\\Omega} S_{ij}(\\ul{u}) \\delta E_{ij}(\\ul{u};\\ul{v})

\n
\n-

com.ela.mat, bal, act.fib, per.tl, hyp

\n+

bal, act.fib, hyp, per.tl, com.ela.mat

\n \n

dw_tl_he_ogden

\n

OgdenTLTerm

\n \n

<material>, <virtual>, <state>

\n
\n

\\int_{\\Omega} S_{ij}(\\ul{u}) \\delta E_{ij}(\\ul{u};\\ul{v})

\n@@ -1432,25 +1432,25 @@\n

MooneyRivlinULTerm

\n \n

<material>, <virtual>, <state>

\n
\n

\\int_{\\Omega} \\mathcal{L}\\tau_{ij}(\\ul{u})\n e_{ij}(\\delta\\ul{v})/J

\n
\n-

hyp.ul, hyp.ul.up

\n+

hyp.ul.up, hyp.ul

\n \n

dw_ul_he_neohook

\n

NeoHookeanULTerm

\n \n

<material>, <virtual>, <state>

\n
\n

\\int_{\\Omega} \\mathcal{L}\\tau_{ij}(\\ul{u})\n e_{ij}(\\delta\\ul{v})/J

\n
\n-

hyp.ul, hyp.ul.up

\n+

hyp.ul.up, hyp.ul

\n \n

dw_ul_volume

\n

VolumeULTerm

\n \n

<virtual>, <state>

\n
\n

\\begin{array}{l} \\int_{\\Omega} q J(\\ul{u}) \\\\ \\mbox{volume\n", "details": [{"source1": "html2text {}", "source2": "html2text {}", "unified_diff": "@@ -133,20 +133,20 @@\n \\int_{T_K}\n \\alpha_{ij}\n \\bar{p} /\n \\int_{T_K} 1\n - \\alpha_{ij}\n \\bar{p}|_{qp}\n \\int_{\\Omega}\n- , p\\ \\alpha_\n+ , p\\ \\alpha_ bio.sho.syn,\n , {ij} e_{ij} the.ela,\n dw_biot , (\\ul{v}) bio.npb.lag,\n-BiotTerm , \\mbox{ , } bio.sho.syn,\n+BiotTerm , \\mbox{ , } bio,\n , \\int_{\\Omega} the.ela.ess,\n- , q\\ \\alpha_ bio.npb, bio\n+ , q\\ \\alpha_ bio.npb\n {ij} e_{ij}\n (\\ul{u})\n \\int_{\\cal\n {D}} \\ull{e}\n (\\ul{w})\n \\mbox{vector\n for } K \\from\n@@ -214,16 +214,16 @@\n {\\partial\n {T_K}} \\ul{n}\n \\cdot \\ul{f}^\n {*} (p_{in},\n p_{out})q\n where\n , \\ul{f}^{*}(p_\n-dw_dg_advect_laxfrie_flux , {in}, p_ adv.dif.2D,\n-AdvectionDGFluxTerm , {out}) = \\ul adv.2D, adv.1D\n+dw_dg_advect_laxfrie_flux , {in}, p_ adv.2D, adv.1D,\n+AdvectionDGFluxTerm , {out}) = \\ul adv.dif.2D\n {a} \\frac{p_\n {in} + p_\n {out}}{2} +\n (1 - \\alpha)\n \\ul{n} C\n \\frac{ p_{in}\n - p_{out}}\n@@ -235,16 +235,16 @@\n \\nabla p\n \\rangle [q]\n \\mbox{ , }\n \\int_\n {\\partial\n {T_K}} D\n , \\langle\n-dw_dg_diffusion_flux , \\nabla q adv.dif.2D,\n-DiffusionDGFluxTerm , \\rangle [p] bur.2D, lap.2D\n+dw_dg_diffusion_flux , \\nabla q lap.2D, bur.2D,\n+DiffusionDGFluxTerm , \\rangle [p] adv.dif.2D\n , where\n \\langle\n \\nabla \\phi\n \\rangle =\n \\frac\n {\\nabla\\phi_\n {in} +\n@@ -253,16 +253,16 @@\n [\\phi] =\n \\phi_{in} -\n \\phi_{out}\n \\int_\n {\\partial\n {T_K}} \\bar\n {D} C_w \\frac\n-dw_dg_interior_penalty , {Ord^2}{d adv.dif.2D,\n-DiffusionInteriorPenaltyTerm , (\\partial bur.2D, lap.2D\n+dw_dg_interior_penalty , {Ord^2}{d lap.2D, bur.2D,\n+DiffusionInteriorPenaltyTerm , (\\partial adv.dif.2D\n , {T_K})}[p][q]\n where\n [\\phi] =\n \\phi_{in} -\n \\phi_{out}\n \\int_\n {\\partial\n@@ -305,34 +305,34 @@\n \\bar{p} /\n \\int_{T_K} 1\n - K_{ij}\n \\nabla_j \\bar\n {p}\n \\int_{\\Omega}\n K_{ij}\n- , \\nabla_i q bio.npb.lag,\n+ , \\nabla_i q dar.flo.mul,\n , \\nabla_j p bio.sho.syn,\n-dw_diffusion , \\mbox{ , } dar.flo.mul,\n-DiffusionTerm , \\int_{\\Omega} bio.npb,\n- K_{ij} pie.ela, bio,\n- \\nabla_i \\bar poi.neu\n+dw_diffusion , \\mbox{ , } bio.npb.lag,\n+DiffusionTerm , \\int_{\\Omega} bio, pie.ela,\n+ K_{ij} poi.neu, bio.npb\n+ \\nabla_i \\bar\n {p} \\nabla_j\n r\n \\int_{\\Omega}\n \\nu\\ \\nabla\n \\ul{v} :\n \\nabla \\ul{u}\n \\mbox{ , }\n \\int_{\\Omega}\n \\nu\\ \\nabla\n- , \\ul{u} : sto, sto.sli.bc,\n-dw_div_grad , \\nabla \\ul{w} nav.sto,\n-DivGradTerm , \\\\ \\int_ nav.sto,\n+ , \\ul{u} : nav.sto,\n+dw_div_grad , \\nabla \\ul{w} sto.sli.bc,\n+DivGradTerm , \\\\ \\int_ nav.sto.iga,\n , {\\Omega} sta.nav.sto,\n- \\nabla \\ul{v} nav.sto.iga\n+ \\nabla \\ul{v} nav.sto, sto\n : \\nabla \\ul\n {u} \\mbox{ ,\n } \\int_\n {\\Omega}\n \\nabla \\ul{u}\n : \\nabla \\ul\n {w}\n@@ -366,30 +366,30 @@\n \\ul{v} \\cdot\n \\ul{n} p\n \\mbox{ , }\n \\int_\\Gamma q\n \\ul{n} \\cdot\n \\ul{u} \\mbox\n { , } \\int_\n- {\\cal{D}} p r aco, bor, hyd,\n- \\mbox{ , } wel,\n- \\int_{\\cal tim.poi.exp,\n- {D}} \\ul{u} poi.fun, ela,\n- \\cdot \\ul{w} adv.2D, vib.aco,\n- , \\mbox{ , } adv.1D,\n+ {\\cal{D}} p r the.ele,\n+ \\mbox{ , } tim.poi,\n+ \\int_{\\cal pie.ela, osc,\n+ {D}} \\ul{u} sto.sli.bc,\n+ \\cdot \\ul{w} bur.2D, bor,\n+ , \\mbox{ , } tim.adv.dif,\n , \\int_\\Gamma lin.ela.up,\n-dw_dot , \\ul{w} \\cdot lin.ela.dam,\n-DotProductTerm , \\ul{n} p \\\\ tim.poi, osc,\n- \\int_{\\cal bal, sto.sli.bc,\n- {D}} c q p poi.per.bou.con,\n- \\mbox{ , } bur.2D,\n- \\int_{\\cal tim.adv.dif,\n- {D}} c \\ul{v} dar.flo.mul,\n- \\cdot \\ul{u} aco, the.ele,\n- \\mbox{ , } pie.ela\n+dw_dot , \\ul{w} \\cdot poi.per.bou.con,\n+DotProductTerm , \\ul{n} p \\\\ aco, bal,\n+ \\int_{\\cal adv.2D, vib.aco,\n+ {D}} c q p dar.flo.mul,\n+ \\mbox{ , } hyd, wel,\n+ \\int_{\\cal