mirror of
https://github.com/triqs/dft_tools
synced 2024-11-01 03:33:50 +01:00
0a1285405c
- Add Fourier for lattice. - Add regular_bz_mesh, cyclic_lattice, and their FFT. - rm freq_infty. - The gf can now be evaluated on a tail_view, which result in composing the tail. - Fix the following issue : g(om_) << g(om_ +1) will recompose the tail correctly. - TODO : TEST THIS NEW FEATURE IN DETAIL. - Work on singularity for G(x, omega) - Separate the factory for singularity from the data factory in gf. - overload assign_from_functoin (renamed). - Fix singularity_t and co in the gf (const issue). - Clean tail, add tail_const_view - add m_tail for x -> tail on any mesh - test curry + fourier works on k
184 lines
3.1 KiB
Plaintext
184 lines
3.1 KiB
Plaintext
(G( 0)) --->
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[[(0,0),(0,0)]
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[(0,0),(0,0)]]
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(Gv( 0)) --->
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[[(20,0),(0,0)]
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[(0,0),(20,0)]]
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(G( 0)) --->
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[[(20,0),(0,0)]
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[(0,0),(20,0)]]
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(Gv2( 0)) --->
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[[(0,0)]]
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(Gv2( 0)) --->
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[[(10,0)]]
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(G( 0)) --->
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[[(10,0),(0,0)]
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[(0,0),(0,0)]]
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(G(om_)) ---> gf(_0)
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(eval(G(om_), om_=0)) --->
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[[(10,0),(0,0)]
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[(0,0),(0,0)]]
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(Gv(om_)) ---> gf_view(_0)
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(eval(Gv(om_), om_=0)) --->
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[[(10,0),(0,0)]
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[(0,0),(0,0)]]
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-------------lazy assign 1 ------------------
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(G(0)) --->
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[[(2.3,3.14159),(0,0)]
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[(0,0),(2.3,3.14159)]]
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(G.singularity()) ---> tail/tail_view: min/smallest/max = -1 -1 8
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... Order -1 =
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[[(1,0),(0,0)]
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[(0,0),(1,0)]]
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... Order 0 =
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[[(2.3,0),(0,0)]
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[(0,0),(2.3,0)]]
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... Order 1 =
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[[(0,0),(0,0)]
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[(0,0),(0,0)]]
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... Order 2 =
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[[(0,0),(0,0)]
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[(0,0),(0,0)]]
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... Order 3 =
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[[(0,0),(0,0)]
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[(0,0),(0,0)]]
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... Order 4 =
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[[(0,0),(0,0)]
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[(0,0),(0,0)]]
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... Order 5 =
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[[(0,0),(0,0)]
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[(0,0),(0,0)]]
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... Order 6 =
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[[(0,0),(0,0)]
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[(0,0),(0,0)]]
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... Order 7 =
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[[(0,0),(0,0)]
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[(0,0),(0,0)]]
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... Order 8 =
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[[(0,0),(0,0)]
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[(0,0),(0,0)]]
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-------------lazy assign 2 ------------------
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(G(0)) --->
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[[(0.151719,-0.207234),(0,0)]
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[(0,0),(0.151719,-0.207234)]]
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(G.singularity()) ---> tail/tail_view: min/smallest/max = -1 1 8
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... Order -1 =
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[[(0,0),(0,0)]
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[(0,0),(0,0)]]
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... Order 0 =
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[[(0,0),(0,0)]
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[(0,0),(0,0)]]
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... Order 1 =
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[[(1,0),(0,0)]
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[(0,0),(1,0)]]
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... Order 2 =
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[[(-2.3,0),(0,0)]
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[(0,0),(-2.3,0)]]
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... Order 3 =
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[[(5.29,0),(0,0)]
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[(0,0),(5.29,0)]]
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... Order 4 =
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[[(-12.167,0),(0,0)]
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[(0,0),(-12.167,0)]]
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... Order 5 =
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[[(27.9841,0),(0,0)]
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[(0,0),(27.9841,0)]]
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... Order 6 =
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[[(-64.3634,0),(0,0)]
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[(0,0),(-64.3634,0)]]
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... Order 7 =
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[[(148.036,0),(0,0)]
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[(0,0),(148.036,0)]]
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... Order 8 =
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[[(-340.483,0),(0,0)]
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[(0,0),(-340.483,0)]]
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(inverse(G.singularity())) ---> tail/tail_view: min/smallest/max = -1 -1 6
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... Order -1 =
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[[(1,0),(0,0)]
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[(0,0),(1,0)]]
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... Order 0 =
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[[(2.3,0),(0,0)]
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[(0,0),(2.3,0)]]
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... Order 1 =
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[[(0,0),(0,0)]
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[(0,0),(0,0)]]
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... Order 2 =
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[[(0,0),(0,0)]
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[(0,0),(0,0)]]
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... Order 3 =
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[[(0,0),(0,0)]
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[(0,0),(0,0)]]
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... Order 4 =
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[[(0,0),(0,0)]
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[(0,0),(0,0)]]
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... Order 5 =
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[[(0,0),(0,0)]
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[(0,0),(0,0)]]
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... Order 6 =
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[[(0,0),(0,0)]
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[(0,0),(0,0)]]
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----------------- 3 --------------------
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(Gv(om_)) ---> gf_view(_0)
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(eval(Gv(om_), om_=0)) --->
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[[(0.151719,-0.207234),(0,0)]
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[(0,0),(0.151719,-0.207234)]]
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(t.order_min()) ---> -1
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(t( 2)) --->
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[[(-2.3,0),(0,0)]
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[(0,0),(-2.3,0)]]
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(Gv2.singularity()( 2)) --->
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[[(-2.3,0)]]
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(G( 0)) --->
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[[(0.151719,-0.207234),(0,0)]
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[(0,0),(0.151719,-0.207234)]]
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(Gc( 0)) --->
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[[(0.151719,-0.207234),(0,0)]
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[(0,0),(0.151719,-0.207234)]]
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----------------- 4 --------------------
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(density(G3)) --->
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[[1.81775,0]
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[0,1.81775]]
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(G( 0)) --->
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[[(0.151719,-0.207234),(0,0)]
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[(0,0),(0.151719,-0.207234)]]
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(G.singularity()(2)) --->
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[[(-2.3,0),(0,0)]
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[(0,0),(-2.3,0)]]
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(( G.singularity() + G.singularity() ) (2)) --->
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[[(-4.6,0),(0,0)]
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[(0,0),(-4.6,0)]]
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(( G.singularity() * G.singularity() ) (4)) --->
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[[(15.87,0),(0,0)]
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[(0,0),(15.87,0)]]
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(t(1)) --->
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[[(1,0),(0,0)]
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[(0,0),(1,0)]]
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