lin.ela.dam,\n+ {D}} c \\ul{v} adv.1D, aco,\n+ \\cdot \\ul{u} poi.fun, ela,\n+ \\mbox{ , } tim.poi.exp\n \\int_{\\cal\n {D}} c p r\n \\mbox{ , }\n \\int_{\\cal\n {D}} c \\ul{u}\n \\cdot \\ul{w}\n \\\\ \\int_{\\cal\n@@ -445,19 +445,19 @@\n \\mbox{vector\n ev_integrate_mat , for } K \\from\n IntegrateMatTerm \\Ical_h:\n \\int_{T_K} m\n / \\int_{T_K}\n 1\n m|_{qp}\n- \\int_{\\cal vib.aco,\n+ \\int_{\\cal aco,\n dw_integrate , {D}} q \\mbox poi.per.bou.con,\n-IntegrateOperatorTerm { or } \\int_ aco, aco,\n- {\\cal{D}} c q dar.flo.mul,\n- poi.neu\n+IntegrateOperatorTerm { or } \\int_ aco, poi.neu,\n+ {\\cal{D}} c q vib.aco,\n+ dar.flo.mul\n \\int_{\\cal\n {D}} y \\mbox\n { , } \\int_\n {\\cal{D}} \\ul\n {y} \\mbox{ ,\n } \\int_\\Gamma\n \\ul{y} \\cdot\n@@ -516,37 +516,35 @@\n \\ul{y} \\cdot\n \\ul{n})|_{qp}\n \\mbox{ flux }\n , \\int_{\\Gamma}\n dw_jump , c\\, q (p_1 - aco\n SurfaceJumpTerm , p_2)\n \n- aco,\n- the.ela.ess,\n- bor,\n+ lap.tim.ebc,\n+ the.ele,\n+ tim.poi, sin,\n+ lap.2D,\n+ poi.sho.syn,\n+ osc, sto.sli.bc,\n+ \\int_{\\Omega} bur.2D, bor,\n+ c \\nabla q tim.adv.dif,\n+ , \\cdot \\nabla the.ela.ess,\n+dw_laplace , p \\mbox{ , } poi.per.bou.con,\n+LaplaceTerm , \\int_{\\Omega} aco, poi.iga,\n+ , c \\nabla \\bar lap.cou.lcb,\n+ {p} \\cdot lap.flu.2d,\n+ \\nabla r adv.dif.2D, poi,\n+ vib.aco, lap.1d,\n poi.fie.dep.mat,\n- hyd, sin, wel,\n- adv.dif.2D,\n- lap.flu.2d,\n- \\int_{\\Omega} tim.poi.exp,\n- c \\nabla q poi.fun,\n- , \\cdot \\nabla vib.aco,\n-dw_laplace , p \\mbox{ , } poi.sho.syn,\n-LaplaceTerm , \\int_{\\Omega} lap.cou.lcb,\n- , c \\nabla \\bar lap.2D, poi,\n- {p} \\cdot tim.poi, osc,\n- \\nabla r cub,\n+ hyd, wel,\n poi.par.stu,\n- sto.sli.bc,\n- poi.per.bou.con,\n- bur.2D,\n- tim.adv.dif,\n- aco, the.ele,\n- lap.tim.ebc,\n- poi.iga, lap.1d\n+ aco, cub,\n+ poi.fun,\n+ tim.poi.exp\n \\int_{\\Omega}\n ((\\ul{b}\n \\cdot \\nabla)\n dw_lin_convect2 , \\ul{u}) \\cdot\n LinearConvect2Term , \\ul{v}\n ((\\ul{b}\n \\cdot \\nabla)\n@@ -570,38 +568,40 @@\n , \\delta_\n , {jl}+\\delta_\n {il} \\delta_\n {jk}) +\n \\lambda \\\n \\delta_{ij}\n \\delta_{kl}\n- the.ela,\n- bio.npb.lag,\n- lin.ela.tra,\n- its.1, its.2,\n- the.ela.ess,\n- lin.ela,\n- lin.vis,\n+ two.bod.con,\n pre.fib,\n+ lin.ela,\n+ pie.ela,\n ela.con.sph,\n- , \\int_{\\Omega} bio.npb,\n- , D_{ijkl}\\ e_ ela.shi.per,\n-dw_lin_elastic , {ij}(\\ul{v}) ela.con.pla,\n-LinearElasticTerm , e_{kl}(\\ul ela, nod.lcb,\n- {u}) lin.ela.iga,\n- bio.sho.syn,\n- lin.ela.up,\n- lin.ela.dam,\n+ mat.non, its.2,\n pie.ela.mac,\n- com.ela.mat,\n+ nod.lcb,\n+ the.ela,\n+ the.ela.ess,\n+ , \\int_{\\Omega} lin.ela.up,\n+ , D_{ijkl}\\ e_ ela.shi.per,\n+dw_lin_elastic , {ij}(\\ul{v}) its.4, its.3,\n+LinearElasticTerm , e_{kl}(\\ul com.ela.mat,\n+ {u}) bio.sho.syn,\n lin.ela.opt,\n- its.4, pie.ela,\n- mat.non, its.3,\n- bio, lin.ela.mM,\n- two.bod.con\n+ lin.vis,\n+ lin.ela.mM,\n+ lin.ela.tra,\n+ lin.ela.dam,\n+ ela.con.pla,\n+ bio.npb.lag,\n+ bio,\n+ lin.ela.iga,\n+ ela, its.1,\n+ bio.npb\n , \\int_{\\Omega} pre.fib,\n dw_lin_prestress \\sigma_{ij} pie.ela.mac,\n LinearPrestressTerm , e_{ij}(\\ul non.hyp.mM\n {v})\n \\int_{\\Omega}\n dw_lin_strain_fib , D_{ijkl} e_\n LinearStrainFiberTerm , {ij}(\\ul{v}) pre.fib\n@@ -660,17 +660,17 @@\n PiezoStrainTerm g_{kij} e_\n {ij}(\\ul{u})\n ev_piezo_stress , \\int_{\\Omega}\n PiezoStressTerm g_{kij}\n \\nabla_k p\n \\ul{f}^i =\n \\ul{\\bar f}^i\n-dw_point_load , \\quad \\forall she.can, its.1,\n-ConcentratedPointLoadTerm \\mbox{ FE its.2, its.4,\n- node } i its.3\n+dw_point_load , \\quad \\forall its.1, she.can,\n+ConcentratedPointLoadTerm \\mbox{ FE its.4, its.3,\n+ node } i its.2\n \\mbox{ in a\n region }\n \\ul{f}^i = -\n k \\ul{u}^i\n dw_point_lspring , \\quad \\forall\n LinearPointSpringTerm , \\mbox{ FE\n node } i\n@@ -678,16 +678,16 @@\n region }\n dw_s_dot_grad_i_s , Z^i = \\int_\n ScalarDotGradIScalarTerm , {\\Omega} q\n \\nabla_i p\n \\int_{\\Omega}\n q \\ul{y}\n , \\cdot \\nabla\n-dw_s_dot_mgrad_s , p \\mbox{ , } adv.dif.2D,\n-ScalarDotMGradScalarTerm , \\int_{\\Omega} adv.2D, adv.1D\n+dw_s_dot_mgrad_s , p \\mbox{ , } adv.2D, adv.1D,\n+ScalarDotMGradScalarTerm , \\int_{\\Omega} adv.dif.2D\n , p \\ul{y}\n \\cdot \\nabla\n q\n \\int_{\\Omega}\n dw_shell10x , D_{ijkl}\\ e_\n Shell10XTerm , {ij}(\\ul{v}) she.can\n , e_{kl}(\\ul\n@@ -707,20 +707,20 @@\n StokesWaveTerm , \\cdot \\ul{v})\n (\\ul{\\kappa}\n \\cdot \\ul{u})\n \\int_{\\Omega}\n p\\ \\nabla\n \\cdot \\ul{v}\n \\mbox{ , }\n- , \\int_{\\Omega} sto, sto.sli.bc,\n- , q\\ \\nabla nav.sto,\n-dw_stokes , \\cdot \\ul{u} lin.ela.up,\n-StokesTerm , \\mbox{ or } nav.sto,\n- , \\int_{\\Omega} sta.nav.sto,\n- , c\\ p\\ \\nabla nav.sto.iga\n+ , \\int_{\\Omega} nav.sto,\n+ , q\\ \\nabla sto.sli.bc,\n+dw_stokes , \\cdot \\ul{u} nav.sto.iga,\n+StokesTerm , \\mbox{ or } sta.nav.sto,\n+ , \\int_{\\Omega} lin.ela.up,\n+ , c\\ p\\ \\nabla nav.sto, sto\n \\cdot \\ul{v}\n \\mbox{ , }\n \\int_{\\Omega}\n c\\ q\\ \\nabla\n \\cdot \\ul{u}\n ev_sum_vals \n SumNodalValuesTerm\n@@ -747,20 +747,20 @@\n for } K \\from\n \\Ical_h:\n \\int_{T_K}\n \\ul{n} \\cdot\n K_{ij}\n \\nabla_j \\bar\n {p}\n- \\int_{\\Gamma} com.ela.mat,\n- , \\ul{v} \\cdot nod.lcb,\n-dw_surface_ltr \\ull{\\sigma} lin.ela.tra,\n-LinearTractionTerm , \\cdot \\ul{n}, lin.ela.opt,\n- \\int_{\\Gamma} lin.vis,\n- \\ul{v} \\cdot ela.shi.per\n+ \\int_{\\Gamma} nod.lcb,\n+ , \\ul{v} \\cdot lin.ela.tra,\n+dw_surface_ltr \\ull{\\sigma} lin.ela.opt,\n+LinearTractionTerm , \\cdot \\ul{n}, lin.vis,\n+ \\int_{\\Gamma} ela.shi.per,\n+ \\ul{v} \\cdot com.ela.mat\n \\ul{n},\n \\int_{\\Gamma}\n ev_surface_moment , \\ul{n} (\\ul\n SurfaceMomentTerm {x} - \\ul\n {x}_0)\n , \\int_{\\Gamma}\n dw_surface_ndot q \\ul{c} lap.flu.2d\n@@ -793,18 +793,18 @@\n , \\int_{\\Omega}\n , \\ul{v} \\cdot\n dw_vm_dot_s , \\ul{m} p\n VectorDotScalarTerm , \\mbox{ , }\n , \\int_{\\Omega}\n , \\ul{u} \\cdot\n \\ul{m} q\\\\\n- \\int_{\\Omega} adv.dif.2D,\n-dw_volume_lvf , \\ul{f} \\cdot poi.iga,\n+ \\int_{\\Omega}\n+dw_volume_lvf , \\ul{f} \\cdot poi.iga, bur.2D,\n LinearVolumeForceTerm \\ul{v} \\mbox poi.par.stu,\n- { or } \\int_ bur.2D\n+ { or } \\int_ adv.dif.2D\n {\\Omega} f q\n 1 / D\n ev_volume_surface \\int_\\Gamma\n VolumeSurfaceTerm \\ul{x} \\cdot\n \\ul{n}\n ev_volume \\int_{\\cal\n VolumeTerm {D}} 1\n@@ -895,118 +895,124 @@\n ev_sd_surface_ltr , \\cdot \\ull{\\sigma}\n SDLinearTractionTerm , \\cdot \\ul{n}, \\int_\n {\\Gamma} \\ul{v}\n \\cdot \\ul{n},\n \n **** Table of large deformation terms\u00c2\u00b6 ****\n Large deformation terms\u00c2\u00b6\n-name/class arguments definition examples\n+name/class arguments definition examples\n \\int_{\\Omega} S_\n-dw_tl_bulk_active , {ij}(\\ul{u}) \\delta\n-BulkActiveTLTerm , E_{ij}(\\ul{u};\\ul\n- {v})\n+dw_tl_bulk_active , {ij}(\\ul{u})\n+BulkActiveTLTerm , \\delta E_{ij}(\\ul\n+ {u};\\ul{v})\n+ \\int_{\\Omega} S_\n+dw_tl_bulk_penalty , {ij}(\\ul{u}) hyp, act.fib,\n+BulkPenaltyTLTerm , \\delta E_{ij}(\\ul com.ela.mat\n+ {u};\\ul{v})\n \\int_{\\Omega} S_\n-dw_tl_bulk_penalty , {ij}(\\ul{u}) \\delta com.ela.mat,\n-BulkPenaltyTLTerm , E_{ij}(\\ul{u};\\ul act.fib, hyp\n+dw_tl_bulk_pressure , {ij}(p) \\delta E_ per.tl, bal\n+BulkPressureTLTerm , {ij}(\\ul{u};\\ul\n {v})\n-dw_tl_bulk_pressure , \\int_{\\Omega} S_\n-BulkPressureTLTerm , {ij}(p) \\delta E_ per.tl, bal\n- {ij}(\\ul{u};\\ul{v})\n , \\int_{\\Omega} \\ull\n-dw_tl_diffusion , {K}(\\ul{u}^{(n-1)})\n-DiffusionTLTerm , : \\pdiff{q}{\\ul{X}} per.tl\n- , \\pdiff{p}{\\ul{X}}\n- \n+dw_tl_diffusion , {K}(\\ul{u}^{(n-\n+DiffusionTLTerm , 1)}) : \\pdiff{q} per.tl\n+ , {\\ul{X}} \\pdiff{p}\n+ {\\ul{X}}\n ,\n , \\int_{\\Omega} S_\n-dw_tl_fib_a , {ij}(\\ul{u}) \\delta act.fib\n-FibresActiveTLTerm , E_{ij}(\\ul{u};\\ul\n- , {v})\n+dw_tl_fib_a , {ij}(\\ul{u}) act.fib\n+FibresActiveTLTerm , \\delta E_{ij}(\\ul\n+ , {u};\\ul{v})\n , \n \\int_{\\Omega} S_\n-dw_tl_he_genyeoh , {ij}(\\ul{u}) \\delta\n-GenYeohTLTerm , E_{ij}(\\ul{u};\\ul\n- {v})\n+dw_tl_he_genyeoh , {ij}(\\ul{u})\n+GenYeohTLTerm , \\delta E_{ij}(\\ul\n+ {u};\\ul{v})\n \\int_{\\Omega} S_\n-dw_tl_he_mooney_rivlin , {ij}(\\ul{u}) \\delta com.ela.mat, bal,\n-MooneyRivlinTLTerm , E_{ij}(\\ul{u};\\ul hyp\n- {v})\n- \\int_{\\Omega} S_ com.ela.mat, bal,\n-dw_tl_he_neohook , {ij}(\\ul{u}) \\delta act.fib, per.tl,\n-NeoHookeanTLTerm , E_{ij}(\\ul{u};\\ul hyp\n- {v})\n+dw_tl_he_mooney_rivlin , {ij}(\\ul{u}) hyp, bal,\n+MooneyRivlinTLTerm , \\delta E_{ij}(\\ul com.ela.mat\n+ {u};\\ul{v})\n+ \\int_{\\Omega} S_ bal, act.fib, hyp,\n+dw_tl_he_neohook , {ij}(\\ul{u}) per.tl,\n+NeoHookeanTLTerm , \\delta E_{ij}(\\ul com.ela.mat\n+ {u};\\ul{v})\n \\int_{\\Omega} S_\n-dw_tl_he_ogden , {ij}(\\ul{u}) \\delta\n-OgdenTLTerm , E_{ij}(\\ul{u};\\ul\n- {v})\n+dw_tl_he_ogden , {ij}(\\ul{u})\n+OgdenTLTerm , \\delta E_{ij}(\\ul\n+ {u};\\ul{v})\n ,\n-dw_tl_membrane , bal\n+dw_tl_membrane , bal\n TLMembraneTerm ,\n , \n , \\int_{\\Gamma} \\ul\n-ev_tl_surface_flux , {\\nu} \\cdot \\ull{K}\n-SurfaceFluxTLTerm , (\\ul{u}^{(n-1)})\n- \\pdiff{p}{\\ul{X}}\n+ev_tl_surface_flux , {\\nu} \\cdot \\ull\n+SurfaceFluxTLTerm , {K}(\\ul{u}^{(n-\n+ 1)}) \\pdiff{p}{\\ul\n+ {X}}\n \\int_{\\Gamma} \\ul\n dw_tl_surface_traction , {\\nu} \\cdot \\ull\n-SurfaceTractionTLTerm , {F}^{-1} \\cdot \\ull per.tl\n- {\\sigma} \\cdot \\ul\n- {v} J\n- 1 / D \\int_{\\Gamma}\n-ev_tl_volume_surface \\ul{\\nu} \\cdot \\ull\n-VolumeSurfaceTLTerm {F}^{-1} \\cdot \\ul\n- {x} J\n+SurfaceTractionTLTerm , {F}^{-1} \\cdot per.tl\n+ \\ull{\\sigma} \\cdot\n+ \\ul{v} J\n+ 1 / D \\int_\n+ev_tl_volume_surface {\\Gamma} \\ul{\\nu}\n+VolumeSurfaceTLTerm \\cdot \\ull{F}^{-1}\n+ \\cdot \\ul{x} J\n \\begin{array}{l}\n \\int_{\\Omega} q J\n (\\ul{u}) \\\\ \\mbox\n {volume mode:\n vector for } K\n \\from \\Ical_h:\n-dw_tl_volume , \\int_{T_K} J(\\ul per.tl, bal\n+dw_tl_volume , \\int_{T_K} J(\\ul per.tl, bal\n VolumeTLTerm {u}) \\\\ \\mbox\n {rel\\_volume mode:\n vector for } K\n \\from \\Ical_h:\n \\int_{T_K} J(\\ul\n- {u}) / \\int_{T_K} 1\n- \\end{array}\n+ {u}) / \\int_{T_K}\n+ 1 \\end{array}\n \\int_{\\Omega}\n-dw_ul_bulk_penalty , \\mathcal{L}\\tau_ hyp.ul\n-BulkPenaltyULTerm , {ij}(\\ul{u}) e_{ij}\n- (\\delta\\ul{v})/J\n+dw_ul_bulk_penalty , \\mathcal{L}\\tau_\n+BulkPenaltyULTerm , {ij}(\\ul{u}) e_ hyp.ul\n+ {ij}(\\delta\\ul\n+ {v})/J\n \\int_{\\Omega}\n-dw_ul_bulk_pressure , \\mathcal{L}\\tau_ hyp.ul.up\n-BulkPressureULTerm , {ij}(\\ul{u}) e_{ij}\n- (\\delta\\ul{v})/J\n+dw_ul_bulk_pressure , \\mathcal{L}\\tau_\n+BulkPressureULTerm , {ij}(\\ul{u}) e_ hyp.ul.up\n+ {ij}(\\delta\\ul\n+ {v})/J\n , \\int_{\\Omega}\n-dw_ul_compressible , 1\\over \\gamma p \\, hyp.ul.up\n+dw_ul_compressible , 1\\over \\gamma p \\, hyp.ul.up\n CompressibilityULTerm , q\n \n \\int_{\\Omega}\n-dw_ul_he_mooney_rivlin , \\mathcal{L}\\tau_ hyp.ul, hyp.ul.up\n-MooneyRivlinULTerm , {ij}(\\ul{u}) e_{ij}\n- (\\delta\\ul{v})/J\n+dw_ul_he_mooney_rivlin , \\mathcal{L}\\tau_\n+MooneyRivlinULTerm , {ij}(\\ul{u}) e_ hyp.ul.up, hyp.ul\n+ {ij}(\\delta\\ul\n+ {v})/J\n \\int_{\\Omega}\n-dw_ul_he_neohook , \\mathcal{L}\\tau_ hyp.ul, hyp.ul.up\n-NeoHookeanULTerm , {ij}(\\ul{u}) e_{ij}\n- (\\delta\\ul{v})/J\n+dw_ul_he_neohook , \\mathcal{L}\\tau_\n+NeoHookeanULTerm , {ij}(\\ul{u}) e_ hyp.ul.up, hyp.ul\n+ {ij}(\\delta\\ul\n+ {v})/J\n \\begin{array}{l}\n \\int_{\\Omega} q J\n (\\ul{u}) \\\\ \\mbox\n {volume mode:\n vector for } K\n \\from \\Ical_h:\n-dw_ul_volume , \\int_{T_K} J(\\ul hyp.ul.up\n+dw_ul_volume , \\int_{T_K} J(\\ul hyp.ul.up\n VolumeULTerm {u}) \\\\ \\mbox\n {rel\\_volume mode:\n vector for } K\n \\from \\Ical_h:\n \\int_{T_K} J(\\ul\n- {u}) / \\int_{T_K} 1\n- \\end{array}\n+ {u}) / \\int_{T_K}\n+ 1 \\end{array}\n \n **** Table of special terms\u00c2\u00b6 ****\n Special terms\u00c2\u00b6\n name/class arguments definition examples\n \\begin{array}{l}\n \\int_{\\Omega}\n \\left [\\int_0^t\n"}]}]}]}]}]}